China best CHINAMFG Motor F12 030 060 080 090 150 F12-125-Ms-Sv-S-000-0000-P0 F12-150-Mf-Cn-K-000-0000-00 CHINAMFG Hydraulic Piston Motor vacuum pump oil

Product Description

Price is for reference only, Actual price, inventory, model, freight, please contact us

Product Description

 

 

 

 

 

 

 

 

F12 is a bent-axis, fixed displacement motor/pump. It can be used in numerous applications in both open and closed loop circuits.

 F12-005  F12-006  F12-571  F12-012  F12-014  F12-019 CHINAMFG P11 Motor Pump.
The F12 series is available in sizes 5, 6, 10, 12, 14 and 19 cc.
F12 Features
• Max intermittent pressure up to 420 bar and continuous operating pressure up to 350 bar
• Thanks to low weight pistons and a compact design of the rotating parts, the F12 tolerates very high speeds, up to 14000 rpm
• CETOP, ISO, SAW and SAE versions

General Features
• The laminated piston ring offers important advantages such as unbeatable efficiency and thermal shock resistance
• High allowable speeds and operating pressures means high output power
• The unique piston locking, timing gear and bearing set-up as well as the limited number of parts add up to a very robust design with long service life and, above all, proven reliability.
• The 40° angle between shaft and cylinder barrel allows for a very compact, lightweight motor/ pump.
• Small envelop size and a high power-to-weight ratio
• The motor version has highly engineered valve plates for high speed and low noise
• The pump version has highly engineered valve plates for increased self priming speed and low noise, available with left and right hand rotation.
• The F11’s and F12’s have a simple and straight-forward design with very few moving parts,making them very reliable motors/pumps.
• Our unique timing gear design synchronizes shaft and cylinder barrel, making the F11/F12 very tolerant to high ‘G’ forces and torsional vibrations.
• Heavy duty roller bearings permit substantial external axial and radial shaft loads.

hydraulic motor CHINAMFG F12- 110 125 F12-080-MF-IH-D-000-000-0Â F12-110-MF-IV-D-000-000-00 CHINAMFG motor hydraul

F12-030-LF-IH-D-000-000-0
F12-030-LF-IH-K-000-000-0
F12-030-LF-IV-K-000-000-0
F12-030-LF-IV-Z-000-000-0
F12-030-LS-SH-S-000-000-0
F12-030-LS-SH-T-000-000-0
F12-030-LS-TH-P-000-000-0
F12-030-LS-TH-S-000-000-0
F12-030-LS-TH-T-000-000-0
F12-030-LS-TV-S-000-000-0
F12-030-LU-SH-S-000-000-0
F12-030-MF-CH-C-000-000-0
F12-030-MF-CH-C-000-000-P
F12-030-MF-CH-C-000-000-S
F12-030-MF-CH-C-000-L01-0
F12-030-MF-CH-C-235-000-0
F12-030-MF-CH-K-000-000-0
F12-030-MF-CH-K-000-000-P
F12-030-MF-CH-K-000-000-S
F12-030-MF-CN-C-235-000-0
F12-030-MF-CV-C-000-000-0
F12-030-MF-CV-C-000-000-S
F12-030-MF-CV-C-000-L01-0
F12-030-MF-CV-C-000-L01-S
F12-030-MF-IE-D-000-000-0
F12-030-MF-IE-K-000-L02-0
F12-030-MF-IH-D-000-000-0
F12-030-MF-IH-D-000-000-S
F12-030-MF-IH-D-000-L01-0
F12-030-MF-IH-K-000-000-0
F12-030-MF-IH-K-000-000-P
F12-030-MF-IH-K-000-000-S
F12-030-MF-IH-K-000-L01-0
F12-030-MF-IH-K-000-L01-P
F12-030-MF-IH-K-000-L01-S
F12-030-MF-IH-K-209-L01-P
F12-030-MF-IH-K-237-000-0
F12-030-MF-IH-K-239-000-0
F12-030-MF-IH-P-000-000-0
F12-030-MF-IH-P-000-000-P
F12-030-MF-IH-P-317-000-0
F12-030-MF-IH-Z-000-000-0
F12-030-MF-IV-D-000-000-0
F12-030-MF-IV-D-000-L01-0
F12-030-MF-IV-K-000-000-0
F12-030-MF-IV-K-000-000-P
F12-030-MF-IV-K-000-000-S
F12-030-MF-IV-K-000-L01-0
F12-030-MF-IV-K-000-L01-P
F12-030-MF-IV-K-000-L01-S
F12-030-MF-IV-K-000-L02-0F12-040-MF-IV-K-000-L01-0
F12-040-MF-IV-K-000-L01-P
F12-040-MF-IV-Z-000-L07-0
F12-040-MS-SE-S-000-000-0
F12-040-MS-SE-S-289-000-0
F12-040-MS-SE-T-000-000-0
F12-040-MS-SH-S-000-000-0
F12-040-MS-SH-S-000-000-P
F12-040-MS-SH-S-000-000-S
F12-040-MS-SH-S-000-L01-0
F12-040-MS-SH-S-000-L04-0
F12-040-MS-SH-S-000-L06-0
F12-040-MS-SH-S-000-L08-0
F12-040-MS-SH-T-000-000-0
F12-040-MS-SH-T-000-000-S
F12-040-MS-SH-T-000-L01-P
F12-040-MS-SH-T-237-000-0
F12-040-MS-SN-S-000-000-0
F12-040-MS-SN-S-000-L01-0
F12-040-MS-SN-S-000-L06-0
F12-040-MS-SN-S-209-000-0
F12-040-MS-SV-S-000-000-0
F12-040-MS-SV-S-000-L06-0
F12-040-MS-SV-S-000-L08-0
F12-040-MS-SV-T-000-000-0
F12-040-MS-SV-T-000-000-S
F12-040-MS-TH-S-000-000-0
F12-040-MS-TH-T-000-000-0
F12-040-MS-TH-T-000-L01-0
F12-040-MS-TV-S-000-000-0
F12-040-MU-SH-S-000-000-0
F12-040-MU-SN-T-000-000-0
F12-040-MU-SV-T-000-000-0
F12-040-MU-TH-T-000-000-0
F12-040-MU-TV-T-000-000-0
F12-040-RF-IH-D-000-000-0
F12-040-RF-IH-K-000-000-0
F12-040-RF-IN-K-000-000-0
F12-040-RF-IV-K-000-000-0
F12-040-RS-SH-S-000-000-0
F12-040-RS-SH-T-000-000-0
F12-040-RS-TH-S-000-000-0
F12-040-RS-TH-T-000-000-0
F12-060-GF-IH-K-000-000-0
F12-060-LF-IH-D-000-000-0
F12-060-LF-IH-K-000-000-0
F12-060-LF-IN-K-000-000-0
F12-060-LF-IN-K-276-000-0
F12-060-LF-IV-D-000-000-0
F12-060-LS-SH-S-000-000-0
F12-060-LS-SH-T-000-000-0

F12-080-MF-CV-C-000-L01-P
F12-080-MF-IE-D-000-000-0
F12-080-MF-IE-D-000-L01-0
F12-080-MF-IH-D-000-000-0
F12-080-MF-IH-D-000-000-S
F12-080-MF-IH-D-000-L01-0
F12-080-MF-IH-D-000-L01-S
F12-080-MF-IH-D-000-L04-0
F12-080-MF-IH-K-000-000-0
F12-080-MF-IH-K-000-000-P
F12-080-MF-IH-K-000-000-S
F12-080-MF-IH-K-000-L00-S
F12-080-MF-IH-K-000-L01-0
F12-080-MF-IH-K-000-L04-0
F12-080-MF-IH-K-000-L08-0
F12-080-MF-IH-Z-000-000-0
F12-080-MF-IH-Z-000-L05-0
F12-080-MF-IH-Z-000-L05-0
F12-080-MF-IH-Z-209-000-0
F12-080-MF-IN-D-000-000-S
F12-080-MF-IN-K-000-000-0
F12-080-MF-IN-K-000-000-S
F12-080-MF-IN-K-000-L08-0
F12-080-MF-IV-D-000-000-0
F12-080-MF-IV-D-000-000-P
F12-080-MF-IV-K-000-000-0
F12-080-MF-IV-K-000-000-S
F12-080-MF-IV-K-000-L01-0
F12-080-MF-IV-K-000-L01-S
F12-080-MF-IV-K-000-L10-0
F12-080-MS-SE-S-000-000-0
F12-080-MS-SE-S-289-000-0
F12-080-MS-SE-U-000-000-0
F12-080-MS-SE-U-239-000-0
F12-080-MS-SH-S-000-000-0
F12-080-MS-SH-S-000-000-S
F12-080-MS-SH-U-000-L01-0
F12-090-MF-CH-C-000-000-0
F12-090-MF-CV-C-000-000-0
F12-090-MF-IH-D-000-000-0
F12-090-MF-IH-D-000-L01-0
F12-090-MF-IH-D-209-000-0
F12-090-MF-IH-K-000-000-0
F12-110-LF-IH-D-000-000-0
F12-110-LF-IH-K-000-000-0
F12-110-LF-IN-K-000-000-0
F12-110-LF-IV-K-000-000-P
F12-110-LS-SH-S-000-000-0
F12-110-LS-SH-T-000-000-0
F12-110-LS-SV-S-000-000-0
F12-110-MF-CE-C-000-000-0

Specification

MCR03

Displacement Group

6

7

8

9

0

1

2

Displacement (ml/r) 

160

225

255

280

325

365

400

Theoretical Torque at 10Mpa (N.m)

254

357

405

445

516

580

636

Rated Speed (r/min)

250

200

160

160

160

125

125

Rated Pressure (Mpa)

25

25

25

25

25

25

25

Rated Torque (N.m)

526

739

830

920

1060

1200

1310

Max. Pressure (Mpa)

31.5

31.5

31.5

31.5

31.5

31.5

31.5

Max. Torque (N.m)

648

912

1030

1130

1310

1470

1620

Speed Range (r/min)

0-400

0-320

0.320

0-320

0-250

0-250

0-250

Max. Power (kw)

18kW

18kW

18kW

18kW

22kW

22kW

22kW

 

 

 

 

 

 

 

 

We produce  CHINAMFG hydraulic pump a4vg, a4vg180 pump, CHINAMFG hydraulic pumps for the model of A10VO, A4VSO, A4VSG,  A7V, A6V, A8V, A4VSO, A4VTG, A2F, A2FO, A2FE, CHINAMFG hydraulic pump and its equivalent parts.

type below:

Rexroth A10VSO & A10VO Axial Variable Piston Pump A10VSO18, A10VSO28, A10VSO45, A10VSO71, A10VSO100, A10VSO140 control: DR, DFR, DRG, DFR1, DFLR,

in open loop circuit.

for the A10VSO piston pump parts: Cylinder Block (Barrel), Piston Shoe Assembly, Retainer Plate (Set Plate), Ball Xihu (West Lake) Dis.,
Thrust Plate (Piston Shoe Plate), Valve Plate, Swash Plate, Swash Cradle, Drive Shaft, Rotating Group.

model below:

R957105606 A10VO100DFR1/31R-VSC62N00, R957111500 A10VSO45DFLR/31R-VPA12N00 145N
R957124086 A10VO71DFR1/31R-VSC62N00, R957129793 A10VSO140DFLR/31R-VPB12N00 265N
R957131762 A10VSO28DFLR/31R-VPA12N00 35N, R957143895 A10VSO45DFLR/31R-VPA12N00 50N
R957156902 A10VO71DFR1/31R-VSC62K68, R957159592 A10VSO140DFR1/31R-VPB12K68
R957160463 A10VSO100DFLR/31R-VPA12N00 140N, R957160861 A10VO45DFR1/31L-VSC62K68
R957160920 A10VSO28DFLR/31R-VPA12N00 100N, R957160921 A10VSO28DFLR/31R-VPA12N00 50N
R957160922 A10VSO45DFLR/31R-VPA12N00 100N, R957160923 A10VSO71DFLR/31R-VPA12N00 156N
R957160924 A10VSO71DFLR/31R-VPA12N00 240N, R957160925 A10VSO100DFLR/31R-VPA12N00 120N
R957160926 A10VSO100DFLR/31R-VPA12N00 200N, R957160927 A10VSO100DFLR/31R-VPA12N00 245N
R957160928 A10VSO100DFLR/31R-VPA12N00 300N, R957160929 A10VSO140DFLR/31R-VPB12N00 300N
R95716 0571 A10VSO140DFLR/31R-VPB12N00 245N, R957160962 A10VO71DFR1/31L-VSC62K68
R957161113 A10VO28DFR1/31L-VSC62K01, R957161114 A10VO28DFR1/31L-VSC62N00
R957161115 A10VO45DFR1/31R-VSC62K68, R957161116 A10VO71DFR1/31R-VSC62K01
R957161117 A10VO71DFR1/31L-VSC62N00, R957161228 A10VSO45DFR1/31R-VPA12K68
R957161229 A10VSO71DFR1/31R-VPA12K68, R957161230 A10VSO100DFR1/31R-VPA12K68

R9109 0571 0 A10VSO28DFR/31R-PPA12N00, R9109 0571 3 A10VSO28DR/31R-PPA12N00
R A10VO100DFR/31R-PSC62N00, R91095713 A10VO100DFR/31L-PSC62N00
R9109571 A10VO28DFR/31R-PSC62N00, R910907403 A10VSO45DR/31R-PPA12N00
R910907404 A10VO45DFR/31R-PSC62K01, R91095718 A10VO45DFR1/31R-PSC62K04
R91095719 A10VSO28DR/31R-PPA12K01, R A10VO28DFR/31R-PSC62K01
R91095715 A10VSO45DFR1/31R-PPA12N00, R A10VO45DFR1/31L-PSC62N00
R9157113 A10VSO45DFR/31R-PPA12K01, R91095719 A10VO45DFR/31L-PSC62K01
R91571181 A10VO45DFR1/31R-PSC62N00, R91571590 A10VSO28DFR1/31R-PPA12N00
R91571571 A10VSO45DFR/31R-PPA12K26, R91571737 A10VO28DFR1/31R-PSC61N00
R91571007 A10VSO100DR/31R-PPA12N00, R91571421 A10VO28DR/31R-PSC62K01
R91571472 A10VO45DFR1/31L-PSC62K01, R91571931 A10VO45DFR1/31R-PSC62K01
R91092 0571 A10VO45DFR1/31R-PSC62K02, R910921546 A10VSO140DFR1/31R-PPB12N00
R910922744 A10VSO100DFR1/31R-PPA12N00, R9157147 A10VO28DFR1/31L-PSC62K01
R9157183 A10VSO140DR/31R-PPB12N00, R9157181 A10VO28DFR1/31R-PSC62K01
R9157118 A10VSO28DFR1/31R-PPA12K01, R910927068 A10VSO45DFR1/31R-PPA12K02
R910927083 A10VSO100DFR1/31R-PPA12K02, R910927126 A10VSO140DFR1/31R-PPB12K02
R91571852 A10VSO140DRG/31R-PPB12N00, R91571823 A10VSO100DFLR/31R-PPA12N00
R91571974 A10VSO140DFLR/31R-PPB12N00, R91571975 A10VSO45DFLR/31R-PPA12N00
R A10VSO28DFLR/31R-PPA12N00, R A10VSO28DFLR/31R-PPA12N00
R A10VSO140DFLR/31R-PPB12N00, R A10VSO28DFLR/31R-PPA12N00
R A10VSO100DFLR/31R-PPA12N00, R A10VSO100DFLR/31R-PPA12N00
R A10VSO100DFLR/31R-PPA12N00, R A10VSO45DFLR/31R-PPA12N00
R A10VSO100DFLR/31R-PPA12N00, R A10VSO45DFLR/31R-PPA12N00
R A10VSO45DFLR/31R-PPA12N00, R91571804 A10VSO18DFR1/31R-PUC62N00
R91571977 A10VSO140DFLR/31R-PPB12N00, R91571026 A10VSO28DFLR/31R-PPA12N00
R91571120 A10VO71DFR/31R-PSC62N00. R91571183 A10VSO45DFR/31R-PPA12N00
R91571192 A10VSO140DFR/31R-PPB12N00, R91571643 A10VSO100DFR/31R-PPA12N00
R910940045 A10VO100DFR1/31L-PSC62N00, R910940520 A10VSO18DFR/31R-PPA12N00
R910940582 A10VSO45DFLR/31R-PPA12N00, R910940787 A10VO28DFR/31L-PSC62N00
R91094 0571 A10VSO28DFLR/31R-PPA12N00, R A10VSO140DFLR/31R-PPB12N00
R A10VO71DFR1/31R-PSC62N00, R910942503 A10VSO18DR/31R-PPA12N00
R910942635 A10VSO71DFR/31R-PPA12N00, R910942654 A10VSO71DFLR/31R-PPA12N00
R910942696 A10VO28DFR1/31R-PSC62N00, R A10VO45DFR1/31R-PSC61N00
R A10VSO100DFLR/31R-PPA12N00, R A10VO45DFR/31R-PSC62N00
R A10VSO140DFLR/31R-PPB12N00, R9157132 A10VSO100DFLR/31R-PPA12N00
R9157167 A10VSO71DFLR/31R-PPA12N00, R910944195 A10VO71DFR1/31L-PSC62N00
R910944440 A10VSO71DFR1/31R-PPA12N00, R910944502 A10VSO71DFLR/31R-PPA12N00
R9157130 A10VSO71DFLR/31R-PPA12N00, R910945133 A10VSO71DR/31R-PPA12N00
R910945178 A10VSO18DFR1/31R-PPA12N00, R910945653 A10VO71DFR1/31R-PSC61N00
R910946188 A10VO71DFR/31L-PSC62N00, R910946661 A10VO71DFR1/31L-PSC62K01
R910947666 A10VSO18DFR/31L-PSC62N00, R910947870 A10VO71DFR1/31L-PSC62K02
R910947872 A10VSO71DFR1/31R-PPA12K02 .R910948654 A10VSO71DFLR/31R-PPA12N00
R910948790 A10VSO71DFLR/31R-PPA12N00, R910961216 A10VSO71DFLR/31R-PPA12N00
R A10VO45DFR/52R-PSC64N00 ,R A10VO60DFR1/52R-PSD61N00
R910988126 A10VSO10DR/52R-PKC64N00, R910988128 A10VSO10DFR1/52R-PKC64N00
R91571406 A10VSO10DR/52R-PPA14N00, R91571987 A10VSO10DFR1/52R-PPA14N00

A10VSO18DFR1/31R-PPB12N00, A10VS018DFR1/31R-PPB12N00, A10VS018DR/31R-PPA12N00,

 A10VSO18DR/31R-PPA12N00, A10VSO18DFR1/31R-PPA12N00,  A10VSO18DFR1/31R-PPB12NOO
A10VS018DFR1/31R-PPB12NOO, A10VSO18DR/31R-PPA12N00, A10VSO28DR/31R-PPA12N00
A10VS571DR/31R-PPA12N00, A10VO28DR/31R-PSC12N00, A10VSO28DRF1/31R-PSA12N00
A10VSO28DFR1/31R-PPA12N00, A10VSO28DFR1/31R-PPA12N00, A10VS571DFR1/31R-PPA12N00
A10VSO28DFR/31R-PSA12N00, A10VO28DFR1/31L-PSC62N00, A10VO28DFR1/31R-PSC62N00

A10VS045DR/31R-PPA12N00, A10VSO45DR/31R-PPA12N00, A10VS045DFR1/31R-PPA12N00
A10VSO45DFR1/31R-PPA12N00, A10VSO45DFR1/31R-PPA12N00, A10VO45DFR1/31R-PSC62K02
A10VSO45DFR1/32R-PPB12N00, A10VSO71DFR1/31R-PPA12N00, A10VS071DFR1/31R-PPA12N00
A10VSO71DFR1/31R-PPA12KB5, A10VSO71DFR/31R-PSC62K07, A10VSO71DFR1/31R-PPA12N00
A10VS071DFR1/31R-PPA12N00, A1OVSO71DFR1/31R-PPA12N00, A1OVS071DFR1/31R-PPA12N00
A10VSO71DFR1/31R-PPA12N00, A10VSO71DFR1/32R-VPB22U99, A10VSO71DFR1/31R-PPB12NOO
EA10VSO71DR/31R-PPA12N00, A10VSO71DR/31R-PPA12N00, A10VSO100DR/31R-PPA12N00
A10VS5710DR/31R-PPA12N00, A10VSO100DR/31R-VPA12N00, A10VS5710DR/31R-VPA12N00
A10VSO100DFR1/31R-PPA12N00, A10VS5710DFR1/31R-PPA12N00, A10VSO100DR/31R-PPA12N00
A10VSO100DFR1/31R-VPB12N00, A10VS5710DFR1/31R-VPB12N00, A10VSO100DFR1/31R-PPB12N00
A10V5710DR/31R-PSC11N00, A10VS5710DR/31R-PTA12N00, A10VSO140D/31R-PPB12N00
A10VSO140DR/31R-PPB12N00, A10VS0140DR/31R-PPB12N00, E-A10VSO140DFR1/31R-PPA12N00
A10VSO140DFR1S/31R-PPB12N00, A10VSO140DFR1/31R-PPB12N00, A10VS0140DFLR/31R-PPB12N00
A10VSO140DR/31R-PPB12N00, A10VS0140DR/31R-PPB12NOO, A10VSO140DR/31R-VPB12N00
A10VSO140DR/31R-VPB22U99, A10VSO140DFR1/31R-PPB12N00 
 

 

FAQ

Q: Are you trading company or manufacturer ?

A: We are factory.

 

Q: How long is your delivery time?

A: Generally it is 5-10 days if the goods are in stock. or it is 15-20 days if the goods are not in stock, it is according to quantity.

 

Q: Do you provide samples ? is it free or extra ?

A: No, we could not offer the sample for free charge but we can supply the goods with sample price.

 

Q: What is your terms of payment ?

A: Payment=1000USD, 30% T/T in advance ,balance before shippment.
If you have another question, pls feel free to contact us as below:

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Certification: GS, RoHS, CE, ISO9001
Excitation Mode: Excited
Power Rating: 4000W
Samples:
US$ 1000/Piece
1 Piece(Min.Order)

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hydraulic motor

How do hydraulic motors work and what sets them apart from other types of motors?

Hydraulic motors are mechanical devices that convert hydraulic energy into rotational mechanical energy. They operate based on the principles of fluid dynamics and are commonly used in various applications where high torque and smooth operation are required. Here’s a detailed explanation of how hydraulic motors work and what sets them apart from other types of motors:

Hydraulic motors typically consist of a housing, an output shaft, and a rotating mechanism. The rotating mechanism contains a series of gears, pistons, or vanes that interact with the hydraulic fluid to generate rotational motion.

When pressurized hydraulic fluid enters the motor through an inlet port, it applies force to the rotating mechanism. The interaction between the hydraulic fluid and the rotating mechanism causes the output shaft to rotate. The pressurized fluid continues to flow through the motor, maintaining the rotational motion.

There are several types of hydraulic motors, including gear motors, piston motors, and vane motors. The specific design and operation vary among these types, but the basic principle remains the same: hydraulic pressure acts on internal components to generate rotational motion.

What sets hydraulic motors apart from other types of motors is their ability to deliver high torque even at low speeds. Hydraulic systems can generate significant force due to the incompressibility of hydraulic fluid. This makes hydraulic motors suitable for applications that require high torque, such as heavy machinery, construction equipment, and industrial applications.

Hydraulic motors also offer precise speed and torque control. By adjusting the flow rate or pressure of the hydraulic fluid, the speed and torque output of the motor can be accurately controlled. This feature makes hydraulic motors ideal for applications that require precise and adjustable operation, such as material handling systems or machine tools.

Another advantage of hydraulic motors is their ability to operate in harsh environments. Hydraulic systems can withstand high temperatures, extreme pressures, and contaminants present in industrial settings. This durability makes hydraulic motors suitable for applications in rugged environments, such as mining, marine, or oil and gas industries.

However, there are some considerations when using hydraulic motors. They require a hydraulic power source, such as a pump, to generate the necessary fluid pressure. Hydraulic systems also require additional components, such as hoses, valves, and filters, which add complexity to the overall system. Additionally, hydraulic systems require proper maintenance, including regular fluid checks and filtration, to ensure optimal performance and longevity.

In summary, hydraulic motors convert hydraulic energy into rotational mechanical energy through the interaction between hydraulic fluid and internal components. They stand out from other types of motors due to their high torque capabilities, precise control, and ability to operate in harsh environments. These characteristics make hydraulic motors a preferred choice for a wide range of applications that require robust and controllable rotational motion.

hydraulic motor

What resources are available for further learning about the principles and applications of hydraulic motors?

There are several resources available for individuals interested in further learning about the principles and applications of hydraulic motors. Here are some valuable sources:

  • Books and Publications: Numerous books and publications cover hydraulic systems and components, including hydraulic motors. Some recommended titles include “Industrial Hydraulics Manual” by Eaton, “Hydraulic Control Systems” by Noah Manring, and “Fluid Power Basics” by Jay F. Hooper. These resources provide in-depth explanations of hydraulic principles, components, and applications.
  • Online Courses and Tutorials: Online learning platforms offer courses and tutorials specifically focused on hydraulic systems and components. Websites like Udemy, Coursera, and LinkedIn Learning offer a variety of courses that cover hydraulic principles, motor operation, maintenance, and troubleshooting. These courses often include video lectures, interactive quizzes, and practical exercises to enhance learning.
  • Manufacturer and Supplier Websites: Many hydraulic motor manufacturers and suppliers provide educational resources on their websites. These resources can include technical specifications, application guides, whitepapers, and instructional videos. Examples of such manufacturers and suppliers include Eaton, Parker Hannifin, and Bosch Rexroth. Exploring their websites can provide valuable insights into hydraulic motor principles and applications.
  • Industry Associations and Forums: Industry associations and online forums related to fluid power and hydraulics can be excellent resources for further learning. Associations such as the National Fluid Power Association (NFPA) and the International Fluid Power Society (IFPS) often provide educational materials, webinars, and conferences focused on hydraulic systems. Online forums like Hydraulic & Pneumatic and Eng-Tips Fluid Power Engineering Forum allow individuals to ask questions, share knowledge, and engage in discussions with industry professionals.
  • Technical Documentation and Standards: Technical documentation, such as manuals and catalogs, provided by hydraulic motor manufacturers can offer detailed information about the principles, specifications, and applications of their products. Additionally, international standards organizations like ISO (International Organization for Standardization) and SAE (Society of Automotive Engineers) publish technical standards and guidelines related to hydraulic systems that can provide valuable insights.

By utilizing these resources, individuals can deepen their understanding of hydraulic motor principles, explore various applications, and stay updated with the latest advancements in the field. It is recommended to combine multiple sources and approaches to gain a comprehensive understanding of hydraulic motors.

hydraulic motor

How does the displacement of a hydraulic motor affect its speed and torque characteristics?

The displacement of a hydraulic motor plays a significant role in determining its speed and torque characteristics. The displacement refers to the volume of hydraulic fluid that the motor can displace in a single rotation or reciprocating cycle. Here’s a detailed explanation of how the displacement affects the speed and torque characteristics:

  • Speed: The displacement of a hydraulic motor is directly related to its rotational speed. Generally, a larger displacement motor will have a higher maximum speed. This is because a larger displacement motor can displace more hydraulic fluid per rotation, allowing for faster movement and higher rotational speeds.
  • Torque: The displacement of a hydraulic motor also affects its torque output. A larger displacement motor typically generates higher torque values. This is because the larger volume of hydraulic fluid being displaced results in more force being applied to the motor’s output shaft, leading to increased torque. As a result, a motor with a larger displacement can provide greater pulling, lifting, or pushing force.
  • Speed-Torque Relationship: The displacement of a hydraulic motor influences the speed-torque relationship. In general, hydraulic motors exhibit an inverse relationship between speed and torque. As the speed increases, the torque output decreases, and vice versa. However, the specific speed-torque characteristics can vary depending on the motor design and type.
  • Varying Displacement for Speed and Torque Control: Some hydraulic motors offer variable displacement capabilities. By adjusting the displacement, operators can control both the speed and torque output of the motor. Increasing the displacement can result in higher speeds but lower torque, while decreasing the displacement can provide higher torque at the expense of speed. This feature allows for flexibility and adaptability in different applications.
  • Efficiency Considerations: It’s important to note that the displacement of a hydraulic motor can impact its overall efficiency. Generally, larger displacement motors tend to have higher volumetric losses and lower overall efficiency compared to smaller displacement motors. However, advancements in motor design and technologies have helped to improve the efficiency of hydraulic motors across a wide range of displacements.

In summary, the displacement of a hydraulic motor directly influences its speed and torque characteristics. A larger displacement motor typically offers higher maximum speed and greater torque output. Understanding the relationship between displacement, speed, and torque is crucial in selecting the appropriate hydraulic motor for specific applications, considering the desired balance between speed, torque, and efficiency.

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editor by CX 2024-03-30