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Fixed Speed / Constant Fill Fluid Couplings FLUIDOMAT http://www.fluidomat.com
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Fixed Speed / Constant Fill Fluid Couplings
FLUIDOMAT
h t t p : / / w w w . f l u i d o m a t . c o m
FLUIDOMAT SM & HF
Shaft Mounted SM/SMD/SM-DX
These are shaft mounted coupling
enabling axially compact drive space.
Rubber coupling on one end.
Radially Displaceable HF /HFD /HF-DX
These are radially displaceable coupling enabling
prealignment of driving and driven shafts. Metallic
disc flexible coupling on both ends. Weight of
coupling shared by driving and driven shafts.
· To satisfy starting and running characteristics of industrial machines Fluidomat offer three circuit types to give starting torque
down to 120% of nominal torque.
· Type SM and HF are basic coupling without delayfil chamber. Starting torque adjustable in the range of 170% to 270%.
· Type SMD and HFD are couplings with delayfil chamber. Starting torque adjustable in the range of 140% to 270%.
· Type SM-DX and HF-DX are couplings with extended delayfil chamber. Starting torque adjustable in the range of 120% to 270%.
· Normal operating slip - 2% to 5% depending on coupling size and starting torque value.
· Fusible plug blow off temperature 130°C as standard. Optional 160°C.
· Suitable for two consecutive starts from hot and three from cold.
Fix
ed Sp
eed /
Consta
nt F
ill Flu
id C
ouplin
gs
1
STARTING TORQUE CHARACTERISTICS WITH & WITHOUT DELAYFIL CHAMBER
TIME0
TYPICAL VALUES
TIME
SM
100%
TORQUE TORQUE
SMD SM DX
RUNNINGSTARTINGSTAND STILL
FLUIDOMAT SM & HF
TYPE SM TYPE SMD TYPE SM-DX
Different Executions of Oil Circuit
without delayfil chamber with delayfil chamber with extended delayfil chamber
Oil Circuit and Oil Levels with Delayfil Chamber
FLUIDOMAT SM & HF
3
max.
Ød4
Ød5
l4
*
Coupling types SM/SMD/SM-DX are supplied in
finished bores on the fluid coupling shaft. However
where it is not possible to specify finished bores at
the time of ordering, we can provide a seperate shaft
bush with OD> Ød4 and * narrow keyway. The
allowable maximum bore in the shaft bush is denoted
by Ød5 shown in the dimension table.
12049 902621118 6
2000
1500
1250
850
620
348
198
134
91
68
52
1862150016 DC 900
11
16
15
14
13
12
10 B
10
9 B
9
1588547
1050
850
500
293
148
583
472
277
163
82
1400
1148
758
550
278
57
39
29
22
32
22
16
12
107
73
54
41
-- -
500
370
300
246
-374 475
-
-
1250
850
600
--
--
--
-1100
-750
253
172
129
98
373
275
228
172
18
11
Maximum ratings in KW at different input speeds RPM.
7
6
5
4
3
HF/HFD/HF-DXSM/SMD/SM-DX
COUPLING MODEL
8
5
4
2
1
4
3
2
1
-
15
9
7
4
2
730RPMRPM
600RPM900
22
85
60
42
15
RPM1800
34
22
179
5 9
63
62
40
30
15
10
RPM1200
RPM970
RPM1470
Rating Table for SM/SMD/SM-DX AND HF/HFD/HF-DX Couplings
18068 1253629168 B 9
180
140
120
160
160
Ø d3
Max.
CONNECTED FLEXIBLE COUPLING MODEL WISE
Pad Type Coupling
1319512010085 102 878,8B,9
9B,10 - - 125- 230150
15,16
14
Max.
Ø d1
3,4
5
6,7
SM-DXSMD-
SM-
Model External Hub
48
80
60
67
92
72
60
90
75
72
72
67
Internal Hub
l 1Ø d2
Max.L1
130
150
170
75
110
90 10B,11
12
l 2 L2 SM-DXSMD-
SM-
Model
179180
214
194
200
180
167
151140
155
L3l 3
1009B,10 120110
FLUIDOMAT SM & HF
VV
Reference face for flexible coupling.
SPIDER TYPE FFX
Internal Hub
Ød1 l 1
L1
VV
External Hub
Ød32l
Ød2
VVL2
l 3
VV
PAD TYPE FP
L3
FLEXIBLE COUPLING
Reference face for flexible coupling.VV
TYPE SMD
B
Ø A
VV
Ød44l
TYPE SM-DX
B
l
Ø A
VV
4
Ød4
TYPE SMØ
A
VV
B
4lØ
d4
Ø A
342
406
435
367
471
505
Technical Specification and Dimension Table for SM/SMD/SM-DX couplings
8
7
3
6
5
4
SM-
SM-DX
SMD-
Dry Wt. In Kgs.
83
71
59
44
34
27
SMD
With connected
Flexible Coupling
85
85
263
279
218
238
333
359
135
14057
57
77
66
max.
Ød4
42
65
70
50
213
215
220
239
158
190
213
160
247
280
310
249
SMDSM SM
-DX
80
110
120
9034
50
50
28
40
24
55
30
4
max.
Ød5
max.SM
9.8
8.3
85
73
5.6
4.9
3.8
2.8
61
45
35
28
SM
-DX
SM
B
l
BSW Up to model 10B and Sq. threads onwards.
Threads ConnectedMax. Oil Filling
10.8
8.8
1"
1" FFX-3
FFX-4
SMD SM-DX
7.1
5.4
4.2
3.2
In Liters
1"
3/4"
3/4"
1"
FFX-1
FFX-1
FFX-2
FFX-3
*
Withdrawl
Coupling
For
'M'
Model
Coupling
Flexible
8.8
10.8
584
714
751
845
960
644
1230
1330
1330
1104
16 DC
13
15
16
14
10
11
10 B
12
9
9 B
1250
920
730
480
1800
150
160
180
180
160
830- -
489
594
571
494
441
485
-
451
619
724
-
624
320- -
270
275
320
275-
-
-
-
850
682
440
-
-- 350.0
175.0
130.0
87.0
-
940
745
495
- 195.0
182.0
137.0
92.0
Ø75-16P -
Ø65-16P
Ø75-16P
Ø75-16P
Ø50-8P
FP-4B
FP-3
FP-4B
FP-4A
FP-1 / FFX-5
FP-1 / FFX-5
345
268
225
180
165
110
95
95
110
120
130
110
355
375
435
329
310
320
359
280
451
471
555
424
305
335270
255
430
385
190
200
240
170
-
95
80
80
254
170
310
210
160
15568
68 150
104
55.0
27.0
22.0
35.0
355
273
230
185
57.0
40.0
31.0
24.0
17.6
15.8
168
113
18.1
16.8
1 1/2"
Ø50-8P
1 1/2"
Ø50-8P FP-2B
FP-2A
FP-2A
1 1/4"
1 1/2"
FFX-4
350.0
137.0
182.0
195.0
92.0
24.0
31.0
40.0
57.0
16.8
18.1
3.2
4.2
5.4
7.1
5538 B 10295290250 380 15568 96 12.2105 13.2 1 1/4" FFX-413.2
615
Technical Specification and Dimension Table for HF/ HFD/ HF-DX couplings
FLUIDOMAT SM & HF
Ød4
B
ØA
Ød1
TYPE HFD
B
ØA
Ød1
TYPE HF-DX
Ød4
4l1l l 1 4ll 1 B l 4
Ød1
ØA
Ød4
TYPE HF
5
960 734
770
901 1031
264 320 354
Y
YC
AØ
K
EØ
Ød
4
AØ
EØ
Ød
4
K
l41l
4ll1
C
For radial displacement of Fluid Coupling theBrake drum shall need to be shifted by dimension'K' As shown. The Machine/G.B. shaft length /spaceshould be adequate for this shift of B.D.
*
TYPE HF/HFD/HF-DX WITH BRAKE DRUM (Outer Wheel Drive)
For Fluid Coupling ModelSM/SMD/SM-DX -9B & 10
*
TYPE SM/SMD/SM-DX WITH BRAKE DRUM (Inner Wheel Drive)
BRAKE DRUM MOUNTING
FXC-IV
FXC-V34600 236
190
190500
500
05
70
70
70
70
Coupling
Flexible
FXC-IIIA
FXC-IVA
FXC-III
FXC-I
FXC-II
Model
10 35250 95
30 55300 118
52315 118
150
150
400
400
40
40
118
118
315
300 52
30
55
65
65
55
55
32315 118
95250 48
118
95
300
250 35
32
55
35
55
35
K
21200 75
75200 19
75
ØE
160
Y
21
C
26
26
Min
26
Metallic disc Coupling
500 190 05 70
*
Coupling
FFX-5
FFX-4
FFX-3
FFX-2
FFX-1
Model
Flexible
246
230
190500
400 150
150
15029
05
170
170
195
195
195120118300 42
150
118
400
315
120
12042
10
118
118
300
315
110
110
17
17
130
150
130
158
158
9095250 20
118
118
315
300
90
90
05
05
95
75
250
200
75
7520
0
L2
Spider Type Coupling
ØE C Z
400 190150 11005
500 190 05 120 230
2
*
l
ØA
Ød2
ØE
ØA
L2
C Z
ØE
Ød2
ZC
L2
2l4l
2l4l
FLUIDOMAT SM & HF
25710 265
236630 34
90
70
236630 (-)31 80
236600 (-)31 80
150400 18 73
SM-AR / HF-AR COUPLING
Type AR Fluid Couplings are with annular ring and extra long
delayfil chamber.
During the initial rotation, the annular ring fills up and the
working circuit is partially emptied enabling very low torque
transmission during motor run up (acceleration). This enables
very quick acceleration of motor speed and quick decay of
motor current.
This is followed by increase in transmitted torque by gradual
emptying of delayfil chamber oil into the working circuit. The
torque is builtup gradually and enables controlled acceleration
torque to the driven machine. These couplings are very useful
for conveyor drives.
FLUIDOMAT SM-AR/HF-AR
Fix
ed Sp
eed /
Consta
nt F
ill Flu
id C
ouplin
gs
7
0.75 to 1.5 SEC.
12
3
MOTOR TORQUE CHARACTERISTICS.
FLUID COUPLING STARTING TORQUE CHARACTERISTICS FOR LOADED CONVEYOR.
LOADED CONVEYOR.1
3
2
TIME
% M
OTO
R T
ORQ
UE
100
200
Starting torque characterstic curve for fluid coupling type SM-AR & HF-AR for Conveyor Belt Application.
140
VV
Ød1 l 1
L1
2l
Ød2
VV
L2Ø
d3 l 3
VV
L3
FLEXIBLE COUPLING
SPIDER TYPE FFXPAD TYPE FP
MODEL: SM-9 TO 12 DX - AR
SM-10 DX-AR
SM-9 DX-AR
SM-11 DX-AR
SM-12 DX-AR
MODEL
170428
567
494
875
761
130
120
240
200
385600
BØ A
95
Ø d4
155
l 4
212
395
305
145
DRY
(Kgs)WT.
INTERNAL HUB
87
L1
-
FFX-Ø d1
-
MAX.
90 102
-
1l
PAD TYPE COUPLING
Ø d2
MAX. L22l
EXTERNAL HUB
FFX-4 100 120 195
FFX-5
-
-
125 150 230
MAX.
Ø d33 L3l
100 110 120
INTERNAL HUB EXTERNAL HUB
- - - - - - 120 140 151
- - - - -- 120 140 151
- - -
IN kg.
Wt.
IN kg.
Wt.
IN kg.
Wt.
SM-9 DX-AR
SM-10 DX-AR
SM-10B DX-AR
SM-11 DX-AR
MODEL COUP.
FLEX.
FP-1
-
FP-
FLEX.
COUP.
FP-2
FP-2
REFERENCE FACE FOR FLEXIBLE COUPLING
VV
DIMENSION TABLE:
SM-9 DX-AR
SM-10 DX-AR
SM-11 DX-AR
SM-12 DX-AR
MODEL
12
22
82
47
600
RATING TABLE:
MAX. RATINGS IN KW AT DIFFERENT INPUT SPEEDS RPMCOUPLING
RPM
148
730
85
39
22
RPM
278
900
73
158
41
RPM
348
RPM970
52
91
198
600
1200
374
172
98
RPM
750
1470
475
275
172
RPM
-
1800
-
370
246
RPM
670 110
FLUIDOMAT SM-AR & HF-AR
1) IMPELLER
2) ROTOR
3) DELAY FIL CHAMBER
4) ANNULAR CHAMBER
(MAX)
Ø d4
SEC AT Y-Y
SIDE
MACHINE
Y
ØA
B
NOZZELADJUSTINGSCREW
3
4l
1 2
4
VV
SM-13 DX-AR 163 293 550 620 850 1100 -
SM-13 DX-AR 6401000 150 270 525
SM-10B DX-AR 32 57 107 134 253 373 500
SM-10-B DX-AR 190451 265724 110
-
-
- - - - - - 140 155 167
- - - - -- 160 180 179
SM-12 DX-AR
SM-13 DX-AR
FP-3
FP-4
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
MODEL
HF-12 DX-AR
HF-11 DX-AR
HF-9 DX-AR
HF-10 DX-AR
110
125
170
125609
684
832
761
875
120
150
526
Ø A B
600
670
1/lØ d1/
90
110
326
485
WT.(Kgs)
DRY
191
224
Ø d4 l 4
RPM
MAX. RATINGS IN KW AT DIFFERENT INPUT SPEEDS RPM
RATING TABLE:
600
47
82
22
12
HF-12 DX-AR
MODEL
HF-11 DX-AR
HF-10 DX-AR
HF-9 DX-AR
COUPLING
-750600348278148
RPM
98
172
374
1200970900730RPM
41
158
73
RPM
22
39
85 198
91
52
RPM18001470RPM
246
370
-
RPM
172
275
475
DIMENSION TABLE:
FLUIDOMAT SM-AR & HF-AR
9
4) ANNULAR CHAMBER
3) DELAY FIL CHAMBER
2) ROTOR
1) IMPELLER
3
1 2
4
B1l l 4±3.0
(DBSE)Ø
A
SCREWADJUSTINGNOZZEL
X
X
Y
Y
(MAX)
SEC AT X-X
Ø d1(G7)
MOTOR SIDE
(MAX)
SEC AT Y-Y
Ø d4 (G7)
MACHINE SIDE
HF-13 DX-AR 2009121000 145 655
163HF-13 DX-AR -1100850620550293
HF-10B DX-AR 125632724 110 280
32HF-10B DX-AR 25310757 134 500373
FLUIDOMAT SMP
input speeds in RPM
Max rating in KW at different
10.61R
8711R 150
6R
8R
9R
10R
7R
2R
3 R/S
5R
4 R/S
5.6 10
36
19
11.2
8.3
33
62
15
19
0.9
4.1
2.3
1.2
4
7
1.6
2.1
Coupling model
SMP750 900
Threads
1 1/2”
1 1/2"
1 1/2"
1 1/2”
1 1/2"
Ø50-8P
2.21838280 166 91852.51.5
740-205 355 450
7.5
10
18.5
30
65
90
45
150
250
2313
34
46
78
147
45
85
20
26
3.8
5
9.5
17
5.5
10
2.2
3
60 420
200
120
85
325
570
630
465
505
38
25
15
12
360
395
310
330
44.8275210590 110
142374 65
75
90
110
85
512
532
430
395
170
210
142
142
38
42/38
65
42/38
284
331
205
262
110
142
91
110
8.365
127
220
115
92
22.0
28.5
11.1
14.6
35
46
25
30
4.1
6.5
2.8
3.3
150012001000 1800
A d1
max.
B 1l
Liters
Filling Wt.
KG.
Dry
In
Max.
Oil
1/2"
3/4"
1"
3/4"
3/4"
M
BSW
· SMP are fluid couplings for belt drive offering a wide range of pulley
diameters.
· Have an in built delayfil chamber enabling quick decay of motor starting
current as motor accelerates to 90% speed faster.
· Suitable for two consecutive starts from hot and three from cold.
· Fusible plug blow off temp. is 130°C as standard. optional 160° C.
Fix
ed Sp
eed /
Consta
nt F
ill Flu
id C
ouplin
gs
*
* with max. pulley dia in Direct Pulley Mounting
DELAY FIL CHAMBER
THREAD SIZE 'M'
DIRECT PULLEY
d1ØMAX.
MOUNTED VERTICALYONLY WHEN COUPLINGTHIS OIL SEAL USED
PULLEY MOUNTING
PULLEY TYPE A
HUBAØ
D1 P
CD D2 P
CD
K
l1
B
K
8B-R 16 29 1 1/2"1256836 180 553 90505 155 121 18
-
SMP-9R10SPB
SPC 8
B
C 8
10
28.0250 240
250250 32.0
235
240250
250
32.0
28.0 500
10SPB
SPB 8
C
B
8
10
25.0265
275 25.0
265
260 25.0
29.0
SMP-8R
20.0250 240SPB 8
SPC
SPB
SPC
6
6
8 230
240
235235
250
235
24.0
24.0
20.0
B
C
C
B
8
6
6
8
240
240
230
225235
235
250
250
20.0
24.0
24.0
20.0
---- -
-
-
-
-
-
-
-
-
-
-
-
-
-
-
-
420
C
SPC
SPB
B
6
6
8
8
265
275
265
260
22.0
22.0
18.0
18.0
SMP-7R
SPC 5
C
SPB
C
B
5
5
6
6
215225 30.0
195
205
200
200
224
200
228
228
30.0
30.0
26.0
26.0
-
380
- -
C
SPB
SPC
B
5
6
5
6
- -
230
230
240
224
30.0
30.0
26.0
26.0
MODEL
---- -32.0200 190SPC 5
SPC 5 225225 30.0 -- - - -
SMP-6R
5C
SPA
SPB
SPB
SPA
C
8
6
6
5
8
A
B
B
A
5
6
6
8
32.0180200
215
180
210
175
215
225
200
225
225
200
30.0
34.0
32.0
32.0
30.0
210
175
205
170
225
225
200
200
30.0
34.0
32.0
32.0
-
-
-
-
350
6SPB
-
-
-
SPC
-
-
-
-
5
-
B
SPA
C
A
6
8
5
8
22.0222
-
-
-
232
-
-
-
-
27.0
-
220
216
225
215
22.0
27.0
20.0
20.0
SMP-5R
27.0200 1953SPC
SPC 4 190190 27.0
C
C
SPB
B
3
5
4
5 175
180
180
185200
180
185
180
27.0
27.0
23.0
23.0
23.05 213SPB
SPC 4 223 27.0
325
B
SPA
C
A
5
7
4
7
209
207
215
205
23.0
27.0
20.0
20.0
SMP-4S
SMP-3S
SPZ/Z 6
SPB/B
SPA/A 5
4
125139 23.0
128
125139
139
25.0
27.0
-
-
-
- -
-
-
-
-
- -
-
-
-
-
26.0140 1404SMP-3R B
SMP-4R
C
C
B
2
3
2 140
145
145160
160
140
31.0
31.0
26.0
SMP-2RSPC/C
SPB
SPB
SPA/A
SPB/B
2
3
4
3
4 140
147
157
145
140
300
160
140
300
300
23.0
26.0
26.0
19.0
16.0
26.03 170C
SPC
SPA
SPB
3
5
4
170
160
165
26.0
18.0
21.0
-
-
-
-
A
B
-
-
-
5
4
-
-
-
160
165
-
-
-
18.0
21.0
-
-
DIRECT PULLEY MOUNTING
'SEC'
PULLEY GROOVE
GROOVESNO. OF MAX. 'D1' PCD.
Min.Max. ±1.5'K'
PULLEY TYPE-A
'D2' PCD.
Max.
MAX.NO. OF GROOVES'SEC'
GROOVEPULLEY
Min. ±1.5'K'
SMP-10RSPC/C
SPB/B
9
12 285
295345
350
23.0
19.0 520
SPC/C
SPB/B
9
12
360
360
23.0
19.0
SMP-11R PULLEY SIZE ON REQUEST
SMP-1RSPC/C 1
SPB/B
SPA/A
2
3
156260
146
140
260
260 16.0
19.0
-
-
-
- -
-
-
-
-
--
-
-
-
-
23.0
PULLEY DETAILS
FLUIDOMAT SMP
11
260
260
260
260
260
260
325
325
325
325
325
350
350
350
350
350
380
380
380
420
420
420
500
500
500
520
SMP-8B-R
&
Coupling for these rating should be selected only after our approval is obtained.
different input speeds (in KW.)
209.0
150.0
45.0
17.4
11.0
23.2
65.0
90.0
610.0
850.0
348.0
1000.0
970 RPM
Maximum ratings of couplings at
COUPLING MODEL
9.807
011
012
013
014
09
10A
010
08
08B
148.0
260.0
850.0
500.0
37.0
64.0
90.0
19.0
28.3
02
05A
05
06
03
04
01
T12-
0.8
3.3
7.3
4.6
1.1
1.8
730 RPM
0.5
80.0
373.0
485.0
265.0
228.0
153.0
-
-
-
-
1470 RPM
6.71.9
7.5
4.3
2.6
27.0
37.5
60.0
15.0
9.3
1.1 3.8
*
*
FLUIDOMAT T12
· Starting torque adjustable in the range of 170-250%.
Normal operating slip is 2 to 5% depending on
coupling size and starting torque value.
· Suitable for two consecutive starts from hot and
three from cold.
· Fusible plug blow off temperature is 130°C standard.
Optional:160°C.
Fix
ed Sp
eed /
Consta
nt F
ill Flu
id C
ouplin
gs
l l1 441 llØ
A
Ød
4
B
Ød
1
ØA
B
C Y
ØE
K
ll
max.
1230
1104
010
014
013
012
011
09
010A
08B
08
110750 414
655
594
568
488
970
860
175
150
150
125
347
371
368
353
650
700
570
615
110
110
110
110
Model Ød1BA
05
06
07
05A
04
01
02
03
T12-
237
276
290
216
314
420
465
510
395
350
75
75
75
50
50
167
199
181
280
310
330
35
35
50
1.466.40
200
200
95
125
125
125
125
200
200
112140
180
180
145
145
210
210
210
210
90
110
110
110140
140
140
140
38.0234
995
598
480
395
390.0
182.0
117.0
68.0
183
198
176
138
22.0
30.0
17.8
11.0
FXC-VI
FXC-VI
FXC-III
FXC-IVA
FXC-IVA
FXC-IVA
FXC-IV
FXC-V
FXC-V
5.70 33.00
160.0
108.0
75.00
50.00
49.80
26.20
16.10
10.30
15.00
18.60
26.30
22.202.50
3.30
2.20
2.10
GD in Kgm
Wt.4Ød4
60
75
75
60
90
110
110
110
80
80
95
95
95
70
70
max.
55
55
55
50
50
80
70
70
70
67
75
85
31
48
3.30
4.30
2.50
1.10
17
26
20
KG.
0.33
0.76
0.56
Pri.
Dry 2
In Model
FXC-I
FXC-II
FXC-II
FXC-I
FXC-I
FXC-IIIA
FXC-IIIA
FXC-III
5.10
3.70
8.40
5.90
11.00
0.80
1.13
0.50
0.32
Liters
3.00
1.50
2.90
0.08
0.22
0.14
Sec.
ConnectedFlexible
Coupling
Max.
Filling 2 Oil
1
should be adequate for this shift of B.D.'K' As shown. The Machine/G.B. shaft length /space
Brake drum shall need to be shifted by dimension
For radial displacement of Fluid Coupling the *
TYPE T12 WITH BRAKE DRUMT12 Fluid Coupling
FLUIDOMAT T12
13
FXC-IV
FXC-V34600 236
190
190500
500
05
70
70
70
70
Coupling
Flexible
FXC-IIIA
FXC-IVA
FXC-III
FXC-I
FXC-II
Model
10 35250 95
30 55300 118
52315 118
150
150
400
400
40
40
118
118
315
300 52
30
55
65
65
55
55
32315 118
95250 48
118
95
300
250 35
32
55
35
55
35
K
21200 75
75200 19
75
ØE
160
Y
21
C
26
26
Min
26
Metallic disc Coupling
500 190 05 70
*
25710 265
236630 34
90
70
236630 (-)31 80
236600 (-)31 80
150400 18 73
FLUIDOMAT SF, CBSF & WF
The Steel Body Constant Fill Fluid Couplings
Type SF: are steel body constant fil Traction Coupling with a thin driving
plate on motor side and metallic disc coupling on machine side. These
couplings are radially displaceable. Maximum capacity is adjustable
between 180% to 270%.
Type CBSF: are steel body constant fil fluid couplings with hollow shaft
execution on one end and flexible coupling on the other end for respective
shaft connections. They are available with delayfil chamber type CBSF DF
and without delayfil type CBSF. Also available in Radially Displaceable
execution having metallic disc flexible coupling on both ends.
They are suitable for operation with:
-Water – Oil emulsion as per HFB classification of European Mines safety
commission.
-Mineral oil as operating fluid.
-Maximum torque transmitting capacity is adjustable between 180% to 270
% for CBSF and 150 to 270% CBSF DF delayfil couplings.
Type: WF: are steel body constant fil fluid couplings with hollow shaft
execution on one end and flexible coupling on the other end for respective
shaft connection. They are available with delayfil chamber type WFDF and
without delayfil type WF. Also available in Radially Displaceable execution
having metallic disc flexible coupling on both ends.
They are suitable for operation with:
-Water (aqua)
-Water oil emulsion as per HFB classification of European Mines Safety
Commission.
-Mineral Oil
-Maximum torque transmitting capacity is adjustable between 200% to 270%
for type WF and 180% to 270% for WF DF.
These steel body fluid couplings are of extremely robust construction. They are ideal for use in underground or opencast mines
or other sites where use of aluminum is prohibited or where robust construction is necessary with simplicity of construction.
These steel body fluid couplings are being manufactured by us since 1976 and are very well proven on various mining and
surface applications.
They offer all the advantages and performance characteristics of any other aluminium body Fluidomat Fluid Couplings
-Virtually no load start and run up of motor and utilization of motor peak torque for load acceleration.
- Smooth and controlled acceleration of driven machine.
-Quick decay of motor starting current kick.
-Adjustable starting characteristics and load limiting.
-Dampening of shock loads, torsional fluctuations and vibrations.
FLUIDOMAT
Fix
ed Sp
eed /
Consta
nt F
ill Steel B
ody F
luid
Couplin
gs
KW Ratings at different speeds (RPM)
ØA B Ød 1MAX l1
Ød 4 MAX
l 4
Flex. Coupling Model FXC
Dry Wt. Kg
Max filling liters
4 375 250 50 80 55 70 II 55 3.5
6 418 290 75 110 90 110 III 82 5.6
7 470 300 75 110 90 110 III 98 7.2
8 508 310 75 110 90 110 III 106 10.7
9 570 330 110 140 110 125 IV 190 11.5
10 620 345 110 140 110 125 IV 205 17.7
Fluid Coupling Model SF
FLUIDOMAT SF, CBSF & WF
15
SF/CBSF & CBSFDF
* Models not offered in type SF
Model 600 750 900 1000 1200 1500 1800
WF/WFDF
4 1 1.8 3 4 8 15 22
6 2.6 5 9 12 20 40 60
7 4 7.5 13 18 31 60 80
8 5.6 11 19 26 45 80 114
9 10 19 33 45 78 152 197
10 14.4 28 48 66 115 224 290
11* 33 64 111 152 262 373 --
12* 46 90 155 213 368 485 --
4 1 1.8 3 4 8 15 22
360 2.6 5 9 12 20 40 55
5 4 7.5 13 18 31 55 75
6 5.6 11 19 26 45 75 100
7 10 19 33 45 78 140 175
8 14.4 28 48 66 115 205 230
9 33 64 111 152 235 335 440
10 46 90 155 213 331 480 –
Technical Specification and Dimension Table for coupling type SF
ØA4l1l
Ød4
Ød1
B
WF-4, CBSF-4 380 154 42 80 1” FFX-1
WFDF-4 , CBSFDF-4 380 240 42 80 1” FFX-1
WF-360, CBSF-6 436 220 55 112 1” FFX-3
WFDF-360 , CBSFDF-6 436 316 55 112 1” FFX-3
WF-5, CBSF-7 470 250 75 135 1” FFX-3
WFDF-5 , CBSFDF-7 470 370 75 135 1” FFX-3
WF-6, CBSF-8 508 260 85 142 1¼” FFX-4
WFDF-6 , CBSFDF-8 508 377 85 142 1¼” FFX-4
WF-7, CBSF-9 570 276 90 155 1½” FFX-4
WFDF-7 , CBSFDF-9 570 396 90 155 1½” FFX-4
WF-8, CBSF-10 620 295 100 170 1½” FP-1
WFDF-8 , CBSFDF-10 620 444 100 170 FP-1
WF-9, CBSF-11 730 342 120 200 FP-2
WFDF-9, CBSFDF-11 730 494 120 220 FP-2
WF-10, CBSF-12 776 405 120 200 FP-2
WFDF-10 , CBSFDF-12 776 590 120 220 FP-2
Ø50-8P
Ø50-8P
Ø50-8P
Ø50-8P
Ø50-8P
Model A B Ød4 Max. L4 Threads‘M’ BSW
Flexible coupling model
Internal Hub
FFX-1 42 67 67 60 75 130 -- -- --
FFX-3 80 92 72 90 110 170 -- -- --
FFX-4 90 102 87 100 120 195 -- -- --
FFX-5 -- -- -- 125 150 230 -- -- --
FP-1 -- -- -- -- -- -- 100 110 120
FP-2 – -- -- -- -- -- 140 155 167
Flexible
Coupling
model
External Hub Pad type coupling
Ø d1max
l1 L1 Ø d2max
l2 L2 Ø d3max
l3 L3
FLUIDOMAT SF, CBSF & WF
VV
Reference face for flexible coupling.
SPIDER TYPE FFX
Internal Hub
Ød1 l 1
L1
VV
External Hub
Ød32l
Ød2
VV
L2
l 3
VV
PAD TYPE FP
L3
FLEXIBLE COUPLING
TYPE : WF DF,CBSF DF
TYPE : WF, CBSFB
B
ØA
l4
Ød4
Type WF HF & CBSF HF are radially displaceable fluid couplings
with metallic disc flexible coupling on both input and output ends.
These metallic disc couplings do not require any lubrication and
require least maintenance. The weight of fluid coupling is shared
by motor and driven machine shaft thus reducing weight reaction
on gear box shafts which are of small diameters in modern designs.
Model ØA B Ød1 Max. l 1 Ød4 Max. l 4 Flexible coupling model
FLUIDOMAT SF, CBSF & WF
17
WFHF -4, CBSF HF-4 380 278 55 70 55 70 FXC-II
WF HFD -4, CBSF HFD-4 380 364 55 70 55 70 FXC-II
WFHF -360, CBSF HF-6 436 350 75 95 75 95 FXC-IIIA
WF HFD -360, CBSF HFD-6 436 446 75 95 75 95 FXC-IIIA
WFHF -5, CBSF HF-7 470 380 75 95 75 95 FXC-IIIA
WF HFD -5, CBSF HFD-7 470 500 75 95 75 95 FXC-IIIA
WFHF -6, CBSF HF-8 508 405 90 95 90 95 FXC-III
WF HFD -6, CBSF HFD-8 508 522 90 95 90 95 FXC-III
WFHF -7, CB SF HF-9 570 421 90 110 90 110 FXC-III
WF HFD -7,CB SF HFD-9 570 541 90 110 90 110 FXC-IVA
WFHF -8, CB SF HF-10 620 501 110 125 110 125 FXC-IVA
WF HFD -8, CBSF HFD-10 620 650 110 125 110 125 FXC-IVA
WFHF -9, CB SF HF-11 730 543 110 125 110 125 FXC-IVA
WF HFD -9, CBSF HFD-11 730 695 110 125 110 125 FXC-IVA
WFHF -10, CBSF HF-12 776 629 120 125 120 125 FXC-IV
WF HFD -10, CBSF HFD-12 776 814 120 125 120 125 FXC-IV
TYPE : WF HFD, CBSF HFDTYPE : WF HF, CBSF HF
Ød1
Ød4
B
ØAl4l1
Ød1
Ød4
B
ØAl4l1
VISCOSITY : 32POUR POINT : < - 24 °cFLASH POINT : 190 °c
COMPATIBLE OIL SEAL – NITRILE & VITON RUBBER.
Equivalent Oil Grades and Brands
Supplier & Oil Grades Viscosity C.St Viscosity Index Flash Point Pour Point (Min)
@ 40°c (In°c) (In °c) (In °c)
HP ENCLO 32 32 95 190 (-) 3
HP–ENCLO VT 32 32 109 224 (-) 37
IOC- SERVOSYSTEM 32 29-33 95 190 (-) 6
IOC- SERVOSYSTEM HLP 32 29-33 100 200 (-) 21
SHELL TELLUS 32 32 99 209 (-) 30
CASTROL HYSPH-AWH 32 32 95 180 (-) 3
BPL HYDROIL HLP 32 29-35 95 185 (-) 18
Other Equivalent Brands
BP BP- Energol HLP–32 216
CASTROL Hyspin 32 220
CHEVRON Mechanism LPS-32 200
ESSO Esso Torque Fluid 220
MOBIL Mobil Fluid 32 225
SHELL Tegula Oil 32 196
Brand Designation Flash Point (In °c)
SPECIFICATION OF OIL RECOMMENDED FOR USE IN FLUIDOMAT CONSTANT FILL FLUID COUPLINGS.
FLUIDOMAT
As per ISOVG - 32
Model Outer wheel Inner wheelT12-01 0.11 0.0202 0.15 0.0303 0.19 0.0404 0.27 0.0505A 0.57 0.1205 0.78 0.2506 1.32 0.3407 1.72 0.4708 2.44 0.6508B 4.11 1.6909 5.01 2.1110A 8.57 2.8210 10.18 3.4311 20.95 8.3712 35.74 14.2513 61.35 24.1014 93.13 37.24
Model * Outer wheel Inner WheelSMP-1 0.11 0.022 0.15 0.033 0.28 0.044 0.37 0.055 0.76 0.126 0.96 0.257 1.43 0.348 1.88 0.479 2.89 0.6510 5.37 2.1111 11.98 3.43
2Mass moment of Inertia J with oil in KG M
* Values for maximum size of direct mounting pulley.
Model Outer Wheel Inner Wheel
HF-3 0.25 0.05HF-4 0.39 0.07HF-5 0.66 0.23HF-6 0.69 0.29HF-7 1.32 0.35HF-8 1.72 0.49HF-8B 2.40 0.64HF-9 2.82 0.76HF-9B 4.65 1.91HF-10 5.01 2.11HF-10B 10.15 3.34HF-11 11.66 3.93HF-12 18.30 7.31HF-13 35.74 14.25HF-14 61.46 24.10HF-15 93.13 37.24
Model Outer Wheel Inner Wheel
HFD-3 0.26 0.05HFD-4 0.41 0.07HFD-5 0.71 0.24HFD-6 0.97 0.30HFD-7 1.46 0.40HFD-8 1.85 0.51HFD-8B 2.61 0.72HFD-9 3.06 0.93HFD-9B 5.09 1.96HFD-10 6.07 2.18HFD-10B 11.30 3.44HFD-11 12.97 4.07HFD-12 20.33 7.61HFD-13 39.82 14.78HFD-14 68.04 24.98HFD-15 102.70 38.61HFD-16 - -
Model Outer wheel Inner wheel
HFDX-3 0.27 0.05HFDX-4 0.42 0.07HFDX-5 0.74 0.24HFDX-6 1.04 0.30HFDX-7 1.59 0.40HFDX-8 1.96 0.51HFDX-8B 2.76 0.72HFDX-9 3.24 0.93HFDX-9B 5.55 1.96HFDX-10 7.04 2.18HFDX-10B 12.30 3.44HFDX-11 14.07 4.07HFDX-12 21.93 7.61HFDX-13 43.02 14.78HFDX-14 73.14 24.98HFDX-15 - -
Model Outer wheel Inner wheel
SM-3 0.22 0.04SM-4 0.33 0.06SM-5 0.68 0.21SM-6 0.89 0.24SM-7 1.32 0.34SM-8 1.72 0.37SM8-B 2.40 0.64SM-9 2.82 0.75SM-9B 4.65 1.53SM-10 5.01 1.72SM-10B 10.15 2.90SM-11 11.66 3.41SM-12 18.30 5.56SM-13 35.74 12.22SM-14 61.55 21.70SM-15 93.13 33.70
Model Outer wheel Inner Wheel
SMD-3 0.23 0.04SMD-4 0.35 0.06SMD-5 0.71 0.21SMD-6 0.97 0.24SMD-7 1.47 0.34SMD-8 1.85 0.39SMD-8B 2.61 0.67SMD-9 3.06 0.78SMD-9B 5.09 1.58SMD-10 6.07 1.79SMD-10B 11.30 3.00SMD-11 12.97 3.55SMD-12 20.33 5.86SMD-13 39.82 12.75SMD-14 68.04 22.56SMD-15 102.70 35.07SMD -16 162.00 54.10
Model Outer wheel Inner Wheel
SMDX-3 0.24 0.04SMDX -4 0.36 0.06SMDX -5 0.74 0.21SMDX -6 1.04 0.24SMDX -7 1.59 0.34SMDX-8 1.96 0.39SMDX-8B 2.76 0.67SMDX -9 3.24 0.78SMDX-9B 5.55 1.58SMDX-10 7.04 1.79SMDX-10B 12.30 3.00SMDX -11 14.07 3.55SMDX -12 21.93 5.86SMDX -13 43.02 12.75SMDX-14 73.14 22.56SM DX-15 110.70 35.07
3 FLUID COUPLING TORQUE AT 100% SLIP
4 MOTOR CURRENT WITHOUT FLUID COUPLING
5 MOTOR CURRENT WITH FLUID COUPLING
1 MOTOR CURRENT
2 MOTOR TORQUE
(TYPICAL)
QUICK DECAY OF MOTOR CURRENT WITH FLUID COUPLING
MOTOR SPEED
200
% M
OTO
R T
ORQ
UE
2
100
3
1
400
% M
OTO
R C
URREN
T200
600
TIME% M
OTO
R C
URREN
T
600
5
4
All Dimension in this catalogue are in mm unless specified otherwise.
Note: Due to continuous improvements the specifications may change without notice.
FLUIDOMAT
1. FUSIBLE PLUG: Incase of over heating of the coupling, the fusible plug provided on the
coupling melts and oil filled in the coupling is drained off and thus power transmission through
the coupling is stopped.
Coupling should not be run more than 60 seconds after fusible has melted and oil is drained.
Suitable guard must be provided so that the hot oil spray is restricted within the guard.
2. THERMAL TRIPPING ARRANGEMENT: MTP is a mechanical Thermal Switch. In order to avoid loss
of operating fluid due to over heating of fluid coupling the mechanical Thermal Switch MTP can
be added. However fusible plug with higher response temperature remains on the fluid coupling.
MTP consist of a plunger plug screwed on the fluid coupling body. A cam with limit switch are
mounted on stationary base frame.
On exceeding the set temperature, the plunger plug ejects out a pin which hits the cam and
operates the limit switch contact (make or break). Depending on the circuit selected the limit
switch signal can be used to switch off the drive motor or activate audio/visual alarm.
The plunger plug has to be replaced after activation.
MTP system provides valuable safety and environment protection by avoiding spillage and loss of
expensive operating fluid. Spillage of operating fluid can be expensive fire and accident hazard
due to slippery floors and injury to workmen.
The operating temperature of MTP is as under:
MTP SETTING FUSIBLE PLUG MELTING TEMPERATURE< 110 130 5<140 160 5
°c °c ± °c
°c °c ± °c
THERMAL PROTECTION
MTP SYSTEM
FLUIDOMAT
3. NON CONTACT ONLINE TEMPERATURE MONITOR WITH DISPLAY AND RELAY OUTPUT TYPE- IRNC:
The IRNC operates on Infrared pyrometry and consists of stationery infrared non-contact pyrometer and a precision temperature controller. The non-contact infrared sensor is placed in any direction at a distance of 300 to 1100mm from body of fluid couplings.
The heat emitted by the body is sensor and gives a voltage output which is processed in the base unit and gives relay output on exceeding preset temperature values. Two set points are available which can be used for alarm and trip.
IRNC systems provide valuable safety and environment protection by avoiding spillage and loss of expensive operating fluid and fire hazardous hot oil spray.
Suggested temperature settings an IRNC system:
IRNC SettingFusible Plug
Set Point I Set Point II Melting Temp
< 95 < 105 130 5
< 125 < 135 160 5
Fusible plug must be used along with the system as a backup protection.
°c °c °c ± °c
°c °c °c ± °c
NON CONTACT ELECTRONIC TRIPPING SWITCH TYPE- ENC:
The ENC is a non contact system consisting of a transmitter screwed on the body of fluid coupling, a proximity sensor and a
processing base unit. The sensor is placed at a distance varying between 3 to 6 mm from the transmitter.
When the coupling is rotating and when the temperature of fluid couplings is less than 125 , the transmitter emits pulse
signal to the proximity sensor every time it passes. As soon as the temperature exceeds response temperature, transmitter
stops emitting pulse signal and the base unit gives a relay output. The coupling is operational again after it has cooled
down.
ENC system provides valuable safety and environment protection by avoiding spillage and loss of expensive operating fluid
and fire hazardous hot oil spray.
Fusible plug of 160 5 must be used along with the system as a backup protection.
°c
°c ± °c
PROCESSING BASE UNIT
ENC System
FLUID
COUPLING
TRANSMITTER
Proximity Sensor
FLUIDOMATFLUIDOMATFLUIDOMAT
Various Sectors of Industries
Thermal and Nuclear Power Generation
Cement
Steel and Metal
Petrochemical
Textile and Sugar
Defense
Coal, Lignite and Ore Mining
Paper
Washeries
Fertilizers and Chemicals
Harbour Handling
Automobile for Automotive Applications
Applications
Fluidomat SC:
Scoop Controlled Variable Speed Fluid Couplings
Fluidomat Delta SC:
The Compact Scoop Controlled Fluid Couplings to
replace Rotating Body Fluid Couplings type SCR /
PSC.
Variable Speed / Scoop Controlled Fluid Couplings
h t t p : / / w w w . f l u i d o m a t . c o m
FLUIDOMAT
Sales Offices Kolkata21-A, Ballygunge Station Road, Kolkata 700019 INDIA.Phone : +91-33-24400063 Fax : +91-33-24400063.
Chennai
INDIA.Phone Fax MumbaiC-4, Amul Commercial Premises, Plot No. 22 & 23,
st1 Road, Chembur, Mumbai 400071 INDIA.Phone: +91-22-25283557, 25280688 Fax: +91-22-25281394
1st Floor Niroopa Apartments, 30/4 Velu Street, West Mambalam, Chennai 600 033
: +91-44-24743801 : +91-44-24743801
Works & Head OfficeFluidomat Limited7C-8J, Industrial Area, A.B. Road, Dewas - 455001 INDIAPhone: +91-7272-258582 / 258583 / 258680 Fax: +91-7272-258581Email: [email protected]
Registered OfficeFluidomat Limited117, 1st Floor, Navneet Darshan, 16/2 Old Palasia,Indore - 452001 INDIA
Sao Paulo
Melbourne
Jakarta
Bangkok
Seoul
Kuala lumpur
Dubai
The Netherlands
Iran
The Netherlands
Johannesburg
Dewas
