SU1167039A1 - System for controlling pump and pressure accumulation station hydraulic presses - Google Patents

Abstract

CONTROL SYSTEM OF PUMP-accumulator station hydraulic press comprising pumps oholostitelnymi valves connected to the pump accumulator with a minimum level of liquid valve and with a device controlling the liquid level of a differential pressure gauge connected to a water and air cavities battery and connected to its output with pneumatic relays that control the cooling valves of the pumps and the valve of the minimum level of the battery, characterized in that, in order to increase the reliability and by ensuring that the pumps are evenly loaded, it is provided with a throttle and a chamber with a viscous liquid that partially fills the latter, and the pneumatic relays are two-way, while the part of the chamber filled with a viscous liquid is connected through the throttle to the inputs of the pneumatic relays, part of the chamber above The fluid is connected to the output of the differential pressure gauge, and the level of viscous fluid in the chamber is located above the level of the fluid in the pneumatic relays. 0 74 7 $ 76 77 78 79 I a gp „,„ I

Description

The invention relates to the field of engineering, namely to control systems of pump and accumulator stations of presses.

The purpose of the invention is to improve the reliability of ensuring uniform pump loading.

The drawing shows a schematic diagram of the control system.

The control system contains an accumulator 1, the water in the cavity of which is connected to a liquid level monitoring device in the form of a differential pressure gauge 2. The air cavity of the accumulator 1 is also connected to a differential pressure gauge 2 through leveling vessel 3 located in the zone of the lower emergency level. A pressure source is connected to a differential pressure gauge 2 through a filter 4. The output of a differential pressure gauge is connected through a chamber 5, partially filled with a viscous fluid, and a throttle 6 with a tube 7 in which two-composite pneumatic relays, for example electrocontact pressure gauges 8-13, are connected electrically to the units 14-19. Blocks 14-17 control, respectively, cooling valves 20-23 of pumps 24-27. The unit 18 controls the minimum level valve 28, the unit 19 signals when the liquid reaches the upper emergency level in the accumulator 1. On the accumulator 1 a control tube 29 is installed with the plugs 30 located at the monitored levels of the fluid in the accumulator 1.

The control system operates as follows.

The fluid level in accumulator 1 is measured by a differential pressure gauge 2. The pressure difference, depending on the position of the fluid level in the accumulator, is converted by differential pressure gauge 2 into a signal in the form of air pressure, which enters chamber 5 and acts on a viscous fluid. The viscous fluid in chamber 5, flowing through the throttle 6, smoothes the false pressure peaks, which ensures a clear response of the contacts of the pressure gauges 8 - which are controlled by blocks 14–17 by means of cooling valves 5–23 and pumps 24–27.

When the liquid level in the battery 1 rises, the maximum contacts of the pressure gauges 8-11 are successively closed, as a result of which the electromagnets of the cooling valves are disconnected sequentially and the pressure lines of the pumps 24-27 are connected to the drain. When the liquid level in battery 1 decreases, minimum contacts of pressure gauges 8-11, electromagnets close

5 valves 20-23 are turned on, whereby pumps 24-27 are connected to a pressure line. When the liquid reaches the lower emergency level, the solenoid 28 is turned off by the command of the pressure gauge 12. I

The economic effect of implementing the invention is achieved by increasing the reliability.

Claims (1)

HYDRAULIC PRESS PUMP AND ACCUMULATOR STATION CONTROL SYSTEM, comprising pumps with cooling valves, an accumulator connected to pumps with a minimum liquid level valve and with a liquid level control device in the form of a differential pressure gauge connected to the water and air cavities of the battery and connected to its output with pneumatic control cooling valves of the pumps and the valve of the minimum battery level, characterized in that, in order to increase the reliability of PU In order to ensure uniform pump loading, it is equipped with a throttle and a chamber with a viscous liquid partially filling the latter, and pneumatic relays are made on-off, while the part of the chamber filled with viscous liquid is connected through the throttle to the pneumatic relay inputs, the part of the chamber above the viscous liquid is connected to the outlet differential pressure gauge, and the level of viscous fluid in the chamber is located above the fluid level in pneumatic relays. <o L Ί J