1 Introduction
The YCB and YCY gears pumps are an important part of hydraulic machinery and are widely used in industrial sectors such as metallurgy, machinery, chemical industry, shipbuilding and vehicle manufacturing. Unlike ordinary hydraulic pumps, they are of the variable displacement type, which means their displacement is adjustable and their output flow rate can be changed by controlling the gears. This article describes the structure and application scope of YCB and YCY gear pumps.
2 Structure
YCB and YCY gear pumps are generally composed of four parts: pump body, pump cover, drive shaft and gears. The pump body is the main body of the pump, in which the gears and driveshaft are mounted. The pump cover is connected to the pump body. It is divided into inlet chamber and outlet chamber. The gears and driveshaft are supported by the pump body, and the gears are meshed with one another to drive the rotation of the driveshaft.
3 Working principle
The working principle of YCB and YCY gear pumps is simple. When the driveshaft is driven to rotate by the motor, the meshed gears on the driveshaft rotate at the same speed. The meshed gears will move in a reciprocal motion, creating a vacuum in the inlet chamber and pushing the fluid in the inlet chamber to the outlet chamber, thus achieving the purpose of transmission.
4 Application scope
YCB and YCY gear pumps are widely used in hydraulic systems in the industrial sector. They can be used to drive hydraulic machinery in metallurgy, machinery, chemical industry and shipbuilding industry, such as hydraulic presses, hydraulic cranes and other hydraulic machinery. They are also used in vehicle manufacturing to provide power for moving parts, such as steering, brakes and suspensions.
5 Conclusion
The YCB and YCY gear pumps are an important part of hydraulic machinery. They are of the variable displacement type and their output flow rate can be changed by controlling the gears. They are widely used in industrial fields such as metallurgy, machinery, chemical industry, shipbuilding and vehicle manufacturing. They can be used to drive hydraulic machinery in these fields, as well as to provide power for moving parts in vehicles.
