Understand the structure and common models of T6&T7 series vane pumps
T6&T7 series vane pump is a common hydraulic pump with reliability and high performance. The following is the basic structure of the T6&T7 series vane pumps and a brief introduction to some common models:
1.Structural composition:
Pump Housing: Usually made of cast iron or aluminum alloy, it provides the overall structure and support of the pump.
Blade Assembly: It consists of a set of blades. The blades are in close contact with the inner wall of the pump body through centrifugal force and hydraulic pressure to generate pressure.
Axial Balancer: balances the axial force generated by the blades and reduces friction and wear between the blades and the pump body.
Axial Bearings: Support the axial load of the pump rotor and ensure the smooth operation of the pump.
Hydraulic Control Valve: used to adjust the flow and pressure of the pump to achieve precise control of the hydraulic system.
2.Common models:
T6CC Series: Pumps with fixed displacement, suitable for medium pressure and flow requirements. For example, T6CC-B28-B05-B13-1R00-C100, T6CC-B28-B05-B13-2R00-C100, etc.
T6DC series: Pump with dual displacement, which can switch different flow rates according to needs. For example, T6DCM-B35-B05-B13-2R00-C100, T6DCM-B35-B05-B13-3R00-C100, etc.
T6EC series: Pump with high pressure and high efficiency, suitable for high-pressure hydraulic systems. For example, T6EC-062-025-1R03-B1, T6EC-062-025-2R03-B1, etc.
T6ED series: Pump with dual displacement and high pressure, which can meet the requirements of high flow and high pressure. For example, T6ED-052-045-1R03-B1, T6ED-052-045-2R03-B1, etc.
It should be noted that the T6&T7 series vane pumps have multiple models and configurations, and each model has different performance parameters and applicable scope. If you need detailed information about a specific model, it is recommended to refer to the manufacturer's product documentation, technical manual or contact the manufacturer's technical personnel to obtain accurate structure and model information.