RU146585U1 - GATE VALVE (OPTIONS) - Google Patents

Abstract

1. Gate valve, comprising a housing with through holes, a locking member installed in it in the form of a gate with a hole and interacting with movable seats with a sealing element, independent support bushings, characterized in that the independent support bushings are installed inside the movable seats and contact with their internal surface, while on the contacting surfaces of each supporting sleeve and the movable saddle are made protruding mirror-offset and offset relative to each other with the formation between with an annular gap and placing an elastic element in the form of a ring in it, while the length of the support sleeve exceeds the seat height by the size of the seat travel with the possibility of forming an elongated annular gap and free movement of the elastic ring in it in the direction of movement of the transported medium under its pressure and the action of the protrusions on the movable saddle, and the sealing element of the movable saddle facing the gate is made of a triangular shape, the angles of which are made along the radius. 2. The gate valve according to claim 1, characterized in that the elastic element installed in the annular gap can be made, for example, from an elastomer. A gate valve, comprising a housing with passage openings, a locking member installed in it in the form of a gate with a hole and interacting with movable seats with a sealing element, independent support bushings, characterized in that the independent support bushings are installed inside the movable seats and are in contact with their inner surface, while on the corresponding contacting surfaces of each supporting sleeve and under

Description

The utility model relates to pipeline valves, in particular, to a slide gate valve, and can be used as a locking and regulating device on trunk pipelines transporting a working medium at various pressures in the oil and gas, chemical, energy, and other industries.

Known gate valve, comprising a housing with a gate installed in it with an opening and spring-loaded seats, located in the housing sockets and made in the form of internal and external bushings movable relative to the housing, mounted with the possibility of independent movement relative to the housing sockets, an elastic seal attached to the inner sleeve with the formation of an annular cavity between the outer sleeve, the seal and the gate with the possibility of its communication with the hole in the gate, while the seal protrudes beyond the torus q of the inner sleeve facing the gate. (A.S. No. 1495554, IPC F16K 3/02, bull. No. 27, 1989)

However, the connection between the outer sleeve with the sealing element and the inner sleeve leads to premature wear of the sealing element and the inner sleeve, since all the load is absorbed by these elements, which reduces the durability of the sealing unit and the reliability of operation. To ensure the reliability of the valve, it is necessary to ensure high precision manufacturing of the contact surfaces of the sealing element and bushings, which leads to the complexity of the manufacture of the sealing unit.

The closest in design is a slide gate valve, comprising a housing with a through hole, inlet and outlet nozzles, with a locking member installed in it in the form of a gate with a hole, movable seats with a sealing element and independent support sleeves fixed inside the housing, the sealing element on the side facing the gate is made along the radius (Patent RU No. 2128308 C1, IPC F16K 3/20, dated March 25, 1997, publ. March 27, 1999).

The drawback of the gate valve is that the inner sleeve with the sealing element is in direct contact with the working medium, which leads to premature wear of the sealing element, since all mechanical impurities of the working medium are perceived by this element, which reduces the tightness and reliability of the valve. The need to install four elements complicates the installation of movable seats and a support sleeve, providing contact surfaces.

The technical task of the utility model is to increase the reliability of the valve design by ensuring the durability of the sealing assembly during the entire service life and increasing maintainability.

The task according to the first embodiment is achieved by the fact that in the slide gate valve, comprising a housing with bore holes and a locking element installed in it in the form of a gate with a hole interacting with the movable seats with a sealing element, independent support bushings, in addition, independent support bushings are installed inside the movable saddles and are in contact with their inner surface, while on the contacting surfaces of each supporting sleeve and movable saddle mirror-shaped and offset the protrusions are relative to each other with the formation of an annular gap between them and the placement of an elastic element in the form of a ring in it, while the length of the support sleeve exceeds the seat height by the size of the saddle stroke with the possibility of forming an elongated annular gap and free movement of the elastic ring in it in the direction of transport medium under its pressure and the action of the protrusions on the movable saddle, and the sealing element of the movable saddle facing the gate is made of a triangular shape, the angles of which are made radially.

The task according to the second embodiment is achieved by the fact that in the slide gate valve comprising a housing with bore holes and a locking element installed in it in the form of a gate with a hole interacting with the movable seats with a sealing element, independent support bushings, in addition, independent support bushings are installed inside the movable saddles and are in contact with their inner surface, while on the corresponding contacting surfaces of each supporting sleeve and movable saddle are made mirrored protrusions and displaced relative to each other with the formation of an annular gap between them and the placement of an elastic element of a tubular shape compressed by the working medium, the dimensions of the annular gap correspond to the dimensions of the elastic element, and the sealing element of the movable saddle facing the gate is made triangular in shape, whose angles are made along the radius.

In this case, the elastic element installed in the annular gap can be made, for example, from an elastomer.

Arrangement of independent support bushings inside the movable seats and their contact with the inner surface of the movable seats, as well as the implementation on the contact surfaces of each support sleeve and its corresponding movable saddle, mirror-mounted and offset protrusions relative to each other with the formation of an annular gap between them and the placement of elastic element, provides reliable sealing of the sealing unit due to the elastic properties of the element and the pressure of the working medium on this element, protects tnitelny element movable seat from direct exposure to the working environment, thereby increasing the durability of the seal assembly and, consequently, increases and the reliability of the valve structure.

According to the first variant, exceeding the length of the support sleeve of the seat height by the size of the working stroke of the saddle provides the possibility of shifting the protrusions on the supporting sleeve towards the gate with the formation of an elongated annular gap, the dimensions of which correspond to the working stroke of the saddle for free movement of an elastic element in it in the form of a ring in the direction of movement of the transported medium under its pressure and the action of protrusions on the movable saddle, as a result of which reliable protection of the sealing element of the movable saddle is provided m direct exposure working fluid increases durability of the seal assembly and improved reliability of the valve structure during the entire operation with the rock.

The location of the elastic element in the form of a ring in the annular gap, freely moving in it in the direction of movement of the transported medium at the moment of pressing the movable seats with sealing elements to the gate, provides reliable pressing of the support sleeve to the gate due to the impact of the protrusion on the saddle through the elastic ring, resulting in a tight seal is provided to increase the reliability of the valve design.

According to the second option, the location in the annular gap of the tubular-shaped elastic element, the dimensions of which correspond to the size of the annular gap, provides reliable sealing due to the elastic properties of the elastic element and the pressure of the working medium on this element, reliably protects the sealing element of the movable seat from direct exposure to the working medium, as a result which increases the durability of the sealing assembly, which increases the reliability of the valve design during the entire service life.

The location in the annular gap of the elastic element of a tubular shape, compressed by the working medium, provides sealing of the gate according to the ″ metal-to-metal ’type, as a result of which the sealing element is protected from mechanical damage by the transported medium, increasing its operational reliability and service life.

The implementation of the sealing element of the movable saddle facing the gate, triangular in shape, the corners of which are made in radius, allows it to be securely fixed in the groove of a similar shape, and when pressed against the gate, it deforms and fills the cavity into which it is enclosed, thereby preventing leakage of the transported medium through the valve and the destruction of the sealing element, and eliminates during the repair extrusion of the sealing element when moving the gate from one extreme position to another, providing tight and reliable seal on the surface of the gate and seat parts with angles made along the radius.

The utility model is illustrated by drawings, where:

figure 1 - General view of the slide gate valve, a longitudinal section;

in Fig.2 - node I in Fig.1, in the ″ closed ″ position, elastic compressible elements of a tubular shape are installed in the annular gaps (option 1);

figure 3 - node I in figure 1, in the ″ closed ″ position, elastic rings with a fixed possibility of movement are installed in the annular gaps (option 2);

in Fig.4 - node II in Fig.3 - a sealing element of a triangular shape with angles made along the radius.

The gate valve consists of a housing 1 with through holes 2 and a cover 3 (figure 1). Inside the housing 1 there is a movable locking body in the form of a flat gate 4 with a through hole 5, which has the possibility of reciprocating movement inside the housing by means of a spindle 6 connected with a drive mechanism (not shown in the figure). The gate 4 is installed between the movable saddles 7 and 8. The saddles 7 and 8 are located in the grooves of the housing 1 coaxially to the passage opening 2. A sealing element 9 is installed in the groove of the seats 7 and 8, facing the plane of the gate 4 with the possibility of axial movement of it and is pressed down by pressure rings 21 and 22, respectively, ensuring its reliable fixation (Fig.2, 3). The sealing element 9 of the movable seats 7, 8 is made of a triangular shape, while the corners of the element 9 are made in radius (figure 4). The saddles 7 and 8 are pressed against the gate by the springs 10 and are sealed with the housing 1 by the sealing rings 11, 12. The saddles 7, 8 with the sealing element 9 and the sealing rings 11, 12 form the effective area necessary to ensure the tightness of the valve (figure 2, 3) . Inside the movable seats 7, 8, independent support sleeves 13, 14 are installed in contact with their inner surface. On the inner surface of each movable saddle 7, 8, protrusions 15, 16 are made. On the surfaces of the supporting sleeves 13, 14 contacting with them, protrusions 17, 18 are made that are mirrored and offset relative to the protrusions 15, 16 of the movable saddles 7, 8 with the formation of an annular between them clearance. An elastic element is placed in the annular gap.

According to the first embodiment (Fig. 2), an elastic element in the form of a ring 19 and 20 is located in the annular gap. The length of each supporting sleeve 13 and 14 exceeds the height of the saddle 7 and 8 interacting with it by the magnitude of the working stroke of the saddle, which contributes to the displacement of the protrusions 17 and 18 on the supporting sleeves 13 and 14, respectively, in the direction of the gate 4 with the formation of an elongated annular gap. The magnitude of the elongation of the annular gap corresponds to the stroke of the seats 7, 8 for the free movement of the elastic ring 19, 20 in it in the direction of movement of the transported medium under its pressure and the impact of the protrusions 15 and 16 on the movable saddles 7 and 8, respectively.

According to the second variant, the protrusions 17, 18 on the support sleeves 13, 14 are displaced towards the gate 4 with the formation of elongated annular gaps. In each annular gap is an elastic element 19 and 20 of a tubular shape. The dimensions of the annular gap correspond to the dimensions of the elastic element 19, 20 of a tubular shape when it is compressed.

Elastic elements 19, 20 installed in the annular gap between the protrusions 15, 16 of the seats 7 and 8 and the corresponding protrusions 17 and 18 of the independent support sleeves 13 and 14, can be made, for example, of elastomer.

Gate valve works as follows.

The movable seat 7 with the sealing element 9 under the action of the spring 10 and the pressure of the transported medium acting on the effective area formed by the sealing ring 11 and the sealing element 9 is pressed against the gate 4, providing a seal ″ metal - sealing element ″. At the same time, the force from the pressure of the medium acts on the inner area of the annular gap, with the elastic ring 19 placed therein, compressible by the medium. Under the action of these forces, the independent support sleeve 13 moves to the gate 4, and at the same time, the slide 4 moves towards the independent support sleeve 14, providing a metal-to-metal seal at the inlet and outlet seat 7. At the same time, the seats 7, 8 , under the action of the efforts of the springs 10 and the pressure of the medium, they are pressed against the gate 4, creating a seal ″ metal - sealing element ″, that is, from the side of the inlet and outlet of the medium there is a seal of the type металл metal - metal ’between the gate 4 and the ends of the supporting sleeves 13 and 14 and type ″ me ALL - sealing member "between the damper 4 and the sealing elements 9 seats 7, 8.

Support sleeves 13, 14, having annular protrusions 17, 18 and forming an annular gap with a corresponding movable seat 7 and 8, in which elastic tubular-shaped elements 19, 20 located inside the movable saddles 7 and 8 are located and are compressed by the working medium and provide a seal of the type ″ Metal - metal ″ and protect the sealing element 9 from mechanical damage to the transported medium, increasing its reliability during operation and service life. The elastic elements of the tubular shape 19, 20 located in the annular gaps formed by the support sleeves 13, 14 and the seats 7, 8, provide independent movement of the movable seats 7, 8 and the support sleeves 13, 14, the latter take the main load from the pressure of the transported medium on the gate ensuring shutter tightness.

The sealing element 9, at the corners of which radii are made, allows it to be securely fixed due to the surface of the side faces, and when pressed against the gate 4, it deforms and fills the cavity into which it is enclosed, thereby preventing leakage of the transported medium through the valve and the destruction of the sealing element 9, and eliminates during the repair the extrusion of the sealing element 9 when moving the gate 4 from one extreme position to another, providing a tight seal on the surface of the gate and the details of the gray la corners made along the radius.

Thus, the proposed design of the slide gate valve provides increased reliability in operation, the durability of the sealing unit and increase maintainability.

Claims (4)

1. Gate valve, comprising a housing with through holes, a locking member installed in it in the form of a gate with a hole and interacting with movable seats with a sealing element, independent support bushings, characterized in that the independent support bushings are installed inside the movable seats and contact with their internal surface, while on the contacting surfaces of each supporting sleeve and the movable saddle are made protruding mirror-offset and offset relative to each other with the formation between with an annular gap and placing an elastic element in the form of a ring in it, while the length of the support sleeve exceeds the seat height by the size of the seat travel with the possibility of forming an elongated annular gap and free movement of the elastic ring in it in the direction of movement of the transported medium under its pressure and the action of the protrusions on the movable saddle, and the sealing element of the movable saddle facing the gate is made of a triangular shape, the corners of which are made in radius. 2. The gate valve according to claim 1, characterized in that the elastic element installed in the annular gap can be made, for example, of an elastomer. 3. Gate valve, comprising a housing with through holes, a locking member installed in it in the form of a gate with a hole and interacting with movable seats with a sealing element, independent support bushes, characterized in that the independent support bushes are installed inside the movable seats and contact with their internal surface, while on the corresponding contacting surfaces of each supporting sleeve and movable saddle are made protruding mirror-spaced and offset relative to each other Hovhan annular gap therebetween and placing therein a tubular elastic member forms a compressible working medium, with the annular gap dimensions correspond to the dimensions of the elastic member, and a sealing member movable seat facing to the slide, formed of triangular shape, the corners of which are made radially. 4. The gate valve according to claim 2, characterized in that the elastic element installed in the annular gap can be made, for example, of an elastomer.

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