SU1015346A1 - System for automatic control of pump unit in water supply systems - Google Patents

Abstract

AUTOMATIC CONTROL SYSTEM OF PUMPING UNIT W IN WATER SUPPLIES, containing a pressure tank. connected through a pressure pipe with a pumping unit connected to the control unit, and a container with contact sensors arranged therein electrically connected to the control unit, is required so that, in order to increase reliability, it contains a pressure head spool valve, one of the inputs of which is connected to a pressure pipe, and the other two are connected to a container made in the form of two chambers, each of which is connected to the outputs of a pressure head hydraulic spool valve. in one of the chambers placed pin incorporating a sensor, a to another - contact sensor turn off the pump unit.

Description

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-4ID The invention relates to an agricultural water supply and is intended for automatic control of water supply in pressurized hydrogen systems. A known control system for a pump unit on a water level difference in a pressure tank, comprising a float or contact level sensor, connected to a control station by a pump unit via a low-voltage air or cable line fl. 3 The disadvantage of this system is that the level sensor and the station control of the pump unit is carried out via a low-voltage overhead line or cable line. Closest to the proposed technical entity is a pump unit control system for pressure in a pressure pipeline, where the pump unit is turned on and off depending on the pressure corresponding to the lower and upper water levels in the pressure tank 21. However, the known control system Neither pump unit is characterized by insufficient reliability. operation, especially with hydraulic shocks in the pipeline. The purpose of the invention is to increase the reliability of the automatic control system of the pump unit in the water wires. This goal is achieved by the fact that the automatic control system of the pumping unit in the water mains contains a pressure hydraulic spool valve, one of the inputs of which is connected to the pressure pipeline, and two to the tank, made in the form of two chambers, each of which is connected to the outputs of the hydraulic spool valve, and in one of the chambers placed contact sensor switch, and the other contact switch switch pump unit. FIG. 1 shows a diagram of an automatic control system of a pump unit; in fig. 2 is a diagram of a pressure hydraulic spool distributor. In the system, a pump unit 1 is connected to a pressure tank 2 by means of a pressure pipe 3, to which a hydraulic pressurized spool valve 4 is connected. The latter is connected with a tube consisting of chambers 9 and 10, inside which are placed contact sensors 11 and 12 are electrically connected to control unit 13. The hydraulic pressure spool valve 4 / chambers 9 and 10 with sensors 11 and 12 and the control unit 13 are installed inside the building of the pumping station. Pressure hydraulic spool distributor. The body consists of a body 14, inside which a spring 15, a bypass tube 16 and waste pipes 17-19 are placed. The spool 20, having annular grooves 21 and 22, is movably located inside the housing 14, which is provided with annular stops 23 and 24. The pump unit 1 supplies water via a pressure pipe 3 to the pressure tank 2 of the water supply system. When the pressure tank 2 is filled to a predetermined upper level, the off pressure is established in the pressure pipe 3. The cavity of the body 14 of the hydraulic spool valve communicates with the pressure pipe 3, therefore when the last switching-off pressure is established, the spool 20 moves to the right up to the stop 24, compressing the spring 15. At the same time, water from the pressure pipeline goes through chamber 5 to the chamber 9. With filling Last up to a predetermined upper level, the contact of the sensor 11 is closed, a switch-off signal is generated, which is transmitted to the control unit 13. As a result, the pumping unit 1 is turned off. The water supply to the pressure tank 2 is stopped. When water enters chamber 9, the tube 8 through the annular groove 21 communicates with the waste tube 18, therefore the chamber 10 is emptied; if there is water there, with the start of the water intake from the water supply system, the pressure in the pressure pipe 3 decreases. In this case, the spool 20 under the action of the force of the spring 15 gradually moves to the left up to the stop 23, if the pressure in the pressure pipe decreases to a predetermined value. The bypass tube 16 through the flange groove 21 communicates with the tube 6, water enters the chamber 10. When the latter is filled to the predetermined upper level, the contact of the sensor 12 is closed, an enable signal is generated, which is transmitted to the control unit 13. As a result, the pump unit 1 is turned on. The water supply to the pressure tank 2 is resumed. During the period of water supply to the chamber 10, the tube 7 through the annular groove 22 communicates with the waste tube 17, therefore the chamber 9 is emptied if there is water there. As the pressure in the pressure pipe increases, the spool 20 gradually moves to the right, as

This overlaps the tubes 5, 6 and 16. A period occurs when the tubes 7 and 8 through the annular grooves 21 and 22. communicating with waste tubes 17 and 18 ,. water is discharged from chambers 9 and 10. When the off pressure is established in the discharge piping, the spool 20 moves to the right up to the stop 24. The chamber 9 is filled with water, the contact of the sensor 11 is closed and the turn-off signal of the pump unit is generated.

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No. 2 / 1B FIG. 2

Claims (1)

AUTOMATIC PUMP UNIT CONTROL SYSTEM IN WATER PIPES, containing a pressure tank connected through a pressure pipe to a pump unit connected to a control unit, and a tank with contact sensors placed * in it, electrically connected to a control unit, and connected in order to increase reliability, it contains a pressure hydraulic spool valve, one of the inlets of which is connected to a pressure pipe, and the other two to a tank made in the form of two chambers, each of which s is connected to the outputs of the pressure of the hydraulic distributor slide, and in one of the chambers placed pin incorporating a sensor and in the other - contact sensor off the pump unit. >