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RYAN HYDRAULICS
www.ryanhydraulic.com01/02
Ryan Hydraulics
9 Series ProductsCovers the Whole Hydraulic BusinessAs a supplier of hydraulics, our business covers: hydraulic motors, hydraulic control valves, hydraulic gear pumps, power units and hydraulic systems, etc. Products are widely used in construction machinery, agricultural machinery, industry equipment.
Supplier of the Whole Hydraulic SystemRyan Hydraulics manufacture was established in 1986, focusing on R&D, manufacture and sales of hydraulic products. Ryan Hydraulics owns world top level R&D team, as well as invention patents, sales covers global market.Targeting at vision of Excellence, Ryan Hydraulics keeps creating more value for customers by quality products, professional technology and experienced service.
645,835 sq.ft Modern ManufactureSince the opening of 3rd generation modern manufacture in 2015, the total area covers 1,291,669 sq.ft, while the construction area covers 645,835 sq.ft, there are IT machining equipment, test and inspection equipment, meets various requirement of global customers.
Instant Efficient ServiceTechnical Team offers accurate solutions to the service, including the product model selection, product test, installa-tion and commissioning, debugging etc., so as to keep in touch with right department of each customer in time and respond to the customer's requirement.
Customer FirstWith leading technology, quality product, and professional service, Ryan Hydraulics has covered the global market with more than 60 countries and regions, become the strategic partner of many international famous OEM enterprises.
Contents
www.ryanhydraulic.com03/04
GP Series Orbital Motors
GPH
Specifications
Function Diagrams
Dimensions and Mounting
Shaft Extension Dimensions
Ordering Code
GR Series Orbital Motors
GRS
Specifications
Function Diagrams
Dimensions and Mounting
Shaft Extension Dimensions
Ordering Code
GH Series Orbital Motors
Specifications
Function Diagrams
Dimensions and Mounting
Shaft Extension Dimensions
Ordering Code
GS Series Orbital Motors
GSS
Specifications
Function Diagrams
Dimensions and Mounting
Shaft Extension Dimensions
Ordering Code
GT Series Orbital Motors
GTS
Specifications
Function Diagrams
Dimensions and Mounting
Shaft Extension Dimensions
Ordering Code
GV Series Orbital Motors
GVS
Specifications
Function Diagrams
Dimensions and Mounting
Shaft Extension Dimensions
Ordering Code
GGM Series High Speed Orbital Motors
Specifications
Dimensions
Design, Shafts and Mounting Flange
Torque and Speed Selection Charts
Ordering Code
5-21
22-34
35-41
42-53
54-64
65-73
74-79
Orbital MotorsGP
GR
GH
GS
GT
Orbital MotorsGV
GGM
www.ryanhydraulic.com05/06
OptionsApplication
Pressure Loss
2,5 .6601,8 .4763,5 .9252,8 .740
[ ][ ][ ][ ]
Oil Flow in Drain Line
623,6 [38.05]
1815
cont.:50[5144] int.:64[5565]
12,8 [17.1]
cont.:140[2030] int.:175 [2540]
75 [19.8]
10
Mineral based- HLP(DIN 51524) or HM(ISO 6743/4)
-40÷140 [-40÷284]
20÷75[98÷347]
ISO code 20/16 (Min. recommended fluid filtration of 25 microns)
General
7020 605003 040 01 Q, lpm
0 2 84 106 12 Q, GPM
80
0
100
200
400
300
0
5
10
1520
25
pbar
pPSI
14 16 18 20
30
100 [1450]
140 2030[ ]
Pressure drop[ ]bar PSI
Viscosity[ ]mm2 /s SUS
Oil flow indrain line
[ ]lpm GPM
20 9835 16420 [98]
35 [164]
[ ][ ]
Max. Displacement,
Max. Speed, [RPM]
Max. Torque, daNm [lb-in]
Max. Output, kW [HP]
Max. Pressure Drop, bar [PSI]
Max. Oil Flow, lpm [GPM]
Min. Speed, [RPM]
Pressure fluid
Temperaturerange, Co [oF]
Optimal Viscosity range,mm2/s [SUS]
Filtration
cm3/rev [in3/rev]
Conveyors
Feeding mechanism of robots and manipulators
Metal working machines
Textile machines
Agricultural machines
Food industries
Grass cutting machinery etc.
●
●
●
●
●
●
●
Model - Spool valve, gerotor
Flange and wheel mount
Motor with needle bearing
Side and rear ports
Shafts - straight, splined and tapered
Shaft seal for high and low pressure
Metric and BSPP ports
Other special features
●
●
●
●
●
●
●
●
Technical data for GP with 25 and 1 in and 1 in splined and 28.56 tapered shaft
Specifications GP Series Orbital Motors
Type
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max.press. drop Cont.
At max.press. drop Int.*
G P(H)
GP40
GP3225
49,5 3.02
9,4 835
11,9 1050
14,3 1285
10,1 13.5
12,2 16.1
140 2030
175 2540
225 3260
60 [15.9]
75 19.8
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
7,8 690
10 885
5,8 12.8
[ ]
1210
1515
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
40 2.44
6,2 550
8,2 730
10,7 950
8,4 11.5
11,6 15.5
120 1750
155 2250
225 3260
60 1
70 18.5
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
5,4 480
6,8 600
5,7 12.6
[ ]
1500
1750
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ 5.9]
[ ]
[ ]
[ ]
10
[ ]
[ ]
1600
1815
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
20
[ ]
25 1.52
3,3 290
4,7 415
6,7 595
4,5 6.0
6,1 8.2
100 1450
140 2030
225 3260
40 10.5
45 11.9
175 2540
200 2900
225 3260
175 2540
200 2900
225 3260
10 [145]
3,0 265
4,2 370
5,6 12.3
[ ]
1560
1720
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
15
32 1.95
4,3 380
6,1 540
8,6 760
5,8 7.8
7,8 10.5
100 [1450]
140 [2030]
225 [3260]
50 13.2
55 14.5
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
4,0 355
5,6 500
5,6 [12.3]
GP80
79,2 4.83
15,1 1340
19,5 1725
22,4 1985
10,2 13.7
12,5 16.8
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
13,2 1170
16,8 1490
5,9 13.2
[ ]
755
945
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
GP50
GP100
99 6.04
19,3 1710
23,7 2100
27,5 2435
10,5 14.1
12,8 17.1
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
16,6 1470
21 1860
6,1 13.5
[ ]
605
755
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
GP125
123,8 7.55
23,7 2100
29,8 2640
36,5 3235
10,2 13.7
12 16.1
9 131
20,7 1830
26,6 2360
6,2 13 7
[ ]
48
6
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ . ]
6
05
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
Displacement, [ ]
Max. Speed,
[RPM]
Max. Torque
[ ]
Max. Output
[ ]
Max. Pressure Drop
[ ]
Max. Oil Flow
[ ]
Max. Inlet Pressure
[ ]
Max. Return Pressure
with Drain Line
[ ]
Max. Starting Pressure with
Unloaded Shaft, [ ]
Min. Starting Torque
[ ]
Min. Speed***, [RPM]
Weight, [ ]
cm³/rev in³/rev
daNm lb-in
kW HP
bar PSI
lpm GPM
bar PSI
bar PSI
bar PSI
daNm lb-in
kg lbFor rear ports
+0,450 [.992]
GP
GR
GH
GS
GT
GV
GGM
*Intermittent operation:the permissible values may occur for max. 10% of every minute**Peak load:the permissible values may occur for max. 1% of every minute
***For speeds lower than given, consult factory or your regional manager
GP
www.ryanhydraulic.com07/08
SpecificationsTechnical data for GP with 25 and 1 in and 1 in splined and 28.56 tapered shaft
Typ e
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max.press. drop Cont.
At max.press. drop Int.*
GP160
158,4 9.66
31,3 2770
37,8 3345
43,8 3880
10,1 13.5
12,1 16.2
8 116
28,2 2500
35,5 3140
6,4 14.1
[ ]
378
472
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
GP(H) [ ]
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP200
198 12.1
36,6 3240
45,6 4035
55 4870
10 13.5
12 16.1
7 100
33,5 2950
42,6 3770
6,6 14.6
[ ]
303
378
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP250
247,5 15.1
38 3360
58,3 5160
68,5 6060
7,5 10
12 16.1
110 1600
6 87
33,6 2970
54,2 4795
6,8 15
[ ]
242
303
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP315
316,8 19.3
38 3360
56 4960
85 7505
5,8 7.9
9 12.1
90 1300
140 2030
5 73
34,4 3045
61,9 5480
7,1 15.6
[ ]
190
236
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP400
396 24.16
36 3190
59 5240
85,4 7560
4,6 6.2
7,8 10.5
70 1015
115 1665
180 2610
5 [73]
34,5 3050
60,8 5390
7,6 16.8
[ ]
150
189
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
]
[ ]
[ ]
10
[ ]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP500
495 30.2
39 3452
57 5045
78 6903
3,5 4.7
7,2 9 7
60 870
90 1305
130 1885
140 2030
175 2540
225 3260
140 [2030]
175 [2540]
225 [3260]
5 [73]
36 3180
54 4780
8,9 20
[ ]
120
150
[ ]
[ ]
[ ]
[ ]
[ . ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
60 [15.9]
75 [19.8]
GP630
623,6 38.05
44 3895
64 5665
82 7257
3,3 4.4
5,6 7.5
55 800
80 1160
110 1740
140 [2030]
175 [2540]
225 [3260]
140 [2030]
175 [2540]
225 [3260]
5 [73]
41,5 3670
62 5480
9,5 21.4
[ ]
95
120
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
60 [15.9]
75 [19.8]
Displacement, [ ]
Max. Speed,
[RPM]
Max. Torque
[ ]
Max. Output
[ ]
Max. Pressure Drop
[ ]
Max. Oil Flow
[ ]
Max. Inlet Pressure
[ ]
Max. Return Pressure
with Drain Line
[ ]
Max. Starting Pressure with
Unloaded Shaft, [ ]
Min. Starting Torque
[ ]
Min. Speed***, [RPM]
Weight, [ ]
cm³/rev in³/rev
daNm lb-in
kW HP
bar PSI
lpm GPM
bar PSI
bar PSI
bar PSI
daNm lb-in
kg lbFor rear ports
+0,450 [.992]
SpecificationsTechnical data for GP with 31.75 and 32 shaft
Type
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max.press. drop Cont.
At max.press. drop Int.*
GP40
GP32
GP25
GP100
GP125
GP50
GP80
Displacement, [ ]
Max. Speed,
[RPM]
Max. Torque
[ ]
Max. Output
[ ]
Max. Pressure Drop
[ ]
Max. Oil Flow
[ ]
Max. Inlet Pressure
[ ]
Max. Return Pressure
with Drain Line
[ ]
Max. Starting Pressure with
Unloaded Shaft,bar [PSI]
Min. Starting Torque
[ ]
Min. Speed***, [RPM]
Weight, [ ]
cm³/rev in³/rev
daNm lb-in
kW HP
bar PSI
lpm GPM
bar PSI
bar PSI
daNm lb-in
kg lbFor rear ports +0,450 [.992]
[ ]
1600
1815
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
20
[ ]
25 1.52
3,3 290
4,7 415
6,7 595
4,5 6.0
6,1 8.2
100 1450
140 2030
225 3260
40 10.5
45 [11.9]
175 2540
200 2900
225 3260
175 2540
200 2900
225 3260
10 [145]
3,0 265
4,2 370
5,6 12.3
[ ]
1560
1720
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
15
32 1.95
4,3 380
6,1 540
8,6 760
5,8 7.8
7,8 10.5
100 [1450]
140 [2030]
225 [3260]
50 13.2
55 14.5
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
4,0 355
5,6 500
5,6 [12.3]
40 2.44
6,2 550
8,2 730
10,7 950
8,4 11.5
11,6 15.5
120 1750
155 2250
225 3260
60 1
70 18.5
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
5,4 480
6,8 600
5,7 12.6
[ ]
1500
1750
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ 5.9]
[ ]
[ ]
[ ]
10
[ ]
49,5 3.02
9,4 835
11,9 1050
14,3 1285
10,1 13.5
12,2 16.1
140 2030
175 2540
225 3260
60 [15.9]
75 19.8
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
7,8 690
10 885
5, 1
[ ]
1210
1515
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
9 [ 3]
79,2 4.83
15,1 1340
19,5 1725
22,4 1985
10,2 13.7
12,5 16.8
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
13,2 1170
16,8 1490
13.2
[ ]
755
945
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
6 [ ]
99 6.04
19,3 1710
23,7 2100
27,5 2435
10,5 14.1
12,8 17.1
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
10 [145]
16,6 1470
21 1860
6, 13.
[ ]
605
755
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
2 [ 7]
123,8 7.55
23,7 2100
29,8 2640
36,5 3235
10,2 13.7
12 16.1
9 131
20,7 1830
26,6 2360
6, 13
[ ]
48
6
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
3 [ .9]
6
05
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP(H)
GP
GR
GH
GS
GT
GV
GGM
*Intermittent operation:the permissible values may occur for max. 10% of every minute **Peak load:the permissible values may occur for max. 1% of every minute
***For speeds lower than given, consult factory or your regional manager.
*Intermittent operation:the permissible values may occur for max. 10% of every minute **Peak load:the permissible values may occur for max. 1% of every minute
*** For speeds lower than given, consult factory or your regional manager.
www.ryanhydraulic.com09/10
Specifications
Type
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max.press. drop Cont.
At max.press. drop Int.*
GP160
GP200
247,5 [15.1]
242
303
47 4160
58,3 5160
68,5 6060
9 12.1
12 16.1
6 87
42,8 3790
54,2 4795
6,9 15.2
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP250
GP315
316,8 [19.3]
190
236
48 4360
56 4960
85 7505
7,6 10.2
9 12.1
120 1740
140 2030
225 3260
5 73
7,2 15.9
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
4050 [45,8]
5480 [61,9]
10
[ ]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
396 [24.16]
150
189
50 4415
59 5240
85,4 7560
6,2 8.3
7,8 10.5
95 1400
115 1670
180 2610
5 [73]
46,8 4140
60,8 5390
7,7 17
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
GP400
GP500
GP630
Technical data for GP with 31.75 and 32 shaft
Displacement, [ ]
Max. Speed,
[RPM]
Max. Torque
[ ]
Max. Output
[ ]
Max. Pressure Drop
[ ]
Max. Oil Flow
[ ]
Max. Inlet Pressure
[ ]
Max. Return Pressure
with Drain Line
[ ]
Max. Starting Pressure with
Unloaded Shaft, [ ]
Min. Starting Torque
[ ]
Min. Speed***, [RPM]
Weight, [ ]
cm³/rev in³/rev
daNm lb-in
kW HP
bar PSI
lpm GPM
bar PSI
bar PSI
bar PSI
daNm lb-in
kg lbFor rear ports +0,450 [.992]
158,4 9.66
31,3 2770
37,8 3345
43,8 3880
10,1 13.5
12,1 16.2
8 116
28,2 2500
35,5 3140
6, 14.
[ ]
378
472
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
5 [ 3]
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
198 12.1
36,6 3240
45,6 4035
55 4870
10 13.5
12 16.1
7 100
33,5 2950
42,6 3770
6, 14.
[ ]
303
378
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
7 [ 8]
140 [2030]
175 [2540]
225 [3260]
60 [15.9]
75 [19.8]
175 [2540]
200 [2900]
225 [3260]
175 [2540]
200 [2900]
225 [3260]
495 30.2
39 3452
57 5045
78 6903
3,5 4.7
7,2 9 7
60 870
90 1305
130 1885
140 2030
175 2540
225 3260
140 [2030]
175 [2540]
225 [3260]
5 [73]
36 3180
54 4780
[ ]
120
150
[ ]
[ ]
[ ]
[ ]
[ . ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
9,0 [19.9]
60 [15.9]
75 [19.8]
623,6 38.05
44 3895
64 5665
82 7257
3,3 4.4
5,6 7.5
55 800
80 1160
110 1740
140 [2030]
175 [2540]
225 [3260]
140 [2030]
175 [2540]
225 [3260]
5 [73]
41,5 3670
62 5480
9, 21.
[ ]
95
120
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
6 [ 2]
60 [15.9]
75 [19.8]
Function DiagramsGP 25
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 53
MPG 2.9
nim/l 01
MPG 6. 2
nim/l 5=
QMP
G 3.1
nim/l 54
MPG 9.1 1
MdaNm
0
0 1000 RPMn
cont
..tni
1
2
3
cont. int.
0.5 kW
=73%t
65%
50%
4 kW
6 kW4
5
1200400
0
50
100
150
Mlb-in
200
120 bar1740 PSI
p=140 bar2030 PSI
250
300
450
1600200
350
400
80 bar1160 PSI
600 800 1400
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
1800
nim/l 52
MPG 6.6
nim/l 51
MPG 0.4
2 kW
N=0.25 kW
1 kW
GP 32
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
M PG 6.01
nim/l 53
MPG 2.9
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 5=
QMP
G 3.1
nim/l 54
MPG 9.11
MdaNm
0
0 1000 RPMn
cont
..tni
1
2
3
cont. int.
=78%t
65%75%
4 kW
6 kW4
5
1200400
0
50
100
150
Mlb-in
200
120 bar1740 PSI
p=140 bar2030 PSI
250
300
450
1600200
350
400
80 bar1160 PSI
600 800 1400
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
1800
nim/l 52
MPG 6.6
nim/l 51
MPG 0. 4
2 kW
N=0.5 kW 1 kW
6550
500
600
nim/l 55
MPG 5.41
50%
GP 40
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5 .81
MdaNm
0
0 1000 RPMn
cont
..tni
1
2
3
cont. int.
=78%t
60%
75%
4 kW
6 kW
4
5
1200400
0
50
100
150
Mlb-in
200
120 bar1740 PSI
p=155 bar2250 PSI
250
300
450
1600200
350
400
80 bar1160 PSI
600 800 1400
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
1800
2 kW
N=0.5 kW
1 kW
6550
500
nim/l 06
MPG 9.51
50%
140 bar2030 PSI
7
8
650
600
750
700
nim/l 5=
QMP
G 3.1
8 kW
10 kW
70%
GP 50M
daNm
0
0 1000 RPMn
cont
..tni
1
2
3
cont. int.
=75%t
60%
70%
4 kW
6 kW
4
5
1200400
0
100
Mlb-in
200
120 bar1740 PSI
p=175 bar2540 PSI
300
200
40080 bar
1160 PSI
600 800 1400
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kWN=1 kW
6500
600
50%
7
8
9
10
11
12
700
800
900
1000
1100
8 kW 10 kW
12 kW
140 bar2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
M PG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8. 91
GP 80
MdaNm
0
0 RPMn
.tnoc.tni
2
cont. int.
=75%t
60%
70% 4 kW6 kW
4
400
120 bar1740 PSI
p=175 bar2540 PSI
200
80 bar1160 PSI
600 800
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kW
N=1 kW6
50%
8
10
128 kW
10 kW
12 kW
140 bar2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6 .2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.8 1
nim/ l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
700 900100 300 500
14
16
18
20
0
Mlb-in
200
400
600
800
1600
1000
1200
1400
1800
GP 100
MdaNm
0
0 RPMn
.tnoc.tni
2
cont. int.
=78%t
60%
70%
4 kW
6 kW
4
400
120 bar1740 PSI
p=175 bar2540 PSI
200
80 bar1160 PSI
600
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kWN=1 kW6
50%
8
10
12 8 kW
10 kW
12 kW
140 bar2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/ l 06
MPG 9.51
nim/l 5=
QMP
G 3. 1
nim/l 57
MPG 8.91
700100 300 500
14
16
18
20
0
Mlb-in
200
400
600
800
1600
1000
1200
1400
1800
75%
22
24
2000
2200Intermittent operation: the permissible values may occur for max. 10% of every minute.
Peak load: the permissible values may occur for max. 1% of every minute.
For speeds lower than given, consult factory or your regional manager.
1. Intermittent speed and intermittent pressure must not occur simultaneously.
2. Recommended filtration is per ISO cleanliness code 20/16. A nominal f ltration of 25 micron or better.
3. Recommend using a premium quality, anti-wear type mineral based hydraulic oil HLP(DIN51524) orHM ( ISO 6743/4).
If using synthetic fluids consult the factory for alternative seal materials.
5. Recommended maximum system operating temperature is 82°C [180°F].
6. To assure optimum motor life fill with fluid prior to loading and run at moderate load and speed for 10-15 minutes.
GP(H)
GP
GR
GH
GS
GT
GV
GGM
**
*
***
●
●●
●●
● The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar
[72.5÷145 PSI] and oil with viscosity of 32 mm²/s [150 SUS] at 50°C [122°F].
www.ryanhydraulic.com11/12
MdaNm
0
0 RPM
n
cont
..tni
cont. int.
=78%t
60%
70%
4 kW
6 kW
4
400
120 bar1740 PSI
p=175 bar2540 PSI
200
80 bar1160 PSI
600
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kW
N=1 kW
50%
8
12
8 kW 10 kW140 bar
2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100 300 500
16
20
0
Mlb-in
500
1000
1500 75%
242000
GP 160
Function Diagrams
GP 125
282500
MdaNm
0
0 RPM
n
cont
..tni
cont. int.
=78%t
60%
70%
4 kW
6 kW
4
400
120 bar1740 PSI
p=175 bar2540 PSI
200
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kW
N=1 kW
50%
8
12
8 kW
12 kW
140 bar2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100 300 500
16
20
0
Mlb-in
800
1200
1600 75%
242000
282400
450250150 35050
10 kW
32
36
400
2800
3200
3600
GP 200M
daNm
0
0 RPM
n
cont
..tni
cont. int.
=77%t
60%
70%
4 kW
6 kW
5
115 bar1670 PSI
p=175 bar2540 PSI
200
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kW
N=1 kW
50%
10
15
8 kW
140 bar2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100 300
20
25
0
Mlb-in
1000
1500
200075%
302500
353000
250150 35050
10 kW
40
45
500
3500
4000
4500
GP 250
The function diagrams data is for average performance of randomly selected motors at back pressure
5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32 mm²/s [150 SUS] at 50°C [122°F].
MdaNm
0
0 RPMn
cont
..tni
cont. int.
=80%t
60%
70%
4 kW
6 kW
5
125 bar1810 PSI
p=175 bar2540 PSI
200
85 bar1230 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
2 kW
N=1 kW
50%
10
15
8 kW
140 bar2030 PSI
160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100
20
25
0
Mlb-in
1000
1500
2000
75%30
2500
353000
25015050
10 kW40
45
500
3500
4000
4500
300
50
55
60
5000
5500
GP 630GP 500
Function Diagrams
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32 mm²/s [150 SUS] at 50°C [122°F].
MdaNm
Mlb-in
RPMn
100 20 30 5040 60 70 9080 100 110 120
N=0,5kW80%
75%1kW
2kW
3kW 4kW5kW
70%65%
60%50%
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
cont. int.
45 bar650 PSI
30 bar430 PSI
15 bar220 PSI
55 bar800 PSI
p=80 bar1160 PSI
70 bar1020 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
nim/l 05
MPG 2.31
0
1000
1500
2000
2500
3000
500
3500
4000
4500
5000
5500
6000
6500
N=0,5kW80%
75%1kW
2kW
3kW
4kW 5kW
6kW
70%
60%65% 50%
0
5
10
15
20
25
30
35
40
45
50
55
60
65
70
75
MdaNm
Mlb-in
RPM
ncont. int.
60 bar870 PSI
45 bar650 PSI
30 bar430 PSI
75 bar1090 PSI
90 bar1300 PSI
p=110 bar1600 PSI
15 bar220 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
0
1000
1500
2000
2500
3000
500
3500
4000
4500
5000
5500
6000
6500
7000
100 20 30 04 05 60 70 05104103102101100108 09
GP 400GP 315M
daNm
0
RPMn
.tnoc.t ni
cont. int.
=80%t
60%
70%
4 kW6 kW
5
p=125 bar1810 PSI
65 bar940 PSI
45 bar650 PSI
30 bar430 PSI
80 bar1160 PSI
2 kW
N=1 kW
50%
10
15
95 bar1380 PSI
110 bar1600 PSI
nim/l 02
MPG 3.5
n im/l 03
MPG 9.7
nim/l 04
MPG 6. 01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
20
25
0
Mlb-in
1000
1500
2000
75%30
2500
353000
40
45
500
3500
4000
4500 50
55
60
5000
5500
MdaNm
0
0 RPMn
.tnoc.tni
cont. int.
=73%t
60%
70%4 kW
6 kW120 bar
1740 PSI
200
70 bar1020 PSI
50 bar730 PSI
30 bar430 PSI
100 bar1450 PSI
2 kWN=1 kW
50%
8
16
8 kW
140 bar2030 PSI
p=160 bar2320 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.0 1
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100
24
0
Mlb-in
1000
1500
2000
322500
3000
22515050
40
48
500
3500
4000
4500
56
64
5000
5500
25 75 125 175 250
6000
85 bar1230 PSI
0 200100 1505025 75 125 175
656000
55 bar800 PSI
GP
GR
GH
GS
GT
GV
GGM
www.ryanhydraulic.com13/14
Model
GP50GP80GP100GP125GP160GP200GP250GP315GP400
GP500
L
137140.5143146151157162172182
195
L1
710.513162126324252
65
G 1 (depth) M 1 (depth) U2 (depth) U1 (depth) G2 (depth)
Status of the Shafts Radial Force(Standard motor with journal bearing)
In applications without drain line, output shaft seal exceeds a bit of the pressure in the return line. When applications use the drain line, the pressure of output shaft seal equals the pressure in drain line.
When facing shaft end of motor,shaft to rotate: Clockwise when port "A" is pressurized. Counter-clockwise port "B" is pressurized.
High pressure shaft seal
Direction of Shafts Rotation: Standard
GP
GR
GH
GS
GT
GV
GGM
GP GPH
www.ryanhydraulic.com 21/22
Options
GR Series Orbital Motors
Application
75 [20]10
Mineral based- HLP(DIN 51524) or HM(ISO 6743/4)40÷140 [-40÷284]
]ISO code 20/16 (Min. recommended fluid filtration of 25 microns)
ConveyorsFeeding mechanism of robots and manipulatorsMetal working machinesTextile machinesFood industriesAgricultural machinesFood industriesGrass cutting machinery etc.
●●●●●●●
Model - Spool valve, roll-gerotor Flange mountMotor with needle bearingSide and rear portsShafts - straight, splined and tapered Shaft seal for high and low pressure Metric and BSPP portsOther special features
●●●●●●●●
GP
GR
GH
GS
GT
GV
GGM
www.ryanhydraulic.com23/24
Type
Displacement,
[ ]
Max. Speed,
[RPM]
Max. Torque
[ ]
Max. Output
[ ]
Max. Pressure Drop
[ ]
Max. Oil Flow
[ ]
Max. Inlet Pressure
[ ]
Max. Return Pres-
sure with Drain Line
[ ]
Max. Starting Pressure with
Unloaded Shaft,
Min. Starting Torque
[ ]
Min. Speed***, [RPM]
Weight, [ ]
3
3
cm /rev
in /rev
daNm in-lb
kW HP
bar PSI
lpm GPM
bar PSI
bar PSI
bar[PSI]
daNm in-lb
kg lb
For rear ports + [ ]: 0,650 1.433
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max.press.
drop Cont.
At max.press.
drop Int.*
900]
1150]
1505]
9.5]
11.9]
2030]
2540]
3260]
10 ]
1 ]
2540]
2900]
3260]
3260]
145]
710]
85]
15]
[
[
[
[
[
[
[
[
[ .5
[ 3.2
[
[
[
[
[
[
[
[
[
[
2540]
2900]
10
13
17
7
8,5
140
175
225
175
200
225
225
10
8
10
6,8
775
970
40
50
51,5
[3.14]
175
200
10
GR50
GR80
17 ]
1947]
2390]
17]
20.1]
2540]
2900]
3260]
1 ]
]
2540]
2900]
3260]
2540]
2900]
3260]
145]
1330]
1505]
15,2]
[ 70
[
[
[
[
[
[
[
[ 5.8
[19.8
[
[
[
[
[
[
[
[
[
[
[ ]
750
940
22
27
12,5
15
175
200
225
60
175
200
225
175
200
225
10
15
17
6,9
80,3
4.90
20
75
10
2125]
2480]
2832]
17.4]
20.1]
2540]
2900]
3260]
1 ]
]
2540]
2900]
3260]
2540]
2900]
3260]
145]
1770]
2035]
15.9]
[
[
[
[
[
[
[
[
[ 5.8
[19.8
[
[
[
[
[
[
[
[
[
[
GR100
2655]
3010]
3275]
16.8]
19.5]
2540]
2900]
3260]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
130]
2215]
2480]
16.1]
[
[
[
[
[
[
[
[
[15.8
[19.8
[
[
[
[
[
[
[
[
[
[
GR125
3450]
3805]
4070]
15.4]
18.8]
2540]
2900]
3260]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
102]
2832]
3275]
15.2]
[
[
[
[
[
[
[
[
[15.8
[19.8
[
[
[
[
[
[
[
[
[
[
GR160
3410]
4070]
4960]
12]
]
2030]
2540]
3260]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
73]
2920]
3540]
17.6]
[
[
[
[
[16.1
[
[
[
[15.8
[19.8
[
[
[
[
[
[
[
[
[
[
GR200
3450]
]
]
]
1 ]
1600]
]
]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
58]
2740]
4250]
18.5]
[
[4160
[5310
[10.7
[ 2.7
[
[2030
[2900
[15.8
[19.8
[
[
[
[
[
[
[
[
[
[
GR250
GR315
3 ]
]
]
]
]
]
]
]
]
]
2540]
2900]
3260]
44]
]
522
20]
[ 185
[4160
[5400
[6.7
[10.7
[1230
[1670
[2175
[15.8
[19.8
[
[
[
[
[
[
[
[2875
[ 0]
[
2540]
2900]
3260]
3360]
]
]
6.4]
]
0]
]
]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
44]
]
4425]
21.6]
[
[4160
[5400
[
[9.1
[94
[1300
[1670
[15.8
[19.8
[
[
[
[
[
[
[
[
[
[
2875
GR400
[
60
75
24
28
32
13
15
175
200
225
60
175
200
225
175
200
225
10
20
23
10
7,2
99,8
6.09]
0
0
75
[
4
60
30
34
37
12,5
14,5
175
200
225
60
175
200
225
175
200
225
9
25
28
10
7,3
125,7
7.67]
75
0
75
[
3
47
39
43
46
11,5
14
175
200
225
60
175
200
225
175
200
225
7
32
37
10
7,5
159,6
9.74]
75
0
75
[
30
37
38,5
46
56
9
140
175
225
60
175
200
225
175
200
225
5
33
40
10
8
199,8
12.19]
0
5
12
75
[
240
30
39
,5
110
1
2
60
175
200
225
175
200
225
4
31
48
10
8,4
250,1
15.26]
0
47
60
8
9
40
00
75
315,7
19.26
175
200
225
[
190
240
3
7
1
0
60
175
200
225
3
58
10
9,1
]
6
4
61
5
8
85
15
15
75
31,5
[
15
19
38
4,8
,8
1 5
60
175
200
225
175
200
225
3
50
10
9,8
397
24.4
0
0
]
47
61
6
65
90
1
75
31,5
Specifications Technical data for GR with 25 and 1 in and 1 in splined and 28.56 tapered shaft
GP
GR
GH
GS
GT
GV
GGM
GR(S)
***
***
Intermittent operation:the permissible values may occur for max. 10% of every minute Peak load:the permissible values may occur for max. 1% of every minute For speeds lowe:than given,consult factory or your regional manage
SpecificationsTechnical data for GR with 31.75 and 32 shaft
Type
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max.press.
drop Cont.
At max.press.
drop Int.*
50 80 100 125 160 200 250 315 400
[
7
10
13
17
7
8,5
140
175
225
5
175
200
225
175
200
225
10
8
10
10
6,9
40
0
51,5
3.14]
75
970
[
750
940
22
27
12,5
15
175
200
225
175
200
25
175
200
225
10
5
17
10
7
80,3
60
4.90]
20
75
2
1
[
60
75
24
28
32
13
15
175
200
225
60
200
225
175
200
225
10
20
23
10
7,3
0
99,8
6.09
175
]
0
75
[
4
60
30
34
37
12,5
14,5
175
200
225
200
225
175
200
225
9
25
28
10
7,4
75
125,7
7.67
60
175
]
0
75
[
37
47
39
43
46
11,5
14
175
200
225
60
175
200
225
175
200
225
7
32
37
10
7,6
159,6
9.74]
5
0
75
[
30
37
45
50
56
11
13
175
200
225
60
175
200
225
175
200
225
5
41
46
10
8,1
199,8
12.19]
0
5
75
[
240
30
54
61
71
10
12
175
200
225
60
75
200
225
175
200
225
4
55
10
8,5
250,1
15.26]
0
75
1
50
[
190
24
55
6
8
9
1
135
1
210
60
175
200
225
175
200
225
3
66
10
9,2
315,7
19.26]
0
9
4
0
75
75
50
[
15
19
61
69
87
7,8
10,6
11
140
175
60
175
200
225
175
200
225
3
61
10
9,9
397
24.4]
0
0
0
75
50
Displacement,
Max. Speed,
[RPM]
Max. Torque
]
Max. Output
[HP]
Max. Pressure Drop
bar [PSI]
Max. Oil Flow
]
Max. Inlet Pressure
bar [PSI]
Max. Return Pres-
sure with Drain Line
bar [PSI]
Min. Starting Torque
daNm [in-lb ]
Min. Speed***, [RPM]
cm 3/rev
[in 3/rev ]
daNm [in-lb
kW
lpm [GPM
Weight, kg [ lb]For rear ports : +0,650 [1.433]
[4000]
[4425]
[4960]
[14.8]
[17.4]
[2540]
[2900]
[3260]
[2540]
[2900]
[3260]
[2540]
[2900]
[3260]
[73]
[3630]
[4070]
[18.9]
[15.8
[19.8
]
]
4780]
5400]
6280]
13.4]
16.1]
2540]
2900]
3260]
2540]
2900]
3260]
2540]
2900]
3260]
58]
4425]
4870]
18.7]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[15.8
[19.8
]
]
4870]
]
7435]
12]
13.4]
1960]
]
3045]
2540]
2900]
3260]
2540]
2900]
3260]
44]
]
5840]
[20.3]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
6110
2540
[15.8
[19.8
425
]
]
[4
5400]
6110]
7700]
10.5]
14.2]
1600]
2030]
2540]
2540]
2900]
3260]
2540]
2900]
3260]
44]
]
5400]
[21.8]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[15.8
[19.8
425
]
]
[4
2655]
3010]
3275]
16.8]
19.5]
2540]
2900]
3260]
2540]
2900]
3260]
2540]
2900]
3260]
130]
2215]
2480]
16.3]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[15.8
[19.8
]
]
3450]
3805]
4070]
15.4]
18.8]
2540]
2900]
3260]
2540]
2900]
3260]
2540]
2900]
3260]
102]
2832]
3275]
15.4]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[15.8
[19.8
]
]
]
1947]
2390]
17]
20.1]
2540]
2900]
3260]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
145]
1330]
1505]
15,4]
[1770
[
[
[
[
[
[
[
[15.8
[19.8
[
[
[
[
[
[
[
[
[
[
2125]
2480]
2832]
17.4]
20.1]
2540]
2900]
3260]
2540]
2900]
3260]
2540]
2900]
3260]
145]
1770]
2035]
16.1]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[15.8
[19.8
]
]
900]
1150]
1505]
9.5]
11.9]
2030]
2540]
3260]
]
]
2540]
2900]
3260]
2540]
2900]
3260]
145]
710]
885]
15,2]
[
[
[
[
[
[
[
[
[10.5
[13.2
[
[
[
[
[
[
[
[
[
[
GR GR GR GR GR GR GR GR GR
●●●
●●●
Intermittent operation: the permissible values may occur for max. 10% of every minute. Peak load: the permissible values may occur for max. 1% of every minute.For speeds lower than given, consult factory or your regional manager.
1. Intermittent speed and intermittent pressure must not occur simultaneously.2. Recommended filtration is per ISO cleanliness code 20/16. A nominal f ltration of 25 micron or better.3. Recommend using a premium quality, anti-wear type mineral based hydraulic oil HLP(DIN51524) orHM ( ISO 6743/4).
If using synthetic fluids consult the factory for alternative seal materials.4. Recommended minimum oil viscosity 13 mm²/s [70 SUS] at 50°C [122°F].5. Recommended maximum system operating temperature is 82°C [180°F].6. To assure optimum motor life fill with fluid prior to loading and run at moderate load and speed for 10-15 minutes.
*****
Max. Starting Pressure withUnloaded Shaft, bar [PSI]
GR(S)
*
www.ryanhydraulic.com25/26
GR 50 GR 80
Function Diagrams
0,5kW
1kW
2kW
6kW
4kW
8kW
MdaNm
0
2
4
6
8
10
12
14
16
18
20
0
Mlb-in
200
400
600
800
1600
1000
1200
1400
1800
222000
70 bar1020 PSI
50 bar730 PSI
n
.tnoc.tni
cont. int.
p=175 bar2540 PSI
140 bar2030 PSI
MdaNm
0
1
2
3
4
5
Mlb-in
6
7
8
9
10
11
12
0 RPM400200 600 800700 900100 300 500 1000
120 bar1740 PSI
30 bar430 PSI
100 bar1450 PSI
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 53
MPG 2.9
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 5=
QMP
G 3 .1
nim/l 54
1MP
G 9.1
nim/l 52
MPG 6.6
nim/l 51
MPG 0.4
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
M PG 6.0 1
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
0
100
200
300
400
500
600
700
800
900
1000
1100
0 RPM400200 600 800700 900100 300 500
ncont. int.
p=200 bar2900 PSI
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
140 bar2030 PSI
120 bar1740 PSI
175 bar2540 PSI
MdaNm
0 RPM
n
cont
..tn i
cont. int.
400200 600
nim/l 0 2
MPG 3.5
nim/l 03
MPG 9.7
nim/ l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/ l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100 300 500
0
4
8
12
16
20
0
Mlb-in
500
1000
1500
242000
282500
700
p=200 bar2900 PSI
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
140 bar2030 PSI
120 bar1740 PSI
175 bar2540 PSI
GR 100 GR 125
0
800
1200
1600
2000
2400
400
2800
3200
MdaNm
0 RPMn
cont
..tni
cont. int.
400200 600
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/ l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
100 300 500
0
4
8
12
16
20
Mlb-in
24
32 p=200 bar2900 PSI
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
140 bar2030 PSI
120 bar1740 PSI
175 bar2540 PSI
28
36
MdaNm
RPMn
cont
..tni
cont. int.
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5 =
QMP
G 3.1
nim/l 57
MPG 8.91
0
4
8
12
16
20
24
32
p=200 bar2900 PSI
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
100 bar1450 PSI
140 bar2030 PSI
120 bar1740 PSI
175 bar2540 PSI
28
36
40
44
MdaNm
RPMn
cont
..tni
cont. int.
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 01
MPG 6.2
nim/l 05
MPG 2.31
nim/l 07
MPG 5.81
nim/l 06
MPG 9.51
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
Mlb-in
p=200 bar2900 PSI
80 bar1160 PSI
60 bar870 PSI
30 bar430 PSI
105 bar1520 PSI
140 bar2030 PSI
120 bar1740 PSI
175 bar2540 PSI
0
800
1200
1600
2000
2400
400
2800
3200
Mlb-in
3600
4000
0 400200100 300 450250150 35050
0
5
10
15
20
25
0
1000
1500
2000
302500
353000
40
45
500
3500
4000
4500 50
0 200100 300250150 35050
GR 160 GR 200
GP
GR
GH
GS
GT
GV
GGM
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32 mm²/s [150 SUS] at 50°C [122°F].
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145PSI] and oil with viscosity of 32 mm² /s [150 SUS] at 50°C [122°F]
www.ryanhydraulic.com
MO27/28
Model
GR50GR80GR100GR125GR160GR200GR250GR315GR400
L
140146150155
161.5170180192207
L1
10162025
30.538.1506276
GR Dimensions and Mounting
G1 (depth) M 1 (depth) U2 (depth) U1 (depth) G2 (depth)
Status of the Shafts Radial Force(Standard motor with journal bearing)daN
In applications without drain line, output shaft seal exceeds a bit of the pressure in the return line. When applications use the drain line, the pressure of output shaft seal equals the pressure in drain line.
Direction of Shafts Ration : Standard When facing shaft end of motor,shaft to rotate:
Clockwise when port "A" is pressurized. Counter-clockwise port "B" is pressurized.
5. Recommended maximum system operating temperature is 82°C [180°F].
6. To assure optimum motor life fill with fluid prior to loading and run at moderate load and speed for 10-15 minutes.
ConveyorsFeeding mechanism of robots and manipulatorsMetal working machinesTextile machinesFood industriesAgricultural machinesMining machinery etc.
●●●●●●●
Model - Spool valve, roll-gerotorFlange mountShafts - straight, splined and taperedMetric and BSPP portsOther special features
●●●●●
GPGR
GHGS
GTGV
GGM
www.ryanhydraulic.com
35/36
GH Series Orbital Motors
Application
***
**
*
www.ryanhydraulic.com37/38
GH 200 GH 250
Function Diagrams
0
10
20
30
40
50
60
0
1000
2000
3000
4000
5000
Mlb-in
MdaNm
RPM
n
0 50 100 150 200 250 300 350 400 450
p=200 bar2900 PSI
175 bar
140 bar
105 bar
70 bar
35 bar
2540 PSI
2030 PSI
1520 PSI
1020 PSI
510 PSI
nim/l 5=
QM
PG 23 .1
nim/l 01=
QM
PG 46 .2
nim/l 01=
QM
PG 46 .2
nim/l 02=
QM
PG 82.5
nim/l 03=
QM
PG 29.7
nim/l 04=
QM
PG 65.01
nim/l 05=
QM
PG 2.31
nim/l 06=
QM
PG 58.51
nim/l 07=
QM
PG 94.81
nim/l 57=
QM
PG 18.91
nim/l 08=
QM
PG 31.12
nim/l 09=
QM
PG 87.32
0
1000
2000
3000
4000
5000
6000
Mlb-in
MdaNm
0
10
20
30
40
50
60
70
cont. int.
cont
..tni
cont. int.
cont
..tni p=200 bar
2900 PSI175 bar
145 bar
120 bar
90 bar
35 bar
2540 PSI
2105 PSI
1740 PSI
1305 PSI
510 PSI
70 bar1020 PSI
0 50 100 150 200 250 300 350
n
nim/l 5
=Q
MP
G 23 .1ni
m/l 01=
QM
PG 46.2
nim/l 02
=Q
MP
G 82.5
nim/l 03
=Q
MP
G 29.7
nim/l 04
=Q
MP
G 65.01
nim/l 05
=Q
MP
G 2.31
nim/l 06
=Q
MP
G 58.51
nim/l 07
=Q
MP
G 94.81
nim/l 57
=Q
MP
G 18.91ni
m/l 08=
QM
PG 31.12
nim/l 09
=Q
MP
G 87.32
RPM
GH 315
Mlb-in
MdaNm
0
1000
2000
3000
4000
5000
6000
7000
Mlb-in
0 50 100 150 200 250 300
10
20
30
40
50
60
70
80
cont. int.
cont
..tni
nim/l 5=
QM
PG 23.1
nim/l 01=
QM
PG 46 .2
nim/l 02=
QM
PG 82.5
nim/l 03=
QM
PG 29.7
nim/l 04=
QM
PG 65.01
nim/l 05=
QM
PG 2.31
nim/l 06=
QM
PG 58.51
nim/l 07=
QM
PG 94.81
nim/l 57=
QM
PG 18.91
nim/l 08=
QM
PG 31.12
nim/l 09=
QM
PG 87.32
p=200 bar2900 PSI
175 bar2540 PSI
155 bar2250 PSI
35 bar510 PSI
75 bar1090 PSI
100 bar1450 PSI
135 bar1960 PSI
n
RPM
GH 400
n
cont.
.tni
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
0
20
40
60
80
100
Mlb-in
MdaNm
Mlb-in
0 50 100 150 200 250
35 bar510 PSI
60 bar870 PSI
105 bar1520 PSI
125 bar1815 PSI
155 bar2250 PSI
p=190 bar2755 PSI
nim/l
5=
QM
PG
23.
1ni
m/l 0
1=
QM
PG
46.
2
nim/l
02
=Q
MP
G 8
2.5
nim/l
03
=Q
MP
G 2
9.7
nim/l
04
=Q
MP
G 6
5.0
1
nim/l
05
=Q
MP
G 2.
31
nim/l
06
=Q
MP
G 5
8.5
1
nim/l
07
=Q
MP
G 9
4.8
1ni
m/l 5
7=
QM
PG
18.
91
nim/l
08
=Q
MP
G 3
1.1
2
nim/l
09
=Q
MP
G 8
7.3
2
RPM
GH 500
con
t..t
ni
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
0
20
40
60
80
100
Mlb-in
MdaNm
Mlb-in
n
0 25 50 75 100 125 150 175
cont. int.
p=160 bar2320 PSI
125 bar1810 PSI
100 bar1450 PSI
85 bar1235 PSI
50 bar720 PSI
25 bar360 PSI
nim/l
5=
QM
PG
23.
1ni
m/l 0
1=
QM
PG
46 .
2
nim/l
02
=Q
MP
G 8
2.5
nim/l
03
=Q
MP
G 2
9.7
nim/l
04
=Q
MP
G 6
5.0
1
nim/l
05
=Q
MP
G 2.
31
nim/l
06
=Q
MP
G 5
8.5
1
nim/l
07
=Q
MP
G 9
4.8
1ni
m/l 5
7=
QM
PG
18.
91
nim/l
08
=Q
MP
G 3
1.1
2
nim/l
09
=Q
MP
G 8
7.3
2
RPM
GPGR
GHGS
GTGV
GGM
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145PSI] and oil with viscosity of 32 mm²/s [150 SUS] at 50°C[122°F]
GH Dimensions and Mounting
Model
GH-200
GH-250
GH-315
GH-400
GH-500
L
168
175
184
195
206
L1
27
34
42
54
65
G1 (depth) M 1 (depth) U2 (depth) U1 (depth) G2 (depth)
]ISO code 20/16 (Min. recommended fluid filtration of 25 microns)
275 [3990]
General
024
86
101214
pbar
00
100
150
200
50
pPSI
80 9030 40 50 60200 10
Q, GPM
70
2.5 5 7.5 10 12.5 15 17.5 20 22.5
Q, lpm
ConveyorsMetal working machinesRoad building machinesMining machineryFood industriesAgricultural machinesSpecial vehicles etc.
Model - Disc valve, roll-gerotor Flange and wheel mountShort motorTacho connectionSide and rear portsShafts - straight, splined and tapered SAE, Metric and BSPP portsOther special features
●●●●●●●
●●●●●●●●
GS Series Orbital Motors
GPGR
GHGS
GTGV
GGM
www.ryanhydraulic.com43/44
200 12.2
61 5400
72 6370
16,5 22.1
22 29.52
210 [3050]
275 [3990]
295 [4280]
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 115
47 4160
56 4960
11,2 24.7
9,2 20.2
[ ]
375
450
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
6
[ ]
[ ]
Specifications
Type
cont.
Int.*
cont.
Int.*
cont.
int.*
cont.
Int.*
peak**
cont.
Int.*
cont.
Int.*
peak**
cont.
Int.*
peak**
at max. press. drop cont.
at max. press. drop Int.*
Displacement, [ ]
Max. Speed,
[RPM]
Max. Torque
[ ]
Max. Output
[ ]
Max. Pressure Drop
[ ]
Max. Oil Flow
[ ]
Max. Inlet Pressure
[ ]
Max. Return Pressure
with Drain Line
[ ]
Max. Starting Pressure with Unloaded Shaft,bar[PSI]
Min. Starting Torque
[ ]
Min. Speed***, [RPM]
Weight, [ ]
cm³/rev in³/rev
daNm lb-in
kW HP
bar PSI
lpm GPM
bar PSI
bar PSI
daNm lb-in
kg lbFor Rear Ports
+ [ ]0,40 .88
80,5 4.91
24 2120
31 2740
15,5 20.8
19,5 26.2
210 [3050]
275 [3990]
295 [4280]
65 17
80 21
230 3340
295 4280
300 4350
140 2030
175 2540
210 3050
12 175
18 1590
23,5 2080
9,9 21.8
7,9 17.4
[ ]
810
1000
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
[ ]
100 6.1
30,5 2700
39 3450
18 24.1
22,8 30.2
210 [3050]
275 [3990]
295 [4280]
75 20
90 24
230 [3340]
295 [4280]
300 4350
140 2030
175 2540
210 3050
10 145
23 2040
30 2660
10,1 22.2
8,1 17.8
[ ]
750
900
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
10
[ ]
[ ]
125,7 7.67
37,5 3320
49 4340
18 24.1
22,5 30.2
210 [3050]
275 [3990]
295 [4280]
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
10 145
29 2570
38 3360
10,4 22.9
8,4 18.5
[ ]
600
720
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
8
[ ]
[ ]
159,7 9.74
49 4340
60 5310
16,5 22.1
23 30.8
210 [3050]
275 [3990]
295 [4280]
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 115
37 3270
46 4070
10,8 23.8
8,8 19.4
[ ]
470
560
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
8
[ ]
[ ]
GPGR
GHGS
GTGV
GGM
GS
GSS
* Intermittent operation: the permissible values may occur fo『 max. 10% of every minute.** Peak load: the permissible values may occur for max. 1 % of every minute.
*** For speeds lower than given, consult factory or your regional manager.
GS80 GS100 GS125 GS160 GS200
Specifications
Type
474,6[28.96
85 [7520
99 [8760
8,4 [11
11,3 [15
130 [1880
150 [2180
170 [2470
71 [6280]
84 [7430
14,1 [31
12.1 [26.7
]
160
190
]
]
]
]
]
]
]
]
5
]
]
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 [115]
522,7 [31.88
145
175
85 [7520]
99 [8760]
7,6 [10.2]
10,4 [13.9]
115 [1670]
135 [1960]
155 [2250]
71 [6280]
84 [7430
14,6 [32.2
12,6 [27.8
]
]
5
]
]
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 [115]
cont.
Int.*
cont.
Int.*
cont.
int.*
cont.
Int.*
peak**
cont.
Int.*
cont.
Int.*
peak**
cont.
Int.*
peak**
at max. press. drop cont.
at max. press. drop Int.*
564,9[34.47
130
160
85 [7520]
99 [8760]
6,9 [9]
9,6 [13]
105 [1520]
125 [1810]
145 [2100]
71 [6280]
84 [7430
15 [33.1
13 [28.6
]
]
5
]
]
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 [115]
250 [15.3
1 ,5
2 0
0
11,7 [25.8
9,7 [21.4
]
300
360
]
]
[ ]
]
[ ]
]
[ ]
6
]
]
72 [6370
87 [7700
4 19.4
18 [24.1
200 [2900]
250 [3630]
7 3920
56 [4960
7 6200
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 [115]
314,9 [19.2
15
1
200
40
71 [6280
85 [7520
12,4 [27.3
10,4 [22.9
]
240
290
]
]
[20.1]
]
[ ]
[ ]
]
]
]
5
]
]
82,5 [7300
100 [8850
7 [22.8
2900
2 3480
260 [3770
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 [115]
397 [24.2
9
1 1
1 1
1 0
1 0
0 0
71 [6280
84 [7430
13,1 [29.3
11,3 [24.9
]
190
230
]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
]
]
5
]
]
86,5 [7660
9 8760
1 4.8
2,5 6.8
6 2320
9 2760
21 305
75 [20]
90 [24]
230 [3340]
295 [4280]
300 [4350]
140 [2030]
175 [2540]
210 [3050]
8 [115]
Displacement, cm³/rev[ in³/rev]
Max. Speed,
[RPM]
Max. Torque
]
Max. Output
[HP]
Max. Pressure Drop
bar [PSI]
Max. Oil Flow
]
Max. Inlet Pressure
bar [PSI]
Max. Return Pressure
with Drain Line
bar [PSI]
Max. Starting Pressure with Unloaded Shaft,bar[PSI]
Min. Starting Torque
daNm [lb-in ]
Min. Speed***, [RPM]
Weight, kg [ lb]
daNm [lb-in
kW
lpm [GPM
For Rear Ports
+ 0,40 [.88]
***
***
●●●
●●●
Intermittent operation: the permissible values may occur for max. 10% of every minute. Peak load: the permissible values may occur for max. 1% of every minute.For speeds lower than given, consult factory or your regional manager.
1. Intermittent speed and intermittent pressure must not occur simultaneously.2. Recommended filtration is per ISO cleanliness code 20/16. A nominal f ltration of 25 micron or better.3. Recommend using a premium quality, anti-wear type mineral based hydraulic oil HLP(DIN51524) orHM ( ISO 6743/4).
If using synthetic fluids consult the factory for alternative seal materials.4. Recommended minimum oil viscosity 13 mm²/s [70 SUS] at 50°C [122°F].5. Recommended maximum system operating temperature is 82°C [180°F].6. To assure optimum motor life fill with fluid prior to loading and run at moderate load and speed for 10-15 minutes.
GS
GSS
GS 250 GS 315 GS 400 GS 475 GS 525 GS 565
www.ryanhydraulic.com45/46
Function Diagrams
GS 100GS 80M
daNm
nim/l 02 5.
3 G
PM
nim/l 5=
Q 1.3
GPM
0
0030 005004001 200
p=275 bar3990 PSI
140 bar2030 PSI
105 bar1520 PSI
70 bar1020 PSI
30 bar440 PSI
n
5
cont
..tni
10
15
20
25
30
nim/l 03 7.
9 G
PM
nim/l 04
MPG 6.01
nim/l 05
MPG 2.31
nim/l 56
MPG 2.71
nim/l 01 2.
6 G
PM
nim/l 08
MPG 1.12
1000900800700600
175 bar2540 PSI
210 bar3050 PSI
225 bar3260 PSI
250 bar3630 PSI
cont. int.
N=1 kW
t=8 %180%
78%75%
60%70%
12 kW15 kW
18 kW
9 kW
3 kW
6 kW
MdaNm
0
0030 005004001 200
n
5
cont
..tni
10
15
20
25
30
nim/l 57
MPG 8.91
nim/l 09
MPG 8.32
009 059800700600
cont. int.
N=1 kW
t=8 %3
80%
75%
60%70%
12 kW
15 kW 18 kW
9 kW
3 kW
6 kW
35
40
45
12 hp 18 hp
15 hp9 hp6 hp
3 hp1 hp
0
500
Mlb-in
1000
1500
2000
2500
3000
0
500
Mlb-in
1000
1500
2000
2500
3000
3500
4000p=275 bar3990 PSI
140 bar2030 PSI
105 bar1520 PSI
70 bar1020 PSI
35 bar510 PSI
175 bar2540 PSI
210 bar3050 PSI
225 bar3260 PSI
250 bar3630 PSI
nim/l 02 5.
3 G
PM
nim/l 5=
Q 1.3
GPM
nim/l 03 7.
9 G
PM
nim/l 04
MPG 6.01
nim/l 05
MPG 2.31
nim/l 01 2.
6 G
PM
nim/l 06
MPG 9.51
3 hp
1 hp
6 hp9 hp
12 hp15 hp 18 hp
RPM RPM
GS 125
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 05
MPG 2.31
nim/l 06
MPG 9.51
nim/l 01
MPG 6.2
nim/l 09
MPG 8.32
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
MdaNm
0
0030 005004001 200 RPM
n
5
cont
..tni
10
15
20
25
30
700600
cont. int.
N=1 kW
=85%80%
t 83%
75%
60%70%
12 kW 15 kW9 kW
3 kW
6 kW
18 kW
21 kW
35
40
45
50
350 055054051 057052 65050
0
500
1000
1500
2000
2500
3000
3500
4500
Mlb-in
4000
p=275 bar3990 PSI
140 bar2030 PSI
105 bar1520 PSI
70 bar1020 PSI
35 bar510 PSI
175 bar2540 PSI
210 bar3050 PSI
225 bar3260 PSI
250 bar3630 PSI
3 hp
1 hp
6 hp 9 hp 12 hp
21 hp
18 hp
15 hp
GS 160
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 05
MPG 2.31
nim/l 06
MPG 9.51
nim/l 01
MPG 6.2
nim/l 09
MPG 8.32
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
MdaNm
0
0030 005004001 200 RPM
n
5
cont
..tni
10
15
20
25
30
600
cont. int.
N=1 kW
=87%
80%
t
83%
75%60%70%
12 kW 15 kW
9 kW
3 kW
6 kW18 kW
21 kW
35
40
45
50
350 055054051 25050
0
1000
2000
3000
5000
Mlb-in
4000
p=260 bar3770 PSI
140 bar2030 PSI
105 bar1520 PSI
70 bar1020 PSI
35 bar510 PSI
175 bar2540 PSI
210 bar3050 PSI
225 bar3260 PSI
3 hp
1 hp
6 hp 9 hp 12 hp
21 hp
18 hp
15 hp
55
60
6000
160 bar2320 PSI
86% 85%
GS 200
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 05
MPG 2.31
nim/l 06
MPG 9.51
nim/l 01
MPG 6.2
nim/l 09
MPG 8.32
nim/l 5=
QMP
G 3.1
nim/l 57
MPG 8.91
MdaNm
0
0 300100 400 500200 RPM
n
5
cont
..tni
1015202530
cont. int.
N=1 kW
=88%
80%
t
83%75%
60%70%
12 kW15 kW
9 kW
3 kW
6 kW
18 kW21 kW
35404550
350 054051 25050
0
1000
2000
3000
Mlb-in
4000
140 bar2030 PSI
105 bar1520 PSI
70 bar1020 PSI
30 bar440 PSI
160 bar2320 PSI
210 bar3050 PSI
225 bar3260 PSI
p=250 bar3630 PSI
3 hp1 hp
6 hp 9 hp
12 hp21 hp
18 hp15 hp
175 bar2540 PSI
55
60657075
5000
6000
7000
86%
85%
nim/l 02
MPG 3.5
nim/l 03
MPG 9.7
nim/l 04
MPG 6.01
nim/l 05
MPG 2.31
nim/l 06
MPG 9.51
nim/l 01
MPG 6.2
nim/l 09
MPG 8.32
nim/l 57
MPG 8.91
MdaNm
0
0 300002001 RPM
n
cont
..tni
10
20
30
cont. int.
N=1 kW =87%80%
t 83%75%
60%
70%
12 kW
15 kW9 kW
3 kW
6 kW
18 kW
21 kW
40
50
35005205150
0
1000
2000
3000
Mlb-in
4000140 bar
2030 PSI125 bar
1810 PSI
70 bar1020 PSI
35 bar510 PSI
155 bar2250 PSI
200 bar2900 PSI
225 bar3260 PSI
p=250 bar3630 PSI
3 hp
1 hp
6 hp 9 hp 12 hp
21 hp18 hp
15 hp
175 bar2540 PSI60
70
5000
6000
7000
86%85%95 bar
1390 PSI
80
90
nim/l 5=
QMP
G 3.1
8000
GS 250
GPGR
GHGS
GTGV
GGM
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32mm²/s[150 SUS] at 50°C[ 122°F]
GS 315 GS 400
35 bar510 PSI
Function Diagrams
20 l/
min
5.3
GPM
30 l/
min
7.9
GPM
40 l/
min
10.6
GPM
50 l/
min
13.2
GPM
60 l/
min
15.9
GPM
10 l/
min
2.6
GPM
90 l/
min
23.8
GPM
Q=5
l/m
in1.
3 G
PM
75 l/
min
19.8
GPM
MdaNm
0
0 300100 200 RPM
n
cont
.in
t.
10
20
30
cont. int.
N=1 kW
=87%
80%
t
83%75%
60%70%
12 kW
15 kW
9 kW
3 kW
6 kW
18 kW
40
50
25015050
0
1000
2000
3000
Mlb-in
4000
120 bar1740 PSI
100 bar1450 PSI
70 bar1020 PSI
160 bar2320 PSI
200 bar2900 PSI
225 bar3260 PSI
p=240 bar3480 PSI
3 hp1 hp
6 hp
9 hp
12 hp 18 hp15 hp
175 bar2540 PSI
60
70
5000
6000
9000
85%
27517575 22512525
80
90
100
7000
8000
140 bar2030 PSI
20 l/
min
5.3
GPM
30 l/
min
7.9
GPM
40 l/
min
10.6
GPM
50 l/
min
13.2
GPM
60 l/
min
15.9
GPM
10 l/
min
2.6
GPM
90 l/
min
23.8
GPM
Q=5
l/m
in1.
3 G
PM
75 l/
min
19.8
GPM
MdaNm
0
0 100 200 RPM
n
cont
.in
t.
10
20
30
cont. int.
N=1 kW
=87%
80%
t
83%
75%
60%
70%
12 kW
15 kW
9 kW3 kW 6 kW
40
50
25015050
0
1000
2000
3000
Mlb-in
4000
120 bar1740 PSI
105 bar1520 PSI
60 bar870 PSI
160 bar2320 PSI
p=190 bar2760 PSI
3 hp
1 hp
6 hp
9 hp
12 hp 15 hp
175 bar2540 PSI
60
70
5000
6000
9000
85%
75 175125 22525
80
90
100
7000
8000
140 bar2030 PSI
30 bar440 PSI
80 bar1160 PSI
86%
25 bar360 PSI
20 l/
min
5.3
GPM
30 l/
min
7.9
GPM
40 l/
min
10.6
GPM
50 l/
min
13.2
GPM
60 l/
min
15.9
GPM
10 l/
min
2.6
GPM
90 l/
min
23.8
GPM
Q=5
l/m
in1.
3 G
PM
75 l/
min
19.8
GPM
MdaNm
0
0 100 200 RPM
n
cont
.in
t.
10
20
30
cont. int.
N=1 kW
=88%
80%
t
83%
75%60%
70%
9 kW3 kW
6 kW
40
50
15050
0
1000
2000
3000
Mlb-in
400085 bar
1230 PSI
70 bar1020 PSI
50 bar730 PSI
120 bar1740 PSI
p=150 bar2180 PSI
3 hp
1 hp
6 hp
9 hp
12 hp
60
70
5000
6000
9000
85%
75 17512525
80
90
100
7000
8000
105 bar1520 PSI
130 bar1890 PSI
86%
12 kW
GS 475 GS 525
25 bar360 PSI
20 l/
min
5.3
GPM
30 l/
min
7.9
GPM
40 l/
min
10.6
GPM
50 l/
min
13.2
GPM
60 l/
min
15.9
GPM
10 l/
min
2.6
GPM
90 l/
min
23.8
GPM
Q=5
l/m
in1.
3 G
PM
75 l/
min
19.8
GPM
MdaNm
0
0 100 RPM
n
cont
.in
t.
10
20
30
cont. int.
N=1 kW
=88%
80%
t
83% 75%
60%
70%
9 kW
3 kW6 kW
40
50
15050
0
1000
2000
3000
Mlb-in
4000
80 bar1160 PSI
50 bar730 PSI
105 bar1520 PSI
p=135 bar1960 PSI
3 hp
1 hp
6 hp 9 hp
12 hp
60
70
5000
6000
9000
85%
75 17512525
80
90
100
7000
8000
90 bar1300 PSI
115 bar1670 PSI
86%
15 bar220 PSI
20 l/
min
5.3
GPM
30 l/
min
7.9
GPM
40 l/
min
10.6
GPM
50 l/
min
13.2
GPM
60 l/
min
15.9
GPM
10 l/
min
2.6
GPM
90 l/
min
23.8
GPM
Q=5
l/m
in1.
3 G
PM
75 l/
min
19.8
GPM
MdaNm
0
0 100 RPM
n
cont
.in
t.
10
20
30
cont. int.
N=1 kW
=88%
80%
t
83%
75%
60%70%
9 kW
3 kW 6 kW
40
50
12040
0
1000
2000
3000
Mlb-in
400070 bar
1020 PSI
45 bar650 PSI
105 bar1520 PSI
p=125 bar1810 PSI
3 hp
1 hp
6 hp9 hp
12 hp
60
70
5000
6000
9000
85%
16020
80
90
100
7000
8000
85 bar1230 PSI
86%
60 80 140
60 bar870 PSI
30 bar430 PSI
GS 565
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32mm²/s[150 SUS] at 50°C[ 122°F]
GS Series Hydraulic Motors Permissible Shaft Seal Pressure
2.Chart for high pressure shaft seal.
In applications without drain line, output shaft seal exceeds a bit of the pressure in the return line. When applications use the drain line, the pressure of output shaft seal equals the pressure in drain line.
Note:1.Chart for standard shaft seal;
Standard Direction of Shafts Rotation: Standard
When facing shaft end of motor,shaft to rotate: Clockwise when port "A" is pressurized. Counter-clockwise port "B" is pressurized.Axial and Radial Force
The output shaft runs in tapered bearings that permit high axial and radial forces, Curve "A" shows max radial shaft load, Any shaft loads exceeding the values quoted in the curve will involve a risk of breakage, The two other curves apply to a B10 bearing life of 3000 hours at 200 RPM.
*Intermittent operation: the permissible values may occur for max. 10% of every minute. **Peak load: the permissible values may occur for max. 1 % of every minute.***For speeds lower than given, consult factory or your regional manager.
Specifications
Type
410,9
9560]
11150]
12745]
40]
47]
2610]
3050]
3480]
33]
3050]
3600]
4350]
2000]
2500]
3000]
150]
7435]
8585]
50.7]
[39.7]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[39.6]
[25.06
0
] [
304
368
108
126
144
30
35
180
210
240
125
15
210
250
300
140
175
210
10
84
97
6
23
18
3,6
10800]
12125]
14160]
36]
40]
2320]
2610]
3050]
33]
3050]
3600]
4350]
2000]
2500]
3000]
150]
8410]
9380]
52.9]
[41.9]
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[39.6]
52
31.95
0
]
238
289
122
137
160
26,5
30
160
180
210
125
15
210
250
300
140
175
210
10
95
106
5
24
19
]
]
]
27]
36]
1740]
2010]
2395]
33]
3050]
3600]
4350]
2000]
2500]
3000]
150]
8410]
10180]
54.0]
43.0]
[11240
[13010
[15490
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[39.6]
724,3
[ ]
1
20,2
26,8
120
140
165
125
15
210
250
300
140
175
210
10
95
115
5
24,5
19,5
44.2
72
209
127
147
175
0
]
]
]
33]
37]
2010]
2320]
2760]
33]
3600]
4350]
2000]
2500]
3000]
150]
8410]
9740]
51.8]
40.8]
[11500
[13100
[15580
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[
[39.6]
3000]
631,2
[ ]
197
234
13
1
1
24,3
27,5
140
160
190
125
15
210
250
300
140
175
210
10
95
110
5
23,5
18,5
38.52
0
48
76
0
GT400
GT500
GT725
GT630
Displacement,
cm³/rev [in³/rev]
Max. Speed,
[RPM]
Max. Torque
daNm [lb-in]
Max. Output
kW [HP]
Max. Pressure Drop
bar [PSI]
Max. Oil Flow
lpm [GPM]
Max. Inlet Pressure
bar [PSI]
Max. Return Pressure
with Drain Line
bar [PSI]
Max. Starting Pressure with
Unloaded Shaft, bar [PSI]
Min. Starting Torque
daNm [lb-in]
Weight, kg [lb]
For Rear Ports
+0,450 [ .992]
Min. Speed***, [RPM]
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max. press. drop Cont.
At max. press. drop Int.*
GT
GTS
***
***
●●●
●●●
Intermittent operation: the permissible values may occur for max. 10% of every minute. Peak load: the permissible values may occur for max. 1% of every minute.For speeds lower than given, consult factory or your regional manager.
1. Intermittent speed and intermittent pressure must not occur simultaneously.2. Recommended filtration is per ISO cleanliness code 20/16. A nominal f ltration of 25 micron or better.3. Recommend using a premium quality, anti-wear type mineral based hydraulic oil HLP(DIN51524) orHM ( ISO 6743/4).
If using synthetic fluids consult the factory for alternative seal materials.4. Recommended minimum oil viscosity 13 mm²/s [70 SUS] at 50°C [122°F].5. Recommended maximum system operating temperature is 82°C [180°F].6. To assure optimum motor life fill with fluid prior to loading and run at moderate load and speed for 10-15 minutes.
www.ryanhydraulic.com57/58
GT 315
50
40
60
30
20
10
0
110
100
120
90
80
70
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
cont
..tni
cont. int.
40kW
35kW
30kW25kW
20kW
15kW
10kW
N=5kWt=88%
87%
85%
80%70%
Mlb-in
MdaNm
-1min (rpm)
n
0 100 200 300 400 45035025015050
40 bar580 PSI
80 bar1160 PSI
120 bar1740 PSI
160 bar2320 PSI
200 bar2900 PSI
p=240 bar3480 PSI
nim/l 02
MPG 3.5
nim/l 04
MPG 6.01
nim/l 01=
QMP
G 6.2
nim/l 06
MPG 9.51
nim/l 08
MPG 12
nim/l 001
MPG 62
nim/l 521
MPG 33
nim/l
1MP
G3
50 9.6
Function Diagrams
GT 500 GT 400
p=210 bar3050 PSI
-1min (rpm)
n
0 100 200 300 35025015050
50
40
60
30
20
10
0
110
100
120
90
80
70
130
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
11000
70%
t=88%
87%
85%
80%
70%
N=2,5kW5kW
10kW
15kW
20kW
25kW
30kW
cont
..tni
nim/l 02
MPG 3.5
nim/l 04
MPG 6.01
nim/l 01=
QMP
G 6.2
nim/l 06
MPG 9.51
nim/l 08
MPG 12
nim/l 001
MPG 62
nim/l 521
MPG 33
nim/l
1MP
G3
50 9.6
Mlb-in
MdaNm
150 bar2175 PSI
120 bar1740 PSI
90 bar1160 PSI
180 bar2610 PSI
30 bar435 PSI
60 bar870 PSI
p=180 bar2610 PSI
0 50 100 150 200 250 -1300 min (rpm)
n
25 75 125 175 225 275
50
40
60
30
20
10
0
110
100
120
90
80
70
150
140
130
0
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
11000
12000
13000
cont
..tni
cont. int.
N=2,5kW
5kW t=90% 10kW
15kW
20kW
87%85%
80%
25kW
30kW
nim/l 02
MPG 3.5
nim/l 04
MPG 6.01
nim/l 01=
QMP
G 6.2
nim/l 06
MPG 9.51
nim/l 08
MPG 12
nim/l 001
MPG 62
nim/l 521
MPG 33
nim/l
1MP
G3
50 9.6
Mlb-in
MdaNm
30 bar435 PSI
60 bar870 PSI
90 bar1160 PSI
120 bar1740 PSI
140 bar2030 PSI
160 bar2320 PSI
The function diagrams data is for average performance of randomly selected motors at back
pressure 5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32 mm²/s [150 SUS] at 50°C [122 F].
GT 160 GT 200
cont
..tni 70%
80%
85%
86%
5kW
10kW
15kW
20kW
25kW
30kW
35kW40kW
cont. int.
40 bar580 PSI
80 bar1160 PSI
120 bar1740 PSI
160 bar2320 PSI
200 bar2900 PSI
p=240 bar3480 PSI
t=87%
Mlb-in
MdaNm
45
50
40
55
60
35
30
25
20
10
15
5
0
70
75
65
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
5500
6000
6500
nim/l 01=
QMP
G 6.2
nim/l 02
MPG 3.5
nim/l 04
MPG 6.01
nim/l 06
MPG 9.51
nim/l 08
MPG 12
nim/ l 001
MPG 62
nim/l 521
MPG 33
nim/l 051
MPG 6.93
0 100 200 300 400 500 600 700 800 min (rpm)-1
n
cont
..tni
70%
80%
85%
15kW
10kW
20kW
25kW
30kW
35kW
5kW
0 100 200 300 400 500 600 700 -1800 min (rpm)
ncont. int.0
Mlb-in
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
5500
45
50
40
55
60
35
30
25
20
10
15
5
0
MdaNm
nim/l 01=
QMP
G 6.2
nim/l 02
MPG 3.5
nim/l 04
MPG 6.01
nim/l 06
MPG 9.51
nim/l 08
MPG 12
nim/l 001
MPG 62
nim/l 521
MPG 33
40 bar580 PSI
80 bar1160 PSI
120 bar1740 PSI
160 bar2320 PSI
200 bar2900 PSI
p=240 bar3480 PSI
t=86%
GT 250
4550
40
5560
35302520
1015
50
95908580
7075
65
0
500
1000
1500
2000
2500
3000
3500
4000
4500
5000
5500
6000
6500
7000
7500
8000
8500
cont
..tni
cont. int.
Mlb-in
MdaNm
n
t=87%
70%80%
85%
N=5kW
10kW
15kW
20kW
25kW30kW
35kW
40kW
40 bar580 PSI
80 bar1160 PSI
120 bar1740 PSI
160 bar2320 PSI
200 bar2900 PSI
p=240 bar3480 PSI
nim/l 02
MPG 3.5
nim/l 04
MPG 6.01
nim/l 01=
QMP
G 6.2
nim/l 06
MPG 9.51
nim/l 08
MPG 12
nim/l 001
MPG 62
nim/l 521
MPG 33
nim/l
1MP
G3
50 9.6
GPGR
GHGS
GTGV
GGM
°
GT 630 GT 725
cont
.in
t.
cont. int.
2,5kW
5kW
10kW
75%80%
15kW
20kW
25kW
85%
t=87%
0 0
50
40
60
30
20
10
110
100
120
90
80
70
150
140
130
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
11000
12000
13000
16014000
Mlb-in
MdaNm
0 50 100 150 20025 75 125 175 225 -1250 min (rpm)
n
30 bar435 PSI
60 bar870 PSI
90 bar1160 PSI
120 bar1740 PSI
140 bar2030 PSI
p=160 bar2320 PSI
20 l/
min
5.3
GP
M
40 l/
min
10.6
GP
M
Q=1
0 l/m
in2.
6 G
PM
60 l/
min
15.9
GP
M
80 l/
min
21 G
PM
100
l/min
26 G
PM
125
l/min
33 G
PM
150
l/min
39.6
GP
M
cont
.in
t.
cont. int.
20kW
73%
15kW
10kW
75%
5kW
N=2,5kW
77%
80%t=82%50
40
60
30
20
10
110
100
120
90
80
70
150
140
130
160
1000
2000
3000
4000
5000
6000
7000
8000
9000
10000
11000
12000
13000
14000
Mlb-in
MdaNm
0 0
0 50 100 150 20025 75 125 175-1
225 min (rpm)
n
30 bar435 PSI
60 bar870 PSI
90 bar1160 PSI
120 bar1740 PSI
p=140 bar2030 PSI
20 l/
min
5.3
GPM
40 l/
min
10.6
GPM
Q=1
0 l/m
in2.
6 G
PM
60 l/
min
15.9
GPM
80 l/
min
21 G
PM
100
l/min
26 G
PM
125
l/min
33 G
PM
150
l/min
39.6
GPM
Function Diagrams
The function diagrams data is for average performance of randomly selected motors at back pressure 5÷10 bar [72.5÷145 PSI] and oil with viscosity of 32mm²/s[150 SUS] at 50°C[ 122°F]
Note:1)The thickness of the stator and rotor for disp.from 160 to 200 is the dimension of L1 adding on 3mm.2)The thickness of the stator and rotor for disp.from 250 to 800 is the dimension of L1 adding on 7mm.
GTS Dimensions and Mounting
G3、M5PORT
U4、G4、M9、U5PORT
Flange B2
Flange H8
www.ryanhydraulic.com
61/62
GTS Mounting
A: O-ring:125x3B: External drain channelC: Drain connection G 1/4;12 mm deepD: Conical seal ringE: Internal drain channalF: M12;min. 18mm deepG: Oil circulation holeH: Hardened stop plate
Internal Spline for the Attached Components
Hardering Specification: HRC 62±2Effective case depth 0.7±0.2
In applications without drain line, output shaft seal exceeds a bit of the pressure in the return line. When applications use the drain line, the pressure of output shaft seal equals the pressure in drain line.
The output shaft runs in tapered bearings that permit high axial and radial forces, Curve "A" shows max radial shaft load, Any shaft loads exceeding the values quoted in the curve will involve a risk of breakage, The two other curves apply to a B10 bearing life of 3000 hours at 200 RPM.
When facing shaft end of motor,shaft to rotate: Clockwise when port "A" is pressurized. Counter-clockwise port "B" is pressurized.
ISO code 20/16 (Min. recommended fluid filtration of 25 microns)
a
-40÷140 [-40÷284]
General
Type GV315
314 5
19.18
92 8150
111 9800
129 11400
42,5 57
51 68.4
200 2900
240 3 0
280 4 0
160 42
200 5
210 30 0
250 36 0
300 4 0
140 20 0
175 25 0
210 30
71 6300
85 7500
31,8 70.1
22,7 50
,
[ ]
510
630
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ 48 ]
[ 06 ]
[ .3]
[ 2.8]
[ 5 ]
[ 2 ]
[ 35 ]
[ 4 ]
[ 4 ]
[ 50]
8 [120]
[ ]
[ ]
10
[ ]
[ ]
400,9
24.45
118 10450
141 12500
164 14500
53,5 71.7
64 85.8
200 [2900]
240 [3480]
280 [4060]
200 5
240 63
210 [3050]
250 [3620]
300 [4350]
140 [2040]
175 [2540]
210 [3050]
8 [120]
91 8100
109 9600
32,6 71.9
23,5 51.8
[ ]
500
600
[ ]
[ ]
[ ]
[ ]
[ ]
[ 2.8]
[ .4]
[ ]
[ ]
9
[ ]
[ ]
499,6
30.48
146 12950
176 15550
205 18150
53,5 71.7
64 85.8
200 [2900]
240 [3480]
280 [4060]
200 [52.8]
240 [63.4]
210 [3050]
250 [3620]
300 [4350]
140 [2040]
175 [2540]
210 [3050]
8 [120]
113 10000
136 12000
33,5 73.8
24,4 53.8
[ ]
400
480
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
[ ]
8
[ ]
[ ]
629,1
38.38
166 14700
194 17150
221 19550
48 64.4
56 75
180 26 0
210 3050
240 3 0
200 [52.8]
240 [63.4
210 [3050]
250 [3620]
300 [4350]
140 [2040]
175 [2540]
210 [3050]
8 [120]
133 11800
155 13700
34,9 76.9
25,6 56.4
[ ]
320
380
[ ]
[ ]
[ ]
[ ]
[ ]
[ 1 ]
[ ]
[ 48 ]
[ ]
[ ]
6
[ ]
[ ]
801,8
48.91
188 16650
211 18650
247 21850
42,5 57
48 64.4
160 23 0
180 26 0
210 3050
200 [52.8]
240 [63.4
210 [3050]
250 [3620]
300 [4350]
140 [2040]
175 [2540]
210 [3050]
8 [120]
151 13400
170 15000
36,5 80.527,7 61.1
[ ]
250
300
[ ]
[ ]
[ ]
[ ]
[ ]
[ 2 ]
[ 1 ]
[ ]
]
[ ]
[ ]
5
[ ][ ]
GV400
GV500
GV630
GV800
Displacement,
[ ]
Max. Speed,
[RPM]
Max. Torque
Max. Output
[ ]
Max.Pressure Drop
Max. Oil Flow
Max. Inlet Pressure
Max. Return Pressure
wit h Drai n Lin e
Max. Startin g Pressure with
Unloaded Shaft,bar[PSI]
Min. Starting Torque
Min. Speed***, [RPM]
Weight,kg[lb]
cm /rev In /rev
daNm[lb-in]
kW HP
bav [PSI]
lp m [GPM]
bar [PSI]
bar [PSI]
daNm [lb-in]
3 3
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Cont.
Int.*
Peak**
Cont.
Int.*
Peak**
At max. press. drop Cont.
At max. press. drop Int.*
Specifications
ConveyorsMetal working machinesRoad building machinesMining machineryFood industries Agricultural machines Special vehiclesPlastic and rubber machinery etc.
●●●●●●●
OptionsModel - Disc valve, roll-gerotorFlange mountShort motorSide portsShafts - straight, splined and taperedBSPP portsOther special features
●●●●●●●
***
***
●●●
●●●
Intermittent operation: the permissible values may occur for max. 10% of every minute. Peak load: the permissible values may occur for max. 1% of every minute.For speeds lower than given, consult factory or your regional manager.
1. Intermittent speed and intermittent pressure must not occur simultaneously.2. Recommended filtration is per ISO cleanliness code 20/16. A nominal f ltration of 25 micron or better.3. Recommend using a premium quality, anti-wear type mineral based hydraulic oil HLP(DIN51524) orHM ( ISO 6743/4).
If using synthetic fluids consult the factory for alternative seal materials.4. Recommended minimum oil viscosity 13 mm²/s [70 SUS] at 50°C [122°F].5. Recommended maximum system operating temperature is 82°C [180°F].6. To assure optimum motor life fill with fluid prior to loading and run at moderate load and speed for 10-15 minutes.
The function diagrams data is for average performance ofrandomly selected motors at back pressure5÷10 bar [72.5÷145 PSI] and oil with viscosityof 32mm²/s[150 SUS] at 50°C[122°F]
U6、G6、M7、U7 PORT
Note:1)
2)
The width of the roll-gerotor is 4 mm greater than L1. If the mounting W3 is used, the dimensions of L and L2 should minus 68 mm.
In applications without drain line, output shaft seal exceeds a bit of the pressure in the return line. When applications use the drain line, the pressure of output shaft seal equals the pressure in drain line.
Axial and Radial forces
The output shaft runs in tapered bearings that permit high axial and radial forces, Curve "A" shows max radial shaft load, Any shaft loads exceeding ehtvalues quoted in the curve will involve a risk of breakage, The two sevruc rehtoapply to a B10 bearing life of 3000 hours at 200 RPM.
When facing shaft end of motor, shaft to rotate: Clockwise when port "A" is pressurized. Counter-clockwise port "B" is pressurized.
Max. Torque 210.7 daNm[18650 lb-in]
www.ryanhydraulic.com73/74
Specifications for GGM SeriesDescription ..................................................Hydraulic Motors