RU45171U1 - BALL VALVE - Google Patents

Abstract

The utility model relates to pipeline valves for shutting off the flow of liquid or gas and can be used in valves to control the flow of the working medium in their transportation systems.

The ball valve comprises a housing, in the passage channel of which there is a spherical rotary plug mounted on saddle seals placed in spring-loaded bushings so that between the seat and the spring-loaded bush, in the groove of the bush, there is an annular elastic element, and in the gap between the housing and the outer cylindrical the surface of the spring-loaded sleeve, in the groove of the sleeve, is also located an annular elastic elastic element. The annular elastic elements are coated with a fluoroplastic shell with a thickness of 0.1-0.5 mm. An annular groove for passage of the working medium is provided in the spring-loaded sleeve from the end surface side, providing a different degree of preloading of the elastic elastic element located in the gap between the housing and the outer cylindrical surface of the spring-loaded sleeve to the valve body, depending on the pressure of the working medium.

The proposed utility model allows you to expand the range of applicability of the ball valve for working environments through the use of ring elastic elastic elements protected by a fluoroplastic shell, since fluoroplastic has the highest chemical resistance.

The design of the ball valve is operable when the medium is supplied in any direction.

Description

The utility model relates to pipeline valves for shutting off the flow of liquid or gas and can be used in valves to control the flow of the working medium in their transportation systems.

Known ball valves containing a housing, a spherical rotary plug with a channel for the passage of the working medium and sealing seats made of polymer material, which are pressed to the locking body by elastic elements (RF patents No. 2000018, CL F 16 K 5 \ 06, RF No. 2086843, CL F 16 K 5 \ 06).

The disadvantage of such designs is the low life of the saddle due to high contact stresses, as well as a high moment of control of the crane.

The prototype of the proposed utility model is a ball valve according to KPLV.492816.005TU (Nomenclature catalog of pipe fittings MK “Splav” of ZAO “Splav-Modernization”, V. Novgorod 2003, pp. Ksh 3) containing a housing in which the spherical rotary is located in the passage channel a plug mounted on saddle seals placed in spring-loaded bushings so that between the saddle and the spring-loaded bush, to seal the seatpost, in the groove of the sleeve, an elastic ring elastic element (rubber ring) is installed, and in the gap ezhdu housing and the outer cylindrical surface of the spring-loaded sleeve, the sleeve in the groove for sealing an annular gap elastic elastic member (rubber ring).

The disadvantages of this design include the restriction on its use in aggressive environments due to the low chemical resistance of the ring elastic elastic elements, as well as the insufficiently high reliability of the sealing of the shutter assembly elements.

The technical task of the utility model is to enable the use of a ball valve in a wide range of chemically active environments and increase the reliability of the sealing of the shutter assembly elements.

The technical problem is achieved by the fact that in the ball valve containing the housing, in the passage channel of which a spherical rotary stopper is installed, mounted on the saddle seals placed in the spring-loaded bushings so that between the saddle and the spring-loaded bush, in the groove of the bush there is an annular elastic elastic element, and in the gap between the housing and the outer cylindrical surface of the spring-loaded sleeve, in the groove of the sleeve, there is also an elastic ring elastic element, and the ring elastic elastic elements covered with a fluoroplastic shell with a thickness of 0.1-0.5 mm, and in the spring-loaded sleeve, from the side of the end surface, an annular groove is made for the passage of the working medium, which makes it possible to preload the annular elastic element located in the gap between the housing and the outer cylindrical surface of the spring-loaded sleeve to the crane body.

Figure 1 shows the design of the proposed ball valve in the context; figure 2 presents the node seal shutter ball valve.

The ball valve consists of a housing 1, a passage channel 2, in which a spherical rotary tube 3 is placed. The sealing seats 4 are placed in contact with the surface of the spherical rotary tube, which are placed in the spring-loaded bushings 5. Between the sealing seats 4 and the spring-loaded bushings 5, in the grooves of the bushings 6, ring elastic elastic elements 7 coated with a fluoroplastic sheath are installed 8. Spring-loaded bushings 5 have grooves 9 on their outer cylindrical surface, into which ring elastic elements 10 are inserted, dipped with a fluoroplastic shell 11. In the spring-loaded sleeve 5, from the side of the end surface, an annular groove 12 is made for the passage of the working medium.

Ball valve works as follows.

When supplying the working medium to the passage channel 2 of the housing 1, the sealing seat 4 is pressed by the pressure of the working medium acting on the end surface of the spring-loaded sleeve 5 to the spherical surface of the rotary plug 3, creating the force necessary to ensure tightness between the surface of the sealing seat 4 and the surface of the spherical rotary plugs 3. Tightness between the sealing seat 4 and the spring-loaded sleeve 5, as well as damping of the loads, are provided, installed in the groove 6, an annular, elastic element entom 7 coated with a fluoroplastic shell 8, a thickness of 0.1-0.5 mm

The tightness between the spring-loaded sleeve 5 and the housing 1 is ensured by an annular elastic elastic element 10, covered with a fluoroplastic shell 11, with a thickness of 0.1-0.5 mm, located in the groove 9. In addition, the working medium enters the annular groove 12, the spring-loaded sleeve 5 , depending on the pressure of which a different degree of preloading of this annular elastic elastic element 10 to the housing 1 is carried out.

The flow of the medium into the ball valve is possible in both directions.

The proposed design of a ball valve allows you to:

a) expand the range of applicability of the ball valve for working environments through the use of ring elastic elastic elements protected by a fluoroplastic shell, since fluoroplastic has the highest chemical resistance;

b) to increase the reliability of the design of the ball valve shutter assembly due to a change in the preload force of the annular elastic elastic element 10 to the housing depending on the pressure of the working medium by making an annular groove in the end surface of the spring-loaded sleeve for the passage of the working medium.

Claims (1)

A ball valve comprising a housing, in the passage channel of which there is a spherical rotary plug mounted on saddle seals placed in spring-loaded bushings so that between the seat and the spring-loaded bush, in the groove of the bush, there is an annular elastic element, and in the gap between the housing and the outer the cylindrical surface of the spring-loaded sleeve, in the groove of the sleeve, is also located an annular elastic elastic element, characterized in that the annular elastic elements are covered with a fluoroplastic shell of thickness 0.1-0.5 mm, and in the spring-loaded sleeve, from the side of the end surface, an annular groove is made for the passage of the working medium, which allows the elastic elastic element located in the gap between the body and the outer cylindrical surface of the spring sleeve to be pressed against the crane body .