SU1462268A1 - Fluid flow control device - Google Patents

Abstract

The invention relates to hydraulics and can be used as a shut-off and control valves on sprinkler machines and irrigation networks. The purpose of the invention is to improve the reliability and accuracy of the device. The locking and regulating device contains a membrane actuator 1 located on the pipeline with a locking organ 2, a rod 3, a membrane 4, above the membrane cavity 5, channel 6, filter 7, throttle 8, pipeline 9, connecting channel 10, a shut-off 11 and control valves 12, 13, the valve 13 having a spring 15, an adjusting screw 16, a diaphragm 17 and a stem 18, a channel 19, a third control valve 20, the control cavities 21 and 22, the valves 20 and 12, respectively, being connected to channel 23, and their distribution cavities 29 and 30 are included in different The two sides are throttles 11. Valves 12 and 20 each contain spring 24 and 26 and an adjusting screw 25 and 27, respectively. 1 il. 2527

Description

The invention relates to hydraulic automation and can be used as shut-off and control valves on sprinkler machines and irrigation networks.

The purpose of the invention is to increase reliability and accuracy.

The drawing shows a schematic diagram of a device. YU

The device comprises a membrane actuator 1 located on the pipeline, in which a locking element 2 is located with a rod 3 rigidly connected to the membrane 4, which forms a supmembrane cavity 5 connected by a channel 6 through a filter 7 and a throttle 8 with a pipe inlet 9 and through the connecting channel 10 shut-off, second and first control valves 11-13 with the output of the Pipeline 14. The first control valve 13 consists of a task spring 15, an adjusting screw 16, a membrane. 17 and stem 18 with valve.

In parallel with the first and second control and shut-off valves, a third control valve 20 is installed using channel 19. the third control valve 20 is a spring 26 and an adjusting screw 27. In this case, the valve 12 is adjusted to the lower limit of the permissible deviation from the specified working pressure in the pipeline, and the valve 20 to the upper limit. The control cavity 28 of the first control valve 13 and the distribution cavity 29 and 30 of the second and third control valves are connected to the outlet of the pipe 14.

The device operates as follows.

When water is supplied under pressure, it enters through channel 6 through a filter 7 and a throttle 8 into the supra-membrane cavity 5. From the supra-membrane cavity, outflow of water occurs through the connecting channel 10 to the outlet of the pipe 14. At the same time, valves 11-13 are open. The locking element 2 moves up and opens the passage section of the pipeline. The device is transferred. Into the pressure regulator operating mode

After myself, when adjusting the control valve 13 with the adjusting screw 16 to a predetermined pressure.

In the process of opening the bore of the pipeline in the event of sharp pressure fluctuations - when the pressure drops to below the specified allowable limit, the control valve 12 closes. The outflow of water from the supmembrane cavity 5 is stopped. The locking body 2 is closing. Thus, an increase in pressure occurs. The control valve 12 opens, the opening process resumes, and this happens periodically, until the device enters the controller operation mode.

When closing the shut-off valve 11, which can be remotely controlled, the device operates in the shut-off valve mode. In this case, the passage section of the pipeline is blocked.

B the process of blocking the passage section of the pipeline, a sharp increase in pressure at the inlet of the pipeline 9 is possible above a predetermined allowable 30th upper limit of deviation from the working pressure. The control valve 20 is opened and through the channel 19 connects the supramembrane cavity 5 to the ’outlet of the pipe 14. There is 35 outflow of water from the suprasembrane cavity. The locking body goes to the opening, thereby reducing the pressure to itself. The control valve 20 is closed, the closing process is renewed and this happens periodically until the pipeline cross-section is completely blocked. As a result of the presence in the device of a tracking transient control system during the opening and closing of the bore of the pipeline, the occurrence of a water hammer is excluded.

Claims (1)

Claim • A shut-off and control device containing a membrane actuator installed on the pipeline, the supranembrane cavity of which is connected through the throttle to the pipeline inlet and to the pipeline outlet through successively mounted shut-off valves and a first control valve, the control cavity of which is connected to the pipeline outlet, a second control valve, which controls the cavity of which is connected to the inlet and outlet of the pipeline, characterized in that, in order to increase the reliability and accuracy of the device, W swarm control klypan mounted between the lock and the first upravlyayuschym flaps, parallel to the first and second control and third shutoff valves installed control valve, the control chamber which is connected to the inlet and the outlet conduit.