The hydraulic solenoid has a closed cavity with holes at various positions, and each gap is connected to each oil funnel. The plunger is impermeable, with two solenoids on both sides of the plunger. When charging one of the solenoids, the valve will move to a similar side. In short, the development of pressure-driven solenoids was a way to start or close different drain ports. At the same time, the oil supply gap is continuously opened, and the water-driven oil enters the unique oil pipe, and the strain of the oil is used to push the oil chamber cylinder, drive the positioning rod, and drive the mechanical equipment.
The hydraulic valve essentially controls the machine by controlling the opening and closing control of the solenoid. In the hydraulic solenoid valve frame, the components used to control and modify the hydraulic frame's working weight, flow size and fluid bearing are called pressure-driven control valves. Water-driven control valves are the power components of the hydraulic solenoid valve frame. They control the opening, closing, and directional movement of the pressure-driven official components, and change the speed and yield torque of the water-driven frame by controlling and modifying weight, water flow, and heading. Hydrodynamic working fluid.
The hydraulic valve essentially controls the machine by controlling the opening and closing control of the solenoid. In the hydraulic solenoid valve frame, the components used to control and modify the hydraulic frame's working weight, flow size and fluid bearing are called pressure-driven control valves. Water-driven control valves are the power components of the hydraulic solenoid valve frame. They control the opening, closing, and directional movement of the pressure-driven official components, and change the speed and yield torque of the water-driven frame by controlling and modifying weight, water flow, and heading. Hydrodynamic working fluid.
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