RU166610U1 - SHUT-OFF VALVE - Google Patents

Abstract

The shut-off valve, comprising a housing with a cover, a saddle, channels for entering and exiting the conductive medium are formed in the housing, and a first movable spring-loaded locking element is located that separates the housing cavity into a control chamber configured to connect to the control system and a chamber associated with the atmosphere, a control channel for supplying a control medium is formed in the lid, in which a second movable spring-loaded locking element is located kinematically connected with a mechanical drive.

Description

This utility model relates to techniques for transporting gas or liquid and can be used to automatically shut off pipelines, for example, in fire fighting systems.

Known shut-off device (patent for invention RU No. 2292508, IPC F16K17 / 04, published on January 27, 2007), consisting of an actuator in the form of a housing and a movable sleeve with a saddle made in the middle of the housing in the form of a spring-loaded piston dividing the cavity of the housing into control and atmosphere-related cameras. The control chamber of the actuator is connected to the hydraulic control system. The specified device opens when the pressure in the control chamber increases and closes when the pressure in it decreases.

However, the known device has a significant drawback, which is limited functionality, since it does not ensure the preservation of the final (open) position of the valve when the pressure changes (decreases).

The objective of this utility model is to create a new shut-off valve with the following technical result: increasing functionality by providing the ability to maintain the final position of the valve when the pressure changes.

The problem is solved due to the shut-off valve, which contains a housing with a cover, a saddle, channels for entry and exit of the conducted medium are formed in the housing, and the first movable spring-loaded main locking element is located, dividing the housing cavity into a control chamber configured to connect to the control system, and a chamber associated with the atmosphere, in the cover there is a channel for supplying a control medium in which a second spring-loaded locking element is located kinematically connected with a mechanical drive.

Thus, the claimed technical solution with its entire set of essential features allows to increase functionality by providing the ability to maintain the final position of the valve when the pressure changes, due to the presence of a second locking element located on the supply path of the control medium and interacting with a mechanical drive that allows you to manually open the second locking element for the possibility of dumping control pressure. So, for example, in fire extinguishing systems that use a mixture of air and water to extinguish, the inventive device allows to exclude air supply while lowering the water pressure, which, in turn, significantly increases the reliability and safety of the entire system.

The essence of the claimed utility model and the possibility of its practical implementation is illustrated by the description and drawings below.

In FIG. 1 shows a shut-off valve (front view in section).

In FIG. 2 shows a shut-off valve (side view in section).

In FIG. 3 shows a shut-off valve (top view).

The shut-off valve (Fig. 1-3) contains a housing 1 with a cover 2. In the housing 1, a seat 3 is formed, a channel 4 for the input of the conductive medium and a channel 5 for the output of the conductive medium.

In the housing 1 there is a first movable locking element 6 with a spring 7, provided with seals 8 and 9 and dividing the cavity of the housing 1 into a control chamber 10 configured to connect to a control system (not shown) of a control, for example hydraulic, and a chamber 11 connected with the atmosphere. The locking element 6 is located in the sleeve 12, mounted in the housing 1 by means of locking screws 13 and provided with a seal 14.

A channel 15 for supplying a control medium is formed in the lid 2, in which a second locking element 16 with a spring 17 kinematically connected to the mechanical drive is located coaxially with the first locking element 6. The cover 2 is provided with a seal 18 and is attached to the housing 1, for example, using screw connections, each of which contains a nut 19, a stud 20 and a washer 21.

The mechanical drive includes a control screw 22 and a sealing ring 23 and is attached to the cover 2 in its upper part, for example, using an additional cover 24 and screws 25.

The housing 1 has a pointer 26 (Fig. 2), attached to the housing 1 by means of a strap 27 and screws 28, kinematically connected with the first locking element 6. The pointer is designed to visualize the position of the first locking element 6.

As a control medium, a hydraulic or air medium may be used.

The inventive shut-off valve operates as follows.

The initial position of the first locking element 6 is open, and the second locking element 16 is closed. When pressure is supplied to the control chamber 10 through the channel 15 for supplying the control medium to a predetermined set value, the first shut-off element 6 closes, while the second shut-off element 16 does not interfere with the supply of pressure to the control chamber 10 (opens). With a further increase in pressure in the control medium supply channel 15, the second locking element 16 also does not prevent the pressure in the control chamber 10 from increasing. When the pressure in the control medium supply channel 15 decreases, the second locking element 16 closes and remains in the closed position. In this case, the first locking element 6 also remains in the closed position.

In order to ensure that the first locking element 6 is installed in the initial position (open), the control screw 22 of the mechanical drive is rotated, opening the second locking element 16 and providing pressure relief in the control chamber 10 and opening the first locking element 6. To transfer the valve to the initial position ( the first locking element 6 is open, and the second locking element 16 is closed) it is necessary to turn the control screw 22 in the opposite direction, while closing the second locking element 16.

So, for example, in a fire extinguishing system, this valve provides air cut-off when the water pressure is reduced and the valve is restored to its original state by a mechanical actuator.

Claims (1)

The shut-off valve, comprising a housing with a cover, a saddle, channels for entering and exiting the conductive medium are formed in the housing, and a first movable spring-loaded locking element is located that separates the housing cavity into a control chamber configured to connect to the control system and a camera associated with the atmosphere, a control channel for supplying a control medium is formed in the lid, in which a second movable spring-loaded locking element is located kinematically connected with a mechanical drive.

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