SU1175401A1 - Arrangement for controlling the pressure in the head irrigation system - Google Patents

Abstract

A pressure control device in a pressure network, containing a series of control units for pumping units, a pressure pulse generator and a transport pipeline with a pressure sensor installed on it with a comparison unit connected to a pressure pulse generator, characterized in that, in order to improve the operation of the pressure pulse generator, with the aim of improving operational efficiency, it is necessary to increase the operational efficiency of the pressure pulse generator, which is connected to the pressure pulse generator, which is connected to the pressure pulse generator, which is designed to increase the efficiency of operation of the pressure pulse, which is connected to the pressure pulse generator, which is connected to the pressure pulse generator, which is designed to increase the efficiency of operation of the pressure pulse, which is connected to the pressure pulse setting device, which is connected to the pressure pulse setting device, which is designed to improve the efficiency of operation of the pressure impulse unit, which is connected to the pressure pulse setting unit, which is connected to the pressure pulse setting device, which is connected to the pressure pulse setting unit, which is connected to the pressure pulse setting unit, in order to improve the operational efficiency of the pressure impulse unit connected to the pressure impulse generator, with the purpose of improving the operability reliability and efficiency of the irrigation network, the pressure pulse adjuster is made in the form of air valves installed on the suction lines of pumping units, and A single trigger is connected to the comparator unit, and a trigger is connected to the last installation input, the embedding input of which is connected to the output of the additionally introduced matching circuit, which is connected by inputs to the control unit of the pump units and the comparator unit. SL O1 4

Description

The invention relates to agriculture and can be used for remote control of sprinklers and installations.

The purpose of the invention is to increase the control efficiency, reliability and efficiency of the irrigation network by shortening time to create command control pulses, saving irrigation water and eliminating the need for pressure and drain valve manipulations at the pumping station to create command pressure pulses.

FIG. 1 shows a block diagram of a pressure control device for irrigation units in a pressure irrigation network.

The device comprises a pump unit control unit 1, a conveyor pipe 3, a pressure sensor 4, an air valve unit 5, trigger b, a coincidence circuit 7, a delay unit 8, a comparison block 9.

The device works in the following way.

The command pulses for controlling the operation of the sprinkler machines in the form of pressure drops in the irrigation network are created by supplying air to the suction piping of the pumps with the help of air valves. With this regulation, the flow and pump head are in the following ratio:

(f)

where m / s and He m - consumption and pump head when working with a natural characteristic (without air leaks);

RF and NF-actual flow rate and pump head for air supply.

The amount of air supplied to the pump is equal to

Qe Qe-RFF mode of operation of the pump to the pressure network is determined by the intersection point of the flowrate Q f (H) characteristics of the pressure network and the natural (Q-H) characteristics of the pump. The formation of a command pulse, the pressure starts at the signal at the output of the control unit 1 associated with

0 with the second input of circuit 7, coincidence. With a nominal pressure in the network, this signal is fed to the setup input of the trigger 6, the latter being set to “1. The air valve unit 5, connected to the output of the trigger 6, starts supplying air to the suction piping of the pumps 2. (Q-H) the pump characteristic changes and a new operating point is formed, i.e. pressure drop is created.

After reducing the pressure to a predetermined

The level of the comparison unit 9 outputs to the input of the delay unit 8 a signal which, after a delay time corresponding to the given one, is fed to the obnuyushchy input of the trigger 6, sets it to "O, as a result of which the block 5 of air valves stops the air supply to the pumps.

Possible parallel operation of two or more pumps, while the pressure drop in the pipeline is determined by the intersection of the total characteristic (Q-H) of the pump with the flow characteristic of the network.

The economic effect of the implementation of the invention is achieved by eliminating the throttling and the associated loss of time and water, as well as reducing the failure rate of the pressure and drain valves and the cost of repairing them for an irrigation network of 15 sprinklers about 2000 rubles per year.

Claims (1)

A PRESSURE CONTROL DEVICE IN A HEADER IRRIGATION NETWORK, comprising serially connected control unit for pumping units, a pressure pulse adjuster and a transport pipeline with a pressure sensor installed thereon with a comparison unit connected to a pressure pulse adjuster, characterized in that, in order to increase the control operability, reliability and efficiency of the irrigation network, the pressure pulse generator is made in the form of air valves installed on the suction lines of pumping units, and the connection a comparison unit through a delay unit and connected to the latter input mounting trigger zeroing input of which is connected to the output of the coincidence circuit is further inputted, is connected to the control inputs of pump units and comparing the block of