SU1005729A1 - Pressure controller for closed irrigation system - Google Patents

Abstract

PRESSURE REGULATOR FOR CLOSED IRRIGATING SYSTEMS, including a housing with inlet and outlet connections, a shut-off valve with a diaphragm actuator and sensor, drain and control diaphragm valves, characterized in that, in order to improve the hydrodynamic parameters of control, the drain valve and control membranes made differential, mounted on a common rod ri placed in a housing made from the side of the supermembrane cavity of the control valve with an internal annular ledge, forming two cavities with it, one One of them is hydraulically connected to the sensor, and the other is connected to the outlet pipe connected through the diaphragm of the drain valve, above the atmosphere. L ate with

Description

The invention relates to the irrigation of crops and can be used for irrigation with closed self-pressure irrigation systems with hydraulic machines.

Known pressure regulator for closed irrigation systems, including a housing with inlet and outlet pipes, a regulating body with a membrane actuator and an adjustable spring SI.

The disadvantage of this regulator is that the unit is controlled by pressure in the pipeline to itself, as a result of which the accuracy of regulation is reduced.

A pressure regulator is also known for closed irrigation systems. "* Topics, including a housing with inlet and outlet pipes, a shut-off element with a membrane actuator, and a sensor, a drain and a control diaphragm valve f2).

A disadvantage of the known controller is the low hydrodynamic control parameters, due to the disconnected 25-bone adjustment of the control elements /.

The aim of the invention is to improve the hydrodynamic control parameters.

This goal is achieved by the fact that the drain and control diaphragm valves are made differential, fixed on a common shock and placed in a housing made on the side of the supmembrane cavity of the control valve with an internal annular protrusion, forming two cavities with it, one of which is hydraulically connected to the sensor and the other with a discharge pipe connected to the atmosphere through the supra-membrane cavity of the drain valve. '

The drawing shows a diagram of a pressure regulator for closed irrigation systems.

The pressure regulator for closed irrigation systems consists of a housing 1 with inlet 2 and outlet 3 nozzles, a shut-off element 4 with a spring-loaded membrane 5, an orifice 6, a filter 7, a sensor 8, a differential control valve 9 with a membrane 10 and a differential drain valve 11 and a differential pan 11 with a membrane with a membrane 12, drain valve 12. Membranes

I and 12 are connected by a common rod 13, on which the spring is mounted 14. The spring is adjusted by the nut 15.

The casing 16 of the valves 9 and 11 from the side of the supramembrane cavity of the control valve 9 is made with an inner annular protrusion 17, forming two cavities 18 and 19. The cavity 18 is hydraulically connected by a tube 20 to the sensor 8, and the cavity is connected through a tube 21 to the inlet pipe 2, connected through the tube 22 and the supramembrane cavity of the drain valve 11 with the atmosphere.

The pressure regulator for closed irrigation systems operates as follows.

Water from the self-pressure irrigation network enters the inlet pipe 2 of the pressure regulator body. Since the sensor cavity at the initial moment is disconnected by the membrane 10 of the control valve 9 with the outlet pipe, the shut-off element 4 is closed. In front of the shut-off element, the pressure increases, which is transmitted through the throttle 6, the sensor 8 and the tube 20 to the membrane 10. With a pressure set by the spring 14, the rod 13 with the membranes 10 and 12 will move to the extreme right position. When eFom membrane 12 will disconnect the outlet pipe with the atmosphere, and through the control valve 9 and the tube.

and 21, the sensor will be connected to the outlet pipe 3. The pressure in the supra-membranous cavity of the regulator drops due to the outflow of water into the discharge pipe, the shut-off element 4 opens and passes water into the discharge pipe 3.

When the pressure decreases in front of the regulator, the spring 14 transfers the stem 13 with the membranes 10 and 12 to its initial position, the membrane 10 disconnects the tubes 20 and 21, the outflow of water from the supranembrane cavity of the regulator stops and the shut-off element 4 closes, and the open drain valve 11 provides a pressure drop for knob to 0.

Further, in front of the inlet pipe, the pressure rises and the process of operation of the pressure regulator by pass' and the formation of control commands is repeated.

Claims (1)

REGULATOR DIRECT IRRIGATION housing with inlet and outlet pipes, a shut-off element with a diaphragm actuator and a sensor, drain and control diaphragm valves, characterized in that, in order to improve the hydrodynamic control parameters, the drain and control diaphragm valves are made differential, mounted on a common rod and placed into the housing, made from the side of the supmembrane cavity of the control valve with an internal annular protrusion, forming two cavities with it, one of which is hydraulically connected to the sensor, and the other - with a discharge pipe connected through the supra-membrane cavity of the drain valve with the atmosphere. sl m y ss