RU2744981C1 - Double seat unloaded valve - Google Patents

Abstract

FIELD: armature engineering.

SUBSTANCE: invention relates to pipeline fittings with a high class of tightness and is intended to work with flows of liquid and gaseous media, including at high pressure drops and low or elevated temperatures. The two-seat unloaded valve contains a body 1, nozzles 2, a first seat 3, a second seat 4, a shut-off element 5, longitudinal through channels 6 of pressure relief of a shut-off element 5, conditionally the first specific part 7 of a shut-off element 5, conditionally a second specific part 8 of a shut-off body 5, a spring-loaded cage 9, a sealing element 10, in a stuffing box or bellows design. The first specific part 7 of the shut-off element 5 interacts with the first seat 3. At the same time, the conditionally second specific part 8 of the shut-off element 5, through the spring-loaded separator 9, interacts with the second seat 4, creating a high class of tightness. The spring-loaded separator 9, due to the elastic deformation of the sealing element 10, during movement, within the compensation stroke, has the ability to independently self-center along the second seat 4.

EFFECT: optimized pipeline fitting design.

1 cl, 2 dwg

Description

The invention relates to pipeline fittings with a high class of tightness and is designed to work with flows of liquid and gaseous media, including at high pressure drops and low or elevated temperatures.

Known two-seat unloaded valve according to the patent for invention of the Russian Federation No. 2147092 (bull. No. 9, 03/27/2000), containing a body with nozzles, with a first seat, a second seat, a shut-off body with a conditionally first defined part and conditionally a second defined part, where at the same time, conventionally, the first specific part of the shut-off body has the ability to directly interact with the first seat and the conditionally second specific part of the shut-off body has the ability to directly interact with the second seat, to create a high class of tightness in the closed state of the two-seat unloaded valve, where longitudinal through unloading channels are made in the shut-off body along pressure.

The disadvantage of the known technical solution is the use of labor-intensive technology, coupled with increased time and cost of manufacturing a two-seat unloaded valve, due to the need for simultaneous mutual grinding of the first and second seats with the conditionally first and second definite parts of the shut-off element, for possible simultaneous, direct interaction, conditionally the first definite parts of the shut-off body with the first seat and conditionally the second specific part of the shut-off body with the second seat, in order to create a high class of tightness in the closed state of the two-seat unloaded valve.

The aim of the invention is to simplify the design of a two-seat unloaded valve, which does not require simultaneous mutual lapping of the first and second seats with the conditionally first and second specific parts of the shut-off element, for possible simultaneous, direct interaction, the conditionally first specific part of the shut-off element with the first seat and conditionally the second specific part a shut-off element with a second seat, to create a high class of tightness in a closed position of a two-seat unloaded valve.

This goal is achieved by the fact that in a two-seat unloaded valve containing a body with branch pipes, with a first seat, a second seat, a shut-off element with a conditionally defined first part and conditionally a second specific part, where at the same time, conditionally, the first specific part of the shut-off element has the possibility of direct interaction with the first seat and conditionally the second certain part of the shut-off body has the ability to directly interact with the second seat, to create a high class of tightness in the closed state of the double-seat unloaded valve, where longitudinal through pressure relief channels are made in the shut-off body, the shut-off body is conventionally the first certain part, has the ability implementation of direct interaction only with the first seat, in order to create a high class of tightness in the closed state of the double-seat unloaded valve, where the shut-off element, conventionally with the second certain part, does not have the possibility of implementing immediate direct interaction with the second seat, where the shut-off body conditionally with the second certain part has the ability to implement interaction with the second seat only through a spring-loaded separator, to create a high class of tightness in the closed state of the two-seat unloaded valve, where the shut-off body conditionally with the second specific part has the ability to implement constant interaction only with a spring-loaded separator, through a sealing element, in a stuffing box or bellows design, with the possibility of ensuring in the created unit, a high-class tightness throughout the entire range of the working stroke, from the closed state to the state of full opening of the two-seat balanced valve, where the spring-loaded separator has the ability to directly interact with an independent self-centering with a second seat, to create a high class of tightness in the closed state of a two-seat unloaded valve, where conditionally the first specific part of the shut-off body is there is the possibility of movement relative to the first seat, within the working stroke, from the closed state to the state of full opening of the two-seat unloaded valve, where conditionally the second certain part of the shut-off element, together with the spring-loaded separator, has the ability to move relative to the second seat, within the working stroke, from the closed state to the state of full opening of the two-seat unloaded valve, where conditionally the second specific part of the shut-off element has the possibility of slight movement, within the compensation stroke, relative to the spring-loaded separator, without violating the integrity of the sealing element, in a stuffing box or bellows design, for the possible implementation of the simultaneous interaction of the first specific part of the shut-off element and the second specific part of the shut-off element with a spring-loaded cage, with the first and second seats in the closed state of the double-seat pressure relief valve, to create a high-class hermetic The value of the force of interaction of the spring-loaded separator with the second seat is selected taking into account the calculation of the geometric dimensions of the spring-loaded separator, in order to fulfill the pressure unloading conditions and create a high class of tightness in the closed state of the two-seat unloaded valve.

The invention is illustrated by drawings, where Fig. 1 schematically shows a cross-section of a two-seat unloaded valve in a closed state, where in FIG. 2 conventionally shows a cross-section of a two-seat unloaded valve in the open state.

The two-seat unloaded valve contains a body 1, nozzles 2, a first seat 3, a second seat 4, a shut-off body 5, longitudinal through channels 6 of pressure relief of a shut-off body 5, conditionally the first specific part 7 of a shut-off body 5, conditionally a second specific part 8 of a shut-off body 5 , a spring-loaded cage 9, a sealing element 10, in a stuffing box or bellows design.

The two-seat unloaded valve works as follows.

When the two-seat unloaded valve is in the closed state, then the conditionally first defined part 7 of the shut-off element 5 interacts with the first seat 3, creating a high class of tightness. At the same time, at the same time, conditionally, the second specific part 8 of the shut-off element 5, through the spring-loaded separator 9, interacts with the second seat 4, creating a high class of tightness. Due to the elastic, non-destructive integrity, deformation of the sealing element 10, in a stuffing box or bellows design, with a slight movement, within the compensation stroke, the spring-loaded separator 9 has the ability to independently self-center along the second seat 4. Thus, a high class of tightness is provided for the first seat 3 and the second saddle 4. Bringing the two-seat unloaded valve in the open state is carried out by moving the shut-off body 5, where, at the same time, first there is a separation of the conditionally first certain part 7 of the shut-off body 5 from the first seat 3, and then the separation of the spring-loaded separator 9 from the second seat occurs 4. At the same time, the two-seat unloaded valve functions equally regardless of the direction of flow of the working medium.

Claims (1)

A two-seat balanced valve containing a body with nozzles, with a first seat, a second seat, a shut-off body with a conventionally first defined part and conventionally a second defined part, where the conventionally first defined part and conditionally second defined part of the shut-off body have the ability to directly interact with the first seat and with the second saddle, respectively, to create tightness in the closed state of the double-seat unloaded valve, where longitudinal through pressure relief channels are made in the shut-off body, characterized in that the shut-off body conditionally with the second certain part has the ability to constantly interact with the spring-loaded separator, through the sealing element, where the spring-loaded the separator has the ability to directly interact with the second seat, where the first specific part of the shut-off element and the spring-loaded separator have the ability to independently interact with the first and second seats, respectively, in a state of covered two-seat unloaded valve, to create a high class of tightness, where conditionally the first certain part of the shut-off body and conditionally the second certain part of the shut-off body, together with a spring-loaded separator, have the ability to move, within the working stroke, from the closed state to the state of full opening of the two-seat unloaded valve, where conventionally, the second specific part of the shut-off element has the ability to move relative to the spring-loaded separator, within the stroke that does not violate the integrity of the sealing element, where the magnitude of the interaction force of the spring-loaded separator with the second seat is selected taking into account the calculation of the geometric dimensions of the spring-loaded separator, to fulfill the pressure unloading conditions in the closed two-seat unloaded valve.

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