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TTTT EEEECCCC HHHH
NNNN IIIICCCC AAAA
LLLLGGGG UUUU
IIII DDDDEEEE COMMERCIAL
INDUSTRIAL &SPECIAL APPLICATIONCEILING FANS
®
DOCUMENTED BY:
2
THE INTELLIGENT APPROACH TOCOMMERCIAL / INDUSTRIAL CEILING FANS
TABLE OF CONTENTS
INTRODUCTION TO CEILING FANS ....................................................................3-4CEILING FAN AIR PATTERNS ..................................................................................5HOW CEILING FANS WORK ....................................................................................6BLADE AND MOTOR DESIGNS ............................................................................7-8CAPITOL COST COMPARISON................................................................................9FAN PLACEMENT COMPARISON ..........................................................................10TRUTH IN TESTING ..............................................................................................11ESTIMATED ANNUAL SAVINGS FOR HEAT RECOVERY ..................................12-14LEADING EDGE MOTOR CONSTRUCTION ......................................................15-16COMMERCIAL/SPECIAL APPLICATION FAN DATA ..........................................17-20INDUSTRIAL APPLICATION FAN DATA ............................................................21-23REVERSING CEILING FANS ..................................................................................24HARSH ENVIRONMENT CEILING FANS ................................................................25 FAN PLACEMENT CALCULATIONS........................................................................26ADJUSTABLE MOTOR SPEED CONTROLS............................................................27IMPACT RESISTANT FAN GUARDS ......................................................................28FAN MODELS AND ACCESSORIES SUMMARY ....................................................29CEILING FAN SPECIFICATIONS ............................................................................30
PREFACEThis comprehensive publication contains the only documented, lab testedarea coverage data available in the history of commercial/industrial ceilingfans. This guide was compiled to explain in detail the performancecharacteristics of Leading Edge brand ceiling fans. The contents are writtenin easy “Layman Terminology” to explain how our fans work so you mayconfidently make the correct decisions for your fan system.
The information contained in this document is the exclusive propertyof Leading Edge and may not be duplicated or reprinted in part orentirely without permission. Copyright Leading Edge 1999.
Test Data Credits: DR. HAROLD HUGHESVirginia Polytech Institute
Additional Data Credit: DR. FREDERICK ROHLESKansas State University
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INTRODUCTIONWhen the popularity of ceiling fans reappeared during the energy crisis in the late 70’s, Leading Edge was theonly fan manufacturer to concentrate solely on the commercial/industrial market.
All other ceiling fan manufacturers quickly devotedtheir full attention to the then booming decorative,residential fan market. As competition heightenedthe marketing/manufacturing of these flat woodenblade, residential paddle fans quickly became oneof price and appearance, not performance. Whilethese fan manufacturers devoted their total effortstoward the residential fan market, Leading Edgedeveloped commercial/industrial ceiling fans forwinter heat destratification and summer cooling. In1978 we designed “AWESOME 60®”the world’s firstheavy-duty high performance 60” ceiling fan. It’sinitial success proved we were correct in ourdirection. We could have stopped there but wedidn’t. Since then we have continued to design,engineer and manufacture the most complete lineof commercial/industrial ceiling fans available.Performance is the primary design and engineeringparameter of every model we manufacture.
52” Residential Paddle Fan, Vintage 1896.
60” Heavy Duty, High PerformanceIndustrial Ceiling Fan, Vintage 1978.
Model 6001-1 “AWESOME 60 ®”The Factory Fan ®
The two most important characteristics of commercial/industrial ceiling fans are HEAVY-DUTY CONSTRUCTIONand PERFORMANCE (area coverage). We set the standardfor both!
Prior to recently completed laboratory testing (researchdata enclosed), little or no information was available tohelp in planning the most efficient ceiling fan system forcommercial/industrial applications. The continuing growthof the commercial/industrial ceiling fan market is based onfact not fad. Fan performance is dictated by specific bladeand motor laws in all industrial ventilation. The industrialfan buyer must be aware that all fans are not alike; allbuildings are not alike. Until now documentedperformance data was not available.
All other industrial air moving equipment such asexhausters, centrifugal blowers, tube axial fans,ventilators, etc.... are offered with a selection of bladediameters, motor sizes and air movement ratings to suityour individual requirements. To achieve maximumbenefits in commercial/industrial ceiling fans these samevariables must be considered.
A single model cannot possibly be used to satisfyrequirements for all design applications. Leading Edge isthe only commercial/industrial ceiling fan manufacturerbuilding a range of five different motor sizes and bladesweep diameters to assure the optimum system.
Because we market worldwide we offer 120, 220, and 277volt, 50/60 Hz models. We are the first ceiling fanmanufacturer to list 50/60 Hz motors with UnderwritersLaboratories. Each fan motor is engineered differently toobtain maximum area coverage and performance from agiven blade-sweep diameter.
Leading Edge contoured blades are similar in design tolarge volume industrial air circulators which are alsodesigned for maximum efficiency In this respect you willnever see a flat, curved tip or tapered blade design onindustrial circulators... they’re just not efficient.
The proof of Leading Edge’s/motor/blade design efficiencyis reflected in the fan technical data contained herein. Nocompetitor’s fan, whether 52”, 56” or 60” can match thearea coverage of our heavy duty industrial line.
Leading Edge has become the technical leader in thecommercial/industrial market now offering a total of 16different models. The following documented performancedata is the first available in our industry to assist yourplanning.
We could stop here but we won’t! New models are on thedrawing boards and additional testing and documentationis planned. We understand our fan business ... it’s all wedo!
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30” Heavy-Duty - Leading Edge Air Circulator
36” High Volume - Leading Edge Heavy-DutyDirect Drive Air Circulator
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The above graph (Figure 1) illustrates the performanceof Model 6000-1 (60”) fan mounted 20 feet (bladeheight) above the floor.
An air plume is created from the intake air (above thefan) by drawing surrounding ceiling air through theblades. The primary air plume (cone shaped), on theoutlet side, is forced downward by the power of thisspecific motor and blade combination. As the primaryair flows downward, surrounding air is entrained,greatly increasing the total air volume. Industrial ceilingfans re-circulate their own air, thus have little effect on abuilding’s positive or negative air pressure.
Total air volume and area coverage is dependent uponspecific characteristics such as motor size, bladedesign/size/rpm as well as fan mounting height. It is forthis reason Leading Edge documented specific air flowpatterns and area coverage tables of all fan models atvarious mounting heights.
NOTE: Competitor’s published velocity ratings(undocumented) are taken at the face of the fan and areup to three times the actual floor velocity ratings.Velocity decreases as distance from \fan increases. Nocompetitor has ever published tested velocity at floorlevel.
CEILING FAN AIR PATTERNS
CEILING
20 FT.
FLOOR
FIGURE 1
0 15105 35302520 4540
DISTANCE FROM FAN CENTER (FT)
(CEN
TERL
INE)
ENTRAINMENT
6
FAN TEST DESCRIPTION
FIGURE 25 201510 40353025 45450
550
100
50
0
400
450
500
250
300
350
200
150
75
MODEL: 6000-1 AT 20 FOOT HEIGHT
AIR
VELO
CITY
(FT/
MIN
)
This chart, (Figure 2) reproduces the actual test dataperformance curves of Model 4C721 (60”) fan mounted20 ft. (blade height) above the floor.
By reading the distance from fan center along thehorizontal line, you can determine air velocity at anypoint from the center of the fan. Refer to the verticalscale for velocity in feet per minute (ft/min). Note thatyou are measuring the radius from the fan centerline inone direction only. This radius calculation must bedoubled for total air pattern diameter (ceiling fans have3600 air flow coverage).
Example, at 45 ft. from centerline (90’ total diameter)this fan produces air velocity of over 75 ft/min. For ourcalculations we dropped back to the 40 ft. mark for atotal area coverage of 5024 square feet (,TrR 2 = 3.14 x402) . The square root of 5024 ft. yields a squared areapattern of 70.9 ft. x 70.9 ft. This flow chart proves thateven 5 ft. beyond the outer edge of our calculation (40ft.) we still achieve 75 ft/min air velocity. For our heatrecovery calculations we use a cut off velocity ofapproximately 75 ft/min.
FAN PERFORMANCE DATA
All Leading Edge fan models as well as fans fromcompetitors were tested during 1985 under identicalconditions. All fans were suspended on 24 inch lengthdownrods in the center of a 400 square foot simulatedceiling. Tests were conducted at various blade heightsabove floor level of 7’1”, 10’, 20’, 30’, 40’ and 45’(depending upon model).
Velocity readings were taken in 5 foot increments fromthe vertical centerline (See Figure 1) in all directions.Using 4” vane anemometers at floor level, seventeen
readings were taken per placement. The high and lowreadings were dropped and the remaining fifteen wereaveraged to obtain the published results. The insidetemperature differential (∆T) from ceiling-to-floor was2˚F, which is the average ∆T range after heatdestratification has been achieved. Constant voltagewas metered and maintained. All fan RPM’s wererecorded. The entire testing procedure was video-taped.
See page 7 for details on 24˚F ∆T and 26˚F ∆T testing.
HOW FANS WORKTHE LEADING EDGE DUAL PURPOSE
ENERGY CONSERVATION SYSTEM92˚
58˚Before
73˚
71˚After
80˚
72˚Air-Conditioned
85˚
79˚Non Air-Conditioned
WINTER - Recovers wasted heat by eliminating heat stratification.Trapped warm air at the ceiling caused by natural heat rise and poorair circulation is equalized by the movement of the massive bladespan. Thus ceiling to floor temperature is equalized. With a heatcost savings of 30 percent, the LEADING EDGE fan system can payfor itself in one year. The elimination of cold spots increasesemployee productivity and comfort.SUMMER - General air recirculation in non-air-conditionedbuildings creates a cooling breeze and a “Wind Chill Factor”providing evaporation cooling of the skin surface dropping skintemperature by 6 degrees. The LEADING EDGE fan systemsupplements air-conditioned buildings by allowing the thermostatsetting to be 8 degrees higher. You’ll feel the coolness of 72degrees with the thermostat set on 80 degrees an incomparableenergy savings. Additional advantages, eliminates mold andmildew caused by stagnant air, perfect for high humidity areas.No other fan has our higher air velocity capabilities. Small fans donot develop sufficient CFM to be effective in warm weather.
THE
HEAT-DDRROOPPPPEERR®
CONCEPT AND HOW IT WORKS!
HEAT RECOVERY VS. THE AIR BUOYANCY FACTORWhile everyone agrees that warmer air rises and that largeindustrial ceiling fans can break up this stratified heat, onlyone other manufacturer addresses the air buoyancy factorPractically all substances expand when their temperature isincreased, air is no exception. Cooler air, weighing more,sinks to floor level. Warmer, lighter air rises. It is this floatingblanket of lighter, warmer air that must be mixed with theheavier floor level air to obtain total vertical equalization oftemperatures and greatest energy cost savings.To counteract this natural buoyancy force, it takes an efficient,powerful, heavy duty fan moving large volumes of warm air atan initial high downward velocity. A less powerful fan may notbreak this buoyancy effect and, therefore, total destratificationwill not be achieved. It must also be noted that for this reasonreversing fans cannot possibly function in the heatdestratification process in spacious areas.Leading Edge fan performance and destratificationcapabilities have been documented at heights exceeding 75 ft.with initial ceiling-to-floor temperature differentials exceeding26˚F AT with a recorded, 2˚F AT after an initial 30 minutes ofoperation. During the 1985 January ASHRAE Exhibition atMcCormick Place, Chicago, we recorded a 24˚F AT in ourexhibit area prior to operating our fan. One model 6000-1,mounted 48 ft. above floor level, successfully destratified thisarea with a recorded floor temperature 22˚F higher thansurrounding areas. Area coverage of over 35 ft. from fancenterline was measured and demonstrated to those inattendance. Less powerful fans simply cannot break up the airbuoyancy (AT) factor and achieve this heat destratification.No other ceiling fan manufacturer has ever demonstrated this
feat before. We proved it to the most prestigious engineeringgathering in the world.
COOLING APPLICATIONSSeveral factors must be considered regarding the use ofindustrial fans for summer cooling.
The results of extensive research testing conducted by Dr.Frederick Rohles of Kansas State University, EnvironmentalDepartment, proves the validity of this statement. He statesthat in a non-airconditioned area, air velocities in the range of90 to 200 feet per minute are required to extend the upperlimit of the summer comfort envelope by as much as sixdegrees.
Only Leading Edge fans are designed for both winter andsummer operation. Our fans develop both maximum velocityand area coverage. Smaller capacity fans are incapable ofproducing even the minimal requirement of 90 feet perminute in an area directly under the fans. Leading Edge fansare designed as year round, dual purpose products.
Under most summer conditions the use of industrial ceilingfans in non-airconditioned areas for ventilation andevaporative cooling is advisable. In those application where afacility with high temperature ceilings exist, it is advisable toselect our reversing model, (see page 22) to be used as asupplemental fan to existing exhaust fans or ridge ventopenings.As a Florida based corporation, we have “hands on”experience with our high summer temperatures. As anexample, model 6000-1 was designed specifically for bothwinter heat destratification and summer cooling.
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8
BLADE AND MOTOR DESIGNS“All Fans Are Not Alike!”
Blade designs and resulting air delivery involves a complexinterplay of factors such as diameter, pitch, tip speed,motor size and related RPM and number of blades.
Change one and it effects all the others. Our contouredshaped wide blade design is the most efficient of alldesigns we have tested. The key in performance is thematch of a given power motor and blade sweep to achievethe desired RPM and velocity.
By testing and analyzing competitor blade designs andresulting performance, we determined that the flat paddleblade (residential) literally “skips” thru the air with littledrag and downward thrust. Thus, regardless of RPM,minimal air delivery and area coverage is achieved in open,spacious areas.
The curved tip blade design originated in England in theearly 1900’s as a decorative treatment for a metal bladeresidential fan. Contrary to competitor’s publishedstatements, that the curved tip “Throws a wider beam ofair,” both our smoke and instrument testing proves thisstatement false. In reality the flat, metal blade fans withcurved tips produces no additional air delivery at the outeredge of the blade span as the curved tip free-wheels. Theblade pitch is greatly reduced from one competitor modelto another to achieve desired RPM with relatively smallmotors.
The relatively narrow, airplane style propeller design isgreat for airplanes moving thru the air, but not as efficientfor a stationary fan moving air thru the blades. Althoughthis design allows for high RPM, it does not match thesame area coverage of the Leading Edge wide, contouredblade at the same RPM. Our wider, full contoured bladedesign has a greater angle of attack and subsequent widerthrow of air.
If our blade design is so efficient why don’t competitorsuse our style blades? Answer! They can’t... because ittakes a more powerful motor. They use the same small sizemotors that power their 52” and 48” residential paddlefans. Due to the extreme competition in the residential fanmarket, motor sizes have been reduced by 50 percentduring the last 7 years in an effort to build a less expensivefan for mass market residential consumers.
Leading Edge does not manufacture residential ceilingfans! We build the most powerful and efficient industrialceiling fan motors in the industry.
Leading Edge wide,contoured blade design.
Flat paddle blade design.
Typical curved blade design.
Narrow airplane style blade design.
The formula that determines the power capable of beingdelivered by a given electric motor is P = D2 L. This meanssimply the square of the diameter (of the stator) multipliedby the stack height of the motor. As stated, Leading Edgebuilds the most powerful, efficient* industrial ceiling fanmotors available!
An easier understood comparison of power toperformance is by comparing the sizes of general purpose
incandescent lamps. Although all light bulbs appearsimilar... they’re not. All ceiling fans may appear similar...they’re not!
The total amount of light produced by a light source ismeasured in lumens. When one lumen of light falls on anarea exactly one square foot, that area is said to be lightedat one foot-candle. Compare the watts and correspondinglumens value on each bulb.
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Now compare watts of specific motors from competitorsand their claimed performance. In factory installations thelow watt, inexpensive light bulb doesn’t save electricity ...you have to install three times as many 60 watt bulbs toachieve the lighting value of a single 150 watt light bulb.With fans, you would have to purchase and install three 75watt fans to achieve the area coverage of a single 160 wattmodel 6000-1 ; you still may not have sufficient power toovercome high temperature differential (See Page 7).
There is no “magic” in the formula of electric ceiling fanmotor design, “Designed Power is Designed Performance’“ All documentation proves this statement. We could haveeasily put 56” competitor style blades on our 75 wattmotor as others do. One competitor even has a 60” sweepon a 58 watt motor. The desired velocity and area coveragewould simply not be achieved in this method ofblade/motor selection.
40 Watt445 Lumens
60 Watt870 Lumens
75 Watt1180 Lumens
100 Watt1710 Lumens
150 Watt2780 Lumens
L.E./3620-1 75 Watts
L.E./5630-1RDP 110 Watts
L.E./6000-1 160 Watts
L.E./5600-1 110 Watts
L.E./4820-1 86 Watts
Reversible Fan(See Page 22)
Comparison 1 56” 65 Watts
Comparison 2 56” 75 Watts
Comparison 4 60” 58 Watts
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CAPITOL COST COMPARISONTHE LEADING EDGE ADVANTAGE
Lowest Total Installed Cost Per Square Foot
We have always treated ceiling fans as a system,not as single units. This fact is not revolutionary,but rather a common sense approach to selectionof any industrial equipment from lighting togeneral ventilation. By analysis of fan data we offerthe lowest total installed cost system on a persquare foot basis.
The average published formula of the fans fromcompetitors is one fan per 2,000 square feet (ft.2)(non-documented) at a 20 foot mounting height.Because our motor and blade designs are moreefficient, our documented area coverage is up to31/2 times that of the average competitor’s claim.The cost of installation per fan must be considered.This cost factor per fan is constant regardless ofwhich fan you purchase. In many instances,installation cost per unit will meet or exceed thepurchase price of the fan.
Because Leading Edge fans provide larger areacoverage, you require fewer fans to perform thesame function. Substantial savings are realized onthe total installed cost of your system.
For example, the following diagram (Figure 3) of a58,800 ft.2 facility shows a total of 12 model6000-1 fans (rated at 5,000 ft.2 per fan). The“Brand X” fan (rated at 2,100 ft.2 per fan) required28 units to cover the same area. Remember theinstallation cost is the same on both fans.
By using a basic and easy to compute capital costcomparison formula you can calculate your ownsavings as follows:
Leading Edge Model Brand X Model
Total square foot area to be covered,
A, ft.2 A, ft.2
Area coverage per fan,B, ft. 2 B, ft. 2
The total fan units required,A ÷ B=C, A ÷ B=C,
Compute fan unit cost,D, $ D, $
Compute installation cost,E, $ E, $
Total Installed Cost =
T.I.C. = (D + E)xC,$ T.I.C. = (D + E)xC,$
An extreme example would be the use of discountstore or home center promotional $49.95 fans.Lets assume these imported 56” curved tippedpatio fans could overcome the AT buoyancy factorand could cover 900 ft.2 per fan. The result is that65 fans would have to be installed and nosummertime cooling would be achieved. The lowpriced fan with its hidden additional costs is nobargain.
Residential patio fans are commonly rated at400 ft.2 per fan (20’x 20’ Living Room 8’ tallceiling).
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FAN PLACEMENT COMPARISONFigure 3 is a 58,800 ft.’ facility with a 22 foot clear ceiling height. By using model 6000-1 rated at 5,000 ft.2 area coverage per fan, you require a total of 12 fans for your system (58,800 ÷ 5,000 = 12). These twelvefans are indicated in the center of each solid line square. By using the Brand X fan rated at 2,100 ft.2 perfan, you require a total of 28 fans (58,800 ÷ 2,100 = 28). Refer to the “X” in the center of the dotted blocks.(We rounded off to 30 fans for placement uniformity.)
An extreme example would be the use of any fan rated at 1,400 ft.2 area coverage per fan. Figure 4 showsa total of 42 fans (58,800 ÷ 1,400 = 42). Note both buildings are identical and a comparison is 12 model6000-1 to the 42 Brand Y. A further comparison would be any fan rated at 900 ft. 2per fan would require65 fans in this building.
Figure 3280 Ft. (58,800 Ft.2)
210 Ft.
Figure 4280 Ft. (58,800 Ft.2)
210 Ft.
Y YYYY Y
Y Y YYY YY
Y
Y YYYY Y Y
Y YYYY Y Y
Y YYYY Y Y
Y YYYY Y Y
12
TRUTH IN TESTINGLE
ADIN
GED
GEFA
NSCO
MPE
TITO
RFA
NS
1000 2000 3000 4000 5000
(A) 56”
(B) 56”
(C) 56”
(D) 56”
(E) 56”
(F) 56”
(G) 56”
(H) 56”
(I) 56”
TESTED BUT NOT DOCUMENTEDThe designs and component parts of competitor models arevirtually identical. In fact, many originate from the same foreign manufacturer.
Almost all fans are powered by the same relatively small 75watt motors that are normally used in 48” diameter residentialstyle four wooden blade paddle fans. All competitor modelsshown use almost identical design 56” curved tip metal blades.
Although competitors claim their 56” curved tip blade designdelivers a cone shaped air pattern, actual field testing provesotherwise.
Contrary to claims, the curved tip portion of the blade produces no outward air delivery when tested. The curves tipportion of the blade creates minimal resistance and performance.
The combination of small sized electric motors, inefficientblade design with relatively minor blade pitch angle createsminimal air delivery and square foot area coverage.
It must be noted that performance claims, althoughnot documented, appear virtually identical.
3620-1
4820-1
5600-1LC
5600-1
6000-1
UNIVERSITY TESTED AND FULLY
DOCUMENTED
TOTAL SQUARE FOOT AREA COVERAGE
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ESTIMATING ANNUAL SAVINGS FOR HEAT RECOVERY
LOCATE:1. Fuel Factor (Table 1)
2. Seasonal Efficiency (Table 2)
3. Heat Loss Factor (Table 3) 4. Roof Pitch Factor (Table 4) 5. Average Heating Season Temperature (Table 5) F˚
MEASURE:1. Inside Ceiling Air Temperature F˚
2. Floor Air Temperature F˚
CALCULATE:8. Roof Area = sq. ft.
TEMPERATURE DIFFERENCEBefore Installation
∆Tb = , = F˚
TEMPERATURE DIFFERENCEAfter Installation
∆Ta = - , - = F˚
ENERGY SAVINGS CALCULATION:HEAT LOSS BEFORE
HLB = x x ∆Tb, x x =BTU⁄ hr
HEAT LOSS AFTER
HLA = x x ∆Ta, x x =BTU⁄ hr
Fuel Saved = x 5088 Heating Season Hours
- = ( 100,354)
- = ( 93,600)
( 100,354) ÷ ( 93,600) x 5088 =
Annual Dollar Savings - (Multiply by fuel cost per unit) - (© 5,455) x $1.10/Gal = $ 6,000 yr.
Example used in calculation is 43,632 sq. ft. building, oil heat, Chicago, IL.
240 240 240X XLENGTH WIDTH ROOF
PITCH FACTOR
1
6
3
54
2
7
8
806 - 35.8-5 6 5
+6 5
280 + 606
235.85
144,000
1.01
.23
.65
80
35.8
43,632
60
44.2
443,563
7 7
3 8 .233 43,6328 44.2 F˚
34.2
443,5633 8 .233 43,6328 34.2 F˚HLB - HLA
1 2x
44,563 A343,209B144,000 .6521
A B © 5,455Gal. Oil/yr.Cu. ft. Gas/yr.kwh/yr.
This calculation formula is based upon the reduction ofheat loss by decreasing the temperature differentialceiling to floor. Sidewall losses are not consideredbecause it is assumed the average loss over the wall’sheight will remain the same with a heated air
redistribution system. This calculation assumesconstant thermostat settings during the heating season.If thermostat setback is used, adjust accordingly, usingASHRAE calculation methods.
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LOCATIONAVERAGE
HEATING SEASON TEMPERATURE F˚
TABLE 5 - LOCAL HEATING DATA
ARIZONA - FLAGSTAFFCOLORADO - DENVERCONNECTICUT - HARTFORDDELAWARE - WILMINGTONWASHINGTON, D.C.IDAHO - BOISEILLINOIS - CHICAGOINDIANA - INDIANAPOLISIOWA - DES MOINESKANSAS - TOPEKAKENTUCKY - LOUISVILLEMAINE - PORTLANDMARYLAND - BALTIMOREMASSACHUSETTS - BOSTONMICHIGAN - DETROITMINNESOTA - MINNEAPOLISMISSOURI - KANSAS CITYMONTANA - HELENANEBRASKA - LINCOLNNEVADA - ELKONEW HAMPSHIRE - CONCORDNEW JERSEY - TRENTONNEW MEXICO - ALBUQUERQUENEW YORK - ALBANYNEW YORK - BUFFALONEW YORK - NEW YORK CITYNORTH DAKOTA - BISMARCKOHIO - COLUMBUSOREGON - PORTLANDPENNSYLVANIA - HARRISBURGPENNSYLVANIA - PHILADELPHIAPENNSYLVANIA - SCRANTONRHODE ISLAND - SIOUX FALLSSOUTH DAKOTA - SIOUX FALLSUTAH - SALT LAKE CITYVERMONT - BURLINGTONWASHINGTON - SEATTLEWEST VIRGINIA - CHARLESTONWISCONSIN - GREEN BAYWYOMING - CHEYENNE
35.640.837.342.545.739.735.839.635.541.744.033.046.240.037.226.343.931.138.834.033.042.445.037.234.542.826.639.747.441.244.537.738.830.638.429.446.944.830.334.2
TABLE 1 - FUEL FACTOR
TYPE OF FUEL FUEL FACTOR
OILGASELECTRIC
144,000 BTU/GAL800 BTU/FT3
3415 BTU/KWH
TABLE 2 - SEASONAL HEATING EFFICIENCY
TYPE OF FUEL EFFICIENCY
OILGASELECTRIC
.65
.701.00
TABLE 3 - HEAT LOSS FACTOR
ROOFCONSTRUCTION
UNINSULATEDFACTOR
SLAB 4” ROOFING*WOOD 2” ROOFING*METAL ROOFING*METAL ROOFING
.11
.10
.13
.16
2” INSULATEDFACTOR
.23
.22
.40
.90
BTUHr. ft.2 F˚( )
TABLE 4 - ROOF PITCH FACTOR
PITCH PITCH FACTOR
FLAT2:124:126:12
1.001.011.051.12
NOTES: ASHRAE guide states that the verticaltemperature gradient (heat rise) can be assumed to be0.75 ˚F per foot of plant height when the differencebetween indoor and outdoor temperature is 75˚F.
Certain types of heating systems, as well as variousbuilding size and will result in significantly greater
ceiling-to-floor temperature differentials.
This formula does not take into account the additionalheat gain generated from industrial processingequipment, which could alter the ceiling air temperaturedrastically.
15
The Anatomy Of A
LEADING EDGEIndustrial Ceiling Fan.Fan Shown Actual Size (Model 6000-1)
Engineered specificallyfor commercial andindustrial applications.Unsurpassed for performance,efficiency and reliability.
E130778
DOWNROD ASSEMBLY - 24” Length, heavy duty,13/16” O.D. steel pipe.
ROD BOLTS - (Hi-tensile/special shank) 1 1/2” length hex nut/split pin locking assembly.
YOKE - 1/8” specially formedplated steel, shockabsorbing.
HOUSING - Deep drawn, abundant airspacefor heat dissipation.
CEILING FAN - Suitable for use with solidsate speed controls.
BLADE SCREWS - Extra long cadmiumplated hex screws.
HEAVY DUTY BLADEMOUNTING BRACKET - Custom formed hi-tensilesteel 3 point suspension.
BLADES - Hi-performance aerodynamically contoured blade design.
FINISH - Corrosion resistantwhite epoxy enamel, electrostaticallyapplied epoxy powder primer.
COIL - 18 Pole electronicallywound, enameled copper wire, vacuum -impregnated with synthetic varnish.
ROTOR - High grade electricalstacked laminations,precision balanced toinsure wobble-freeoperations.
BEARINGS - Heavy duty, permanently sealed andgreased chrome steel ball bearingsfor maintenance-free performance.
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“SECONDARYSUPPORT CABLE”6’ Length of heavy-duty7x7 1/8” galvanizedcable with rated breaking strength of1700 lbs. Pre-installeddirectly to permanentmotor shaft for maximum protectionand easy installation.CSA (CanadianStandards Association)listed (Standard C22.2Sept. 1986).
Unsurpassed Features of Leading EdgeCommercial/industrial Coiling Fans.
• Engineered specifically for commercial and industrial applications.• Energy-efficient, totally enclosed motors, the largest and most powerful available. • Aerodynamically contoured heavy-duty blade design provides maximum area
coverage, will not warp in high temperatures.• The highest rated area coverage per fan model.• Perfectly balanced motor and blades for wobble-free performance.• Blade sets weight matched to within 2 grams tolerance.• Thermal-overload protection, (Texas Instruments) built-in, self-resetting, a new U.L.
requirement for fans using solid state motor speed controls.• Permanently sealed and greased bearings for maintenance-free whisper quiet
operation.• Corrosion resistant, durable epoxy enamel paint finish over electrostatically applied
powdered primer base.• Dual purpose, designed for both heat reclamation and warm weather cooling.
CAPACITOR - Non polar weatherproofencapsulated extra heavyduty 9.5 MFD. (Contains noP.C.B. materials).
SEAL - Neoprene rod seal.
WIRING - 18 AWG “3 conductor”motor leads.
THERMALPROTECTOR - Texas Instruments 9700,resets automatically. AU.L. requirement on allfans using solid statemotor speed controls.
HEAVY DUTYUPPER SHACKLE - Rubber bushed for “floating suspension”locknut and pin for safety.
OUTER RING - Chrome plated(ABS plastic).
BLADES - Aerodynamically contouredblade design for greaterair delivery.
J-HOOKS - Heavy duty “J” hook for wooden beams and“J” bolt (3/8” thread for steel beams) 6”length are included with each fan.
STATOR - High grade electrical steellaminations, extreme close tolerance eliminates air space between plates, varnish dipped.
SLOT INSULATION - Mylar (Polyester).SHAFT -
Cold-drawn, steelrod bar 11/16”
Provides Superior Air Velocity and Efficiency, The IdealSchool Classroom Fans (Models 48” and 56”).
4820-3/ 48” - 5600-3/ 56” 3-Speed Pull ChainFor spot cooling in areas where wall switches are not desired. Also designed for production areas where single unit designation operation is required.
17
LEADING EDGE HEAVY DUTY COMMERCIALAND SPECIAL APPLICATION CEILING FAN DATA
5,645,403
U.L. 507 states ceiling fanssuspended from 7 feet toless than 10 feet (bladeheight to floor) must haveminimum thickness of edgeof blade 3/16”.
Suitable for low ceiling applications
U.L. 507 listed.
HEAVY DUTY COMMERCIAL MODELSMODELNUMBER
3620-14820-15600-1LC
*3-Speed Pull Chain
AREA COVERAGEPER FAN††
MAX CFM†RPM
FULL LOADWATTS
FULL LOADAMPSCYCLEVOLTSCOLOR
BLADESWEEP WEIGHT
36”48”56”
WHTWHTWHT
50/6050/6050/60
120120120
.65
.851.0
7586110
395315265
12,50021,00025,500
1600 sq.ft.2025 sq.ft.3025 sq.ft.
20 lbs22 lbs24 lbs
SPECIAL APPLICATION MODELS4820-1B4820-3*5600-3*
48”48”56”
BLACKWHTWHT
50/6050/6050/60
120120120
.85
.851.0
8686110
315315265
21,00021,00025,500
2025 sq.ft.2025 sq.ft.3025 sq.ft.
22 lbs23 lbs26 lbs
Suitable for low
ceiling applications.
U.L. 507 listed.
4820-1/ 48” Commercial FanDesigned for commercial facilities such as school classrooms, offices,retail stores, restaurants. Provides maximum area coverage for both sum-mer cooling and winter heat destratification.
5600-1LC/ 56” Commercial / School Classroom FanDesigned for spacious areas with low ceilings where larger blade diame-ter span creates maximum air velocity and area coverage at lowerRPM’s. Engineered specifically for continuous commercial use with thesame manufacturing criteria as our heavy duty industrial line. Ideally suit-ed for classrooms.
3620-1/ 36” Commercial FanDesigned for smaller areas, where minimal ventilation is required. Ideally suitedfor isolated areas and as a supplemental cooling fan.
Suitable for low
ceiling applications.
U.L. 507 listed.
18
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
Figure 6
DOCUMENTEDAREA COVERAGE/AIR VELOCITY TEST DATA
ON MODEL 3620-1 FAN AT VARIOUSBLADE MOUNTING HEIGHTS.
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
Figure 7
DOCUMENTEDAREA COVERAGE/AIR VELOCITY TEST DATA
ON MODEL 4820-1 AND 4820-3 FAN AT VARIOUS BLADE MOUNTING HEIGHTS.
7 FT
10 FT
20 FT
7 FT10 FT
20 FT
19
Figure 9
DOCUMENTED
AREA COVERAGE/AIR VELOCITY TEST DATA ONMODELS 5600-1LC, AND 5600-3 FANS ATVARIOUS BLADE MOUNTING HEIGHTS.
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
Figure 9A*
DOCUMENTED
AREA COVERAGE/AIR VELOCITY TEST DATA ON MODEL 6010-1 FAN AT
VARIOUS MOUNTING HEIGHTS.
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
Figure 9A*
DOCUMENTED
AREA COVERAGE/AIR VELOCITY TESTDATA ON MODEL5610-1 FAN ATVARIOUS MOUNTING HEIGHTS.
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
*For further data on these two models refer to page 27
7 FT
10 FT
20 FT
7 FT
10 FT
20 FT
30 FT
40 FT
10 FT
20 FT
30 FT
40 FT
45 FT
20
3000
2500
2000
1500
1000
500
4000
3500
4500
5000
AREA COVERAGE SUMMARY BY FAN HEIGHT
MOU
NTIN
G HE
IGHT
S
3620-1 / 36” 120V
4820-1 / 4820-3 / 48” 120V
5600-3 / 5600-1LC / 5610-1 / 56” 120V
3620-1 / 36” 120V
4820-1 / 4820-3 / 48” 120V
5600-3 / 5600-1LC / 5610-1 / 56” 120V
3620-1 / 36” 120V
4820-1 / 4820-3 / 48” 120V
5600-3 / 5600-1LC / 5610-1 / 56” 120V
7’1”
10’
20’
TOTAL SQUARE FOOT AREA COVERAGE
0Figure 10
HEAVY DUTY COMMERCIAL MODELS
HEAVY DUTY COMMERCIAL MODELSTOTAL AREA COVERAGE TABLE
BLADE HEIGHTFROM FLOOR
5600-1LC5600-35610-1
4820-14820-33620-1
COVERAGE IN SQUARE FEET
20’
7’1”
10’
1600 Ft.2
40’ x 40’3025 Ft.2
55’ x 55’2025 Ft.2
45’ x 45’
2300 Ft.2
48’ x 48’1600 Ft.2
40’ x 40’1225 Ft.2
35’ x 35’
1600 Ft.2
40’ x 40’1225 Ft.2
35’ x 35’900 Ft.2
30’ x 30’
Figure 11 NOTE: Above area coverage calculations are for heat destratification.
21
LEADING EDGE HEAVY DUTYINDUSTRIAL CEILING FAN DATA
Maximum Area Coverage at LowestTotal Installed Cost.
5630-1RDP/56” ReversibleThe dual pitch blade (Patented), is the onlyblade designed for maximum reverse direction air flow.Ideally suited for exhausting, condensationremoval and prevention, reverse destratification and other draft free applications.For industrial applications with mountingheights of 10’ or higher.
**Reversible, includes toggle switch
HEAVY DUTY INDUSTRIAL MODELS
5600-15601-15600-25600-75630-1RDP**6000-16001-1
56”56”56”56”56”60”60”
WHTBRNWHTWHTWHT WHTBRN
50/6050/6050/6050/6050/60 50/6050/60
120120220277120120120
1.01.0.52.601.01.41.4
110110110110110160160
275275260260275315315
27,50027,50026,00026,00027,50046,00046,000
3800 sq.ft.3800 sq.ft.3800 sq.ft.3800 sq.ft.3800 sq.ft.5000 sq.ft.5000 sq.ft.
24 lbs24 lbs24 lbs24 lbs24 lbs30 lbs30 lbs
MODELNUMBER
AREA COVERAGEPER FAN††
MAX CFM†RPM
FULL LOADWATTS
FULL LOADAMPSCYCLEVOLTSCOLOR
BLADESWEEP WEIGHT
5600-1 / 5601-1 / 5600-2 / 5600-7 / 56” Industrial FansEngineered and designed for spacious applications wheremaximum area coverage is required.
Designed for both winter heat destratification and summertimecooling.
For general applications for above average area coverage andcooling velocity. Ideally suited for factories, gymnasiums, highbay storage facilities.
Powerful, heavy-duty motor for mounting heights to 45 feet.
6000-1 / 6001-1 / 60”This is the world’s most powerful ceiling fan. It’s massive contoured blade design and high RPM efficiency creates thelargest square foot area coverage and cooling effectiveness available.Capable of heat destratification to heights of 75’ or more.
5,575,624
22
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
Figure 12
DOCUMENTED
AREA COVERAGE/AIR VELOCITY TEST DATA ONMODELS 5600-1, 5630-1RDP, 5600-2 AND 5600-7FANS AT VARIOUS BLADE MOUNTING HEIGHTS.
Figure 13
500
450
400
150
100
200
50
250
300
350
0
0 4035252015105 30 45 50
DISTANCE FROM FAN CENTER (FT)
AIR
VELO
CITY
(FT/
MIN
)
DOCUMENTED
AREA COVERAGE/AIR VELOCITY TEST DATAON MODEL 6000-1 FAN AT VARIOUS
BLADE MOUNTING HEIGHTS.
500
10 FT
20 FT
30 FT
40 FT
45 FT
25 FT10 FT
30 FT
40 FT
45 FT
23
AREA COVERAGE SUMMARY BY FAN HEIGHTHEAVY DUTY INDUSTRIAL MODELS
5600-1 / 5630-1RDP / 56” 120V5600-2 / 5600-7 / 56” 220/277V
6000-1 / 6010-1 / 60” 120V
5600-1 / 5630-1RDP / 56” 120V5600-2 / 5600-7 / 56” 220/277V
6000-1 / 6010-1 / 60” 120V
5600-1 / 5630-1RDP / 56” 120V5600-2 / 5600-7 / 56” 220/277V
6000-1 / 6010-1 / 60” 120V
5600-1 / 5630-1RDP / 56” 120V5600-2 / 5600-7 / 56” 220/277V
6000-1 / 6010-1 / 60” 120V
3000
2500
2000
1500
1000
500
4000
3500
4500
5000
MOU
NTIN
G HE
IGHT
S
20’
30’
40’
TOTAL SQUARE FOOT AREA COVERAGE
0Figure 16
45’
HEAVY DUTY INDUSTRIAL MODELSTOTAL AREA COVERAGE TABLE
BLADE HEIGHTFROM FLOOR
6000-16010-1
5600-1, 5600-25600-7
5630-1RDP
COVERAGE IN SQUARE FEET
45’
30’
40’
1225 Ft.2
35’ x 35’2900 Ft.2
54’ x 54’
3600 Ft.2
60’ x 60’1800 Ft.2
42’ x 42’
4000 Ft.2
63’ x 63’3025 Ft.2
55’ x 55’
Figure 17 NOTE: Above area coverage calculations are for heat destratification.
20’ 5000 Ft.2
71’ x 71’3800 Ft.2
62’ x 62’
24
5,575,624
Finally a fan that provides identical air flow volume,in either forward or reverse rotation. The dual pitch blade (Patented), is the only bladedesigned for maximum reverse direction air flow.Ideally suited for exhausting, condensation removaland prevention, reverse destratification and otherdraft free applications.For industrial applications with mounting heights of10’ or higher.
5630-1RDP/56”Reversible
MODEL: 5630-1RDP (Reversible)**120 VOLT 50/60 Hz
BLADE SWEEP: 56” Max. CFM: 27,500***AMPS WATTS RPM
HIGH SPEED: 1.0 110 275LOW SPEED:* .56 45 125
* Low speed ratings are with optional motor speed controls (See page 32).
** Special application fan.*** Effective amount of air volume moved past a
plane 20 ft. from fan, industry test.All specifications subject to change and improvement.NOTE: 50Hz current produces approximately 5 percent loss of RPM/velocity.
NEW INDUSTRIAL REVERSIBLE FAN WITH EXCLUSIVEPATENTED HIGH PERFORMANCE “DUAL PITCH” BLADE
25
HARSH ENVIRONMENT CEILING FANS
Listed
PATENTED SPRAYPROOF AND CORROSION RESISTANT INDUSTRIAL MODELS
This line is built using the same proven motors as our heavy-duty industrial fans. All motors are specially modified with ourunique sprayproof construction. (Patented)
FEATURES
• Rust and corrosion prevention
• Condensation control
• Curing purposes
• Smog and fume control
• Heat destratification
• Summer cooling
• Moisture control in food processing plants and bottling facilities
Designed and Engineered Specifically for:Agricultural Applications
Poultry HousesHog ShedsDairy Barns
Green HousesNurseriesStables
Commercial/IndustrialApplications
Food Processing PlantsWet Factory Locations
Indoor Swimming Pool AreasExposed Shipping Areas
Outdoor RestaurantsOutdoor Shopping Malls
This unique line (Patented) was also designed for any industrial areahaving a high content of dirt, dust, contaminates and where steam ispresent in its atmosphere. These areas include mills, foundries,rubber processing facilities, metal grinding areas, abrasives, etc...
UL 507 states Ceiling Fans suspended from 7 feet toless than 10 feet (blade height to floor) must haveminimum thickness of edge of blade 3/16”
SPECIFICATION & PERFORMANCE DETAILS
Varnish dipped motor
Lower boot spraydeflector (Neoprene) Contoured blade design for maximum
airdelivery, weight balanced for wobble-free performance.
Secondary supportcable (Standard Feature)
Moisture tightcord connector
Pre-wired with 18”long #18/SJT cordand molded plugDownrod canopy
environmental seal(Neoprene)
Corrosion resistantplastic upper andlower canopies
*Rolled edge blades
Totally enclosedmotor with thermaloverload protection
Motor and blades have corrosion resistant “Oxyplast”epoxy powder paint electrostatically applied.“Ipcokote” epoxy paint on finish coat.
*The only fan U.L. listed for low ceiling installation.
Neoprene sealed ball bearings,upper and lower
Outer motor ring environmentalseal (Neoprene)
Condensation breather plug
Sealed inner wall construction CAUTION: Note these fans are not approved or classified for explosiveatmospheres and must not beused in such areas.
MODELNUMBER AMPSCYCLEVOLTAGESWEEPCOLOR WATTS MAX CFMRPM
AREA COVERAGE
5610-1
6010-1
WHT
60” 1.4/0.75
1.0/0.56
120 50/60
50/6012056”
WHT
265/110 25,500 See Table
280/120 41,000 See Table160/70
110/36
Also available in Reversible Model (see page 22).NOTE: Outdoor application installation requires optional installation kit for outdoor location.NOTE: 50Hz current produces approximately 5 percent loss of RPM velocity.
BLADE HEIGHTFROM FLOOR
40’
5610-1 6010-1
30’
20’
10’
7’
1800 Ft.2
42’ x 42’2800 Ft.2
53’ x 53’3025 Ft.2
55’ x 55’2300 Ft.2
48’ x 48’1600 Ft.2
40’ x 40’
3600 Ft.2
60’ x 60’4000 Ft.2
63’ x 63’5000 Ft.2
71’ x 71’3800 Ft.2
62’ x 62’
N.T.
COVERAGE IN SQUARE FEET
TOTAL AREA COVERAGE
For documented Air Coverage/Air Velocity flowcharts for these models refer to page 20, figure 9A.
NOTE: Pre-assembled with 12” downrod
Shipped pre-assembledand ready to hang.Simply attachthe blades.
U.S. Patent Numbers4,592,702 & 5,135,365
Suitable for low ceiling applications
U.L. 507 listed.
• Refer to the various flow charts and bar graphs inthis guide to determine the fan best suited foryour building area and ceiling height.
• Compute the total area of your building. Multiplylength times width for total square foot area.Prepare a diagram as per Figure 19.
• Refer to the summary tables for squared areacoverage. Determine the placement and exactquantity of fans required.
• Start your placement from the corner of onesection of the building. Example: (Figure 19)model 5600-1 at 20 ft. blade mounting height hasa 62 ft. x 62 ft. area coverage. The initialplacement would be 30 ft. in from the rear walland 30 ft. in from the side wall. The second fanwould be 60 ft. on center from the first, etc...
• This placement process may vary depending onceiling beam locations, racks, machinery anddensity of workers. It is permissible to move a fanlocation within 5 ft. of the recommendedplacement to accommodate these factors.
• Do not mount fans above racks but rather in theaisles.
• To help prevent cold air infiltration, place fans inthe general proximity of frequently used freightdoors.
• Place fans above any heat producing equipmentto recapture heat.
• Narrow buildings may require additional planningand selection based upon ceiling height.
• Certain commercial models have both 24 inchrods and additional 8 inch rods for low ceilingapplication. Never mount on a rod less than 8inches from the ceiling or the intake side of thefan will starve for air.
• All industrial fans are supplied with 24 inch rodswhich may be shortened, (optional longer rodsavailable). Harsh Environment fans have 12”pre-assembled rods.
• Industrial models must be mounted withminimum blade height 10 ft. from the floorCertain commercial models may be mounted withminimum blade height of 7 ft. from the floor.
26
FAN PLACEMENT CALCULATION
30’60’
60’
180’
240’
Figure 19
EXAMPLE BUILDING240’ x 180’ = 43,200 square feet
22 ft. clearance height ceiling to floor.
30’60’
60’
180’
240’
Figure 20
EXAMPLE WIRING DIAGRAM240’ x 180’ = 43,200 square feet
43,200 ft. ÷ 3800 ft. per fan = 12 (5600-1) ceiling fanscontrolled by (3) 6 amp. controls
(C) #10 365’
(B) #12 305’
(A) #12 245’
Panel Total 3 Controls
27
MOTOR SPEED CONTROLSSOLID STATE
with oversized, insulated tab triacs rated at 400volts (the highest rated in the industry) as an extrasafety factor These overrated triacs give extraprotection to surges in the electrical lines whichoccur more frequently in industrial environmentsthan in residential use. Larger triacs will add to thelongevity of any solid state motor speed control.
Additional features of Leading Edge motor speed controls are:
• Dial-on/off switch allows high-to-low variable speedcontrol above factory-set “anti-stall” level of 50 va.c.
• Dial-on/off switch provides most reliable variablespeed control.
• Superior (static-free). RFI -suppression circuitryutilizes a toroid choke with solid copper wire coil.
• Field-adjustable trim control feature allows user to setdesired “anti stall” or minimum speed level.
Note: For factory control recommendations andquantity of fans, see control summary Page 32.
NOTE - When Solid State motor speed controls areused a humming noise is present in all ceiling Fans. Thishum in no way effects the operation of the fan and isacceptable in most industrial applications. Whereabsolute quiet is necessary, see your distributor foroptional noiseless mechanical controls.
NOISELESS SPEED CONTROLSFOR QUIET AREAS
Our exclusive line of noiseless controls is designedspecifically for Leading Edge fans.
Both controls use capacitor value engineering,which avoids the “solid state” humming noisenoticeable on low speeds in “quiet areas”
Both fan controls are for use only with models4820-1, 5600-1 and other 56” Leading Edgemodels in 120 volt.
Model 120033 Amps
Model 120088 Amps
Model 1201212 Amps
Model 12001N1 Amps
For single Fan
Model 12005N5 Amps
For Two Fans
All Leading Edge brand infinite motor speedcontrols were engineered and developedspecifically for our own commercial/industrialceiling fans, based upon our experience inthousands of installations. Our U.L. listed controlswere designed to accommodate the heavy-dutycriteria of industrial applications. We don’t believein using modified light dimmers to controlindustrial ceiling fans.
As an example, we replaced the old style 3 Amp.cardboard backed, rangehood type control with animproved model. Our new 3 Amp. control (model12003) features a finished metal strap mount, 8Amp. rated triacs and a hard plastic backing toprotect the components and circuit boardconstruction.Our new larger multi-fan controls are constructed
28
SPECIFICATIONS:• Totally enclosed, 52” and 62” diameters.• Safety cable attachment 3/32”, 7X7 galvanized air-
craft cable 920lbs breaking strength.• Twelve spoke cross bar construction 5ga. (.207)
radial, 5ga. (.207) on 3” centers.• Heavy duty two piece mounting brace. 16ga. (.062).
COMPARE THESE FEATURES:• Totally enclosed for maximum fan protection.• Mounts directly to fan rod.• Custom design prevents air-flow interruptions.• Ships knocked down, packed one per carton, UPS
shippable.• Exclusive “secondary support” cable meets all
proposed safety regulations for overhead air movement equipment.
SPECIFICATIONS:
• Pre-installed directly to permanent motor shaft for maximum protection and easy installation.
• 6’ length of heavy-duty 7 x 71/8” galvanized cable.• Rated breaking strength of 1700lbs.• Galvanized U-bolt wire clips (2) included for
attachment to beam structure for extra strength and security.
• CSA (Canadian Standards Association) listed (Standard C22.2 Sept 1986).
Leading Edge fans are specifically designed for easy and secureinstallation. Our exclusive safety cable feature conforms toproposed regulations for secondary support.
IMPACT RESISTANT FAN GUARD
“SECONDARY SUPPORT” CABLEThis new “Secondary Support” cable complies with existing CSA(Canadian Standards Association) requirements and all other otherproposed safety regulations for overhead air movement equipment.
EXCLUSIVE SHAFT CONNECTIONBy attaching directly from the beam tothe permanent motor shaft this“Secondary Support” cable protectsagainst any possible failure or improperinstallation of the fan J hook, upperyoke assembly, rod, lower yokeassembly and related hardware.
ACCESSORIES & MISCELLANEOUS ITEMSMODEL NUMBER ITEM
2800-12800-29999-49999-09999-2
• FAN GUARD 62” DIAMETER FOR INDUSTRIAL 56” AND 60” FANSFAN GUARD 52” DIAMETER FOR COMMERCIAL 36” AND 48” FAN ONLYTILTED CANOPY COVERDOWNRODS - 8”, 12”, 24”, 30”, 36”, 48” (FOR LONGER SIZES - CONSULT FACTORY)OUTDOOR LOCATION INSTALLATION KIT
• Use only with heavy-duty industrial models Fan Guards ship via UPS
OPTIONAL SOLID STATE MOTOR SPEED CONTROLS
MODELNUMBER
12003120061200812012220032200822012
277032770827712
Custom models available. Consult with factory for information and specifications.
CONTROLS36”/1203620-1UNITS
37
1012
AMPS368
1238
12
38
12
VOLTS120120120120220220220
277277277
CONTROLS48”/1204820-1UNITS
256
10
CONTROLS56”/1205600-1
5600-1LC5630-1RDP
5610-1UNITS
256
10
CONTROLS56”
220/2775600-25600-7UNITS
268
268
CONTROLS60”/1206000-16010-1UNITS
1348
NOISELESS MECHANICAL CONTROL12001N12005N
15
120120
12
12
3 YEAR WARRANTY REGISTRATION AGAINST MANUFACTURERS DEFECTS IS INCLUDED WITH EACH FAN.† Effective amount of air volume moved past a plane 20ft. from fan, industry test. All specifications subject to change and improvement.†† Area coverage rated for heat destratification at 20’ blade mounting height.
For use with 48”and 56” models only.
HEAVY DUTY COMMERCIAL MODELSMODELNUMBER
3620-14820-15600-1LCCPF5656HRCF
*3-Speed Pull Chain **Reversible, includes toggle switch ***Requires installation kit for outdoor locations
MAX CFM†RPM
FULL LOADWATTS
FULL LOADAMPSCYCLEVOLTSCOLOR
BLADESWEEP
36”48”56”56”56”
WHTWHTWHTWHTWHT
50/6050/6050/6050/6050/60
120120120120120
.65
.851.01.00.8
758611011096
395315265265330
12,50021,00025,50024,40019,800
1600 sq.ft.2025 sq.ft.3025 sq.ft.3025 sq.ft.3025 sq.ft.
20 lbs22 lbs24 lbs24 lbs24 lbs
SPECIAL APPLICATION MODELS4820-1B4820-3*5600-1B5600-3*5630-1RDP**
48”48”56”56”56”
BLACKWHTBLACKWHTWHT
50/6050/6050/6050/6050/60
120120120120120
.85
.851.01.01.0
8686110110110
315315275265275
21,00021,00027,50025,50027,500
2025 sq.ft.2025 sq.ft.3800 sq.ft.3025 sq.ft.3800 sq.ft.
22 lbs23 lbs24 lbs26 lbs24 lbs
HARSH ENVIRONMENT MODELS***5610-16010-1
56”60”
WHTWHT
50/6050/60
120120
1.06.4
110160
265280
25,50041,000
3025 sq.ft.5000 sq.ft.
24 lbs30 lbs
HEAVY DUTY INDUSTRIAL MODELS5600-15601-12600-25600-76000-16001-1
56”56”56”56”60”60”
WHTBRNWHTWHTWHTBRN
50/6050/6050/6050/6050/6050/60
120120220277120120
1.01.0.52.601.41.4
110110110110160160
275275260260315315
27,50027,50026,00026,00046,00046,000
3800 sq.ft.3800 sq.ft.3800 sq.ft.3800 sq.ft.5000 sq.ft.5000 sq.ft.
24 lbs24 lbs24 lbs24 lbs30 lbs30 lbs
29
CEILING FAN SUBMITTAL SHEET
AREA COVERAGEPER FAN†† WEIGHT
NOTE: All measurements are calculatedfrom ceiling or beam line with “J” hookmounted securely in center of 11/2” deepconduit box and downrod supplied onrubber roller (See illustration).
TYPICAL SPECIFICATIONS
Ceiling Fans to be furnished as specified, Leading Edge. Fans to be U.L. listed Standard 507 with matchingU.L. listed solid state controls. All motors to be direct-drive permanent split capacitor type, withpermanently sealed ball bearings. All motors to have built in, self-resetting (internal) thermal overloadprotector TI9700.
Fan Model________________, Blade Diameter (sweep)_____________, Primary Voltage___________, motor to be totally enclosed, Full Speed Watts to be_____________, RPM to be___________, CFM to be ______________, and Area Coverage per Fan to be_____________Sq. Ft. Performance shall be certifiedby AMCA, an independent test laboratory or a University Engineering department with documented testing.
All fans to have factory installed Secondary Support Cable Assembly connected to motor shaft, withminimum 6 feet galvanized cable 1/8” 7x7 with rated breaking strength of 1700 lbs. and must comply withCSA std. C22.2 Sept. 1986.
Fan blades to be straight with contoured shaped design for maximum efficiency. Note: Fans installed withblade height less than 10’ from floor must have rolled edge blades minimum 3/8” thick in compliance withU.L. 507.
Fans to be labeled in accordance with U.L. 507 “Mounted blade height to floor of 7 feet acceptable”.
Fans used with motor speed controls must be labeled in accordance with U.L. 507 “Suitable for use withsolid state motor speed controls”.
Factory supplied accessories to include:
A) Solid state motor speed controls (U.L. listed)B) Special length downrodsC) Totally enclosed impact resistant fan guardD) Tilted canopy cover
NOTE: All measurements are calculated from ceilingor beam line with “J” hook mounted securely incenter of 11/2” deep conduit box and downrod supplied on rubber roller (See illustration).
CEILING FAN DIMENSIONS*MODELS SUPPLIED WITH
24” DOWNROD
MODEL SERIES A DCB
MODELS SUPPLIED WITH12” DOWNROD
3620-1***4820-1***4820-3***5600-1LC***5600-3***5630-1RDP5600-1**6000-1
5610-16010-1
36”48”48”56”56”56”56”60”
331/2”331/2”351/2”331/2”351/2”331/2”331/2”34”
19”19”19”19”19”19”19”19”
301/2”301/2”301/2”301/2”301/2”301/2”301/2”303/4”
56”60”
213/4”22”
181/2”181/2”
51/2”53/4”
* Allow for 1/2” variance in “J” hook depth.** Identical measurements for 220 volt and 277 volt models.
*** Note for models supplied with shorter 8” downrod subtract 13” from measurement scale “C”.
30
LEADING EDGE COMMERCIAL/INDUSTRIAL CEILING FAN SPECIFICATIONS
*For complete listing contact factory.
LEADING EDGE...Founded during the energy crisis of the 70’s, Leading Edge pioneered the concept of heat destratification bydeveloping the market’s largest, most powerful line of industrial ceiling fans. We have grown to become therecognized specialist in three key commercial and industrial product categories:
Ceiling FansAs the world’s largest commercial/industrial ceiling fan manufacturer, we offer the most comprehensive model line-up in all-world voltages. We have the only fans withexclusive documented area coverageperformance data. Our unique blade andmotor designs have earned us severalUnited States Patents.
Environmental-Air-CurtainsWe offer one of the most extensive model line-ups in the industry, catering to seven separate market requirements. Our patented product design has been rated #1 in air velocity uniformity by Independent Test Laboratories-proof of our industry leadership position.
Air CirculatorsRecognized for premium quality and high performance, Leading Edge air circulators provide outstanding air delivery and durability when used for cooling and ventilating large areas such as factories, warehouses, gymnasiums and public facilities.
By concentrating on these three niche products, we have grown to become a leading supplier of specialized ventilation products. Our reputation for high-quality, extensive model offerings and comprehensive product knowledge has earned us worldwide prominence and distribution. More thantwo-thirds of America’s Fortune 500* companies use and specify Leading Edge products. We valuethis acceptance which has allowed us to continue increasing our product line to meet your needs inthe next decade.
Additional products available from Leading Edge
470 Beauty Spot Road EastBennettsville, SC 29512Phone: (843) 479-4006
Form Number: ZDA-LEFTG
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AIRCIRCULATORS
ELECTRICHEATERS
AIR CURTAINS