RU2011095C1 - Device for regulation of flow of liquid and gaseous media - Google Patents

Abstract

FIELD: pipe line fittings. SUBSTANCE: device has housing 1 with left- hand and right-hand adapters 2 and 3 with piston 4 mounted inside it. Piston 4 is provided with projection 4 which forms two chambers 5 and 6 inside housing. Piston 4 is mounted for horizontal motion in nut 7 rigidly secured in housing 1. Chambers 5 and 6 are connected with electromagnetic valves 9 and 10. Piston has hole inside it which receives immovable pipes 11 for supply of working medium. Left-hand adapter 2 is provided with cut-off device (tail-piece) 12 and passages for supply of working medium to chamber 6 and right-hand adapter 3 is provided with bevel. Seat 14 is conical in shape and is provided with hole for passage of working medium. Chambers 5 and 6 have outlet holes 15 and 16. Device operates as follows. In initial position, electromagnetic valves 9 and 10 are closed. Then electromagnetic valve 10 opens. Valve 9 is closed. Pressure in chamber 6 drops. Working medium enters chamber 6 through pipes 11. Then working medium flows to drain line through outlet hole 16. Due to difference in pressure in chambers 5 and 6, piston 4 moves to the right up the stop and supply of working medium is discontinued. EFFECT: enhanced efficiency. 1 dwg

Description

 The invention relates to pipe fittings.

 The aim of the invention is to increase the efficiency and reliability of the device, which is achieved due to the special arrangement of channels for supplying the drive piston.

 The drawing shows the device in the context, where 1 is a housing with central channels of entry and exit, equipped with left and right adapters 2 and 3, a piston with a protrusion 4 is installed inside the housing, which is a locking member that divides the internal cavity of the housing into two control chambers 5 and 6. The piston 4 is mounted with the possibility of movement in the nut 7, rigidly fixed in the housing 1. The seal 8 serves to fix the piston 4, as well as to seal the device. The control chambers 5 and 6, formed by the piston, are connected to the control valves 9 and 10, which are made electromagnetic. In the housing between the inlet channel and control chambers 5 and 6, loading channels 11 and 13 are located for supplying a working medium to control chambers 5 and 6, one of which 11 is made in the form of tubes rigidly mounted in the bore of the piston 4, and the other 12 are located in the left adapter 2, made with a cutter (shank). The right adapter 3 is made with a bevel. The saddle 14 is made conical in shape with openings for the passage of the working medium. In control chambers 5 and 6, outlet openings 15 and 16 are made.

 The device operates as follows.

 I. In the initial position, the control valves 9 and 10 are closed. The control valve 10 opens. The control valve 9 is closed. The pressure in control chamber 6 drops. The working medium through the feed channels 11 enters the control chamber 6. Through the outlet 16, the working medium enters the drainage. Due to the pressure difference in the control chambers 5 and 6, the piston 4 moves to the right until it stops. The flow of the working medium is interrupted. The length of the protrusion of the piston 4 is selected so that in the extreme position of the piston (closed) it overlaps the outlet 16 of the control chamber 6. This eliminates the impact of the piston on the seat 14 due to alignment in the control chambers 5 and 6. Due to the friction force of the seal 8, the piston can to be in the right position for the time necessary for work.

 II. The piston 4 is pressed against the seat 14. The pressure in the control chambers 5 and 6 are equal. The friction force of the seal 8 holds the piston 4 in its original position. The control valve 9 opens. The pressure in the control chamber 5 drops. The working medium enters through the feed channel 13 into the control chamber 5, and from it through the outlet 15 of the control valve 9 flows into the drainage. Since the area of the outlet 15 is larger than the area of the inlet, the pressure in the control chamber 5 drops. The piston 4 moves to the left due to the pressure difference in the control chambers 5 and 6. The piston stroke depends on the response time of the control valve 9. The piston protrusion overlaps the outlet 15 of the control chamber 5. The piston is leftmost. By balancing the pressure in the control chambers 5 and 6, the piston is prevented from hitting the adapter 2. A window is opened between the piston 4 and the seat 14. The medium moves through the hole in the saddle, through the adapter 3 to the outlet channel.

 By adjusting the diameters of the holes of the system, it is possible to increase the speed of the piston and, thus, increase the speed of the device. (56) Copyright certificate of the USSR N 769169, cl. F 16 K 31/122, 1978.

Claims (1)

 DEVICE FOR REGULATING THE FLOW OF A LIQUID AND GAS MEDIA, comprising a housing with central inlet and outlet channels, a saddle, a cavity divided by a piston connected to a shut-off element, into two control chambers connected to control valves, characterized in that, in order to increase reliability in work, in the housing between the inlet channel and the control cameras, loading channels are made, the piston is made with a hole, and one of the channels is in the form of a tube passing through the piston hole, and the control valves are electromagnetic and connected to the drainage.