bell-house mounted arrangement highly flexible k coupling · 2019. 3. 4. · k couplings for...
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Bell-house mounted arrangementHighly flexible K Coupling
Advantages and benefits
+ Shifts resonance frequencies into non-critical speed ranges
+ Ensures a high degree of operational durability
+ Standardized components ensure an optimal cost/bene fit ratio
+ High torque capacity
voith.com
2
For bell-house mounted arrangements, we offer different designs of blind assembly couplings. They can be distinguished by the way the blind assembly capability is implemented:
• Positive engagement between an inner and outer ring by means of pins
• Positive engagement by means of splined hub and shaft
Bell-house mounted arrangement
K Couplings for bell-house mounted arrangements are the only coupling type providing a blind assembly connection. They are specially designed for applications where the driven machine is directly flanged onto the engine flywheel housing. The assembly is done directly when driver and driven machine are bolted together.
The K Coupling shifts resonance frequencies below idle speed and dampens torsional vibrations and shock loads. As a result, operational stability and thus productivity of your system or vehicle increase. Typical applications are rail vehicles, construction machinery and gensets. Depending on the size, up to 1 300 000 Nm can be safely transferred.
3
Product range highly flexible blind assembly couplings
Designation Type of coupling Bearing type Frictional damping
Connection Notes
BR 362 Single element blind assembly coupling
– yes Engine flywheel – splined shaft
BR 364 Single element blind assembly coupling
– yes Engine flywheel – splined shaft
BR 366 Twin element blind assembly coupling
– no Engine flywheel – splined shaft
BR 368 Twin element blind assembly coupling
– yes Engine flywheel – splined shaft
BR 371 Twin element blind assembly coupling
Antifriction bearing
no Engine flywheel – generator solid shaft
for single-bearing generators
BR 372 Single element blind assembly coupling
Antifriction bearing
yes Engine flywheel – generator solid shaft
for single-bearing generators, short installed length
Positive engagement between an inner and outer ring by means of pins Series 366
Positive engagement by means of splined hub and shaft Series 362
4
Series 362 Series 364 Series 368
Size Shore hardness
shA [°]
Nominal torque
TKN [Nm]
Maximumtorque
TKmax [Nm]
Admissible continuous alt. torque
TKW [Nm]
Dynamic torsional rigidity
CTdyn [Nm/rad]
Admissiblepower loss
PKV [W]
Relative damping
ψ
K 005
N 45N 50N 60N 70
180200220240
540600660720
65707585
9501 4002 1004 100
90 1.6
K 010
N 45N 50N 60N 70
260300330360
780900990
1 080
90105115125
1 3002 0003 0006 200
110 1.6
K 015
N 45N 50N 60N 70
350390430480
1 0501 1701 2901 440
120135150170
1 7002 6004 0008 100
130 1.6
K 020
N 45N 50N 60N 70
450510570620
1 3501 5301 7101 860
160180200215
2 1003 6005 000
10 600
150 1.6
K 025
N 45N 50N 60N 70
590660730810
1 7701 9802 1902 430
180200220245
2 8004 6006 800
13 600
170 1.6
K 030
N 45N 50N 60N 70
750840930
1030
2 2502 5202 7903 090
225250280310
3 6006 0008 800
17 950
200 1.6
K 035
N 45N 50N 60N 70
960109012101330
2 8803 2703 6303 990
290325365400
4 6007 600
11 70022 600
230 1.6
K 040
N 45N 50N 60N 70
1 2401 4001 5501 710
3 7204 2004 6505 130
370420465515
6 0009 800
15 00029 100
260 1.6
K 045
N 45N 50N 60N 70
1 6801 8902 1002 310
5 0405 6706 3006 930
420470525580
8 50013 30020 40039 500
310 1.6
Dynamische Drehsteifigkeit bei 20°C Zulässige Temperatur an der Naturkautschukoberfläche von -40 bis +90°C
Coupling parameters Single standard elastomer element, preloaded, with frictional damping
5
Size Shore hardness
shA [°]
Nominal torque
TKN [Nm]
Maximumtorque
TKmax [Nm]
Admissible continuous alt. torque
TKW [Nm]
Dynamic torsional rigidity
CTdyn [Nm/rad]
Admissiblepower loss
PKV [W]
Relative damping
ψ
K 050
N 45N 50N 60N 70
2 1702 4402 7102 990
6 5107 3208 1308 970
540610680750
10 50017 10026 00050 000
350 1.6
K 055
N 45N 50N 60N 70
2 9903 3603 7304 110
8 97010 08011 19012 330
750840935
1 030
14 60023 60036 40070 500
420 1.6
K 060
N 45N 50N 60N 70
4 4004 9505 5006 050
13 20014 85016 50018 150
1 1001 2401 3751 515
21 40034 70053 000
103 400
510 1.6
K 065
N 45N 50N 60N 70
6 3007 1007 9008 700
18 90021 30023 70026 100
1 2601 4201 5801 740
31 00050 00077 000
149 500
630 1.6
K 070
N 45N 50N 60N 70
9 10010 20011 40012 500
27 30030 60034 20037 500
1 8202 0402 2802 500
44 30071 500
110 000213 400
760 1.6
K 075
N 45N 50N 60N 70
12 40014 00015 50017 100
37 20042 00046 50051 300
2 4802 8003 1003 420
61 00098 000
151 000290 000
900 1.6
K 080
N 45N 50N 60N 70
16 90019 00021 10023 200
50 70057 00063 30069 600
3 3803 8004 2204 640
82 300133 000205 000397 000
1 060 1.6
K 085
N 45N 50N 60N 70
23 90026 90029 90032 900
71 70080 70089 70098 700
4 7805 3805 9806 580
117 000188 000290 000562 000
1 280 1.6
K 090
N 45N 50N 60N 70
35 70041 20045 40049 000
98 200113 300124 800134 700
6 6607 5008 3209 160
216 000360 000525 600
1 080 000
1 530 1.6
K 095
N 50N 60N 70N 45
48 50054 60060 60066 700
145 500163 000181 000200 100
9 70010 92012 12013 340
245 000400 000600 000
1 200 000
– 1.6
K 100
N 50N 60N 70N 45
64 40072 40080 50088 500
193 200217 000240 000265 500
12 88014 48016 10017 700
320 000520 000790 000
1 550 000
– 1.6
K 105
N 50N 60N 70N 45
80 00090 000
100 000110 000
240 000270 000300 000330 000
16 00018 00020 00022 000
430 000690 000
1 100 0002 100 000
– 1.6
K 110
N 50N 60N 70N 45
105 000118 000131 000144 200
315 000354 000390 000432 600
21 00023 60026 20028 840
620 0001000 0001 500 0003 000 000
– 1.6
K 115
N 50N 60N 70N 45
130 000146 100162 300178 500
390 000438 000487 000535 500
26 00029 22032 46035 700
830 0001 323 0002 000 0004 000 000
– 1.6
K 120
N 45N 50N 60N 70
161 100181 000201 300221 500
483 300542 000604 000664 500
32 22036 24040 26044 300
1 100 0001 764 0002 700 0005 300 000
– 1.6
Dynamische Drehsteifigkeit bei 20°C Zulässige Temperatur an der Naturkautschukoberfläche von -40 bis +90°C
6
Series 366 Series 371 Series 372
Size Shore hardness
shA [°]
Nominal torque
TKN [Nm]
Maximumtorque
TKmax [Nm]
Admissible continuous alt. torque
TKW [Nm]
Dynamic torsional rigidity
CTdyn [Nm/rad]
Axial spring rigidity
Cax [N/mm]
Radial spring rigidity
Crad [N/mm]
Admissiblepower loss
PKV [W]
Relative damping
ψ
K 005
N 45N 50N 60N 70
360400440480
1 0801 2001 3201 440
130140150170
1 9002 8004 2008 200
2 2003 0003 6006 000
700900
1 3002 500
100
0.750.750.951.15
K 010
N 45N 50N 60N 70
520600660720
1 5601 8001 9802 160
180210230250
2 6004 0006 000
12 400
2 6003 4004 0006 800
8001 0001 4002 800
130
0.750.750.951.15
K 015
N 45N 50N 60N 70
700780860960
2 1002 3402 5802 880
240270300340
3 4005 2008 000
16 200
3 0003 8004 4007 800
9001 1001 6003 100
150
0.750.750.951.15
K 020
N 45N 50N 60N 70
9001 0201 1401 240
2 7003 0603 4203 720
320360400430
4 2007 200
10 00021 200
3 4004 4005 0008 800
1 0001 2001 7003 400
170
0.750.750.951.15
K 025
N 45N 50N 60N 70
1 1801 3201 4601 620
3 5403 9604 3804 860
360400440490
5 6009 200
13 60027 200
3 8005 0005 800
10 000
1 1001 3001 9003 600
200
0.750.750.951.15
K 030
N 45N 50N 60N 70
1 5001 6801 8602 060
4 5005 0405 5806 180
450500560620
7 20012 00017 60035 900
4 2005 8006 600
11 200
1 3001 5002 1004 200
220
0.750.750.951.15
K 035
N 45N 50N 60N 70
1 9202 1802 4202 660
5 7606 5407 2607 980
580650730800
9 20015 20023 40045 200
4 8006 6007 600
12 600
1 5001 7002 5004 800
250
0.750.750.951.15
K 040
N 45N 50N 60N 70
2 4802 8003 1003 420
7 4408 4009 300
10 260
740840930
1030
12 00019 60030 00058 200
5 4007 0008 800
14 000
1 6001 9002 800
5 300
290
0.750.750.951.15
K 045
N 45N 50N 60N 70
3 3603 7804 2004 620
10 08011 34012 60013 860
840940
1 0501 160
17 00026 60040 80079 000
6 0008 000
10 00016 000
1 8002 1003 0005 900
340
0.750.750.951.15
Dynamische Drehsteifigkeit bei 20°C Zulässige Temperatur an der Naturkautschukoberfläche von -40 bis +90°C
Coupling parameters Twin standard elastomer elements in parallel, preloaded, without friction damping
7
Size Shore hardness
shA [°]
Nominal torque
TKN [Nm]
Maximumtorque
TKmax [Nm]
Admissible continuous alt. torque
TKW [Nm]
Dynamic torsional rigidity
CTdyn [Nm/rad]
Axial spring rigidity
Cax [N/mm]
Radial spring rigidity
Crad [N/mm]
Admissiblepower loss
PKV [W]
Relative damping
ψ
K 050
N 45N 50N 60N 70
4 3404 8805 4205 980
13 02014 64016 26017 940
1 0801 2201 3601 500
21 00034 20052 000
100 000
6 6009 000
11 20018 000
2 0002 3003 3006 400
390
0.750.750.951.15
K 055
N 45N 50N 60N 70
5 9806 7207 4608 220
17 94020 16022 38024 660
1 5001 6801 8702 060
29 20047 20072 800
141 000
7 40010 00012 50020 000
2 2002 6003 8007 300
460
0.750.750.951.15
K 060
N 45N 50N 60N 70
8 8009 900
11 00012 100
26 40029 70033 00036 300
2 2002 4802 7503 030
42 80069 400
106 000206 800
8 20011 00013 80022 000
2 6003 0004 4008 400
570
0.750.750.951.15
K 065
N 45N 50N 60N 70
12 60014 20015 80017 400
37 80042 60047 40052 200
2 5202 8403 1603 480
62 000100 000154 000299 000
9 60013 00016 00026 000
2 9003 4004 9009 500
690
0.750.750.951.15
K 070
N 45N 50N 60N 70
18 20020 40022 80025 000
54 60061 20068 40075 000
3 6404 0804 5605 000
88 600143 000220 000426 800
11 00015 00018 80030 000
3 3003 9005 700
10 900
840
0.750.750.951.15
K 075
N 45N 50N 60N 70
24 80028 00031 00034 200
74 40084 00093 000
102 600
4 9605 6006 2006 840
122 000196 000302 000580 000
12 50017 00021 60034 000
3 8004 4006 400
12 300
980
0.750.750.951.15
K 080
N 45N 50N 60N 70
33 80038 00042 20046 400
101 400114 000126 600139 200
6 7607 6008 4409 280
164 600266 000410 000794 000
14 00019 00024 50038 000
4 3005 0007 300
14 000
1 160
0.750.750.951.15
K 085
N 45N 50N 60N 70
47 80053 80059 80065 800
143 400161 400179 400197 400
9 56010 76011 96013 160
234 000376 000580 000
1 124 000
16 00021 00027 00042 000
5 0005 8008 400
16 400
1 390
0.750.750.951.15
K 090
N 45N 50N 60N 70
71 40082 40090 80098 000
196 400226 600249 600269 400
13 32015 00016 64018 320
432 000720 000
1 051 2002 160 000
19 80026 40032 45050 600
6 3807 4809 790
20 900
1 660
0.750.750.951.15
K 095
N 45N 50N 60N 70
97 000109 200121 200133 400
291 000326 000362 000400 200
19 40021 84024 24026 680
490 000800 000
1 200 0002 400 000
– – –
0.750.750.951.15
K 100
N 45N 50N 60N 70
128 800144 800161 000177 000
386 400434 000480 000531 000
25 76028 96032 20035 400
640 0001 040 0001 580 0003 100 000
– – –
0.750.750.951.15
K 105
N 45N 50N 60N 70
160 000180 000200 000220 000
480 000540 000600 000660 000
32 00036 00040 00044 000
860 0001 380 0002 200 0004 200 000
– – –
0.750.750.951.15
K 110
N 45N 50N 60N 70
210 000236 000262 000288 400
630 000708 000780 000865 200
42 00047 20052 40057 680
1 240 0002 000 0003 000 0006 000 000
– – –
0.750.750.951.15
K 115
N 45N 50N 60N 70
260 000292 200324 600357 000
780 000876 000974 000
1 071 000
52 00058 44064 92071 400
1 660 0002 646 0004 000 0008 000 000
– – –
0.750.750.951.15
K 120
N 45N 50N 60N 70
322 200362 000402 600443 000
966 6001 084 0001 208 0001 329 000
64 44072 48080 52088 600
2 200 0003 528 0005 400 000
10 600 000
– – –
0.750.750.951.15
Dynamische Drehsteifigkeit bei 20°C Zulässige Temperatur an der Naturkautschukoberfläche von -40 bis +90°C
8
LE
P
K
øX
øZ
øFøD
øY h
oles
T
Size Flywheel Flywheel connecting dimensions Hub dimensions Mass Mass moments of inertia
SAE J620 Xg7 Y±0,2 Z T K Dmax F P LE m [kg]Primary side
JA [kgm2]Secondary side
JI [kgm2]
K 0056.57.5
215.9241.3
200.0222.3
99
68
88
45 59 45 555.35.9
0.0230.030
0.002
K 0107.5
8241.3263.5
222.3244.5
911
86
88
55 69 55 657.27.7
0.0360.045
0.004
K 0157.5
8241.3263.5
222.3244.5
911
86
810
55 69 55 617.37.8
0.0400.048
0.006
K 0208
10263.5314.3
244.5295.3
1111
68
1010
65 84 65 7910.211.3
0.0680.095
0.009
K 02510
11.5314.3352.4
295.3333.4
1111
88
1010
65 84 65 7313.815.3
0.1220.165
0.013
K 03010
11.514
314.3352.4466.7
295.3333.4438.2
111114
888
111112
85 110 80 8717.018.725.9
0.1310.1770.466
0.027
K 03511.5
14352.4466.7
333.4438.2
1114
88
1212
85 110 80 8924.430.4
0.2460.521
0.033
K 04011.5
14352.4466.7
333.4438.2
1114
88
1412
105 132 100 10727.132.2
0.2620.530
0.060
K 045 14 466.7 438.2 14 8 12 101 130 100 108 36.9 0.590 0.087
K 050 14 466.7 438.2 14 8 12 135 170 130 147 54.1 0.800 0.169
K 055 14 466.7 438.2 14 8 30 150 188 150 166 75.1 1.40 0.285
K 0601618
517.5571.5
489.0542.9
1418
86
4242
170 212 170 181100112
2.243.16
0.461
K 0651821
571.5673.1
542.9641.4
1818
612
4522
195 244 190 201143163
3.555.38
0.970
K 0702124
673.1733.4
641.4692.2
1820
1212
4033
220 274 210 228215230
7.827.95
1.68
K 075 24 733.4 692.2 20 12 39 245 305 230 245 296 12.5 2.81
K 080 – 798.0 762.0 24 12 24 275 342 250 280 394 20.2 4.58
Dimensions in mmMass and mass moment of inertia are based on the use of steelAluminum is available on requestSizes bigger K 080 are available on request; splined hub (øD) according to DIN/ANSI or on request
Dimensions Series 362
9
LE
P
LK
U
øX
øZ
øF øAøD
øY h
oles
T
Size Flywheel Flywheel connecting dimensions
Hub dimensions Mass Mass moments of inertia
SAE J620 Xg7 Y±0,2 Z T K Dmax F P A U L LE m [kg]Primary side
JA[kgm2]Secondary side
JI[kgm2]
K 0056.57.5
215.9241.3
200.0222.3
99
68
1010
38 59 56 176 4.0 37.2 565.76.4
0.0260.035
0.0020.002
K 0107.5
8241.3263.5
222.3244.5
911
86
1010
46 69 68 196 4.0 39.7 687.58.1
0.0400.051
0.0040.004
K 0158
10241.3263.5
244.5295.3
911
68
1212
46 69 68 210 4.0 42.8 689.4
11.50.0650.110
0.0060.006
K 02010
11.5263.5314.3
295.3333.4
1111
88
1212
56 84 82 240 5.3 46.4 8213.915.7
0.1300.182
0.0100.010
K 02510
11.5314.3352.4
295.3333.4
1111
88
1313
56 84 82 254 5.3 48.7 8215.517.5
0.1530.209
0.0140.014
K 03011.5
14352.4466.7
333.4438.2
1114
88
1414
73 110 112 282 5.3 55.7 11222.530.5
0.2510.594
0.0310.031
K 03511.5
14352.4466.7
333.4438.2
1114
88
1515
73 110 112 302 5.3 58.0 11224.833.4
0.3020.670
0.0370.037
K 0401416
466.7517.5
438.2489.0
1114
88
1616
88 132 135 334 6.4 63.7 13541.346.2
0.7761.070
0.0710.071
K 0451416
466.7517.5
438.2489.0
1414
88
1717
88 130 135 358 6.4 68.2 13544.950.1
0.8781.19
0.0980.098
K 0501416
466.7517.5
438.2489.0
1414
88
1818
114 170 180 402 7.5 77.5 18061.166.6
1.131.47
0.2110.211
K 0551618
517.5571.5
489.0542.9
1418
86
2020
126 188 195 447 8.8 86.1 19584.491.6
1.972.50
0.3490.349
K 0601821
571.5673.1
542.9641.4
1818
612
2222
142 212 218 497 8.8 97.2 218115132
2.243.16
0.6480.648
K 0652124
673.1733.4
641.4692.2
1820
1212
2424
164 244 255 565 10.0 108.5 255178190
3.555.38
1.221.22
K 070 24 733.4 692.2 20 12 28 184 274 285 631 11.5 120.7 285 242 10.96 2.14
K 075 – 753.0 720.0 22 12 32 204 305 315 687 11.5 135.5 315 306 14.76 3.60
K 080 – 835.0 799.0 24 12 36 227 342 352 763 12.5 149.2 352 416 24.63 6.02
Dimensions in mmMass and mass moment of inertia are based on the use of steelAluminum is available on requestSizes bigger K 080 are available on request; splined hub (øD) according to DIN/ANSI or on request
Dimensions Series 364
10
LLE
P
K
U
øX
øZ
øF øAøDøY h
oles
T
Size Flywheel Flywheel connecting dimensions
Hub dimensions Mass Mass moments of inertia
SAE J620 Xg7 Y±0,2 Z T K DH7 F P A U L LE m [kg]Primary side
JA[kgm2]
Secondary side
JI[kgm2]
K 0056.57.5
215.9241.3
200.0222.3
99
68
1010
38 65 56 176 4.0 53.2 567.48.1
0.0300.039
0.0030.003
K 0107.5
8241.3263.5
222.3244.5
911
86
1010
46 74 68 196 4.0 58.0 689.7
10.40.0500.061
0.0080.008
K 0158
10263.5314.3
244.5295.3
1111
68
1212
46 74 68 210 4.0 64.2 6812.714.9
0.0840.129
0.0120.012
K 02010
11.5314.3352.4
295.3333.4
1111
88
1212
56 89 82 240 5.3 69.2 8217.919.7
0.1560.208
0.0160.016
K 02510
11.5314.3352.4
295.3333.4
1111
88
1313
56 89 82 254 5.3 73.8 8220.622.6
0.1920.248
0.0240.024
K 03011.5
14352.4466.7
333.4438.2
1114
88
1414
74 115 112 282 5.3 83.4 11228.636.6
0.3060.650
0.0500.050
K 03511.5
14352.4466.7
333.4438.2
1114
88
1515
74 115 112 302 5.3 88.0 11233.041.6
0.3970.765
0.0620.062
K 0401416
466.7517.5
438.2489.0
1414
88
1616
88 138 135 334 6.4 97.2 13552.157.0
0.9131.21
0.1140.114
K 0451416
466.7517.5
438.2489.0
1414
88
1717
88 138 135 358 6.4 104.0 13559.464.6
1.101.41
0.1680.168
K 0501416
466.7517.5
438.2489.0
1414
88
1818
114 176 180 402 7.5 118.2 18080.285.7
1.501.83
0.3200.320
K 0551618
517.5571.5
489.0542.9
1418
86
2020
126 195 195 447 8.8 133.0 195110118
2.573.11
0.5320.532
K 0601821
571.5673.1
542.9641.4
1818
612
2222
142 220 218 497 8.8 148.8 218149166
4.145.80
0.9920.992
K 0652124
673.1733.4
641.4692.2
1820
1212
2424
164 252 255 565 10.0 167.0 255213225
8.5510.10
1.621.62
K 070 24 733.4 692.2 20 12 28 184 280 285 631 11.5 187.0 285 311 14.23 3.18
K 075 – 753.0 720.0 22 12 32 205 312 315 687 11.5 208.0 315 390 19.16 5.36
K 080 – 835.0 799.0 24 12 36 228 348 352 763 12.5 231.0 352 530 32.26 8.91
Dimensions in mmMass and mass moment of inertia are based on the use of steelAluminum is available on requestSizes bigger K 080 are available on request; splined hub (øD) according to DIN/ANSI or on request
Dimensions Series 366
11
L
K
LE
P
øX
øZ
øD øF øA
øY h
oles
T
Size Flywheel Flywheel connecting dimensions Hub dimensions Mass Mass moments of inertia
SAE J620 Xg7 Y±0,2 Z T K DH7 F P A L LE m [kg]Primary side
JA[kgm2]
Secondary side
JI[kgm2]
K 070 21 673.15 641.4 17 12 110 140 216 200 584 205 197.4 278 2.844 13.34
Dimensions in mmMass and mass moment of inertia are based on the use of steelAluminum is available on requestSizes bigger K 070 are available on request; splined hub (øD) according to DIN/ANSI or on request
Dimensions Series 368
12
LLE
P
K
øX
øZ
øF øAøD
øY h
oles
T
Size Flywheel Flywheel connecting dimensions Hub dimensions Mass Mass moments of inertia
SAE J620 Xg7 Y±0,2 Z T K DH7 F P A L LE m [kg]Primary side
JA[kgm2]
Secondary side
JI[kgm2]
K 040 14 466.7 438.2 14 8 42.5 80 130 130 334 133.1 233.5 72.0 1.777 0.082
K 045 14 466.7 438.2 14 8 40.5 80 130 135 358 130.5 238.5 80.7 1.752 0.105
K 050 14 475.0 438.2 11 12 47.5 95 220 131 402 144.7 215.7 121.4 2.483 0.400
Dimensions in mmMass and mass moment of inertia are based on the use of steelAluminum is available on requestSizes bigger K 050 are available on request; splined hub (øD) according to DIN/ANSI or on request
Dimensions Series 371
13
L
E
K
øD
øZ1
øZ2
øAøCøX
øY h
oles
T1
øB h
oles
T2
Size Flywheel Flywheel connecting dimensions Hub dimensions Mass Mass moments of inertia
SAE J620 Xg7 Y±0,2 Z1 T1 K E CH7 B±0,2 Z2 T2 A L D m [kg]Primary side
JA[kgm2]
Secondary side
JI[kgm2]
K 080 21 673.1 641.35 17 26 35 23 300 350 25 18 763 195 825 480.0 35.021 4.667
Dimensions in mmMass and mass moment of inertia are based on the use of steelAluminum is available on requestSizes bigger K 080 are available on request; splined hub (øD) according to DIN/ANSI or on request
Dimensions Series 372
14
Maximum admissible speeds
Series BR 362 BR 364, 366, 368, 371, 372
Size Aluminum C 45 GGG 40 C 45 GGG 40
K 005 13 300 11 800 10 100 11 800 10 100
K 010 11 500 10400 8 900 10 400 8 900
K 015 10 500 9600 8 200 9 600 8 200
K 020 9 700 8 700 7 400 8 700 7 400
K 025 9 000 8 100 6 900 8 100 6 900
K 030 8 000 7 200 6 200 7 200 6 200
K 035 7 400 6 700 5 700 6 700 5 700
K 040 6 800 6 100 5 200 6 100 5 200
K 045 6 100 5 600 4 800 5 600 4 800
K 050 5 600 5 000 4 300 5 000 4 300
K 055 5 000 4 500 3 800 4 500 3 800
K 060 4 300 3 900 3 400 3 900 3 400
K 065 3 900 3 500 3 000 3 500 3 000
K 070 3 400 3 100 2 700 3 100 2 700
K 075 3 100 2 800 2 400 2 800 2 400
K 080 2 800 2 500 2 200 2 500 2 200
K 085 2 500 2 300 1 900 2 300 1 900
K 090 2 200 2 000 1 700 2 000 1 700
All speeds stated in rpmHigher speeds available on request with special designsSpeeds for sizes bigger K 090 available on request
15
Admissible shaft misalignments
Size Maximum admissible radial misalignment during load peaks
Continuous admissible radial misalignment r at 600 rpm
Continuous admissible axial misalignment
Continuous admissible angular misalignment at 600 rpm
[mm] [mm] [mm] [°]
K 005 1.5 1.0 0.9 1
K 010 1.5 1.2 1.0 1
K 015 1.7 1.3 1.2 1
K 020 3.0 1.4 1.4 1
K 025 3.5 1.5 1.5 1
K 030 4.0 1.6 1.7 1
K 035 4.0 1.7 1.8 1
K 040 4.0 1.8 2.0 1
K 045 4.0 2.0 2.1 1
K 050 5.0 2.2 2.3 1
K 055 5.0 2.4 2.8 1
K 060 5.0 2.7 3.1 1
K 065 5.0 3.0 3.5 1
K 070 5.0 3.5 3.9 1
K 075 6.0 3.6 4.3 1
K 080 6.0 4.0 4.8 1
K 085 6.0 4.4 5.3 1
K 090 7.0 4.8 6.0 1
The recommended alignment tolerances are 10 % of the stated admissible shaft misalignment.
Radial displacement of couplings:The admissible radial displacements for couplings can be stated only with reference to one determined speed since any radial displacement causes additional thermal stress. The continuous displacement is stated for 600 rpm; at higher speeds nx,
600radm = r · , nx : max. speed nx
VT2
383,
en,
201
9-03
, B
DI.
Dim
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Voith GroupSt. Poeltener Str. 4389522 Heidenheim, Germany
Contact:Phone +49 201 557-83 [email protected]/highflex