SU1712718A1 - Device for pipeline shutting off - Google Patents

Abstract

The invention relates to hydraulic and pneumatic equipment and can be used in pipelines for supplying gases and liquids under pressure. The purpose of the invention is to increase reliability. The invention will improve the reliability of the automatic blocking of the pipeline through passage in the event of violation of its tightness. The device is equipped with a sealed chamber 19 communicated with the rod cavity of the pneumatic cylinder 13 and with the low pressure cavity of the housing 1 through a check valve 21. And the sub-piston cavity of the pneumatic cylinder 13 communicates with the high pressure cavity of the housing 1. 2 Il cpedci ^^^^ ^ / J ^ /? 1917FIG. VI00 > &

Description

The invention relates to hydraulic and pneumatic equipment and can be used in pipelines for supplying gases and liquids under pressure.

The aim of the invention is to increase reliability by accumulating the pressure of the medium, which actuates the valve in the event of pressure drop in the pipeline.

FIG. 1 shows a device for blocking a pipeline (gate valve in the open position), general view; in fig. 2 - the same, the gate valve in the closed position.

The device for blocking the pipeline contains a cylindrical body 1 with flanges 2 and 3, in the internal cavity of the body 1 a gate valve 4 is placed, freely secured by means of a central shank 5 on the axis 6 with axles 7 sealed by a seal 8. Inside the body 1 there is an annular stop 9 with a gasket ten,

The pivot axis 6 is kinematically connected by means of a pull rod 11 and a hinge 12 with a pneumatic cylinder 13, including a pneumatic piston 14 with a rod 15.

The working piston cavity of the pneumatic cylinder 13 by the pipe 16 is permanently connected with the internal cavity of the closed pipeline 17.

The rod cavity of the pneumatic cylinder is permanently communicated via pipe 1B to the cavity of the hermetic chamber 19, which in turn by pipe 20 is continuously communicated through the non-return valve 21 with spring 22 to the cavity of pipeline 17.

The end of the pivot axis 6 is equipped to rotate it with a handle 23. The wall of the pipeline 17 is provided with a hole 24 for communicating the pipeline with the hermetic chamber 19.

The device works as follows.

The cavity of the pipeline 17 through the spring-loaded non-return valve 21 and the pipe 20 communicates with the hermetic chamber 19, which is also continuously connected with the rod 18 of the pneumatic cylinder 13 through the pipe 18. The piston cavity of the pneumatic cylinder 13 is constantly communicated through the pipe 16 also with the cavity of the pipeline 17 to be closed.

Consequently, both working cavities of the pneumatic cylinder 13 are under the same pressure and the piston 14 with the rod is in a state of rest, while the gate valve 4 is in the open position, and the medium without interference flows through the pipeline in the direction indicated by the arrow.

When a leak in the pipe 17 in it begins to decline

the pressure, while the check valve 21 is closed and in the hermetic chamber 19 there remains a pressure that was before the leakage in the pipeline, i.e. more than in the pipeline 17. It is more

the pressure will be in the rod end of the pneumatic cylinder 13, and the piston 14 moves towards a lower pressure, under which the Sub piston cavity is permanently connected to the cavity of the pipeline

17, where the pressure has decreased due to leakage.

The piston 14 through the rod 15, the hinge 12, t gu 11 turns the axis 6 with a movable gate valve mounted on it

4 by 90 °, and, having received the freedom of axial movement, under the action of the residual pressure in the pipe 17, it adjoins the saddle 9 with a seal 10.

So there is an automatic overlap of the flow area of the pipeline 17 in violation of its tightness.

After reaching tightness in the pipeline by turning the handle 23, the axis 7 together with the gate valve 4 opens

flow area of the pipeline 17.

Claims (1)

Invention Formula A device for shutting off the pipeline, comprising a cylindrical body with high and low pressure cavities, a disc shut-off element and kinematically associated manual and pneumatic actuators, the latter of which is made in A pneumatic cylinder with piston and rod cavities, characterized in that, in order to increase reliability, it is equipped with a sealed chamber and a check valve, while the sealed chamber communicates with the rod rod of the pneumatic cylinder and the low pressure cavity of the housing through a non-return valve, and the piston chamber of the pneumatic cylinder communicated with the high pressure cavity of the housing. 2