RU202057U1 - BALL VALVE WITH REPAIRABLE NECK - Google Patents

Abstract

The utility model relates to pipeline fittings used in the assembly of technological pipelines for shutting off the transported working medium, in particular, to taps with a neck having a spherical surface, to their assemblies and structural elements. The technical result is the creation of a neck that allows its repeated disassembly, while maintaining tightness and convenience, due to standardized components. The specified technical result is achieved by the fact that in a crane with a repairable neck, the neck is made in the form of a sleeve, at which a cylindrical bore is made at one end of the inner surface, and a conical bore is made at the other end, turning into a cylindrical one. In this case, the cylindrical bores are made of equal diameter. The pull rod is made in the form of a stepped shaft. In this case, an internal threaded hole is made at one end of it, a bore is made at the other end, below which is a conical bore, which turns into a cylindrical one. The design uses fluoroplastic rings and rubber products in the form of rings, an additional Belleville spring, the handle is fixed with a fixing element.

Description

The utility model relates to pipeline fittings used in the assembly of technological pipelines for shutting off the transported working medium, in particular, to taps with a throat having a spherical surface, to their nodes and structural elements.

Known is a ball valve containing a composite body, in which a spherical shut-off element is installed. In the shut-off body, bearing surfaces are located concentrically to the axis of rotation on both sides of the through hole. The supporting elements adjacent to the body are installed on the supporting surfaces. The latter are made in the form of rings and are provided with a supporting surface on their side directed towards the body. The supporting surfaces correspond to the inner contour of the housing parts (Patent No. RU 2145685. Publ. 20.02.2000).

However, the known structure does not have a repairable throat that allows quick dismantling of structural elements close to the control element.

Known is a ball valve with a high-pressure trunnion and a hydrogen station having a ball, the upper and lower parts of the shaft with the possibility of rotation, provided by the rotational force of the stem in the housing body, and a sealing mechanism, which is located in both lateral positions of the ball and provides sealing contact with the surface of the ball. A seat retainer having a sealing surface in sealing contact, a spring element imparting an elastic force to the sealing surface side, and a sealing element attached to the outer peripheral surface of the seat retainer (Patent No. JP 6430474. Publ. 2018.11.09).

However, the known structure does not have a repairable throat that allows quick dismantling of structural elements close to the control element.

Known spherical fender-type, with self-centering seats, having valve seats that can move in the lateral recesses of the valve seat and establish a sealing engagement with a ball valve element, which is supported by a trunnion for rotary movement between open and closed positions. The valve seat elements are self-centering for optimal sealing interaction with the spherical sealing surface of the ball element. The internal geometry of the seat assemblies is designed to provide optimal flow through the valve train even when the seat members are laterally offset from the centerline of the flow passages due to self-centering seat movement (US Patent No. 7690626. Publ. 2010-04- 06).

However, the known structure does not have a repairable throat that allows quick dismantling of structural elements close to the control element.

A valve is known that contains: a valve body with a cavity, a valve element made in the form of a ball, an adjacent lower hinge and a sealing package, the valve element additionally contains an upper hinge capable of contacting the ball, while the valve cavity is sized to accommodate the valve element, which has the ability to compensate for temperature effects (Patent No. DE 60303129 T2. Publ. 14.09.2006).

However, the known structure does not have a repairable throat that allows quick dismantling of structural elements close to the control element.

Known ball valve containing a housing with coaxially installed in it pipes, pressing the ring seals to a ball with a through hole placed between them, and the possibility of rotation around an axis perpendicular to the axis of the valve, a pull rod connected to the ball, placed in the throat, and a pull rod rotation limiter, in in which the annular areas of the ball surface adjacent to the annular seals are made with a decrease in radius in the direction of the edges of the through holes in the ball (Patent No. RU 183743. Publ. 02.10.2018).

Known ball valve containing a housing with a neck, a ball swivel plug is installed in the housing, and a spindle containing a drive unit located in one end of the spindle and a ball plug swivel unit located in its other end part, and the spindle is equipped with an additional middle part made in the form of a rod located between its end parts and fixedly connected to them, the crane is equipped with a stand fixed on the neck of the body, and the extension of the spindle is located inside the stand (Patent No. RU 58647. Publ. 27.11.2006).

However, the elongated neck in the prior art is not designed to quickly dismantle structural members close to the control element.

Known steel ball valve, in which each of the ends of the pipes located inside the body is made with an internal bore. The latter contains a Belleville spring, which has the ability to contact the support ring. The Belleville washer has a thermal diffusion zinc coating. A saddle is located on the support ring, which has the possibility of contact with the hollow ball. In this case, the cross-section of the saddle is made in the form of a rectangle having one angle evenly beveled along the inner surface, in addition, the outer diameter of the saddle is equipped with a groove intended for a rubber ring (Patent No. RU 186584. Publ. 24.01.2019).

However, in the known steel ball valve, the neck is made without the possibility of its quick dismantling and repair.

The technical problem is to expand the arsenal of tools for a similar purpose.

The technical result is the implementation of the specified purpose, by creating a neck that allows its repeated disassembly, while maintaining tightness, convenience, optimal tension on the pull rod and ball plug during the entire service life, due to standardized components.

The delivered technical result is solved by the fact that in a ball valve with a repairable neck, it contains branch pipes fixed on both sides of the body made in the form of a hollow oval, a neck in which a pull rod is located, a control element in the form of a handle, a disk spring, a fluoroplastic ring, nuts , rubber products, the neck is made in the form of a bushing, in which a cylindrical bore is made at one end of the inner surface, a conical bore is made at the other end, turning into a cylindrical one, while the cylindrical bores are made of equal diameter, the pull rod is made in the form of a stepped shaft, while on an internal threaded hole is made at one end, a bore is made at the other end, below which a conical bore is located, turning into a cylindrical one, a fluoroplastic ring is used in its lower part to fasten the pull rod in the neck, located between the conical bores, a rubber product in the form of a ring, pa located in a cylindrical groove, in the upper part in the bore of the neck there is a fluoroplastic ring, which has the possibility of contact with the stopper, on which an additional Belleville spring is installed, secured with a nut, while the handle is fixed with a fixing element.

It is advisable, for the standardization of the crane components, the limiter is made in the form of a sleeve, the fixing element is made in the form of a bolt, or in the form of a stud and nut.

This useful model is explained with a detailed description, diagrams, on which:

FIG. 1 - shows an assembly drawing of the main sectional view of a ball valve with a repairable neck, according to the utility model;

FIG. 2 shows a view A, on an enlarged scale, which characterizes the design and connection of the neck components, the same as in FIG. one.

Structural elements of a ball valve with a repairable neck (hereinafter referred to as the valve) are located symmetrically with respect to the vertical axis (Fig. 1). The valve contains branch pipes 1, 2 located on both sides of the axis of symmetry. Each of the branch pipes 1, 2 is welded on both sides to the body 3. One of the ends of each of the welded pipes 1 and 2 is located inside the body 3 closer to the central vertical axis of symmetry. At the end of each branch pipe 1, 2 located inside the body 3, an internal bore is made. The inner bore contains a Belleville spring 4, which can contact the support ring 5. Each Belleville spring 4, made with a thermal diffusion zinc coating, applied by thermal diffusion galvanizing. Each support ring 5 is made in the form of a sleeve equipped with a flat base, the size of the latter exceeds the size of the sleeve height, and the base diameter is less than the diameter of the bore. A saddle 6 is installed on the outer surface of each support ring 5. In this case, the cross-section of each saddle 6 is made in the form of a rectangle having one corner uniformly beveled along the inner surface. In addition, the outer diameter of each seat 6 is equipped with a groove for a rubber ring 7. Between the seats 5 there is a hollow ball 8 (ball plug) (hereinafter referred to as a ball), equipped with holes for the flow of the transported medium, made symmetrically opposite each other.

By means of the hole 9, made in the ball 8 along the axis of symmetry, a pull rod 10 is installed in it at one end (Fig. 2). The pull rod 10 is installed in the neck 11, made in the form of a sleeve. At one end of the inner surface of the neck 11, a cylindrical bore 12 is made. At the other end of the neck 11, a conical bore 13 is made, which turns into a cylindrical 14. In this case, the cylindrical bores 12 and 14 are made of equal diameter. The pull rod 10 is made in the form of a stepped shaft along the outer surface. At one end of the pull rod 10, an internal threaded hole 15 is made. At the other end of the pull rod 10, a conical bore 16 is made, below which there is a cylindrical bore 17. To fasten the pull rod 10 in the neck 11 in its lower part, a fluoroplastic ring 18 is used, located between the conical bores, respectively 13 and 16. A rubber product in the form of a ring 19, is located in a cylindrical groove 20, which is made in the lower part of the pull 10. In the upper part of the neck 11 in the bore 12, there is a fluoroplastic ring 21, which has the possibility of contact with the limiter 22. The latter is equipped with a pressure plate spring 23, secured by a nut 24. In this case, the handle 25 is secured by a fixing element 26. The fixing element 26 can be made in the form of a bolt or a connection between a stud and a nut. The bolt, stud and nut are made standard, in accordance with the GOST dimensions. The compression disc spring 23 in the neck 11 under the handle 25 is designed to create optimal stress on the pull rod 10 and the ball plug 8 by pressing the seal in the neck 11 during the entire service life of the valve, including after an inspection or repair of the neck 11.

A ball valve with a repairable neck (hereinafter referred to as the valve) works as follows.

Component elements are pre-made. An internal bore is bored at one of the ends of each branch pipe 1, 2. By the method of thermal diffusion galvanizing, a layer of thermal diffusion zinc coating is applied to each Belleville spring 4. Support rings 4 are made in the form of a sleeve with a flat base. The latter are made in such a way that the size of its diameter exceeds the size of the height of the sleeve and is less than the diameter of the bore. Saddles 6 are made. In this case, the cross-section of each saddle 6 is made in the form of a rectangle. In addition, the outer diameter of each saddle 6 is equipped with a groove intended for a rubber ring 7. A cylindrical inner bore 12 is performed at one of the ends of the neck 11. At the opposite end, a tapered bore 13 and a cylindrical 14 are performed. In the pull rod 10, made in the form of a stepped shaft along the outer surface, an internal threaded hole 15 is made at one end, a tapered bore 16 and a cylindrical bore 17 are made at the other end. In addition, a groove 20 is made.

The crane is arranged as follows

In the groove 20, the pull rod 10 is placed, respectively, in the ring 19. The hollow ball 8 is placed in the body 3. The pull rod 10 is fixed in the hole 9 of the hollow ball 8. In the inner bores of each of the nozzles 1 and 2, Belleville springs 4 are placed, then the support rings 5 and saddles 6. The ends of the branch pipes 1, 2 are inserted from both sides into the body 3. The saddles 6 are combined with the holes for the flow of the transported medium of the hollow ball 8. The neck 11 is placed on the pull rod 10, which contacts with the fluoroplastic ring 18, a rubber-technical idea in the form of a ring 19. The body 3 is bent, bringing its ends closer to the nozzles 1 and 2. Using welding, the ends of the body 3 are welded to the nozzles 1 and 2, the neck 11. They are fixed at the free end of the neck 11, by means of a fluoroplastic ring 21, a stop 22, a clamping disk spring 23, nuts 24, with the locking element 26, the handle 25, with which the valve is opened and closed. The use of Belleville springs 4 on one side and on the other side with respect to the seats 6 and nozzles 1, 2 equalizes the loads, distributing them more evenly, compensates for the wear of the seats 6 when operating parameters change, in particular pressure and temperature. The tightness is maintained due to the use of a pair of Belleville springs 4 and a clamping Belleville spring 23. A clamping Belleville spring 23 in the neck under the handle allows you to create optimal stress on the pull 10 and the ball plug 8, pressing the PTFE ring 18, 21 in the neck 11 throughout the life of the valve , including after the inspection or repair of the neck 11.

The proposed utility model makes it possible to expand the arsenal of ball valves available on the market with high reliability and tightness.

In addition, the structural elements of the proposed utility model make it possible to compensate for the wear of the seats.

The proposed utility model allows, due to the design features of the neck and its components, allows for its repeated disassembly, if repair is necessary, due to standardized elements.

In addition, it creates optimum tension on the pull rod and ball plug throughout the entire service life.

Claims (2)

1. A ball valve with a repairable neck, containing pipes fixed on both sides of the body made in the form of a hollow oval, a neck in which a pull rod is located, a control element in the form of a handle, a disk spring, a fluoroplastic ring, nuts, mechanical rubber goods, characterized by that the neck is made in the form of a bushing, in which a cylindrical bore is made at one end of the inner surface, a conical bore is made at the other end, turning into a cylindrical one, while the cylindrical bores are made of equal diameter, the pull rod is made in the form of a stepped shaft, while at one end it is made an internal threaded hole, a bore is made at the other end, below which a conical bore is located, turning into a cylindrical one, a fluoroplastic ring is used in its lower part to fasten the pull rod in the neck, located between the conical bores, a rubber product in the form of a ring is located in a cylindrical groove goggle, in the upper part in the bore of the neck there is a fluoroplastic ring that can contact with the limiter, on which an additional Belleville spring is installed, fixed with a nut, while the handle is fixed with a fixing element. 2. The crane according to claim 1, characterized in that the stopper is made in the form of a stepped sleeve, the fixing element is made in the form of a bolt or in the form of a stud and nut.

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