SU564438A1 - System for controlling pump production capacity through forced pressure - Google Patents

Description

(54) SYSTEM OF REGULATION OF THE PUMP PRODUCTIVITY BY PRESSURE PRESSURE

The invention relates to systems for automatically controlling the pumping capacity of a pump and can be used in supply installations of hydraulic systems, such as machine tools.

A known system for controlling the discharge pressure of the pump, comprising a servo drive associated with the pump regulator with a follow valve and a pressure sensor with a spring loaded kinematically connected with the distributor plunger 1.

The disadvantage of this system is loss of stability with a large curvature of the control characteristic.

The aim of the invention is to increase the stability of the system.

This goal is achieved by introducing additional feedback on the derivative of the injection pressure, made in the form of a pressure sensor with a spring-loaded piston, kinematically connected with the distributor plunger and the working cavity of the sensor, communicated with the injection line through the throttle. In order to extend the range of the system, said choke is adjustable.

The drawing shows a pump pressure control system.

The system contains a variable pump 1, the regulator. 2 of which is moved by a servo drive with a following distributor, made in the form of a ram 3 with pistons 4 and 5, a spool 6 and a sleeve 7, connected by a rigid feedback 8 to a regulating body of the pump.

The spool 6 of the follower distributor is connected via a lever 9 to a pressure sensor with a spring-loaded piston 10, the working cavity of which is communicated by line 11 to the pressure line 12, and an additional sensor with a spring-loaded piston 13, the working cavity of which via an adjustable throttle 14 and line 15 is communicated with discharge line 12.

With a relatively slow change in pressure in the discharge line 12, the pistons 10 and 13 will move almost simultaneously and, consequently, the spool b stroke will be proportional to the piston 10 stroke. will be great compared to the case

a slow change in pressure by an amount proportional to the derivative of the pressure.

The displacement of the spool 6 causes the regulator body of the pump 2 to move. This movement continues until the spool 6 is in a neutral position with respect to the sleeve 7.

Choosing the arms of the lever, the area of the spring and the stiffness of the springs and changing the conductivity value of the throttles, you can shift the frequency response of the spool to any frequency range depending on the specific system parameters and thus increase the stability of the system.

The introduction of additional feedback on the derivative of pressure significantly clears the area of application of pump pressure control systems, as it ensures the stability of the system in a wide frequency range.

Claims (2)

1. A pump discharge capacity control system comprising a servo drive associated with the pump regulator with a follow valve and a pressure sensor with a spring-loaded piston kinematically connected with the valve plug, which is designed to increase stability by introducing additional feedback on the derivative of the pressure of injection, it is equipped with an additional sensor with spring-loaded aorschine, kinematically connected with the distributor plunger and the working strip The driver is communicated with the injection line through the choke. 2. The control system of claim 1, wherein, in order to expand the range of operation, said choke is made adjustable. Sources of information taken into account in the examination: 1. Patent of the GDR No. 81575, cl. 59a, 19, 1965. but