RU177325U1 - Gate Valve - Google Patents

Abstract

The utility model relates to pipe fittings intended for use on pipelines, in particular to stop valves serving to shut off the flow of the working medium on the plunger assemblies. The technical result achieved by the implementation of the utility model is to expand the functionality of the valve aimed at ensuring guaranteed tightness of the shutter assembly in the two-way flow direction of the working medium due to the constant compression of the sealing surfaces of two movable seats to the sealing surfaces of the locking element. The technical design of a valve with a plane-parallel shutter allows it to be installed in any position relative to the pipeline. 1 ill.

Description

The utility model relates to pipe fittings intended for use on pipelines, in particular to stop valves serving to shut off the flow of the working medium on the plunger assemblies.

A valve with a plane-parallel valve is known from the prior art (US patent for invention No. 2011/0240156 A1, publ. 06/10/2011, IPC: F16K 1/44; F16K 25/00), in which there are two seals that can move and seal independently apart from each other. The first seal is located on the surface of the gate and moves together with the gate under the influence of environmental pressure. The second seal, which is a seal of the seat of the housing, has a forced preload, which is created by pressing the gate to the seat with the pressure of the working medium.

The disadvantages of this technical solution is that the seal is provided only in the case of the supply of the working medium on the one hand and is not provided with the flow of the medium on the other hand, that is, the direction of flow of the working medium is not bilateral. During scheduled work on pipelines, it becomes necessary to install a valve with an appropriate passage and connecting dimensions on the flange of the plunger on either side.

The technical problem to be solved by the claimed utility model is the development of a valve design with a plane-parallel valve with the possibility of its installation in any position relative to the pipeline.

The technical result achieved by the implementation of the utility model is to expand the functionality of the valve aimed at ensuring guaranteed tightness of the shutter assembly in the two-way flow direction of the working medium due to the constant compression of the sealing surfaces of two movable seats to the sealing surfaces of the locking element.

The technical problem is solved, and the specified technical result is achieved due to the fact that the valve with a plane-parallel shutter comprises a housing assembly consisting of a full bore housing and two flanges assembled together with the housing through a threaded connection; the shutter assembly, consisting of a locking element, the sealing surfaces of which are parallel to each other, two movable seats and coil springs; a spindle having a trapezoidal thread; an electric drive mounted on the rack flange with a threaded connection, while the cylindrical springs constantly tighten the sealing surfaces of the seats to the sealing surfaces of the locking element; at the same time, a threaded nut is installed in the locking element, which converts the rotational movement of the spindle into the reciprocating movement of the locking element, and a pointer located on the electric drive serves to visually control the position of the locking element; the spindle is connected at one end through a cam sleeve with an electric drive and sealed relative to the housing by cuffs, and at the other end connected to a threaded nut.

The claimed utility model is illustrated by a drawing (Fig.), Which shows a longitudinal section of a valve with a plane-parallel shutter.

The valve includes a housing assembly, a shutter assembly, a spindle and an electric actuator by means of which the valve is controlled. The actuator 1 is installed on the flange of the rack 11 and is mounted with a hairpin connection 16.

The housing assembly consists of three parts: housing 2 and two flanges 3. The housing is made full bore, which leads to a low coefficient of hydraulic resistance of the working medium in the housing assembly, which is no higher than 0.3 when the shutter assembly is fully open. In the housing 2 there are holes for installing load-lifting devices for slinging (not shown in the figure).

The housing 2 and the flanges 3, depending on the manufacturing technology, are forged, or stamped, or forged, or stamped. The housing and the flanges through the gaskets 4 are assembled together by means of a threaded joint 14. In the housing and the flanges, drainage channels are made with access to an opening in the housing with a threaded plug 10.

The shutter assembly, which provides a tight shutoff of the valve cross-section, consists of a locking element 6, two movable seats 5 and coil springs 12, which provide constant compression of the sealing surfaces of the movable seats 5 to the sealing surfaces of the locking element 6. A working medium passes through the housing assembly with the shutter assembly open (marketable oil, gasoline, diesel, kerosene). Leaks in the valve assembly correspond to the tightness class “A” according to GOST 9544-2015 in the range of operating pressures from 0 to 1.1 PN, which implies the absence of visible drops of the working medium during the test time.

The locking element 6 is a disk, the sealing surfaces of which are parallel to each other, which determines the type of device as a valve with a plane-parallel shutter. The locking element makes a reciprocating movement and provides a tight shut-off of the passage in the extreme lower position. A threaded nut 8 is installed in the locking element 6, which converts the rotational movement of the spindle 7 into the reciprocating movement of the locking element. For visual control of the position of the locking element 6 is a pointer (not shown in the figure) located on the actuator 1.

The introduction to the design of two movable seats 5, constantly pressed against the locking element 6 by means of coil springs 12, ensures guaranteed tightness of the valve assembly with a two-way flow direction of the working medium. This makes it possible to install the valve in any position relative to the pipeline, which expands its functionality.

A spindle 7 having a trapezoidal thread is connected at one end through a cam sleeve 9 with an electric drive 1 and sealed relative to the housing 2 by means of sleeves 15, and at the other end connected to a threaded nut 8. The spindle seal is maintenance-free.

The operation of a valve with a plane-parallel valve.

The rotational movement of the output shaft of the gearbox of the electric drive 1 is transmitted to the spindle 7 through the cam sleeve 9 and is converted into the translational movement of the locking element 6 by screwing the threaded nut 8 onto the trapezoidal thread of the spindle 7. The locking element 6 is raised or lowered, respectively closing or opening the valve cross-section. When the electric drive is turned on for opening, the cam sleeve 9 rotates counterclockwise and thereby rotates the spindle 7, which lifts the threaded nut 8 and the locking element 6 up with the trapezoidal thread end.

Guaranteed tightness of the shutter assembly is ensured by the tight fit of the sealing surface of the movable seat 5 to the sealing surface of the locking element 6.

In the closed position of the valve, the locking element 6 is in the lower extreme position and completely blocks the passage of the valve.

If the pressure of the fluid flow to the left of the locking element 6 exceeds the pressure to the right, then the locking element is tightly pressed against the sealing surface of the movable seat 5 to the right of the flow. The higher the pressure is the flow to the locking element, the denser it is adjacent to the movable seat 5, and the more reliably the flow is shut off. When the opposite excess pressure, the locking element 6 is tightly pressed against the movable seat on the left upstream. This provides the ability to install the valve in any position relative to the pipeline, depending on the requirements for ongoing scheduled work. At low pressure, the tightness of the shutter assembly is ensured by coil springs 12, which constantly pressurize the sealing surfaces of the movable seats 5 to the locking element. For drainage of the working medium, a plug 10 is used, which is inverted in the absence of pressure in the valve.

The inventive utility model has enhanced functionality that ensures guaranteed tightness of the shutter assembly in any direction of the working medium flow due to the constant pressing of the sealing surfaces of two movable seats to the sealing surfaces of the locking element.

Claims (1)

A valve with a plane-parallel shutter, including a housing unit, a shutter assembly with an actuator, a spindle and a locking element, the sealing surfaces of which are parallel to each other, characterized in that the housing assembly consists of a full bore housing and two flanges assembled together with the housing together with the housing assembly the coefficient of hydraulic resistance of the working medium is not higher than 0.3 when the shutter assembly is fully open, the shutter assembly contains two movable seats, coil springs, constantly digits together with the sealing surface of the movable seats to the sealing surfaces of the locking member and the spindle having one end coupled through a cam sleeve with electric and sealed relative to the housing by means of sleeves, and the other end coupled to the threaded nut that converts rotational motion of the spindle to reciprocating movement of the locking member.

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