OMS, OMT and OMVOrbital Motors
Technical Information
2 520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical InformationA Wide Range of Orbital Motors
Sauer-Danfoss is a world leader within production of low speed orbital motors with high torque. We can offer more than 1600 different orbital motors, categorised in types, variants and sizes (incl. different shaft versions).The motors vary in size (rated displacement) from 8 cm3 [0.50 in3] to 800 cm3 [48.9 in3] per revolution.Speeds range up to approx. 2500 min-1 (rpm) for the smallest type and up to approx 600 min-1 (rpm) for the largest type.Maximum operating torques vary from 13 Nm [115 lbf·in] to 2700 Nm [24.000 lbf·in] (peak) and maximum outputs are from 2.0 kW [2.7 hp] to 70 kW [95 hp].
Characteristic features: • Smooth running over the entire speed range • Constant operating torque over a wide speed range • High starting torque • High return pressure without the use of drain line (High pressure shaft seal) • High efficiency • Long life under extreme operating conditions • Robust and compact design • High radial and axial bearing capacity • For applications in both open and closed loop hydraulic systems • Suitable for a wide variety of hydraulics fluids
A Wide Range of Orbital Motors
F300 540., F300 030
Table of RevisionsDate Page Changed RevNov 2009 67 conversions, and layout adjusted EDNov 2010 68 Dimensions changed EFJul 2012 57 Typo in ‘Major dia’ EG
Frontpage: F300 211, F300 212, F300 351, F300 145, 151-1976
Revision History
© 2012 Sauer-Danfoss. All rights reserved.Sauer-Danfoss accepts no responsibility for possible errors in catalogs, brochures and other printed material. Sauer -Danfoss reserves the right to alter its products without prior notice. This also applies to products already ordered provided that such alterations can be made without aff ecting agreed specifi cations. All trademarks in this material are properties of their respective owners. Sauer-Danfoss, the Sauer-Danfoss logotype, the Sauer-Danfoss S-icon, PLUS+1™, What really matters is inside® and Know-How in Motion™ are trademarks of the Sauer-Danfoss Group.
3520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical Information
The programme is characterised by technical features appealing to a large number of applications and a part of the programme is characterised by motors that can be adapted to a given application. Adaptions comprise the following variants among others:
• Motors with corrosion resistant parts • Wheel motors with recessed mounting flange • OMP, OMR- motors with needle bearing • OMR motor in low leakage version • OMR motors in a super low leakage version • Short motors without bearings • Ultra short motors • Motors with integrated positive holding brake • Motors with integrated negative holding brake • Motors with integrated flushing valve • Motors with speed sensor • Motors with tacho connection • All motors are available with black finish paint
Planetary gearsSauer-Danfoss complements the motor range with a complete programme of planetary gears adapted to suit. The combination of motors and gears makes it possible to obtain smooth running at fractional speeds and with torques up to 650.000 Nm (5.800.000 lbf·in).
The Sauer–Danfoss orbital motors are used in the following application areas:
• Construction equipment • Agricultural equipment • Material handling & Lifting equipment • Forestry equipment • Lawn and turf equipment • Special purpose • Machine tools and stationary equipment • Marine equipment
Detailed data on all Sauer-Danfoss motors can be found in our motor catalogue, which is divided into 5 individual subcatalogues:
• General information on Sauer-Danfoss orbital motors: function, use, selection of orbital motor, hydraulic systems, etc.
• Technical data on small motors: OML and OMM • Technical data on medium sized motors: OMP, OMR, OMH and OMEW • Technical data on medium sized motors: DH and DS • Technical data on large motors: OMS, OMT and OMV • Technical data on large motors: TMT
A general survey brochure on Sauer-Danfoss orbital motors gives a quick motor reference based on power, torque, speed and capabilities.
Survey of Literature with Technical Data on Sauer-Danfoss Orbital Motors
A Wide Range of Orbital Motors
4 520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical InformationContents
Contents OMS, OMT and OMV ........................................................................................................ 5Speed, Torque and Output .......................................................................................................................... 5
OMS .................................................................................................................................. 6Versions .............................................................................................................................................................. 6Code Numbers ................................................................................................................................................ 7Technical data for OMS ................................................................................................................................. 8
Max. Permissible Shaft Seal Pressure ................................................................................................. 9Pressure Drop in Motor ........................................................................................................................... 9Oil Flow in Drain Line .............................................................................................................................10Direction of Shaft Rotation ..................................................................................................................10Permissible Shaft Loads ........................................................................................................................11Function Diagrams .................................................................................................................................14Shaft Version .............................................................................................................................................19Port Thread Versions ..............................................................................................................................22
Dimension .......................................................................................................................................................23OMSS .................................................................................................................................................................32
OMT ................................................................................................................................ 34Versions ............................................................................................................................................................34Code Numbers ..............................................................................................................................................35Technical data ................................................................................................................................................36
Max. Permissible Shaft Seal Pressure ...............................................................................................38Pressure Drop in Motor .........................................................................................................................39Oil Flow in Drain Line .............................................................................................................................39Direction of Shaft Rotation ..................................................................................................................39Permissible Shaft Loads ........................................................................................................................40Function Diagrams .................................................................................................................................42Shaft Version .............................................................................................................................................45Port Thread Versions ..............................................................................................................................48
Dimensions .....................................................................................................................................................49OMTS .................................................................................................................................................................56
OMV ................................................................................................................................ 58Versions ............................................................................................................................................................58Code Numbers ..............................................................................................................................................59Technical data ...............................................................................................................................................60
Max. Permissible Shaft Seal Pressure ...............................................................................................61Pressure Drop in Motor .........................................................................................................................62Oil Flow in Drain Line .............................................................................................................................62Direction of Shaft Rotation ..................................................................................................................62Permissible Shaft Loads ........................................................................................................................63Function Diagrams .................................................................................................................................65Shaft Version .............................................................................................................................................68Port Thread Versions ..............................................................................................................................71
Dimensions .....................................................................................................................................................72OMVS ................................................................................................................................................................78
Weight of Motors .......................................................................................................... 80
5520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical Information
80 100 125 160 200 250 315 400 500 160 200 250 315 400 500 315 400 500 630 800
80 100 125 160 200 250 315 400 500 160 200 250 315 400 500 315 400 500 630 800
80 100 125 160 200 250 315 400 500 160 200 250 315 400 500 315 400 500 630 800
800600400200
22000
20000
18000
16000
14000
12000
10000
8000
6000
4000
2000
2400
2200
2000
1800
1600
1400
1200
1000
800
600
400
200
80
60
40
20
605040302010
OMS OMT OMV
151-1407.11
hp kW
lbf•in
min-1
(rpm)
Nm
Max. speed
Max. Torque
Max. output
Intermittend values Continuous values
The bar diagrams above are useful for a quick selection of relevant motor size for the application. The final motor size can be determined by using the function diagram for each motor size.
• OMS can be found on pages 14-18 • OMT can be found on pages 42-44 • OMV can be found on pages 65-67
The function diagrams are based on actual tests on a representative number of motors from our production. The diagrams apply to a return pressure between 5 and 10 bar [75 and 150 psi] when using mineral based hydraulic oil with a viscosity of 35 mm2/s [165 SUS] and a temperature of 50°C [120°F]. For further explanation concerning how to read and use the function diagrams, please consult the paragraph "Selection of motor size" in the technical information "General Orbital motors" 520L0232.
OMS, OMT and OMVSpeed, Torque and Output
Data Survey
6 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
OMS Versions
Mou
ntin
g fla
nge
Shaf
t
Port
siz
e
Euro
pean
ver
sion
US
vers
ion
Dra
in c
onne
ctio
n
Chec
k va
lve
Mai
n ty
pe d
esig
nati
on
Standardflange
Cyl. 32 mm G 1/2 l Yes Yes OMS
Cyl. 1.25 in 7/8-14 UNF l Yes Yes OMS
Splined 1.25 inG 1/2 l Yes Yes OMS
7/8-14 UNF l Yes Yes OMS
Tapered 35 mm G 1/2 l Yes Yes OMS
Tapered 1.25 in 7/8-14 UNF l Yes Yes OMS
P.t.o. G 1/2 l Yes Yes OMS
Special flange Splined 1.25 in G 1/2 l Yes Yes OMS
A-2flange
Cyl. 1 in 7/8-14 UNF l Yes Yes OMS
Cyl. 1.25 in 7/8-14 UNF l Yes Yes OMS
Splined 1 in 7/8-14 UNF l Yes Yes OMS
Splined 1.25 in 7/8-14 UNF l Yes Yes OMS
Tapered 1.25 in 7/8-14 UNF l Yes Yes OMS
Magnetoflange
Cyl. 1 in 7/8-14 UNF l Yes Yes OMS
Cyl. 1.25 in 7/8-14 UNF l Yes Yes OMS
Splined 1 in 7/8-14 UNF l Yes Yes OMS
Splined 1.25 in 7/8-14 UNF l Yes Yes OMS
SAE B flangeSplined 1.25 in 7/8-14 UNF l Yes Yes OMS
Splined 0.875 in 7/8-14 UNF l Yes Yes OMS
Wheel
Cyl. 32 mm G 1/2 l Yes Yes OMSWCyl. 1.25 in 7/8-14 UNF l Yes Yes OMSW
Tapered 35 mm G 1/2 l Yes Yes OMSW
Tapered 1.25 in 7/8-14 UNF l Yes Yes OMSW
Short No output shaft G 1/2 l Yes Yes OMSW
Function diagram - see page : →
Versions
Features available (options) :Speed sensor Motor with tacho connectionHigh pressure shaft sealViton shaft sealPaintedUltra shortMotor with drum brake
7520L0407 • Rev EG • Jul 2012
OMSTechnical InformationCode Numbers
OrderingAdd the four digit prefix “151F” to the four digit numbers from the chart for complete code number.
Example: 151F0504 for an OMS 200 with standard flange, cyl. 32 mm shaft and port size G 1/2.
Note: Orders will not be accepted without the four digit prefix.
Code Numbers
Code
Num
bers
Displacement [cm3]
Tech
nica
l dat
a –
Page
Shaf
t loa
ds –
Pag
e
Dim
ensi
ons
– Pa
ge
80 100 125 160 200 250 315 400 500151F 0500 0501 0502 0503 0504 0505 0506 0605 - 8 11 23
151F 2200 2201 2202 2203 2204 2205 2206 2261 2268 8 11 24
151F 0507 0508 0509 0510 0511 0512 0513 - - 8 11 23
151F 2207 2208 2209 2210 2211 2212 2213 2262 2269 8 11 24
151F 0514 0515 0516 0517 0518 0519 0520 - - 8 11 23
151F 2214 2215 2216 2217 2218 2219 2220 2264 2270 8 11 24
151F 0560 0561 0562 0563 0564 0565 0566 - - 8 11 23
151F 0542 0543 0544 0545 0546 0547 0548 - - 8 12 25
151F 2300 2301 2302 2303 2304 2305 2306 2307 2345 8 12 26
151F 2316 2317 2318 2319 2320 2321 2322 2323 2347 8 11 26
151F 2308 2309 2310 2311 2312 2313 2314 2315 2346 8 12 26
151F 2324 2325 2326 2327 2328 2329 2330 2331 2348 8 11 26
151F 2332 2333 2334 2335 2336 2337 2338 2339 2349 8 11 26
151F 2377 2378 2379 2380 2381 2382 2383 2384 2385 8 12 27
151F 2368 2369 2370 2371 2372 2373 2374 2375 2376 8 11 27
151F 2359 2360 2361 2362 2363 2364 2365 2366 2367 8 12 27
151F 2350 2351 2352 2353 2354 2355 2356 2357 2358 8 11 27
151F 2395 2396 2397 2398 2399 2400 2401 2402 2403 8 11 28
151F 2413 2414 2415 2416 2417 - - - - 8 13 28
151F 0521 0522 0523 0524 0525 0526 0527 0610 - 8 11 29
151F 2235 2236 2237 2238 2239 2240 2241 2265 2266 8 11 30
151F 0528 0529 0530 0531 0532 0533 0534 0609 - 8 11 29
151F 2242 2243 2244 2245 2246 2247 2248 2263 2267 8 11 30
151F 0535 0536 0537 0538 0539 0540 0541 0608 - 8 - 31
14 14 15 15 16 16 17 17 18
8 520L0407 • Rev EG • Jul 2012
OMSTechnical InformationTechnical Data
Technical data for OMS
TypeOMS
OMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
OMSOMSWOMSS
Motor size 80 100 125 160 200 250 315 400 500
Geometric displacementcm3
[in3]80.5
[4.91]100.0[6.10]
125.7[7.67]
159.7[9.75]
200.0[12.20]
250.0[15.26]
314.9[19.22]
393.0[23.98]
488.0[29.78]
Max. speedmin-1[rpm]
cont. 810 750 600 470 375 300 240 190 155int1) 1000 900 720 560 450 360 285 230 185
Max. torqueNm[lbf·in]
cont.240
[2120]305
[2700]375
[3320]490
[4340]610
[5400]720
[6370]825
[7300]865
[7660]850
[7520]
int.1) 310[2740]
390[3450]
490[4340]
600[5310]
720[6370]
870[7700]
1000[8850]
990[8760]
990[8760]
Max. outputkW[hp]
cont.15.5
[20.8]18.0
[24.1]18.0
[24.1]16.5
[22.1]16.5
[22.1]14.5
[19.4]15.0
[20.1]11.0
[14.8]9.0
[12.1]
int.1) 19.5[26.2]
22.5[30.2]
22.5[30.2]
23.0[30.8]
22.0[29.5]
18.0[24.1]
17.0[22.8]
12.5[16.8]
10.5[14.1]
Max. pressure dropbar[psi]
cont.210
[3050]210
[3050]210
[3050]210
[3050]210
[3050]200
[2900]200
[2900]160
[2320]120
[1740]
int.1) 275[3990]
275[3990]
275[3990]
260[3770]
250[3630]
250[3630]
240[3480]
190[2760]
140[2030]
peak2) 295[4280]
295[4280]
295[4280]
280[4060]
270[3920]
270[3920]
260[3770]
210[3050]
160[2320]
Max. oil flowl/min[USgal/min]
cont.65
[17.2]75
[19.8]75
[19.8]75
[19.8]75
[19.8]75
[19.8]75
[19.8]75
[19.8]75
[19.8]
int.1) 80[21.1]
90[23.8]
90[23.8]
90[23.8]
90[23.8]
90[23.8]
90[23.8]
90[23.8]
90[23.8]
Max. starting pressure with unloaded shaft
bar[psi]
12[175]
10[145]
10[145]
8[115]
8[115]
8[115]
8[115]
8[115]
8[115]
Min. starting torque
at max. press. drop cont. Nm [lbf·in]
180[1590]
230[2040]
290[2570]
370[3270]
470[4160]
560[4960]
710[6280]
710[6280]
660[5840]
at max. press. drop int.1)
Nm [lbf·in]235
[2080]300
[2660]380
[3360]460
[4070]560
[4960]700
[6200]850
[7520]840
[7430]770
[6820]
Type Max. inlet pressureMax. return pressure
with drain line
OMSOMSWOMSS
bar[psi]
cont.230
[3340]140
[2030]bar[psi]
int.1) 295[4280]
175 [2540]
bar[psi]
peak2) 300[4350]
210[3050]
Splined 1 in Cyl. 1 in Splined 0.875 in
*Max torque for shaft typeNm [lbf·in]
cont. 360 [3190] 300 [2660] 200 [1770]int.1) 450 [3980] 410 [3630] 200 [1770]
1) Intermittent operation: the permissible values may occur for max. 10% of every minute.2) Peak load: the permissible values may occur for max. 1% of every minute.
For max. permissible combination of flow and pressure, see function diagram for actual motor.
9520L0407 • Rev EG • Jul 2012
OMSTechnical InformationTechnical Data
151-320.10
Max. Permissible Shaft Seal Pressure
Pressure Drop in Motor
Max. return pressure without drain line or max. pressure in the drain line
– – – – Intermittent operation: the permissible values may occur for max. 10% of every minute.
Continuous operation
The curve applies to an unloaded motor shaft and an oil viscosity of 35 mm2/s [165 SUS]
151-1674.10
0 100 200 300 400 500 600 700 800 max.
1500
1200
900
600
300
0
100
90
80
70
60
50
40
30
20
10
0
psi bar
P P
min-1
(rpm)
151-1408.10
0 10 20 30 40 50 60 70 80 90 l/min
0 2 4 6 8 10 12 14 16 18 20 22 US gal/min
200
150
100
50
0
16
14
12
10
8
6
4
2
0
psi bar
∆ p ∆ p
Q
Q
OMS with standard shaft seal, check valves and without use of drain connection: The pressure on the shaft seal never exceeds the pressure in the return line
OMS with standard shaft seal, check valves and with drain connection:The shaft seal pressure equals the pressure on the drain line.
10 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
The table shows the max. oil flow in the drain line at a return pressure less than 5-10 bar [75-150 psi].
Oil Flow in Drain Line
Direction of Shaft Rotation
Technical Data
Pressure drop
bar [psi]
Viscosity
mm2/s[SUS]
Oil flow in drain line
l/min [US gal/min]
140 [2030]20 [100] 1.5 [0.40]35 [165] 1.0 [0.26]
210 [3050]20 [100] 3.0 [0.79]35 [165] 2.0[0.53]
11520L0407 • Rev EG • Jul 2012
OMSTechnical Information
151-1962.10
-20 -10 0 10 20 30 40 50 60 70 80 mm
-0.5 0 0.5 1 1.5 2 2.5 3 in
7000
6000
5000
4000
3000
2000
1000
0
30000
25000
20000
15000
10000
5000
0
lbf N
Prad. Prad.
Pmax.0
+- =5000 N=1124 lbf
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Permissible Shaft Loadsfor OMS
Technical Data
151-1964.10
0 10 20 30 40 50 60 70 80 90 100 110 mm
0 0.5 1 1.5 2 2.5 3 3.5 4 in
7000
6000
5000
4000
3000
2000
1000
0
30000
25000
20000
15000
10000
5000
0
lbf N
Prad. Prad.
Pmax.0
+- =5000 N=1124 lbf
Shaft: All shaft types
Mounting flange:Wheel
Shaft:Cyl. 32 mm – Cyl. 1.25 in – Splined 1.25 in. Tapered 35 mm – Tapered 1.25 in – P.t.o.
Mounting flange: Standard – A-2 – Magneto – SAE B
12 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
151-1960.10
-20 -10 0 10 20 30 40 50 60 70 80 mm
-0.5 0 0.5 1 1.5 2 2.5 3 in
7000
6000
5000
4000
3000
2000
1000
0
30000
25000
20000
15000
10000
5000
0
lbf N
Prad. Prad.
Pmax.0
+- =5000 N=1124 lbf
Shaft: Cyl. 1 in – Splined 1 in
Permissible Shaft Loads for OMS
Technical Data
151-1961.10
-20 -10 0 10 20 30 40 50 60 mm
-0.5 0 0.5 1 1.5 2 in
4000
3000
2000
1000
0
20000
15000
10000
5000
0
lbf N
Prad. Prad.
Pmax.0
+- =5000 N=1124 lbf
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Mounting flange: Special
Mounting flange: A-2 – Magneto
Shaft:Splined 1.25 in
13520L0407 • Rev EG • Jul 2012
OMSTechnical Information
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Permissible Shaft Loads for OMS
Technical Data
151-1963.10
-20 -10 0 10 20 30 40 50 60 mm
-0.5 0 0.5 1 1.5 2 in
4000
3000
2000
1000
0
20000
15000
10000
5000
0
lbf N
Prad. Prad.
Pmax.0
+- =5000 N=1124 lbf
Mounting flange:SAE B
Shaft:Splined 0.875 in
14 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)Max. permissible continuous/intermittent torque for the actual shaft version can be found on page 8.
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
OMS 80lbf•in Nm
3000
2500
2000
1500
1000
500
0
325
300
275
250
225
200
175
150
125
100
75
50
25
0
0 100 200 300 400 500 600 700 800 900 1000
151-901.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=8
0 l/m
in[2
1.1
US
gal/m
in]
65 l/
min
[17.
2 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
210 bar
∆ p= 30 bar
3050 psi175 bar
2540 psi
225 bar3260 psi
250 bar3630 psi
105 bar1520 psi
∆ p=275 bar3990 psi
440 psi
2030 psi140 bar
1020 psi70 bar
N=1kW
6kW
N=18kW
75% 70%
12hp
18hp
15hp
6hp
1hp
ηt =81%
78%
80%
ηt =60%
9hp
15kW12kW
3kW
9kW
3hp
OMS 100lbf•in Nm
4000
3500
3000
2500
2000
1500
1000
500
0
450
400
350
300
250
200
150
100
50
0
0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750 800 850 900 950
151-902.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
210 bar
∆ p= 35 bar
3050 psi175 bar
2540 psi
225 bar3260 psi
250 bar3630 psi
105 bar1520 psi
∆ p=275 bar3990 psi
510 psi
2030 psi140 bar
1020 psi70 barN=1kW
6kW
N=18kW
75%70%
12hp
18hp
15hp
6hp
1hp
ηt =83%
80%
ηt =60%
15kW12kW
3kW
9kW
3hp
15520L0407 • Rev EG • Jul 2012
OMSTechnical InformationFunction Diagrams
Function Diagrams
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)Max. permissible continuous/intermittent torque for the actual shaft version can be found on page 8.
Intermittent pressure drop and oil flow must not occur simultaneously.
OMS 125lbf•in Nm
4500
4000
3500
3000
2500
2000
1500
1000
500
0
500
450
400
350
300
250
200
150
100
50
0
0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750
151-903.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
210 bar
∆ p= 35 bar
3050 psi175 bar
2540 psi
225 bar3260 psi
250 bar3630 psi
105 bar1520 psi
∆ p=275 bar3990 psi
510 psi
2030 psi140 bar
1020 psi70 bar
N=1kW
6kW
N=21kW
75%70%
12hp 18hp15hp
6hp
1hp
ηt =85%
80%
83%
ηt =60%
9hp
15kW12kW
21hp 18kW
3kW
9kW
3hp
OMS 160lbf•in Nm
6000
5000
4000
3000
2000
1000
0
600
550
500
450
400
350
300
250
200
150
100
50
0
0 50 100 150 200 250 300 350 400 450 500 550 600
151-904.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
210 bar
∆ p= 35 bar
3050 psi175 bar
2540 psi
225 bar3260 psi
160 bar2320 psi160 bar
2030 psi
∆ p=260 bar3770 psi
510 psi
1520 psi140 bar
1020 psi70 barN=1kW
6kW
N=21kW
75% 70%
12hp
18hp
15hp6hp
1hp
ηt =87%
80%83%85%86%
ηt =60%
9hp
15kW12kW
21hp
18kW
3kW
9kW
3hp
16 520L0407 • Rev EG • Jul 2012
OMSTechnical InformationFunction Diagrams
Function Diagrams
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)Max. permissible continuous/intermittent torque for the actual shaft version can be found on page 8.
Intermittent pressure drop and oil flow must not occur simultaneously.
OMS 200lbf•in Nm
7000
6000
5000
4000
3000
2000
1000
0
750
700
650
600
550
500
450
400
350
300
250
200
150
100
50
0
0 50 100 150 200 250 300 350 400 450 500
151-905.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
210 bar
∆ p= 30 bar
3050 psi175 bar
2540 psi160 bar
2320 psi
225 bar3260 psi
∆ p=250 bar3630 psi
105 bar1520 psi
440 psi
2030 psi140 bar
1020 psi70 barN=1kW
6kW
N=21kW
75%70%
12hp
18hp
15hp
6hp
1hp
ηt =88%
80%83%
85%86%
ηt =60%
9hp
15kW12kW
21hp
18kW
3kW
9kW
3hp
OMS 250lbf•in Nm
8000
7000
6000
5000
4000
3000
2000
1000
0
900
800
700
600
500
400
300
200
100
0
0 50 100 150 200 250 300 350 400
151-1039.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
200 bar
∆ p= 35 bar
2900 psi175 bar
2540 psi155 bar
2250 psi
225 bar3260 psi
∆ p=250 bar3630 psi
95 bar1390 psi
125 bar1810 psi
510 psi
2030 psi140 bar
1020 psi70 barN=1kW
6kW
N=21kW
75%
70%
12hp
18hp15hp
6hp
1hp
80%83%
85%86%
ηt =60%
ηt =87%
9hp
15kW12kW
21hp
18kW
3kW
9kW
3hp
17520L0407 • Rev EG • Jul 2012
OMSTechnical InformationFunction Diagrams
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)Max. permissible continuous/intermittent torque for the actual shaft version can be found on page 8.
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams OMS 315lbf•in Nm
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
1100
1000
900
800
700
600
500
400
300
200
100
0
0 25 50 75 100 125 150 175 200 225 250 275 300
151-906.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
200 bar
∆ p= 35 bar
2900 psi175 bar
2540 psi160 bar
2320 psi
225 bar3260 psi
∆ p=240 bar3480 psi
120 bar1740 psi
510 psi
2030 psi140 bar
1020 psi70 bar
1450 psi100 bar
N=1kW
6kW
N=18kW
75%
70%
12hp
18hp
15hp
6hp
1hp
ηt =87% 80%
83%
85%
ηt =60%
9hp
15kW
12kW
3kW
9kW
3hp
OMS 400lbf•in Nm
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
1100
1000
900
800
700
600
500
400
300
200
100
0
0 25 50 75 100 125 150 175 200 225 250
151-1491.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
∆ p= 30 bar
175 bar2540 psi
160 bar2320 psi
105 bar1520 psi
∆ p=190 bar2760 psi
120 bar1740 psi
440 psi
2030 psi140 bar
870 psi60 bar
1160 psi80 bar
N=1kW
6kW
N=15kW
75%70%
12hp
15hp
6hp
1hp
ηt =87%
80%83%
86%85%
ηt =60%
9hp
12kW
3kW
9kW
3hp
18 520L0407 • Rev EG • Jul 2012
OMSTechnical InformationFunction Diagrams
Function Diagrams
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)Max. permissible continuous/intermittent torque for the actual shaft version can be found on page 8.
Intermittent pressure drop and oil flow must not occur simultaneously.
OMS 500lbf•in Nm
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
1100
1000
900
800
700
600
500
400
300
200
100
0
0 25 50 75 100 125 150 175 200
151-1984.10
min-1
(rpm)
10 l/
min
[2.6
US
gal/m
in]
Q=5
l/m
in[1
.3 U
S ga
l/min
]
Q=9
0 l/m
in[2
3.8
US
gal/m
in]
75 l/
min
[19.
8 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
30 l/
min
[7.9
US
gal/m
in]
50 l/
min
[13.
2 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
∆ p= 25 bar
105 bar1520 psi
∆ p=140 bar2030 psi
120 bar1740 psi
360 psi
730 psi50 bar
1160 psi80 bar
1300 psi90 bar
N=1kW
6kW
N=12kW
75% 70%
12hp6hp
1hp
ηt =88%
80%
83%
86% 85%
ηt =60%
9hp3kW
9kW
3hp
19520L0407 • Rev EG • Jul 2012
OMSTechnical InformationShaft Version
Shaft Version
R0.5 [0.020]
R0.4 [0.016]
R4 [0.16]
9.4 [0.370]7.5 [0.295]
31.75 [1.250]31.37 [1.235]
31.75 [1.250]31.37 [1.235]
43.4 [1.708]42.6 [1.678]
3.0 [0.118]2.0 [0.079] 6.40 [0.252]
6.35 [0.250]
7.962 [0.3135]7.937 [0.3125]
R0.6 [0.024]
151-876.10
45˚
45˚
D
F
B
CCC
A-A
A-A
A-A
A
A
A
A
A
A
A
E
58 [2.28]
18 [0.71]
6 [0.24]
45.5 [1.791]45.0 [1.772]
56.5 [2.224]
10.000 [0.3937]9.964 [0.3923]
5.5 [0.217]4.5 [0.177]
48.4 [1.906]47.6 [1.874]
3/8 -16 UNC
3/8 -16 UNC
min. 20 [0.78]
min. 20 [0.78]
Ø32
.018
[1.2
605]
Ø32
.002
[1.2
599]
35.0
0 [1
.378
]34
.71
[1.3
67]
M8
Ø31
.750
[1.2
500]
Ø31
.699
[1.2
480]
35.3
3 [1
.391
]35
.08
[1.3
81]
28.2
[1.1
10]
27.9
[1.0
98]
Ø25
.40
[1.0
00]
Ø25
.38
[0.9
99]
Ø35
[1.3
8]Ø
35 [1
.38]
Ø35
[1.3
8]
A: Cylindrical 32 mm shaftD: Parallel key A10 × 8 × 45 DIN 6885 Keyway deviates from standard
B: Cylindrical 1.25 in shaftE: Parallel key 5/16 × 5/16 × 11/4 in SAE J744 Keyway deviates from standard
C: Cylindrical 1 in shaftF: Parallel key 1/4 × 1/4 × 11/4 in B.S. 46 Keyway deviates from standard
20 520L0407 • Rev EG • Jul 2012
OMSTechnical InformationShaft Version
D. Involute splined shaft ANS B92.1 - 1970 standard Flat root side fit Pitch 12/24 Teeth 14 Major dia. 1.25 in Pressure angle 30°
US version E: Involute splined shaft ANS B92.1 - 1970 standard Flat root side fit Pitch 12/24 Teeth 14 Major dia. 1.25 in Pressure angle 30°
F: Splined shaft SAE 6 B (B.S. 2059) Straight-sided, bottom fitting, deep. Fit 2 Nom. size 1 in
*Deviates from SAE 6 B (B.S. 2059)
R0.5 [0.020]
R0.4 [0.016]
R4 [0.16]
9.4 [0.370]7.5 [0.295]
31.75 [1.250]31.37 [1.235]
31.75 [1.250]31.37 [1.235]
43.4 [1.708]42.6 [1.678]
3.0 [0.118]2.0 [0.079] 6.40 [0.252]
6.35 [0.250]
7.962 [0.3135]7.937 [0.3125]
R0.6 [0.024]
151-876.10
45˚
45˚
D
F
B
CCC
A-A
A-A
A-A
A
A
A
A
A
A
A
E
58 [2.28]
18 [0.71]
6 [0.24]
45.5 [1.791]45.0 [1.772]
56.5 [2.224]
10.000 [0.3937]9.964 [0.3923]
5.5 [0.217]4.5 [0.177]
48.4 [1.906]47.6 [1.874]
3/8 -16 UNC
3/8 -16 UNC
min. 20 [0.78]
min. 20 [0.78]
Ø32
.018
[1.2
605]
Ø32
.002
[1.2
599]
35.0
0 [1
.378
]34
.71
[1.3
67]
M8
Ø31
.750
[1.2
500]
Ø31
.699
[1.2
480]
35.3
3 [1
.391
]35
.08
[1.3
81]
28.2
[1.1
10]
27.9
[1.0
98]
Ø25
.40
[1.0
00]
Ø25
.38
[0.9
99]
Ø35
[1.3
8]Ø
35 [1
.38]
Ø35
[1.3
8]
Shaft Version
21520L0407 • Rev EG • Jul 2012
OMSTechnical InformationShaft Version
G. Involute splined shaft ANS B92.1 - 1970 standard Flat root side fit Pitch 16/32 Teeth 13 Major dia. 0.875 in Pressure angle 30°
H: Tapered 35 mm shaft (ISO/R775)K: DIN 937 Across flats: 41 mm Tightening torque: 200 ± 10 Nm [1770 ±85 lbf·in]J: Taper 1:10L: Parallel key B6 × 6 × 20 DIN 6885 Keyway deviates from standard
I: Tapered 1 1/4 in shaftN: Cone 1:8 SAE J501M: 1 - 20 UNEF Across flats 1 7/16 in Tightening torque: 200 ± 10 Nm (1770 ±85 lbf·in)O: Parallel key 5/16 × 5/16 × 1 1/4
SAE J501 Keyway deviates from standard
31.75 [1.250]31.37 [1.235]35.6 [1.402]34.4 [1.354]
7.960 [0.3134]7.940 [0.3126]
54.3 [2.138]53.7 [2.114]
12.7 [0.500]
5 [0.20]
58 [2.28]
13.5 [0.531]12.5 [0.492]
33.2 [1.307]32.8 [1.291]
R2.5 [0.098]
20 [0.79]
13 [0.51] 6.00 [0.236]5.97 [0.235]
36 [1.42]
R4 [0.16]
4 [0.16]
151-1915.10
Ø35
[1.3
8]Ø
35 [1
.38]
Ø35
[1.3
8]
Ø4
[0.1
5]
17.1
6 [0
.676
]16
.94
[0.6
77]
Ø31
.775
[1.2
510]
Ø31
.725
[1.2
490]
Ø18
.6 [0
.732
]Ø
18.4
[0.7
24]
Ø22
.1 [0
.870
]Ø
21.9
[0.8
62]
19.1
.[0.7
52]
19.0
[0.7
48]
M20
x1.5
[0.5
91]
Ø4.
5 [0
.177
]
Ø44
[1.7
3]
45˚
H
G
I
A-A
A-A
A-A
O
M
N
L
J K
A
A
A
A
A
A
Shaft Version
22 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
A: G main ports B: UNF main ports E: ISO 228/1 - G1/2 F: 7/8 - 14 UNF O-ring boss port
C: G drain port D: UNF drain port G: ISO 228/1 - G1/4 H: 7/16 - 20 UNF O-ring boss port
A
B
C
D
G H
E F
151-1971.11
min
. 12
[0.4
7]
min
. 12
[0.4
7]m
in. 1
6.7
[0.6
57]
min
. 16
[0.6
3]
Ø34.4 [1.354]Ø34.0 [1.339]
Ø21.4 [0.843]Ø21.0 [0.827]
A
B
C
D
G H
E F
151-1971.11
min
. 12
[0.4
7]
min
. 12
[0.4
7]m
in. 1
6.7
[0.6
57]
min
. 16
[0.6
3]
Ø34.4 [1.354]Ø34.0 [1.339]
Ø21.4 [0.843]Ø21.0 [0.827]
Technical Data
J. P.t.o. shaft DIN 9611 Form 1 (ISO/R500 without pin hole)
** Deviates from DIN 9611
100 [3.94]
R5 [0.20]
R0.5 [0.020] R6.7 [0.267]
7 [0.28]
77 [3.03]75 [2.95]
38.25 [1.506]37.75 [1.486]
28.14 [1.108]27.89 [1.098]
8.64 [0.340]
8.53 [0.336]
151-1948.10
29.5
[1.1
61]
29.3
[1.1
54]
Ø34
.85
[1.3
72]
Ø34
.73
[1.3
67]
Ø40
[1.5
7]
45˚60˚
J
A-AA
A
Shaft Version
Port Thread Versions
23520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø82.55 [3.250]Ø82.50 [3.248]
56 [2.20]
48 [1.89]
1 [0
.04]
x45˚
max. 128 [5.04]
max. 105 [4.13]
106.8 [4.205]106.0 [4.173]
max. 131 [5.157]
40 [1
.57]
6.35
[0.2
50]
5.85
[0.2
30]
66.5
[2.6
18]
64.5
[2.5
39]
Ø20
[0.7
9]
18 [0
.71]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
151-1809.10
max. 52 [2.05] max. 54 [2.13]
Ø13.5 [0.531]
Rmin. 14 [0.55]
R13 [0.51]
R20 [0.78]
C
D
E
L L 1
L 2L 3
Dimensions – European Version
DimensionStandard Flange
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMS 80167
[6.57]14.0
[0.551]124
[4.88]
OMS 100170
[6.69]17.4
[0.685]127
[5.00]
OMS 125175
[6.89]21.8
[0.858]132
[5.20]
OMS 160181
[7.13]27.8
[1.094]138
[5.43]
OMS 200188
[7.40]34.8
[1.370]145
[5.71]
OMS 250196
[7.72]43.5
[1.713]153
[6.02]
OMS 315208
[8.19]54.8
[2.157]165
[6.50]
OMS 400221
[8.70]68.4
[2.693]178
[7.01]
Output shaftL3
mm [in]
All shafts except P.t.o. shaft
max67
[2.64]
min65
[2.56]
P.t.o. shaftmax
109 [4.29]
min107
[4.21]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deepD: M10; 13 mm [0.51 in] deepE: G 1⁄2; 15 mm [0.59 in] deep
24 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
max. 131 [5.16]
106.8 [4.205]106.0 [4.173]
Ø82.55 [3.250]Ø82.50 [3.248]
56 [2.20]
1 [0
.04]
x45˚
max. 105 [4.13]
max. 126 [4.96]
18 [0
.71]
66.5
[2.6
18]
64.5
[2.5
39]
Ø21
[0.8
3]
Ø13.5 [0.531]
6.35
[0.2
50]
5.85
[0.2
30]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
max. 52 [2.05] max. 54 [2.13]
40 [1.57]
151-1972.10
C
D
E
L L 1
L 3L 2
Dimensions – US Version
Standard Flange
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMS 80167
[6.57]14.0
[0.551]124
[4.88]
OMS 100170
[6.69]17.4
[0.685]127
[5.00]
OMS 125175
[6.89]21.8
[0.858]132
[5.20]
OMS 160181
[7.13]27.8
[1.094]138
[5.43]
OMS 200188
[7.40]34.8
[1.370]145
[5.71]
OMS 250196
[7.72]43.5
[1.713]153
[6.02]
OMS 315208
[8.19]54.8
[2.157]165
[6.50]
OMS 400221
[8.70]68.4
[2.693]178
[7.01]
OMS 500221
[8.70]68.4
[2.693]178
[7.01]
Output shaftL3
mm [in]
Cyl.1.25 inSplined 1.25 in
max57
[2.24]
min55
[2.17]
Tapered 1.25 inmax
67 [2.64]
min65
[2.56]
C: Drain connection 7⁄16 - 20 UNF; 12 mm [0.47 in] deep O-ring boss portD: M10; 13 mm [0.51 in] deepE: 7⁄8 - 14 UNF; 16.7 mm [0.657 in] deep O-ring boss port
25520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø82.55 [3.250]Ø82.50 [3.248]
56 [2.20]
48 [1.89]
1 [0
.04]
x45˚
max
. 103
[4.0
6]max. 103 [4.06]
Ø106.8 [4.205]
Ø106.0 [4.173]
Ø11
.5 [0
.453
]
6.35
[0.2
50]
5.85
[0.2
30]
78.5
[3.0
91]
76.5
[3.0
12]
Ø20
[0.7
9]
58 [2
.28]
55 [2
.17]
53 [2
.09]
18 [0
.71]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
151-1810.10
max. 52 [2.05] max. 54 [2.13]
R10 [0.39]
C
D
E
L L 1
L 2
Dimensions – European Version
Special Flange
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMS 80178
[7.01]14.0
[0.551]136
[5.35]
OMS 100182
[7.17]17.4
[0.685]140
[5.51]
OMS 125186
[7.32]21.8
[0.858]144
[5.67]
OMS 160192
[7.56]27.8
[1.094]150
[5.91]
OMS 200199
[7.83]34.8
[1.370]157
[6.18]
OMS 250208
[8.19]43.5
[1.713]166
[6.54]
OMS 315219
[8.62]54.8
[2.157]177
[6.97]
OMS 400232
[9.13]68.4
[2.693]190
[7.48]
26 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø88.55 [3.250]Ø82.50 [3.248]
Ø13.5 [0.531]
56 [2.20]
1 [0
.04]
x45˚
106.
8 [4
.205
]10
6.0
[4.1
73]
max
. 131
[5.1
6]
max. 126 [4.96]
18 [0
.71]
66.5
[2.6
18]
64.5
[2.5
39]
Ø21
[0.8
3]
6.35
[0.2
50]
5.85
[0.2
30]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
151-1979.10
max. 52 [2.05] max. 54 [2.13]
40 [1.57]
C
D
E
L L 1
L 3L 2
Dimensions – US Version
A-2 Flange
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMS 80167
[6.57]14.0
[0.551]124
[4.88]
OMS 100170
[6.69]17.4
[0.685]127
[5.00]
OMS 125175
[6.89]21.8
[0.858]132
[5.20]
OMS 160181
[7.13]27.8
[1.094]138
[5.43]
OMS 200188
[7.40]34.8
[1.370]145
[5.71]
OMS 250196
[7.72]43.5
[1.713]153
[6.02]
OMS 315208
[8.19]54.8
[2.157]165
[6.50]
OMS 400221
[8.70]68.4
[2.693]178
[7.01]
OMS 500221
[8.70]68.4
[2.693]178
[7.01]
Output shaftL3
mm [in]
Cyl.1 inSplined 1 in
max52
[2.05]
min50
[1.97]
Cyl.1.25 in Splined 1.25 in
max57
[2.24]
min55
[2.17]
Tapered 1.25 inmax
67 [2.64]
min65
[2.56]
C: Drain connection 7⁄16 - 20 UNF; 12 mm [0.47 in] deep O-ring boss portD: M10; 13 mm [0.51 in] deepE: 7⁄8 - 14 UNF; 16.7 mm [0.657 in] deep O-ring boss port
27520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø88.55 [3.250]Ø82.50 [3.248]
Ø13.5 [0.531]
6xØ20 [0.79]
56 [2.20]
0.3
[0.0
12]x
45˚
106.
8 [4
.205
]10
6.0
[4.1
73]
max
. 136
[5.3
5]
18.9
[0.7
44]
2.6
[0.1
02]
70 [2
.75]
68 [2
.68]
Ø21
[0.8
3]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
151-1980.10
max. 52 [2.05]
22.5˚ 22.5˚
max. 54 [2.13]
C
D
E
L L 1
L 3L 2
Dimensions – US Version
Magneto Flange
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMS 80171
[6.73]14.0
[0.551]128
[5.04]
OMS 100174
[6.85]17.4
[0.685]131
[5.16]
OMS 125179
[7.05]21.8
[0.858]136
[5.35]
OMS 160185
[7.28]27.8
[1.094]142
[5.59]
OMS 200192
[7.56]34.8
[1.370]149
[5.87]
OMS 250200
[7.87]43.5
[1.713]157
[6.18]
OMS 315212
[8.35]54.8
[2.157]169
[6.65]
OMS 400225
[8.86]68.4
[2.693]182
[7.17]
OMS 500225
[8.86]68.4
[2.693]182
[7.17]
Output shaftL3
mm [in]
Cyl.1 inSplined 1 in
max49
[1.93]
min47
[1.85]
Cyl.1.25 in Splined 1.25 in
max54
[2.13]
min52
[2.05]
C: Drain connection 7⁄16 - 20 UNF; 12 mm [0.47 in] deep O-ring boss portD: M10; 13 mm [0.51 in] deepE: 7⁄8 - 14 UNF; 16.7 mm [0.657 in] deep O-ring boss port
28 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø101.60 [4.000]Ø101.55 [3.998]
Ø56.5 [2.224]Ø55.5 [2.185]
Ø14.3 [0.570]
56 [2.20]
1 [0
.04]
x45˚
146.
05 [5
.750
]
max
. 174
[6.8
5]
Rmin
. 14
[0.5
5]R1
0 [0
.39]
max. 126 [4.96]
18 [0
.71]
66.5
[2.6
18]
64.7
[2.5
47]
Ø21
[0.8
3]
9.7
[0.3
82]
9.3
[0.3
66]
3.5
[0.1
38]
3.3
[0.1
30]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
max. 52 [2.05] max. 54 [2.13]
40 [1.57]
151-1981.10
C
D
E
L L 1
L 3L 2
Dimensions – US Version
SAE-B Flange
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMS 80167
[6.57]14.0
[0.551]124
[4.88]
OMS 100170
[6.69]17.4
[0.685]127
[5.00]
OMS 125175
[6.89]21.8
[0.858]132
[5.20]
OMS 160181
[7.13]27.8
[1.094]138
[5.43]
OMS 200188
[7.40]34.8
[1.370]145
[5.71]
OMS 250196
[7.72]43.5
[1.713]153
[6.02]
OMS 315208
[8.19]54.8
[2.157]165
[6.50]
OMS 400221
[8.70]68.4
[2.693]178
[7.01]
OMS 500221
[8.70]68.4
[2.693]178
[7.01]
Output shaftL3
mm [in]
Splined 1.25 inmax
57 [2.24]
min55
[2.17]
Splined 0.875 inmax
42 [1.65]
min40
[1.57]
C: Drain connection 7⁄16 - 20 UNF; 12 mm [0.47 in] deep O-ring boss portD: M10; 13 mm [0.51 in] deepE: 7⁄8 - 14 UNF; 16.7 mm [0.657 in] deep O-ring boss port
29520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø125.000 [4.9213]Ø124.937 [4.9188] max. Ø73 [2.87]
16˚
56 [2.20]
48 [1.89]
1 [0
.04]
x45˚
max
. 139
[5.4
6]
max. 139 [5.46]
160.4 [6.315]
159.6 [6.283]
Ø13
.5 [0
.531
]
R6 [0
.24]
28.5
[1.1
2]
9 [0
.35]
7 [0
.28]
Ø20
[0.7
9]
58 [2
.28]
43.9
[1.7
38]
42.5
[1.6
73]
104
[4.0
9]10
2 [4
.02]
16 [0
.63]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
151-1812.10
max. 52 [2.05] max. 54 [2.13]
R12 [0.47]
C
D
E
L
L 1L 2
Dimensions – European Version
Wheel
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMSW 80
129 [5.08]
14.0 [0.551]
87 [3.43]
OMSW 100
132 [5.20]
17.4 [0.685]
90 [3.54]
OMSW 125
137 [5.39]
21.8 [0.858]
95 [3.74]
OMSW 160
143 [5.63]
27.8 [1.094]
101 [3.98]
OMSW 200
150 [5.91]
34.8 [1.370]
108 [4.25]
OMSW 250
158 [6.22]
43.5 [1.713]
116 [4.57]
OMSW 315
170 [6.69]
54.8 [2.157]
128 [5.04]
OMSW 400
183 [7.20]
68.4 [2.693]
142 [5.59]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep D: M10; 13 mm [0.51 in] deep E: G 1⁄2; 15 mm [0.59 in] deep
30 520L0407 • Rev EG • Jul 2012
OMSTechnical Information
Ø125.000 [4.9213]Ø124.937 [4.9188] max. Ø73 [2.87]
16˚
56 [2.20]
48 [1.89]
1 [0
.04]
x45˚
max
. 139
[5.4
6]
max. 139 [5.46]
160.4 [6.315]
159.6 [6.283]
Ø13
.5 [0
.531
]
R6 [0
.24]
28.5
[1.1
2]
9 [0
.35]
7 [0
.28]
Ø20
[0.7
9]
58 [2
.28]
43.9
[1.7
38]
42.5
[1.6
73]
104
[4.0
9]10
2 [4
.02]
16 [0
.63]
5.6
[0.2
2]4.
4 [0
.17]
27.6
[1.0
47]
26.4
[1.0
39]
22.6
[0.8
90]
21.4
[0.8
50]
R1 [0
.04]
16.3 [0.642]15.7 [0.618]
16.3 [0.642]15.7 [0.618]
21.3 [0.839]20.7 [0.815]
21.3 [0.839]20.7 [0.815]
R18 [0.71]
70 [2.76]
max. 103 [4.06]
151-1812.10
max. 52 [2.05] max. 54 [2.13]
R12 [0.47]
C
D
E
L
L 1L 2
Dimensions – US Version
Wheel
Output shaftL3
mm [in]
Cyl.1.25 inmax
94 [3.70]
min92
[3.62]
Tapered 1.25 inmax
104 [4.09]
min102
[4.02]
C: Drain connection 7⁄16 - 20 UNF; 12 mm [0.47 in] deep O-ring boss portD: M10; 13 mm [0.51 in] deepE: 7⁄8 - 14 UNF; 16.7 mm [0.657 in] deep O-ring boss port
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMSW 80
130 [5.12]
14.0 [0.551]
88 [3.46]
OMSW 100
133 [5.24]
17.4 [0.685]
91 [3.58]
OMSW 125
138 [5.43]
21.8 [0.858]
96 [3.78]
OMSW 160
144 [5.67]
27.8 [1.094]
102 [4.02]
OMSW 200
151 [5.94]
34.8 [1.370]
109 [4.29]
OMSW 250
159 [6.26]
43.5 [1.713]
117 [4.61]
OMSW 315
171 [6.73]
54.8 [2.157]
129 [5.08]
OMSW 400
184 [7.24]
68.4 [2.693]
142 [5.59]
OMSW 500
184 [7.24]
68.4 [2.693]
142 [5.59]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep D: M10; 13 mm [0.51 in] deep E: G 1⁄2; 15 mm [0.59 in] deep
31520L0407 • Rev EG • Jul 2012
OMSTechnical InformationDimensions – European Version
Short
TypeLmax
mm [in]
L1
mm [in]
L2
mm [in]
OMSS80
124 [4.88]
14.0 [0.551]
83 [3.27]
OMSS100
128 [5.04]
17.4 [0.685]
86 [3.39]
OMSS125
132 [5.20]
21.8 [0.858]
90 [3.54]
OMSS160
138 [5.43]
27.8 [1.094]
96 [3.78]
OMSS200
145 [5.71]
34.8 [1.370]
103 [4.06]
OMSS250
154 [6.06]
43.5 [1.713]
112 [4.41]
OMSS 315
165 [6.50]
54.8 [2.157]
123 [4.84]
OMSS 400
179 [7.05]
68.4 [2.693]
137 [5.39]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep D: M10; 13 mm [0.51 in] deep E: G 1⁄2; 15 mm [0.59 in] deep
32 520L0407 • Rev EG • Jul 2012
OMSTechnical InformationOMSS
Installing the OMSS
OMSSDimensions of the Attached Component
The cardan shaft of the OMSS motor acts as an “output shaft”. Because of the movement of the shaft, no seal can be fitted at the shaft output. Internal oil leakage from the motor will therefore flow into the attached component.
During start and operation it is important that the spline connection and the bearings in the attached component receive oil and are adequately lubricated. To ensure that the spline connection receives sufficient oil, a conical sealing ring between the shaft of the attached component and the motor intermediate plate is recommended. This method is used in the OMS.
The conical sealing ring (code. no. 633B9023) is supplied with the motor.
To ensure that oil runs to the bearings and other parts of the attached component, the stop plate must have a hole in it (see fig. below).
We recommend an O-ring between motor and attached component. The O-ring (code no. 151F1033) is supplied with the motor. If motor and attached component have been separated, remember to refill before starting up. Fill the oil through the drain connection.
2.35 [0.093]2.25 [0.089]
0.25 [0.010]
0.1˚
8.4 [0.331]8.0 [0.315]27.3 [1.075]
26.7 [1.051]
33 [1.30]31 [1.22]
52.3 [2.059]51.7 [2.035]
6.2 [0.244]5.8 [0.228]
16.5 [0.650]15.5 [0.610]
34.2 [1.346]33.8 [1.331]
28 [1.10]26 [1.02]
151-873.10
15 [0.59]
min
. Ø4
[0.1
6]
Ø10
0 [3
.94]
min
. Ø40
[1.5
7]
Ø10
8.0
[4.2
52]
Ø10
7.6
[4.2
36]
Ø35
.5 [1
.398
]Ø
34.5
[1.3
58]
Ø29
.5 [1
.161
]Ø
28.5
[1.1
22]
Ø40
.5 [1
.594
]Ø
40.3
[1.5
87]
Ø61
.5 [2
.421
]Ø
60.5
[2.3
82]
CA
B
E
D
F
KK
K
G H
A: O-ring: 100 × 3 mm B: External drain channelC: Drain connection G 1⁄4; 12 mm [0.47 in] deepD: Conical seal ring
E: Internal drain channelF: M10; min. 15 mm [0.59 in] deepG: Oil circulation holeH: Hardened stop plate
33520L0407 • Rev EG • Jul 2012
OMSTechnical Information
The attached component must have internal splines corresponding to the external splines on the motor cardan shaft (see drawing below).
Material:Case hardening steel with a tensile strength corresponding at least to 20 MoCr4 (900 N/mm2) or SAE 8620.
Hardening specification: • On the surface: HV = 750 ± 50 • 0.7 ± 0.2 mm under the surface: HV = 560
Internal involute spline dataStandard ANS B92.1-1970, class 5 (corrected m · X = 0.8; m = 2.1166)
OMSS
Internal Spline Data for the Component to be Attached
Drain Connection on OMSS or Attached Component
dl
D
DriDi
D�
So
Lo
Rmin
151-874.10
A drain line ought to be used when pressure in the return line can exceed the permissible pressure on the shaft seal of the attached component.
The drain line can be connected at two different points:1) at the motor drain connection2) at the drain connection of the attached component.
If a drain line is fitted to the attached component, it must be possible for oil to flow freely between motor and attached component.
The drain line must be led to the tank in such a way that there is no risk of the motor and attached component being drained of oil when at rest.The maximum pressure in the drain line is limited by the attached component and its shaft seal.
Flat root side fit mm inNumber of teeth
z 12 12
Pitch DP 12/24 12/24Pressure angle 30° 30°Pitch dia. D 25.4 1.0Major dia.
Dri 28.0 0–0.1
1.10 0–0.004
Form dia. (min.)
Dfi 27.6 1.09
Minor dia. Di 23.0 0+0.033 0.9055 0
+0.0013
Space width (circular)
Lo 4.308 ±0.020 0.1696 ±0.0008
Tooth thickness (circular)
So 2.341 0.09217
Fillet radius Rmin. 0.2 0.008Max. measurementbetween pins*
l 17.62 0+0.15 0.700 0
–0.006
Pin dia. d 4.835 ±0.001 0.1903 ±0.00004
* Finished dimensions (when hardened)
34 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
OMTVersions
Mou
ntin
g fla
nge
Shaf
t
Port
siz
e
Euro
pean
ver
sion
US
vers
ion
Dra
in c
onne
ctio
n
Chec
k va
lve
Low
pre
ssur
e re
leas
e
Hig
h pr
essu
re re
leas
e
Mai
n ty
pe d
esig
nati
on
Standardflange
Cyl. 40 mm G 3/4 l Yes Yes OMT
Cyl. 1.5 in 1 1/16-12 UN l Yes Yes OMT
Splined 1.5 inG 3/4 l Yes Yes OMT
1 1/16-12 UN l Yes Yes OMT
Tapered 45 mm G 3/4 l Yes Yes OMT
Tapered 1.75 in 1 1/16-12 UN l Yes Yes OMT
P.t.o. G 3/4 l Yes Yes OMT
Wheel
Cyl. 40 mm G 3/4 l Yes Yes OMTW
Tapered 45 mm G 3/4 l Yes Yes OMTW
Tapered 1.75 in 1 1/16-12 UN l Yes Yes OMTW
Brake-wheelWheel bolt flange G 3/4 l Yes No l OMT FX
Thread hole flange G 3/4 l Yes No l OMT FX
Brake-standard
Cyl. 40 mm G 3/4 l Yes No l OMT FL
Splined 1.5 in G 3/4 l Yes No l OMT FL
Cyl. 40 mm G 3/4 l Yes No l OMT FH
Splined 1.5 in G 3/4 l Yes No l OMT FH
Short No output shaft G 3/4 l Yes Yes OMTSFunction diagram - see page : →
Versions
Features available (options) :Speed sensorMotor with tacho connectionViton shaft sealPaintedUltra short
35520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Code Numbers
Code
Num
bers
Displacement [cm3]
Tech
nica
l dat
a –
Page
Shaf
t loa
ds –
Pag
e
Dim
ensi
ons
– Pa
ge
160 200 250 315 400 500151B 3000 3001 3002 3003 3004 3005 36 40 49
151B 2050 2051 2052 2053 2054 2055 36 40 50
151B 3006 3007 3008 3009 3010 3011 36 40 49
151B 2056 2057 2058 2059 2060 2061 36 40 50
151B 3012 3013 3014 3015 3016 3017 36 40 49
151B 2062 2063 2064 2065 2066 2067 36 40 50
151B 3018 3019 3020 3021 3022 3023 36 40 49
151B 3024 3025 3026 3027 3028 3029 36 40 51
151B 3030 3031 3032 3033 3034 3035 36 40 51
151B 2080 2081 2082 2083 2084 2085 36 40 52
151B 3207 3208 3209 3210 3211 3212 36 41 53
151B 3200 3201 3202 3203 3204 3205 36 41 53
151B 4000 4001 4002 4003 4004 4005 36 41 54
151B 4007 4008 4009 4010 4011 4012 36 41 54
151B 4021 4022 4023 4024 4025 4026 36 41 54
151B 4028 4029 4030 4031 4032 4033 36 41 54
151B 3036 3037 3038 3039 3040 3041 36 - 55
42 42 43 43 44 44
Code Numbers
OrderingAdd the four digit prefix “151B” to the four digit numbers from the chart for complete code number.
Example: 151B3002 for an OMT 250 with standard flange, cyl. 40 mm shaft and port size G 3/4.
Orders will not be accepted without the four digit prefix.
36 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Technical datafor OMT, OMTW, OMTS, OMT FX OMT FL and OMT FH
Type
OMTOMTWOMTS
OMT FXOMT FLOMT FH
OMTOMTWOMTS
OMT FXOMT FLOMT FH
OMTOMTWOMTS
OMT FXOMT FLOMT FH
OMTOMTWOMTS
OMT FXOMT FLOMT FH
OMTOMTWOMTS
OMT FXOMT FLOMT FH
OMTOMTWOMTS
OMT FXOMT FLOMT FH
Motor size 160 200 250 315 400 500
Geometric displacementcm3
[in3]161.1 [9.83]
201.4[12.29]
251.8 [15.37]
326.3 [19.91]
410.9 [25.07]
523.6 [31.95]
Max. speedmin-1[rpm]
cont. 625 625 500 380 305 240int1) 780 750 600 460 365 285
Max. torqueNm[lbf·in]
cont.470
[4160]590
[5220]730
[6460]950
[8410]1080
[9560]1220
[10800]
int.1) 560 [4960]
710 [6280]
880[7790]
1140 [10090]
1260[11150]
1370[12130]
Max. outputkW[hp]
cont.26.5
[35.5]33.5
[44.9]33.5
[44.9]33.5
[44.9]30.0
[40.2]26.5
[35.5]
int.1) 32.0 [42.9]
40.0 [53.6]
40.0 [53.6]
40.0 [53.6]
35.0 [46.9]
30.0[40.2]
Max. pressure dropbar[psi]
cont.200
[2900]200
[2900]200
[2900]200
[2900]180
[2610]160
[2320]
int.1) 240[3480]
240[3480]
240[3480]
240[3480]
210[3050]
180[2610]
peak2) 280[4060]
280[4060]
280[4060]
280[4060]
240[3480]
210[3050]
Max. oil flowl/min[USgal/min]
cont.100
[26.4]125
[33.0]125
[33.0]125
[33.0]125
[33.0]125
[33.0]
int.1) 125[33.0]
150[39.6]
150[39.6]
150[39.6]
150[39.6]
150[39.6]
Max. starting pressure with unloaded shaft
bar[psi]
10 [145]
10 [145]
10 [145]
10 [145]
10 [145]
10[145]
Min. starting torque
at max. press. drop cont. Nm [lbf·in]
340 [3010]
430 [3810]
530 [4690]
740 [6550]
840[7430]
950[8410]
at max. press. drop int.1)
Nm [lbf·in]410
[3630]520
[4600]630
[5580]890
[7880] 970
[8590] 1060
[9380]
1) Intermittent operation: the permissible values may occur for max. 10% of every minute.2) Peak load: the permissible values may occur for max. 1% of every minute.
For max. permissible combination of flow and pressure, see function diagram for actual motor.
Technical Data
37520L0407 • Rev EG • Jul 2012
OMTTechnical InformationTechnical Data
Technical data for OMT, OMTW, OMTS, OMT FX OMT FL and OMT FH
Type Max. inlet pressureMax. return pressure
with drain line
OMT, OMTW,OMTS, OMT FX,OMT FL, OMT FH
bar[psi]
cont.210
[3050]140
[2030]bar[psi]
int.1) 250[3630]
175 [2540]
bar[psi]
peak2) 300[4350]
210[3050]
Brake motors
TypeMax. presssure
in drain line3)
Holding torque4)
Brake-release pressure3)
Max pressure in brake line
OMT FX,OMT FL
5 bar[70 psi]
1200 Nm[10620 lbf·in]
12 bar[170 psi]
30 bar[440 psi]
OMT FH5 bar
[70 psi]1200 Nm
[10620 lbf·in]30 bar
[440 psi]280 bar
[4060 psi]
1) Intermittent operation: the permissible values may occur for max. 10% of every minute. 2) Peak load: The permissible values may occur for max. 1% of every minute.3) Brake motors must always have a drain line. The brake-release pressure is the difference between the pressure in the brake line and the
pressure in the drain line.4) For the supply of motors with holding torques higher than those stated, please contact the Sauer-Danfoss Sales Organization.
For max. permissible combination of flow and pressure, see function diagram for actual motor.
38 520L0407 • Rev EG • Jul 2012
OMTTechnical InformationTechnical Data
151-320.10
Max. Permissible Shaft Seal Pressure
Max. return pressure without drain line or max. pressure in the drain line
– – – – Intermittent operation: the permissible values may occur for max. 10% of every minute.
Continuous operation
151-1674.10
0 100 200 300 400 500 600 700 800 max.
1500
1200
900
600
300
0
100
90
80
70
60
50
40
30
20
10
0
psi bar
P P
min-1
(rpm)
151-1405.10
OMT FX, OMT FL and OMT FHmust always be fitted with drain line.Max. pressure in drain line is 5 bar [75 psi]
OMT with check valvesand with drain connection:The shaft seal pressure equals the pressure on the drain line.
OMT with check valvesand without use ofdrain connection:The pressure on the shaft seal never exceeds the pressure in the return line
39520L0407 • Rev EG • Jul 2012
OMTTechnical InformationTechnical Data
Pressure Drop in Motor
Oil Flow in Drain Line
Direction of Shaft Rotation
The curve applies to an unloaded motor shaft and an oil viscosity of 35 mm2/s [165 SUS]
B BA A
151-1050.10
151-1409.10
0 20 40 60 80 100 120 140 l/min
0 4 8 12 16 20 24 28 32 36 US gal/min
200
150
100
50
0
16
14
12
10
8
6
4
2
0
psi bar
∆ p ∆ p
Q
Q
The table shows the max. oil flow in the drain line at a return pressure less than 5-10 bar [75-150 psi].
Pressuredropbar
[psi]
Viscosity
mm2/s [SUS]
Oil flow in drain line
l/min [US gal/min]
140[2030]
20[100]
2.5[0.66]
35[165]
1.5[0.40]
210[3050]
20[100]
5.0[1.32]
35[165]
3.0[0.79]
40 520L0407 • Rev EG • Jul 2012
OMTTechnical InformationTechnical Data
151-1967.10
-60 -40 -20 0 20 40 60 80 100 120 140 mm
-2 -1.5 -1 -0.5 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 in
14000
12000
10000
8000
6000
4000
2000
0
60000
50000
40000
30000
20000
10000
0
lbf N
Prad. Prad.
Pmax.
0+- =10000 N
=2248 lbf
151-1970.10
0 20 40 60 80 100 120 140 160 mm
0 1 2 3 4 5 6 in
14000
12000
10000
8000
6000
4000
2000
0
60000
50000
40000
30000
20000
10000
0
lbf N
Prad. Prad.
Pmax.0
+- =10000 N=2248 lbf
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Permissible Shaft Loadsfor OMT
Shaft:All shaft types
Shaft:All shaft types
Mounting flange: Standard
Mounting flange: Wheel
41520L0407 • Rev EG • Jul 2012
OMTTechnical Information
151-1968.10
-80 -60 -40 -20 0 20 40 60 80 100 120 mm
-3 -2.5 -2 -1.5 -1 -0.5 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 in
14000
12000
10000
8000
6000
4000
2000
0
60000
50000
40000
30000
20000
10000
0
lbf N
Prad. Prad.
Pmax.
0+- =10000 N
=2248 lbf
151-1966.10
0 20 40 60 80 100 120 140 mm
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 5 5.5 in
5500
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
0
25000
20000
15000
10000
5000
0
lbf N
Prad. Prad.
Pmax.0+-
=5000 N=1124 lbf
Pmax. =7000 N=1574 lbf
Technical Data
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Permissible Shaft Loads for OMT
Shaft:All shaft types
Shaft:All shaft types
Mounting flange: Brake-wheel
Mounting flange: Brake-standard
42 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
OMT 200lbf•in Nm
6500
6000
5500
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
0
750
700
650
600
550
500
450
400
350
300
250
200
150
100
50
0
0 50 100 150 200 250 300 350 400 450 500 550 600 650 700 750
151-494.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
Q=1
50 l/
min
[39.
6 U
S ga
l/min
]
125
l/min
[33.
0 U
S ga
l/min
]
40 l/
min
[10.
6 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
80 l/
min
[21.
1 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 40 bar
2900 psi
160 bar2320 psi
∆ p=240 bar3480 psi
580 psi
1740 psi120 bar
1160 psi80 bar
N=5kW
10kW
N=40kW
85%
80%
30hp
35hp
15hp
10hp
5hp
ηt =88%
87%
ηt =70%
25hp15kW
30kW
40hp
35kW
20kW
25kW
20hp
OMT 160lbf•in Nm
5500
5000
4500
4000
3500
3000
2500
2000
1500
1000
500
0
600
550
500
450
400
350
300
250
200
150
100
50
0
0 100 200 300 400 500 600 700 800
151-493.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
Q=1
25 l/
min
[33.
0 U
S ga
l/min
]
40 l/
min
[10.
6 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
80 l/
min
[21.
1 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 40 bar
2900 psi
160 bar2320 psi
∆ p=240 bar3480 psi
580 psi
1740 psi
120 bar
1160 psi
80 barN=5kW
10kW
N=35kW
85%
80%
30hp
35hp
15hp10hp
5hp
ηt =86%
ηt =70%
25hp
15kW
30kW
20kW
25kW
20hp
43520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
OMT 250lbf•in Nm
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
900
800
700
600
500
400
300
200
100
0
0 50 100 150 200 250 300 350 400 450 500 550 600
151-495.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
125
l/min
[33.
0 U
S ga
l/min
]
Q=1
50 l/
min
[39.
6 U
S ga
l/min
]Q
=150
l/m
in[3
9.6
US
gal/m
in]
Q=1
50 l/
min
[39.
6 U
S ga
l/min
]
40 l/
min
[10.
6 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
80 l/
min
[21.
1 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 40 bar
2900 psi
160 bar2320 psi
∆ p=240 bar3480 psi
580 psi
1740 psi120 bar
1160 psi80 barN=5kW
10kW
N=40kW
85%
80%
30hp
40hp35hp
15hp
10hp
5hp
ηt =87%
ηt =70%
25hp15kW
35kW30kW
20kW
25kW
20hp
OMT 315lbf•in Nm
11000
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
1200
1100
1000
900
800
700
600
500
400
300
200
100
0
0 50 100 150 200 250 300 350 400 450 500
151-869.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
125
l/min
[33.
0 U
S ga
l/min
]
Q=1
50 l/
min
[39.
6 U
S ga
l/min
]
40 l/
min
[10.
6 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
80 l/
min
[21.
1 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 40 bar
2900 psi
160 bar2320 psi
∆ p=240 bar3480 psi
580 psi
1740 psi
120 bar
1160 psi
80 barN=5kW
10kW
N=40kW
85% 80%
87%
30hp
40hp
35hp15hp
10hp
5hp
ηt =88%
ηt =70%
25hp15kW
35kW
30kW
20kW
25kW
20hp
44 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
OMT 500lbf•in Nm
12500
10000
7500
5000
2500
0
1500
1250
1000
750
500
250
0
0 25 50 75 100 125 150 175 200 225 250 275 300
151-1116.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
Q=1
50 l/
min
[39.
6 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
125
l/min
[33.
0 U
S ga
l/min
]
80 l/
min
[21.
1 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
∆ p= 30 bar
140 bar2030 psi
∆ p=180 bar2610 psi
160 bar2320 psi
440 psi
870 psi60 bar
1300 psi90 bar
1740 psi120 bar
N=2.5kW
N=30kW30hp
2.5hp
ηt =90%
87%85%
ηt =80%
25hp
25kW
20hp
20kW
15hp
15kW10hp 10kW
5hp
5kW
OMT 400lbf•in Nm
12000
11000
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
1300
1200
1100
1000
900
800
700
600
500
400
300
200
100
0
0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 375
151-1058.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
Q=1
50 l/
min
[39.
6 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
20 l/
min
[5.3
US
gal/m
in]
40 l/
min
[10.
6 U
S ga
l/min
]
125
l/min
[33.
0 U
S ga
l/min
]
80 l/
min
[21.
1 U
S ga
l/min
]
60 l/
min
[15.
9 U
S ga
l/min
]
∆ p= 30 bar
150 bar2180 psi
∆ p=210 bar3050 psi
180 bar2610 psi
440 psi
870 psi60 bar
1300 psi90 bar
1740 psi120 bar
N=2.5kW
N=30kW
30hp
2.5hp
ηt =89%
80%
87%
85%
ηt =70%
25hp
25kW
20hp
20kW
15hp
15kW10hp 10kW
5hp 5kW
45520L0407 • Rev EG • Jul 2012
OMTTechnical InformationShaft Version
Shaft Version
A: Cylindrical 40 mm shaftC: Parallel key A12 × 8 × 70 DIN 6885 Keyway deviates from standard
B: Cylindrical 1.5 in shaftD: Parallel key 3/8 × 3/8 × 21/4 in B.S. 46 Keyway deviates from standard
82 [3.23]
26 [1.02]9.5 [0.374]
M12
12.000 [0.4724]11.957 [0.4707]
5.5 [0.217]4.5 [0.177]
3/8 -16 UNC
9.545 [0.3758]9.525 [0.3750]
57.5 [2.264]56.9 [2.240]
11.5 [0.453]9.3 [0.366]
70.5 [2.776]70.0 [2.756]
82.2 [3.236]81.8 [3.220]
min. 20 [0.78]
R0.5 [0.020]
R0.5 [0.020]
151-1032.10
Ø40
.018
[1.5
755]
Ø40
.002
[1.5
749]
43.0
0 [1
.693
]42
.71
[1.6
81]
Ø38
.10
[1.5
00]
Ø38
.05
[1.4
98]
42.4
0 [1
.669
]42
.14
[1.6
59]
Ø45
[1.7
7]Ø
45 [1
.77]
45˚
45˚
D
C
A-A
A-A
A
A
A
A
A
B
46 520L0407 • Rev EG • Jul 2012
OMTTechnical InformationShaft Version
C. Involute splined shaft ANS B92.1 - 1970 standard Flat root side fit Pitch 12/24 Teeth 17 Major dia. 1.50 in Pressure angle 30°
US versionD. Involute splined shaft ANS B92.1 - 1970 standard Flat root side fit Pitch 12/24 Teeth 17 Major dia. 1.50 in Pressure angle 30°
82.2 [3.236]81.8 [3.220]
82 [3.23]
26 [1.02]
9.5 [0.374]
M12
58 [2.28]56 [2.20]
58 [2.28]56 [2.20]
min. 20 [0.78]
3/8 -16 UNC
R0.5 [0.020]
R0.5 [0.020]
151-1916.10
Ø45
[1.7
7]
Ø38
.100
[1.5
000]
Ø38
.075
[1.4
990]
Ø38
.100
[1.5
000]
Ø38
.075
[1.4
990]
Ø45
[1.7
7]
45˚
45˚
D
C
A-A
A-A
A
A
A
A
Shaft Version
47520L0407 • Rev EG • Jul 2012
OMTTechnical InformationShaft Version
E: Tapered 45 mm shaft (ISO/R775)I: DIN 937 Across flats: 46 mm Tightening torque: 500 ± 30 Nm [4430 ±270 lbf·in]H: Taper 1:10J: Parallel key B12 × 8 × 28 DIN 6885 Keyway deviates from standard
F: Tapered 1.75 in shaftK: Cone 1:8 SAE J501L: 1 1/4 - 18 UNEF Across flats 2 3/16 in Tightening torque: 500 ±10 Nm (4425 ±90 lbf·in)M: Parallel key 7/16 × 7/16 × 1 1/4
B.S. 46 Keyway deviates from standard
G. P.t.o. shaft DIN 9611 Form 1 (ISO/R500 without pin hole)
** Deviates from DIN 9611
102 [4.02]
80.8 [3.181]80.0 [3.150]
4.5 [0.177]
59.00 [2.323]57.80 [2.276]
32.1 [1.264]31.5 [1.240]
16 [0.63]
34 [1.34] 4 [0.16]12.000 [0.4724]11.957 [0.4707]54 [2.13] 22 [0.87]
82 [3.23]
11.150 [0.4390]11.130 [0.4382]
R5 [0.20]
R0.5 [0.020] R6.7 [0.267]
7 [0.28]
77 [3.03]75 [2.95]
38.25 [1.506]37.75 [1.486]
28.14 [1.108]**27.89 [1.098]
8.64 [0.340]
8.53 [0.336]
151-1917.10
29.5
[1.1
61]
29.3
[1.1
54]
Ø34
.85
[1.3
72]
Ø34
.73
[1.3
67]
5.71
[0.2
25]
5.61
[0.2
21]
Ø4
[0.1
6]Ø
6 [0
.24]
Ø7
[0.2
8]M
30x2
24.1
5 [0
.951
]23
.95
[0.9
43]
Ø56
[2.2
0]
Ø45
[1.7
7]
Ø45
[1.7
7]
Ø45
[1.7
7]
45˚
60˚
H
E
I
K L
J
M
F
GGG
A-A
A-A
A-A
A
A
A
A
A
AAA
Shaft Version
48 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
A
B
C D
G H
E F
151-1977.11
min
. 13
[0.5
1]
min
. 12
[0.4
7]
min
. 18
[0.6
7]
min
. 19
[0.7
5]
Ø41.5 [1.634]Ø41.0 [1.614]
A: G main ports B: UN main ports E: ISO 228/1 - G3/4 F: 1 1/16 - 12 UN O-ring boss port
C: G drain port D: UNF drain port G: ISO 228/1 - G1/4 H: 9/16 - 18 UNF O-ring boss port
Technical Data
Port Thread Versions
49520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Ø123.8 [4.874]Ø122.2 [4.811]
Ø125.000 [4.9213]Ø124.937 [4.9188]
Ø73 [2.87]Ø71 [2.80]
18 [0
.71]
23.6
[0.9
29]
22.4
[0.8
82]
13.0
[0.5
12]
12.0
[0.4
72]
13.0
[0.5
12]
12.0
[0.4
72]
13.0
[0.5
12]
12.0
[0.4
72]
13.0
[0.5
12]
12.0
[0.4
72]
R1.6
[0.0
63]
R12
[0.4
7]Ø
14 [0
.55]
Ø160.4
[6.31
5]
Ø159.6
[6.28
3]
31 [1
.22]
60 [2
.36]
32 [1
.26] 9
[0.3
5] 22.4
[0.8
82]
max
. 69
[2.7
2]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
max. 67 [2.64]
72 [2.83]64 [2.52]
max. 71 [2.80]
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
max. 143 [5.63]
max
. 143
[5.6
3]
151-889.11
100 [3.94]
max. 128 [5.04]
C
E
D
L L 1
L 2
L 3
Dimensions – European Version
DimensionsStandard Flange
Output shaftL3
mm [in]
All shafts exceptP.t.o. shaft
max.82
[3.23]
P.t.o. shaft max.102
[4.02]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep
D: M10; 10 mm [0.39 in] deepE: G 3⁄4; 17 mm [0.67 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMT 160190
[7.48]16.5
[0.650]140
[5.51]
OMT 200195
[7.68]21.5
[0.846]145
[5.71]
OMT 250201
[7.91]27.8
[1.094]151
[5.94]
OMT 315211
[8.31]37.0
[1.457]161
[6.34]
OMT 400221
[8.70]47.5
[1.870]171
[6.73]
OMT 500235
[9.25]61.5
[2.421]185
[7.28]
50 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Ø127.00 [5.000]Ø126.95 [4.998]
Ø123.8 [4.874]Ø122.2 [4.811]
Ø86.5 [3.406]Ø85.5 [3.366]
73.7 [2.902]71.5 [2.815]
64.5 [2.539]63.5 [2.500]
33.1
5 [1
.305
]30
.85
[1.2
15]
18 [0
.71]
23.6
[0.9
29]
22.4
[0.8
82]
60 [2
.36]
R0.8
[0.0
03]
max
. 69
[2.7
2]
Ø162.3
[6.39
0]
Ø161.5
[6.35
8]
9 [0
.35] 22
.4 [0
.882
]
31 [1
.22]
max. 75 [2.95]max. 67 [2.64]
R12.
5 [0
.492
]Ø
14 [0
.55]
max
. 143
[5.6
3]
151-889.11.22
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
100 [3.94]
max. 128 [5.04]
C
D
L L 1
L 2L 3
max. 143 [5.63]
Dimensions – US Version
Standard Flange
Output shaftL3
mm [in]
Cyl. 1.5 inSplined 1.5 in
82[3.23]
Tapered 1.75 in80.4
[3.17]
C: Drain connection 9⁄16 - 18 UNF; 13 mm [0.51 in] deep O-ring boss port
D: 1 1⁄16 - 12 UN; 19 mm [0.75 in] deep O-ring boss port
*) The gearwheel set is 3.5 mm
[0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMT 160190
[7.48]16.5
[0.650]140
[5.51]
OMT 200195
[7.68]21.5
[0.846]145
[5.71]
OMT 250201
[7.91]27.8
[1.094]151
[5.94]
OMT 315211
[8.31]37.0
[1.457]161
[6.34]
OMT 400221
[8.70]47.5
[1.870]171
[6.73]
OMT 500235
[9.25]61.5
[2.421]185
[7.28]
51520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Ø126.25 [4.970]Ø123.75 [4.872]
Ø123.8 [4.874]Ø122.2 [4.811]
Ø172.000 [6.7717]Ø171.937 [6.7692]
Ø160.000 [6.2992]Ø159.937 [6.2967]
Ø73 [2.87]Ø71 [2.80]
2 [0
.08]
x45˚
4 [0
.16]
18 [0
.71]
7 [0
.28]
23.6
[0.9
29]
22.4
[0.8
82]
13.0
[0.5
12]
12.0
[0.4
72]
13.0
[0.5
12]
12.0
[0.4
72]
13.0
[0.5
12]
12.0
[0.4
72]
13.0
[0.5
12]
12.0
[0.4
72]
99 [3
.90]
78.2
[3.0
79]
82 [3
.23]
R1.2
[0.0
47]
R1.2
[0.0
47]
45˚
Ø200.4
[7.89
0]
Ø199.6
[7.85
8]
8 [0
.31]
90.3
[3.5
55]
98.2
[3.8
66]
max
. 69
[2.7
2]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
max. 67 [2.64]
75 [2.95]
max. 71 [2.80]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
R16
[0.6
3]Ø
18 [0
.71]
max
. 180
[7.0
9]
max. 180 [7.09]
151-897.12
100 [3.94]
max. 128 [5.04]
C
E
D
L
L 1L 2
Dimensions – European Version
Wheel
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep
D: M10; 10 mm [0.39 in] deepE: G 3⁄4; 17 mm [0.67 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMTW 160
123 [4.84]
16.5 [0.650]
73 [2.87]
OMTW 200
128 [5.04]
21.5 [0.846]
78[3.07]
OMTW 250
134[5.28]
27.8 [1.094]
84 [3.31]
OMTW 315
144[5.67]
37.0 [1.457]
94 [3.70]
OMTW 400
154[6.06]
47.5 [1.870]
104 [4.09]
OMTW 500
168[6.61]
61.5 [2.421]
118 [4.65]
52 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Ø160.000 [6.2992]Ø159.937 [6.2967]
Ø126.25 [4.970]Ø123.75 [4.872]
Ø123.8 [4.874]Ø122.2 [4.811]
Ø73 [2.87]Ø71 [2.80]
80.8
[3.1
81]
80.0
[3.1
50]
2 [0
.08]
x45˚
18 [0
.71]
3.5
[0.1
38]
23.6
[0.9
29]
22.4
[0.8
82]
102.
1 [4
.020
]99
.1 [3
.902
]
98.2
[3.8
66]
78.6
[3.0
94]
77.5
[3.0
51]
45˚
R1.2
[0.0
47]
90.3
[3.5
55]
R1.2
[0.0
47]
max
. 69
[2.7
2]
Ø200.4
[7.89
0]
Ø199.6
[7.85
8]
7 [0
.28]
7 [0
.28]
max. 75 [2.95]
75 [2.95]
max. 67 [2.64]
R16
[0.6
3]Ø
18 [0
.71]
max. 180 [7.09]
max
. 180
[7.0
9]
151-897.11.22
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
100 [3.94]
max. 128 [5.04]
Ø172.000 [6.7717]Ø171.937 [6.7692]
C
D
L
L 1L 2
Dimensions – US Version
Wheel
C: Drain connection 9⁄16 - 18 UNF; 13 mm [0.51 in] deep O-ring boss port
D: 1 1⁄16 - 12 UN; 19 mm [0.75 in] deep O-ring boss port
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMTW 160
123 [4.84]
16.5 [0.650]
73 [2.87]
OMTW 200
128 [5.04]
21.5 [0.846]
78[3.07]
OMTW 250
134[5.28]
27.8 [1.094]
84 [3.31]
OMTW 315
144[5.67]
37.0 [1.457]
94 [3.70]
OMTW 400
154[6.06]
47.5 [1.870]
104 [4.09]
OMTW 500
168[6.61]
61.5 [2.421]
118 [4.65]
53520L0407 • Rev EG • Jul 2012
OMTTechnical InformationDimensions – European Version
Brake-Wheel
5x72
˚4x
90˚
10x3
6˚
23.3
[0.9
17]
22.7
[0.8
94]
11.1
[0.4
37]
10.9
[0.4
29]
13 [0
.51]
12 [0
.47]
13 [0
.51]
12 [0
.47]
Ø200.4 [7.890]
Ø199.6 [7.858]
max. 232 [9.13]
5.2
[0.2
05]
4.8
[0.1
89]
12.2
[0.4
80]
11.8
[0.4
65]
111.
4 [4
.386
]11
0.6
[4.3
54]
7.2
[0.2
83]
6.8
[0.2
68]
10.2
[0.4
02]
9.8
[0.3
86]
115.
4 [4
.543
]11
4.6
[4.5
12]
13.2
[0.5
20]
12.8
[0.5
04]
4.2
[0.1
65]
3.8
[0.1
50]
35 [1
.38]
67 [2
.64]
75 [2.95]
Ø201 [7.91]
Ø120.0 [4.724]Ø119.6 [4.709]
Ø76.0 [2.992]Ø75.8 [2.984]
Ø180.00 [7.087]Ø179.6 [7.074]
Ø95.8 [3.772]Ø95.6 [3.764]
71
[2.8
0]
Ø22
[0.8
7]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
Ø172.00 [6.772]Ø171.94 [6.769]
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
23.1 [0.909]22.9 [0.902]
Ø140.0 [5.512]Ø139.6 [5.496]
Ø100.0 [3.937]Ø99.6 [3.921]
151-1443.11
100 [3.94]128 [5.04]
H
G
I
C
F
E D
L m
ax. 1
L m
ax. 2
L 1
L 2
TypeLmax 1
mm [in]
Lmax 2
mm [in]
L1*
mm [in]
L2
mm [in]
OMT 160 FX
223[8.78]
227[8.94]
16.5[0.650]
62[2.45]
OMT 200 FX
228 [8.98]
232[9.13]
21.5[0.846]
67[2.65]
OMT 250 FX
234[9.21]
238[9.37]
27.8[1.094]
74[2.89]
OMT 315 FX
243 [9.57]
247 [9.72]
37.0 [1.457]
83 [3.26]
OMT 400 FX
254 [10.00]
258 [10.16]
47.5 [1.870]
93 [3.67]
OMT 500 FX
268[10.55]
272[10.71]
61.5 [2.421]
107 [4.22]
C: Brake-release port G 1/4; 12 mm [0.47 in] deep (BS/ISO 228/1)
D: Drain connection G 1/4; 12 mm [0.47 in] deep
E: G 3/4; 17 mm [0.67 in] deepF: 4 × M12; 27 mm [1.06 in] deepG: 10 × M12H: Wheel bolts 5 × M14 × 1.5I: M10; 10 mm [0.39 in] deep*) The gearwheel set is 3.5 mm
[0.138 in] wider across the rollers than the L1 dimensions
54 520L0407 • Rev EG • Jul 2012
OMTTechnical Information
Ø160.000 [6.2992]Ø159.937 [6.2967]
Ø126.25 [4.970]Ø123.75 [4.872]
Ø123.8 [4.874]Ø122.2 [4.811]
Ø73 [2.87]Ø71 [2.80]
80.8
[3.1
81]
80.0
[3.1
50]
2 [0
.08]
x45˚
18 [0
.71]
3.5
[0.1
38]
23.6
[0.9
29]
22.4
[0.8
82]
102.
1 [4
.020
]99
.1 [3
.902
]
98.2
[3.8
66]
78.6
[3.0
94]
77.5
[3.0
51]
45˚
R1.2
[0.0
47]
90.3
[3.5
55]
R1.2
[0.0
47]
max
. 69
[2.7
2]
Ø200.4
[7.89
0]
Ø199.6
[7.85
8]
7 [0
.28]
7 [0
.28]
max. 75 [2.95]
75 [2.95]
max. 67 [2.64]
R16
[0.6
3]Ø
18 [0
.71]
max. 180 [7.09]
max
. 180
[7.0
9]
151-897.11.22
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
100 [3.94]
max. 128 [5.04]
Ø172.000 [6.7717]Ø171.937 [6.7692]
C
D
L
L 1L 2
Dimensions – European Version
Brake-Standard
C: G 3/4; 17 mm [0.67 in] deep (BS/ISO 228/1)
D: Drain connection G 3/8; 14 mm [0.55 in] deep
E: Brake-release port G 1/4; 12 mm [0.47 in] deep
F: M10; 10 mm [0.39 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMT 160 FL/FH
228[8.98]
16.5[0.650]
178[7.01]
OMT 200 FL/FH
233 [9.17]
21.5[0.846]
183[7.20]
OMT 250 FL/FH
239 [9.41]
27.8 [1.094]
189[7.44]
OMT 315 FL/FH
248[9.76]
37.0[1.457]
199 [7.83]
OMT 400 FL/FH
259[10.20]
47.5[1.870]
209 [8.23]
OMT 500 FL/FH
273 [10.75]
61.5[2.421]
223 [8.78]
55520L0407 • Rev EG • Jul 2012
OMTTechnical InformationDimensions – European Version
Short
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep
D: M10; 10 mm [0.39 in] deep E: G 3⁄4; 17 mm [0.67 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
Ø125.000 [4.9213]Ø124.937 [4.9188]
Ø14 [0.55]
max. Ø186 [7.32]
42 [1.65] 50 [1.97]
Ø6 [0.24]
Ø6 [0.24]
Ø160.4 [6.315]Ø159.6 [6.283]
28 [1
.10]
max
. 69
[2.7
2]
22 [0
.87]
1 [0
.04]
x45˚
23.6
[0.9
26]
22.4
[0.8
82]
13 [0
.512
]12
[0.4
72]
13 [0
.512
]12
[0.4
72]
13 [0
.512
]12
[0.4
72]
13 [0
.512
]12
[0.4
72]
R1 [0
.04]
18 [0
.71]
31 [1
.22]
max. 71 [2.80]max. 67 [2.64]
8 [0.31]
8 [0
.31]
28 [1.10]
151-898.11
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
22.1 [0.870]21.1 [0.831]
20.3 [0.799]19.7 [0.776]
20.3 [0.799]19.7 [0.776]
100 [3.94]
max. 128 [5.04]
C
E
D
L
L 1L 2
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMTS 160
146 [5.75]
16.5 [0.650]
96 [3.78]
OMTS 200
151 [5.94]
21.5 [0.846]
101 [3.98]
OMTS 250
157 [6.18]
27.8 [1.094]
107 [4.21]
OMTS 315
166 [6.54]
37.0 [1.457]
116 [4.57]
OMTS 400
177 [6.97]
47.5 [1.870]
127 [5.00]
OMTS 500
191 [7.52]
61.5 [2.421]
142 [5.59]
56 520L0407 • Rev EG • Jul 2012
OMTTechnical InformationOMTS
Installing the OMTS
OMTSDimensions of the Attached Component
The cardan shaft of the OMTS motor acts as an “output shaft”. Because of the movement of the shaft, no seal can be fitted at the shaft output. Internal oil leakage from the motor will therefore flow into the attached component.
During start and operation it is important that the spline connection and the bearings in the attached component receive oil and are adequately lubricated. To ensure that the spline connection receives sufficient oil, a conical sealing ring between the shaft of the attached component and the motor intermediate plate is recommended. This method is used in the OMT.
The conical sealing ring (code. no. 633B9022) is supplied with the motor.
To ensure that oil runs to the bearings and other parts of the attached component, the stop plate must have a hole in it (see fig. below).
We recommend an O-ring between motor and attached component. The O-ring (code no. 151B1040) is supplied with the motor. If motor and attached component have been separated, remember to refill before starting up. Fill the oil through the drain connection.
2.35 [0.093]2.25 [0.089]
0.25 [0.010]
0.1˚
2.5 [0.098]1.5 [0.059]
25.5 [1.004]24.5 [0.965]
46.3 [1.823]45.7 [1.799]
69.4 [2.732]68.6 [2.701]
11.4 [0.449]11.0 [0.433]
8.2 [0.323]7.8 [0.307]
18.5 [0.728]17.5 [0.689]
30 [1.181]29 [1.142]
151-452.10
min. 5 [0.2]
min
. Ø6
[0.2
4]
Ø12
5.06
3 [4
.923
7]Ø
125.
000
[4.9
212]
min
. Ø55
[2.1
7]
Ø13
3.0
[5.2
36]
Ø13
2.6
[5.2
20]
Ø51
.5 [2
.028
]Ø
50.5
[1.9
88]
39.5
[1.5
55]
38.5
[1.5
16]
Ø88
.5 [3
.484
]Ø
87.5
[3.4
45]
Ø53
.5 [2
.106
]Ø
53.5
[2.0
98]
Ø63
.5 [2
.500
]Ø
62.5
[2.4
61]
CA
B
ED
F
KK
K
GH
A: O-ring: 125 × 3 mm B: External drain channelC: Drain connection
G 1⁄4; 12 mm [0.47 in] deepD: Conical seal ring
E: Internal drain channel F: M12; min. 18 mm [0.71 in] deep G: Oil circulation hole H: Hardened stop plate
57520L0407 • Rev EG • Jul 2012
OMTTechnical Information
The attached component must have internal splines corresponding to the external splines on the motor cardan shaft (see drawing below).
Material:Case hardening steel with a tensile strength corresponding at least to 20 MoCr4 (900 N/mm2) or SAE 8620.
Hardening specification: • On the surface: HV = 750 ± 50 • 0.7 ± 0.2 mm under the surface: HV = 560
Internal involute spline dataStandard ANS B92.1-1970, class 5 (corrected m · X = 1; m = 2.1166)
OMTS
Internal Spline Data for the Component to be Attached
Drain Connection on OMTS or Attached Component
dl
D
Dri
Di D�
So
Lo
Rmin
151-455.10
Flat root side fit mm inNumber of teeth
z 16 16
Pitch DP 12/24 12/24Pressure angle 30° 30°Pitch dia. D 33.8656 1.3333Major dia. Dri 38.4 0
+0.4 1.5118 0+0.0157
Form dia. (min.)
Dfi 37.6 1.4803
Minor dia. Di 32.150 0+ 0.04 1.2657 0
+ 0.00157
Space width (circular)
Lo 4.516 ±0.037 0.1777 ±0 .0014
Tooth thickness (circular)
So 2.170 0.0854
Fillet radius Rmin. 0.5 0.02Max. measurementbetween pins*
l 26.9 0+ 0.1 1.059 0
+0.004
Pin dia. d 4.834 ±0.001 0.1903 ±0.00004
* Finished dimensions (when hardened)
A drain line ought to be used when pressure in the return line can exceed the permissible pressure on the shaft seal of the attached component.
The drain line can be connected at two different points:1) at the motor drain connection2) at the drain connection of the attached component.If a drain line is fitted to the attached component, it must be possible for oil to flow freely between motor and attached component.
The drain line must be led to the tank in such a way that there is no risk of the motor and attached component being drained of oil when at rest.The maximum pressure in the drain line is limited by the attached component and its shaft seal.
58 520L0407 • Rev EG • Jul 2012
OMVTechnical Information
OMVVersions
Mou
ntin
g fla
nge
Shaf
t
Port
siz
e
Euro
pean
ver
sion
US
vers
ion
Dra
in c
onne
ctio
n
Chec
k va
lve
Mai
n ty
pe d
esig
nati
on
Standardflange
Cyl. 50 mm G1 l Yes Yes OMV
Cyl. 2.25 in 1 5/16-12 UN l Yes Yes OMV
Splined 2.125 inG1 l Yes Yes OMV
1 5/16-12 UN l Yes Yes OMV
Tapered 60 mm G1 l Yes Yes OMV
Tapered 2.25 in 1 5/16-12 UN l Yes Yes OMV
SAE-C flangeCyl. 2.25 in 1 5/16-12 UN l Yes Yes OMV
Splined 2.125 in 1 5/16-12 UN l Yes Yes OMV
Wheel
Cyl. 50 mm G1 l Yes Yes OMVW
Tapered 60 mm G1 l Yes Yes OMVW
Tapered 2.25 in 1 5/16-12 UN l Yes Yes OMVW
Short No output shaft G1 l Yes Yes OMVSFunction diagram - see page : →
Versions
Features available (options) : Speed sensorMotor with tacho connectionViton shaft sealPaintedUltra short
59520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Code Numbers
Code
Num
bers
Displacement [cm3]
Tech
nica
l dat
a –
Page
Shaf
t loa
ds –
Pag
e
Dim
ensi
ons
– Pa
ge
315 400 500 630 800151B 3100 3101 3102 3103 3104 60 63 72
151B 2150 2151 2152 2153 2154 60 63 73
151B 3105 3106 3107 3108 3109 60 63 72
151B 2155 2156 2157 2158 2159 60 63 73
151B 3110 3111 3112 3113 3114 60 63 72
151B 2160 2161 2162 2163 2164 60 63 73
151B 2183 2184 2185 2186 2187 60 64 74
151B 2188 2189 2190 2191 2192 60 64 74
151B 3115 3116 3117 3118 3119 60 63 75
151B 3120 3121 3122 3123 3124 60 63 75
151B 2170 2171 2172 2173 2174 60 63 76
151B 3125 3126 3127 3128 3129 60 - 77
65 65 66 66 67
Code Numbers
Ordering
Add the four digit prefix “151B” to the four digit numbers from the chart for complete code number.
Example: 151B3101 for an OMV 400 with standard flange, cyl. 50 mm shaft and port size G 1.
Orders will not be accepted without the four digit prefix.
60 520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Technical data for OMV, OMVW and OMVS
TypeOMV
OMVWOMVS
OMVOMVWOMVS
OMVOMVWOMVS
OMVOMVWOMVS
OMVOMVWOMVS
Motor size 315 400 500 630 800
Geometric displacementcm3
[in3]314.5 [19.19]
400.9 [24.46]
499.6[30.49]
629.1[38.39]
801.8[48.93]
Max. speedmin-1[rpm]
cont. 510 500 400 315 250int1) 630 600 480 380 300
Max. torqueNm[lbf·in]
cont.920
[8140]1180
[10440]1460
[12920]1660
[14690]1880
[16640]
int.1) 1110[9820]
1410 [12480]
1760[15580]
1940[17170]
2110[18680]
Max. outputkW[hp]
cont.42.5
[57.0]53.5
[71.7]53.5
[71.7]48.0
[64.4]42.5
[57.0]
int.1) 51.0[68.4]
64.0[85.8]
64.0[85.8]
56.0[75.1]
48.0[64.4]
Max. pressure dropbar[psi]
cont.200
[2900]200
[2900]200
[2900]180
[2610]160
[2320]
int.1) 240[3480]
240[3480]
240[3480]
210[3050]
180[2610]
peak2) 280[4060]
280[4060]
280[4060]
240[3480]
210[3050]
Max. oil flowl/min[USgal/min]
cont.160
[42.3]200
[52.8]200
[52.8]200
[52.8]200
[52.8]
int.1) 200[52.8]
240[63.4]
240[63.4]
240[63.4]
240[63.4]
Max. starting pressure with unloaded shaft
bar[psi]
8[116]
8[116]
8[116]
8[116]
8[116]
Min. starting torque
at max. press. drop cont. Nm [lbf·in]
710[6280]
910[8050]
1130[10000]
1330[11770]
1510[13360]
at max. press. drop int.1)
Nm [lbf·in]850
[7520]1090
[9650]1360
[12040]1550
[13720]1700
[15050]
Type Max. inlet pressureMax. return pressure
with drain line
OMVOMVWOMVS
bar[psi]
cont.210
[3050]140
[2030]bar[psi]
int.1) 250[3630]
175 [2540]
bar[psi]
peak2) 300[4350]
210[3050]
1) Intermittent operation: the permissible values may occur for max. 10% of every minute. 2) Peak load: The permissible values may occur for max. 1% of every minute.
For max. permissible combination of flow and pressure, see function diagram for actual motor.
Technical Data
61520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Max. return pressure without drain line or max. pressure in the drain line
– – – – Intermittent operation: the permissible values may occur for max. 10% of every minute.
Continuous operation
Technical Data
151-320.10
Max. Permissible Shaft Seal Pressure
151-1673.10
0 100 200 300 400 500 600 max.
1500
1200
900
600
300
0
100
90
80
70
60
50
40
30
20
10
0
psi bar
P P
min-1
(rpm)
OMV with check valves and with drain connection:The shaft seal pressure equals the pressure on the drain line.
OMV with check valves and without use of drain connection:The pressure on the shaft seal never exceeds the pressure in the return line
62 520L0407 • Rev EG • Jul 2012
OMVTechnical InformationTechnical Data
Pressure Drop in Motor
Oil Flow in Drain Line
Direction of Shaft Rotation
The curve applies to an unloaded motor shaft and an oil viscosity of 35 mm2/s (165 SUS)151-1410.10
0 20 40 60 80 100 120 140 160 180 200 l/min
0 5 10 15 20 25 30 35 40 45 50 US gal/min
200
150
100
50
0
16
14
12
10
8
6
4
2
0
psi bar
∆ p ∆ p
Q
Q
The table shows the max. oil flow in the drain line at a return pressure less than 5-10 bar [75-150 psi].
Pressuredropbar
[psi]
Viscosity
mm2/s [SUS]
Oil flow in drain line
l/min [US gal/min]
140[2030]
20[100]
3.0 [0.79]
35[165]
2.0 [0.53]
210[3050]
20[100]
6.0 [1.59]
35[165]
4.0 [1.06]
63520L0407 • Rev EG • Jul 2012
OMVTechnical InformationTechnical Data
151-1973.10
-80 -60 -40 -20 0 20 40 60 80 100 120 mm
-3 -2.5 -2 -1.5 -1 -0.5 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 in
16000
14000
12000
10000
8000
6000
4000
2000
0
70000
60000
50000
40000
30000
20000
10000
0
lbf N
Prad. Prad.
Pmax.0
+- =15000 N=3372 lbf
Permissible Shaft Loadsfor OMV
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Mounting flange: Standard
Mounting flange: Wheel
151-1969.10
0 20 40 60 80 100 120 140 160 180 200 mm
0 1 2 3 4 5 6 7 in
16000
14000
12000
10000
8000
6000
4000
2000
0
70000
60000
50000
40000
30000
20000
10000
0
lbf N
Prad. Prad.
Pmax.0
+- =15000 N=3372 lbf
Shaft:All shaft types
Shaft:All shaft types
64 520L0407 • Rev EG • Jul 2012
OMVTechnical InformationTechnical Data
151-1965.10
-80 -60 -40 -20 0 20 40 60 80 100 120 mm
-3 -2.5 -2 -1.5 -1 -0.5 0 0.5 1 1.5 2 2.5 3 3.5 4 4.5 in
14000
12000
10000
8000
6000
4000
2000
0
60000
50000
40000
30000
20000
10000
0
lbf N
Prad. Prad.
Pmax.0
+- =10000 N=2248 lbfA
A
B
B
Permissible shaft loads for OMV
A: Cyl. 2.25 in shaftB: Splined 2.125 in shaft
The output shaft runs in tapered roller bearings that permit high axial and radial forces.The permissible radial load on the shaft is shown for an axial load of 0 N as a function of the distance from the mounting flange to the point of load application.The curve is based on B10 bearing life (2000 hours or 12,000,000 shaft revolutions at 100 min-1) at rated output torque, when mineral-based hydraulic oil with a sufficient content of anti-wear additives, is used.For 3,000,000 shaft revolutions or 500 hours – increase these shaft loads with 52%.The dash curve shows max. radial shaft load. Any shaft load exceeding the values shown in the curve will involve a risk of breakage.Bearing life calculations can be made using the explanation and formula provided in the chapter "Bearing dimensioning" in the technical information "General Orbital motors" 520L0232.
Mounting flange: SAE-C
Shaft:All shaft types
65520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
OMV 315lbf•in Nm
11000
10000
9000
8000
7000
6000
5000
4000
3000
2000
1000
0
1200
1100
1000
900
800
700
600
500
400
300
200
100
0
0 50 100 150 200 250 300 350 400 450 500 550 600 650
151-870.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
25 l/
min
[6.6
US
gal/m
in]
Q=2
00 l/
min
[52.
8 U
S ga
l/min
]
125
l/min
[33.
0 U
S ga
l/min
]
50 l/
min
[13.
2 U
S ga
l/min
]
75 l/
min
[19.
8 U
S ga
l/min
]
160
l/min
[42.
2 U
S ga
l/min
]
150
l/min
[39.
6 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 35 bar
2900 psi170 bar
2540 psi
140 bar2030 psi
∆ p=240 bar3480 psi
510 psi
1520 psi105 bar
1020 psi
70 bar
N=5kW 10kW
N=50kW
85%
80%
30hp
40hp
50hp
10hp5hpηt =87%
ηt =70%
40kW30kW
20kW20hp
OMV 400lbf•in Nm
14000
12000
10000
8000
6000
4000
2000
0
1600
1400
1200
1000
800
600
400
200
0
0 50 100 150 200 250 300 350 400 450 500 550 600
151-871.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
25 l/
min
[6.6
US
gal/m
in]
Q=2
40 l/
min
[63.
4 U
S ga
l/min
]
50 l/
min
[13.
2 U
S ga
l/min
]
75 l/
min
[19.
8 U
S ga
l/min
]
125
l/min
[33.
0 U
S ga
l/min
]
150
l/min
[39.
6 U
S ga
l/min
]
175
l/min
[46.
2 U
S ga
l/min
]
200
l/min
[52.
8 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 35 bar
2900 psi
140 bar2030 psi
175 bar2540 psi
∆ p=240 bar3480 psi
510 psi
1520 psi105 bar
1020 psi70 bar
N=5kW10kW
N=50kW
87%
85%
80%
30hp 50hp
10hp
5hp
ηt =88%
ηt =70%
40hp
30kW
20kW
40kW
20hp
66 520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
OMV 500lbf•in Nm
16000
14000
12000
10000
8000
6000
4000
2000
0
1800
1600
1400
1200
1000
800
600
400
200
0
0 50 100 150 200 250 300 350 400 450 500
151-872.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
25 l/
min
[6.6
US
gal/m
in]
Q=2
40 l/
min
[63.
4 U
S ga
l/min
]
50 l/
min
[13.
2 U
S ga
l/min
]
75 l/
min
[19.
8 U
S ga
l/min
]
125
l/min
[33.
0 U
S ga
l/min
]
150
l/min
[39.
6 U
S ga
l/min
]
175
l/min
[46.
2 U
S ga
l/min
]
200
l/min
[52.
8 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
200 bar
∆ p= 35 bar
2900 psi
140 bar2030 psi
175 bar2540 psi
∆ p=240 bar3480 psi
510 psi
1520 psi105 bar
1020 psi70 bar
N=5kW10kW
N=60kW
87%
85%
80%
30hp
50hp60hp
10hp
5hp
ηt =88%
ηt =70%
40hp
50kW
30kW
20kW
40kW
20hp
OMV 630lbf•in Nm
17500
15000
12500
10000
7500
5000
2500
0
2000
1750
1500
1250
1000
750
500
250
0
0 25 50 75 100 125 150 175 200 225 250 275 300 325 350 375 400
151-879.10
min-1
(rpm)
Q=1
0 l/m
in[2
.6 U
S ga
l/min
]
Q=2
40 l/
min
[63.
4 U
S ga
l/min
]
75 l/
min
[19.
8 U
S ga
l/min
]
25 l/
min
[6.6
US
gal/m
in]
125
l/min
[33.
0 U
S ga
l/min
]
100
l/min
[26.
4 U
S ga
l/min
]
50 l/
min
[13.
2 U
S ga
l/min
]
150
l/min
[39.
6 U
S ga
l/min
]
175
l/min
[46.
2 U
S ga
l/min
]
200
l/min
[52.
8 U
S ga
l/min
]
150 bar
∆ p= 30 bar
2180 psi
120 bar1740 psi
180 bar2610 psi
∆ p=210 bar3050 psi
90 bar1300 psi
440 psi
870 psi60 bar
N=5kW
20kW
N=60kW
40hp
50hp
20hp
5hp
80%85%
87%
ηt =70%
ηt =89% 30hp
50kW40kW 60hp
10kW
30kW
10hp
67520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Explanation of function diagram use, basis and conditions can be found on page 5. Continuous range Intermittent range (max. 10% operation every minute)
Intermittent pressure drop and oil flow must not occur simultaneously.
Function Diagrams
Function Diagrams
P301 250
OMV 800
Q =
10
l/min
125
l/min
100
l/min
75 l/
min
50 l/
min
25 l/
min
150
l/min
175
l/min
200
l/min
Q =
240
l/m
in
2.6
US
gal/m
in
6.6
US
gal/m
in
13.2
US
gal/m
in
19.8
US
gal/m
in
26.4
US
gal/m
in
33.0
US
gal/m
in
39.6
US
gal/m
in
46.2
US
gal/m
in
52.8
US
gal/m
in
63.4
US
gal/m
in
p=180 bar
p=25bar
160 bar
130 bar
2610 psi
2320 psi
1890 psi
1450 psi
1090 psi
730 psi
360 psi
100 bar
75 bar
50 bar
0 25 50 75 100 125 150 175 200 225 250 275 300
20000
17500
15000
12500
10000
7500
5000
2500
0
2250
2000
1750
1500
1250
1000
750
500
250
0
Nmlbf•in
min-1
(rpm)
68 520L0407 • Rev EG • Jul 2012
OMVTechnical InformationShaft Version
A: Cylindrical 50 mm shaftD: Parallel key A14 × 9 × 70 DIN 6885 Keyway deviates from standard
B: Cylindrical 2.25 in shaft for OMV with standard mounting flangeE: Parallel key 1/2 × 1/2 × 21/4 in B.S. 46 Keyway deviates from standard
C: Cylindrical 2.25 in shaft for OMV with mounting flange SAE-CF: Parallel key 1/2 × 1/2 × 21/4 in B.S. 46 Keyway deviates from standard
Shaft Version
R0.5 [0.020]
R0.5 [0.020]
R0.5 [0.020]
151-878.12
60˚
60˚
60˚
D
F
B
CCC
A-A
A-A
A-AA
A
A
A
A
A
A
E
82 [3.23]
26 [1.02]
9.5 [0.374]
M12
5.5 [0.217]4.5 [0.177]
3/8 -16 UNC
70.5 [2.776]70.0 [2.756]
79 [3.11]
82.2 [3.236]81.8 [3.220]
min. 20 [0.78]
12.73 [0.501]12.70 [0.500]
12.73 [0.501]12.70 [0.500]
14.000 [0.5512]13.957 [0.5495]
70.4 [2.772]70.2 [2.763]
min. 26 [1.02]
½ -20 UNF
99.2 [3.906]98.8 [3.890]
13.1 [0.516]10.9 [0.429]
57.5 [2.264]56.9 [2.240]
57.1
5 [2
.250
]57
.10
[2.2
48]
Ø57
.15
[2.2
50]
Ø57
.10
[2.2
48]
62.9
3 [2
.478
]62
.66
[2.4
67]
53.5
[2.1
06]
53.2
[2.0
94]
Ø50
.018
[1.9
692]
Ø50
.002
[1.9
686]
62.9
2 [2
.477
]62
.66
[2.4
67]
Ø60
[2.3
6]Ø
60 [2
.36]
Ø60
[2.3
6]
69520L0407 • Rev EG • Jul 2012
OMVTechnical InformationShaft Version
D: Involute splined shaft ANS B92.1 - 1970 standard Flat root side fit Pitch 8/16
Teeth 16 Major dia. 2.125 in Pressure angle 30°
US VersionE: Involute splined shaft
for OMV with standard mounting flange ANS B92.1 - 1970 standard
Flat root side fit Pitch 8/16
Teeth 16 Major dia. 2.125 in Pressure angle 30°
US VersionF: Involute splined shaft for OMV with mounting flange SAE-C ANS B92.1 - 1970 standard Flat root side fit Pitch 8/16
Teeth 16 Major dia. 2.125 in Pressure angle 30°
57 [2.24]55 [2.17]
76.9 [3.028]76.5 [3.011]
min. 26 [1.02]
½ -20 UNF
56.3 [2.217]55.3 [2.177]
R0.5 [0.020]
R0.5 [0.020]
82.2 [3.236]81.8 [3.220]
min. 20 [0.78]
3/8 -16 UNC
R0.5 [0.020]
82[3.23]
26 [1.02]
9.5 [0.374]
M12
58 [2.28]56 [2.20]
151-1918.10
Ø60
[2.3
6]Ø
60 [2
.36]
Ø60
[2.3
6]
53.9
75 [2
.125
0]53
.950
[2.1
240]
Ø53
.975
[2.1
250]
Ø53
.950
[2.1
240]
Ø53
.972
[2.1
249]
Ø53
.954
[2.1
242]
45˚
30˚
45˚
A-A
A-A
A-A
F
E
A
A
A
A
A
A
D
Shaft Version
70 520L0407 • Rev EG • Jul 2012
OMVTechnical InformationShaft Version
G: Tapered 60 mm shaft (ISO/R775)J: DIN 937 Across flats: 65 mm Tightening torque: 750 ±50 Nm [6640 ±440 lbf·in]I: Taper 1:10K: Parallel key
B16 × 10 × 32 DIN 6885 Keyway deviates from standard
H: Tapered 2.25 in shaftL: Cone 1:8 SAE J501M: 11/2 - 18 UNEF Across flats: 23/8 in Tightening torque:
750 ±50 Nm [6640 ±440 lbf·in]N: Parallel key 9/16 × 9/16 × 2 in B.S. 46 Keyway deviates from standard
51.1 [2.012]
50.5 [1.988]
73.6 [2.898]72.4 [2.850]
100.4 [3.953]99.6 [3.921]
4.5 [0.177]
14.308 [0.5633]14.288 [0.5625]
16 [0.63]
40.5 [1.594]40.0 [1.575]
105 [4.13]
70 [2.76]16.000 [0.6299]15.957 [0.6282]
6 [0.24]
23 [0.91]
7 [0.28]
151-1919.10
Ø4
[0.1
6]Ø
57.2
0 [2
.252
]Ø
57.1
0 [2
.248
]
7.29
[0.2
87]*
7.19
[0.2
83]
Ø60
[2.3
6]Ø
60 [2
.36]
32.2
5 [1
.270
]32
.05
[1.2
62]
M42
x3 [0
.12]
Ø9
[0.3
5]
Ø78
[3.0
7]
Ø8
[0.3
1]
45˚
H
L M
G
I J
N
K
A-A
A-A
A
A
A
A
Shaft Version
71520L0407 • Rev EG • Jul 2012
OMVTechnical Information
A B
C D
G H
E F
151-1978.10
min
. 13
[0.5
1]
min
. 12
[0.4
7]
Ø22.5 [0.886]Ø22.0 [0.866]
min
. 18
[0.7
1]
min
. 19
[0.7
5]
Ø45.5 [1.791]Ø45.0 [1.772]
A: G main ports B: UN main ports E: ISO 228/1 - G1 F: 1 5/16 - 12 UN O-ring boss port
C: G drain port D: UNF drain port G: ISO 228/1 - G1/4 H: 9/16 - 18 UNF O-ring boss port
Technical Data
Port Thread Versions
72 520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Ø146.4 [5.764]Ø145.0 [5.710]
Ø160.000 [6.2992]Ø159.937 [6.2967]
Ø83 [3.27]
2 [0
.08]
x45˚
40 [1
.57]
60 [2
.36]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
24.6
[0.9
69]
23.4
[0.9
21]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
11 [0
.43]
R1.6
[0.0
63]
39.4
[1.5
51]
38.6
[1.5
20]
20 [0
.79]
33˚
max
. 76
[2.9
9]
Ø200.4 [7.890]
Ø199.6 [7.858]
max. 81 [3.19]max. 77 [3.03]
8 [0.31]69 [2.72]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
R16 [0.63]Ø18 [0.71]
max
. 179
[7.0
5]
max. 179 [7.05]
151-890.11
25.3 [0.996]24.7 [0.972]
25.3 [0.996]24.7 [0.972]
120 [4.72]
max. 149 [5.87]
C
E
D
L L 1
L 2L 3
Output shaftL3
mm [in]
Cyl. 50 mmSplined 2.125 in
82[3.23]
Tapered 60 mm105
[4.13]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep
D: M12; 12 mm [0.47 in] deep E: G 1; 18 mm [0.71 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMV 315215
[8.46]22.0
[0.866]160
[6.30]
OMV 400222
[8.74]29.0
[1.142]167
[6.57]
OMV 500230
[9.05]37.0
[1.457]175
[6.89]
OMV 630240
[9.45]47.5
[1.870]186
[7.32]
OMV 800254
[10.00]61.5
[2.421]200
[7.87]
Dimensions – European Version
DimensionsStandard Flange
73520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Ø160.000 [6.2992]Ø159.937 [6.2967]
Ø146.3 [5.760]Ø145.7 [5.736]
Ø90 [3.54]Ø88 [3.46]
39.4
[1.5
51]
38.6
[1.5
20]
2 [0
.08]
x45˚
24.6
[0.9
69]
23.4
[0.9
21]
33˚
R1.6
[0.0
63]
max
. 76
[2.9
9]
Ø200.4 [7.890]
Ø199.6 [7.858]
40 [1
.57]
60 [2
.36]
11 [0
.43]
20 [0
.79]
max. 77 [3.03] max. 83 [3.27]
69 [2.72]
77 [3.03]
R16 [0.63]Ø18 [0.71]
max
. 179
[7.0
5]
max. 179 [7.05]
151-890.11.22
25.3 [0.996]24.7 [0.972]
25.3 [0.996]24.7 [0.972]
120 [4.72]
max. 149 [5.87]
C
D
L L 1
L 2L 3
Dimensions – US Version
Standard Flange
Output shaftL3
mm [in]
Cyl. 2.25 inSplined 2.125 in
82[3.23]
Tapered 2.25 in100
[3.94]
C: Drain connection 9⁄16 - 18 UNF; 13 mm [0.51 in] deep O-ring boss port
D: 1 5⁄16 - 12 UN; 19 mm [0.75 in] deep O-ring boss port
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMV 315215
[8.46]22.0
[0.866]160
[6.30]
OMV 400222
[8.74]29.0
[1.142]167
[6.57]
OMV 500230
[9.05]37.0
[1.457]175
[6.89]
OMV 630240
[9.45]47.5
[1.870]186
[7.32]
OMV 800254
[10.00]61.5
[2.421]200
[7.87]
74 520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Ø127.00 [5.000]Ø126.95 [4.998]
71.0 [2.795]
81.5 [3.209]
Ø162.3 [6.390]
Ø161.5 [6.358]
max. 147 [5.79]
151-1485.10
Ø17.7 [0.697]Ø17.3 [0.681]
max. 77 [3.03] max. 83 [3.27]
16.1
[0.6
34]
13.7
[0.5
39]
13.8
[0.5
43]
13.2
[0.5
20]
21.0
[0.8
27]
19.6
[0.7
72]
max
. 76
[2.9
9]m
ax. 1
47 [5
.79]
85.5
[3.3
66]
24.0
[0.9
45]
max. 121 [4.76]
max. 149 [5.87]
25 [0.98]25 [0.98]
R16 [0.63]
C
D
L
L 1
L 2
L 3
Dimensions – US Version
SAE-C Flange
Output shaftL3
mm [in]
Cyl. 2.25 in99
[3.90]
Splined 2.125 in76.7
[3.02]
C: Drain connection 9⁄16 - 18 UNF; 13 mm [0.51 in] deep O-ring boss port
D: 1 5⁄16 - 12 UN; 19 mm [0.75 in] deep O-ring boss port
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMV 315239
[9.41]22.0
[0.866]185
[7.28]
OMV 400246
[9.69]29.0
[1.142]192
[7.56]
OMV 500254
[10.00]37.0
[1.457]200
[7.87]
OMV 630265
[10.43]47.5
[1.870]211
[8.31]
OMV 800279
[10.98]61.5
[2.421]225
[8.86]
75520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Ø146.4 [5.764]Ø145.0 [5.710]
Ø180.000 [7.0866]Ø179.937 [7.0841]
Ø148.0 [5.827]Ø147.9 [5.823]Ø83 [3.27]
2 [0
.08]
x45˚
24.6
[0.9
69]
23.4
[0.9
21]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
3.6[
0.14
2]
22 [0
.87]
10 [0
.39]
79 [3
.11]10
8 [4
.25]
20 [0
.79]
33˚
max
. 76
[2.9
9]
Ø224.3 [8.831]
Ø223.7 [8.807]
max. 81 [3.19]max. 77 [3.03]
8 [0
.31]
max
. 107
.7 [4
.240
]
R1.2
[0.0
47]
R1.2
[0.0
47]
85 [3.35]23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
R16 [0.63]
Ø18 [0.71]
max
. 198
[7.8
0]
max. 198 [7.80]
151-899.11
25.3 [0.996]24.7 [0.972]
25.3 [0.996]24.7 [0.972]
120 [4.72]
max. 149 [5.87]
Ø194.000 [7.6378]Ø193.928 [7.6350]
C
ED
L
L 1
L 2
L 3
Dimensions – European Version
Wheel
Output shaftL3
mm [in]
Cyl. 50 mm82
[3.23]
Tapered 60 mm105
[4.13]
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep
D: M12; 12 mm [0.47 in] deepE: G 1; 18 mm [0.71 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMVW 315
146 [5.75]
22.0[0.866]
92 [3.62]
OMVW 400
153 [6.02]
29.0[1.142]
99 [3.90]
OMVW 500
161 [6.34]
37.0[1.457]
107 [4.21]
OMVW 630
172 [6.77]
47.5[1.870]
118 [4.65]
OMVW 800
185 [7.28]
61.5[2.421]
132 [5.20]
76 520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Ø146.3 [5.760]Ø145.7 [5.736]
Ø90 [3.54]Ø88 [3.46]
100.
4 [3
.953
]99
.6 [3
.921
]
2 [0
.08]
x45˚
20 [0
.79]
3.6
[0.1
42]
24.6
[0.9
69]
23.4
[0.9
21]
10 [0
.39]
79 [3
.11]10
8 [4
.25]
22 [0
.87]
33˚
R1.2
[0.0
47]
R1.2
[0.0
47]
max
. 76
[2.9
9]
max
. 198
[7.8
0]m
ax. 1
07.7
[4.2
40]
Ø224.3 [8.831]
Ø223.7 [8.807]
8 [0
.31]
Ø148.0 [5.827]Ø147.9 [5.823]
max. 83 [3.27]max. 77 [3.03]
85 [3.35]
R16 [0.63]
Ø18 [0.71]
max. 198 [7.80]
151-899.11.22
25.3 [0.996]24.7 [0.972]
25.3 [0.996]24.7 [0.972]
120 [4.72]
max. 149 [5.87]
Ø194.000 [7.6378]Ø193.928 [7.6350]
Ø180.000 [7.0866]Ø179.937 [7.0841]
C
D
L
L 1
L 2Dimensions – US Version
Wheel
C: Drain connection 9⁄16 - 18 UNF; 13 mm [0.51 in] deep O-ring boss port
D: 1 5⁄16 - 12 UN; 19 mm [0.75 in] deep O-ring boss port
*) The gearwheel set is 3.5 mm
[0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMVW 315
147 [5.79]
22.0[0.866]
92 [3.62]
OMVW 400
154 [6.06]
29.0[1.142]
99 [3.90]
OMVW 500
162 [6.38]
37.0[1.457]
107 [4.21]
OMVW 630
172 [6.77]
47.5[1.870]
118 [4.65]
OMVW 800
187 [7.36]
61.5[2.421]
132 [5.20]
77520L0407 • Rev EG • Jul 2012
OMVTechnical Information
Ø140.000 [5.5118]Ø139.937 [5.5093]
82 [3.23]
Ø14 [0.55]
58 [2.28]
Ø6 [0.24]
28 [1
.10]
max
. 76
[2.9
9]22
[0.8
7]
35 [1
.38]
1 [0
.04]
x45˚
24.6
[0.9
69]
23.4
[0.9
21]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
14.0
[0.5
51]
13.0
[0.5
12]
R1 [0.04]
20 [0
.79]
max. 81 [3.19]max. 77 [3.03]
8 [0.31]
8 [0
.31]
28 [1.10]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
23.9 [0.941]22.9 [0.902]
max. Ø207 [8.15]Ø180.4 [7.102]Ø179.6 [7.071]
151-900.10
25.3 [0.996]24.7 [0.972]
25.3 [0.996]24.7 [0.972]
120 [4.72]
max. 149 [5.87]
C
ED
L
L 1L 2
Dimensions – European Version
Short
C: Drain connection G 1⁄4; 12 mm [0.47 in] deep D: M12; 12 mm [0.47 in] deep E: G 1; 18 mm [0.71 in] deep
*) The gearwheel set is 3.5 mm [0.138 in] wider across the rollers than the L1 dimensions
TypeLmax
mm [in]
L1*
mm [in]
L2
mm [in]
OMVS 315
171[6.73]
22.0[0.866]
117[4.61]
OMVS 400
179[7.05]
29.0[1.142]
124[4.88]
OMVS 500
186[7.32]
37.0[1.457]
132[5.20]
OMVS 630
197[7.76]
47.5[1.870]
143[5.63]
OMVS 800
211[8.31]
61.5[2.421]
157[6.18]
78 520L0407 • Rev EG • Jul 2012
OMVTechnical InformationOMVS
Installing the OMVS
OMVSDimensions of the Sttached Component
The cardan shaft of the OMVS motor acts as an “output shaft”. Because of the movement of the shaft, no seal can be fitted at the shaft output. Internal oil leakage from the motor will therefore flow into the attached component.
During start and operation it is important that the spline connection and the bearings in the attached component receive oil and are adequately lubricated. To ensure that the spline connection receives sufficient oil, a conical sealing ring between the shaft of the attached component and the motor intermediate plate is recommended. This method is used in the OMV.
The conical sealing ring (code. no. 633B9021) is supplied with the motor.
To ensure that oil runs to the bearings and other parts of the attached component, the stop plate must have a hole in it (see fig. below).
We recommend an O-ring between motor and attached component. The O-ring (code no. 151B1041) is supplied with the motor. If motor and attached component have been separated, remember to refill before starting up. Fill the oil through the drain connection.
2.35 [0.093]2.25 [0.089]
0.25 [0.010]
0.1˚ 6 [0.24]4 [0.16]
32.5 [1.280]31.5 [1.240]
53.3 [1.098]52.7 [2.075]
76.3 [3.004]75.7 [2.980]
9.5 [0.374]8.5 [0.335]
8.4 [0.331]7.6 [0.299] 20.5 [0.807]
19.5 [0.768]28.7 [1.130]26.3 [1.035]
151-815.10
min. 5 [0.2]max. 2 [0.08]
min
. Ø6
[0.2
4]
Ø14
0.06
3 [5
.514
3]Ø
140.
000
[5.5
118]
min
. Ø60
[2.3
6]
Ø14
7.9
[5.8
23]
Ø14
7.7
[5.8
15]
Ø56
.3 [2
.217
]Ø
55.5
[2.1
65]
Ø46
.2 [1
.819
]Ø
45.8
[1.8
03]
Ø10
2 [4
.02]
Ø10
0 [3
.94]
Ø61
.2 [2
.409
]Ø
61.0
[2.4
02]
Ø71
[2.8
0]Ø
69 [2
.72]
CA
R
B
E
D
F
KK
K
GH
A: O-ring: 140 × 3 mmB: External drain channelC: Drain connection
G 1⁄4; 12 mm [0.47 in] deepD: Conical seal ring
E: Internal drain channelF: M12; min. 18 mm [0.71 in] deepG: Oil circulation holeH: Hardened stop plate
79520L0407 • Rev EG • Jul 2012
OMVTechnical Information
The attached component must have internal splines corresponding to the external splines on the motor cardan shaft (see drawing below).
Material:Case hardening steel with a tensile strength corresponding at least to 20 MoCr4 (900 N/mm2) or SAE 8620.
Hardening specification: • On the surface: HV = 750 ± 50 • 0.7 ± 0.2 mm under the surface: HV = 560
Internal involute spline dataStandard ANS B92.1-1970, class 5 (corrected m · X = 1; m = 2.54)
OMVS
Internal Spline Data for the Component to be Attached
Drain Connection on OMVS or Attached Component
dl
D
DriDi
D�
So
Lo
Rmin
151-816.10
A drain line ought to be used when pressure in the return line can exceed the permissible pressure on the shaft seal of the attached component.
The drain line can be connected at two different points:1) at the motor drain connection2) at the drain connection of the attached component.If a drain line is fitted to the attached component, it must be possible for oil to flow freely between motor and attached component.
The drain line must be led to the tank in such a way that there is no risk of the motor and attached component being drained of oil when at rest.The maximum pressure in the drain line is limited by the attached component and its shaft seal.
Flat root side fit mm inNumber of teeth
z 16 16
Pitch DP 10/20 10/20Pressure angle 30° 30°Pitch dia. D 40.640 1.6Major dia. Dri 45.2
0+0.4 1.780 0
+0.016
Form dia. (min.)
Dfi 44.6 1.756
Minor dia. Di 38.5 0+ 0.039 1.516 0
+ 0.0015
Space width (circular)
Lo 5.180 ±0.037 0.204 ±0 .0015
Tooth thickness (circular)
So 2.835 0.1116
Fillet radius Rmin. 0.4 0.015Max. measurementbetween pins*
l 32.47 0+ 0.15 1.278 0
+0.006
Pin dia. d 5.6 ±0.001 0.22 ±0.00004
* Finished dimensions (when hardened)
80 520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical InformationWeight of Motors
Weight of Motors
151B2050 20.0 44.1151B2051 20.5 45.2151B2052 21.0 46.3151B2053 22.0 48.5151B2054 23.0 50.7151B2055 24.0 52.9151B2056 20.0 44.1151B2057 20.5 45.2151B2058 21.0 46.3151B2059 22.0 48.5151B2060 23.0 50.7151B2061 24.0 52.9151B2062 20.0 44.1151B2063 20.5 45.2151B2064 21.0 46.3151B2065 22.0 48.5151B2066 23.0 50.7151B2067 24.0 52.9151B2080 22.0 48.5151B2081 22.5 49.6151B2082 23.0 50.7151B2083 24.0 52.9151B2084 25.0 55.1151B2085 26.0 57.3151B2150 31.8 70.1151B2151 32.6 71.9151B2152 33.5 73.9151B2153 34.9 76.9151B2154 36.5 80.5151B2155 31.8 70.1151B2156 32.6 71.9151B2157 33.5 73.9151B2158 34.9 76.9151B2159 36.5 80.5151B2160 31.8 70.1151B2161 32.6 71.9151B2162 33.5 73.9151B2163 34.9 76.9151B2164 36.5 80.5151B2170 32.4 71.4151B2171 33.2 73.2151B2172 34.1 75.2151B2173 35.5 78.3151B2174 37.1 81.8151B2183 30.0 66.2151B2184 30.8 67.9151B2185 31.7 69.9151B2186 33.1 73.0151B2187 34.7 76.5151B2188 30.0 66.2151B2189 30.8 67.9
Code no Weight
kg [lb]Code no
Weightkg [lb]
Code no Weight
kg [lb]151B2190 31.7 69.9151B2191 33.1 73.0151B2192 34.7 76.5151B3000 20.0 44.1151B3001 20.5 45.2151B3002 21.0 46.3151B3003 22.0 48.5151B3004 23.0 50.7151B3005 24.0 52.9151B3006 20.0 44.1151B3007 20.5 45.2151B3008 21.0 46.3151B3009 22.0 48.5151B3010 23.0 50.7151B3011 24.0 52.9151B3012 20.0 44.1151B3013 20.5 45.2151B3014 21.0 46.3151B3015 22.0 48.5151B3016 23.0 50.7151B3017 24.0 52.9151B3018 20.0 44.1151B3019 20.5 45.2151B3020 21.0 46.3151B3021 22.0 48.5151B3022 23.0 50.7151B3023 24.0 52.9151B3024 22.0 48.5151B3025 22.5 49.6151B3026 23.0 50.7151B3027 24.0 52.9151B3028 25.0 55.1151B3029 26.0 57.3151B3030 22.0 48.5151B3031 22.5 49.6151B3032 23.0 50.7151B3033 24.0 52.9151B3034 25.0 55.1151B3035 26.0 57.3151B3036 15.0 33.1151B3037 15.5 34.2151B3038 16.0 35.3151B3039 17.0 37.5151B3040 18.0 39.7151B3041 19.0 41.9151B3100 31.8 70.1151B3101 32.6 71.9151B3102 33.5 73.9151B3103 34.9 76.9151B3104 36.5 80.5151B3105 31.8 70.1
151B3106 32.6 71.9151B3107 33.5 73.9151B3108 34.9 76.9151B3109 36.5 80.5151B3110 31.8 70.1151B3111 32.6 71.9151B3112 33.5 73.9151B3113 34.9 76.9151B3114 36.5 80.5151B3115 32.4 71.4151B3116 33.2 73.2151B3117 34.1 75.2151B3118 35.5 78.3151B3119 37.1 81.8151B3120 32.4 71.4151B3121 33.2 73.2151B3122 34.1 75.2151B3123 35.5 78.3151B3124 37.1 81.8151B3125 22.7 50.1151B3126 23.5 51.8151B3127 24.4 53.8151B3128 25.6 56.4151B3129 27.7 61.1151B3200 31.0 68.3151B3201 31.5 69.4151B3202 32.0 70.5151B3203 33.0 72.8151B3204 34.0 75.0151B3205 35.0 77.2151B3207 31.0 68.3151B3208 31.5 69.4151B3209 32.0 70.5151B3210 33.0 72.8151B3211 34.0 75.0151B3212 35.0 77.2151B4000 24.5 54.0151B4001 25.0 55.1151B4002 25.5 56.2151B4003 26.5 58.4151B4004 27.5 60.6151B4005 28.5 62.8151B4007 24.5 54.0151B4008 25.0 55.1151B4009 25.5 56.2151B4010 26.5 58.4151B4011 27.5 60.6151B4012 28.5 62.8151B4021 24.5 54.0151B4022 25.0 55.1151B4023 25.5 56.2
81520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical Information
Code no Weight
kg [lb]Code no
Weightkg [lb]
Code no Weight
kg [lb]
Weight of Motors
Weight of Motors
151B4024 26.5 58.4151B4025 27.5 60.6151B4026 28.5 62.8151B4028 24.5 54.0151B4029 25.0 55.1151B4030 25.5 56.2151B4031 26.5 58.4151B4032 27.5 60.6151B4033 28.5 62.8151F0500 9.8 21.6151F0501 10.0 22.1151F0502 10.3 22.7151F0503 10.7 23.6151F0504 11.1 24.5151F0505 11.6 25.6151F0506 12.3 27.1151F0507 9.8 21.6151F0508 10.0 22.1151F0509 10.3 22.7151F0510 10.7 23.6151F0511 11.1 24.5151F0512 11.6 25.6151F0513 12.3 27.1151F0514 9.8 21.6151F0515 10.0 22.1151F0516 10.3 22.7151F0517 10.7 23.6151F0518 11.1 24.5151F0519 11.6 25.6151F0520 12.3 27.1151F0521 10.3 22.7151F0522 10.5 23.1151F0523 10.8 23.8151F0524 11.2 24.7151F0525 11.6 25.6151F0526 12.1 26.7151F0527 12.8 28.2151F0528 10.3 22.7151F0529 10.5 23.1151F0530 10.8 23.8151F0531 11.2 24.7151F0532 11.6 25.6151F0533 12.1 26.7151F0534 12.8 28.2151F0535 7.8 17.2151F0536 8.0 17.6151F0537 8.3 18.3151F0538 8.7 19.2151F0539 9.1 20.1151F0540 9.6 21.2151F0541 10.3 22.7
151F0542 10.2 22.5151F0543 10.4 22.9151F0544 10.7 23.6151F0545 11.1 24.5151F0546 11.5 25.4151F0547 12.0 26.5151F0548 12.7 28.0151F0560 9.8 21.6151F0561 10.0 22.1151F0562 10.3 22.7151F0563 10.7 23.6151F0564 11.1 24.5151F0565 11.6 25.6151F0566 12.3 27.1151F0605 13.1 28.9151F0608 11.1 24.5151F0609 13.6 30.0151F0610 13.6 30.0151F2200 9.8 21.6151F2201 10.0 22.1151F2202 10.3 22.7151F2203 10.7 23.6151F2204 11.1 24.5151F2205 11.6 25.6151F2206 12.3 27.1151F2207 9.8 21.6151F2208 10.0 22.1151F2209 10.3 22.7151F2210 10.7 23.6151F2211 11.1 24.5151F2212 11.6 25.6151F2213 12.3 27.1151F2214 9.8 21.6151F2215 10.0 22.1151F2216 10.3 22.7151F2217 10.7 23.6151F2218 11.1 24.5151F2219 11.6 25.6151F2220 12.3 27.1151F2235 10.3 22.7151F2236 10.5 23.1151F2237 10.8 23.8151F2238 11.2 24.7151F2239 11.6 25.6151F2240 12.1 26.7151F2241 12.8 28.2151F2242 10.3 22.7151F2243 10.5 23.1151F2244 10.8 23.8151F2245 11.2 24.7151F2246 11.6 25.6
151F2247 12.1 26.7151F2248 12.8 28.2151F2261 13.1 28.9151F2262 13.1 28.9151F2263 13.6 30.0151F2264 13.1 28.9151F2265 13.6 30.0151F2300 9.8 21.6151F2301 10.0 22.1151F2302 10.3 22.7151F2303 10.7 23.6151F2304 11.1 24.5151F2305 11.6 25.6151F2306 12.3 27.1151F2307 13.1 28.9151F2308 9.8 21.6151F2309 10.0 22.1151F2310 10.3 22.7151F2311 10.7 23.6151F2312 11.1 24.5151F2313 11.6 25.6151F2314 12.3 27.1151F2315 13.1 28.9151F2316 9.8 21.6151F2317 10.0 22.1151F2318 10.3 22.7151F2319 10.7 23.6151F2320 11.1 24.5151F2321 11.6 25.6151F2322 12.3 27.1151F2323 13.1 28.9151F2324 9.8 21.6151F2325 10.0 22.1151F2326 10.3 22.7151F2327 10.7 23.6151F2328 11.1 24.5151F2329 11.6 25.6151F2330 12.3 27.1151F2331 13.1 28.9151F2332 9.8 21.6151F2333 10.0 22.1151F2334 10.3 22.7151F2335 10.7 23.6151F2336 11.1 24.5151F2337 11.6 25.6151F2338 12.3 27.1151F2339 13.1 28.9151F2345 14.0 30.9151F2346 14.0 30.9151F2347 14.0 30.9151F2348 14.0 30.9
82 520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical InformationWeight of Motors
Weight of Motors
151F2349 14.0 30.9151F2350 9.8 21.6151F2351 10.0 22.1151F2352 10.3 22.7151F2353 10.7 23.6151F2354 11.1 24.5151F2355 11.6 25.6151F2356 12.3 27.1151F2357 13.1 28.9151F2358 14.0 30.9151F2359 9.8 21.6151F2360 10.0 22.1151F2361 10.3 22.7151F2362 10.7 23.6
151F2363 11.1 24.5151F2364 11.6 25.6151F2365 12.3 27.1151F2366 13.1 28.9151F2367 14.0 30.9151F2368 9.8 21.6151F2369 10.0 22.1151F2370 10.3 22.7151F2371 10.7 23.6151F2372 11.1 24.5151F2373 11.6 25.6151F2374 12.3 27.1151F2375 13.1 28.9151F2376 14.0 30.9
151F2395 9.8 21.6151F2396 10.0 22.1151F2397 10.3 22.7151F2398 10.7 23.6151F2399 11.1 24.5151F2400 11.6 25.6151F2401 12.3 27.1151F2402 13.1 28.9151F2403 14.0 30.9151F2413 9.8 21.6151F2414 10.0 22.1151F2415 10.3 22.7151F2416 10.7 23.6151F2417 11.1 24.5
Code no Weight
kg [lb]Code no
Weightkg [lb]
Code no Weight
kg [lb]
83520L0407 • Rev EG • Jul 2012
OMS, OMT and OMVTechnical InformationNotes
Notes
Local address:
Sauer-Danfoss GmbH & Co. OHGPostfach 2460, D-24531 NeumünsterKrokamp 35, D-24539 Neumünster, GermanyPhone: +49 4321 871 0Fax: +49 4321 871 122
Sauer-Danfoss ApSDK-6430 Nordborg, DenmarkPhone: +45 7488 4444Fax: +45 7488 4400
Sauer-Danfoss is a global manufacturer and supplier of high-quality hydraulic and electronic components. We specialize in providing state-of-the-art technology and solutions that excel in the harsh operating conditions of the mobile o� -highway market. Building on our extensive applications expertise, we work closely with our customers to ensure exceptional performance for a broad range of o� -highway vehicles.
We help OEMs around the world speed up system development, reduce costs and bring vehicles to market faster. Sauer-Danfoss – Your Strongest Partner in Mobile Hydraulics.
Go to www.sauer-danfoss.com for further product information.
Wherever o� -highway vehicles are at work, so is Sauer-Danfoss.
We o� er expert worldwide support for our customers, ensuring the best possible solutions for outstanding performance. And with an extensive network of Global Service Partners, we also provide comprehensive global service for all of our components.
Please contact the Sauer-Danfoss representative nearest you.
Products we o� er:
• Bent Axis Motors
• Closed Circuit Axial Piston Pumps and Motors
• Displays
• Electrohydraulic Power Steering
• Electrohydraulics
• Hydraulic Power Steering
• Integrated Systems
• Joysticks and Control Handles
• Microcontrollers and Software
• Open Circuit Axial Piston Pumps
• Orbital Motors
• PLUS+1™ GUIDE
• Proportional Valves
• Sensors
• Steering
• Transit Mixer Drives
Members of the Sauer-Danfoss Group:
Comatrolwww.comatrol.com
Schwarzmüller-Inverterwww.schwarzmueller-inverter.com
Turolla www.turollaocg.com
Valmovawww.valmova.com
Hydro-Gear www.hydro-gear.com
Sauer-Danfoss-Daikinwww.sauer-danfoss-daikin.com
Sauer-Danfoss (US) Company2800 East 13th StreetAmes, IA 50010, USAPhone: +1 515 239 6000Fax: +1 515 239 6618
Sauer-Danfoss-Daikin LTD.Shin-Osaka TERASAKI 3rd Bldg. 6F1-5-28 Nishimiyahara, Yodogawa-kuOsaka 532-0004, JapanPhone: +81 6 6395 6066Fax: +81 6 6395 8585
w w w . s a u e r - d a n f o s s . c o m520L0407 • Rev EG • Jul 2012