Copyright:Qidong Deke Hydraulic Co., Ltd.

Welcome to inquire!

18962820125

Add:No. 33, Ziwei West Road, Qidong City, Jiangsu Province
Tel:0513-83689509    E-mail:qddeke@163.com  chen1234nn@126.com

View mobile website

>
>
>
Plunger pump efficiency

Plunger pump efficiency

[Abstract]:
Efficiency is now pursued by many manufacturers. After the work efficiency has been improved, the production capacity of the enterprise will certainly be improved, and the development of the enterprise will be better and better. Under normal circumstances, the efficiency of the enterprise is also related to the equipment of the enterprise. Take the axial piston pump. The axial piston pump you use is inefficient, so the production speed will naturally not go up. Face this What kind of situation should we solve?
Efficiency is now pursued by many manufacturers. After the work efficiency has been improved, the production capacity of the enterprise will certainly be improved, and the development of the enterprise will be better and better. Under normal circumstances, the efficiency of the enterprise is also related to the equipment of the enterprise. Take the axial piston pump. The axial piston pump you use is inefficient, so the production speed will naturally not go up. Face this What kind of situation should we solve?
 
The actual effective use of axial piston pump engineering machinery is only 5% to 7%. There are many factors affecting the efficiency of the axial piston pump system, mainly the energy loss generated by the operation of hydraulic components.
 
Extensive research has been carried out around improving the efficiency of hydraulic components, reducing the throttling losses of piping and liquid valves, optimizing system design and matching, and using measures to improve the efficiency of axial piston pump systems. For example, in the construction machinery, the throttle valve, directional control valve and balancing valve that cause pressure loss in the hydrostatic drive circuit are ideal, but it is an ideal energy-saving system, but only for the closed circuit of the hydraulic motor. System; in open circuit, constant power control variable pump; load sensing technology and proportional control pump; hydraulic source split-flow technology; pressure control technology; energy recovery technology; secondary regulation technology; electronic matching energy-saving technology, etc. .
 
Through the above methods, we can effectively improve the working efficiency of the axial piston pump, but the efficiency of the axial piston pump has not reached the limit, we can continue to research and develop in the future.