SU544950A1 - Device for controlling the flow of fluid - Google Patents

Description

one

The invention relates to the field of controlling the flow rate of liquid; it is used in input systems and inhibitors of gdratoobrazovann and corrosion in a stream of natural gas in gas production facilities.

It is known a device used in automation systems for supplying an inhibitor of hydraulic formation and gas fields, including a fluid flow regulator, a local valve, controlled by a three-way solenoid valve.

The closest technical solution to the invention is a device for controlling fluid flow, comprising a housing with inlet and outlet channels, inside which a pressure differential regulator is installed, consisting of a spring-loaded membrane, connected with a plunger, whose end surfaces form a discharge and submembrane cavities, and three way solenoid valve.

The known device has the disadvantage of being complicated due to the presence in the system of three sources that perform limited functions: a fluid flow regulator, a secondary valve, a three-way solenoid valve.

The purpose of the invention is a simplified device for controlling the flow of fluid.

This is achieved due to the fact that, in the device, the submembrane cavity is connected by a channel to the input of a three-way solenoid valve, one output of which is connected to a discharge cavity, and the other output is connected to the input channel of the device.

The drawing shows a schematic diagram of the device for controlling the flow of fluid.

The device includes a housing 1 with input 2 and output 3 channels. The inlet channel 2 communicates with the annular groove 4. In the housing 1 there is fastened sleeve 5 with radial holes 6. In the sleeve there is a silt 7, having

two end surfaces 8 and 9. A membrane 10 of the membrane is connected, forming a membrane, forming two iolost: iodomembrane 11 and iadmembrane 12. The membrane 10 receives the force of the gun 13. In channel 14, connecting 11 and 12, the choke is located 15 the cavity 11 is connected by a channel 16 to the inlet 17 of the three-way solenoid claigne 18. Odia exit 19 claiaia 18 is connected with the discharge cavity 20, which forms

between the end face and the surface of the 8th plunger 7 I case 1. And the other outlet 21 and the connection to the input channel 2 devices. Inlet 17 and outlet 19 are communicated with caial 22, with de-energizing salt-clap 18.

The device works as follows

The working fluid flows through the drip 2 and the groove 4 to the radial holes 6. The position of the end surface 9 of the plunger 7 depends on the value of the inlet pressure and the flow rate that the regulator supports. As the flow rate changes, the pressure drop across the throttle 15 and on the membrane 10 connected to the plunger 7 changes. depending on the tension of the spring 13.

To remotely shut off the fluid flow, a three-way solenoid valve 18 is switched, while the discharge iolot 20 with outlets 19 and 21 is connected to the inlet channel 2 of the device. The balance of the nunger 7 is disturbed, since the input pressure thus becomes significantly higher than the pressure in the nodmembrane cavity 11. Under the action of the force acting on the end surface 8 of the nunger 7, the latter moves and re-opens the radial holes 6 of the inlet channel 2. When the three-way valve 18 turns off, the device 18 works again in the mode of stabilization of a given flow rate.

Thus, if it is necessary to remotely close the liquid supply line, the same control valve serves as a shut-off element. This worsens the device, since there is no need to use a special shut-off valve to shut off the process line. And since the transported liquid is used as a working agent, the need for a pneumatic communication system and a device for the preparation and supply of compressed air is eliminated.

Claims (1)

Invention Formula A device for controlling fluid flow, comprising a housing with inlet and outlet channels, inside which a pressure differential regulator is installed, consisting of a spring-loaded membrane connected to a plunger, whose end surfaces form a discharge and submembrane cavity, and a three-way solenoid valve, characterized in that In order to simplify the device, in it the submembrane cavity is connected by a channel to the inlet of a three-way solenoid valve, one outlet of which is connected to a discharge cavity, and the other outlet connected to the input channel of the device. iO /  i. fjiZ ..-.