Hydraulic Motors

Spring Freewheel Coupling Assembly for Hydraulic Motor.

Standard 1 3/8" x 6 spline female - female.

Standard Anti-clockwise rotation.

Unique design for hydraulically driven rotary cutters.

Allows hydraulic motor to run at ideal 500 / 600 rpm range.

Allows drive through standard agricultural gearbox. 1:1.47 OR 1:1.93 Ratio.

Prevents transmission impact failures by instantly absorbing a massive 2000 Nm (1500 ft lbs) of torque.

Integral freewheel eliminates transmission failure due to cutter disc inertia during hydraulic valve "STOP" condition.

Spring Freewheel Coupling Assembly for Hydraulic Motor.

Standard 1 3/8" x 6 spline female - female.

Successful clockwise rotation for dual motor application

Unique design for hydraulically driven rotary cutters.

Allows hydraulic motor to run at ideal 500 / 600 rpm range.

Allows drive through standard agricultural gearbox. 1:1.47 OR 1:1.93 Ratio.

Prevents transmission impact failures by instantly absorbing a massive 2000 Nm (1500 ft lbs) of torque.

Integral freewheel eliminates transmission failure due to cutter disc inertia during hydraulic valve "STOP" condition.

Hydraulic Motor.

Features:

Ports - 7/8" UN "O" Ring.

Roller type Gear Stator.

Disc Valve linked to Roller Shaft via Drive Link.

Output shaft supported by tapered roller bearings.

High pressure motor seals.

Cross port relief required for pressure spikes.

These motors are suitable for continuous operation under rough operating conditions such as high operating pressures, thin oil, or frequent reverse cycling. The tapered roller bearings make the motors suitable for absorbing static and dynamic radial loads. The drive link and balanced disc valve minimise hydraulic and mechanical losses. This design produces motors with high efficiency, even at high pressures, and good starting chracteristics.

Maximum Flow: 75 L/min (20 US gal/min).

Hydraulic Motor.

Features:

Ports - 7/8" UN "O" Ring.

Roller type Gear Stator.

Disc Valve linked to Roller Shaft via Drive Link.

Output shaft supported by tapered roller bearings.

High pressure motor seals.

Cross port relief required for pressure spikes.

These motors are suitable for continuous operation under rough operating conditions such as high operating pressures, thin oil, or frequent reverse cycling. The tapered roller bearings make the motors suitable for absorbing static and dynamic radial loads. The drive link and balanced disc valve minimise hydraulic and mechanical losses. This design produces motors with high efficiency, even at high pressures, and good starting chracteristics.

Maximum Flow: 75 L/min (20 US gal/min).

Hydraulic Motor.

Features:

Ports - 7/8" UN "O" Ring.

Roller type Gear Stator.

Disc Valve linked to Roller Shaft via Drive Link.

Output shaft supported by tapered roller bearings.

High pressure motor seals.

Cross port relief required for pressure spikes.

These motors are suitable for continuous operation under rough operating conditions such as high operating pressures, thin oil, or frequent reverse cycling. The tapered roller bearings make the motors suitable for absorbing static and dynamic radial loads. The drive link and balanced disc valve minimise hydraulic and mechanical losses. This design produces motors with high efficiency, even at high pressures, and good starting chracteristics.

Maximum Flow: 125 L/min (33 US gal/min).

Maximum Pressure: 3200 psi (220 bar).

Hydraulic Motor.

Features:

Ports - 7/8" UN "O" Ring.

Roller type Gear Stator.

Disc Valve linked to Roller Shaft via Drive Link.

Output shaft supported by tapered roller bearings.

High pressure motor seals.

Cross port relief required for pressure spikes.

These motors are suitable for continuous operation under rough operating conditions such as high operating pressures, thin oil, or frequent reverse cycling. The tapered roller bearings make the motors suitable for absorbing static and dynamic radial loads. The drive link and balanced disc valve minimise hydraulic and mechanical losses. This design produces motors with high efficiency, even at high pressures, and good starting chracteristics.

Maximum Flow: 75 L/min (20 US gal/min).