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How does Clutch hydraulic bearing transmit control force?

Publish Time: 2024-05-27
Clutch hydraulic bearing for transmitting control force mainly depends on its unique working principle and structural characteristics. The following is a detailed explanation of Clutch hydraulic bearing for transmitting control force:
1. Working principle of Clutch hydraulic bearing for
Clutch hydraulic bearing for is a device based on the principle of hydrostatic pressure. Its working principle is mainly to support the bearing through the hydraulic force generated by high-pressure liquid. When the clutch hydraulic bearing is subjected to external control force, the high-pressure liquid is compressed in the sealed cavity in the bearing, forming a high-pressure area. The hydraulic force generated by this high-pressure zone acts on the bearing, giving it sufficient support to transmit external control forces.
2. Structural characteristics of Clutch hydraulic bearing for
Clutch hydraulic bearing for mainly consists of bearing inner sleeve, bearing outer sleeve, sealing ring and pressure oil circuit. The bearing inner sleeve is mounted on the shaft, and the bearing outer sleeve is fixed on the casing. The sealing ring mainly plays a sealing role to ensure that the liquid does not leak. The pressure oil circuit is a key part of the Clutch hydraulic bearing for transmitting control force. It is responsible for introducing high-pressure liquid into the sealed cavity of the bearing to form a high-pressure area, and transmits the control force to the bearing through the flow of liquid.
3. Clutch hydraulic bearing for the process of transmitting control force
When an external operating force acts on the Clutch hydraulic bearing, for example, the driver depresses the clutch pedal, the operating force is transmitted to the Clutch hydraulic bearing through a transmission mechanism such as the clutch master cylinder.
After the pressure oil circuit of the Clutch hydraulic bearing receives the operating force, the high-pressure liquid is introduced into the sealed cavity of the bearing.
The high-pressure liquid forms a high-pressure zone in the closed cavity, generating sufficient hydraulic force to support the bearing.
The hydraulic force is transmitted to the shaft through the friction surface between the bearing inner sleeve and the bearing outer sleeve to realize the transmission of control force.
At the same time, the sealing ring of the Clutch hydraulic bearing ensures that the liquid will not leak, maintaining the stability and durability of the system.
In summary, Clutch hydraulic bearing for achieves effective transmission of control force through its unique working principle and structural characteristics. This transmission method not only has high efficiency and reliability, but also reduces friction and wear and extends the service life of the bearings.
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