RU2241888C1 - Valve - Google Patents

Abstract

FIELD: valving.

SUBSTANCE: valve has housing provided with the flange for connecting with a pipeline, flat lid, and wedge. The housing is provided with a vapor jacket which has flanges for connecting with the vapor duct. The valve is provided with a movable shields. The shields move along the horizontal guides. The wedge is made of two disks.

EFFECT: enhanced reliability.

1 cl, 2 dwg

Description

The invention relates to pipeline valves and can be used in the gas, oil and chemical industries.

Known wedge gate valve with a sliding hearth produced by OJSC “Kurgan Pipe Fittings Plant” (Armature-2000, nomenclature directory for pipe fittings manufactured in the CIS, MosTsKBA OJSC, 1999, 658 pp., Compiled by P.A. Zhunev, Yu.D. Kokin). It is designed to completely block the flow in the pipelines of a petrochemical enterprise. The working cavity of the valve, into which the medium transported under pressure is supplied, is formed by the body and the top cover. On the body, which is a solid cast construction, there are two flanges for connecting to the pipeline. Inside the body there are two annular saddles and a bolt-wedge. In the closed position, the sealing surfaces of the shutter are pressed against the working surface of the housing rings.

In the upper part of the wedge there is a running nut into which a spindle-rod is screwed, rigidly connected to the flywheel. Using the screw-nut system, the rotation of the flywheel when opening and closing the valve is converted into translational movement of the wedge. However, an integral wedge and the absence of a steam jacket make it difficult to use this valve on liquid sulfur pipelines having a crystallization temperature of 130 ° C.

A valve is also known (RF Patent No. 2105917, class F 16 K 27/10, 1998) for use in pipelines with chemically aggressive liquids.

The valve comprises a housing, inlet and outlet flanges, rings welded to the housing and flanges, seats made in the form of bushings, a gate-gate, disk springs, a spindle and a discharge valve.

The valve operates as follows. In the open position, the working fluid passes through the inlet flange, the ring, the seat located in it, the hole in the gate-gate and exits through a similar saddle-ring and the outlet flange. When the flywheel rotates, the spindle and the gate connected with it move forward, while the hole in the gate moves relative to the holes in the saddles and overlaps them. The tightness of the gate-saddle pair is ensured by pressing the sealing surfaces of the saddles to the gate by the force from the action of the differential pressure on the unloaded area of the saddle and the force of the Belleville spring.

The disadvantage of this valve is also its unsuitability for pipelines through which crystallizing liquids are distilled.

Closest to the technical nature of the invention is the valve according to DE 2832505 A 1, F 16 K 49/00, 02/07/1980. Known valve comprises a housing with flanges for connecting to the pipeline, a flat cover and a wedge. The housing is also equipped with a steam jacket with flanges for connection to the steam line.

Inside the casing there are two annular saddles to which the sealing surfaces of the wedge are pressed in the closed position. The stem is connected to the wedge and, through the screw-nut system, converts the rotational movement of the flywheel when opening and closing the valve to the translational movement of the wedge.

The known technical solution is suitable for use in pipelines with solidifying liquids, however, it has large heat losses during their transportation and short life.

The objective of the invention is to increase the reliable operation of pipelines and reduce heat loss during transportation of solidifying or crystallizing liquids.

The technical result of the invention is achieved by the fact that in the valve comprising a housing with flanges for connecting to the pipeline, a flat cover and a wedge, the housing being equipped with a steam jacket with flanges for connecting to the steam pipeline, there are movable screens moving along horizontal guides, and the wedge is made of two drives.

For ease of operation, the steam line centerline is located above the centerline of the pipe.

The invention is illustrated by drawings, where figure 1 schematically shows a valve with a partial cut; figure 2 is a section aa in figure 1, showing the valve (top view) with movable screens and a guide pipe.

The valve (figure 1) consists of a welded body 1 with two flanges 2 for connection with the pipeline. The valve body is equipped with a steam jacket 3 with two flanges 4 for connection to the steam line. The flat cover 5 and the housing 1 form a working cavity into which liquid sulfur transported under pressure is supplied. Inside the body there are two annular saddles 6 and a wedge 7 made of two disks. In the closed position, the sealing surfaces of the shutter are pressed against the working surfaces of the seats, the upper parts of the disks of the wedge 7 are fixed on the spindle-rod 8, which is rigidly connected to the flywheel 9. Using the rod-power nut system 10, the rotation of the flywheel 9 is converted into translational movement of the wedge 7.

The valve (figure 2) is equipped with movable screens 11 that move along the horizontal guides 12 and regulate the temperature of the medium in the cavity of the valve. As the horizontal guides 12 can serve as the inlet and outlet pipe of the steam line.

The axial line of the steam line is located above the axial line of the working pipeline, which increases the convenience of servicing the valve.

The valve operates as follows. Liquid sulfur moves through the pipeline through the working cavity of the valve at a pressure of 2-5 kgf / cm ² . To ensure the maintenance of its temperature in the range of 160-180 ° C, the pipe and steam pipe are made “pipe in pipe”. However, it requires heating of the valves. In order to avoid crystallization of liquid sulfur, steam is supplied to the steam jacket 3 at a pressure of 0.4-0.8 MPa at a temperature of 160-180 ° C. A double-disk wedge that seals the valve only in the final stage of closing the valve experiences less resistance in liquid sulfur than a single wedge. The stem and power nut are made taking into account the harsh operating conditions in an aggressive high-temperature environment.

Thus, for example, in the process of processing gas with a high content of hydrogen sulfide and in the production of marketable sulfur, the proposed valve will eliminate the difficulties encountered during the transportation of liquid sulfur and ensure trouble-free operation of the production line.

Claims (2)

1. A valve comprising a housing with flanges for connecting to the pipeline, a flat cover and a wedge, the housing being equipped with a steam jacket with flanges for connecting to the steam pipe, characterized in that it is equipped with movable screens moving along horizontal guides, and the wedge is made of two disks . 2. The valve according to claim 1, characterized in that the axial line of the steam line is located above the axial line of the pipeline.

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