RU2005941C1 - Shut-off valve - Google Patents

Abstract

FIELD: valving. SUBSTANCE: shut-off unit is made of a steel ball received in an inlet chamber, bottom made of magneto-soft material and permanent magnet which is coupled with a diaphragm and interacts with the bottom. An outlet chamber is provided with a piston with a rod which interacts with the steel ball. Under-piston space of the chamber is in communication with a space of inlet pressure and atmosphere through valves. Under-diaphragm space is in communication with a pipe line of outlet pressure. EFFECT: improved structure. 1 dwg

Description

 The invention relates to pipe fittings and can be used to automatically shut off pipelines and in gas distribution stations.

 A shut-off valve is known in the housing of which there is a fixed partition with a central passage opening and an additional locking element in the form of an axially movable step sleeve located between the partition and the outlet of the housing, the degree of the smaller diameter sleeve being movably placed in the partition opening, the body cavities divided by the partition , additionally communicated by a bypass pipe, and the outlet in the end cap is offset from the passage in the step of the sleeve.

 A valve is also known in which a bore is made in the shut-off valve body from the spring side, in which a sleeve is installed that spans the rod, a first sealed cavity is formed between the end of the sleeve and the bottom of the bore, a piston in contact with the rod is installed coaxially with the rod, and between a second sealed cavity is formed by the end face of the piston and the bottom of the adjusting nut, and channels are provided in the housing for independent communication of these cavities with a pressure source, while the cross-sectional areas th sleeve, piston and rod are equal.

 Analyzing the known designs of shut-off valves, it should be noted the obvious complexity of the designs and the main thing is that all cut-offs are contact through mechanical connection.

 The aim of the invention is to increase reliability by providing contactless interaction of the sensing element with a cutting device.

 This is achieved by the fact that the cutting device is made in the form of a steel ball placed in the inlet chamber, a bottom made of soft magnetic material and a permanent magnet connected to the membrane interacting with the bottom, and the outlet chamber is equipped with a piston with a rod interacting with the steel ball, and the piston cavity of the outlet chamber connected through valves to the inlet pressure cavity and atmosphere, and the submembrane cavity to the outlet pressure line.

 Analysis of patent, information and catalog materials for shut-off valves allows us to conclude that the invention is new.

 In addition, the design of the shut-off valve does not follow explicitly from the prior art, i.e., has an inventive step.

 The layout of the invention was tested and as a result all theoretical calculations were confirmed.

 Therefore, the proposed design of the shut-off valve has industrial applicability.

 The drawing shows a shut-off valve.

 The valve comprises a housing 1 with input 2 and output 3 cameras, a membrane sensing element with a tuning spring 5, a shut-off device in the form of a steel ball 6, a bottom 7 made of soft magnetic material and a permanent magnet 8 connected to the membrane of the sensitive element 4, and the shut-off valve in this case, it is disassembled using the example of one reduction thread with a gas pressure stabilizer 9. In addition, the outlet chamber 3 is equipped with a piston 10 with a rod 11, and the piston cavity of the outlet chamber 3 is connected through valves 12 and 13, respectively, to the inlet pressure chamber 2 and the atmosphere, and the submembrane cavity to the outlet pressure line 14.

 The device operates as follows.

Initially, the shut-off valve using the membrane sensing element 4 and the tuning spring 5 is set to a certain value of the output pressure. The gas P _in enters the inlet chamber 2. The steel ball 6 is in the upper position, drawn to the bottom 7, with which the permanent magnet 8 interacts. With a sudden increase in pressure P _o , for example, in the event of an emergency from the consumer, P _o affects the membrane sensitive element 4, which bends upward, compresses the tuning spring 5 and pulls the permanent magnet 4 from the bottom 7. The bottom 7 is demagnetized, the ball 6 detaches from the bottom 7 and falls down under its own weight, blocking the passage between chambers 3 and 2. Next, open valve 12 and close valve 13. In this case, the inlet gas does not enter the consumer, that is, _Pout = 0. The membrane sensing element 4 returns to its normal state and the permanent magnet 8 touches the bottom 7 and magnetizes it. The inlet gas through the open valve 12 enters the sub-piston cavity and under the influence of P _{in the} piston 10 starts to move up. When the piston 10 moves, the rod 11 is in contact with the ball 6 and pushes it until the ball 6 is attracted to the bottom 7. Gas at a pressure P _inlet enters the outlet. Then close valve 12 and open valve 13, through which gas from the sub-piston cavity is vented to the atmosphere. The piston 10 is lowered to its original position.

 (56) Copyright certificate of the USSR N 1555580, cl. F 16 K 17/04, 1990.

 USSR author's certificate N 1571342, cl. F 16 K 17/04, 1990.

Claims (1)

 A SHUT-OFF VALVE comprising a housing with an inlet and outlet chambers, a membrane pressure limiting pressure sensor with a setting spring and a shut-off device, characterized in that the shut-off device is made in the form of a steel ball placed in the inlet chamber, a bottom made of soft magnetic material and a permanent magnet connected to the membrane, interacting with the bottom, and the output chamber is equipped with a piston with a rod interacting with a steel ball, and the piston cavity of the output chamber is connected through veins tils with an inlet pressure cavity and atmosphere, and a submembrane cavity with an outlet pressure line.

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