SU1713506A1 - Control device of rotary sprinkler inlet gate hydraulic actuator - Google Patents

Abstract

The invention relates to agriculture and can be used to automate the group work of sprinkling machines (DM) of circular action. The purpose of the invention is to increase the reliability of restarting the machine after relieving the pressure in the irrigation pipe. The control unit of the hydraulic actuator of the valve 1 at the inlet of the DM circular action contains a hydrorelay 4 with a membrane actuator connected to the hydraulic protection line 18 of the DM, a hydraulic accumulator connected to the input of the hydrorelay connected through a return valve 6 and the valve 7 to the irrigation pipe 2, and valve 9.16

Description

The invention relates to agriculture, in particular for controlling the hydraulic drive of the valves at the inputs of circular irrigation machines and can be used in the design of closed irrigation systems using these machines.

The aim of the invention is to increase the reliability of restarting machines after the pressure in the irrigation pipe has been removed.

The drawing shows a diagram of the proposed device.

The control unit of a hydraulic actuator (for example, a hydraulic cylinder) of the valve 1, installed on the irrigation pipe 2, to which the sprinkler machine 3 is connected, contains a hydraulic hose 4, the inlet of which by means of a pressure pipe 5 with a check valve 6 and valve 7 is connected to the irrigation pipe 2 before the valve 1 The control cavity of the diaphragm actuator of the hydrorelay is connected by tube 8 with a valve 9 with a dual membrane actuator and with irrigation pipe 2 before the hydraulic slide valve 1. The actuator has two membranes 10 and 11, the hard centers of which with the help of frame 12. The valve is designed as a nozzle 13 placed between the membranes. The tube 14 is connected to the irrigation pipe 2 before the hydraulic slide 1. The control cavity of the membrane 10 through the limiting valve 15 communicates with the irrigating pipe 2 after the hydraulic slide 1 (at the entrance to the pipeline sprinkler machine). In the same control cavity, a spring 16 is installed with an adjustable degree of tightening to act on the membrane 10. The control cavity of the membrane 11 is connected to the irrigation pipe 2 before the valve 1. A hydroaccumulator 17 is connected to the tube 5 after the return valve 6. The control cavity diaphragm actuator membrane 4 is connected to the hydraulic protection line 18 of the sprinkler.

The device for controlling the hydraulic actuator of the valve at the inlet of the rotary-acting pre-rotating machine operates as follows.

The pumping station is turned on and as the irrigation network is filled, the pressure in the irrigation pipe 2 increases. When the pressure in it reaches the adjustment value of the valve 9, the membrane 11 under the action of this pressure moves upward, overcoming the force of the spring 16, and the membrane 10 opens the nozzle 13 of the valve 9. Water from the irrigation pipe 2 through the valve 7 through the tube 14, through the nozzle 13 and the tube 8 enters the diaphragm chamber of the hydrorelay 4 and further into the hydraulic line 18 of the hydroprotection of the sprinkler 3. When the pressure in the control cavity of the diaphragm actuator of the hydrorelay 4 reaches the set value (6.35 MPa), the hydrorelay activates and delivers water into the lower cavity of the hydrocylin0 core valve 1, which opens smoothly, and the sprinkler 3 starts filling

When the pressure in the pipeline after the hydraulic valve 1 reaches the setting value of the restrictive valve 15, the latter opens and water under pressure enters the working chamber of the membrane 10, which causes the valve 9 to close. This eliminates the effect of valve 9 on

0 hydroprotection of the sprinkler, and in the future it works in normal mode. The valve 15 is adjusted to a pressure slightly higher than the opening pressure of the hydrorelay 4. The pressure in the hydraulic pump 5 corresponds to the pressure in the irrigation pipe 2.

When a planned or emergency shutdown of a pumping station occurs, the pressure in the irrigation network, and consequently,

0 in the irrigation pipeline, drops, the check valve 6 closes, the hydrorelay 4 automatically (in normal operation of the sprinkler) switches, which causes the hydraulic valve 1 to close for

5 by the pressure of water in the hydroaccumulator 17. This provides the condition for reliably re-starting the pumping station. The described control system for the hydraulic actuator of the valve at the sprinkler inlet

The machines provide the opportunity for joint operation of circular irrigation sprinklers with an automated pumping station and, therefore, the ability to create reliable automation, 5 irrigated irrigation systems for servicing several sprinkling machines.

Claims (1)

The invention of the control device hydraulic drive 0 valves at the inlet of the circular dozer, containing a membrane-driven hydrorelay, the control cavity of which is adapted to be connected to the hydraulic protection line of the machine, 5 wherein the outlets of the hydrorelay are connected to the cavities of the hydraulic actuator of the valve, and the inlets to the drain and to the pressure pipe for connection to the irrigation pipe to the valve, characterized in that, in order to increase the reliability of the 5 17135066 starting the machine after relieving the pressure Ei of one of the membranes of this drive, piping, a device equipped with an adjustable spring, and a solenoid check valve; installed in common with the control cavity of the membranes a pressure tube for connection with an irrigation drive hydrorele, and the centers tel pipeline, hydroaccumulus to-5 membranes of two-membrane drive rigidly rum connected to the latter by reverse communication with each other, its controlling valve, limiting valve and hollow with a spring-loaded diaphragm discharging valve with a two-membrane actuator, complete with the ability to connect to the entrance of which is made with the possibility of entering the maschine through the restrictive clade connection with the irrigation pipe-10 pan, and the control chamber with another membrane the house, and the central branch - with the possibility of overlapping the wound - to the irrigation pipeline.