Post on 15-Mar-2016
description
TECHNOLOGYOF SUCCESS
KAN-therm Steel SYSTEM
ISO 9001 : 2000
Contents Page
KAN-therm Steel System - technical information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .73
KAN-therm Steel System - fitting assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .74
KAN-therm Steel System - tools . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .76
KAN-therm Steel System - detailed information . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77
KAN-therm Steel System - elongation and thermal conductivity data . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77
KAN-therm Steel System - recommendations . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .77
Screw connections and joining with other KAN-therm Systems . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .78
KAN-therm Steel System - pipeline assembly . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .78
KAN-therm Steel System - fixed (PS) and slidable (SP) points . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .79
KAN-therm Steel System - elongation compensation . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .79
KAN-therm Steel System - "L", "Z", and "U" compensator selection . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .80
KAN-therm Steel System - pressure drops . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .81
KAN-therm Steel System . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .85
KAN-therm System - tools for Steel and Inox . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . .113
This catalogue is valid from May 1st, 2008 and replaces all its previous editions.
KAN Sp. z o.o. reserves the right to change contents of this catalogue.
© Copyright KAN Sp. z o.o. All rights reserved. Copyrights include texts, pictures and their lay-out in KAN Sp. z o.o. publications.
KAN-therm Steel System is a system of carbon steel tubes and fittings of diameters 15 to 108 mm. The tubes and
fittings produced of high quality carbon steel covered with thin zinc layer which protects external surface agains corrosion.
KAN-therm Steel System - modern connection technology
"Press" technology used in KAN-therm Steel System enables to make fast and reliable connections by pressing
fittings using widely available press tools, and to eliminate twisting and welding of individual elements. The system permits a
very quick assembly even when using pipes and fittings of large diameters.
KAN-therm Steel System pipes and fittings are made of thin−walled steel, which significantly decreases weight of
individual elements and facilitates system assembly.
Connecting elements in "press" technology allows to obtain connections of minimized pipe section narrowing, which
significantly decreases waste of system pressure and creates excellent hydraulic conditions.
KAN-therm Steel System - long-lasting connection technology
Connection leak tightness in KAN-therm Steel System is provided by special O−Ring seals and a three−point "M" type
jaw.
KAN-therm Steel System - application possibilities
� heating "closed" systems,
� ice water systems.
KAN-therm Steel System - advantages
� quick and reliable system assembly without welding and twisting,
� wide range of pipe and fitting diameters up to 108 mm,
� wide range of working temperatures: from −20°C to 120°C,
� high pressure resistance up to 16 bar,
� compatible with plastic systems KAN-therm Press and Push,
� lightweight pipes and fittings,
� system high aesthetics,
� resistance to mechanical damage.
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21 KAN-therm Steel System - technical information
KAN-therm Steel System - fitting assembly
3. Marking the insertion depth of the pipe into the fittingIn order to obtain proper connection strength it is necessary
to keep the correct insertion depth of the pipe into the fitting
(it should be slid home). To make sure the pipe is properly
slid into the fitting during pressing, mark the required
insertion depth with a pen marker on the pipe or the fitting.
Also, there are special markers for marking the insertion
depth (no fitting check−in).
4. Control
Before assembly, check visually there is an O−Ring in the
fitting, whether it is not damaged, and whether there are no
file dust or any other sharp objects which can cause
damage to the O−Ring during assembly.
1. Pipe cutting
Pipes should be cut perpendicular to their axes using tube
cutter (full cut, with no breaking off nicked pipe segments).
Using other tools is permissible provided the cut is
perpendicular and cut edges are not damaged (no
breaking off, no material decrements or other deformations
of pipe section). Tools that emit a lot of heat, e.g. a torch, an
angle grinder, etc., cannot be used.
2. Pipe bevelingUsing a hand operated stripping tool, bevel outside and
inside the tip of the cut pipe, and remove all file dust that
can damage an O−Ring during assembly.
KAN-therm Steel System - technical information 21
- 74 -
5. Pipe and fitting assembly
Before making the connection, axially insert the pipe into the fitting to a marked depth. To make the assembly easier it is
possible to slightly twist the pipe in relation to the fitting. In the case of making many connections (inserting pipes into fittings
and pressing) it is very important to watch the pipe insertion depth. To do so watch previously made markings on pipes near
fitting edges.
To make the assembly easier it is imperative to keep minimum assembly distances presented in Table 2 and Pictures 2, 3, and 4.
*applies to four−part pressing jaws
Pic. 2 Pic. 3 Pic. 4
∅ [mm]Pic. 2 Pic. 3
a [mm] b [mm] a [mm] b [mm] c [mm]
15 56 20 75 25 28
18 60 20 75 25 28
22 65 25 80 31 35
28 75 25 80 31 35
35 75 30 80 31 44
42 140/115* 60/75* 140/115* 60/75* 75
54 140/120* 60/85* 140/120* 60/85* 85
76 140* 110* 165* 115* 115
88 150* 120* 185* 125* 125
108 170* 140* 200* 135* 135
Table 2. Minimum assembly distances
Pic. 1A. Pipe insertion depth into the fitting,
dmin − minimum distance between fittings because of
press correctness
Table 1. Pipe insertion depth into the fitting and minimum distance
between pressed fittings
*concerning the new design of fittings
∅[mm] A [mm] dmin [mm]15 20 10
18 20 10
22 21 10
28 23 10
35 26 10
42 30 20
54 35 20
76 52,5 / 55* 40
88 60 / 63* 50
108 74 / 77* 50
- 75 -
21 KAN-therm Steel System - technical information
6. Pressing
Before starting pressing check efficiency of tools.
It is recommended to use press tools and pressing jaws offered by KAN-therm System.
Always choose pressing jaw of appropriate size for the connection diameter.
Pressing jaw should be placed on the fitting so that its profile precisely clasps the place where an O−Ring is embedded in the
fitting (the convex part of the fitting).
When the press tool is started, the process of pressing is performed automatically and cannot be stopped. Because of forces
that appear during pressing, there are two types of press tools designed for pipes of diameter 15−54 mm and 76.1−108 mm.
In the case the plumber has different press tools and jaws than the ones offered by KAN-therm, he should consult their
possible use with KAN Company in advance.
KAN-therm Steel System - tools
Tools for diameters of 15 −54 mm. Tools for diameters of 76,1 −108 mm.
Pic. 5. A fitting before and after pressing
KAN-therm Steel System - technical information 21
- 76 -
KAN-therm Steel System - detailed information
Pipes and fittings - material
The carbon steel RSt 34−2 (1.0034 acc. DIN EN 10305−3), the tubes externaly zinc coated (Fe/Zn 88), zinc layer thickness
7−15 μm.
O-Rings
Fittings come with standard EPDM O-Rings.
For special uses Viton O-Rings are delivered separately.
KAN-therm Steel System - elongation and thermal conductivity data
KAN-therm Steel System - recommendations
� KAN-therm Steel − steel pipes cannot be bent when warm. Cold bending is permissible provided the minimum
bending radius is kept (R=3.5×dz).
� Do not expose pipe external surface to prolonged direct moisture during storage and use.
� Pipes over ∅54 mm should not be bent.
� Use ready−made pipe bends and 90° and 45° elbows offered by KAN-therm Steel System.
� It is not allowed to cut pipes using tools which emit a lot of heat, e.g. torches and cutting−off machines. To cut
KAN-therm Steel pipes use only tube cutters (hand operated and mechanical).
� Systems filled with water should not be emptied. In the case a system has to be emptied after a pressure test, it is advised
to perform pressure tests using compressed air.
� When KAN-therm Steel pipes are concealed in walls, pipes should be insulated because of thermal elongation
compensation and construction chemicals.
� In the case of transporting chemical substances the possible use of KAN-therm Steel pipes should be consulted
with KAN Technical Department.
� KAN-therm Steel System installations require potential equalization.
Material
Linear elongation coefficientElongation of 4 m segment
at 60°C Thermal conductivity
[mm/(m×K)][mm]
[W/(m2×K)]
Steel 0,012 2,88 58
O-Ring Properties and work parameters Application
EPDM (butyl rubber)
� color: black� max. working pressure: 16 bar� working temperature: −20°C to 110°C� short duration: 120°C
� potable water� hot water� treated water (softened, decalcified,
distilled, with glycol)� compressed air (dry)
FPM / Viton (fluorine rubber)
� color: green� max. working pressure: 16 bar� working temperature: −30°C to 180°C� short duration: 230°C
� solar systems� compressed air� fuel oil� vegetable fat� engine fuels
- 77 -
21 KAN-therm Steel System - technical information
Screw connections and joining with other KAN-therm Systems
Besides "press" fittings, KAN-therm Steel offers the whole range of male and female thread fittings. Because of steel
fitting conical threads, it is only possible to join KAN-therm Steel brass fitting male threads with KAN-thermSystem steel fitting female threads. Such connections should be sealed by small amounts of tow. PTFE (teflon) tape and
other leak stoppers that can release chlorides soluble in water should not be used. KAN-therm Steel System fittings
should not be directly connected with stainless steel − brass or bronze separating elements of minimum length of 50 mm
should be used.
KAN-therm Steel System - pipeline assembly
Maximum distances between attachment points are presented in Table 3.
Attachment points can be done as:
� slidable points SP − slidable points should enable free axial motion of the pipeline (caused by thermal motions), that is why
they shouldn’t be fixed next to the fittings (minimal distance from fitting flange must be higher than maximum elongated of
pipeline). The slidable point can be made as “unscrewed” metal clamps with rubber pads,
� fixed points FP − to make fixed point, the metal clamp with rubber pad should be used, it should enables precise and
reliability stabilization of the pipe on the whole circuit. The metal clump should be maximally tighten on the pipe,
� attachment points preventing the pipeline from moving downwards; used if the pipeline movement on compensation arm
length was blocked by required SP position.
Pipe diameter [mm] Distance between attachment points [m]
15 1,25
18 1,50
22 2,00
28 2,25
35 2,75
42 3,00
54 3,50
76,1 4,25
88,9 4,75
108 5,00
Table 3. Maximum distances between pipeline attachment points
Pic. 6. Correct screw connection.
KAN-therm Steel System - technical information 21
- 78 -
KAN-therm Steel System - fixed (PS) and slidable (SP) points
� fixed points should prevent any movement of pipelines and should be fixed next to fittings (at both sides of a fitting, e.g.
coupling, tee connection);
� fixed or slidable points cannot be fixed directly onto fittings;
� when fixing FPs near tee connections make sure that clamps blocking the pipeline are not fixed onto branches of smaller
diameters than one dimension in relation to the pipeline (forces induced by large diameter pipes can damage small
diameters);
� SPs enable only axial motion of the pipeline (they should be treated as fixed points for perpendicular direction to the pipeline
axis) and should be made by clamps;
� SPs should not be fixed next to fittings because this may block thermal motions of the pipeline;
� remember that SPs prevent the pipeline from moving transverse to its axis and that is why their position may determine
compensation arms length.
KAN-therm Steel System - elongation compensation
Along with water temperature rise Δt, pipelines become elongated by ΔL value. Thermal elongation ΔL causes pipeline
deformation on expansion compensation length A. Expansion compensation length A should not cause excessive stresses in
the pipeline and depends on the pipeline external diameter, thermal elongation (ΔL), and a linear expansion coefficient for a
given material. Elongations (ΔL) in function of pipe length (L) and temperature rise (Δt) are presented in Table 4.:
L [m]Δt [°C]
10 20 30 40 50 60 70 80 90 100
1 0,12 0,24 0,36 0,48 0,60 0,72 0,84 0,96 1,08 1,20
2 0,24 0,48 0,72 0,96 1,20 1,44 1,68 1,92 2,16 2,40
3 0,36 0,72 1,08 1,44 1,80 2,16 2,52 2,88 3,24 3,60
4 0,48 0,96 1,44 1,92 2,40 2,88 3,36 3,84 4,32 4,80
5 0,60 1,20 1,80 2,40 3,00 3,60 4,20 4,80 5,40 6,00
6 0,72 1,44 2,16 2,88 3,60 4,32 5,04 5,76 6,48 7,20
7 0,84 1,68 2,52 3,36 4,20 5,04 5,88 6,72 7,56 8,40
8 0,96 1,92 2,88 3,84 4,80 5,76 6,72 7,68 8,64 9,60
9 1,08 2,16 3,24 4,32 5,40 6,48 7,56 8,64 9,72 10,80
10 1,20 2,40 3,60 4,80 6,00 7,20 8,40 9,60 10,80 12,00
12 1,44 2,88 4,32 5,76 7,20 8,64 10,08 11,52 12,96 14,40
14 1,68 3,36 5,04 6,72 8,40 10,08 11,76 13,44 15,12 16,80
16 1,92 3,84 5,76 7,68 9,60 11,52 13,44 15,36 17,28 19,20
18 2,16 4,32 6,48 8,64 10,80 12,96 15,12 17,28 19,44 21,60
20 2,40 4,80 7,20 9,60 12,00 14,40 16,80 19,20 21,60 24,00
Table 4. Total length variation ΔL [mm] – KAN-therm Steel
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21 KAN-therm Steel System - technical information
KAN-therm Steel System - "L", "Z", and "U" compensator selection
Table 5. Required expansion compensation length A [mm] for KAN-therm Steel
Table 5 presents required expansion compensation length A for different thermal elongation values ΔL and pipe external
diameters (dz). Rules for selection of different types of compensators are given below.
"L" type compensator
For compensation arm A dimensioning, a substitute length Lz = L is taken, and for Lz length the thermal elongation value ΔL
is determined from Tab. 4. Next, the expansion compensation length A is determined on the basis of Tab. 5.
"Z" type compensator
For compensation arm A dimensioning, L1 and L2 sum is taken as a substitute length Lz = L1+L2, and for Lz length a
substitute DL is determined on the basis of Tab. 4. Next, the expansion compensation length A is determined on the basis of
Tab. 5.
A − expansion compensation length;
FP − fixed point (prevents the pipeline from moving);
L − pipeline initial length;
ΔL − pipeline thermal elongation.
A − expansion compensation length;
FP − fixed point (prevents the pipeline from moving);
L − pipeline initial length;
ΔL − pipeline thermal elongation.
Elongationvalues
ΔL [mm]
Pipe external diameters dz [mm]
15 18 22 28 35 42 54 76,1 88,9 108
Required expansion compensation length A [mm]
2 400 400 400 337 400 412 468 555 600 661
4 400 400 422 476 532 583 661 785 849 935
6 427 468 517 583 652 714 810 962 1039 1146
8 493 540 597 673 753 825 935 1110 1200 1323
10 551 604 667 753 842 922 1046 1241 1342 1479
12 604 661 731 825 922 1010 1146 1360 1470 1620
14 652 714 790 891 996 1091 1237 1469 1588 1750
16 697 764 844 952 1065 1167 1323 1570 1697 1871
18 739 810 895 1010 1129 1237 1403 1665 1800 1984
20 779 854 944 1065 1191 1304 1479 1756 1897 2091
22 817 895 990 1117 1249 1368 1551 1841 1990 2193
24 854 935 1034 1167 1304 1429 1620 1923 2079 2291
26 889 973 1076 1214 1357 1487 1686 2002 2163 2385
28 922 1010 1117 1260 1409 1543 1750 2077 2245 2475
30 955 1046 1156 1304 1458 1597 1811 2150 2324 2561
32 986 1080 1194 1347 1506 1650 1871 2221 2400 2645
34 1016 1113 1231 1388 1552 1700 1928 2289 2474 2727
KAN-therm Steel System - technical information 21
- 80 -
"U" type compensator
If a fixed point is placed within compensator width W, then for compensation arm A dimensioning, L1 and L2 bigger value is
taken as a substitute length Lz = max (L1, L2), and for Lz length a substitute ΔL is determined on the basis of Tab. 4. Next, the
expansion compensation length A is determined on the basis of Tab. 5.
Compensator width W = A/2.
KAN-therm Steel System - pressure drops
Coefficient of local pressure drops ζ for fluid flow through fittings are presented in Table 6.
Tables 7 and 8 present linear pressure drops R [Pa/m] caused by pipe wall friction, in function of flow rate Q [l/s] and flow
velocity [m/s] at temperatures of 20°C (Tab. 7) and 60°C (Tab. 8).
Table 9 presents linear pressure drops R [Pa/m] for water at a temperature of 80°C power Q at a temperature drop Δt 20°C,
or in a function of water flow mi [kg/s].
∅15 - 54 mm
Analytical direct method
ζ 1,5 m 0,7 m 0,5 m 0,5 m 0,4 m 0,9 m 1,3 m 1,5 m 3,0 m
Method of equivalent length
15 0,90 0,40 0,30 0,30 0,25 0,50 0,70 0,90 1,80
18 1,10 0,50 0,40 0,40 0,30 0,65 0,90 1,10 2,30
22 1,40 0,60 0,50 0,50 0,40 0,80 1,20 1,40 2,80
28 1,90 0,90 0,60 0,60 0,50 1,10 1,50 1,90 3,80
35 2,50 1,20 0,80 0,80 0,70 1,50 2,10 2,50 5,00
42 3,10 1,40 1,00 1,00 0,90 1,80 2,60 3,10 6,20
54 4,00 1,80 1,30 1,30 1,10 2,30 3,30 4,00 8,00
∅76,1 - 88,9 - 108 mm
Analytical direct method
ζ 1,3 m 0,6 m 0,4 m 0,5 m 0,1 m 1,0 m 1,3 m 1,5 m 3,0 m
Method of equivalent length
76,1 6,10 2,80 1,90 2,40 0,50 4,70 6,10 7,10 14,20
88,9 7,80 3,60 2,40 3,00 0,60 6,00 7,80 9,00 18,00
108 10,60 4,90 3,30 4,10 0,80 8,20 10,60 12,30 24,60
Tab. 6. Coefficient of local pressure drops ζ for fittings
A − expansion compensation length;
FP − fixed point (prevents the pipeline from moving);
L − pipeline initial length;
ΔL − pipeline thermal elongation.
W − U type compensator width
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21 KAN-therm Steel System - technical information
Table 7. Linear pressure drops R for water at a temperature of 20°C
KAN-therm Steel System - technical information 21
- 82 -
Table 8. Linear pressure drops R for water at a temperature of 60°C
- 83 -
21 KAN-therm Steel System - technical information
Table 9. Linear pressure drops R for water at a temperature of 80°C in a function of power Q transported at a temperature drop Δt 20°C or
in a function of water flow mi
KAN-therm Steel System - technical information 21
- 84 -
22 KAN-therm Steel System
size and directions in [mm] catalog net prices - no discount
*available after stock-out of the elements in last-performance - 85 -
KAN -therm press coupling
Size l z Pcs./packing Code Price €/pcs.
*
*
*
15×15 53 13 10/140 620136.018×18 53 13 10/140 620137.122×22 55 13 10/80 620138.228×28 59 13 10/60 620139.335×35 65 13 10/40 620140.442×42 76 16 4/24 620141.554×54 86 16 4/16 620142.676,1×76,1 140 30 2/0 620620076,1×76,1 142 38 2/0 620620.088,9×88,9 160 34 2/0 620621188,9×88,9 165 45 2/0 620621.1108×108 192 38 2/0 6206222108×108 195 44 2/0 620622.2
KAN -therm press nipple female connector
Size a z d Pcs./packing Code Price €/pcs.
15×Rp½ 51 36 15 10/200 620243.818×Rp½ 50 35 18 10/160 620244.918×Rp¾ 53 36,7 18 10/100 620245.122×Rp½ 50 35 22 10/70 620246.022×Rp¾ 53 36,7 22 10/100 620247.1
KAN -therm press female connector
Size l z Pcs./packing Code Price €/pcs.
15×Rp½ 41 6 10/130 620237.218×Rp½ 40 5 10/120 620238.318×Rp¾ 43 6,7 10/80 620239.422×Rp¾ 43 5,7 10/100 620240.528×Rp½ 38 2 10/60 620780.628×Rp1 49 7 10/60 620241.6
KAN -therm press male union connector (for VK radiators)
Size l z Pcs./packing Code Price €/pcs.
15×G¾ 38 18 10/100 620816.918×G¾ 38 18 10/100 620817.1
KAN -therm press male union connector
Size l z Pcs./packing Code Price €/pcs.
15×R½ 63,8 43,8 2/50 620719.022×R¾ 70 49 2/40 620720.128×R1 74,7 51,7 2/30 620721.235×R1¼ 81,8 55,8 2/20 620722.342×R1½ 88 58 2/16 620723.454×R2 100 65 2/10 620724.5
KAN -therm press male connector
Size l z Pcs./packing Code Price €/pcs.
15×R⅜ 35 15 10/200 620227.315×R½ 39 19 10/200 620228.418×R½ 39 19 10/160 620229.518×R¾ 40 20 10/100 620230.622×R¾ 44 23 10/100 620231.728×R1 48 25 10/60 620232.835×R1¼ 55 29 10/40 620233.942×R1½ 59 29 4/24 620234.154×R2 69 34 4/12 620235.0
KAN -therm press carbon steel tube, zinc coated
Size Pcs./packing Code Price €/m
15×1,2 bar 6m 620460.518×1,2 bar 6m 620461.622×1,5 bar 6m 620462.728×1,5 bar 6m 620463.835×1,5 bar 6m 620464.942×1,5 bar 6m 620465.154×1,5 bar 6m 620466.076,1×2 bar 6m 620480.388,9×2 bar 6m 620481.4108×2 bar 6m 620482.5
KAN -therm press nipple 45° elbow
Size l z h Pcs./packing Code Price €/pcs.
*
*
*
15×15 30,5 10,5 38,1 10/150 620177.818×18 32,1 12,1 38,5 10/120 620178.922×22 35,2 14,2 42,3 10/60 620179.128×28 40,1 17,1 45,6 10/40 620180.035×35 46,4 20,4 51,3 5/25 620181.142×42 56,1 26,1 62,6 4/16 620182.254×54 66,9 31,9 72,5 2/8 620183.376,1×76,1 96 41 117 2/0 620809276,1×76,1 99 46,5 115 2/0 620635.488,9×88,9 109 46 128 2/0 620810388,9×88,9 113 53 130 2/0 620636.5108×108 139 63 161 2/0 6208114108×108 139 65 160 2/0 620637.6
KAN -therm press 45° elbow
Size l z Pcs./packing Code Price €/pcs.
*
*
*
15×15 30,5 10,5 10/150 620170.118×18 32,1 12,1 10/120 620171.222×22 35,2 14,2 10/70 620172.328×28 40,1 17,1 10/40 620173.435×35 46,4 20,4 5/25 620174.542×42 56,1 26,1 2/16 620175.654×54 66,9 31,9 2/8 620176.776,1×76,1 96 41 4/0 620812576,1×76,1 99 46,5 4/0 620632.188,9×88,9 109 46 4/0 620813688,9×88,9 113 53 4/0 620633.2108×108 140 63 2/0 6208147108×108 139 65 2/0 620634.3
KAN -therm press nipple 90° elbow
Size l z h Pcs./packing Code Price €/pcs.
*
*
*
15×15 41 21 48,6 10/120 620163.518×18 45 25 51,4 10/80 620164.622×22 51 30 58,1 10/60 620165.728×28 60 37 65,5 10/30 620166.835×35 71 45 75,9 10/10 620167.942×42 86 56 92,5 2/8 620168.154×54 105 70 110,6 2/6 620169.076,1×76,1 151 96 167 4/0 620806176,1×76,1 152 99,5 167 2/0 620629.988,9×88,9 173 110 188 4/0 620807088,9×88,9 175 115 194 4/0 620630.1108×108 214 137 235 4/0 6208081108×108 213 139 235 4/0 620631.0
KAN -therm press 90° elbow
Size l z Pcs./packing Code Price €/pcs.
*
*
*
15×15 41 21 10/150 620155.818×18 45 25 10/90 620156.922×22 51 30 10/60 620157.128×28 60 37 10/30 620158.035×35 71 45 10/10 620159.142×42 86 56 2/16 620160.254×54 105 70 2/8 620161.376,1×76,1 151 96 2/0 620800476,1×76,1 152 99,5 2/0 620626.688,9×88,9 173 110 2/0 620804888,9×88,9 175 115 2/0 620627.7108×108 214 137 2/0 6208059108×108 213 139 2/0 620628.8
KAN -therm press long coupling
Size l z Pcs./packing Code Price €/pcs.
*
*
*
15×15 80 25 10/60 620144.818×18 80 25 10/60 620145.922×22 84 25 10/60 620146.128×28 91 30 10/40 620147.035×35 102 30 10/20 620148.142×42 120 40 4/16 620149.254×54 140 40 4/8 620150.376,1×76,1 230 60 2/0 620623376,1×76,1 230 60 2/0 620623.388,9×88,9 262 70 2/0 620624488,9×88,9 260 70 2/0 620624.4108×108 305 80 2/0 6206255108×108 310 80 2/0 620625.5
- 86 -size and directions in [mm] catalog net prices - no discount
*available after stock-out of the elements in last-performance
KAN-therm Steel System 22
size and directions in [mm] catalog net prices - no discount
*available after stock-out of the elements in last-performance - 87 -
22 KAN-therm Steel System
KAN -therm press nipple reducer
Size l z d1 d2 Pcs./packing Code Price €/pcs.
*
*
*
*
*
*
18×15 52 32 18 15 10/200 620213.022×15 58,4 38,4 22 15 10/140 620215.222×18 59 39 22 18 10/120 620216.328×15 64 44 28 15 10/70 620217.428×18 62,3 42,3 28 18 10/100 620218.528×22 63 42 28 22 10/80 620219.635×22 68 47 35 22 10/50 620220.735×28 69 46 35 28 10/60 620221.842×22 80 59 42 22 4/24 620665.142×28 79 56 42 28 5/30 620666.242×35 76 50 42 35 4/24 620222.954×22 89 68 54 22 4/16 620223.154×28 87 64 54 28 4/16 620224.054×35 89 63 54 35 10/30 620668.454×42 91 61 54 42 4/16 620225.176,1×42 151 121 76,1 42 2/0 620638776,1×42 153 124 76,1 42 2/0 620638.776,1×54 145 110 76,1 54 2/0 620639876,1×54 147 112 76,1 54 2/0 620639.888,9×54 157 122 88,9 54 2/0 620640988,9×54 163 128 88,9 54 2/0 620640.988,9×76,1 157 102 88,9 76,1 2/0 620641188,9×76,1 160 108 88,9 76,1 2/0 620641.1108×76,1 196 141 108 76,1 2/0 6206420108×76,1 184 132 108 76,1 2/0 620642.0108×88,9 192 129 108 88,9 2/0 6206431108×88,9 204 144 108 88,9 2/0 620643.1
KAN -therm press pipe crosss
Size l1 z1 l2 z2 h Pcs./packing Code Price €/pcs.
15×15×15×15 35 15 35 15 21 5/50 620288.918×15×18×15 36,5 16,5 35 15 22,5 5/50 620289.122×15×22×15 39,5 18,5 35 15 24,5 10/30 620290.022×18×22×18 39,5 18,5 36,5 16,5 26 10/30 620291.128×15×28×15 44,5 21,5 35 15 27,5 10/30 620713.528×18×28×18 44,5 21,5 36,5 16,5 29 10/30 620714.628×22×28×22 44,5 21,5 39,5 18,5 31 10/20 620715.7
KAN -therm press reducing tee
Size l1 z1 l2 z2 Pcs./packing Code Price €/pcs.
*
*
*
15×18×15 35 15 44 24 10/80 620277.915×22×15 35 15 47,5 26,5 10/60 620278.118×15×18 36,5 16,5 45,5 25,5 10/70 620258.118×22×18 36,5 16,5 47 26 10/70 620279.022×15×22 39,5 18,5 47,5 27,5 10/50 620260.322×18×22 39,5 18,5 47,5 27,5 10/50 620261.422×28×22 39,5 18,5 52 29 10/40 620280.128×15×28 44,5 21,5 50,5 30,5 10/30 620262.528×18×28 44,5 21,5 50,5 30,5 10/30 620263.628×22×28 44,5 21,5 51,5 30,5 10/30 620264.735×15×35 51 25 54 34 10/20 620265.835×18×35 51 25 54 34 10/20 620266.935×22×35 51 25 55 34 5/20 620267.135×28×35 51 25 57 34 10/20 620268.042×22×42 60 30 57,5 36,5 4/12 620269.142×28×42 60 30 59,5 36,5 4/12 620270.242×35×42 60 30 62,5 36,5 4/12 620271.354×22×54 71 36 63,5 42,5 2/8 620272.454×28×54 71 36 65,5 42,5 2/8 620273.554×35×54 71 36 68,5 42,5 2/8 620274.654×42×54 71 36 72,5 42,5 2/8 620275.776,1×54×76,1 115 60 84 46 2/0 620647576,1×54×76,1 115 53 120 85 2/0 620647.588,9×76,1×88,9 131 68 117 62 2/0 620648688,9×76,1×88,9 130 60 120 70 2/0 620648.6108×88,9×108 152 75 135 72 2/0 6206497108×88,9×108 155 76 153 93 2/0 620649.7
KAN -therm press tee
Size l1 z1 l2 z2 Pcs./packing Code Price €/pcs.
*
*
*
15×15×15 35 15 44 24 10/80 620249.318×18×18 36,5 16,5 45,5 25,5 10/70 620250.422×22×22 39,5 18,5 48,5 27,5 10/40 620251.528×28×28 44,5 21,5 53,5 30,5 10/30 620252.635×35×35 51 25 60 34 5/15 620253.742×42×42 60 30 66,5 36,5 4/8 620254.854×54×54 71 36 77,5 42,5 2/6 620255.976,1×76,1×76,1 115 60 121 66 2/0 620644276,1×76,1×76,1 115 63 120 68 2/0 620644.288,9×88,9×88,9 131 68 126 63 2/0 620645388,9×88,9×88,9 130,5 70 128 68 2/0 620645.3108×108×108 152 75 152 76 2/0 6206464108×108×108 155 79 153 77 2/0 620646.4
size and directions in [mm] catalog net prices - no discount
*available after stock-out of the elements in last-performance - 88 -
KAN-therm Steel System 22
KAN -therm bend 90°
Size h1 h1min h2 h2min Pcs./packing Code Price €/pcs.
15×15 70 58 120 58 10/80 620185.518×18 70 63 120 63 10/60 620186.622×22 72 70 120 70 10/40 620187.728×28 82 80 120 80 10/20 620188.835×35 120 100 200 100 4/8 620189.942×42 150 120 250 120 2/4 620190.154×54 200 145 300 145 2/2 620191.0
KAN -therm crossover
Size l a b Pcs./packing Code Price €/pcs.
15×15 54 155 31 10/80 620193.218×18 59,5 167 34 10/60 620194.322×22 64,5 177 37 10/50 620195.428×28 75 215 43 10/20 620196.5
KAN -therm press female tee
Size l1 z1 l2 z2 Pcs./packing Code Price €/pcs.
*
*
*
15×Rp½×15 35 15 36,5 21,5 10/80 620281.218×Rp½×18 36,5 16,5 37 22 10/50 620282.322×Rp½×22 39,5 18,5 39 24 10/50 620283.428×Rp½×28 44,5 21,5 42 27 10/30 620284.528×Rp¾×28 44,5 21,5 44 27,7 10/30 620718.135×Rp½×35 51 25 45,5 30,5 10/20 620285.635×Rp¾×35 51 25 47,5 31,2 10/20 620710.242×Rp½×42 60 30 48 33 4/16 620286.742×Rp¾×42 60 30 50 33,7 4/16 620711.354×Rp½×54 71 36 54 39 2/8 620287.854×Rp¾×54 71 36 56 39,7 2/8 620712.476,1×Rp¾×76,1 115 60 70 54 2/0 620650876,1×Rp¾×76,1 121 66 69 52,7 2/0 620650.888,9×Rp¾×88,9 131 68 76 59 1/0 620651988,9×Rp¾×88,9 127,5 63,5 76 59,7 1/0 620651.9108×Rp¾×108 152 75 86 70 1/0 6206521108×Rp¾×108 155 77 85 68,7 1/0 620652.1
KAN -therm press short male elbow 90°
Size l2 z l1 Pcs./packing Code Price €/pcs.
15×R⅜ 40 20 22 10/100 620207.515×R½ 41 21 28 10/100 620208.618×R½ 41,5 21,5 28 10/100 620209.722×R¾ 44,5 23,5 32 10/60 620210.8
KAN -therm press male elbow 90°
Size l2 z l1 Pcs./packing Code Price €/pcs.
15×R⅜ 44,5 21 41 10/150 620198.715×R½ 49,5 21 41 10/150 620199.818×R½ 54 25 45 10/100 620200.922×R¾ 61,5 30 51 10/60 620201.128×R1 73,5 37 60 10/30 620202.035×R1¼ 85,5 45 71 10/10 620203.142×R1½ 95,5 56 86 4/12 620204.254×R2 115,5 70 105 2/8 620205.3
size and directions in [mm] catalog net prices - no discount
*available after stock-out of the elements in last-performance - 89 -
22 KAN-therm Steel System
KAN -therm FPM Viton O-Ring
Size Pcs./packing Code Price €/pcs.
*******
15 20/600 480521.818 20/500 480522.922 20/500 480523.128 20/400 480524.035 20/400 480525.142 20/300 480526.254 20/300 480527.376,1 5/100 611937.788,9 5/100 611938.8108 5/50 611939.9
KAN -therm EPDM O-Ring
Size Pcs./packing Code Price €/pcs.
*******
15 20/600 611591.218 20/500 611592.322 20/500 611593.428 20/400 611594.535 20/400 611595.642 20/300 611596.754 20/300 611597.876,1 5/100 620801.588,9 5/100 620802.6108 5/50 620803.7
KAN -therm press flange
Size z d d2 h k b holes Pcs./packing Code Price €/pcs.
76,1 74 185 18 126 145 18 4 4/0 620659.688,9 83 200 18 143 160 20 8 2/0 620660.7108 92 220 18 168 180 20 8 2/0 620661.8
KAN -therm press plug
Size l z Pcs./packing Code Price €/pcs.
76,1 87 65 2/0 620656.388,9 96 72 4/0 620657.4108 125 97 4/0 620658.5
KAN -therm press cup
Size l z Pcs./packing Code Price €/pcs.
15 25,5 5,5 20/80 620295.518 26,3 6,3 20/300 620296.622 28,5 7,5 10/240 620297.728 32,3 9,3 10/130 620298.835 34,4 8,4 5/75 620299.942 43,2 13,2 4/48 620300.154 51,8 16,8 4/32 620301.076,1 71 16 4/0 620691588,9 82 19 4/0 6206926108 98 21 4/0 6206937
KAN -therm LBP EPDM O-Ring
Size Pcs./packing Code Price €/pcs.
15 20/600 622221618 20/500 622222722 20/500 622223828 20/400 622224935 20/400 622225142 20/300 622226054 20/300 6222271
KAN -therm LBP FPM Viton O-Ring
Size Pcs./packing Code Price €/pcs.
15 20/600 611940118 20/500 611941022 20/500 611942128 20/400 611943235 20/400 611944342 20/300 611945454 20/300 6119465