Toro Drilling Motor Handbook
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Transcript of Toro Drilling Motor Handbook
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DRILLING MOTOR
HANDBOOK
— 2012 Edition —
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Toro Downhole Tools Drilling Motor Handbook 2012 Edition Rev. A.2
This Drilling Motor Handbook is for informational purposes only. It is intended to be an aid to the Operator and is provided for information and illustration purposes only. Toro Downhole Tools (Toro) has taken every precaution as to the accuracy of the content and data presented herein, Toro makes no warranties, guarantees, or representations concerning the accuracy or the individual interpretation of the data presented. Further, Toro cannot be held responsible for any loss or damage to any property whatsoever; injury or death to any persons whatsoever; or any claims, demands, actions, complaints, proceedings, judgments, losses, damages, compensations, liabilities, costs or charges, however arising from the unauthorized or undirected use of this handbook or the data it contains. Note: The technical data and information in this Handbook is subject to change without notice.
Toro Downhole Tools 16626 FM 2920 Tomball, TX 77377 U.S.A. 1-888-662-8676 www.torotools.com
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TABLE OF CONTENTS Drilling Motor Introduction .................................................................... 1 Drilling Motor Design ............................................................................. 2
Top Sub .............................................................................................. 2 Safety Catch....................................................................................... 2 Power Section .................................................................................... 3
Power Section Cross Sections ................................................... 3 Power Section Elastomers ......................................................... 3
Coupling Section................................................................................ 4 Bearing Section ................................................................................. 4
Near Bit Stabilizers ..................................................................... 4 Bit Box ................................................................................................ 5
Drilling Motor Applications .................................................................... 6
Performance Drilling (straight-hole) Applications ............................ 6 Directional Drilling (steerable) Applications .................................... 7
Offset Stabilization ..................................................................... 7 Adjustable Bend Housing ........................................................... 7
Air/Foam Drilling Applications .......................................................... 8 Air Volume Calculations .............................................................. 8 Air-Foam Volume Calculations ................................................... 8 Lubricant Recommendations ..................................................... 8 Dump Valves ............................................................................... 9 Flapper Valve .............................................................................. 9 Operational Recommendations ................................................. 9
Coring Applications ............................................................................ 9 Casing Drill Applications ................................................................... 9 Sacrificial BHA Applications ............................................................ 10 High-Temperature Applications ...................................................... 10
Guidelines for High Temperature Applications ....................... 10 Workover / Remedial Applications ................................................. 11 Coil Tubing Applications .................................................................. 11
Pressure Drop Through The Coil Tubing .................................. 11 Torsional Yield of the Coil Tubing ............................................. 11 Buckling of the Coil Tubing ....................................................... 11 Coil Tubing Depth Control ........................................................ 11
Short Radius Applications ............................................................... 12 High Flow Rate Applications ........................................................... 12 Other Applications ........................................................................... 12
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Drilling Motor Operation ...................................................................... 13 Motor Selection ............................................................................... 13 Motor Pre-Operational Procedures ................................................ 13
Making Up the Motor ............................................................... 13 Setting the ABH (if equipped) .................................................. 14 Checking Thrust Bearing Wear ................................................ 16 Checking the Changeable Stabilizer (if equipped) ................. 17 Testing the Dump Valve (if equipped) ..................................... 17 Flow Testing the Motor ............................................................. 17
Motor Tripping Recommendations ................................................ 18 Tripping In the Hole .................................................................. 18 Blockage ................................................................................... 18 Tripping Out of the Hole ........................................................... 18 Maintenance Procedures After Tripping ................................. 19
Drilling Considerations ................................................................... 20 Flow Rates ................................................................................ 20 Drilling References ................................................................... 20 Off-Bottom Pressure ................................................................. 20 Pressure While Drilling ............................................................. 21 Stall Pressure ........................................................................... 21 Rotating the Motor ................................................................... 22 Build Rate Factors .................................................................... 22
Drilling Fluid Considerations .......................................................... 23 Drilling Fluid Solids ................................................................... 23 Oil-Based Drilling Fluids ........................................................... 24 Drilling Fluid Additives .............................................................. 24 Brine or Fresh-Water Drilling Fluids ........................................ 24
Troubleshooting Charts ........................................................................ 25 Drilling Motor Specifications ................................................................ 28
Technical Specification Table ........................................................ 28 Motor Performance Curves ............................................................ 28 Build Rate Prediction Tables .......................................................... 29 Tool Operational and Performance Disclaimer ............................. 29 1-11/16” (169) Drilling Motors
169—56—2 ............................................................................... 30 169—56—4.5 ............................................................................ 32 169 Fishing Dimensions .......................................................... 34
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2-1/16” (206) Drilling Motors 206—45—3 ................................................................................ 36 206—45—7 ................................................................................ 38 206—56—3 ................................................................................ 40 206 Fishing Dimensions .......................................................... 42
2-⅞” (288) Drilling Motors 288—56—3 ................................................................................ 44 288—78—4 ................................................................................ 46 288 Fishing Dimensions .......................................................... 48
3-⅛” (313) Drilling Motors
313—56—3 ................................................................................ 50 313—78—4 ................................................................................ 52 313 Fishing Dimensions .......................................................... 54
3-½” (350) Drilling Motors
350—56—3 ................................................................................ 56 350—78—4 ................................................................................ 58 350 Fishing Dimensions .......................................................... 60
3-¾” (375) Drilling Motors
375—12—4 ................................................................................ 62 375—56—3 ................................................................................ 64 375—910—4 ............................................................................. 66 375 Fishing Dimensions .......................................................... 68
4-¾“ (475) Drilling Motors
475—56—3 ................................................................................ 70 475—56—4 ................................................................................ 72 475—56—5 ................................................................................ 74 475—56—6 ................................................................................ 76 475—78—3 ................................................................................ 78 475—910—2 ............................................................................. 80 475—910—3 ............................................................................. 82 475—910—3.5 .......................................................................... 84 475—910—4 ............................................................................. 86 475 Fishing Dimensions .......................................................... 88
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5-0” (500) Drilling Motors 500—56—3 ............................................................................... 90 500—56—4 ............................................................................... 92 500—56—5 ............................................................................... 94 500—78—4 ............................................................................... 96 500—910—4 ............................................................................. 98 500 Fishing Dimensions ........................................................ 100
5-½” (550) Drilling Motors
550—56—4 ............................................................................. 102 550 Fishing Dimensions ........................................................ 104
6-½” (650) Drilling Motors 650—12—4 ............................................................................. 106 650—56—4 ............................................................................. 108 650—56—5 ............................................................................. 110 650—56—6 ............................................................................. 112 650—910—3 ........................................................................... 114 650—910—4 ........................................................................... 116 650 Fishing Dimensions ........................................................ 118
6-¾” (675) Drilling Motors
675—12—4 ............................................................................. 120 675—34—6 ............................................................................. 122 675—56—4 ............................................................................. 124 675—56—5 ............................................................................. 126 675—56—6 ............................................................................. 128 675—78—5 ............................................................................. 130 675—910—2 ........................................................................... 132 675—910—3 ........................................................................... 134 675—910—4 ........................................................................... 136 675—910—5 ........................................................................... 138 675 Fishing Dimensions ........................................................ 140
8-0” (800) Drilling Motors 800—56—4 ............................................................................. 142 800—56—5 ............................................................................. 144 800—56—6 ............................................................................. 146 800—910—3 ........................................................................... 148 800—910—4 ........................................................................... 150 800 Fishing Dimensions ........................................................ 152
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8-½ (850) Drilling Motors 850—56—4 ............................................................................. 154 850—56—5 ............................................................................. 156 850—56—6 ............................................................................. 158 850 Fishing Dimensions ....................................................... 160
9-⅝” (963) Drilling Motors
963—34—6 ............................................................................. 162 963—56—4 ............................................................................. 164 963—56—5 ............................................................................. 166 963—56—6 ............................................................................. 168 963 Fishing Dimensions ....................................................... 170
11-¼” (1125) Drilling Motors 1125—34—4 ........................................................................... 172 1125 Fishing Dimensions ..................................................... 174
ABH Angle Mark Identification Guide ................................................ 176
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DRILLING MOTOR INTRODUCTION The drilling motor (see Figure 1) is a hydraulically actuated device that converts hydraulic energy into mechanical energy. The purpose of the motor is to generate the rotational speed (RPM) and torque needed to operate the drill bit. The drilling motor takes its energy from a succession of isolated working fluid volumes that force their way, under pressure, through the motor by displacing or deforming the spaces in which they are confined. The downhole drilling motor has undergone substantial changes and improvements over the past 50 years making it a proven and reliable tool even in the most rigorous of drilling environments. Today, most all drilling applications have become a planned routine operation. The technological advances in downhole drilling tools have helped to lower the cost of drilling a well. With the development of durable and reliable downhole tools, the odds of bringing in a successful well have been improved significantly from years past. The Toro Downhole Tools (Toro) line of drilling motors is well suited for the drilling applications of today. The primary focus of this handbook is to assist in explaining drilling applications, motor selection, and operations. This handbook includes information on the following topics:
♦ Drilling Motor Design ♦ Drilling Motor Applications ♦ Drilling Motor Operation ♦ Troubleshooting Charts ♦ Drilling Motor Specifications
By providing comprehensive motor performance curves and operational data, this handbook should help to provide effective solutions to your drilling challenges. Please read this handbook in its entirety. As always, the Toro technical staff is readily available to provide the information you may need regarding the operation of the drilling motor.
Figure 1
Downhole Drilling Motor
Drill Bit
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DRILLING MOTOR DESIGN
The Toro motor is a positive-displacement motor (PDM). As drilling fluid is pumped down the drill-string, the fluid flows through the cavities in the power section. The fluid pressure reacts against the lobes of the rotor and the walls of the stator causing the rotor to rotate. Torque is then transmitted through the coupling section, bearing section and down to the drill bit. The Toro drilling motor is comprised of 6 basic components:
♦ Top Sub ♦ Safety catch ♦ Power-section ♦ Coupling section ♦ Bearing section ♦ Bit Box
Figure 2 is a cutaway view of the entire motor with these basic components identified.
Top Sub
A top sub, or crossover sub as it is sometimes called, is used to attach the motor to the drill-string. The crossover sub typically has a standard API box connection that connects to the drill-string and a proprietary pin connection that connects to the motor. Top subs may also be designed with a float bore for those applications that may require float valve. Optionally, a dump valve sub can be used in place of the top sub. The dump valve sub has the same function as a top sub, but instead contains an internal bypass valve that enables the fluid in the drill-string to drain out when the string is pulled out of the hole.
Safety Catch
The safety catch provides the ability to remove the motor from the well in the unlikely case of a motor connection failure. The safety catch is an essential part of the motor, especially when tool joints are exposed to excessive loads from extreme drilling applications. This component helps to prevent a fishing operation on a broken motor in the well.
Top Sub
Safety Catch
Power Section
Coupling Section
Bearing Section
Figure 2
Bit Box
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Power Section
The power section is the part of the motor that converts hydraulic energy into mechanical energy, resulting in drill-bit rotation. The power section consists of two parts, the rotor and the stator (see Figure 3). When assembled, these two components form a continuous seal along their contact points. The rotor is a high carbon alloy steel bar with a machined helical (multi-lobed) pattern. It is then chromed plated to reduce wear and corrosion. The rotor can also be bored to allow fluid to bypass the power section in order to extend the flow rate capability of the motor. The stator is a length of tubular steel called a ‘can’ that is lined with a rubber compound called the ‘elastomer’. The elastomer is formed with a helical (multi-lobed) pattern similar to the that of the rotor. The difference between the stator and the rotor is
that the stator will have one more ‘lobe’ than the rotor. Since the stator always has one more lobe than the rotor, the ratio of rotor lobes (X) to the stator lobes (X+1) is usually designated as (X):(X+1). For example: 1:2, 3:4, 5:6, 9:10, etc. Power Section Cross-Sections
Referencing the image to your right, the power section cross-section (or profile) shows different “lobed” rotors inside their corresponding stator. The power section profiles are designed with these different ratios to allow for specific motor speeds and torques. Motor speed can be easily changed just by changing the rotor/stator lobe ratio. Generally, the higher the number of rotor/stator lobes yields a power section with a slower speed and higher torque. Fewer rotor/stator lobes yields a power section with a higher speed and lower torque. Power Section Elastomers
Toro offers two types of elastomers for the stator: A Standard compound and a High Performance compound. The Toro Standard elastomer is a versatile and field proven formulation. It has excellent mechanical properties and good resistance to aromatics. The Toro High Performance elastomer is formulated for use in high temperature and/or oil-based mud applications.
Figure 3
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Coupling Section
The coupling section c o m p r i s e s o f t w o components: the internal coupling and the external coupling housing. The coupling (see Figure 4) attaches the lower end of the rotor to the upper end of the drive shaft. The coupling transmits the rotational speed and torque from the rotor to the drive shaft. In addition, the coupling converts the eccentric (side-to-side) motion of the rotor to the concentric (in-line) motion of the drive shaft. The coupling is precision machined for smooth articulation and minimal wear while providing optimum torque to the drill bit. The coupling housing encases the coupling within the motor. The coupling housing provides an optimum location for the placement of a bend in the motor. Adding a bend to the coupling housing makes the motor a steerable tool. Coupling housings can have either a single fixed bend angle or a series of adjustable bend angles. Housings with adjustable bend angles typically have a range from either 0 — 3° or 0 — 4° and are easily adjustable at the rig site.
Bearing Section
The bearing section makes up the lower half of the motor. It is comprised of a drive shaft that is supported by a series of radial and thrust bearings. The bearing section is what controls the mechanical energy supplied by the power section to the drive shaft. The drive shaft transfers this energy to the drill bit through the bit box. Drilling parameters, such as weight on bit (WOB), circulation rate, and bit differential pressure directly affect the bearing section.
Figure 4
Figure 5
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The Toro bearing section is an open bearing design (i.e. the bearings are lubricated by the drilling fluid). Toro uses a stacked multiple ball-and-race design for the thrust bearings (see Figure 5). An open bearing system offers the advantage of allowing higher differential pressures across the drill bit over a traditional sealed bearing arrangement.
The thrust bearings support the downward force resulting from the weight on the drill bit (WOB) and the loads from the combined hydrostatic thrust and weight from the internal motor components. Radial bearings support the side loads on the drive shaft and help regulate the flow of drilling fluid through the bearing assembly. Some of the drilling fluid is diverted to cool and lubricate the bearings. Toro uses radial bearings with tungsten carbide tile inserts which are imbedded in a tungsten carbide matrix for maximum wear resistance from side loads. Near Bit Stabilizers:
Toro motors are also available with the ability to add a near bit stabilizer onto the outer bearing housing. Threads are machined on the bearing housing outer diameter to allow a screw-on stabilizer to be installed just above the bit. This thread arrangement allows for easy stabilizer changes in the field. Figure 7 shows a steerable motor with a near bit stabilizer.
Bit Box
The drill bit attaches to the motor at the bit box. For added strength and durability, the bit box is integrated to the drive shaft. Toro motors incorporate a safety device that connects the lower radial bearing onto the upper half of the bit box. This helps to provide additional security against leaving the bit in the hole in the unlikely event the drive shaft were to break internally. The bit box typically is machined with an API Regular box (internal) thread.
Figure 6
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DRILLING MOTOR APPLICATIONS
Operators, drilling contractors, service, and tool supply companies have worked diligently over the years to improve drilling technology. Their common goal has been to reach their drilling targets, quickly, efficiently, and at a reasonable cost. Over the years, these drilling targets have become more complex and difficult to reach. Delivering horsepower directly to the bit has become increasingly important. To date, the best way to achieve RPM and torque to the bit, independent of rotating the drill-string, is with a downhole drilling motor. The need for motors in different applications has led to the design of several types of downhole motors. These motors are specifically configured to the drilling application for which they are needed. Typical drilling applications and their corresponding motors are presented in this section.
Performance Drilling (straight-hole) Applications
A Toro drilling motor can be used for performance drilling applications. By turning the drill bit several times faster than the drill-string, a motor can effectively provide an increased rate of penetration (ROP). Since the motor is providing the rotation to the drill bit, rotational speed (RPM) of the drill-string can be significantly reduced from standard rotary drilling speeds. A drilling motor can also provide angle control during adverse conditions commonly found in many vertical applications. Typically, a motor with an adjustable bend housing (ABH) can be used in conjunction with single-shot-survey orientation instrumentation. This arrangement is effective for course corrections, angle control, kickoff, and sidetracking. Compared to rotary drilling technology, downhole motors offer considerable benefits that must be taken into consideration in the economical analysis between drilling with and drilling without a motor. Benefits from drilling with a motor include:
♦ Faster rate of penetration (ROP) ♦ Reduced drilling times ♦ Reduced drill-string rotational speed (RPM) ♦ Less wear and fatigue of drill-string connections ♦ Less drill-string torque ♦ Reduced number of BHA trips in and out of the hole ♦ Straighter holes, providing faster and smoother casing setting
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Directional Drilling (steerable) Applications
When run with a bent coupling housing, a downhole motor can be steered with single shot, wireline steering tools, or with downhole telemetry tools (MWD). The drilling motor provides continuous bit rotation, while selective rotation of the drill-string controls well bore trajectory. Applications that are technically and economically feasible with these systems include:
♦ Directional wells with single or multiple targets. ♦ Horizontal wells with narrow production zones. ♦ Vertical wells with crooked hole tendencies.
Toro currently offers two basic types of steerable motors: Offset Stabilization and Adjustable Bend Housing. Offset Stabilization
Offset stabilization consist of a straight downhole motor fitted with an eccentric stabilizer. The eccentric stabilizer helps to laterally load the bit to affect the desired change in the direction. Some of its advantages include:
♦ Faster rates of penetration ♦ Smoother well curvatures ♦ Better control of the gauge of the hole
Adjustable Bend Housing
Motors with Adjustable Bend Housings (ABH) utilize a bend in the coupling housing. This is the most common type of steerable motor. The bend in the motor creates an offset in the axis of the bit relative to the axis of the hole. This bend is generally an angle between 0 and 3 degrees. Some of the advantages of using an ABH are:
♦ Real time directional control. ♦ Changing the ABH angle changes the well curvature ♦ Changing the bit angle changes drilling direction. ♦ Helps to keep the bit centered in the hole rather
than rely on side-cutting action A Toro steerable motor is an excellent choice for the demands imposed by directional drilling. Our steerable motors can be matched with various types of PDC, roller cone, or diamond bits. A typical steerable BHA with an adjustable bend housing is shown in Figure 7.
Figure 7
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Air / Foam Drilling Applications
The Toro drilling motor can be used successfully for drilling purposes where air or foam is the circulating media. Because air/foam is a compressible media, the motor will operate and behave differently than normal. In addition, the pressure required with air or foam drilling is approximately twice the pressure required when standard drilling fluids are used. When operated on air, the drilling motor will have the following attributes:
♦ Will require higher pressure to operate (2X over drilling with a liquid) ♦ Will require higher flow rates (3X to 4X the flow rate of a liquid) ♦ Will run at higher RPMs ♦ Be more weight sensitive ♦ Stall at a lower pressure (less operating torque) ♦ Require less WOB to drill
Air Volume Calculation
All Toro motor specifications are based using a liquid volume flow rate (gallons per minute or GPM). To run the motor on air, the liquid volume flow rate must be converted to an air volume flow rate (cubic feet per minute or CFM). Use the following calculation to convert the motor flow rate from GPM to CFM:
1 GPM of fluid equals approximately 4.25 CFM of air
For example: 400 GPM X 4.25 = 1,700 CFM (estimated) Air-Foam Volume Calculation
When using air with foam as a the circulating media, it is recommended that 3 ½ to 4 ½ CFM of air plus 10 to 100 GPM of injected foam be used. Lubricant Recommendations
Running the motor in air without adequate lubrication will result in severe damage to the internal components. It is extremely important that a minimal amount of lubricant (consistent with formation capability, available equipment, etc.) be used. Below are a list of lubricants that can be used successfully in a motor running on air.
♦ Liquid soap — 0.5 to 1 gal/bbl of water ♦ Graphite — 4 to 6 lb/bbl of water ♦ Gel — 0.5 to 1 lb/bbl of water ♦ Oil — 0.1 to 0.6 gal/hr
Lubricants should always be injected downstream of the air compressors to prevent contamination.
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Dump Valve
A motor dump valve should not be used when running on air/foam. If the motor is equipped with a dump valve, replace it with a crossover sub. Flapper Valve
A flapper valve should be used to control bleed-off and when running wireline tools. Float valves should be placed immediately above the motor and on the surface to avoid back flow. It is also recommended that drill-string float valves can be installed every 1,000 ft for additional control. Operational Recommendations
Before turning on the air compressor, set the motor on bottom. Apply a light weight on the bit while pumping in the air. Do not allow the tool to run off-bottom. If the motor is allowed to run freely off-bottom, the rotational speed of the bit will rapidly increase as the compressed air expands through the motor. Excessive RPMs can damage the motor. Such damage may include:
♦ Stator damage due to friction/heat ♦ Thrust bearing damage due to friction/heat ♦ Thrust bearing damage if weight is applied suddenly to the bit
Turn off the air compressor before picking up off-bottom. Allow the air pressure to bleed off first until the standpipe pressure is equal to the annulus pressure.
Coring Applications
A downhole motor is an ideal tool to use for coring applications. Slow-speed motors are especially suited for coring because of their high torque capability. Properly configured motors can drive core barrels up to 90 ft in length. To use a motor in a coring application, a special drop-ball sub is needed between the motor and the core barrel. An increase in flow rate causes a steel ball to drop from this special sub, thereby redirecting fluid flow to the annulus between the inner tube and outer tube of the core barrel for the coring operation.
Casing Drill Applications
Simultaneous drilling and running large-diameter surface casing has saved many hours of rig time in both land and offshore operations. This operation is performed with a casing drill, which is an assembly consisting of: a drill bit, a Toro motor, a jet sub, drill collars, and crossover subs. All of these items are suspended by a running tool that is latched into a preassembled conductor pipe. When the desired depth is reached, the drilling assembly is unlatched
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and tripped, leaving the conductor pipe in place. The casing-drill tool and technique are typically used in unconsolidated alluvial formations.
Sacrificial BHA Applications
Another application similar to a casing drill operation includes the use of a drilling motor on a sacrificial BHA. The motor is run in the hole at the end of the last casing string. The purpose for the motor is to drill out any collapsed areas of the hole while running in the casing string. The motor is then cemented in the hole along with the casing. Toro offers an economically designed motor specific for sacrificial BHA operations.
High Temperature Applications
Most applications have bottom hole temperatures below 250°F (120°C). Toro motors (with standard stator elastomer) are designed for such applications. Applications with bottom hole temperatures above 250°F are considered high temperature applications. A Toro motor, with the available high performance elastomer, is capable in running in temperatures up to 350°F (175°C). Appropriately equipped, a Toro drilling motor can be made to operate at even higher temperatures, though only for a limited time. For most high temperature applications, a reduced motor life should be expected. It is important to note that drilling motor power sections are designed with a certain interference fit between the rotor and stator. For the drilling motor to operate efficiently, the interference fit must remain within a specified range. A high bottom hole temperature can cause the elastomer in the stator to swell, increasing the interference fit. A high interference fit can result in damage to the stator and reduce motor operating life. It is therefore very important for a drilling motor to have an appropriate interference fit to use in a high temperature drilling operation. Guidelines for High Temperature Applications
For a bottom hole circulating temperature (BHCT) exceeding 250°F (120°C) , the following guidelines are recommended:
♦ Contact a Toro motor representative to prepare a motor with a suitable elastomer and interference fit for use in a high temperature application.
♦ Stage the motor in the hole: Upon reaching a depth where temperature is estimated to
be approximately 250°F (120°C) or higher, stop and circulate cool drilling fluid for a few minutes to lower the temperature of the BHA.
Continue this process in stages of 500 to 1,000 ft until reaching operating depth.
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♦ Non-circulating periods (surveying, orienting, etc.) must be as short and as infrequent as possible.
Workover / Remedial Applications
Workover and remedial drilling problems can be solved easily with a Toro drilling motor. The motor can be used for
♦ Drilling through sand bridges and cement plugs ♦ Removal of paraffin buildup ♦ Window milling ♦ Horizontal drilling
Coiled Tubing Applications
Toro motors can be used in many different coiled tubing applications. Remedial, production, and drilling jobs have all been successfully executed with a downhole drilling motor. The following are important items to consider when planning a motor run on coiled tubing: Pressure Drop through The Coil Tubing
Unlike conventional drilling operations, the length of coil tubing, spooled or un-spooled, is fixed at all times. Hydraulic calculations must be made to ensure that the recommended flow-rate range of the desired motor can be achieved within the maximum working pressure of the pumps and the coil tubing. Torsional Yield of the Coil Tubing
The maximum stall torque of the motor should not exceed 80% of the nominal torsional yield of the tubing for vertical drilling, and 50% of the nominal yield for drilling directional wells. The lower figure for directional applications allows greater coil stiffness for a more stable tool face. All other applications should adhere to the 80% rule. Mechanical properties of popular sizes and types of coil tubing can be found in manufacturers’ handbooks. Buckling of the Coil Tubing
Computer software is available to calculate maximum WOB for a given directional or horizontal-well profile. For vertical applications, it is recommended that drill collars be run with sufficient outside diameter and length to keep the coil tubing in tension while providing sufficient weight to the bit. Coil Tubing Depth Control
Depth control is critical with coil tubing, especially in deeper wells (greater than 5,000 ft). It is recommended that at least two depth-tracking methods be used.
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Typically, both mechanical and electronic depth control devices are used simultaneously, and their outputs are compared for accuracy during the job. In the absence of a backup system, the coil tubing can be hand strapped during tripping.
Short Radius Applications
Toro drilling motors, typically 4-3/4” OD and smaller, can be used for short-radius applications. Short-radius drilling is a highly specialized application for drilling motors, and each well requires a thorough drill-string and BHA analysis. Before planning a short-radius drilling job, we recommend contacting a Toro representative.
High Flow Rate Applications
Certain applications require the use of high flow rates in order to keep the hole clean, reduce the bottom hole temperature, removal of cuttings, etc. To extend the flow-rate range of a motor, a bored rotor can be utilized in the motor’s power section. A bored rotor permits a certain amount of drilling fluid to by-pass the power section thus allowing the motor to handle higher flow rates than normal. Typically, a bored rotor uses a selectable nozzle to control the amount of fluid that is by-passed through the center of the rotor. To avoid adverse affects on motor performance, care must be exercised in nozzle selection. Contact your Toro representative for recommendations on a motor with a bored rotor and nozzle.
Other Applications
Toro motors are also available for applications such as:
♦ Horizontal directional drilling (HDD) ♦ Mining ♦ Geothermal drilling ♦ Downhole milling ♦ Hole opening ♦ Under-reaming ♦ Piling ♦ Casing ♦ Template drilling
Contact your Toro nearest representative for more information on motors for these and other drilling applications.
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DRILLING MOTOR OPERATION
Motor Selection
The drilling operation can be very complex and require detailed planning for any type of application. Several factors must be considered when selecting the motor for a drilling application. These include the following:
♦ Hole size ♦ Bit type ♦ Required bit speed ♦ Required bit torque ♦ Weight-on-bit (WOB) ♦ Pressure drop across the bit ♦ Flow rate / annular velocity required to clean the hole ♦ Mud type (composition) ♦ Bottom hole circulating temperature ♦ Drill-string specifications ♦ Stabilizer placement ♦ Well profile ♦ Site logistics
Motor Pre-Operational Procedures
Proper and efficient operation of a Toro motor depends on operating the tool within the parameters defined in tool specification and on following the recommended procedures for motor operation. Specifications are listed in this handbook for each tool size and the following are the recommended procedures for motor operations:
Caution: Safety glasses, steel-toed shoes, and a hard hat must be worn while performing any of the following procedures. All applicable rig floor safety procedures must be followed. Lifting and torque equipment should be checked for ratings and operational condition per appropriate specifications before using.
Making Up the Motor
1. Make up the drill bit to the motor using a bit breaker and by placing the tongs on the motor bit box. Caution: If a bit crossover sub or thread adapter is used, the overall length of the sub should be only long enough to accept make-up tongs (recommended maximum is 10 inches or 254 mm.). Lengths greater than this may damage or reduce bearing life and/or cause the drive shaft to break resulting in the loss of the sub and bit in the hole.
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2. If the motor has been unused for an extended period of time, it is recommended that the following steps be taken to break-in the motor before use:
Place make-up tongs on the coupling housing and, with the bit in the bit breaker, slowly rotate the rotary table one to two revolutions in the counter-clockwise direction.
— OR — Place make-up tongs on the coupling housing, lock the table and pull on the tongs to rotate the stator one to two revolutions in the clockwise direction.
Note: Do not place tongs on the bearing assembly as this may pinch the internal components and could prevent the motor from turning.
3. Lower the tool into the slips and secure with a drill collar clamp before
removing or making up additional equipment.
4. If required, a float sub can be installed immediately above the tool. A float sub will avoid problems with plugging of the bit and motor while tripping in the hole.
♦ Do not thread joints into the motor top sub by rotating the motor
with the rotary table. The bit could hang up on the casing wall and result in unthreading the tool’s internal joints or cause the bit to unthread.
♦ To avoid unthreading internal
joints, the bit box should only be turned counter-clockwise with respect to the motor housing above.
Setting the ABH (if equipped)
Setting the adjustable bend housing is a fairly simple operation. Below is the procedure for setting the Toro adjustable bend housing: 1. Tong in the areas as shown in Figure 8.
Do not tong on the Orientation Sleeve.
2. Break apart the ABH connection.
3. Unthread the Lower ABH Housing two to four complete turns.
Figure 8
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4. Referencing Figure 9, slide the Orientation Sleeve down to disengage the interlocking teeth.
5. To adjust the bend angle, rotate the Orientation Sleeve (no more than ½ turn either direction) until the desired bend angle mark is in-line with the identical bend angle mark on the Upper ABH Housing.
6. Referencing Figure 10, Slide the Orientation Sleeve upward so that the interlocking teeth are fully engaged.
7. Check to see if the desired bend angle marks on both the Upper ABH Housing and the Orientation Sleeve are in-line. If not, re-adjust the Orientation Sleeve until the desired bend angle marks are in-line.
8. Apply thread dope to the bottom face of the Orientation Sleeve. Caution — Do not use thread locking compound on the ABH connections.
9. While keeping the Orientation Sleeve fully engaged in the Upper ABH Housing, thread on the Lower ABH Housing until it shoulders against the Orientation Sleeve.
10. Tong in the areas as shown in Figure 8 and apply the appropriate torque to the connection. See the Table on the next page for the recommended ABH torque values.
11. The bend angle marks on the Upper ABH Housing and the Orientation Sleeve that match and are in-line with each other tell the angle of the ABH. In addition, these matching and in-line bend angle marks indicate the high side of the tool.
Note: an ABH Angle Mark Identification Guide is located in the back of this manual.
Figure 9
Figure 10
16
Checking Thrust Bearing Wear
It is recommended that prior to re-running a motor in the hole, the thrust bearings be checked for wear. Thrust bearing wear can be determined easily by the amount of play the drive shaft has between the back face of the bit box and the end of the bearing housing. The follow describes how to check the allowable play the bit box can have:
1. Lift the motor off the rig floor and let it hang freely above the ground. Referencing Figure 11, take a measurement (L1) between the bottom of the bearing housing and the top of the bit box.
2. Lower the motor until it sits flat on the rig floor. Take a measurement (L2) at the same location.
3. To determine thrust bearing wear, take the result of L1 minus L2.
4. Do not use the motor if the thrust bearing wear exceeds the amount listed in the table below.
Tool Size (OD)in
(L1) - (L2)in
(L1) - (D2)mm
2-7/8 0.12 3.0
3-1/8 0.12 3.0
3-1/2 0.12 3.0
3-3/4 0.12 3.0
4-3/4 0.12 3.0
5-1/2 0.18 5.0
6-1/2 0.18 5.0
6-3/4 0.18 5.0
8-0 0.25 6.0
8-1/2 0.25 6.0
9-5/8 0.28 7.0
11-1/4 0.30 8.0
Allowable Bearing WearFigure 11
Motor OD English Metric Motor OD English Metric
2-7/8 (287) 2,200 ft-lbs 3,000 N-m 6-1/2 (650) 23,000 ft-lbs 31,000 N-m
3-1/8 (313) 2,700 ft-lbs 3,600 N-m 6-3/4 (675) 25,000 ft-lbs 34,000 N-m
3-1/2 (350) 3,800 ft-lbs 5,100 N-m 8 - 0 (800) 35,000 ft-lbs 47,000 N-m
3-3/4 (375) 4,600 ft-lbs 6,300 N-m 8-1/2 (850) 38,000 ft-lbs 51,000 N-m
4-3/4 (475) 7,000 ft-lbs 9,500 N-m 9-5/8 (963) 61,000 ft-lbs 83,000 N-m
5-1/2 (550) 16,000 ft-lbs 21,700 N-m
ADJUSTABLE BEND HOUSING (ABH) - RECOMMENDED TORQUE VALUES
17
Checking the Near Bit (changeable) Stabilizer (if equipped)
Before running the motor, it is recommended that the near bit (changeable) stabilizer be properly torqued to the bearing housing.
Testing the Dump Valve (if equipped)
Before running the motor, it is recommended that a dump valve test be performed on all motors supplied with a dump valve.
1. Using a long dowel rod, apply pressure to the tapered face of the piston located on the top of the motor. Piston travel should be about 2~3 inches with moderate pressure applied.
2. Fill the valve body with water and then release the piston. Fluid should flow freely from all ports.
Flow Testing the Motor
1. Make up the kelly to the Toro motor and lower the bit box below the rotary table. If the motor is equipped with a dump valve, then lower the motor until the dump valve ports are below the rotary table.
2. Start the rig pumps. Use minimum flow rate for the first few revolutions, then increase slowly as needed.
3. Raise the motor far enough to visually check that the bit sub is rotating
and the tool is operational. Keep the test short to avoid damage to the bit, surface pipe, or blowout preventer (BOP) stack. If equipped with a dump valve and after visually checking for rotation, lower the motor until the dump valve ports are below the rotary table
4. Stop the pumps. If equipped with a dump valve, keep the dump valve ports positioned below the rotary table until the dump valve opens and external drainage stops.
Motor OD English Metric Motor OD English Metric
2-7/8 (287) 1,500 ft-lbs 2,000 N-m 6-1/2 (650) 9,500 ft-lbs 13,000 N-m
3-1/8 (313) 1,500 ft-lbs 2,000 N-m 6-3/4 (675) 11,000 ft-lbs 15,000 N-m
3-1/2 (350) 2,200 ft-lbs 3,000 N-m 8 - 0 (800) 22,000 ft-lbs 30,000 N-m
3-3/4 (375) 3,000 ft-lbs 4,000 N-m 8-1/2 (850) 26,000 ft-lbs 35,000 N-m
4-3/4 (475) 4,000 ft-lbs 5,500 N-m 9-5/8 (963) 37,000 ft-lbs 50,000 N-m
5-1/2 (550) 6,000 ft-lbs 8,000 N-m 11- 1/4 (1125) 44,000 ft-lbs 60,000 N-m
CHANGEABLE STABILIZER - RECOMMENDED TORQUE VALUES
18
Motor Tripping Recommendations
Tripping In the Hole
While the Toro drilling motor is a reliable tool, it can be susceptible to damage if care is not taken when tripping the drill pipe. The following are recommendations for tripping the motor in the hole:
♦ Trip in at a controlled rate to avoid damage from striking bridges, shelves, or casing shoes.
♦ Ream through any tight spots by starting the pumps and reaming
slowly. Excessive reaming operation may shorten motor life.
Caution: To avoid sidetracking when tight spots are encountered in a directionally controlled wellbore, the pumps should not be started without a directional driller or other knowledgeable and responsible person on the rig floor.
♦ If tripping to extreme depths and/or high temperatures, periodic stops
for circulation (staging in the hole) are required. Every 500 to 1000 feet, it is recommended that the drill-string be circulated for a few minutes with the lowest volume and pressure necessary to start the motor.
♦ If extended circulation is required while in the casing, reciprocate the
kelly to avoid localized casing wear. ♦ If there is a float valve in the string or if fluid characteristics prevent
easy flow, periodic stops are recommended to fill the drill pipe.
Caution: Reduce tripping speed when approaching the last 60 to 90 feet of hole as there may be fill in the bottom of the hole or the pipe tally may be incorrect.
Blockage
If there is no float valve in the string and “backflow” is observed while making up connections, it may be possible that sand or other debris may have entered the drill-string. This condition could result in a blockage of the motor and/or other BHA component. In this case, a trip may be necessary to change out the blocked BHA section. Tripping Out of the Hole
The following are recommendations for tripping out of the hole:
19
♦ If the motor is equipped with a dump valve, the dump valve will only open when the pumps are stopped (no pressure in the drill-string). If there is any internal pressure in the drill-string, the dump valve may shut preventing the drill fluid from draining and causing a wet trip.
♦ When tripping out, the rotary table should not be used to break out
connections of steerable assemblies with a high build-rate angle. ♦ Always reduce tripping speed when nearing casing shoe points. ♦ Control tripping speed to avoid swabbing the hole. ♦ Avoid excessive back-reaming as it may shorten motor life.
Maintenance Procedures After Tripping
The following post-run maintenance steps are required after tripping out of the hole:
1. Remove remaining fluid from the motor by placing the bit in a bit breaker.
2. Secure the motor body above the rotating bit sub with rig tongs.
3. Rotate the rotary table and bit counter-clockwise, forcing or “pumping” the fluid out the top of the motor.
4. After the bit has been removed, spray water directly through the bit box. This will wash out the ports above the drive shaft and help clean the bearing section.
5. If the tool is equipped with a dump valve, pour clean fluid into the top of the dump valve. Work the piston using a long dowel rod (i.e. broom handle) until it travels freely between the down (closed) and up (open) positions.
6. If the tool is to be stored for an extended time before re-use, flush the motor with clean water. Rotate the outer bearing housing to remove traces of the drilling fluid from the bearing stack. Pour a small amount of mineral oil or equivalent into the motor to protect the internal components from rusting or seizing. Do not use a diesel-based oil.
7. Re-dope the bit box and dump valve box. Install closed-end thread protectors.
20
Drilling Considerations
The performance and life of the motor is determined by the environment in which it operates. To ensure optimum performance and longest life, avoid
♦ Abrasive solids in the circulating system (the use of drill pipe screens is highly recommended)
♦ Aromatics in the circulating systems. ♦ High temperatures. ♦ Pumping higher than recommended fluid volume. ♦ Exceeding recommended weight on bit (WOB) loads. ♦ Exceeding the recommended pressure drop across the bit and motor. ♦ Repeated stalling of the motor
Flow Rates
The recommended minimum/maximum flow rate for each motor should be observed to achieve optimum torque and tool life. Flow rates for each Toro drilling motor are given in this Motor Handbook. It is recommended that before the motor reaches the bottom of the hole, the flow rate should be started at the minimum rate and then slowly increased to the recommended operating range. Caution: Exceeding the recommended flow rates could potentially damage the motor. For applications requiring a high flow rate, refer to the section: [Drilling Motor Applications: High Flow Rate Applications] in this handbook. Drilling References
The Toro motor is a hydraulically operated tool. Therefore, the primary rig-floor reference is the standpipe pressure gauge. The weight indicator can also be used as a drilling reference, however it may give inaccurate information about actual WOB because of potential “wall hanging” during sliding operations. In this case, the only true indication of whether the bit is on bottom drilling, is the pressure gauge. Refer to Figure 12 for off-bottom, drill-off, and stall-out conditions that are discussed in the following sub-sections. Off-Bottom Pressure
When the motor is off-bottom circulating, the standpipe pressure gauge shows the total amount of pressure required to pump a known volume of fluid through the drilling system. This is called “off-bottom” pressure. Output torque is directly proportional to the pressure drop across the motor and is indicated as a change in total system pressure. Motor differential pressure is defined as the pressure above off-bottom pressure.
21
Note: When the bit is side loaded due to an offset stabilizer or adjustable bent housing, off-bottom pressure will include the motor pressure to provide torque to rotate the bit with the imposed side load. True motor differential pressure is obtained from standpipe pressure only when the bit is not side-loaded or when system pressure losses, without the motor, are known.
Pressure While Drilling
More WOB means a higher total system pressure at the surface. As the bit drills off, the total system pressure decreases. Therefore, the standpipe pressure gauge can be used as an indicator of bit weight as well as torque. Drill pipe friction will not cause a distortion of the readings. When the pressure gauge reads the optimum on-bottom pressure and the driller subsequently stops adding weight to the bit, a drill-off occurs. The pressure will steadily fall until the driller puts more weight on the bit. Performance curves and recommended differential pressures for the Toro motor are included in this handbook. Stall Pressure
When enough WOB is added to exceed the maximum differential pressure of the motor, a stall will occur. The backpressure of the drilling fluid will cause the elastomer in the motor’s power section to deform. This results in the drilling fluid to flow straight through the motor without causing the bit to turn. The pressure gauge will rise abruptly, and then remain stationary, even if more weight is added to the bit. When a stall occurs, the driller merely has to raise the bit off bottom slightly to restart the tool and continue drilling. Stall pressure is about twice the recommended optimum differential pressure across the motor. Caution: Operating in a stalled condition, even for a short period of time, can seriously damage the motor. Stalling can lead to tearing or “chunking” of the stator elastomer. Once a stator is chunked, motor performance will dramatically decrease or possibly the motor could cease to function.
Figure 12
22
Rotating the Motor
Steerable applications and many performance (straight-hole) applications require rotation of the drill-string. Rotation of the drill-string is necessary for issues such as directional control, lower drill-string torque or reduced drill-string drag, transport of cuttings, and differential sticking. Rotating the drill-string with a downhole motor is allowable, however it is recommended that the drill-string RPM be kept to a minimum to prolong motor life. A maximum drill-string speed of 60 RPM is recommended, although speeds up to 120 RPM may be permissible in some applications. The two most common problems associated with drill-string rotation are component fatigue and connection back-off. Fatigue is a function of stress level and the number of load cycles at that level. Increasing RPM increases the number of load cycles within a given period of time, thereby potentially reducing component life. In steerable applications, the angle of the adjustable bend housing can have a large impact on the stress level of a motor component. The following table shows what adjustable bend housing angles are allowed for drill-string rotation in order to prolong motor life:
Back-off of a connection can occur if the drill-string becomes stalled and then rotates suddenly when released from the stalled state. Back-off typically occurs when drilling through ledges, tight spots, or formation stringers. This condition, also known as stick-slip, causes severe lateral vibration resulting in potential connection back-off. When drilling through stringers or other formation conditions that are known to cause stick-slip, it is recommended that rotary speed be reduced as much as possible. Caution: When a drill-string is completely stalled, do not pick up the drill-string until the torsion energy in the drill-string is released. Allow the drill-string to slowly drive the rotary table or top drive backwards until all of the torque is released. Then pick up the drill-string and resume drilling at reduced RPM until the stick-slip condition is overcome. Build Rate Factors
In steerable applications, many factors affect the build rate of the motor.
ABH angle Rotation of Drill-String
0.00 — 0.93 degrees Allowed (50 RPM or less)
1.22 — 1.76 degrees Permissible for short periods (40 RPM or less)
2.00 or higher degrees Not Recommended
23
Factors such as tool-size to hole-size ratio, drilling fluid type, flow rate, hole erosion, formation anisotropy, placement of stabilizers or pads, bottom hole assembly (BHA), motor bend angle and distance from bit to bend, and the type of bit used. Following these recommendations can minimize these factors affecting build rate:
♦ The lower the tool-size to hole-size ratio, the better the build rate. ♦ Changing the WOB can cause the build rate to change. Generally, an
increase to the WOB causes the build rate to increase. ♦ The placement of pads and the use of a near bit stabilizer on the BHA
has a significant impact on achieving a good build rate. ♦ Build rate can be better predicted if formation-class empirical data are
available. Some formations prohibit good build rates, and these types of formations should be identified while planning the drilling program.
♦ Build rate is directly related to bend angle severity and the distance from the bend to the bit.
Drilling Fluid Considerations
While Toro motors are suitable for a wide range of drilling muds, the following factors should be considered before running the motor. Drilling Fluid Solids
Drilling fluid properties for use with a motor should be maintained within the same constraints as standard rotary drilling. However, the following precautions should be observed:
♦ The drilling fluid should be free of plugging agents, as well as foreign objects.
♦ The use of a drill-pipe screen is highly recommended. ♦ The fluid should have the least possible sand content (1% or less is
recommended). ♦ Drilling fluid additives should be used only in limited amounts.
Excessive amounts of drilling fluid additives, such as lost circulation material (LCM), can have a significant impact on motor performance and/or motor life. Drilled solids and/or abrasive additives should be kept to a minimum. A poorly mixed slug of weighted material or LCM can plug up the motor and terminate operations.
♦ Where possible, hematite-weighting materials should not be used.
These materials can reduce the operational life of a motor.
24
Oil-Based Drilling Fluid
It is highly recommended that the motor be equipped with a power section using an elastomer suitable for use in oil-based drilling fluids (drilling fluid with diesel as the base). Oil-based drilling fluid can easily damage the motor’s power section and significantly reduce the operational life of the motor. The degree of motor damage depends on the specific chemistry of the oils used. One measure of an oil’s aggressiveness in damaging elastomers is the oil’s aniline point. The aniline point of a material may be defined as the lowest temperature at which equal volumes of freshly distilled aniline and the oil being tested are completely miscible. As an oil’s aniline point decreases, the oil becomes more damaging. While aniline point is a useful measure, some oil-based drilling fluids can still be aggressive despite a high aniline point. It is important to note that drilling motor power sections are designed with a certain interference fit between the rotor and stator. For the drilling motor to operate efficiently, the interference fit must remain within a specified range. Oil-based drilling fluid can cause the elastomer in the stator to swell, increasing the interference fit. A high interference fit can result in damage to the stator and reduce motor operating life. It is therefore very important for the motor to have an interference fit appropriate for use in oil-based drilling fluid. Note: The stator should contain an elastomer compound suitable for use in oil-based drilling fluids. Because of the degradation of elastomers exposed to oil-based drilling fluids, Toro recommends that the elastomer compound selection be based on fluid compatibility testing. Please contact your Toro representative for more information regarding the use of oil based drilling fluids with motors. Drilling Fluid Additives
Certain amine-based additives, such as emulsifiers, corrosion inhibitors, and scavengers, can cause damage (even in very small quantities) to the motor. It is recommended that amine-based additives not be used. Brine or Fresh-Water Drilling Fluid
Brine and fresh-water muds (with the exception of bentonite gels) provide little lubrication for the motor power section and internal components. Abrasive wear can be a concern. Further, brine drilling fluids can cause corrosion of motor internal components. It is recommended that a Toro representative be contacted if brine or fresh-water drilling fluids are to be used.
25
TRO
UB
LE-S
HO
OTI
NG
CH
ARTS
To
ro d
ownh
ole
mot
ors
are
desi
gned
and
man
ufac
ture
d w
ith s
tric
t ad
here
nce
to h
igh
qual
ity c
ontr
ol s
tand
ards
. A
Tor
o m
otor
sh
ould
pro
vide
tro
uble
-free
per
form
ance
whe
n pr
oper
ope
ratio
nal p
roce
dure
s ar
e fo
llow
ed.
How
ever
, sho
uld
a pr
oble
m a
rise,
the
fo
llow
ing
Trou
ble-
shoo
ting
Cha
rts
prov
ide
com
mon
ly e
ncou
nter
ed d
rillin
g pr
oble
ms
with
thei
r co
rres
pond
ing
solu
tions
. N
ote:
The
se tr
oubl
e-sh
ootin
g ch
arts
off
ers
assi
stan
ce in
sol
ving
com
mon
mot
or p
robl
ems
that
may
dev
elop
. Th
ey a
re n
ot in
tend
ed
as a
sub
stitu
te fo
r ex
peri
ence
d su
perv
isio
n. S
houl
d yo
u ne
ed fu
rthe
r as
sist
ance
, ple
ase
cont
act y
our
near
est T
oro
repr
esen
tativ
e.
MO
TOR
AN
D B
IT O
FF B
OTT
OM
CIR
CU
LATI
NG
PR
ESS
UR
EPO
SS
IBLE
CAU
SE
REM
EDY
Lost
circ
ulat
ion
Follo
w lo
st c
ircul
atio
n pr
oced
ures
Dril
l-str
ing
was
hout
Pull
out o
f hol
e. C
heck
str
ing.
Ope
n du
mp
valv
e(If
equ
ippe
d)S
top
pum
ps.
Res
tart
usi
ng in
crea
sed
flow
Plug
ged
mot
or o
r bi
tS
top
pum
ps.
Res
tart
pum
ps a
nd v
ary
flow
rat
es.
Rec
ipro
cate
str
ing.
Bit
side
-load
ing
Dril
l ahe
ad c
aref
ully
to r
elax
tool
ass
embl
y
Dec
reas
e in
circ
ulat
ing
pres
sure
(low
er th
an e
xpec
ted)
Incr
ease
in c
ircul
atin
g pr
essu
re(h
ighe
r th
an e
xpec
ted)
26
RO
PSP
PW
OB
RO
TAR
Y TO
RQ
UE
POSS
IBLE
CAU
SE
REM
ED
Y
Falls
Har
der f
orm
atio
nO
ptim
ize
ROP
. Co
ntin
ue d
rillin
g
Ris
esSt
abili
zers
ream
ing
Con
tinue
with
cau
tion.
If u
nsat
isfa
ctor
y, p
ull b
it
Bit b
allin
gLi
ft o
ff bo
ttom
, rec
ipro
cate
. Was
h aw
ay b
allin
g m
ater
ial
Bit i
s w
earin
gC
alcu
late
cos
t/fo
ot a
nd e
ither
con
tinue
dril
ling
or p
ull b
it
Mot
or S
tall
Imm
edia
tely
sto
p ro
tary
, pul
l off
bot
tom
, ret
art c
autio
usly
Bear
ings
lock
edLi
ft o
ff bo
ttom
, che
ck p
ress
ure,
try
to d
rill o
ff w
ithou
t rot
ary
Fluc
tuat
esN
orm
alFl
uctu
ates
Junk
in h
ole
Bit c
ones
lock
ing
Atte
mpt
to w
ash
away
junk
. Fi
sh if
nec
cess
ary
Falls
Nor
mal
Nor
mal
Strin
g w
ash
out
Imm
edia
tely
pul
l out
for c
heck
Rise
sN
orm
alN
orm
alPl
ugge
d m
otor
or
bit
Sto
p pu
mps
. Res
tart
, var
y pr
essu
re, r
ecip
roca
te s
trin
g
Ris
esRi
ses
Nor
mal
Ris
esSo
fter f
orm
atio
nO
ptim
ize
ROP
- Co
ntin
ue d
rillin
g
ROP
= Ra
te o
f Pen
etra
tion
S
PP =
Sta
nd P
ipe
Pres
sure
W
OB
= W
eigh
t on
Bit
Ris
es
Falls
Nor
mal
DR
ILLI
NG
WIT
H M
OTO
R A
ND
RO
TAR
Y
Nor
mal
Falls
Falls
Rise
sN
orm
al
27
FIR
ST
IND
ICAT
OR
SEC
ON
D IN
DIC
ATO
RP
OS
SIB
LE C
AUS
ER
EMED
Y
No
RO
PSP
P H
ighe
r th
an M
axim
umM
otor
Sta
llPu
ll of
f Bot
tom
, Add
WO
B c
aref
ully
to r
esta
rt
SPP
Rise
s Hig
her t
han
Max
imum
No
RO
PM
otor
Sta
llPu
ll of
f Bot
tom
, Add
WO
B c
aref
ully
to r
esta
rt
SPP
Ris
es, W
OB
Nor
mal
Bro
ken
or w
orn
bit c
utte
rs.
Bit
ringi
ngC
alcu
late
cos
t/fo
ot a
nd e
ither
con
tinue
dril
ling
or p
ull b
it
SPP
Falls
, WO
B N
orm
alH
ard
form
atio
n or
stab
ilize
r ha
ngin
g up
Con
tinue
with
cau
tion.
If u
nsat
isfa
ctor
y, p
ull b
it
SPP
Ris
es, F
ails
to r
espo
ndto
incr
ease
d W
OB
Bit
Bal
ling
Lift
off
bot
tom
, rec
ipro
cate
. Was
h aw
ay b
allin
g m
ater
ial
Slow
Fal
l in
SPP
Bit
is W
earin
gC
alcu
late
cos
t/fo
ot a
nd e
ither
con
tinue
dril
ling
or p
ull b
it
SPP
Fluc
tuat
esAs
sem
bly
boun
cing
junk
in th
e ho
leAt
tem
pt to
was
h aw
ay ju
nk.
Fish
if n
ecce
ssar
y
SPP
Ris
es, W
OB
nor
mal
Soft
er fo
rmat
ion
Pull
off B
otto
m, r
ecal
cula
te a
ngul
ar r
eact
ive
torq
ue.
Con
tine
drill
ing
usin
g re
calc
ulat
ed p
aram
eter
s.
Tool
face
hea
ding
(TFH
)tu
rns
to th
eLef
tSo
fter
form
atio
nPu
ll of
f Bot
tom
, rec
alcu
late
ang
ular
rea
ctiv
e to
rque
.C
ontin
e dr
illin
g us
ing
reca
lcul
ated
par
amet
ers.
ROP
= Ra
te o
f Pen
etra
tion
S
PP =
Sta
nd P
ipe
Pres
sure
W
OB
= W
eigh
t on
Bit
Sud
den
Incr
ease
in R
OP
Decr
ease
in R
OP
DR
ILLI
NG
WIT
H M
OTO
R O
NLY
(NO
RO
TAR
Y)
28
DRILLING MOTOR SPECIFICATIONS Toro offers a wide range of drilling motors from a small 2-7/8” OD to a very large 11-1/4” OD. Typically, drilling motors are categorized by the size by outer diameter. For each size, there are several different configurations that are available to meet a wide range of drilling applications. This part of the handbook is intended for reference to the technical specifications, performance curves, and build rate prediction tables for each tool.
Technical Specification Table
For each motor configuration, there is a complete list of technical specifications and parameters. Also included is a Revolutions-per-Gallon Table for each flow rate at the full condition of the motor. Refer to each motor size section as the specification table and revolutions-per-gallon table are self explanatory.
Motor Performance Curves
Motor performance curves for each motor configuration are provided herein. A rotational speed curve for the recommended maximum, nominal, and minimum flow rates as well as a torque curve are provided. The rotational speed curves are plotted up to the peak load condition. Both the rotational speed curves and the torque curve are plotted against the motor differential pressure. Recommended motor differential pressure is one half of the motor stall pressure which is identified by the Recommended Operation Line (ROL). It is important to note that the motor curves are derived from theoretical, calculated and/or controlled testing and that actual performance may vary. The following describes how to read a motor performance curve:
Referencing the 675-56-6 Motor Performance Chart below, A drilling motor operating at the recommended differential pressure of 600 psi (ROL) and at a flow rate of 600 GPM will have a rotational speed of approximately 240 RPM and have an output torque of approximately 4,000 Ft-lbs.
0
1500
3000
4500
6000
7500
9000
0
50
100
150
200
250
300
0 200 400 600 800 1000 1200
TO
RQ
UE
(FT-L
BS)
RO
TA
TIO
NA
L SP
EED
(RPM
)
DIFFERENTIAL PRESSURE (PSI)
675 - 56 - 6 Motor Performance Curves
425 GPM
600 GPM
250 GPM
TORQUE
29
Build Rate Prediction Tables
The build rate tables are generated from a “three-point” geometry of the drilling assembly. Since any three points not in a line describe an arc, the top of the motor, the adjustable bend housing, and the drill bit form such an arc. Figure 12 shows the basic three-point geometry and formula used to generate the build rates. Below are some notes regarding the predictions for the build rates.
♦ The build rate prediction values can vary as the gauge and placement of near bit stabilizers are changed.
♦ When the motor is sliding or during the rotation of a bent motor, it is assumed that a standard gauge hole is being drilled.
♦ A short-gauge bit will produce better directional tendencies than an extended-gauge bit.
♦ The formation is assumed to be homogeneous. Variations of formation hardness and type are not considered.
♦ The tables assume all stabilizers are 1/8” (3.2 mm) under-gauge. ♦ The build rate prediction values should be regarded as estimates
only. Formation characteristics, bit profile, BHA design, and drilling parameters can all affect the directional response.
♦ The units for build rate prediction are in degrees per 100 ft.
Tool Operation and Performance Disclaimer
Toro Downhole Tools has taken every precaution as to the accuracy of the content and data presented in this section. Toro make no warranties, guarantees, or representations concerning the accuracy or individual interpretation of the data. For the latest information regarding tool operation and performance, it is recommended that the nearest Toro representative be contacted.
Figure 12
30
169
8.0
0
9.0
0
10.0
0
11.0
0
12.0
0
13.0
0
050
10
01
502
00
25
03
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
16
9 -
56
-2
R
EVS
/ G
AL
8.56
Rev
/Gal
@ 3
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
1-1
1/1
6 in
43 m
m
Wei
ght
30 lb
s13 k
g
Leng
th5.6
ft
1.7
0 m
Full
Load
Bit
Spee
d140 - 3
85 r
pm140 - 3
85 r
pm
Flow
Rat
e25 - 4
5 g
pm95 - 1
70 lp
m
Peak
Tor
que
105 ft-lb
s142 N
-m
Peak
Dev
elop
ed P
ower
6 h
p4 k
w
Bit to
Ben
dN
/AN
/A
Full
Load
Diff
eren
tial P
ress
ure
300 p
si2,0
68 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
400 p
si2,7
58 k
pa
Max
imum
Bit
Pres
sure
Dro
p500 p
si3,4
47 k
pa
Max
imum
Wei
ght on
Bit
3,0
00 lb
s13 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or8,0
00 lb
s36 k
N
Pull
to Y
ield
Mot
or40,0
00 lb
s178 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
16
9 -
56
- 2
5 /
6
2.0
1 A
MM
TN
C12
1 A
MM
TN
C12
1—
11
/16
” O
D
5:6
Lob
e 2
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 169—56—2
31
012
24
36
48
60
72
84
96108
0
100
200
300
400
500
600
700
050
100
150
200
250
300
350
400
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
16
9 -
56
-2
M
otor
Per
form
ance
Cur
ves
35
GPM
45
GPM
25
GPM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
169
32
169
169
1—
11
/16
” O
D
5:6
Lob
e 4
.5 S
tage
Med
ium
Spe
ed
Hig
h To
rque
169—56—4.5
6.0
0
7.0
0
8.0
0
9.0
0
10.0
0
01
002
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
16
9 -
56
-4
.5 R
EVS
/ G
AL
6.39
Rev
/Gal
@ 6
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
1-1
1/1
6 in
43 m
m
Wei
ght
49 lb
s22 k
g
Leng
th9.1
ft
2.8
m
Full
Load
Bit
Spee
d70 - 2
75 r
pm70 - 2
75 r
pm
Flow
Rat
e25 - 4
5 g
pm95 - 1
70 lp
m
Peak
Tor
que
225 ft-lb
s305 N
-m
Peak
Dev
elop
ed P
ower
9 h
p7 k
w
Bit to
Ben
dN
/AN
/A
Full
Load
Diff
eren
tial P
ress
ure
650 p
si4,4
82 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Max
imum
Bit
Pres
sure
Dro
p500 p
si3,4
47 k
pa
Max
imum
Wei
ght on
Bit
3,0
00 lb
s13 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or8,0
00 lb
s36 k
N
Pull
to Y
ield
Mot
or40,0
00 lb
s178 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
16
9 -
56
- 4
.5
5 /
6
4.5
1 A
MM
TN
C12
1 A
MM
TN
C12
33
169
16
9
030
60
90120
150
180
210
240
0
50
100
150
200
250
300
350
400
450
0100
200
300
400
500
600
700
800
900
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
16
9 -
56
-4
.5 M
otor
Per
form
ance
Cur
ves
35 G
PM
45 G
PM
25 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
34
169
35
169
English(in)
Metric(mm)
English(in)
Metric(mm)
A 1.69 43.0 1.69 43.0
C 3.29 83.5 3.29 83.5
D n/a n/a n/a n/a
E 9.45 240.0 9.45 240.0
G 40.51 1029.0 82.52 2096.0
H n/a n/a n/a n/a
I n/a n/a n/a n/a
J 67.20 1707.0 109.21 2774.0
K 0.85 21.6 0.85 21.6
L n/a n/a n/a n/a
M 14.88 378.0 14.88 378.0
N 4.88 124.0 4.88 124.0
O 37.01 940.0 79.00 2006.5
P 1.00 25.5 1.00 25.5
Q 1.00 25.5 1.00 25.5
R 1.00 25.5 1.00 25.5
S 0.91 23.0 0.91 23.0
T 6.00 152.4 6.00 152.4
U 11.32 287.5 11.32 287.5
169 FISHING DIMENSIONS
169-56-2 169-56-4.5
36
20
6
2—
1/1
6”
OD
4:5
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 206—45—3
8.5
0
9.5
0
10.5
0
11.5
0
12.5
0
13.5
0
01
00
20
03
00
400
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
20
6 -
45
-3
R
EVS
/ G
AL
8.60
Rev
/Gal
@ 4
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
2-1
/16 in
52 m
m
Wei
ght
82 lb
s37 k
g
Leng
th7.0
ft
2.1
3 m
Full
Load
Bit
Spee
d70 - 4
30 r
pm70 - 4
30 r
pm
Flow
Rat
e20 - 5
0 g
pm75 - 1
89 lp
m
Peak
Tor
que
160 ft-lb
s217 N
-m
Peak
Dev
elop
ed P
ower
10 h
p7 k
w
Bit to
Ben
dN
/AN
/A
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p500 p
si3,4
47 k
pa
Max
imum
Wei
ght on
Bit
5,0
00 lb
s22 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or17,0
00 lb
s76 k
N
Pull
to Y
ield
Mot
or60,0
00 lb
s267 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
20
6 -
45
- 3
4 /
5
3.0
1-1
/2 A
MM
T
1-1
/2 A
MM
T
37
20
6025
50
75100
125
150
175
200
0
100
200
300
400
500
600
700
800
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
20
6 -
45
-3
M
otor
Per
form
ance
Cur
ves
35 G
PM
50 G
PM
20 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
38
20
6 2
06
M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
2-1
/16 in
52 m
m
Wei
ght
100 lb
s45 k
g
Leng
th9.0
ft
2.7
4 m
Full
Load
Bit
Spee
d190 - 7
25 r
pm190 - 7
25 r
pm
Flow
Rat
e20 - 5
0 g
pm75 - 1
89 lp
m
Peak
Tor
que
310 ft-lb
s420 N
-m
Peak
Dev
elop
ed P
ower
33 h
p25 k
w
Bit to
Ben
dN
/AN
/A
Full
Load
Diff
eren
tial P
ress
ure
1050 p
si7,2
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1400 p
si9,6
52 k
pa
Max
imum
Bit
Pres
sure
Dro
p500 p
si3,4
47 k
pa
Max
imum
Wei
ght on
Bit
5,0
00 lb
s22 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or17,0
00 lb
s76 k
N
Pull
to Y
ield
Mot
or60,0
00 lb
s267 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
20
6 -
45
- 7
4 /
5
7.0
1-1
/2 A
MM
T
1-1
/2 A
MM
T
2—
1/1
6”
OD
4:5
Lob
e 7.
0 S
tage
Hig
h S
peed
H
igh
Torq
ue 206—45—7
12
.00
14
.00
16
.00
18
.00
20
.00
22
.00
24
.00
020
04
00
60
08
0010
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
20
6 -
45
-7
REV
S /
GA
L
14.5
0 Re
v/Ga
l@ 1
050
psi
39
20
62
0604
5
90135
180
225
270
315
360
0
200
400
600
800
1000
1200
020
0400
600
800
1000
120
01400
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
20
6 -
45
-7
M
otor
Per
form
ance
Cur
ves
35
GPM
50
GPM
20
GPM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
40
20
6
4.5
0
5.0
0
5.5
0
6.0
0
6.5
0
7.0
0
7.5
0
01
00
20
03
00
400
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
20
6 -
56
-3
R
EVS
/ G
AL
4.80
Rev
/Gal
@ 4
50 p
si
2—
1/1
6”
OD
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
206—56—3 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
2-1
/16 in
52 m
m
Wei
ght
82 lb
s37 k
g
Leng
th7.0
ft
2.1
3 m
Full
Load
Bit
Spee
d50 - 2
40 r
pm50 - 2
40 r
pm
Flow
Rat
e20 - 5
0 g
pm75 - 1
89 lp
m
Peak
Tor
que
220 ft-lb
s300 N
-m
Peak
Dev
elop
ed P
ower
8 h
p6 k
w
Bit to
Ben
dN
/AN
/A
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p500 p
si3,4
47 k
pa
Max
imum
Wei
ght on
Bit
5,0
00 lb
s22 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or17,0
00 lb
s76 k
N
Pull
to Y
ield
Mot
or60,0
00 lb
s267 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
20
6 -
56
- 3
5 /
6
3.0
1-1
/2 A
MM
T
1-1
/2 A
MM
T
41
20
6035
70105
140
175
210
245
280
0
50
100
150
200
250
300
350
400
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
20
6 -
56
-3
M
otor
Per
form
ance
Cur
ves
35 G
PM
50 G
PM
20 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
42
20
6
43
20
6
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 0.21 5.4 2.06 52.4 2.06 52.4
C 3.78 96.0 3.78 96.0 3.78 96.0
D n/a n/a n/a n/a n/a n/a
E 11.89 302.0 11.89 302.0 11.89 302.0
G 62.00 1574.8 87.00 2209.8 63.00 1600.2
H n/a n/a n/a n/a n/a n/a
I n/a n/a n/a n/a n/a n/a
J 91.86 2333.2 116.86 2968.2 92.86 2358.6
K 1.00 25.4 1.00 25.4 1.00 25.4
L n/a n/a n/a n/a n/a n/a
M 16.00 406.5 16.00 406.5 16.00 406.5
N 5.12 130.0 5.12 130.0 5.12 130.0
O 53.00 1346.2 81.00 2057.4 57.00 1447.8
P 1.00 25.5 1.00 25.5 1.00 25.5
Q 1.13 28.6 1.13 28.6 1.13 28.6
R 1.13 28.6 1.13 28.6 1.13 28.6
S 1.00 25.4 1.00 25.4 1.00 25.4
T 6.00 152.4 6.00 152.4 6.00 152.4
U 11.97 304.0 11.97 304.0 11.97 304.0
206-45-3 206-45-7 206-56-3
206 FISHING DIMENSIONS
44
2—
7/8
” O
D
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que
28
8
4.5
0
5.0
0
5.5
0
6.0
0
6.5
0
7.0
0
7.5
0
01
00
20
03
0040
0
REVS / GALLON (RPG)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
20
6 -
56
-3
R
EVS
/ G
AL
4.80
Rev
/Gal
@ 4
50 p
si
288—56—3 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
2-7
/8 in
73 m
m
Wei
ght
140 lb
s63 k
g
Leng
th10.1
ft
3.1
0 m
Full
Load
Bit
Spee
d100 - 2
60 r
pm100 - 2
60 r
pm
Flow
Rat
e40 - 1
00 g
pm151 - 3
79 lp
m
Peak
Tor
que
690 ft-lb
s936 N
-m
Peak
Dev
elop
ed P
ower
26 h
p19 k
w
Bit to
Ben
d28 in
711 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
7,0
00 lb
s31 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or40,0
00 lb
s178 k
N
Pull
to Y
ield
Mot
or100,0
00 lb
s445 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
28
8 -
56
- 3
5 /
6
3.0
2-3
/8 R
eg
2-3
/8 R
eg
3-1
/2"
3-7
/8"
4-1
/4"
4-1
/2"
3-1
/2"
3-7
/8"
4-1
/4"
4-1
/2"
0.3
10.6
72.8
94.6
06.3
07.4
3
0.6
26.2
30.2
47.7
19.4
111.0
912.2
1
0.9
311.7
95.7
812.5
214.2
115.8
816.9
9
1.2
216.9
910.9
75.1
11.3
117.0
318.7
020.3
621.4
6
1.5
022.0
115.9
810.1
16.2
921.3
823.0
424.6
925.7
8
1.7
626.6
820.6
314.7
510.9
225.4
227.0
728.7
029.7
9
2.0
030.9
824.9
219.0
315.1
929.1
430.7
932.4
133.4
9
2.2
335.1
129.0
323.1
319.2
932.7
234.3
535.9
737.0
4
2.4
238.5
132.4
326.5
222.6
735.6
737.2
938.9
039.9
7
2.6
041.7
435.6
529.7
325.8
838.4
740.0
841.6
842.7
5
2.7
444.2
538.1
532.2
328.3
740.6
442.2
543.8
544.9
0
2.8
546.2
340.1
234.1
930.3
342.3
543.9
645.5
546.6
0
2.9
347.6
641.5
535.6
231.7
643.6
045.2
046.7
947.8
4
2.9
848.5
642.4
536.5
132.6
544.3
745.9
747.5
648.6
1
3.0
048.9
242.8
136.8
733.0
044.6
846.2
847.8
748.9
2
288 -
56 -
3
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
BEA
RIN
G H
OU
SIN
G - S
TA
BILI
ZED
ABH SET
AN
GLE
HO
LE S
IZE
HO
LE S
IZE
BEA
RIN
G H
OU
SIN
G - S
LIC
K
45
28
8
0100
200
300
400
500
600
700
800
0
50
100
150
200
250
300
350
400
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
28
8 -
56
-3
M
otor
Per
form
ance
Cur
ves
70 G
PM
100 G
PM
40 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
46
28
8
2—
7/8
” O
D
7:8
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
288—78—4 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
2-7
/8 in
73 m
m
Wei
ght
200 lb
s90 k
g
Leng
th12.1
ft
3.6
9 m
Full
Load
Bit
Spee
d100 - 3
50 r
pm100 - 3
50 r
pm
Flow
Rat
e60 - 1
20 g
pm227 - 4
54 lp
m
Peak
Tor
que
1,0
00 ft-lb
s1,3
56 N
-m
Peak
Dev
elop
ed P
ower
50 h
p37 k
w
Bit to
Ben
d28 in
711 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
7,0
00 lb
s31 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or50,0
00 lb
s222 k
N
Pull
to Y
ield
Mot
or120,0
00 lb
s534 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
28
8 -
78
- 4
7 /
8
4.0
2-3
/8 R
eg
2-3
/8 R
eg
2.5
0
3.0
0
3.5
0
4.0
0
4.5
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
28
8 -
78
-4
REV
S /
GA
L
2.92
Rev
/Gal
@ 6
00 p
si
3-1
/2"
3-7
/8"
4-1
/4"
4-1
/2"
3-1
/2"
3-7
/8"
4-1
/4"
4-1
/2"
0.3
10.6
72.8
94.6
06.3
07.4
3
0.6
26.2
30.2
47.7
19.4
111.0
912.2
1
0.9
311.7
95.7
812.5
214.2
115.8
816.9
9
1.2
216.9
910.9
75.1
11.3
117.0
318.7
020.3
621.4
6
1.5
022.0
115.9
810.1
16.2
921.3
823.0
424.6
925.7
8
1.7
626.6
820.6
314.7
510.9
225.4
227.0
728.7
029.7
9
2.0
030.9
824.9
219.0
315.1
929.1
430.7
932.4
133.4
9
2.2
335.1
129.0
323.1
319.2
932.7
234.3
535.9
737.0
4
2.4
238.5
132.4
326.5
222.6
735.6
737.2
938.9
039.9
7
2.6
041.7
435.6
529.7
325.8
838.4
740.0
841.6
842.7
5
2.7
444.2
538.1
532.2
328.3
740.6
442.2
543.8
544.9
0
2.8
546.2
340.1
234.1
930.3
342.3
543.9
645.5
546.6
0
2.9
347.6
641.5
535.6
231.7
643.6
045.2
046.7
947.8
4
2.9
848.5
642.4
536.5
132.6
544.3
745.9
747.5
648.6
1
3.0
048.9
242.8
136.8
733.0
044.6
846.2
847.8
748.9
2
288 -
78 -
4
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
47
28
8
0200
400
600
800
1000
1200
0
100
200
300
400
500
600
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
28
8 -
78
-4
M
otor
Per
form
ance
Cur
ves
90 G
PM
120 G
PM
60 G
PM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
48
28
8
49
28
8
English(in)
Metric(mm)
English(in)
Metric(mm)
A 2.87 73.0 2.87 73.0
C 4.92 125.0 4.92 125.0
D 10.24 260.0 10.24 260.0
E 18.86 479.0 18.86 479.0
G 81.89 2080.0 81.89 2080.0
H 7.87 200.0 7.87 200.0
I 2.99 76.0 2.99 76.0
J 130.31 3310.0 130.31 3310.0
K 1.85 47.0 1.85 47.0
L 5.98 152.0 5.98 152.0
M 31.73 806.0 31.73 806.0
N 19.49 495.0 19.49 495.0
O 79.53 2020.0 79.53 2020.0
P 1.77 45.0 1.77 45.0
Q 1.77 45.0 1.77 45.0
R 0.83 21.0 0.83 21.0
S 1.77 45.0 1.77 45.0
T 7.87 200.0 7.87 200.0
U 26.10 663.0 26.10 663.0
288-56-3 288-78-4
288 FISHING DIMENSIONS
50
313
3—
1/8
” O
D
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 313—56—3
2.5
0
2.7
0
2.9
0
3.1
0
3.3
0
3.5
0
3.7
0
3.9
0
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
31
3 -
56
-3
REV
S /
GA
L
2.60
Rev
/Gal
@ 4
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-1
/8 in
79 m
m
Wei
ght
190 lb
s86 k
g
Leng
th10.1
ft
3.1
0 m
Full
Load
Bit
Spee
d100 - 2
60 r
pm100 - 2
60 r
pm
Flow
Rat
e40 - 1
00 g
pm151 - 3
79 lp
m
Peak
Tor
que
690 ft-lb
s936 N
-m
Peak
Dev
elop
ed P
ower
26 h
p19 k
w
Bit to
Ben
d28 in
711 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
7,0
00 lb
s31 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or40,0
00 lb
s178 k
N
Pull
to Y
ield
Mot
or100,0
00 lb
s445 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
31
3 -
56
- 3
5 /
6
3.0
2-3
/8 R
eg
2-3
/8 R
eg
3-7
/8"
4-1
/4"
4-1
/2"
3-7
/8"
4-1
/4"
4-1
/2"
0.3
13.5
25.2
26.3
5
0.6
24.2
78.3
210.0
111.1
3
0.9
39.8
13.9
20.0
813.1
214.8
015.9
1
1.2
215.0
09.0
95.2
417.6
219.2
820.3
8
1.5
020.0
114.0
810.2
321.9
523.6
124.7
0
1.7
624.6
618.7
214.8
625.9
827.6
228.7
1
2.0
028.9
523.0
019.1
329.7
031.3
332.4
1
2.2
333.0
627.1
023.2
333.2
634.8
935.9
6
2.4
236.4
630.4
926.6
136.2
137.8
238.8
9
2.6
039.6
833.7
129.8
139.0
040.6
041.6
7
2.7
442.1
936.2
032.3
141.1
742.7
743.8
3
2.8
544.1
538.1
734.2
742.8
744.4
745.5
2
2.9
345.5
839.5
935.6
944.1
145.7
046.7
6
2.9
846.4
840.4
836.5
844.8
946.4
847.5
3
3.0
046.8
440.8
436.9
445.2
046.7
947.8
4
313 -
56 -
3
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
51
313
0100
200
300
400
500
600
700
800
0
50
100
150
200
250
300
350
400
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
31
3 -
56
-3
M
otor
Per
form
ance
Cur
ves
70 G
PM
100 G
PM
40 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
52
313
M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-1
/8 in
79 m
m
Wei
ght
250 lb
s113 k
g
Leng
th12.1
ft
3.6
9 m
Full
Load
Bit
Spee
d100 - 3
50 r
pm100 - 3
50 r
pm
Flow
Rat
e60 - 1
20 g
pm227 - 4
54 lp
m
Peak
Tor
que
1,0
00 ft-lb
s1,3
56 N
-m
Peak
Dev
elop
ed P
ower
50 h
p37 k
w
Bit to
Ben
d28 in
711 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
7,0
00 lb
s31 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or50,0
00 lb
s222 k
N
Pull
to Y
ield
Mot
or120,0
00 lb
s534 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
31
3 -
78
- 4
7 /
8
4.0
2-3
/8 R
eg
2-3
/8 R
eg
2.5
0
3.0
0
3.5
0
4.0
0
4.5
0
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
31
3 -
78
-4
R
EVS
/ G
AL
2.92
Rev
/Gal
@ 6
00 p
si
3—
1/8
” O
D
7:8
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
313—78—4
3-7
/8"
4-1
/4"
4-1
/2"
3-7
/8"
4-1
/4"
4-1
/2"
0.3
13.5
25.2
26.3
5
0.6
24.2
78.3
210.0
111.1
3
0.9
39.8
13.9
20.0
813.1
214.8
015.9
1
1.2
215.0
09.0
95.2
417.6
219.2
820.3
8
1.5
020.0
114.0
810.2
321.9
523.6
124.7
0
1.7
624.6
618.7
214.8
625.9
827.6
228.7
1
2.0
028.9
523.0
019.1
329.7
031.3
332.4
1
2.2
333.0
627.1
023.2
333.2
634.8
935.9
6
2.4
236.4
630.4
926.6
136.2
137.8
238.8
9
2.6
039.6
833.7
129.8
139.0
040.6
041.6
7
2.7
442.1
936.2
032.3
141.1
742.7
743.8
3
2.8
544.1
538.1
734.2
742.8
744.4
745.5
2
2.9
345.5
839.5
935.6
944.1
145.7
046.7
6
2.9
846.4
840.4
836.5
844.8
946.4
847.5
3
3.0
046.8
440.8
436.9
445.2
046.7
947.8
4
313 -
78 -
4
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
53
313
0200
400
600
800
1000
1200
0
100
200
300
400
500
600
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
31
3 -
78
-4
M
otor
Per
form
ance
Cur
ves
90 G
PM
120 G
PM
60 G
PM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
54
313
55
313
English(in)
Metric(mm)
English(in)
Metric(mm)
A 3.13 79.4 3.13 79.4
C 4.92 125.0 4.92 125.0
D 10.24 260.0 10.24 260.0
E 18.86 479.0 18.86 479.0
G 81.89 2080.0 81.89 2080.0
H 7.87 200.0 7.87 200.0
I 2.99 76.0 2.99 76.0
J 130.31 3310.0 130.31 3310.0
K 1.85 47.0 1.85 47.0
L 5.98 152.0 5.98 152.0
M 31.73 806.0 31.73 806.0
N 19.49 495.0 19.49 495.0
O 79.53 2020.0 79.53 2020.0
P 1.77 45.0 1.77 45.0
Q 1.77 45.0 1.77 45.0
R 0.83 21.0 0.83 21.0
S 1.77 45.0 1.77 45.0
T 7.87 621.0 7.87 200.0
U 26.10 663.0 26.10 663.0
313-78-4313-56-3
313 FISHING DIMENSIONS
56
35
0
1.5
0
1.7
5
2.0
0
2.2
5
2.5
0
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
35
0 -
56
-3
REV
S /
GA
L
1.50
Rev
/Gal
@ 4
50 p
si
3—
1/2
” O
D
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 350—56—3
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-1
/2 in
89 m
m
Wei
ght
287 lb
s130 k
g
Leng
th11.8
ft
3.6
0 m
Full
Load
Bit
Spee
d100 - 2
40 r
pm100 - 2
40 r
pm
Flow
Rat
e70 - 1
60 g
pm265 - 6
06 lp
m
Peak
Tor
que
960 ft-lb
s1,3
00 N
-m
Peak
Dev
elop
ed P
ower
33 h
p25 k
w
Bit to
Ben
d41 in
1,0
46 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
8,0
00 lb
s36 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or50,0
00 lb
s222 k
N
Pull
to Y
ield
Mot
or150,0
00 lb
s667 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
35
0 -
56
- 3
5 /
6
3.0
2-3
/8 R
eg
2-3
/8 R
eg
4-1
/4"
4-1
/2"
4-3
/4"
5"
4-1
/4"
4-1
/2"
4-3
/4"
5"
0.3
11.0
92.9
33.9
24.9
15.8
9
0.6
26.2
83.6
61.0
86.9
67.9
58.9
39.9
0
0.9
311.4
68.8
46.2
53.7
011.0
011.9
812.9
513.9
2
1.2
216.3
113.6
811.0
88.5
214.7
715.7
416.7
117.6
7
1.5
021.0
018.3
515.7
513.1
818.4
219.3
820.3
421.3
0
1.7
625.3
522.7
020.0
817.5
121.8
022.7
623.7
224.6
7
2.0
029.3
626.7
024.0
921.5
024.9
325.8
826.8
327.7
8
2.2
333.2
130.5
527.9
225.3
327.9
228.8
729.8
230.7
6
2.4
236.3
933.7
231.0
928.4
930.4
031.3
432.2
833.2
2
2.6
039.4
036.7
234.0
931.4
932.7
433.6
834.6
235.5
5
2.7
441.7
439.0
636.4
233.8
234.5
635.5
036.4
437.3
6
2.8
543.5
840.9
038.2
635.6
536.0
036.9
337.8
638.7
9
2.9
344.9
242.2
439.5
936.9
837.0
437.9
738.9
039.8
3
2.9
845.7
543.0
740.4
337.8
237.6
938.6
239.5
540.4
7
3.0
046.0
943.4
140.7
638.1
537.9
538.8
839.8
140.7
3
350 -
56 -
3
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
57
35
0
0200
400
600
800
1000
1200
0
50
100
150
200
250
300
350
400
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
35
0 -
56
-3
M
otor
Per
form
ance
Cur
ves
115
GPM
160
GPM
70
GPM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
58
35
0
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-1
/2 in
89 m
m
Wei
ght
287 lb
s130 k
g
Leng
th11.8
ft
3.6
0 m
Full
Load
Bit
Spee
d100 - 2
50 r
pm100 - 2
50 r
pm
Flow
Rat
e70 - 1
60 g
pm265 - 6
06 lp
m
Peak
Tor
que
1,3
00 ft-lb
s1,7
60 N
-m
Peak
Dev
elop
ed P
ower
47 h
p35 k
w
Bit to
Ben
d41 in
1,0
46 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
8,0
00 lb
s36 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or50,0
00 lb
s222 k
N
Pull
to Y
ield
Mot
or150,0
00 lb
s667 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
35
0 -
78
- 4
7 /
8
4.0
2-3
/8 R
eg
2-3
/8 R
eg
3—
1/2
” O
D
7:8
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
350—78—4
1.5
0
1.7
5
2.0
0
2.2
5
2.5
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
35
0 -
78
-4
REV
S /
GA
L
1.56
Rev
/Gal
@ 6
00 p
si
4-1
/4"
4-1
/2"
4-3
/4"
5"
4-1
/4"
4-1
/2"
4-3
/4"
5"
0.3
11.0
92.9
33.9
24.9
15.8
9
0.6
26.2
83.6
61.0
86.9
67.9
58.9
39.9
0
0.9
311.4
68.8
46.2
53.7
011.0
011.9
812.9
513.9
2
1.2
216.3
113.6
811.0
88.5
214.7
715.7
416.7
117.6
7
1.5
021.0
018.3
515.7
513.1
818.4
219.3
820.3
421.3
0
1.7
625.3
522.7
020.0
817.5
121.8
022.7
623.7
224.6
7
2.0
029.3
626.7
024.0
921.5
024.9
325.8
826.8
327.7
8
2.2
333.2
130.5
527.9
225.3
327.9
228.8
729.8
230.7
6
2.4
236.3
933.7
231.0
928.4
930.4
031.3
432.2
833.2
2
2.6
039.4
036.7
234.0
931.4
932.7
433.6
834.6
235.5
5
2.7
441.7
439.0
636.4
233.8
234.5
635.5
036.4
437.3
6
2.8
543.5
840.9
038.2
635.6
536.0
036.9
337.8
638.7
9
2.9
344.9
242.2
439.5
936.9
837.0
437.9
738.9
039.8
3
2.9
845.7
543.0
740.4
337.8
237.6
938.6
239.5
540.4
7
3.0
046.0
943.4
140.7
638.1
537.9
538.8
839.8
140.7
3
350 -
78 -
4
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
59
35
0
0200
400
600
800
1000
1200
1400
1600
0
50
100
150
200
250
300
350
400
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
35
0 -
78
-4
M
otor
Per
form
ance
Cur
ves
115 G
PM
160 G
PM
70 G
PM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
60
35
0
61
35
0
English(in)
Metric(mm)
English(in)
Metric(mm)
A 3.50 89.0 3.50 89.0
C 4.92 125.0 4.92 125.0
D 11.30 287.0 11.30 287.0
E 19.92 506.0 19.92 506.0
G 83.46 2120.0 83.46 2120.0
H 9.06 230.0 9.06 230.0
I 2.99 76.0 2.99 76.0
J 139.21 3536.0 139.21 3536.0
K 2.28 58.0 2.28 58.0
L 6.50 165.0 6.50 165.0
M 31.73 806.0 31.73 806.0
N 19.49 495.0 19.49 495.0
O 80.31 2040.0 80.31 2040.0
P 2.35 59.8 2.35 59.8
Q 2.36 60.0 2.36 60.0
R 2.36 60.0 2.36 60.0
S 2.36 60.0 2.36 60.0
T 9.06 230.0 9.06 230.0
U 28.11 714.0 28.11 714.0
350-56-3 350-78-4
350 FISHING DIMENSIONS
62
375
3.5
0
4.0
0
4.5
0
5.0
0
5.5
0
6.0
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
37
5 -
12
-4
REV
S /
GA
L
3.93
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-3
/4 in
95 m
m
Wei
ght
379 lb
s172 k
gs
Leng
th12.4
ft
3.7
9 m
Full
Load
Bit
Spee
d200 - 5
50 r
pm200 - 5
50 r
pm
Flow
Rat
e60 - 1
40 g
pm227 - 5
30 lp
m
Peak
Tor
que
650 ft-lb
s881 N
-m
Peak
Dev
elop
ed P
ower
51 h
p38 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
12,0
00 lb
s53 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or70,0
00 lb
s266 k
N
Pull
to Y
ield
Mot
or200,0
00 lb
s890 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
37
5 -
12
- 4
1 /
2
4.0
2-7
/8 R
eg
2-7
/8 R
eg
3—
3/4
” O
D
1:2
Lob
e 4
.0 S
tage
Hig
h S
peed
Lo
w T
orqu
e 375—12—4
4-3
/4"
5"
5-1
/2"
5-7
/8"
4-3
/4"
5"
5-1
/2"
5-7
/8"
0.3
53.8
54.4
95.7
66.7
1
0.6
94.3
52.4
77.5
98.2
39.4
910.4
4
1.0
49.0
87.2
03.5
00.7
811.4
512.0
813.3
414.2
7
1.3
713.5
411.6
57.9
45.2
215.0
915.7
216.9
617.8
9
1.6
917.8
715.9
712.2
59.5
218.6
219.2
420.4
721.3
9
2.0
022.0
620.1
616.4
213.6
822.0
422.6
523.8
824.7
9
2.2
925.9
824.0
720.3
317.5
825.2
425.8
527.0
627.9
7
2.5
729.7
627.8
524.1
021.3
428.3
328.9
330.1
431.0
4
2.8
333.2
831.3
627.6
024.8
331.1
931.8
033.0
033.8
9
3.0
636.3
934.4
730.6
927.9
333.7
334.3
335.5
236.4
1
3.2
839.3
637.4
433.6
630.8
836.1
636.7
537.9
438.8
2
3.4
641.8
039.8
736.0
833.3
038.1
538.7
439.9
240.8
0
3.6
344.0
942.1
638.3
735.5
940.0
240.6
141.7
942.6
6
3.7
645.8
543.9
240.1
237.3
341.4
642.0
443.2
244.0
9
3.8
647.2
045.2
741.4
738.6
842.5
643.1
544.3
145.1
9
3.9
448.2
946.3
542.5
539.7
543.4
444.0
345.1
946.0
6
3.9
848.8
346.8
943.0
840.2
943.8
844.4
745.6
346.5
0
4.0
049.1
047.1
643.3
540.5
644.1
144.6
945.8
546.7
2
375 -
12 -
4
BU
ILD
RA
TE T
ABLE (
Degr
ees
per
100 f
eet
)
ABH
SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBEA
RIN
G H
OU
SIN
G - S
TA
BIL
IZED
HO
LE S
IZE
HO
LE S
IZE
63
375
0100
200
300
400
500
600
700
800
900
0
100
200
300
400
500
600
700
800
900
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
37
5 -
12
-4
M
otor
Per
form
ance
Cur
ves
100 G
PM
140 G
PM
60 G
PM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
64
375
3—
3/4
” O
D
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 375—56—3
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-3
/4 in
95 m
m
Wei
ght
348 lb
s158 k
g
Leng
th12.4
ft
3.7
9 m
Full
Load
Bit
Spee
d100 - 2
60 r
pm100 - 2
60 r
pm
Flow
Rat
e80 - 1
90 g
pm303 - 7
19 lp
m
Peak
Tor
que
1,3
40 ft-lb
s1,8
17 N
-m
Peak
Dev
elop
ed P
ower
50 h
p37 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
12,0
00 lb
s53 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or70,0
00 lb
s266 k
N
Pull
to Y
ield
Mot
or200,0
00 lb
s890 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
37
5 -
56
- 3
5 /
6
3.0
2-7
/8 R
EG
2-7
/8 R
EG
1.2
5
1.5
0
1.7
5
2.0
0
2.2
5
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
37
5 -
56
-3
REV
S /
GA
L
1.37
Rev
/Gal
@ 4
50 p
si
4-3
/4"
5"
5-1
/2"
5-7
/8"
4-3
/4"
5"
5-1
/2"
5-7
/8"
0.3
53.8
54.4
95.7
66.7
1
0.6
94.3
52.4
77.5
98.2
39.4
910.4
4
1.0
49.0
87.2
03.5
00.7
811.4
512.0
813.3
414.2
7
1.3
713.5
411.6
57.9
45.2
215.0
915.7
216.9
617.8
9
1.6
917.8
715.9
712.2
59.5
218.6
219.2
420.4
721.3
9
2.0
022.0
620.1
616.4
213.6
822.0
422.6
523.8
824.7
9
2.2
925.9
824.0
720.3
317.5
825.2
425.8
527.0
627.9
7
2.5
729.7
627.8
524.1
021.3
428.3
328.9
330.1
431.0
4
2.8
333.2
831.3
627.6
024.8
331.1
931.8
033.0
033.8
9
3.0
636.3
934.4
730.6
927.9
333.7
334.3
335.5
236.4
1
3.2
839.3
637.4
433.6
630.8
836.1
636.7
537.9
438.8
2
3.4
641.8
039.8
736.0
833.3
038.1
538.7
439.9
240.8
0
3.6
344.0
942.1
638.3
735.5
940.0
240.6
141.7
942.6
6
3.7
645.8
543.9
240.1
237.3
341.4
642.0
443.2
244.0
9
3.8
647.2
045.2
741.4
738.6
842.5
643.1
544.3
145.1
9
3.9
448.2
946.3
542.5
539.7
543.4
444.0
345.1
946.0
6
3.9
848.8
346.8
943.0
840.2
943.8
844.4
745.6
346.5
0
4.0
049.1
047.1
643.3
540.5
644.1
144.6
945.8
546.7
2
375 -
56 -
3
BU
ILD
RA
TE T
ABLE (
Degr
ees
per
100 f
eet
)
ABH
SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBEA
RIN
G H
OU
SIN
G - S
TA
BIL
IZED
HO
LE S
IZE
HO
LE S
IZE
65
375
0200
400
600
800
1000
1200
1400
1600
0
50
100
150
200
250
300
350
400
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
37
5 -
56
-3
M
otor
Per
form
ance
Cur
ves
135 G
PM
190 G
PM
80 G
PM
TO
RQ
UE
ROL
RO
L =
Rec
omm
ende
d O
pera
tion
Line
66
375
1.0
0
1.1
3
1.2
5
1.3
8
1.5
0
1.6
3
1.7
5
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
37
5 -
91
0 -
4
REV
S /
GA
L
1.07
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
3-3
/4 in
95 m
m
Wei
ght
379 lb
s172 k
gs
Leng
th12.4
ft
3.7
9 m
Full
Load
Bit
Spee
d50 - 1
50 r
pm50 - 1
50 r
pm
Flow
Rat
e60 - 1
40 g
pm227 - 5
30 lp
m
Peak
Tor
que
1,5
50 ft-lb
s2,1
00 N
-m
Peak
Dev
elop
ed P
ower
33 h
p25 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
12,0
00 lb
s53 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or70,0
00 lb
s266 k
N
Pull
to Y
ield
Mot
or200,0
00 lb
s890 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
37
5 -
91
0 -
4
9 /
10
4.0
2-7
/8 R
EG
2-7
/8 R
EG
3—
3/4
” O
D
9:1
0 L
obe
4.0
Sta
ge
Slo
w S
peed
H
igh
Torq
ue 375—910—4
4-3
/4"
5"
5-1
/2"
5-7
/8"
4-3
/4"
5"
5-1
/2"
5-7
/8"
0.3
53.8
54.4
95.7
66.7
1
0.6
94.3
52.4
77.5
98.2
39.4
910.4
4
1.0
49.0
87.2
03.5
00.7
811.4
512.0
813.3
414.2
7
1.3
713.5
411.6
57.9
45.2
215.0
915.7
216.9
617.8
9
1.6
917.8
715.9
712.2
59.5
218.6
219.2
420.4
721.3
9
2.0
022.0
620.1
616.4
213.6
822.0
422.6
523.8
824.7
9
2.2
925.9
824.0
720.3
317.5
825.2
425.8
527.0
627.9
7
2.5
729.7
627.8
524.1
021.3
428.3
328.9
330.1
431.0
4
2.8
333.2
831.3
627.6
024.8
331.1
931.8
033.0
033.8
9
3.0
636.3
934.4
730.6
927.9
333.7
334.3
335.5
236.4
1
3.2
839.3
637.4
433.6
630.8
836.1
636.7
537.9
438.8
2
3.4
641.8
039.8
736.0
833.3
038.1
538.7
439.9
240.8
0
3.6
344.0
942.1
638.3
735.5
940.0
240.6
141.7
942.6
6
3.7
645.8
543.9
240.1
237.3
341.4
642.0
443.2
244.0
9
3.8
647.2
045.2
741.4
738.6
842.5
643.1
544.3
145.1
9
3.9
448.2
946.3
542.5
539.7
543.4
444.0
345.1
946.0
6
3.9
848.8
346.8
943.0
840.2
943.8
844.4
745.6
346.5
0
4.0
049.1
047.1
643.3
540.5
644.1
144.6
945.8
546.7
2
375
- 9
10 -
4 BU
ILD
RA
TE T
ABLE (
Deg
rees
per
10
0 f
eet )
ABH
SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBEA
RIN
G H
OU
SIN
G - S
TA
BIL
IZED
HO
LE S
IZE
HO
LE S
IZE
67
375
0400
800
1200
1600
2000
0
50
100
150
200
250
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
37
5 -
91
0 -
4 M
otor
Per
form
ance
Cur
ves
100 G
PM
140 G
PM
60 G
PM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
68
375
69
375
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 3.75 95.3 3.75 95.3 3.75 95.3
C 6.89 175.0 6.89 175.0 6.89 175.0
D 14.57 370.0 14.57 370.0 14.57 370.0
E 26.65 677.0 26.65 677.0 26.65 677.0
G 106.30 2700.0 106.30 2700.0 106.30 2700.0
H 9.65 245.0 9.65 245.0 9.65 245.0
I 3.98 101.0 3.98 101.0 3.98 101.0
J 172.80 4389.0 172.80 4389.0 172.80 4389.0
K 2.48 63.0 2.48 63.0 2.48 63.0
L 8.27 210.0 8.27 210.0 8.27 210.0
M 35.98 914.0 35.98 914.0 35.98 914.0
N 18.50 470.0 18.50 470.0 18.50 470.0
O 102.95 2615.0 102.95 2615.0 102.95 2615.0
P 2.47 62.8 2.47 62.8 2.59 65.7
Q 2.60 66.0 2.60 66.0 2.60 66.0
R 2.60 66.0 2.60 66.0 2.60 66.0
S 2.60 66.0 2.60 66.0 2.60 66.0
T 9.65 245.0 9.65 245.0 9.65 245.0
U 30.20 767.0 30.20 767.0 30.20 767.0
375-12-4 375-56-3 375-910-4
375 FISHING DIMENSIONS
70
475
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
1.2
5
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
56
-3
REV
S /
GA
L
0.70
Rev
/Gal
@ 4
50 p
si
4—
3/4
” O
D
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 475—56—3
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
873 lb
s396 k
g
Leng
th16.7
ft
5.0
8 m
Full
Load
Bit
Spee
d70 - 1
75 r
pm70 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
2,1
10 ft-lb
s2,8
61 N
-m
Peak
Dev
elop
ed P
ower
53 h
p40 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
56
- 3
5 /
6
3.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
13.8
74.1
55.5
78.0
9
0.6
21.5
30.6
77.1
47.4
38.8
311.3
3
0.9
35.4
84.6
20.3
810.4
210.7
012.1
014.5
8
1.2
29.1
88.3
14.0
613.4
913.7
615.1
517.6
1
1.5
012.7
411.8
77.6
10.2
616.4
516.7
218.1
020.5
4
1.7
616.0
615.1
910.9
13.5
419.1
919.4
720.8
323.2
6
2.0
019.1
118.2
413.9
66.5
721.7
322.0
023.3
625.7
8
2.2
322.0
421.1
716.8
89.4
724.1
624.4
325.7
828.1
8
2.4
224.4
723.5
919.2
911.8
726.1
726.4
427.7
830.1
7
2.6
026.7
625.8
821.5
814.1
428.0
728.3
429.6
832.0
6
2.7
428.5
427.6
723.3
515.9
129.5
629.8
231.1
533.5
2
2.8
529.9
529.0
724.7
517.3
030.7
230.9
932.3
134.6
8
2.9
330.9
730.0
925.7
718.3
131.5
631.8
333.1
635.5
1
2.9
831.6
030.7
226.4
018.9
432.0
932.3
633.6
836.0
4
3.0
031.8
630.9
826.6
519.1
932.3
032.5
733.8
936.2
5
475 -
56 -
3
BUIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
71
475
0400
800
1200
1600
2000
2400
0
50
100
150
200
250
300
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
56
-3
M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
100 G
PM
TO
RQ
UE
ROL
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
72
475
M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
1,0
74 lb
s487 k
g
Leng
th20.5
ft
6.2
5 m
Full
Load
Bit
Spee
d70 - 1
75 r
pm70 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
2,8
10 ft-lb
s3,8
10 N
-m
Peak
Dev
elop
ed P
ower
71 h
p53 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
56
- 4
5 /
6
4.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
4—
3/4
” O
D
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 475—56—4
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
1.2
5
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
56
-4
REV
S /
GA
L
0.70
Rev
/Gal
@ 6
00 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
13.3
53.5
94.7
56.8
2
0.6
21.3
20.5
46.4
06.6
37.7
89.8
4
0.9
34.9
24.1
30.2
79.4
49.6
710.8
112.8
5
1.2
28.2
87.4
93.6
212.2
912.5
213.6
515.6
7
1.5
011.5
210.7
36.8
60.1
615.0
415.2
616.3
918.4
0
1.7
614.5
413.7
59.8
63.1
517.5
917.8
218.9
420.9
3
2.0
017.3
216.5
312.6
45.9
119.9
520.1
721.2
823.2
7
2.2
319.9
919.2
015.2
98.5
522.2
122.4
323.5
425.5
0
2.4
222.1
921.4
017.4
910.7
424.0
724.2
925.3
927.3
5
2.6
024.2
823.4
819.5
712.8
125.8
426.0
627.1
629.1
1
2.7
425.9
025.1
121.1
914.4
227.2
227.4
428.5
330.4
7
2.8
527.1
826.3
822.4
615.6
828.3
028.5
229.6
031.5
4
2.9
328.1
127.3
123.3
816.6
029.0
829.3
030.3
932.3
2
2.9
828.6
927.8
923.9
617.1
829.5
729.7
930.8
832.8
1
3.0
028.9
228.1
224.1
917.4
129.7
729.9
931.0
733.0
0
BEA
RIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
475
- 5
6 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
K
73
475
0500
1000
1500
2000
2500
3000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
56
-4
M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
10
0 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
74
475
4—
3/4
” O
D
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
475—56—5 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
1,2
70 lb
s576 K
g
Leng
th24.3
ft
7.3
9 m
Full
Load
Bit
Spee
d70 - 1
75 r
pm70 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
3,5
15 ft-lb
s4,7
66 N
-m
Peak
Dev
elop
ed P
ower
89 h
p66 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
56
- 5
5 /
6
5.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
1.2
5
01
00
200
30
04
00
50
06
0070
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
56
-5
REV
S /
GA
L
0.70
Rev
/Gal
@ 7
50 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.9
63.1
54.1
35.8
7
0.6
21.1
60.4
45.8
05.9
96.9
68.6
9
0.9
34.4
73.7
40.2
08.6
48.8
49.8
011.5
1
1.2
27.5
66.8
33.2
811.3
011.4
912.4
514.1
5
1.5
010.5
49.8
26.2
50.1
013.8
714.0
615.0
116.6
9
1.7
613.3
112.5
89.0
22.8
516.2
616.4
517.3
819.0
6
2.0
015.8
715.1
411.5
75.3
918.4
618.6
519.5
821.2
4
2.2
318.3
217.5
914.0
17.8
220.5
720.7
521.6
823.3
3
2.4
220.3
519.6
216.0
39.8
322.3
122.5
023.4
225.0
6
2.6
022.2
621.5
317.9
411.7
323.9
624.1
525.0
726.7
0
2.7
423.7
623.0
219.4
313.2
125.2
525.4
326.3
527.9
8
2.8
524.9
324.2
020.6
014.3
726.2
626.4
427.3
528.9
8
2.9
325.7
825.0
521.4
515.2
226.9
927.1
728.0
829.7
1
2.9
826.3
125.5
821.9
815.7
527.4
527.6
328.5
430.1
6
3.0
026.5
325.7
922.1
915.9
627.6
327.8
228.7
330.3
4
475
- 5
6 -
5 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
75
475
0600
1200
1800
2400
3000
3600
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
56
-5
M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
100 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
76
475
4—
3/4
” O
D
5:6
Lob
e 6
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
475—56—6
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
1.2
5
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
56
-6
REV
S /
GA
L
0.70
Rev
/Gal
@ 9
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
1,4
71 lb
s667 K
g
Leng
th28.1
ft
8.5
6 m
Full
Load
Bit
Spee
d70 - 1
75 r
pm70 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
4,2
20 ft-lb
s5,7
22 N
-m
Peak
Dev
elop
ed P
ower
106 h
p79 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
56
- 6
5 /
6
6.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.7
22.8
93.7
65.3
1
0.6
21.0
70.3
95.4
35.6
06.4
78.0
0
0.9
34.1
93.5
10.1
68.1
48.3
29.1
710.6
9
1.2
27.1
16.4
23.0
710.6
810.8
511.7
013.2
1
1.5
09.9
39.2
45.8
80.0
713.1
313.3
014.1
415.6
4
1.7
612.5
411.8
68.4
92.6
615.4
115.5
716.4
117.9
0
2.0
014.9
614.2
710.9
05.0
617.5
117.6
718.5
019.9
8
2.2
317.2
716.5
913.2
07.3
619.5
219.6
920.5
121.9
8
2.4
219.1
918.5
015.1
19.2
621.1
821.3
522.1
723.6
3
2.6
021.0
020.3
116.9
211.0
522.7
622.9
223.7
425.1
9
2.7
422.4
121.7
218.3
212.4
523.9
824.1
524.9
626.4
1
2.8
523.5
222.8
219.4
313.5
524.9
525.1
125.9
227.3
6
2.9
324.3
223.6
320.2
314.3
525.6
525.8
126.6
228.0
6
2.9
824.8
224.1
320.7
314.8
526.0
926.2
527.0
628.4
9
3.0
025.0
324.3
320.9
315.0
526.2
626.4
227.2
328.6
7
475
- 5
6 -
6 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
77
475
0800
1600
2400
3200
4000
4800
0
50
100
150
200
250
300
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
56
-6
M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
100
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
78
475
M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
873 lb
s396 k
g
Leng
th16.7
ft
5.0
8 m
Full
Load
Bit
Spee
d40 - 1
50 r
pm40 - 1
50 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
2,8
40 ft-lb
s3,8
50 N
-m
Peak
Dev
elop
ed P
ower
61 h
p45 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
78
- 3
7 /
8
3.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
4—
3/4
” O
D
7:8
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 475—78—3
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
78
-3
REV
S /
GA
L
0.60
Rev
/Gal
@ 4
50 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
13.3
53.5
94.7
56.8
2
0.6
21.3
20.5
46.4
06.6
37.7
89.8
4
0.9
34.9
24.1
30.2
79.4
49.6
710.8
112.8
5
1.2
28.2
87.4
93.6
212.2
912.5
213.6
515.6
7
1.5
011.5
210.7
36.8
60.1
615.0
415.2
616.3
918.4
0
1.7
614.5
413.7
59.8
63.1
517.5
917.8
218.9
420.9
3
2.0
017.3
216.5
312.6
45.9
119.9
520.1
721.2
823.2
7
2.2
319.9
919.2
015.2
98.5
522.2
122.4
323.5
425.5
0
2.4
222.1
921.4
017.4
910.7
424.0
724.2
925.3
927.3
5
2.6
024.2
823.4
819.5
712.8
125.8
426.0
627.1
629.1
1
2.7
425.9
025.1
121.1
914.4
227.2
227.4
428.5
330.4
7
2.8
527.1
826.3
822.4
615.6
828.3
028.5
229.6
031.5
4
2.9
328.1
127.3
123.3
816.6
029.0
829.3
030.3
932.3
2
2.9
828.6
927.8
923.9
617.1
829.5
729.7
930.8
832.8
1
3.0
028.9
228.1
224.1
917.4
129.7
729.9
931.0
733.0
0
475
- 7
8 -
3 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
79
475
0600
1200
1800
2400
3000
0
50
100
150
200
250
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
78
-3
M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
100 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
80
4—
3/4
” O
D
9:1
0 L
obe
2.0
Sta
ge
Slo
w S
peed
M
ediu
m T
orqu
e 475—910—2
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
05
010
01
50
20
02
503
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
91
0 -
2
REV
S /
GA
L
0.70
Rev
/Gal
@ 3
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
873 lb
s396 k
g
Leng
th13.0
ft
3.9
8 m
Full
Load
Bit
Spee
d50 - 1
75 r
pm50 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
2,5
00 ft-lb
s3,3
90 N
-m
Peak
Dev
elop
ed P
ower
125 h
p93 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
300 p
si2,0
68 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
400 p
si2,7
58 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
47
5 -
91
0 -
2
9 /
10
2.0
475
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
13.8
74.1
55.5
78.0
9
0.6
21.5
30.6
77.1
47.4
38.8
311.3
3
0.9
35.4
84.6
20.3
810.4
210.7
012.1
014.5
8
1.2
29.1
88.3
14.0
613.4
913.7
615.1
517.6
1
1.5
012.7
411.8
77.6
10.2
616.4
516.7
218.1
020.5
4
1.7
616.0
615.1
910.9
13.5
419.1
919.4
720.8
323.2
6
2.0
019.1
118.2
413.9
66.5
721.7
322.0
023.3
625.7
8
2.2
322.0
421.1
716.8
89.4
724.1
624.4
325.7
828.1
8
2.4
224.4
723.5
919.2
911.8
726.1
726.4
427.7
830.1
7
2.6
026.7
625.8
821.5
814.1
428.0
728.3
429.6
832.0
6
2.7
428.5
427.6
723.3
515.9
129.5
629.8
231.1
533.5
2
2.8
529.9
529.0
724.7
517.3
030.7
230.9
932.3
134.6
8
2.9
330.9
730.0
925.7
718.3
131.5
631.8
333.1
635.5
1
2.9
831.6
030.7
226.4
018.9
432.0
932.3
633.6
836.0
4
3.0
031.8
630.9
826.6
519.1
932.3
032.5
733.8
936.2
5
475
- 9
10 -
2 B
UIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
81
050
0
10
00
15
00
20
00
25
00
30
00
0
50
10
0
15
0
20
0
25
0
30
0
05
01
00
15
02
00
25
03
00
35
04
00
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
91
0 -
2 M
otor
Per
form
ance
Cur
ves
17
5 G
PM
250
GPM
100
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
475
82
475
4—
3/4
” O
D
9:1
0 L
obe
3.0
Sta
ge
Slo
w S
peed
M
ediu
m T
orqu
e 475—910—3
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
1.2
5
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
91
0 -
3
REV
S /
GA
L
0.70
Rev
/Gal
@ 4
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
1,1
00 lb
s499 k
g
Leng
th16.7
ft
5.0
8 m
Full
Load
Bit
Spee
d50 - 1
75 r
pm50 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
3,7
50 ft-lb
s5,0
80 N
-m
Peak
Dev
elop
ed P
ower
95 h
p71 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
91
0 -
3
9 /
10
3.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
13.3
53.5
94.7
56.8
2
0.6
21.3
20.5
46.4
06.6
37.7
89.8
4
0.9
34.9
24.1
30.2
79.4
49.6
710.8
112.8
5
1.2
28.2
87.4
93.6
212.2
912.5
213.6
515.6
7
1.5
011.5
210.7
36.8
60.1
615.0
415.2
616.3
918.4
0
1.7
614.5
413.7
59.8
63.1
517.5
917.8
218.9
420.9
3
2.0
017.3
216.5
312.6
45.9
119.9
520.1
721.2
823.2
7
2.2
319.9
919.2
015.2
98.5
522.2
122.4
323.5
425.5
0
2.4
222.1
921.4
017.4
910.7
424.0
724.2
925.3
927.3
5
2.6
024.2
823.4
819.5
712.8
125.8
426.0
627.1
629.1
1
2.7
425.9
025.1
121.1
914.4
227.2
227.4
428.5
330.4
7
2.8
527.1
826.3
822.4
615.6
828.3
028.5
229.6
031.5
4
2.9
328.1
127.3
123.3
816.6
029.0
829.3
030.3
932.3
2
2.9
828.6
927.8
923.9
617.1
829.5
729.7
930.8
832.8
1
3.0
028.9
228.1
224.1
917.4
129.7
729.9
931.0
733.0
0
475
- 9
10 -
3 B
UIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
83
475
0700
1400
2100
2800
3500
4200
0
50
100
150
200
250
300
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
91
0 -
3 M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
10
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
84
475
4—
3/4
” O
D
9:1
0 L
obe
3.5
Sta
ge
Very
Slo
w S
peed
H
igh
Torq
ue 475—910—3.5
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
1,4
71 lb
s667 K
g
Leng
th28.1
ft
8.5
6 m
Full
Load
Bit
Spee
d20 - 7
0 r
pm20 - 7
0 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
5,9
50 ft-lb
s8,0
67 N
-m
Peak
Dev
elop
ed P
ower
60 h
p45 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
500 p
si3,4
50 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
700 p
si4,8
30 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
91
0 -
3.5
9 /
10
3.5
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
01
002
00
30
04
005
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
91
0 -
3.5
REV
S /
GA
L
0.29
Rev
/Gal
@ 5
00 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.7
22.8
93.7
65.3
1
0.6
21.0
70.3
95.4
35.6
06.4
78.0
0
0.9
34.1
93.5
10.1
68.1
48.3
29.1
710.6
9
1.2
27.1
16.4
23.0
710.6
810.8
511.7
013.2
1
1.5
09.9
39.2
45.8
80.0
713.1
313.3
014.1
415.6
4
1.7
612.5
411.8
68.4
92.6
615.4
115.5
716.4
117.9
0
2.0
014.9
614.2
710.9
05.0
617.5
117.6
718.5
019.9
8
2.2
317.2
716.5
913.2
07.3
619.5
219.6
920.5
121.9
8
2.4
219.1
918.5
015.1
19.2
621.1
821.3
522.1
723.6
3
2.6
021.0
020.3
116.9
211.0
522.7
622.9
223.7
425.1
9
2.7
422.4
121.7
218.3
212.4
523.9
824.1
524.9
626.4
1
2.8
523.5
222.8
219.4
313.5
524.9
525.1
125.9
227.3
6
2.9
324.3
223.6
320.2
314.3
525.6
525.8
126.6
228.0
6
2.9
824.8
224.1
320.7
314.8
526.0
926.2
527.0
628.4
9
3.0
025.0
324.3
320.9
315.0
526.2
626.4
227.2
328.6
7
47
5 - 9
10 -
3.5
B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
10
0 fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
85
475
01000
2000
3000
4000
5000
6000
0
20
40
60
80
100
120
010
0200
300
400
500
600
700
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
91
0 -
3.5
Mot
or P
erfo
rman
ce C
urve
s
175 G
PM
250 G
PM
10
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
86
475
4—
3/4
” O
D
9:1
0 L
obe
4.0
Sta
ge
Slo
w S
peed
H
igh
Torq
ue 475—910—4
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
47
5 -
91
0 -
4
REV
S /
GA
L
0.70
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
4-3
/4 in
120 m
m
Wei
ght
1,1
00 lb
s499 k
g
Leng
th20.5
ft
6.2
5 m
Full
Load
Bit
Spee
d50 - 1
75 r
pm50 - 1
75 r
pm
Flow
Rat
e100 - 2
50 g
pm379 - 9
46 lp
m
Peak
Tor
que
5,0
00 ft-lb
s6,7
80 N
-m
Peak
Dev
elop
ed P
ower
125 h
p93 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
47
5 -
91
0 -
4
9 /
10
4.0
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.9
63.1
54.1
35.8
7
0.6
21.1
60.4
45.8
05.9
96.9
68.6
9
0.9
34.4
73.7
40.2
08.6
48.8
49.8
011.5
1
1.2
27.5
66.8
33.2
811.3
011.4
912.4
514.1
5
1.5
010.5
49.8
26.2
50.1
013.8
714.0
615.0
116.6
9
1.7
613.3
112.5
89.0
22.8
516.2
616.4
517.3
819.0
6
2.0
015.8
715.1
411.5
75.3
918.4
618.6
519.5
821.2
4
2.2
318.3
217.5
914.0
17.8
220.5
720.7
521.6
823.3
3
2.4
220.3
519.6
216.0
39.8
322.3
122.5
023.4
225.0
6
2.6
022.2
621.5
317.9
411.7
323.9
624.1
525.0
726.7
0
2.7
423.7
623.0
219.4
313.2
125.2
525.4
326.3
527.9
8
2.8
524.9
324.2
020.6
014.3
726.2
626.4
427.3
528.9
8
2.9
325.7
825.0
521.4
515.2
226.9
927.1
728.0
829.7
1
2.9
826.3
125.5
821.9
815.7
527.4
527.6
328.5
430.1
6
3.0
026.5
325.7
922.1
915.9
627.6
327.8
228.7
330.3
4
475
- 9
10 -
4 BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
10
0 f
eet )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
87
475
01000
2000
3000
4000
5000
6000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
47
5 -
91
0 -
4 M
otor
Per
form
ance
Cur
ves
175 G
PM
250 G
PM
10
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
88
475
89
475
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 4.75 120.7 4.75 120.7 4.75 120.7 4.75 120.7 4.75 120.7
C 7.87 200.0 7.87 200.0 7.87 200.0 7.87 200.0 7.87 200.0
D 13.78 350.0 13.78 350.0 13.78 350.0 13.78 350.0 13.78 350.0
E 29.65 753.0 29.65 753.0 29.65 753.0 29.65 753.0 29.65 753.0
G 100.28 2547.0 118.90 3020.0 125.31 3183.0 150.39 3820.0 118.90 3020.0
H 11.34 288.0 11.34 288.0 11.34 288.0 11.34 288.0 11.34 288.0
I 6.89 175.0 6.89 175.0 6.89 175.0 6.89 175.0 6.89 175.0
J 182.36 4632.0 200.98 5105.0 219.21 5568.0 232.44 5904.0 200.98 5105.0
K 2.95 75.0 2.95 75.0 2.95 75.0 2.95 75.0 2.95 75.0
L 7.40 188.0 7.40 188.0 7.40 188.0 7.40 188.0 7.40 188.0
M 40.00 1016.0 40.00 1016.0 40.00 1016.0 40.00 1016.0 40.00 1016.0
N 28.35 720.0 28.35 720.0 28.35 720.0 28.35 720.0 28.35 720.0
O 96.06 2440.0 115.75 2940.0 120.08 3050.0 144.09 3660.0 115.75 2940.0
P 2.79 70.8 2.79 70.8 2.79 70.8 2.79 70.8 2.79 70.8
Q 3.31 84.0 3.31 84.0 3.31 84.0 3.31 84.0 3.31 84.0
R 1.73 44.0 1.73 44.0 1.73 44.0 1.73 44.0 1.73 44.0
S 3.31 84.0 3.31 84.0 3.31 84.0 3.31 84.0 3.31 84.0
T 11.34 288.0 11.34 288.0 11.34 288.0 11.34 288.0 11.34 288.0
U 41.10 1044.0 41.10 1044.0 41.10 1044.0 41.10 1044.0 41.10 1044.0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 4.75 120.7 4.75 120.7 4.75 120.7 4.75 120.7
C 7.87 200.0 7.87 200.0 7.87 200.0 7.87 200.0
D 13.78 350.0 13.78 350.0 13.78 350.0 13.78 350.0
E 29.65 753.0 29.65 753.0 29.65 753.0 29.65 753.0
G 100.28 2547.0 118.90 3020.0 215.98 5486.0 154.02 3912.0
H 11.34 288.0 11.34 288.0 11.34 288.0 11.34 288.0
I 6.89 175.0 6.89 175.0 6.89 175.0 6.89 175.0
J 182.36 4632.0 200.98 5105.0 324.02 8230.0 219.21 5568.0
K 2.95 75.0 2.95 75.0 2.95 75.0 2.95 75.0
L 7.40 188.0 7.40 188.0 7.40 188.0 7.40 188.0
M 40.00 1016.0 40.00 1016.0 40.00 1016.0 40.00 1016.0
N 28.35 720.0 28.35 720.0 28.35 720.0 28.35 720.0
O 96.06 2440.0 115.75 2940.0 212.99 5410.0 150.98 3835.0
P 2.79 70.8 2.79 70.8 2.79 70.8 2.79 70.8
Q 3.31 84.0 3.31 84.0 3.31 84.0 3.31 84.0
R 1.73 44.0 1.73 44.0 1.73 44.0 1.73 44.0
S 3.31 84.0 3.31 84.0 3.31 84.0 3.31 84.0
T 44.61 1133.0 11.34 288.0 44.61 1133.0 11.34 288.0
U 41.10 1044.0 41.10 1044.0 41.10 1044.0 41.10 1044.0
475-56-3 475-56-4 475-56-5
475 FISHING DIMENSIONS
475-910-2 475-910-3 475-910-3.5 475-910-4
475-56-6 475-78-3
90
50
0
5—
0”
OD
5:6
Lob
e 3
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 500—56—3
0.5
0
0.7
5
1.0
0
1.2
5
1.5
0
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
56
-3
REV
S /
GA
L
0.80
Rev
/Gal
@ 4
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
5-0
in127 m
m
Wei
ght
925 lb
s420 k
g
Leng
th18.4
ft
5.6
m
Full
Load
Bit
Spee
d140 - 2
80 r
pm140 - 2
80 r
pm
Flow
Rat
e150 - 3
50 g
pm568 - 1
325 lp
m
Peak
Tor
que
2,1
10 ft-lb
s2,8
61 N
-m
Peak
Dev
elop
ed P
ower
85 h
p63 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
50
0 -
56
- 3
5 /
6
3.0
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.5
92.7
83.7
45.4
6
0.6
22.6
11.8
95.4
25.6
16.5
78.2
7
0.9
35.8
95.1
71.6
38.2
58.4
49.3
911.0
8
1.2
28.9
68.2
44.6
910.9
011.0
912.0
313.7
1
1.5
011.9
211.2
07.6
41.4
913.4
613.6
514.5
816.2
4
1.7
614.6
713.9
510.3
84.2
215.8
416.0
216.9
518.6
0
2.0
017.2
116.4
912.9
26.7
418.0
318.2
119.1
420.7
8
2.2
319.6
518.9
215.3
49.1
620.1
320.3
121.2
322.8
6
2.4
221.6
620.9
317.3
511.1
521.8
722.0
522.9
624.5
8
2.6
023.5
622.8
319.2
413.0
423.5
123.6
924.6
026.2
2
2.7
425.0
524.3
120.7
214.5
124.7
924.9
725.8
827.4
9
2.8
526.2
125.4
821.8
815.6
725.8
025.9
826.8
828.4
8
2.9
327.0
626.3
222.7
316.5
126.5
326.7
127.6
129.2
1
2.9
827.5
926.8
523.2
517.0
326.9
927.1
728.0
629.6
6
3.0
027.8
027.0
623.4
717.2
427.1
727.3
528.2
529.8
4
500
- 5
6 - 3
B
UIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
91
50
0
040
0
80
0
12
00
16
00
20
00
24
00
0
75
150
225
300
375
450
01
00
20
03
00
40
05
00
60
0
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
50
0 -
56
-3
Mot
or P
erfo
rman
ce C
urve
s
250
GPM
350
GPM
150
GPM
TO
RQ
UE
ROL
RO
L =
Rec
omm
ende
d O
pera
tion
Line
92
50
0
5—
0”
OD
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 500—56—4
0.5
0
0.7
5
1.0
0
1.2
5
1.5
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
56
-4
REV
S /
GA
L
0.80
Rev
/Gal
@ 6
00 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.0
22.1
52.8
23.9
9
0.6
22.1
01.5
04.4
54.5
85.2
46.4
0
0.9
34.8
34.2
31.2
86.8
77.0
17.6
68.8
1
1.2
27.3
96.7
93.8
39.1
59.2
79.9
211.0
7
1.5
09.8
59.2
56.2
91.1
711.3
411.4
712.1
113.2
5
1.7
612.1
411.5
48.5
83.4
513.3
713.5
014.1
415.2
7
2.0
014.2
613.6
510.6
95.5
515.2
515.3
816.0
117.1
4
2.2
316.2
915.6
812.7
17.5
617.0
517.1
817.8
118.9
2
2.4
217.9
617.3
514.3
89.2
218.5
418.6
719.2
920.4
0
2.6
019.5
518.9
415.9
610.8
019.9
520.0
820.7
021.8
0
2.7
420.7
820.1
717.1
912.0
321.0
521.1
721.7
922.8
9
2.8
521.7
521.1
418.1
612.9
921.9
122.0
322.6
523.7
5
2.9
322.4
521.8
518.8
613.6
922.5
422.6
623.2
724.3
7
2.9
822.8
922.2
919.3
014.1
322.9
323.0
523.6
624.7
6
3.0
023.0
722.4
619.4
714.3
023.0
823.2
123.8
224.9
1
500 -
56 -
4 BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
5-0
in127 m
m
Wei
ght
1,1
38 lb
s516 k
g
Leng
th22.2
ft
6.7
6m
Full
Load
Bit
Spee
d140 - 2
80 r
pm140 - 2
80 r
pm
Flow
Rat
e150 - 3
50 g
pm568 - 1
325 lp
m
Peak
Tor
que
2,8
10 ft-lb
s3,8
10 N
-m
Peak
Dev
elop
ed P
ower
113 h
p84 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
50
0 -
56
- 4
5 /
6
4.0
93
50
0
050
0
10
00
15
00
20
00
25
00
30
00
0
75
150
225
300
375
450
01
00
20
03
00
40
05
00
60
07
00
80
0
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
50
0 -
56
-4
Mot
or P
erfo
rman
ce C
urve
s
25
0 G
PM
350
GPM
15
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
94
50
0
5—
0”
OD
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
500—56—5
0.5
0
0.7
5
1.0
0
1.2
5
1.5
0
01
00
200
30
04
00
50
06
0070
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
56
-5
REV
S /
GA
L
0.80
Rev
/Gal
@ 7
50 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
11.6
51.7
52.2
33.0
9
0.6
21.7
61.2
43.7
73.8
74.3
55.2
0
0.9
34.1
03.5
81.0
65.8
95.9
96.4
67.3
1
1.2
26.2
95.7
73.2
47.8
77.9
78.4
49.2
8
1.5
08.4
07.8
85.3
50.9
69.7
99.8
810.3
511.1
8
1.7
610.3
69.8
47.3
12.9
111.5
711.6
612.1
212.9
5
2.0
012.1
711.6
69.1
24.7
213.2
113.3
013.7
614.5
8
2.2
313.9
113.3
910.8
56.4
414.7
814.8
715.3
316.1
5
2.4
215.3
414.8
212.2
87.8
716.0
816.1
716.6
317.4
4
2.6
016.7
016.1
813.6
39.2
217.3
117.4
017.8
518.6
6
2.7
417.7
617.2
414.6
910.2
718.2
718.3
618.8
119.6
1
2.8
518.5
918.0
715.5
211.0
919.0
219.1
119.5
620.3
6
2.9
319.1
918.6
716.1
211.7
019.5
719.6
620.1
120.9
0
2.9
819.5
719.0
516.5
012.0
719.9
120.0
020.4
521.2
4
3.0
019.7
219.2
016.6
512.2
220.0
520.1
420.5
821.3
8
500 -
56 -
5 BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
5-0
in127 m
m
Wei
ght
1,3
46 lb
s611 k
g
Leng
th26.0
ft
7.9
m
Full
Load
Bit
Spee
d140 - 2
80 r
pm140 - 2
80 r
pm
Flow
Rat
e150 - 3
50 g
pm568 - 1
325 lp
m
Peak
Tor
que
3,5
15 ft-lb
s4,7
66 N
-m
Peak
Dev
elop
ed P
ower
142 h
p106 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
50
0 -
56
- 5
5 /
6
5.0
95
50
0
060
0
12
00
18
00
24
00
30
00
36
00
0
75
15
0
22
5
30
0
37
5
45
0
01
00
20
03
00
40
05
00
60
07
00
80
09
00
10
00
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
56
-5
M
otor
Per
form
ance
Cur
ves
25
0 G
PM
35
0 G
PM
150
GPM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
96
50
0
5—
0”
OD
7:8
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
500—78—4
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
1.1
3
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
78
-4
REV
S /
GA
L
0.65
Rev
/Gal
@ 6
00 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.0
22.1
52.8
23.9
9
0.6
22.1
01.5
04.4
54.5
85.2
46.4
0
0.9
34.8
34.2
31.2
86.8
77.0
17.6
68.8
1
1.2
27.3
96.7
93.8
39.1
59.2
79.9
211.0
7
1.5
09.8
59.2
56.2
91.1
711.3
411.4
712.1
113.2
5
1.7
612.1
411.5
48.5
83.4
513.3
713.5
014.1
415.2
7
2.0
014.2
613.6
510.6
95.5
515.2
515.3
816.0
117.1
4
2.2
316.2
915.6
812.7
17.5
617.0
517.1
817.8
118.9
2
2.4
217.9
617.3
514.3
89.2
218.5
418.6
719.2
920.4
0
2.6
019.5
518.9
415.9
610.8
019.9
520.0
820.7
021.8
0
2.7
420.7
820.1
717.1
912.0
321.0
521.1
721.7
922.8
9
2.8
521.7
521.1
418.1
612.9
921.9
122.0
322.6
523.7
5
2.9
322.4
521.8
518.8
613.6
922.5
422.6
623.2
724.3
7
2.9
822.8
922.2
919.3
014.1
322.9
323.0
523.6
624.7
6
3.0
023.0
722.4
619.4
714.3
023.0
823.2
123.8
224.9
1
500 -
78 -
4 BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
5-0
in127 m
m
Wei
ght
1,1
38 lb
s516 k
g
Leng
th22.2
ft
6.7
6m
Full
Load
Bit
Spee
d130 - 2
60 r
pm130 - 2
60 r
pm
Flow
Rat
e200 - 4
00 g
pm757 - 1
514 lp
m
Peak
Tor
que
3,6
20 ft-lb
s4,9
08 N
-m
Peak
Dev
elop
ed P
ower
135 h
p100 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
50
0 -
78
- 4
7 /
8
4.0
97
50
0
075
0
15
00
22
50
30
00
37
50
45
00
0
75
150
225
300
375
450
01
00
20
03
00
40
05
00
60
07
00
80
0
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
50
0 -
78
-4
Mot
or P
erfo
rman
ce C
urve
s
30
0 G
PM
400
GPM
20
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
98
50
0
5—
0”
OD
9:1
0 L
obe
4.0
Sta
ge
Slo
w S
peed
H
igh
Torq
ue 500—910—4
0.5
0
0.6
3
0.7
5
0.8
8
1.0
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
91
0 -
4
REV
S /
GA
L
0.57
Rev
/Gal
@ 6
00 p
si
6"
6-1
/8"
6-3
/4"
7-7
/8"
6"
6-1
/8"
6-3
/4"
7-7
/8"
0.3
12.0
22.1
52.8
23.9
9
0.6
22.1
01.5
04.4
54.5
85.2
46.4
0
0.9
34.8
34.2
31.2
86.8
77.0
17.6
68.8
1
1.2
27.3
96.7
93.8
39.1
59.2
79.9
211.0
7
1.5
09.8
59.2
56.2
91.1
711.3
411.4
712.1
113.2
5
1.7
612.1
411.5
48.5
83.4
513.3
713.5
014.1
415.2
7
2.0
014.2
613.6
510.6
95.5
515.2
515.3
816.0
117.1
4
2.2
316.2
915.6
812.7
17.5
617.0
517.1
817.8
118.9
2
2.4
217.9
617.3
514.3
89.2
218.5
418.6
719.2
920.4
0
2.6
019.5
518.9
415.9
610.8
019.9
520.0
820.7
021.8
0
2.7
420.7
820.1
717.1
912.0
321.0
521.1
721.7
922.8
9
2.8
521.7
521.1
418.1
612.9
921.9
122.0
322.6
523.7
5
2.9
322.4
521.8
518.8
613.6
922.5
422.6
623.2
724.3
7
2.9
822.8
922.2
919.3
014.1
322.9
323.0
523.6
624.7
6
3.0
023.0
722.4
619.4
714.3
023.0
823.2
123.8
224.9
1
500
- 9
10 - 4
BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
10
0 f
eet
)
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
5-0
in127 m
m
Wei
ght
1,1
38 lb
s516 k
g
Leng
th22.2
ft
6.7
6m
Full
Load
Bit
Spee
d100 - 2
30 r
pm100 - 2
30 r
pm
Flow
Rat
e200 - 4
00 g
pm757 - 1
514 lp
m
Peak
Tor
que
5,0
00 ft-lb
s6,7
79 N
-m
Peak
Dev
elop
ed P
ower
165 h
p123 k
w
Bit to
Ben
d46 in
1,1
68 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
25,0
00 lb
s111 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or100,0
00 lb
s445 k
N
Pull
to Y
ield
Mot
or300,0
00 lb
s1,3
34 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
3-1
/2 R
eg3-1
/2 IF
3-1
/2 R
eg
50
0 -
91
0 -
4
9 /
10
4.0
99
50
0
070
0
14
00
21
00
28
00
35
00
42
00
49
00
56
00
0
50
10
0
15
0
20
0
25
0
30
0
35
0
40
0
01
00
20
03
00
40
05
00
60
07
00
80
0
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
50
0 -
91
0 -
4 M
otor
Per
form
ance
Cur
ves
30
0 G
PM
400
GPM
200
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
100
50
0
101
50
0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 5.00 127.0 5.00 127.0 5.00 127.0
C 8.74 222.0 8.74 222.0 8.74 222.0
D 15.24 387.0 15.24 387.0 15.24 387.0
E 30.00 762.0 30.00 762.0 30.00 762.0
G 109.29 2776.0 154.88 3934.0 200.51 5093.0
H 12.28 312.0 12.28 312.0 12.28 312.0
I 5.00 127.0 5.00 127.0 5.00 127.0
J 220.79 5608.0 266.38 6766.0 312.01 7925.0
K 2.56 65.0 2.56 65.0 2.56 65.0
L 11.30 287.0 11.30 287.0 11.30 287.0
M 34.25 870.0 34.25 870.0 34.25 870.0
N 34.76 883.0 34.76 883.0 34.76 883.0
O 105.67 2684.0 151.26 3842.0 196.89 5001.0
P 2.79 70.8 2.79 70.8 2.79 70.8
Q 3.31 84.0 3.31 84.0 3.31 84.0
R 1.73 44.0 1.73 44.0 1.73 44.0
S 3.31 84.0 3.31 84.0 3.31 84.0
T 30.39 772.0 30.39 772.0 30.39 772.0
U 39.25 997.0 39.25 997.0 39.25 997.0
English(in)
Metric(mm)
English(in)
Metric(mm)
A 5.00 127.0 5.00 127.0
C 8.74 222.0 8.74 222.0
D 15.24 387.0 15.24 387.0
E 30.00 762.0 30.00 762.0
G 154.88 3934.0 154.88 3934.0
H 12.28 312.0 12.28 312.0
I 5.00 127.0 5.00 127.0
J 266.38 6766.0 266.38 6766.0
K 2.56 65.0 2.56 65.0
L 11.30 287.0 11.30 287.0
M 34.25 870.0 34.25 870.0
N 34.76 883.0 34.76 883.0
O 151.26 3842.0 151.26 3842.0
P 2.79 70.8 2.79 70.8
Q 3.31 84.0 3.31 84.0
R 1.73 44.0 1.73 44.0
S 3.31 84.0 3.31 84.0
T 30.39 772.0 30.39 772.0
U 39.25 997.0 39.25 997.0
500-78-4 500-910-4
500 FISHING DIMENSIONS
500-56-3 500-56-4 500-56-5
102
0.4
0
0.5
0
0.6
0
0.7
0
0.8
0
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
55
0 -
56
-4
R
EVS
/ G
AL
0.50
Rev
/Gal
@ 6
00 p
si
5—
1/2
” O
D
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 550—56—4
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
5-1
/2 in
140 m
m
Wei
ght
1,4
15 lb
s642 k
g
Leng
th19.8
ft
6.0
3 m
Full
Load
Bit
Spee
d100 - 2
00 r
pm100 - 2
00 r
pm
Flow
Rat
e200 - 4
00 g
pm757 - 1
,514 lp
m
Peak
Tor
que
4,2
20 ft-lb
s5,7
22 N
-m
Peak
Dev
elop
ed P
ower
121 h
p90 k
w
Bit to
Ben
d51 in
1,2
85 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
35,0
00 lb
s155 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or150,0
00 lb
s667 k
N
Pull
to Y
ield
Mot
or450,0
00 lb
s2,0
00 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
55
0 -
56
- 4
5 /
6
4.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
55
0 6
-3/4
"7-7
/8"
8-1
/2"
8-3
/4"
6-3
/4"
7-7
/8"
8-1
/2"
8-3
/4"
0.3
12.9
04.4
05.2
35.5
5
0.6
21.5
95.5
47.0
37.8
58.1
7
0.9
34.6
38.1
89.6
610.4
710.7
9
1.2
27.4
92.1
810.6
612.1
212.9
213.2
5
1.5
010.2
44.9
22.0
70.9
513.0
414.4
915.2
915.6
1
1.7
612.8
07.4
64.6
13.4
915.2
616.7
017.4
917.8
1
2.0
015.1
69.8
16.9
55.8
317.3
018.7
419.5
319.8
4
2.2
317.4
212.0
79.2
08.0
719.2
620.6
921.4
721.7
8
2.4
219.2
913.9
311.0
69.9
320.8
822.3
023.0
823.3
9
2.6
021.0
615.6
912.8
111.6
822.4
223.8
324.6
024.9
1
2.7
422.4
417.0
614.1
813.0
523.6
125.0
125.7
926.1
0
2.8
523.5
218.1
415.2
614.1
224.5
525.9
526.7
227.0
3
2.9
324.3
118.9
216.0
414.9
125.2
326.6
327.4
027.7
0
2.9
824.8
019.4
116.5
315.3
925.6
627.0
527.8
228.1
3
3.0
024.9
919.6
116.7
215.5
925.8
327.2
227.9
928.3
0
ABH SET
AN
GLE
HO
LE S
IZE
HO
LE S
IZE
550
- 5
6 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
103
0700
1400
2100
2800
3500
4200
4900
0
50
100
150
200
250
300
350
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
55
0 -
56
-4
M
otor
Per
form
ance
Cur
ves
300 G
PM
400 G
PM
20
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
55
0
104
55
0
105
55
0
550 FISHING DIMENSIONS
English(in)
Metric(mm)
A 5.50 139.7
C 9.17 233.0
D 18.70 475.0
E 40.55 1030.0
G 126.22 3206.0
H 15.24 387.0
I 11.14 283.0
J 237.28 6027.0
K 4.33 110.0
L 11.22 285.0
M 54.29 1379.0
N 28.86 733.0
O 121.26 3080.0
P 3.80 96.6
Q 4.41 112.0
R 2.44 62.0
S 4.41 112.0
T 15.24 387.0
U 45.12 1146.0
550-56-4
106
6—
1/2
” O
D
1:2
Lob
e 4
.0 S
tage
Hig
h S
peed
Lo
w T
orqu
e 650—12—4
1.2
5
1.5
0
1.7
5
2.0
0
2.2
5
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
65
0 -
12
-4
R
EVS
/ G
AL
1.33
Rev
/Gal
@ 6
00 p
si
65
0
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
12.5
23.2
53.5
44.8
4
0.6
22.5
30.6
14.7
15.4
35.7
27.0
1
0.9
35.3
93.4
52.6
96.9
07.6
17.9
09.1
8
1.2
28.0
56.1
15.3
51.9
88.9
49.6
69.9
411.2
1
1.5
010.6
38.6
87.9
14.5
310.9
211.6
311.9
113.1
7
1.7
613.0
211.0
710.3
06.9
112.7
613.4
613.7
414.9
9
2.0
015.2
313.2
712.5
09.1
014.4
515.1
515.4
316.6
7
2.2
317.3
415.3
814.6
111.2
016.0
716.7
717.0
518.2
9
2.4
219.0
917.1
316.3
512.9
317.4
218.1
118.3
819.6
2
2.6
020.7
518.7
818.0
014.5
818.6
919.3
819.6
520.8
8
2.7
422.0
420.0
619.2
915.8
619.6
720.3
620.6
421.8
6
2.8
523.0
521.0
720.2
916.8
620.4
521.1
421.4
122.6
3
2.9
323.7
821.8
121.0
317.5
921.0
221.7
021.9
723.1
9
2.9
824.2
422.2
721.4
918.0
521.3
722.0
522.3
323.5
4
3.0
024.4
322.4
521.6
718.2
321.5
122.1
922.4
723.6
8
650
- 1
2 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-1
/2 in
165 m
m
Wei
ght
1,7
53 lb
s795 k
g
Leng
th21.1
ft
6.4
3 m
Full
Load
Bit
Spee
d150 - 4
00 r
pm150 - 4
00 r
pm
Flow
Rat
e150 - 3
00 g
pm568 - 1
,135 lp
m
Peak
Tor
que
1,0
00 ft-lb
s1356 N
-m
Peak
Dev
elop
ed P
ower
57 h
p43 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
50,0
00 lb
s222 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or200,0
00 lb
s890 k
N
Pull
to Y
ield
Mot
or600,0
00 lb
s2,6
69 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
65
0 -
12
- 4
1 /
2
4.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
107
0200
400
600
800
1000
1200
1400
0
100
200
300
400
500
600
700
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
65
0 -
12
-4
M
otor
Per
form
ance
Cur
ves
225 G
PM
300
GPM
15
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
65
0
108
6—
1/2
” O
D
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 650—56—4
0.3
5
0.4
0
0.4
5
0.5
0
0.5
5
0.6
0
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
65
0 -
56
-4
R
EVS
/ G
AL
0.36
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-1
/2 in
165 m
m
Wei
ght
1,7
53 lb
s795 k
g
Leng
th21.1
ft
6.4
3 m
Full
Load
Bit
Spee
d75 - 1
80 r
pm75 - 1
80 r
pm
Flow
Rat
e200 - 5
00 g
pm757 - 1
,893 lp
m
Peak
Tor
que
4,9
10 ft-lb
s6,6
57 N
-m
Peak
Dev
elop
ed P
ower
127 h
p95 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
50,0
00 lb
s222 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or200,0
00 lb
s890 k
N
Pull
to Y
ield
Mot
or600,0
00 lb
s2,6
69 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
65
0 -
56
- 4
5 /
6
4.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
65
0
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
12.5
23.2
53.5
44.8
4
0.6
22.5
30.6
14.7
15.4
35.7
27.0
1
0.9
35.3
93.4
52.6
96.9
07.6
17.9
09.1
8
1.2
28.0
56.1
15.3
51.9
88.9
49.6
69.9
411.2
1
1.5
010.6
38.6
87.9
14.5
310.9
211.6
311.9
113.1
7
1.7
613.0
211.0
710.3
06.9
112.7
613.4
613.7
414.9
9
2.0
015.2
313.2
712.5
09.1
014.4
515.1
515.4
316.6
7
2.2
317.3
415.3
814.6
111.2
016.0
716.7
717.0
518.2
9
2.4
219.0
917.1
316.3
512.9
317.4
218.1
118.3
819.6
2
2.6
020.7
518.7
818.0
014.5
818.6
919.3
819.6
520.8
8
2.7
422.0
420.0
619.2
915.8
619.6
720.3
620.6
421.8
6
2.8
523.0
521.0
720.2
916.8
620.4
521.1
421.4
122.6
3
2.9
323.7
821.8
121.0
317.5
921.0
221.7
021.9
723.1
9
2.9
824.2
422.2
721.4
918.0
521.3
722.0
522.3
323.5
4
3.0
024.4
322.4
521.6
718.2
321.5
122.1
922.4
723.6
8
650
- 5
6 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
109
01000
2000
3000
4000
5000
6000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
65
0 -
56
-4
M
otor
Per
form
ance
Cur
ves
350 G
PM
500 G
PM
20
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
65
0
110
6—
1/2
” O
D
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
650—56—5 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-1
/2 in
165 m
m
Wei
ght
2,0
06 lb
s910 k
g
Leng
th23.5
ft
7.1
6 m
Full
Load
Bit
Spee
d75 - 1
80 r
pm75 - 1
80 r
pm
Flow
Rat
e200 - 5
00 g
pm757 - 1
,893 lp
m
Peak
Tor
que
6,6
30 ft-lb
s8,9
90 N
-m
Peak
Dev
elop
ed P
ower
172 h
p128 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
50,0
00 lb
s222 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or200,0
00 lb
s890 k
N
Pull
to Y
ield
Mot
or600,0
00 lb
s2,6
69 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
65
0 -
56
- 5
5 /
6
5.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
0.3
5
0.4
0
0.4
5
0.5
0
0.5
5
0.6
0
010
02
00
30
04
005
00
60
07
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
65
0 -
56
-5
R
EVS
/ G
AL
0.36
Rev
/Gal
@ 7
50 p
si
65
0
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
12.1
92.7
83.0
14.0
5
0.6
22.2
30.5
04.2
34.8
15.0
46.0
8
0.9
34.8
03.0
62.3
76.2
76.8
47.0
78.1
0
1.2
27.2
05.4
64.7
71.7
38.1
78.7
48.9
79.9
9
1.5
09.5
27.7
77.0
84.0
410.0
110.5
810.8
011.8
2
1.7
611.6
79.9
29.2
36.1
711.7
212.2
812.5
113.5
1
2.0
013.6
611.9
011.2
18.1
513.2
913.8
514.0
815.0
8
2.2
315.5
713.8
013.1
110.0
414.8
015.3
615.5
816.5
8
2.4
217.1
415.3
714.6
811.6
016.0
516.6
116.8
317.8
2
2.6
018.6
316.8
616.1
613.0
917.2
417.7
918.0
118.9
9
2.7
419.7
918.0
217.3
214.2
418.1
618.7
118.9
319.9
1
2.8
520.7
018.9
318.2
315.1
418.8
819.4
319.6
520.6
3
2.9
321.3
619.5
918.8
915.8
019.4
019.9
520.1
721.1
5
2.9
821.7
820.0
019.3
016.2
119.7
320.2
820.5
021.4
7
3.0
021.9
420.1
719.4
716.3
819.8
620.4
120.6
321.6
0
HO
LE S
IZE
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
650
- 5
6 -
5 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
111
01200
2400
3600
4800
6000
7200
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
65
0 -
56
-5
M
otor
Per
form
ance
Cur
ves
300 G
PM
500 G
PM
200 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
65
0
112
6—
1/2
” O
D
5:6
Lob
e 6
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
650—56—6
0.3
5
0.4
0
0.4
5
0.5
0
0.5
5
0.6
0
01
00
200
30
040
05
00
60
07
008
00
900
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
65
0 -
56
-6
R
EVS
/ G
AL
0.36
Rev
/Gal
@ 9
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-1
/2 in
165 m
m
Wei
ght
2,2
66 lb
s1,0
28 k
g
Leng
th26.3
ft
8.0
0 m
Full
Load
Bit
Spee
d75 - 1
80 r
pm75 - 1
80 r
pm
Flow
Rat
e200 - 5
00 g
pm757 - 1
,893 lp
m
Peak
Tor
que
6,9
00 ft-lb
s9,3
55 N
-m
Peak
Dev
elop
ed P
ower
179 h
p133 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
50,0
00 lb
s222 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or200,0
00 lb
s890 k
N
Pull
to Y
ield
Mot
or600,0
00 lb
s2,6
69 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
65
0 -
56
- 6
5 /
6
6.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
65
0
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
11.8
22.2
62.4
33.2
1
0.6
21.8
90.3
93.6
64.0
94.2
65.0
3
0.9
34.1
22.6
12.0
15.4
95.9
26.0
96.8
5
1.2
26.2
04.6
94.0
91.4
67.2
07.6
37.8
08.5
5
1.5
08.2
16.6
96.0
93.4
68.8
69.2
89.4
510.2
0
1.7
610.0
78.5
67.9
65.3
110.3
910.8
110.9
811.7
3
2.0
011.8
010.2
79.6
77.0
311.8
112.2
312.3
913.1
4
2.2
313.4
511.9
211.3
28.6
713.1
713.5
813.7
514.4
9
2.4
214.8
113.2
812.6
810.0
214.2
914.7
114.8
715.6
1
2.6
016.1
014.5
713.9
711.3
115.3
615.7
715.9
316.6
6
2.7
417.1
115.5
814.9
712.3
116.1
916.5
916.7
617.4
9
2.8
517.9
016.3
615.7
613.0
916.8
417.2
417.4
118.1
3
2.9
318.4
716.9
416.3
313.6
617.3
117.7
217.8
818.6
0
2.9
818.8
317.3
016.6
914.0
217.6
018.0
118.1
718.9
0
3.0
018.9
717.4
416.8
314.1
617.7
218.1
318.2
919.0
1
650
- 5
6 -
6 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
113
01200
2400
3600
4800
6000
7200
0
50
100
150
200
250
300
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
65
0 -
56
-6
M
otor
Per
form
ance
Cur
ves
300 G
PM
500 G
PM
200
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
65
0
114
6—
1/2
” O
D
9:1
0 L
obe
3.0
Sta
ge
Very
Slo
w S
peed
H
igh
Torq
ue 650—910—3
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-1
/2 in
165 m
m
Wei
ght
2,2
66 lb
s1,0
28 k
g
Leng
th26.3
ft
8.0
0 m
Full
Load
Bit
Spee
d20 - 7
0 r
pm20 - 7
0 r
pm
Flow
Rat
e200 - 5
00 g
pm757 - 1
,893 lp
m
Peak
Tor
que
12,0
00 ft-lb
s16,2
70 N
-m
Peak
Dev
elop
ed P
ower
109 h
p81 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
50,0
00 lb
s222 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or200,0
00 lb
s890 k
N
Pull
to Y
ield
Mot
or600,0
00 lb
s2,6
69 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
65
0 -
91
0 -
3
9 /
10
3.0
4-1
/2 R
EG4-1
/2 X
H
4-1
/2 R
EG
0.1
2
0.1
4
0.1
6
0.1
8
0.2
0
0.2
2
0.2
4
01
0020
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
65
0 -
91
0 -
3 R
EVS
/ G
AL
0.14
Rev
/Gal
@ 4
50 p
si
65
0
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
11.8
22.2
62.4
33.2
1
0.6
21.8
90.3
93.6
64.0
94.2
65.0
3
0.9
34.1
22.6
12.0
15.4
95.9
26.0
96.8
5
1.2
26.2
04.6
94.0
91.4
67.2
07.6
37.8
08.5
5
1.5
08.2
16.6
96.0
93.4
68.8
69.2
89.4
510.2
0
1.7
610.0
78.5
67.9
65.3
110.3
910.8
110.9
811.7
3
2.0
011.8
010.2
79.6
77.0
311.8
112.2
312.3
913.1
4
2.2
313.4
511.9
211.3
28.6
713.1
713.5
813.7
514.4
9
2.4
214.8
113.2
812.6
810.0
214.2
914.7
114.8
715.6
1
2.6
016.1
014.5
713.9
711.3
115.3
615.7
715.9
316.6
6
2.7
417.1
115.5
814.9
712.3
116.1
916.5
916.7
617.4
9
2.8
517.9
016.3
615.7
613.0
916.8
417.2
417.4
118.1
3
2.9
318.4
716.9
416.3
313.6
617.3
117.7
217.8
818.6
0
2.9
818.8
317.3
016.6
914.0
217.6
018.0
118.1
718.9
0
3.0
018.9
717.4
416.8
314.1
617.7
218.1
318.2
919.0
1
650
- 9
10 -
3 BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
10
0 f
eet )
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
115
02000
4000
6000
8000
10000
12000
0
20
40
60
80
100
120
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
65
0 -
91
0 -
3 M
otor
Per
form
ance
Cur
ves
350 G
PM
500 G
PM
20
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
65
0
116
6—
1/2
” O
D
9:1
0 L
obe
4.0
Sta
ge
Slo
w S
peed
H
igh
Torq
ue 650—910—4
0.3
5
0.4
0
0.4
5
0.5
0
0.5
5
0.6
0
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
65
0 -
91
0 -
4 R
EVS
/ G
AL
0.36
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-1
/2 in
165 m
m
Wei
ght
1,7
53 lb
s795 k
g
Leng
th21.1
ft
6.4
3 m
Full
Load
Bit
Spee
d50 - 1
80 r
pm50 - 1
80 r
pm
Flow
Rat
e200 - 5
00 g
pm757 - 1
,893 lp
m
Peak
Tor
que
11,0
00 ft-lb
s14,9
00 N
-m
Peak
Dev
elop
ed P
ower
282 h
p210 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
50,0
00 lb
s222 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or200,0
00 lb
s890 k
N
Pull
to Y
ield
Mot
or600,0
00 lb
s2,6
69 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
65
0 -
91
0 -
4
4-1
/2 R
EG4-1
/2 X
H
4-1
/2 R
EG
9 /
10
4.0
65
0
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
12.5
23.2
53.5
44.8
4
0.6
22.5
30.6
14.7
15.4
35.7
27.0
1
0.9
35.3
93.4
52.6
96.9
07.6
17.9
09.1
8
1.2
28.0
56.1
15.3
51.9
88.9
49.6
69.9
411.2
1
1.5
010.6
38.6
87.9
14.5
310.9
211.6
311.9
113.1
7
1.7
613.0
211.0
710.3
06.9
112.7
613.4
613.7
414.9
9
2.0
015.2
313.2
712.5
09.1
014.4
515.1
515.4
316.6
7
2.2
317.3
415.3
814.6
111.2
016.0
716.7
717.0
518.2
9
2.4
219.0
917.1
316.3
512.9
317.4
218.1
118.3
819.6
2
2.6
020.7
518.7
818.0
014.5
818.6
919.3
819.6
520.8
8
2.7
422.0
420.0
619.2
915.8
619.6
720.3
620.6
421.8
6
2.8
523.0
521.0
720.2
916.8
620.4
521.1
421.4
122.6
3
2.9
323.7
821.8
121.0
317.5
921.0
221.7
021.9
723.1
9
2.9
824.2
422.2
721.4
918.0
521.3
722.0
522.3
323.5
4
3.0
024.4
322.4
521.6
718.2
321.5
122.1
922.4
723.6
8
ABH SET
AN
GLE
BEA
RIN
G H
OU
SIN
G - S
LIC
KBE
ARIN
G H
OU
SIN
G - S
TA
BILI
ZED
HO
LE S
IZE
HO
LE S
IZE
650
- 9
10 -
4 BU
ILD
RA
TE
TA
BLE
(Deg
rees
per
10
0 f
eet )
117
02000
4000
6000
8000
10000
12000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
65
0 -
91
0 -
4 M
otor
Per
form
ance
Cur
ves
350 G
PM
500 G
PM
20
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
65
0
118
65
0
119
65
0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 6.50 165.0 6.50 165.0 6.50 165.0
C 9.17 233.0 9.17 233.0 9.17 233.0
D 18.70 475.0 18.70 475.0 18.70 475.0
E 40.55 1030.0 40.55 1030.0 40.55 1030.0
G 152.17 3865.0 152.17 3865.0 181.10 4600.0
H 15.24 387.0 15.24 387.0 15.24 387.0
I 11.14 283.0 11.14 283.0 11.14 283.0
J 253.03 6427.0 253.03 6427.0 281.97 7162.0
K 4.33 110.0 4.33 110.0 4.33 110.0
L 11.22 285.0 11.22 285.0 11.22 285.0
M 54.29 1379.0 54.29 1379.0 54.29 1379.0
N 28.86 733.0 28.86 733.0 28.86 733.0
O 146.46 3720.0 146.46 3720.0 175.39 4455.0
P 3.80 96.6 3.80 96.6 3.80 96.6
Q 4.41 112.0 4.41 112.0 4.41 112.0
R 2.44 62.0 2.44 62.0 2.44 62.0
S 4.41 112.0 4.41 112.0 4.41 112.0
T 15.24 1248.0 15.24 387.0 15.24 387.0
U 45.12 1146.0 45.12 1146.0 45.12 1146.0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 6.50 165.0 6.50 165.0 6.50 165.0
C 9.17 233.0 9.17 233.0 9.17 233.0
D 18.70 475.0 18.70 475.0 18.70 475.0
E 40.55 1030.0 40.55 1030.0 40.55 1030.0
G 214.57 5450.0 214.57 5450.0 152.17 3865.0
H 15.24 387.0 15.24 387.0 15.24 387.0
I 11.14 283.0 11.14 283.0 11.14 283.0
J 326.57 8295.0 326.57 8295.0 253.03 6427.0
K 4.33 110.0 4.33 110.0 4.33 110.0
L 11.22 285.0 11.22 285.0 11.22 285.0
M 54.29 1379.0 54.29 1379.0 54.29 1379.0
N 28.86 733.0 28.86 733.0 28.86 733.0
O 208.66 5300.0 208.66 5300.0 146.46 3720.0
P 3.80 96.6 3.80 96.6 3.80 96.6
Q 4.41 112.0 4.41 112.0 4.41 112.0
R 2.44 62.0 2.44 62.0 2.44 62.0
S 4.41 112.0 4.41 112.0 4.41 112.0
T 15.24 387.0 15.24 387.0 15.24 387.0
U 45.12 1146.0 45.12 1146.0 45.12 1146.0
650 FISHING DIMENSIONS
650-56-6 650-910-3 650-910-4
650-12-4 650-56-4 650-56-5
120
6—
3/4
” O
D
1:2
Lob
e 4
.0 S
tage
Hig
h S
peed
Lo
w T
orqu
e 675—12—4
0.6
0
0.7
0
0.8
0
0.9
0
1.0
0
1.1
0
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
12
-4
R
EVS
/ G
AL
0.67
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,1
56 lb
s978 k
g
Leng
th21.7
5 ft
6.6
3 m
Full
Load
Bit
Spee
d100 - 4
00 r
pm100 - 4
00 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
2,5
10 ft-lb
s3,4
00 N
-m
Peak
Dev
elop
ed P
ower
144 h
p107 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
12
- 4
1 /
2
4.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.9
92.2
02.8
83.1
54.3
6
0.6
23.7
41.8
71.1
34.3
55.0
25.2
96.4
9
0.9
36.4
94.6
13.8
70.6
16.5
07.1
77.4
48.6
3
1.2
29.0
77.1
86.4
43.1
68.5
19.1
79.4
410.6
2
1.5
011.5
69.6
78.9
25.6
310.4
511.1
111.3
712.5
5
1.7
613.8
711.9
711.2
27.9
312.2
512.9
113.1
714.3
4
2.0
016.0
014.1
013.3
510.0
413.9
214.5
714.8
315.9
9
2.2
318.0
416.1
415.3
812.0
715.5
116.1
616.4
217.5
8
2.4
219.7
317.8
217.0
713.7
516.8
317.4
817.7
318.8
8
2.6
021.3
319.4
218.6
615.3
418.0
818.7
218.9
820.1
2
2.7
422.5
720.6
619.9
016.5
719.0
519.6
919.9
521.0
9
2.8
523.5
521.6
320.8
717.5
419.8
120.4
520.7
121.8
4
2.9
324.2
622.3
421.5
818.2
520.3
721.0
121.2
622.4
0
2.9
824.7
022.7
822.0
318.6
920.7
121.3
521.6
122.7
4
3.0
024.8
822.9
622.2
018.8
620.8
521.4
921.7
422.8
8
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 1
2 -
4 B
UIL
D R
ATE T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
121
0500
1000
1500
2000
2500
3000
0
100
200
300
400
500
600
700
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
12
-4
M
otor
Per
form
ance
Cur
ves
425 G
PM
600
GPM
25
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
122
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,8
80 lb
s1,3
06 k
g
Leng
th28.0
ft
8.5
3 m
Full
Load
Bit
Spee
d90 - 3
00 r
pm90 - 3
00 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
7,5
00 ft-lb
s10,1
69 N
-m
Peak
Dev
elop
ed P
ower
324 h
p242 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
34
- 6
3 /
4
6.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
6—
3/4
” O
D
3:4
Lob
e 6
.0 S
tage
Hig
h S
peed
H
igh
Torq
ue 675—34—6
0.4
0
0.5
0
0.6
0
0.7
0
0.8
0
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
34
-6
REV
S /
GA
L
0.50
Rev
/Gal
@ 9
00 p
si
67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.6
91.6
92.1
22.3
03.0
7
0.6
22.9
01.4
00.8
03.5
23.9
54.1
24.8
9
0.9
35.1
23.6
13.0
10.3
85.3
65.7
85.9
56.7
1
1.2
27.1
95.6
75.0
82.4
47.0
77.4
97.6
68.4
2
1.5
09.1
97.6
77.0
74.4
38.7
39.1
59.3
110.0
6
1.7
611.0
49.5
28.9
26.2
810.2
710.6
810.8
511.5
9
2.0
012.7
611.2
410.6
47.9
811.6
912.1
012.2
613.0
0
2.2
314.4
012.8
812.2
79.6
213.0
513.4
613.6
214.3
5
2.4
215.7
614.2
313.6
310.9
714.1
714.5
814.7
415.4
7
2.6
017.0
515.5
214.9
112.2
515.2
415.6
415.8
116.5
3
2.7
418.0
516.5
115.9
113.2
416.0
616.4
716.6
317.3
5
2.8
518.8
317.3
016.6
914.0
216.7
217.1
217.2
818.0
0
2.9
319.4
017.8
717.2
614.5
917.1
917.5
917.7
518.4
7
2.9
819.7
618.2
317.6
214.9
517.4
817.8
918.0
518.7
7
3.0
019.9
018.3
717.7
615.0
917.6
018.0
118.1
718.8
8
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 3
4 -
6 B
UIL
D R
ATE T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
123
0800
1600
2400
3200
4000
4800
5600
6400
7200
8000
0
50
100
150
200
250
300
350
400
450
500
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
34
-6
M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
250
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
124
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
0.5
0
010
02
00
300
40
05
00
600
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
56
-4
R
EVS
/ G
AL
0.30
Rev
/Gal
@ 6
00 p
si
6—
3/4
” O
D
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 675—56—4
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,1
56 lb
s978 k
g
Leng
th21.7
5 ft
6.6
3 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
5,5
40 ft-lb
s7,5
00 N
-m
Peak
Dev
elop
ed P
ower
143 h
p107 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
56
- 4
5 /
6
4.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.9
92.2
02.8
83.1
54.3
6
0.6
23.7
41.8
71.1
34.3
55.0
25.2
96.4
9
0.9
36.4
94.6
13.8
70.6
16.5
07.1
77.4
48.6
3
1.2
29.0
77.1
86.4
43.1
68.5
19.1
79.4
410.6
2
1.5
011.5
69.6
78.9
25.6
310.4
511.1
111.3
712.5
5
1.7
613.8
711.9
711.2
27.9
312.2
512.9
113.1
714.3
4
2.0
016.0
014.1
013.3
510.0
413.9
214.5
714.8
315.9
9
2.2
318.0
416.1
415.3
812.0
715.5
116.1
616.4
217.5
8
2.4
219.7
317.8
217.0
713.7
516.8
317.4
817.7
318.8
8
2.6
021.3
319.4
218.6
615.3
418.0
818.7
218.9
820.1
2
2.7
422.5
720.6
619.9
016.5
719.0
519.6
919.9
521.0
9
2.8
523.5
521.6
320.8
717.5
419.8
120.4
520.7
121.8
4
2.9
324.2
622.3
421.5
818.2
520.3
721.0
121.2
622.4
0
2.9
824.7
022.7
822.0
318.6
920.7
121.3
521.6
122.7
4
3.0
024.8
822.9
622.2
018.8
620.8
521.4
921.7
422.8
8
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 5
6 -
4 B
UIL
D R
ATE T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
125
01000
2000
3000
4000
5000
6000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
56
-4
M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
25
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
126
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,5
17 lb
s1,1
42 k
g
Leng
th24.6
ft
7.4
9 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
6,7
00 ft-lb
s9,0
80 N
-m
Peak
Dev
elop
ed P
ower
173 h
p129 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
56
- 5
5 /
6
5.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
6—
3/4
” O
D
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
675—56—5
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
0.5
0
010
02
00
30
04
005
00
60
07
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
56
-5
R
EVS
/ G
AL
0.30
Rev
/Gal
@ 7
50 p
si
67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.8
11.9
12.4
52.6
63.6
2
0.6
23.2
71.6
00.9
43.9
04.4
34.6
45.5
9
0.9
35.7
24.0
53.3
90.4
75.8
86.4
16.6
27.5
6
1.2
28.0
26.3
45.6
82.7
67.7
38.2
68.4
69.4
0
1.5
010.2
48.5
67.8
94.9
69.5
210.0
410.2
511.1
8
1.7
612.3
010.6
19.9
57.0
111.1
911.7
011.9
112.8
3
2.0
014.2
012.5
111.8
48.9
012.7
213.2
313.4
414.3
5
2.2
316.0
314.3
313.6
610.7
114.1
914.7
014.9
015.8
1
2.4
217.5
315.8
315.1
612.2
115.4
115.9
116.1
217.0
2
2.6
018.9
617.2
616.5
913.6
216.5
617.0
617.2
618.1
7
2.7
420.0
718.3
617.6
914.7
317.4
517.9
618.1
619.0
6
2.8
520.9
419.2
318.5
615.5
918.1
618.6
618.8
619.7
5
2.9
321.5
719.8
719.1
916.2
218.6
719.1
719.3
720.2
6
2.9
821.9
720.2
619.5
916.6
218.9
919.4
919.6
920.5
8
3.0
022.1
320.4
219.7
516.7
719.1
219.6
219.8
220.7
1
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 5
6 -
5 B
UIL
D R
ATE T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
127
01200
2400
3600
4800
6000
7200
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
56
-5
M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
250 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
128
6—
3/4
” O
D
5:6
Lob
e 6
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
675—56—6 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,8
78 lb
s1,3
05 k
g
Leng
th27.4
ft
8.3
6 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
7,8
50 ft-lb
s10,6
40 N
-m
Peak
Dev
elop
ed P
ower
203 h
p151 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
56
- 6
5 /
6
6.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
0.5
0
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
56
-6
REV
S /
GA
L
0.30
Rev
/Gal
@ 9
00 p
si
67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.6
91.6
92.1
22.3
03.0
7
0.6
22.9
01.4
00.8
03.5
23.9
54.1
24.8
9
0.9
35.1
23.6
13.0
10.3
85.3
65.7
85.9
56.7
1
1.2
27.1
95.6
75.0
82.4
47.0
77.4
97.6
68.4
2
1.5
09.1
97.6
77.0
74.4
38.7
39.1
59.3
110.0
6
1.7
611.0
49.5
28.9
26.2
810.2
710.6
810.8
511.5
9
2.0
012.7
611.2
410.6
47.9
811.6
912.1
012.2
613.0
0
2.2
314.4
012.8
812.2
79.6
213.0
513.4
613.6
214.3
5
2.4
215.7
614.2
313.6
310.9
714.1
714.5
814.7
415.4
7
2.6
017.0
515.5
214.9
112.2
515.2
415.6
415.8
116.5
3
2.7
418.0
516.5
115.9
113.2
416.0
616.4
716.6
317.3
5
2.8
518.8
317.3
016.6
914.0
216.7
217.1
217.2
818.0
0
2.9
319.4
017.8
717.2
614.5
917.1
917.5
917.7
518.4
7
2.9
819.7
618.2
317.6
214.9
517.4
817.8
918.0
518.7
7
3.0
019.9
018.3
717.7
615.0
917.6
018.0
118.1
718.8
8
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 5
6 -
6 B
UIL
D R
ATE T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
129
01500
3000
4500
6000
7500
9000
0
50
100
150
200
250
300
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
56
-6
M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
250
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
130
0.2
0
0.2
5
0.3
0
0.3
5
0.4
0
010
02
00
30
04
005
00
60
07
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
78
-5
R
EVS
/ G
AL
0.30
Rev
/Gal
@ 7
50 p
si
6—
3/4
” O
D
7:8
Lob
e 5
.0 S
tage
Slo
w S
peed
H
igh
Torq
ue 675—78—5
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,7
69 lb
s1,2
56 k
g
Leng
th25.8
ft
7.8
5 m
Full
Load
Bit
Spee
d70 - 1
50 r
pm70 - 1
50 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
9,1
00 ft-lb
s12,3
38 N
-m
Peak
Dev
elop
ed P
ower
196 h
p146 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
78
- 5
7 /
8
5.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.8
11.9
12.4
52.6
63.6
2
0.6
23.2
71.6
00.9
43.9
04.4
34.6
45.5
9
0.9
35.7
24.0
53.3
90.4
75.8
86.4
16.6
27.5
6
1.2
28.0
26.3
45.6
82.7
67.7
38.2
68.4
69.4
0
1.5
010.2
48.5
67.8
94.9
69.5
210.0
410.2
511.1
8
1.7
612.3
010.6
19.9
57.0
111.1
911.7
011.9
112.8
3
2.0
014.2
012.5
111.8
48.9
012.7
213.2
313.4
414.3
5
2.2
316.0
314.3
313.6
610.7
114.1
914.7
014.9
015.8
1
2.4
217.5
315.8
315.1
612.2
115.4
115.9
116.1
217.0
2
2.6
018.9
617.2
616.5
913.6
216.5
617.0
617.2
618.1
7
2.7
420.0
718.3
617.6
914.7
317.4
517.9
618.1
619.0
6
2.8
520.9
419.2
318.5
615.5
918.1
618.6
618.8
619.7
5
2.9
321.5
719.8
719.1
916.2
218.6
719.1
719.3
720.2
6
2.9
821.9
720.2
619.5
916.6
218.9
919.4
919.6
920.5
8
3.0
022.1
320.4
219.7
516.7
719.1
219.6
219.8
220.7
1
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
ABH SET
AN
GLE
675
- 7
8 -
5 B
UIL
D R
ATE T
ABLE (
Deg
rees
per
100
fee
t )
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
131
02000
4000
6000
8000
10000
0
50
100
150
200
250
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
78
-5
M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
250 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
132
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
1,7
95 lb
s814 k
g
Leng
th17.0
ft
5.1
8 m
Full
Load
Bit
Spee
d50 - 1
80 r
pm50 - 1
80 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
8,0
00 ft-lb
s10,8
47 N
-m
Peak
Dev
elop
ed P
ower
206 h
p154 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
300 p
si2,0
68 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
400 p
si2,7
58 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
91
0 -
2
9 /
10
2.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg
6—
3/4
” O
D
9:1
0 L
obe
2.0
Sta
ge
Slo
w S
peed
M
ediu
m T
orqu
e 675—910—2
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
0.5
0
05
01
00
150
20
02
50
300
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
91
0 -
2 R
EVS
/ G
AL
0.30
Rev
/Gal
@ 3
00 p
si
67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
11.5
63.0
04.1
54.6
06.6
3
0.6
25.0
82.6
81.7
45.5
06.6
37.0
89.1
0
0.9
38.5
96.1
95.2
41.0
77.9
99.1
29.5
711.5
7
1.2
211.8
89.4
78.5
24.3
310.3
211.4
411.8
913.8
8
1.5
015.0
612.6
411.6
87.4
812.5
813.6
914.1
316.1
1
1.7
618.0
115.5
814.6
210.4
014.6
715.7
716.2
118.1
8
2.0
020.7
318.2
917.3
313.1
016.6
017.7
018.1
420.1
0
2.2
323.3
420.8
919.9
315.6
818.4
519.5
419.9
821.9
3
2.4
225.5
023.0
422.0
817.8
219.9
821.0
721.5
023.4
4
2.6
027.5
425.0
824.1
119.8
421.4
322.5
122.9
524.8
8
2.7
429.1
326.6
625.6
921.4
222.5
523.6
424.0
726.0
0
2.8
530.3
727.9
126.9
422.6
623.4
424.5
224.9
526.8
7
2.9
331.2
828.8
127.8
423.5
624.0
825.1
625.5
927.5
1
2.9
831.8
529.3
828.4
124.1
224.4
825.5
625.9
927.9
1
3.0
032.0
829.6
128.6
324.3
424.6
425.7
226.1
528.0
7
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 9
10 -
2 B
UIL
D R
AT
E T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
133
01500
3000
4500
6000
7500
9000
0
50
100
150
200
250
300
050
100
150
200
250
300
350
400
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
91
0 -
2 M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
25
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
134
6—
3/4
” O
D
9:1
0 L
obe
3.0
Sta
ge
Very
Slo
w S
peed
H
igh
Torq
ue 675—910—3
0.1
0
0.1
2
0.1
4
0.1
6
0.1
8
0.2
0
01
0020
03
00
400
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
91
0 -
3 R
EVS
/ G
AL
0.12
Rev
/Gal
@ 4
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,8
78 lb
s1,3
05 k
g
Leng
th27.4
ft
8.3
6 m
Full
Load
Bit
Spee
d20 - 7
0 r
pm20 - 7
0 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
13,5
00 ft-lb
s18,3
00 N
-m
Peak
Dev
elop
ed P
ower
135 h
p100 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
91
0 -
3
9 /
10
3.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.6
91.6
92.1
22.3
03.0
7
0.6
22.9
01.4
00.8
03.5
23.9
54.1
24.8
9
0.9
35.1
23.6
13.0
10.3
85.3
65.7
85.9
56.7
1
1.2
27.1
95.6
75.0
82.4
47.0
77.4
97.6
68.4
2
1.5
09.1
97.6
77.0
74.4
38.7
39.1
59.3
110.0
6
1.7
611.0
49.5
28.9
26.2
810.2
710.6
810.8
511.5
9
2.0
012.7
611.2
410.6
47.9
811.6
912.1
012.2
613.0
0
2.2
314.4
012.8
812.2
79.6
213.0
513.4
613.6
214.3
5
2.4
215.7
614.2
313.6
310.9
714.1
714.5
814.7
415.4
7
2.6
017.0
515.5
214.9
112.2
515.2
415.6
415.8
116.5
3
2.7
418.0
516.5
115.9
113.2
416.0
616.4
716.6
317.3
5
2.8
518.8
317.3
016.6
914.0
216.7
217.1
217.2
818.0
0
2.9
319.4
017.8
717.2
614.5
917.1
917.5
917.7
518.4
7
2.9
819.7
618.2
317.6
214.9
517.4
817.8
918.0
518.7
7
3.0
019.9
018.3
717.7
615.0
917.6
018.0
118.1
718.8
8
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 9
10 -
3 B
UIL
D R
AT
E T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
135
02500
5000
7500
10000
12500
15000
0
20
40
60
80
100
120
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
91
0 -
3 M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
25
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
136
6—
3/4
” O
D
9:1
0 L
obe
4.0
Sta
ge
Slo
w S
peed
H
igh
Torq
ue 675—910—4
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
0.5
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
91
0 -
4
REV
S /
GA
L
0.30
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,1
35 lb
s968 k
g
Leng
th22.5
ft
6.8
6 m
Full
Load
Bit
Spee
d50 - 1
80 r
pm50 - 1
80 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
12,5
00 ft-lb
s16,9
50 N
-m
Peak
Dev
elop
ed P
ower
321 h
p239 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
91
0 -
4
9 /
10
4.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.9
92.2
02.8
83.1
54.3
6
0.6
23.7
41.8
71.1
34.3
55.0
25.2
96.4
9
0.9
36.4
94.6
13.8
70.6
16.5
07.1
77.4
48.6
3
1.2
29.0
77.1
86.4
43.1
68.5
19.1
79.4
410.6
2
1.5
011.5
69.6
78.9
25.6
310.4
511.1
111.3
712.5
5
1.7
613.8
711.9
711.2
27.9
312.2
512.9
113.1
714.3
4
2.0
016.0
014.1
013.3
510.0
413.9
214.5
714.8
315.9
9
2.2
318.0
416.1
415.3
812.0
715.5
116.1
616.4
217.5
8
2.4
219.7
317.8
217.0
713.7
516.8
317.4
817.7
318.8
8
2.6
021.3
319.4
218.6
615.3
418.0
818.7
218.9
820.1
2
2.7
422.5
720.6
619.9
016.5
719.0
519.6
919.9
521.0
9
2.8
523.5
521.6
320.8
717.5
419.8
120.4
520.7
121.8
4
2.9
324.2
622.3
421.5
818.2
520.3
721.0
121.2
622.4
0
2.9
824.7
022.7
822.0
318.6
920.7
121.3
521.6
122.7
4
3.0
024.8
822.9
622.2
018.8
620.8
521.4
921.7
422.8
8
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 9
10 -
4 B
UIL
D R
AT
E T
ABLE (
Deg
rees
per
100
fee
t )
STA
BILI
ZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
G
HO
LE S
IZE
137
02500
5000
7500
10000
12500
15000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
91
0 -
4 M
otor
Per
form
ance
Cur
ves
425 G
PM
600 G
PM
25
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
138
6—
3/4
” O
D
9:1
0 L
obe
5.0
Sta
ge
Slo
w S
peed
Ve
ry H
igh
Torq
ue
675—910—5
0.2
5
0.3
0
0.3
5
0.4
0
0.4
5
0.5
0
01
00
200
30
04
00
50
06
0070
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
67
5 -
91
0 -
5
REV
S /
GA
L
0.30
Rev
/Gal
@ 7
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
6-3
/4 in
172 m
m
Wei
ght
2,1
35 lb
s968 k
g
Leng
th25.5
ft
7.7
7 m
Full
Load
Bit
Spee
d50 - 1
80 r
pm50 - 1
80 r
pm
Flow
Rat
e250 - 6
00 g
pm946 - 2
,271 lp
m
Peak
Tor
que
15,0
00 ft-lb
s20,3
40 N
-m
Peak
Dev
elop
ed P
ower
390 h
p290 k
w
Bit to
Ben
d76 in
1,9
30 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
75,0
00 lb
s333 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or225,0
00 lb
s1,0
00 k
N
Pull
to Y
ield
Mot
or650,0
00 lb
s2,8
91 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
67
5 -
91
0 -
5
9 /
10
5.0
4-1
/2 R
eg4-1
/2 X
H
4-1
/2 R
eg67
5
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
**7-7
/8"
8-1
/2"
8-3
/4"
9-7
/8"
0.3
10.7
91.8
82.4
02.6
13.5
3
0.6
23.2
11.5
70.9
23.8
44.3
54.5
65.4
8
0.9
35.6
33.9
83.3
30.4
65.8
06.3
16.5
17.4
3
1.2
27.8
96.2
45.5
92.7
17.6
38.1
48.3
49.2
5
1.5
010.0
88.4
27.7
74.8
89.4
09.9
110.1
111.0
1
1.7
612.1
110.4
59.7
96.9
011.0
511.5
511.7
512.6
4
2.0
013.9
812.3
211.6
68.7
612.5
713.0
613.2
614.1
5
2.2
315.7
814.1
113.4
510.5
414.0
214.5
214.7
115.5
9
2.4
217.2
615.5
914.9
312.0
215.2
215.7
115.9
116.7
9
2.6
018.6
716.9
916.3
313.4
116.3
616.8
517.0
517.9
2
2.7
419.7
618.0
817.4
214.5
017.2
517.7
417.9
318.8
0
2.8
520.6
218.9
418.2
815.3
517.9
418.4
318.6
219.4
9
2.9
321.2
419.5
618.9
015.9
718.4
518.9
319.1
319.9
9
2.9
821.6
319.9
519.2
916.3
618.7
719.2
519.4
420.3
1
3.0
021.7
920.1
119.4
416.5
218.8
919.3
819.5
720.4
3
**
Note
: A
6-3
/4"
OD
tool is n
ot
reco
mm
ended
for
use
in a
7-7
/8"
OD
direc
tiona
l ho
le.
675
- 9
10 -
5 B
UIL
D R
AT
E T
ABLE (
Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
139
03000
6000
9000
12000
15000
18000
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
67
5 -
91
0 -
5 M
otor
Per
form
ance
Cur
ves
42
5 G
PM
60
0 G
PM
250 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
67
5
140
67
5
141
67
5
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 6.75 171.5 6.75 171.5 6.75 171.5 6.75 171.5 6.75 171.5
C 9.17 233.0 9.17 233.0 9.17 233.0 9.17 233.0 9.17 233.0
D 20.87 530.0 20.87 530.0 20.87 530.0 20.87 530.0 20.87 530.0
E 42.72 1085.0 42.72 1085.0 42.72 1085.0 42.72 1085.0 42.72 1085.0
G 148.82 3780.0 214.57 5450.0 148.82 3780.0 181.50 4610.0 214.57 5450.0
H 14.96 380.0 14.96 380.0 14.96 380.0 14.96 380.0 14.96 380.0
I 11.02 280.0 11.02 280.0 11.02 280.0 11.02 280.0 11.02 280.0
J 262.32 6663.0 328.07 8333.0 262.32 6663.0 295.00 7493.0 328.07 8333.0
K 4.53 115.0 4.53 115.0 4.53 115.0 4.53 115.0 4.53 115.0
L 12.99 330.0 12.99 330.0 12.99 330.0 12.99 330.0 12.99 330.0
M 56.81 1443.0 56.81 1443.0 56.81 1443.0 56.81 1443.0 56.81 1443.0
N 39.25 997.0 39.25 997.0 39.25 997.0 39.25 997.0 39.25 997.0
O 144.29 3665.0 208.66 5300.0 144.29 3665.0 175.59 4460.0 208.66 5300.0
P 4.17 106.0 4.17 106.0 4.17 106.0 4.17 106.0 4.17 106.0
Q 4.69 119.0 4.69 119.0 4.69 119.0 4.69 119.0 4.69 119.0
R 2.60 66.0 2.60 66.0 2.60 66.0 2.60 66.0 2.60 66.0
S 4.76 121.0 4.76 121.0 4.76 121.0 4.76 121.0 4.76 121.0
T 14.96 1528.0 14.96 380.0 14.96 380.0 14.96 380.0 14.96 380.0
U 55.83 1418.0 55.83 1418.0 55.83 1418.0 55.83 1418.0 55.83 1418.0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 6.75 171.5 6.75 171.5 6.75 171.5 6.75 171.5 6.75 171.5
C 9.17 233.0 9.17 233.0 9.17 233.0 9.17 233.0 9.17 233.0
D 20.87 530.0 20.87 530.0 20.87 530.0 20.87 530.0 20.87 530.0
E 42.72 1085.0 42.72 1085.0 42.72 1085.0 42.72 1085.0 42.72 1085.0
G 181.50 4610.0 90.16 2290.0 214.57 5450.0 148.82 3780.0 186.02 4725.0
H 14.96 380.0 14.96 380.0 14.96 380.0 14.96 380.0 14.96 380.0
I 11.02 280.0 11.02 280.0 11.02 280.0 11.02 280.0 11.02 280.0
J 295.00 7493.0 203.66 5173.0 328.07 8333.0 262.32 6663.0 299.61 7610.0
K 4.53 115.0 4.53 115.0 4.53 115.0 4.53 115.0 4.53 115.0
L 12.99 330.0 12.99 330.0 12.99 330.0 12.99 330.0 12.99 330.0
M 56.81 1443.0 56.81 1443.0 56.81 1443.0 56.81 1443.0 56.81 1443.0
N 39.25 997.0 39.25 997.0 39.25 997.0 39.25 997.0 39.25 997.0
O 175.59 4460.0 85.04 2160.0 208.66 5300.0 144.29 3665.0 180.35 4581.0
P 4.17 106.0 4.40 111.8 4.17 106.0 4.17 106.0 4.17 106.0
Q 4.69 119.0 4.69 119.0 4.69 119.0 4.69 119.0 4.69 119.0
R 2.60 66.0 2.60 66.0 2.60 66.0 2.60 66.0 2.60 66.0
S 4.76 121.0 4.76 121.0 4.76 121.0 4.76 121.0 4.76 121.0
T 14.96 1528.0 14.96 380.0 14.96 380.0 14.96 380.0 14.96 380.0
U 55.83 1418.0 55.83 1418.0 55.83 1418.0 55.83 1418.0 55.83 1418.0
675-12-4 675-34-6 675-56-4 675-56-5 675-56-6
675 FISHING DIMENSIONS
675-78-5 675-910-2 675-910-3 675-910-4 675-910-5
142
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8 in
203 m
m
Wei
ght
2,9
34 lb
s1,3
30 k
g
Leng
th23.1
ft
7.0
1 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e300 - 9
00 g
pm1,1
35 - 3
,407 lp
m
Peak
Tor
que
8,5
00 ft-lb
s11,5
25 N
-m
Peak
Dev
elop
ed P
ower
219 h
p163 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
80,0
00 lb
s356 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or300,0
00 lb
s1,3
34 k
N
Pull
to Y
ield
Mot
or800,0
00 lb
s3,5
58 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
80
0 -
56
- 4
5 /
6
4.0
6-5
/8 R
eg
6-5
/8 R
eg
0.1
5
0.2
0
0.2
5
0.3
0
0.3
5
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
80
0 -
56
-4
REV
S /
GA
L
0.20
Rev
/Gal
@ 6
00 p
si
8—
0”
OD
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 800—56—4
80
0
9-7
/8"
10-5
/8"
12-1
/4"
9-7
/8"
10-5
/8"
12-1
/4"
0.3
12.8
93.7
05.4
4
0.6
22.0
60.1
24.9
05.7
17.4
4
0.9
34.8
12.8
66.9
27.7
29.4
3
1.2
27.3
85.4
21.3
28.8
09.6
011.3
0
1.5
09.8
67.9
03.7
810.6
211.4
113.1
1
1.7
612.1
710.2
06.0
712.3
113.1
014.7
8
2.0
014.3
012.3
28.1
813.8
714.6
516.3
3
2.2
316.3
414.3
610.2
015.3
716.1
517.8
1
2.4
218.0
216.0
411.8
716.6
017.3
819.0
4
2.6
019.6
217.6
313.4
517.7
718.5
420.2
0
2.7
420.8
618.8
714.6
918.6
819.4
521.1
0
2.8
521.8
419.8
415.6
519.4
020.1
721.8
1
2.9
322.5
520.5
516.3
619.9
220.6
922.3
2
2.9
822.9
920.9
916.8
020.2
521.0
122.6
5
3.0
023.1
721.1
716.9
720.3
821.1
422.7
8
800
- 5
6 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
143
01500
3000
4500
6000
7500
9000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
80
0 -
56
-4
M
otor
Per
form
ance
Cur
ves
600 G
PM
900 G
PM
30
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
80
0
144
0.1
5
0.2
0
0.2
5
0.3
0
0.3
5
01
00
200
30
04
00
50
06
0070
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
80
0 -
56
-5
REV
S /
GA
L
0.20
Rev
/Gal
@ 7
50 p
si
8—
0”
OD
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
800—56—5 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8 in
203 m
m
Wei
ght
3,3
06 lb
s1,5
00 k
g
Leng
th25.9
ft
7.9
1 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e300 - 9
00 g
pm1,1
35 - 3
,407 lp
m
Peak
Tor
que
10,5
00 ft-lb
s14,2
40 N
-m
Peak
Dev
elop
ed P
ower
271 h
p202 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
80,0
00 lb
s356 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or300,0
00 lb
s1,3
34 k
N
Pull
to Y
ield
Mot
or800,0
00 lb
s3,5
58 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
80
0 -
56
- 5
5 /
6
5.0
6-5
/8 R
eg
6-5
/8 R
eg
80
0
9-7
/8"
10-5
/8"
12-1
/4"
9-7
/8"
10-5
/8"
12-1
/4"
0.3
12.4
53.0
94.4
6
0.6
21.7
60.0
34.3
34.9
66.3
2
0.9
34.2
12.4
76.2
06.8
38.1
8
1.2
26.5
04.7
61.1
07.9
68.5
89.9
2
1.5
08.7
16.9
73.3
09.6
510.2
711.6
0
1.7
610.7
79.0
15.3
411.2
211.8
413.1
6
2.0
012.6
710.9
17.2
212.6
713.2
914.6
0
2.2
314.4
812.7
29.0
214.0
714.6
815.9
8
2.4
215.9
814.2
210.5
115.2
215.8
217.1
2
2.6
017.4
115.6
411.9
216.3
116.9
118.2
0
2.7
418.5
116.7
413.0
217.1
517.7
519.0
4
2.8
519.3
817.6
113.8
917.8
218.4
219.7
1
2.9
320.0
118.2
414.5
118.3
018.9
020.1
9
2.9
820.4
118.6
314.9
118.6
119.2
020.4
9
3.0
020.5
718.7
915.0
618.7
319.3
220.6
1
800
- 5
6 -
5 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
145
02000
4000
6000
8000
10000
12000
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
80
0 -
56
-5
M
otor
Per
form
ance
Cur
ves
600 G
PM
900 G
PM
300 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
80
0
146
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8 in
203 m
m
Wei
ght
3,6
36 lb
s1,6
69 k
g
Leng
th28.7
ft
8.7
5 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e300 - 9
00 g
pm1,1
35 - 3
,407 lp
m
Peak
Tor
que
12,5
00 ft-lb
s16,9
50 N
-m
Peak
Dev
elop
ed P
ower
323 h
p241 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
80,0
00 lb
s356 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or300,0
00 lb
s1,3
34 k
N
Pull
to Y
ield
Mot
or800,0
00 lb
s3,5
58 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
80
0 -
56
- 6
5 /
6
6.0
6-5
/8 R
eg
6-5
/8 R
eg
0.1
5
0.2
0
0.2
5
0.3
0
0.3
5
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
80
0 -
56
-6
REV
S /
GA
L
0.20
Rev
/Gal
@ 9
00 p
si
8—
0”
OD
5:6
Lob
e 6
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
800—56—6 8
00
9-7
/8"
10-5
/8"
12-1
/4"
9-7
/8"
10-5
/8"
12-1
/4"
0.3
12.1
32.6
43.7
4
0.6
21.5
43.8
74.3
85.4
8
0.9
33.7
52.1
85.6
26.1
37.2
1
1.2
25.8
14.2
40.9
47.2
57.7
68.8
4
1.5
07.8
16.2
32.9
38.8
39.3
310.4
0
1.7
69.6
68.0
84.7
710.3
010.7
911.8
6
2.0
011.3
79.7
96.4
611.6
512.1
413.2
0
2.2
313.0
111.4
28.0
912.9
513.4
414.4
9
2.4
214.3
612.7
89.4
414.0
214.5
115.5
6
2.6
015.6
514.0
610.7
115.0
315.5
216.5
6
2.7
416.6
515.0
511.7
015.8
216.3
117.3
5
2.8
517.4
315.8
312.4
816.4
416.9
317.9
6
2.9
318.0
016.4
013.0
516.8
917.3
818.4
1
2.9
818.3
616.7
613.4
017.1
817.6
618.6
9
3.0
018.5
016.9
013.5
417.2
917.7
718.8
0
800
- 5
6 -
6 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
147
02500
5000
7500
10000
12500
15000
0
50
100
150
200
250
300
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
80
0 -
56
-6
M
otor
Per
form
ance
Cur
ves
600 G
PM
900 G
PM
300
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
80
0
148
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8 in
203 m
m
Wei
ght
3,6
36 lb
s1,6
69 k
g
Leng
th28.7
ft
8.7
5 m
Full
Load
Bit
Spee
d20 - 7
0 r
pm20 - 7
0 r
pm
Flow
Rat
e300 - 9
00 g
pm1,1
35 - 3
,407 lp
m
Peak
Tor
que
18,0
00 ft-lb
s24,4
00 N
-m
Peak
Dev
elop
ed P
ower
180 h
p134 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
450 p
si3,1
00 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
80,0
00 lb
s356 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or300,0
00 lb
s1,3
34 k
N
Pull
to Y
ield
Mot
or800,0
00 lb
s3,5
58 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
80
0 -
91
0 -
3
9 /
10
3.0
6-5
/8 R
eg
6-5
/8 R
eg
8—
0”
OD
9:1
0 L
obe
3.0
Sta
ge
Very
Slo
w S
peed
H
igh
Torq
ue 800—910—3
0.0
7
0.0
8
0.0
9
0.1
0
0.1
1
0.1
2
01
00
20
03
00
40
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
80
0 -
91
0 -
3
REV
S /
GA
L
0.08
Rev
/Gal
@ 4
50 p
si
80
0
9-7
/8"
10-5
/8"
12-1
/4"
9-7
/8"
10-5
/8"
12-1
/4"
0.3
12.1
32.6
43.7
4
0.6
21.5
43.8
74.3
85.4
8
0.9
33.7
52.1
85.6
26.1
37.2
1
1.2
25.8
14.2
40.9
47.2
57.7
68.8
4
1.5
07.8
16.2
32.9
38.8
39.3
310.4
0
1.7
69.6
68.0
84.7
710.3
010.7
911.8
6
2.0
011.3
79.7
96.4
611.6
512.1
413.2
0
2.2
313.0
111.4
28.0
912.9
513.4
414.4
9
2.4
214.3
612.7
89.4
414.0
214.5
115.5
6
2.6
015.6
514.0
610.7
115.0
315.5
216.5
6
2.7
416.6
515.0
511.7
015.8
216.3
117.3
5
2.8
517.4
315.8
312.4
816.4
416.9
317.9
6
2.9
318.0
016.4
013.0
516.8
917.3
818.4
1
2.9
818.3
616.7
613.4
017.1
817.6
618.6
9
3.0
018.5
016.9
013.5
417.2
917.7
718.8
0
STA
BILI
ZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
800
- 9
10 -
3 B
UIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
G
149
03500
7000
10500
14000
17500
21000
0
20
40
60
80
100
120
0100
200
300
400
500
600
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
80
0 -
91
0 -
3 M
otor
Per
form
ance
Cur
ves
600 G
PM
900 G
PM
30
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
80
0
150
8—
0”
OD
9:1
0 L
obe
4.0
Sta
ge
Slo
w S
peed
H
igh
Torq
ue 800—910—4
0.1
5
0.2
0
0.2
5
0.3
0
0.3
5
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
80
0 -
91
0 -
4
REV
S /
GA
L
0.20
Rev
/Gal
@ 6
00 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8 in
203 m
m
Wei
ght
2,9
34 lb
s1,3
31 k
g
Leng
th23.2
ft
7.0
7 m
Full
Load
Bit
Spee
d50 - 1
80 r
pm50 - 1
80 r
pm
Flow
Rat
e300 - 9
00 g
pm1,1
35- 3,4
07 lp
m
Peak
Tor
que
14,8
00 ft-lb
s20,0
00 N
-m
Peak
Dev
elop
ed P
ower
383 h
p286 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
80,0
00 lb
s356 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or300,0
00 lb
s1,3
34 k
N
Pull
to Y
ield
Mot
or800,0
00 lb
s3,5
58 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
80
0 -
91
0 -
4
9 /
10
4.0
6-5
/8 R
EG
6-5
/8 R
EG
80
0
9-7
/8"
10-5
/8"
12-1
/4"
9-7
/8"
10-5
/8"
12-1
/4"
0.3
12.8
93.7
05.4
4
0.6
22.0
60.1
24.9
05.7
17.4
4
0.9
34.8
12.8
66.9
27.7
29.4
3
1.2
27.3
85.4
21.3
28.8
09.6
011.3
0
1.5
09.8
67.9
03.7
810.6
211.4
113.1
1
1.7
612.1
710.2
06.0
712.3
113.1
014.7
8
2.0
014.3
012.3
28.1
813.8
714.6
516.3
3
2.2
316.3
414.3
610.2
015.3
716.1
517.8
1
2.4
218.0
216.0
411.8
716.6
017.3
819.0
4
2.6
019.6
217.6
313.4
517.7
718.5
420.2
0
2.7
420.8
618.8
714.6
918.6
819.4
521.1
0
2.8
521.8
419.8
415.6
519.4
020.1
721.8
1
2.9
322.5
520.5
516.3
619.9
220.6
922.3
2
2.9
822.9
920.9
916.8
020.2
521.0
122.6
5
3.0
023.1
721.1
716.9
720.3
821.1
422.7
8
HO
LE S
IZE
HO
LE S
IZE
800
- 9
10 -
4 B
UIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
151
02500
5000
7500
10000
12500
15000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
80
0 -
91
0 -
4 M
otor
Per
form
ance
Cur
ves
600 G
PM
900 G
PM
30
0 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
80
0
152
80
0
153
80
0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 8.00 203.2 8.00 203.2 8.00 203.2
C 9.72 247.0 9.72 247.0 9.72 247.0
D 20.47 520.0 20.47 520.0 20.47 520.0
E 46.42 1179.0 46.42 1179.0 46.42 1179.0
G 148.03 3760.0 181.10 4600.0 214.17 5440.0
H 16.14 410.0 16.14 410.0 16.14 410.0
I 10.24 260.0 10.24 260.0 10.24 260.0
J 260.79 6624.0 293.86 7464.0 326.93 8304.0
K 5.12 130.0 5.12 130.0 5.12 130.0
L 14.96 380.0 14.96 380.0 14.96 380.0
M 62.99 1600.0 62.99 1600.0 62.99 1600.0
N 31.50 800.0 31.50 800.0 31.50 800.0
O 143.50 3645.0 176.57 4485.0 209.65 5325.0
P 4.90 124.5 4.90 124.5 4.90 124.5
Q 5.51 140.0 5.51 140.0 5.51 140.0
R 3.07 78.0 3.07 78.0 3.07 78.0
S 5.51 140.0 5.51 140.0 5.51 140.0
T 16.14 410.0 16.14 410.0 16.14 410.0
U 50.20 1275.0 50.20 1275.0 50.20 1275.0
English(in)
Metric(mm)
English(in)
Metric(mm)
A 8.00 203.2 8.00 203.2
C 9.72 247.0 9.72 247.0
D 20.47 520.0 20.47 520.0
E 46.42 1179.0 46.42 1179.0
G 214.17 5440.0 148.03 3760.0
H 16.14 410.0 16.14 410.0
I 10.24 260.0 10.24 260.0
J 326.93 8304.0 260.79 6624.0
K 5.12 130.0 5.12 130.0
L 14.96 380.0 14.96 380.0
M 62.99 1600.0 62.99 1600.0
N 31.50 800.0 31.50 800.0
O 209.65 5325.0 143.50 3645.0
P 4.90 124.5 4.90 124.5
Q 5.51 140.0 5.51 140.0
R 3.07 78.0 3.07 78.0
S 5.51 140.0 5.51 140.0
T 54.92 1395.0 16.14 410.0
U 50.20 1275.0 50.20 1275.0
800-910-3 800-910-4
800-56-4 800-56-5 800-56-6
800 FISHING DIMENSIONS
154
8—
1/2
” O
D
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 850—56—4
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8-1
/2 in
216 m
m
Wei
ght
3,6
37 lb
s1,6
50 k
g
Leng
th21.8
ft
6.6
5 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e400 - 1
,000 g
pm1,5
14 - 3
,785 lp
m
Peak
Tor
que
11,6
60 ft-lb
s15,8
00 N
-m
Peak
Dev
elop
ed P
ower
302 h
p225 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
85,0
00 lb
s378 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or360,0
00 lb
s1,6
00 k
N
Pull
to Y
ield
Mot
or875,0
00 lb
s3,8
92 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
85
0 -
56
- 4
5 /
6
4.0
6-5
/8 R
eg
6-5
/8 R
eg
0.1
5
0.2
0
0.2
5
0.3
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
85
0 -
56
-4
REV
S /
GA
L
0.18
Rev
/Gal
@ 6
00 p
si
85
0
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
15.1
16.4
47.7
610.6
1
0.6
27.1
48.4
79.7
812.6
1
0.9
30.0
59.1
810.4
911.7
914.6
0
1.2
22.5
911.0
812.3
913.6
816.4
7
1.5
05.0
41.9
912.9
214.2
115.5
018.2
8
1.7
67.3
24.2
61.2
914.6
215.9
117.1
919.9
5
2.0
09.4
26.3
53.3
816.2
017.4
818.7
521.5
0
2.2
311.4
48.3
65.3
817.7
118.9
820.2
522.9
8
2.4
213.1
110.0
17.0
30.8
018.9
620.2
321.4
824.2
0
2.6
014.6
811.5
98.5
92.3
520.1
421.4
022.6
525.3
6
2.7
415.9
112.8
19.8
13.5
521.0
622.3
223.5
626.2
6
2.8
516.8
713.7
710.7
64.5
021.7
823.0
424.2
826.9
7
2.9
317.5
814.4
711.4
65.1
922.3
023.5
624.8
027.4
9
2.9
818.0
114.9
011.8
95.6
222.6
323.8
925.1
327.8
1
3.0
018.1
915.0
812.0
75.7
922.7
624.0
225.2
627.9
4
850
- 5
6 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
155
02000
4000
6000
8000
10000
12000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
85
0 -
56
-4
M
otor
Per
form
ance
Cur
ves
700 G
PM
1000 G
PM
40
0 G
PM
TO
RQ
UE
RO
L =
Rec
omm
ende
d O
pera
tion
Line
ROL
85
0
156
0.1
5
0.2
0
0.2
5
0.3
0
01
00
200
30
04
00
50
06
0070
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
85
0 -
56
-5
REV
S /
GA
L
0.18
Rev
/Gal
@ 7
50 p
si
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8-1
/2 in
216 m
m
Wei
ght
3,8
61 lb
s1,7
52 k
g
Leng
th24.6
ft
7.4
9 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e400 - 1
,000 g
pm1,5
14 - 3
,785 lp
m
Peak
Tor
que
14,4
60 ft-lb
s19,6
00 N
-m
Peak
Dev
elop
ed P
ower
375 h
p279 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
85,0
00 lb
s378 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or360,0
00 lb
s1,6
00 k
N
Pull
to Y
ield
Mot
or875,0
00 lb
s3,8
92 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
85
0 -
56
- 5
5 /
6
5.0
6-5
/8 R
eg
6-5
/8 R
eg
8—
1/2
” O
D
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
850—56—5 8
50
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
14.2
15.2
56.2
98.5
4
0.6
26.1
07.1
48.1
610.3
9
0.9
37.9
99.0
210.0
412.2
5
1.2
22.2
49.7
610.7
811.7
913.9
9
1.5
04.4
31.7
011.4
612.4
813.4
915.6
7
1.7
66.4
63.7
21.0
813.0
514.0
615.0
617.2
3
2.0
08.3
35.5
92.9
414.5
115.5
216.5
118.6
7
2.2
310.1
37.3
94.7
315.9
216.9
117.9
020.0
5
2.4
211.6
28.8
76.2
00.6
417.0
718.0
719.0
521.1
9
2.6
013.0
310.2
77.6
02.0
218.1
719.1
620.1
422.2
7
2.7
414.1
211.3
68.6
83.1
019.0
320.0
120.9
923.1
1
2.8
514.9
812.2
29.5
43.9
519.7
020.6
821.6
623.7
7
2.9
315.6
112.8
410.1
64.5
620.1
921.1
722.1
424.2
5
2.9
816.0
013.2
310.5
54.9
520.4
921.4
722.4
424.5
5
3.0
016.1
613.3
810.7
05.1
020.6
121.5
922.5
624.6
7
850
- 5
6 -
5 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
157
02500
5000
7500
10000
12500
15000
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
85
0 -
56
-5
M
otor
Per
form
ance
Cur
ves
700 G
PM
1000 G
PM
400
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
85
0
158
0.1
5
0.2
0
0.2
5
0.3
0
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
85
0 -
56
-6
REV
S /
GA
L
0.18
Rev
/Gal
@ 9
00 p
si
8—
1/2
” O
D
5:6
Lob
e 6
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
850—56—6 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
8-1
/2 in
216 m
m
Wei
ght
4,0
85 lb
s1,8
54 k
g
Leng
th27.3
ft
8.3
3 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e400 - 1
,000 g
pm1,5
14 - 3
,785 lp
m
Peak
Tor
que
17,3
00 ft-lb
s23,4
60 N
-m
Peak
Dev
elop
ed P
ower
447 h
p333 k
w
Bit to
Ben
d86 in
2,1
79 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
85,0
00 lb
s378 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or360,0
00 lb
s1,6
00 k
N
Pull
to Y
ield
Mot
or875,0
00 lb
s3,8
92 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
85
0 -
56
- 6
5 /
6
6.0
6-5
/8 R
eg
6-5
/8 R
eg
85
0
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
13.5
54.4
05.2
37.0
5
0.6
25.3
16.1
56.9
88.7
8
0.9
37.0
77.9
08.7
210.5
1
1.2
21.9
78.7
29.5
410.3
612.1
3
1.5
03.9
51.4
910.3
011.1
211.9
313.7
0
1.7
65.7
83.3
10.9
311.7
812.5
913.4
015.1
5
2.0
07.4
75.0
02.6
113.1
413.9
514.7
516.4
9
2.2
39.1
06.6
24.2
214.4
515.2
516.0
517.7
8
2.4
210.4
47.9
65.5
50.5
315.5
316.3
317.1
218.8
4
2.6
011.7
19.2
26.8
21.7
816.5
517.3
418.1
319.8
5
2.7
412.7
010.2
17.8
02.7
617.3
418.1
418.9
220.6
3
2.8
513.4
810.9
88.5
73.5
217.9
718.7
619.5
421.2
4
2.9
314.0
411.5
59.1
34.0
818.4
219.2
119.9
921.6
9
2.9
814.3
911.9
09.4
84.4
318.7
119.4
920.2
821.9
7
3.0
014.5
312.0
49.6
24.5
618.8
219.6
120.3
922.0
8
850
- 5
6 -
6 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
159
03000
6000
9000
12000
15000
18000
0
50
100
150
200
250
300
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
85
0 -
56
-6
M
otor
Per
form
ance
Cur
ves
700 G
PM
1000 G
PM
400
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
85
0
160
85
0
161
85
0
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 8.50 216.0 8.50 216.0 8.50 216.0
C 9.84 250.0 9.84 250.0 9.84 250.0
D 25.08 637.0 25.08 637.0 25.08 637.0
E 46.85 1190.0 46.85 1190.0 46.85 1190.0
G 148.03 3760.0 181.10 4600.0 214.17 5440.0
H 16.65 423.0 16.65 423.0 16.65 423.0
I 10.59 269.0 10.59 269.0 10.59 269.0
J 261.73 6648.0 294.80 7488.0 327.87 8328.0
K 5.75 146.0 5.75 146.0 5.75 146.0
L 15.75 400.0 15.75 400.0 15.75 400.0
M 63.35 1609.0 63.35 1609.0 63.35 1609.0
N 31.50 800.0 31.50 800.0 31.50 800.0
O 143.31 3640.0 176.38 4480.0 209.45 5320.0
P 5.41 137.5 5.41 137.5 5.41 137.5
Q 5.51 140.0 5.51 140.0 5.51 140.0
R 3.07 78.0 3.07 78.0 3.07 78.0
S 6.50 165.0 6.50 165.0 6.50 165.0
T 16.65 423.0 16.65 423.0 16.65 423.0
U 48.82 1240.0 48.82 1240.0 48.82 1240.0
850 FISHING DIMENSIONS
850-56-4 850-56-5 850-56-6
162
9—
5/8
” O
D
3:4
Lob
e 6
.0 S
tage
Hig
h S
peed
H
igh
Torq
ue 963—34—6
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
9-5
/8 in
244 m
m
Wei
ght
5,4
77 lb
s2,4
85 k
g
Leng
th29.5
ft
8.9
9 m
Full
Load
Bit
Spee
d100 - 2
50 r
pm100 - 2
50 r
pm
Flow
Rat
e500 - 1
,200 g
pm1,8
92 - 4
,542 lp
m
Peak
Tor
que
22,8
00 ft-lb
s30,9
00 N
-m
Peak
Dev
elop
ed P
ower
820 h
p611 k
w
Bit to
Ben
d95 in
2,4
13 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
90,0
00 lb
s400 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or480,0
00 lb
s2,1
35 k
N
Pull
to Y
ield
Mot
or1,0
00,0
00 lb
s4,4
48 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
96
3 -
34
- 6
3 /
4
6.0
6-5
/8 R
eg7-5
/8 R
eg
6-5
/8 R
eg7-5
/8 R
eg
0.1
5
0.2
0
0.2
5
0.3
0
0.3
5
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
96
3 -
34
-6
REV
S /
GA
L
0.21
Rev
/Gal
@ 9
00 p
si
96
3
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
12.5
63.3
14.0
55.6
7
0.6
20.0
34.2
54.9
95.7
37.3
3
0.9
32.0
95.9
36.6
77.4
08.9
9
1.2
24.0
21.6
77.5
18.2
48.9
710.5
4
1.5
05.8
83.5
31.2
59.0
39.7
610.4
812.0
4
1.7
67.6
15.2
52.9
710.4
411.1
711.8
813.4
3
2.0
09.2
16.8
44.5
511.7
512.4
713.1
814.7
2
2.2
310.7
48.3
76.0
71.2
713.0
013.7
114.4
215.9
5
2.4
212.0
09.6
37.3
32.5
214.0
314.7
415.4
516.9
7
2.6
013.2
010.8
28.5
23.7
015.0
115.7
216.4
217.9
4
2.7
414.1
311.7
59.4
44.6
215.7
716.4
817.1
718.6
9
2.8
514.8
612.4
810.1
75.3
416.3
717.0
717.7
719.2
8
2.9
315.4
013.0
110.7
05.8
716.8
117.5
118.2
019.7
1
2.9
815.7
313.3
411.0
36.1
917.0
817.7
818.4
719.9
7
3.0
015.8
613.4
811.1
66.3
217.1
917.8
918.5
820.0
8
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
963
- 3
4 -
6 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
163
03000
6000
9000
12000
15000
18000
21000
24000
0
50
100
150
200
250
300
350
400
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
96
3 -
34
-6
M
otor
Per
form
ance
Cur
ves
85
0 G
PM
120
0 G
PM
500 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
96
3
164
9—
5/8
” O
D
5:6
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 963—56—4
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
9-5
/8 in
244 m
m
Wei
ght
4,6
95 lb
s2,1
30 k
g
Leng
th24.0
ft
7.3
2 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e500 - 1
,200 g
pm1,8
92 - 4
,542 lp
m
Peak
Tor
que
16,2
00 ft-lb
s21,9
00 N
-m
Peak
Dev
elop
ed P
ower
418 h
p312 k
w
Bit to
Ben
d95 in
2,4
13 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
90,0
00 lb
s400 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or480,0
00 lb
s2,1
35 k
N
Pull
to Y
ield
Mot
or1,0
00,0
00 lb
s4,4
48 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
96
3 -
56
- 4
5 /
6
4.0
6-5
/8 R
eg7-5
/8 R
eg
6-5
/8 R
eg7-5
/8 R
eg
0.1
0
0.1
5
0.2
0
0.2
5
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
96
3 -
56
-4
REV
S /
GA
L
0.15
Rev
/Gal
@ 6
00 p
si
96
3
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
13.4
94.6
45.7
78.2
3
0.6
20.1
45.4
36.5
77.7
010.1
4
0.9
32.6
77.3
88.5
19.6
212.0
5
1.2
25.0
32.1
69.1
910.3
211.4
313.8
4
1.5
07.3
14.4
31.6
410.9
512.0
613.1
715.5
6
1.7
69.4
36.5
43.7
412.5
813.6
914.7
917.1
6
2.0
011.3
98.4
85.6
814.0
815.1
916.2
818.6
4
2.2
313.2
610.3
57.5
41.6
615.5
316.6
217.7
120.0
6
2.4
214.8
111.8
99.0
73.1
816.7
217.8
118.8
921.2
3
2.6
016.2
813.3
510.5
34.6
317.8
518.9
320.0
122.3
4
2.7
417.4
214.4
911.6
65.7
518.7
319.8
120.8
823.2
0
2.8
518.3
115.3
812.5
56.6
319.4
220.5
021.5
723.8
8
2.9
318.9
716.0
313.1
97.2
719.9
221.0
022.0
624.3
8
2.9
819.3
716.4
413.6
07.6
720.2
321.3
122.3
724.6
8
3.0
019.5
416.6
013.7
67.8
320.3
621.4
322.5
024.8
1
HO
LE S
IZE
HO
LE S
IZE
963
- 5
6 -
4 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
165
03000
6000
9000
12000
15000
18000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
96
3 -
56
-4
M
otor
Per
form
ance
Cur
ves
850 G
PM
1200 G
PM
50
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
96
3
166
9—
5/8
” O
D
5:6
Lob
e 5
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
963—56—5 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
9-5
/8 in
244 m
m
Wei
ght
5,0
80 lb
s2,3
05 k
g
Leng
th26.8
ft
8.1
5 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e500 - 1
,200 g
pm1,8
92 - 4
,542 lp
m
Peak
Tor
que
16,9
20 ft-lb
s22,9
40 N
-m
Peak
Dev
elop
ed P
ower
438 h
p327 k
w
Bit to
Ben
d95 in
2,4
13 m
m
Full
Load
Diff
eren
tial P
ress
ure
750 p
si5,1
70 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,0
00 p
si6,9
00 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
90,0
00 lb
s400 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or480,0
00 lb
s2,1
35 k
N
Pull
to Y
ield
Mot
or1,0
00,0
00 lb
s4,4
48 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
96
3 -
56
- 5
5 /
6
5.0
6-5
/8 R
eg7-5
/8 R
eg
6-5
/8 R
eg7-5
/8 R
eg
0.1
0
0.1
5
0.2
0
0.2
5
01
00
200
30
04
00
50
06
0070
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
96
3 -
56
-5
REV
S /
GA
L
0.15
Rev
/Gal
@ 7
50 p
si
96
3
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
12.9
63.8
84.7
86.7
5
0.6
20.0
74.7
75.6
86.5
88.5
3
0.9
32.3
46.5
87.4
88.3
710.3
1
1.2
24.4
71.8
88.2
79.1
610.0
511.9
7
1.5
06.5
23.9
21.4
29.9
010.7
911.6
713.5
8
1.7
68.4
25.8
23.3
111.4
212.3
013.1
715.0
7
2.0
010.1
87.5
75.0
512.8
113.6
914.5
616.4
5
2.2
311.8
79.2
56.7
21.4
414.1
615.0
315.9
017.7
7
2.4
213.2
610.6
48.1
12.8
115.2
616.1
317.0
018.8
6
2.6
014.5
811.9
59.4
24.1
116.3
117.1
818.0
419.9
0
2.7
415.6
012.9
810.4
35.1
217.1
317.9
918.8
520.7
0
2.8
516.4
113.7
811.2
35.9
117.7
718.6
319.4
821.3
3
2.9
316.9
914.3
611.8
26.4
918.2
419.1
019.9
521.7
9
2.9
817.3
614.7
312.1
86.8
518.5
319.3
920.2
422.0
8
3.0
017.5
114.8
712.3
37.0
018.6
519.5
020.3
522.1
9
963
- 5
6 -
5 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
167
03000
6000
9000
12000
15000
18000
0
50
100
150
200
250
300
010
0200
300
400
500
600
700
800
900
1000
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
96
3 -
56
-5
M
otor
Per
form
ance
Cur
ves
850 G
PM
1200 G
PM
500
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
96
3
168
9—
5/8
” O
D
5:6
Lob
e 6
.0 S
tage
Med
ium
Spe
ed
Hig
h To
rque
963—56—6 M
oto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
9-5
/8 in
244 m
m
Wei
ght
5,4
77 lb
s2,4
85 k
g
Leng
th29.5
ft
8.9
9 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e500 - 1
,200 g
pm1,8
92 - 4
,542 lp
m
Peak
Tor
que
17,1
00 ft-lb
s23,1
85 N
-m
Peak
Dev
elop
ed P
ower
443 h
p330 k
w
Bit to
Ben
d95 in
2,4
13 m
m
Full
Load
Diff
eren
tial P
ress
ure
900 p
si6,2
05 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
1,2
00 p
si8,2
74 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
90,0
00 lb
s400 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or480,0
00 lb
s2,1
35 k
N
Pull
to Y
ield
Mot
or1,0
00,0
00 lb
s4,4
48 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
96
3 -
56
- 6
5 /
6
6.0
6-5
/8 R
eg7-5
/8 R
eg
6-5
/8 R
eg7-5
/8 R
eg
0.1
0
0.1
5
0.2
0
0.2
5
010
02
00
300
40
050
06
00
70
08
00
90
0
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
96
3 -
56
-6
REV
S /
GA
L
0.15
Rev
/Gal
@ 9
00 p
si
96
3
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
12-1
/4"
13-1
/2"
14-3
/4"
17-1
/2"
0.3
12.5
63.3
14.0
55.6
7
0.6
20.0
34.2
54.9
95.7
37.3
3
0.9
32.0
95.9
36.6
77.4
08.9
9
1.2
24.0
21.6
77.5
18.2
48.9
710.5
4
1.5
05.8
83.5
31.2
59.0
39.7
610.4
812.0
4
1.7
67.6
15.2
52.9
710.4
411.1
711.8
813.4
3
2.0
09.2
16.8
44.5
511.7
512.4
713.1
814.7
2
2.2
310.7
48.3
76.0
71.2
713.0
013.7
114.4
215.9
5
2.4
212.0
09.6
37.3
32.5
214.0
314.7
415.4
516.9
7
2.6
013.2
010.8
28.5
23.7
015.0
115.7
216.4
217.9
4
2.7
414.1
311.7
59.4
44.6
215.7
716.4
817.1
718.6
9
2.8
514.8
612.4
810.1
75.3
416.3
717.0
717.7
719.2
8
2.9
315.4
013.0
110.7
05.8
716.8
117.5
118.2
019.7
1
2.9
815.7
313.3
411.0
36.1
917.0
817.7
818.4
719.9
7
3.0
015.8
613.4
811.1
66.3
217.1
917.8
918.5
820.0
8
963
- 5
6 -
6 B
UIL
D R
ATE
TA
BLE
(Deg
rees
per
100
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
169
03000
6000
9000
12000
15000
18000
0
50
100
150
200
250
300
0200
400
600
800
1000
1200
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
96
3 -
56
-6
M
otor
Per
form
ance
Cur
ves
850 G
PM
1200 G
PM
500
GPM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
96
3
170
96
3
171
96
3
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
English(in)
Metric(mm)
A 9.63 244.5 9.63 244.5 9.63 244.5 9.63 244.5
C 10.24 260.0 10.24 260.0 10.24 260.0 10.24 260.0
D 24.80 630.0 24.80 630.0 24.80 630.0 24.80 630.0
E 48.50 1232.0 48.50 1232.0 48.50 1232.0 48.50 1232.0
G 219.29 5570.0 153.15 3890.0 186.22 4730.0 219.29 5570.0
H 24.65 626.0 24.65 626.0 24.65 626.0 24.65 626.0
I 12.24 311.0 12.24 311.0 12.24 311.0 12.24 311.0
J 348.50 8852.0 282.36 7172.0 315.43 8012.0 348.50 8852.0
K 6.50 165.0 6.50 165.0 6.50 165.0 6.50 165.0
L 15.75 400.0 15.75 400.0 15.75 400.0 15.75 400.0
M 64.96 1650.0 64.96 1650.0 64.96 1650.0 64.96 1650.0
N 36.61 930.0 36.61 930.0 36.61 930.0 36.61 930.0
O 213.78 5430.0 147.64 3750.0 180.71 4590.0 213.78 5430.0
P 5.98 152.0 5.98 152.0 5.98 152.0 5.98 152.0
Q 6.50 165.0 6.50 165.0 6.50 165.0 6.50 165.0
R 3.46 88.0 3.46 88.0 3.46 88.0 3.46 88.0
S 6.50 165.0 6.50 165.0 6.50 165.0 6.50 165.0
T 24.65 626.0 24.65 626.0 24.65 626.0 24.65 626.0
U 56.10 1425.0 56.10 1425.0 56.10 1425.0 56.10 1425.0
963-34-6 963-56-4 963-56-5 963-56-6
963 FISHING DIMENSIONS
172
11
25
0.1
0
0.1
2
0.1
4
0.1
6
0.1
8
0.2
0
01
0020
03
00
40
05
006
00
REVS / GALLON (RPG)
DIF
FER
ENT
IAL
PRES
SUR
E (P
SI)
11
25
-3
4 -
4
REV
S /
GA
L
0.12
Rev
/Gal
@ 6
00 p
si
11
—1
/4”
OD
3:4
Lob
e 4
.0 S
tage
Med
ium
Spe
ed
Med
ium
Tor
que 1125—34—4
Moto
r Sp
eci
fica
tion
sEn
glish
Metr
ic
Mod
el N
umbe
r
Rot
or L
obes
/ S
tato
r Lo
bes
Num
ber
of S
tage
s
Out
er D
iam
eter
11-1
/4 in
286 m
m
Wei
ght
7,3
70 lb
s3,3
50 k
g
Leng
th32.1
ft
9.7
9 m
Full
Load
Bit
Spee
d80 - 1
80 r
pm80 - 1
80 r
pm
Flow
Rat
e1,0
00 - 1
,500 g
pm3,7
85 - 5
,678 lp
m
Peak
Tor
que
17,5
00 ft-lb
s23,7
30 N
-m
Peak
Dev
elop
ed P
ower
453 h
p337 k
w
Bit to
Ben
d89 in
2,2
60 m
m
Full
Load
Diff
eren
tial P
ress
ure
600 p
si4,1
40 k
pa
Peak
Tor
que
Diff
eren
tial P
ress
ure
800 p
si5,5
20 k
pa
Max
imum
Bit
Pres
sure
Dro
p1,5
00 p
si10,3
00 k
pa
Max
imum
Wei
ght on
Bit
120,0
00 lb
s534 k
N
Max
imum
Pul
l to
Re-
Run
Mot
or550,0
00 lb
s2,4
47 k
N
Pull
to Y
ield
Mot
or1,5
00,0
00 lb
s6,6
72 k
N
Upp
er B
ox C
onne
ctio
n
Low
er B
it Bo
x C
onne
ctio
n
11
25
- 3
4 -
4
3 /
4
4.0
7-5
/8 R
eg
7-5
/8 R
eg
14-3
/4"
17-1
/2"
14-3
/4"
17-1
/2"
0.3
14.2
76.7
4
0.6
26.1
78.6
2
0.9
31.4
18.0
610.5
0
1.2
23.7
59.8
412.2
6
1.5
06.0
20.2
111.5
513.9
6
1.7
68.1
22.2
913.1
415.5
4
2.0
010.0
64.2
114.6
116.9
9
2.2
311.9
16.0
516.0
218.3
9
2.4
213.4
57.5
717.1
919.5
4
2.6
014.9
09.0
218.2
920.6
4
2.7
416.0
410.1
419.1
521.4
9
2.8
516.9
211.0
219.8
222.1
5
2.9
317.5
711.6
620.3
122.6
4
2.9
817.9
812.0
620.6
222.9
4
3.0
018.1
412.2
220.7
423.0
6
112
5 -
34 -
4 B
UIL
D R
AT
E T
ABL
E (D
egre
es p
er 1
00
fee
t )
ABH SET
AN
GLE
SLIC
K B
EARIN
G H
OU
SIN
GST
ABI
LIZED
BEA
RIN
G H
OU
SIN
G
HO
LE S
IZE
HO
LE S
IZE
173
11
25
03000
6000
9000
12000
15000
18000
0
50
100
150
200
250
300
0100
200
300
400
500
600
700
800
TORQUE (FT-LBS)
ROTATIONAL SPEED (RPM)
DIF
FEREN
TIA
L PR
ESSU
RE
(PSI
)
11
25
-3
4 -
4 M
otor
Per
form
ance
Cur
ves
1250 G
PM
1500 G
PM
100
0 G
PM
TO
RQ
UE
ROL
= R
ecom
men
ded
Ope
ratio
n Li
ne
ROL
174
11
25
175
1125 FISHING DIMENSIONS
English(in)
Metric(mm)
A 11.25 285.8
C 10.24 260.0
D 24.80 630.0
E 48.50 1232.0
G 153.15 3890.0
H 24.65 626.0
I 12.24 311.0
J 282.36 7172.0
K 6.50 165.0
L 15.75 400.0
M 64.96 1650.0
N 36.61 930.0
O 146.06 3710.0
P 5.98 152.0
Q 6.50 165.0
R 3.46 88.0
S 6.50 165.0
T 24.65 626.0
U 56.10 1425.0
1125-34-4
11
25
176
ABH ANGLE MARK IDENTIFICATION GUIDE
Toro Downhole Tools 16626 FM 2920
Tomball, Texas 77377 U.S.A.
1-888-662-8676 www.torotools.com