RU76474U1 - GAS VALVE - Google Patents

Abstract

The utility model relates to pneumohydraulic shutoff valves, in particular to shut-off and shut-off valves for oil and gas pipelines through which gases are pumped under pressure. The technical result consists in increasing the functional reliability of the device and the convenience of its operation. The damper comprises a housing 1, a hole 2, a cover 3 with a seal 4, a shaft 5, an eccentric 6, a hinge 7, an eye 8, an axis 9, a spring 10, a screw 11, a shaft seal 12, a tightening nut 13, an eccentric travel stop 14, a front wall 15 buildings. 1 silt

Description

The utility model relates to pneumohydraulic shutoff valves, in particular to shut-off and shut-off valves for oil and gas pipelines through which gases are pumped under pressure.

Known gas damper (Spare parts catalog AGZU "Sputnik", ed. OZNA "Automation", Bashkortostan, Oktyabrsky, 2000, p.23), containing a housing with a shaft installed in it with an eccentric that interacts with the cover that covers housing hole.

In the known device, the lid when opening and closing the opening of the housing moves along four guides, which often leads to distortions and jamming during movement of the lid and the corresponding emergency situations. The increased accident rate is also affected by the lack of power reserve of the shaft with the eccentric in the closed and open position. Since the shaft has two open ends, the rubber rings at the ends of the shaft used as seals do not provide sufficient reliability. Leaks are created, the shaft bends in the place of leaks under the thread of the ring, which reduces the reliability of the device. In addition, to replace the seals requires disassembly of the entire device, which reduces its maintainability and, ultimately, the reliability of the device.

Closest to the proposed device is a gas damper (patent No. 26855, CL. G05D 7/00, publ. 2002 g), comprising a housing with a shaft installed therein with an eccentric that interacts with the cover that covers the opening of the housing, the cover clip is made in the form of a hinge interacting with a spring-loaded eye mounted on an axis parallel to the axis of the shaft.

The known device requires more frequent replacement of gaskets - paronite in the pipeline due to the small area of support of the valve and gaskets in the cover of the valve due to the low resistance to aggressive environments.

The objective of this utility model is to develop a device devoid of these disadvantages.

The technical result consists in increasing the functional reliability of the device and the convenience of its operation.

The result is achieved in that in the gas shutter, comprising a housing with a shaft mounted therein with an eccentric interacting with the cover covering the housing opening, the cover clip is made in the form of a hinge interacting with a spring-loaded eye mounted on an axis parallel to the shaft axis, the front wall of the housing made of a smaller internal diameter, and the seal of the cover is made of rubber resistant to aggressive media with fluorine inclusions.

The design of the valve is shown in the drawing, where the housing 1, hole 2, cover 3 with seal 4, shaft 5, cam 6, hinge 7, eye 8, axis 9, spring 10, screw 11, shaft seal 12 (gland), tightening nut are indicated 13, cam stroke limiter 14, front wall 15 of the housing.

The device operates as follows.

To control the damper, a float system is used (see, for example, patent No. 2032885, publ. 1995). When the liquid level in the tank decreases, the float drops (not shown in the drawing) and rotates the shaft 5, the supporting end of which is hermetically mounted in the housing 1. When the shaft 5 is rotated, the eccentric 6 and the cover 3 interact, as a result of which the cover rises and the seal 4 releases the hole 2. There is a gas bleed through the valve. At the same time, liquid enters the tank and fills it. After reaching a certain liquid level, the float rises and the shaft 5 returns to its original position. As a result of this, the eccentric 6 does not interfere with the lowering of the cover 3, which fits snugly against the housing 1 with the seal 4, blocking the opening 2 since the force, as a result of which the lid 3 is closed, is applied to the center of the lid 3 through the hinge 7. The hinge 7 acts through the lever formed by the eye 8 and the axis 9, the spring 10, the action force of which is regulated

screw 11. The seal 12 of the shaft 5 is tightened with a nut 13. This allows you to adjust the degree of protection of the shaft from the external environment. In addition, since the second end of the shaft is mounted in the housing and does not interact with the external environment, changing the shaft seal turns into a simple operation of replacing the stuffing box 12 and tightening it with the nut 13 without dismantling the shutter.

The use of a shutter makes sense only when the gas medium flows only through hole 2. If there are leaks external to the shutter, then it is impossible to ensure the operation of the shutter. Since in the present utility model the upper diameter of the cone of the body is smaller than in the prototype, the wall 15 of the body has a large area of interaction with the pipeline seal - paronite and its wear is significantly reduced, i.e. increases the operating time of the damper between repairs - replacement of the damper. In addition, the use of gasket 4 from a material that is more resistant to aggressive environments, will also increase the normal life of the valve.

The design provides a power reserve of the eccentric 6 with the shaft 5 both in the open and in the closed position. This avoids the bending of the rod associated with the shaft 5 and its skew.

The limiter 14 prevents the rotation of the shaft 5. At the end of the shaft 5 a notch is made to indicate the angle of installation of the lever with the thrust and the state of the damper, which allows you to accurately set and monitor the status of the damper.

Thus, the utility model provides a more reliable interaction of the damper with paronite of the pipeline, as well as a more reliable and long-lasting contact of the seal of the cover with the opening of the housing in the closed state. The whole combination of these properties provides functional reliability and ease of use of the device, due to the longer normal operation of the damper between repairs.

Claims (1)

A gas damper comprising a housing with a shaft installed therein with an eccentric cooperating with a cover covering the housing opening, the cover clip is made in the form of a hinge interacting with a spring-loaded eye mounted on an axis parallel to the shaft axis, characterized in that the front of the housing is made smaller inner diameter, and the seal of the cover is made of rubber resistant to aggressive media with fluorine inclusions.