RU2544911C2 - Gate valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention can be used to cut off the flows of liquid and gaseous media in pipelines. Guides 4 are located at an angle to each other. A stem 5 with a wedge 6 at its end is installed in the casing 1. The wedge 6 in the lower part has spring-loaded stops 7 installed at an angle to each other. Rings 10 to which chains 11 are attached are pulled on bars 9. The chains 11 are connected to the disks 12. When lowering, the wedge 6 presses the bosses of the disks 12 by the spring-loaded stops 7. When the disks 12 reach the casing bottom by their lower ends, the spring-loaded stops 7 are compressed into the wedge 6 inside. The spring-loaded stops 7 and the wedge 6 pass between the bosses of the disks 12. The wedge 6 presses the disks 12 to seats 3. When the wedge 6 is lifted, the rings 10 and the chains 11 are lowered along the bars 9 into the lower wide part of additional faces 8.

EFFECT: invention is aimed at the improvement of gate valve operation reliability.

6 dwg

Description

The invention relates to the oil and gas industry and can be used to block the flow of gaseous and liquid media in pipelines.

Known valve having a housing in which the guides of one disk are located at an angle to the guides of the other disk, and seats with parallel to each other sealing surfaces, a cover having a wedge-shaped at the end and spring-loaded spindles of the spindle with a running nut located at an angle to each other, a shutter consisting of discs connected by chains and a flywheel (patent RU No. 2390681, C2 F16K 3/18).

However, the chains connecting the spindle to the discs are long. Therefore, when closing the valve, they can get between the discs and seats

The technical result of the invention is to increase the reliability of the valve by reducing the length of the chains connecting the disks to the spindles.

The specified technical result is achieved by the fact that the valve has a housing in which the guides of one disk are located at an angle to the guides of the other disk, and seats with parallel sealing surfaces, a cover having a wedge at the end and spring-loaded spring stops located at an angle to each other with a running nut, a bolt consisting of discs connected by chains, and a flywheel, while the chains are dressed with rings on rods attached to additional edges of the wedge, diverging from each other from top to bottom.

Figure 1 shows the valve in the open state, a longitudinal section.

Figure 2 shows the valve in the closed state, a longitudinal section.

Figure 3 shows the valve in the closed state, top view, section.

Figure 4 shows the valve in the closed state, a cross section.

Figure 5 shows the valve in the process of moving the shutter, a longitudinal section.

Figure 6 shows the valve in the process of moving the shutter top view, section.

The valve consists of a housing 1 with two nozzles 2 for attaching the valve to the pipeline. In case 1 there are seats 3. weld-on from alloy steel. Together with the case, guides 4 are cast and then machined to fix the movement of the shutter. The guides 4 are located at an angle to each other. In the housing 1, a spindle 5 is installed, having a wedge 6 at the end. In the lower part of the wedge 6, spring-loaded stops 7 are located at an angle to each other. The wedge 6 has additional faces 8, diverging from top to bottom. The rods 9 are attached to the additional faces 8. The rings 10 are attached to the rods 9, to which the chains 11 are attached. The chains 11 are attached to the disks 12. The disks 12 represent a shutter and have protrusions in the middle part. Elastic rings 13 are inserted into the disks 12. The disks 12 are located in the guides 4. A cover 15 with a stand 16 is bolted to the housing 1 through the gasket 14. The seal at the outlet of the spindle 5 from the working cavity of the valve is provided by the diameter of the spindle 5 with the gland 17 with stuffing box seal 18, consisting of an asbestos cord impregnated with graphite. The stuffing box 17 is screwed to the cover 15. In the strut 16 there is a running nut 19. A mounting sleeve 20 is put on the running nut 19, fastened with screws to the strut 16. A flywheel 21 is put on the running nut 19. It is rigidly connected to it by means of a key. On top of flywheel 21, nut 22 is screwed onto travel nut 19.

The device operates as follows. When the valve is closed, the flywheel 21 rotates and the running nut 19 causes the spindle 5 and the wedge 6 to lower. Descending, the wedge 6 squeezes the spring tabs 7 of the tabs of the disks 12 down. The disks 12 are located in the guides 4 at an angle to each other. The farther the spring-loaded stops 7 push the disks 12 down, the more they diverge, approaching the seats 3. When the disks 12 reach their bottom ends to the bottom of the housing 1, the spring-loaded stops 7 are pressed inside the wedge 6. The spring-loaded stops 7 and the wedge 6 go between the protrusions disks 12. With further lowering of the wedge, the rings 10 with chains 11 rise along the rods 9 from the bottom of the additional faces 8 upward. The distance between the rings 10 and the disks 12 is reduced. Chains 11 sag. The disks 12 extend from the guides 4, and the wedge 6 presses them against the saddles 3. The saddles 3, compressing the elastic rings 13, go into the circular grooves of the disks 12. When the valve is opened, the flywheel 21 rotates in the opposite direction. The driving nut 19 causes the spindle 5 and the wedge 6 to rise. When raising the wedge 6, the disks 12 pressed against the saddles 3 do not move relative to them. Therefore, friction between the disks 12 and the saddles 3 does not occur. When raising the wedge 6, the rings 10 and chains 11 are lowered along the rods 9 to the lower wide part of the additional faces 8. When the rings 10 abut the lower fasteners of the rods 9, the chains 11 are pulled and attract the disks 12 to the guides 4. When the wedge 6 is further lifted, the disks 12 rise along the guides 4 and become in the initial state, completely opening the passage in the valve. Thus, the circuit 11, moving along the wedge 6, are constantly on it.

The application of the valve of the proposed design will allow to obtain the following technical and economic effect. So the valve of known design may not hermetically close the bore of the body. Therefore, its use in the pipeline can lead to excessive oil consumption. This will increase the cost of operating the pipeline. The valve of the proposed design always hermetically closes the passage section of the housing. Therefore, its use will not lead to excessive oil consumption. This will reduce the cost of operating the pipeline.

Claims (1)

A valve having a housing in which the guides of one disk are angled to the guides of the other disk, and seats with parallel sealing surfaces, a cover having a wedge at the end and spring-loaded spring-loaded stops spindle with a spindle nut, a shutter consisting from disks connected by chains, and a flywheel, characterized in that the chains are dressed with rings on rods attached to additional edges of the wedge, diverging from each other from top to bottom.

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