 |
Ace Hyd Pump
General Advantages
Ace developed the first hydraulic motor driven pump at the request of John Deere in 1969. Many of the original pumps are still operating today after more than 30 years of service.
Centrifugal pump design provides good resistance to abrasive solutions and extra flow for agitation. The advantages of the hydraulic motor driven pump are mounting versatility, customized performance, and ease of maintenance. All hydraulic driven pumps are equipped with a stainless steel shaft and wear ring for excellent corrosion resistance.
-
MOUNTING VERSATILITY: The location of the pump is not tied to the PTO or engine drive shaft; the pump can be mounted in a variety of locations to suit application requirements.
-
CUSTOMIZED PERFORMANCE: The performance is dependent on the supply of hydraulic oil to the motor and not necessarily tied to engine speed. A hydraulic Roundup logodriven pump can produce higher pressures than PTO or belt driven pumps.
They can also hold constant pressure at varying engine speeds on closed center hydraulic systems. -
EASY MAINTENANCE: On a hydraulic driven pump there are no belts to align or break. Separate pump and hydraulic motor shafts simplify repair and replacement. Two main pump bearings support shaft loads. All pumps are equipped with easily replaceable Viton® mechanical seals.
The Ace gear type hydraulic motor is more efficient than gerotor type motors, and is less subject to damage by contamination than the gerotor design. A built-in needle valve allows for the bypass of up to 9 GPM excess hydraulic fluid on open center systems. The standard motor has a reverse flow check valve which prevents backward hookup and a coasting check which protects the motor seal from the flywheel effect of the impeller. A restrictor orifice is included with pump models recommended for pressure compensating closed center systems.
Roundup® is a registered trademark of Monsanto Company.
FMC-HYD-202 FMC-HYD-203
FMC-HYD-204 FMC-HYD-210 FMC-HYD-310
| 1-1/4 | 1 |
| SUCTION | DISCHARGE |
|---|
-
The farm industry standard since 1969.
-
The 202 and 203 motors require 2 GPM (7.6 LPM) and 3 GPM (11.4 LPM) hydraulic fluid input. Recommended for engineered systems with limited oil flow.
-
The 204 motor requires 4 GPM(15.1 LPM) maximum hydraulic fluid input.
Recommended for:
- Pressure Compensating Closed Center Systems
- Open Center Systems up to 13 GPM (49.2 LPM) using internal needle valve bypass.
-
The 210 motor requires 10 GPM (37.9 LPM) maximum hydraulic fluid input.
Recommended for:
- Load Sensing Closed Center Systems
- Open Center Systems up to 17 GPM (64.4 LPM) using internal needle valve bypass.
- The 310 motor requires 16 GPM (60.6 LPM) maximum hydraulic fluid input. Recommended for large Open Center Systems up to 24 GPM (90.9 LPM) using internal needle valve bypass.
FMC-150-HYD-206
| 1-1/2 | 1-1/4 |
| SUCTION | DISCHARGE |
|---|
-
Provides higher pressure and greater volume for applications with large tanks and longer spray booms.
-
The 206 motor requires 7 GPM (26.5 LPM) maximum hydraulic fluid input and fits virtually all tractor hydraulic systems.
Recommended for:
- Pressure Compensating Closed Center Systems
- Load Sensing Closed Center Systems
- Open Center Systems up to 16 GPM (60.6 LPM) using internal needle valve bypass
FMC-150F-HYD-206 FMC-150FS-HYD-206
| 1-1/2 | 1-1/4 |
| SUCTION | DISCHARGE |
|---|
-
F model equipped with NPT ports and industry standard flanged connections
-
FS model constructed of 316 stainless steel with NPT ports and industry standard flanged connections
-
Provides higher pressure and greater volume for applications with large tanks and longer spray booms.
-
The 206 motor requires 7 GPM (26.5 LPM) maximum hydraulic fluid input and fits virtually all tractor hydraulic systems.
Recommended for:
- Pressure Compensating Closed Center Systems
- Load Sensing Closed Center Systems
- Open Center Systems up to 16 GPM (60.6 LPM) using internal needle valve bypass
FMC-150SP-HYD-206
| 1-1/2 | 1-1/4 |
| SUCTION | DISCHARGE |
|---|
-
SP model is self-priming, making it perfect for load and spray applications
-
Provides higher pressure and greater volume for applications with large tanks and longer spray booms.
-
The 206 motor requires 7 GPM (26.5 LPM) maximum hydraulic fluid input and fits virtually all tractor hydraulic systems.
Recommended for:
- Pressure Compensating Closed Center Systems
- Load Sensing Closed Center Systems
- Open Center Systems up to 16 GPM (60.6 LPM) using internal needle valve bypass
FMC-200-HYD-210
FMC-200-HYD-304 FMC-200-HYD-310
| 2 | 1-1/2 |
| SUCTION | DISCHARGE |
|---|
-
Ideal for spraying, large tank agitation, liquid transfer, and spray - transfer combinations
-
The 210 motor requires 10 GPM (37.9 LPM) maximum hydraulic fluid input.
Recommended for:
- Pressure Compensating Closed Center Systems
- Load Sensing Closed Center Systems
- Open Center Systems up to 17 GPM (64.4 LPM) using internal needle valve bypass
-
The 304 motor requires 11 GPM (41.6 LPM) maximum hydraulic fluid input.
Recommended for:
- Pressure Compensating Closed Center Systems
- Load Sensing Closed Center Systems
- Open Center Systems up to 20 GPM (75.7 LPM) using internal needle valve bypass
-
The 310 motor requires 16 GPM (60.6 LPM) maximum hydraulic fluid input.
Recommended for:
- Large Open Center Systems up to 24 GPM (90.9 LPM) using internal needle valve bypass.
FMC-200F-HYD-304
| 300 Flange | 220 Flange |
| SUCTION | DISCHARGE |
|---|
-
F model equipped with industry standard flanged connections
-
Ideal for spraying, large tank agitation, liquid transfer, and spray - transfer combinations
-
The 304 motor requires 11 GPM (41.6 LPM) maximum hydraulic fluid input.
Recommended for:
- Pressure Compensating Closed Center Systems
- Load Sensing Closed Center Systems
- Open Center Systems up to 20 GPM (75.7 LPM) using internal needle valve bypass
Site Created and Hosted by Full Swing Solutions