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Our motor mount HICs (Hydraulic Integrated Circuit) complement our orbital motors perfectly. Use them in tandem on your motor applications, and see performance soar.
We offer a flow and pressure range to match specific motor capabilities.
For more detailed technical information, view our quick reference guide (PDF 8 MB) and circuit examples (PDF 8 MB).
Motor Mount HICs Datasheet (PDF 0.5 MB)
Features & Benefits
- Pre-packaged designs ready for mounting on our orbital motors (DH, DS, OMP, OMR, OMS, and OMT).
- Efficient system plumbing and packaging and minimized assembly time due to the reduction in fittings, tubing, and/or hoses.
- Pre-tested to NFPA test standards, ensuring robustness on your application.
- Wide offering of off-the-shelf solutions, including common valve functions applied with orbital motors.
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Counterbalance HICs
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Counterbalance HICs Example Schematic |
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- Catalog HICs with counterbalance valves that help prevent excessive motor drift due to control valve leakage; hold the load in the event of hose/tube failure; or limit overrun when a load is in a lowering or runaway mode. The valves also provide a smooth, cushioned stop when the control valve is suddenly closed.
- Optional shuttle valve available for functions such as load-sensing feedback, operating an unloading valve, or releasing a brake.
- Typical applications include swing drives, winch drives, and vehicle propulsion.
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Cross-port Relief HICs
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Cross-port Relief HICs Example Schematic |
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- Catalog HICs using cross-port relief valves that control the maximum motor torque by providing the work ports with full-flow, by-pass relief protection.
- Optional shuttle valve available for functions such as load-sensing feedback, operating an unloading valve, or releasing a brake.
- Typical applications include vehicle propulsion, auger drives, conveyer drives, and slew drives.
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Bypass Solenoid HICs
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Bypass Solenoid HICs Example Schematic |
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- Catalog HICs with bypass solenoid, allowing an electric signal to enable/disable motor rotation independent of system hydraulics. A normally closed solenoid valve is used to bypass flow from B to A when energized.
- Drain port connected to port A to simplify circuit plumbing.
- Typical uses include on/off fan drives and applications that require individual motors on the same circuit to be turned off independently or motor disablement during system start-up to limit pressure losses.
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Dual Shock Valve HICs
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Dual Shock Valve HICs Example Schematic |
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- Catalog HICs with dual shock valves that trim the maximum motor torque by absorbing momentary pressure spikes (shock effects) at the work ports.
- Anti-cavitation feature where additional flow is supplied to the motor through the drain port when the motor overruns the pump - useful in series wheel drive applications where one motor must turn faster than the other while the vehicle is cornering.
- Typical applications include vehicle propulsion, auger drives, conveyer drives, and slew drives.
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