RU2648138C1 - Ball valve - Google Patents

Abstract

FIELD: valves production.

SUBSTANCE: present invention relates to a stop valve, particularly to a ball valve with a closure for controlling and closing the flow of a working fluid. Ball valve includes a body with longitudinal and transverse axes, nipples fixed to the body and extending along the longitudinal axis of the body from its two sides, a bolt with a through hole, mounted in the housing and rotatable about the transverse axis of the housing, the support member, installed between the nozzle and the bolt on each side of the body, and a seat positioned to interact with the support member and with the closure. Support member has a part for mounting on a pipe that does not substantially change its cross-section, and a part for accommodating said seat, made in the form of an outwardly expanding spring part to compensate for the temperature expansion of the ball valve elements.

EFFECT: use of the invention increases reliability of the equipment and prolongs the service life of the apparatus.

12 cl, 2 dwg

Description

The present invention relates to stop valves, and more particularly to a ball valve with a valve for regulating and shutting off the flow of the working medium.

A ball valve is disclosed in the prior art, disclosed in RF patent 2335681 C2, F16K 5/06, F16K 27/10, 05/10/2008. The specified ball valve contains a housing with a longitudinal and transverse axes, nozzles mounted on the housing and continuing along the longitudinal axis of the housing from its two sides, a shutter with a through hole installed in the housing and configured to rotate around the transverse axis of the housing, a support element installed between a nozzle and a shutter on each side of the housing, and a saddle located with the possibility of interaction with the supporting element and with the shutter.

A disadvantage of the known ball valve is the need to perform annular bores inside the ends of the workpieces of the pipes. The implementation of annular bores in the workpieces of the pipes leads to a decrease in the strength of the sealing unit due to its thinning, as well as to a significant reduction in the life of the crane. With an equal corrosive effect on the crane parts, the bored part fails faster than the other parts, and due to the fact that the saddle in contact with the valve is located in this assembly, the function of the valve will be impaired and its tightness will not be ensured before the other parts wear out.

Another disadvantage of the known ball valve is the lack of expansion joints for thermal expansion of the crane parts when used with a working medium having a temperature of more than 100 ° C. Such compensators can be ring springs. The absence of these springs reduces the temperature range of application of ball valves.

In addition, the design of the crane according to the patent of the Russian Federation 2335681 involves the manufacture of flange valves, which significantly narrows the scope of such a crane.

The closest analogue of the claimed invention is a ball valve with full opening, disclosed in the patent of the Russian Federation 2153616, F16K 5/06, F16K 27/06, 27.007.2000. The specified ball valve, as well as known from RF patent 2335681, contains a housing with longitudinal and transverse axes, nozzles mounted on the housing and continuing along the longitudinal axis of the housing from its two sides, a shutter with a through hole mounted in the housing and made to rotate around the transverse axis of the casing, at the ends of the pipes along their circumference, a stepped protruding part is formed on each side of the casing, and a saddle located in the specified protruding part.

A disadvantage of the known ball valve is the presence of a stepped protruding part, which is necessary to form an emphasis for the location of the valve seal, which requires additional operations to form this part, leads to additional material consumption, reduces the flow area, creates an obstacle to the flow of the working medium, and also leads to an increase energy costs for pumping the working medium through a reduced passage section of the stepped protruding part.

Despite the fact that in the patent of the Russian Federation 2153616 a tap with a full opening is declared, the description of this patent indicates that the full opening of a ball valve means that the dimensions of the holes in the flow ball essentially correspond to the cross sections of the pipes, and the tap will not substantially narrow the channel for flow formed by pipes. Thus, a narrowing of the flow channel is still permitted.

In addition, in order to comply with the geometrical size of the saddle, in the case of forming the stepped part by pressure, turning of the seat landing site will be required, which implies the necessary quality of surface machining to ensure tightness.

Moreover, in the description of said patent, only in one place is an indication of the presence of annular springs. However, the function of these springs is of great importance, namely it allows you to compensate for the thermal expansion of the crane parts. The presence of a separate part in the form of an annular spring leads to an increase in the number of crane parts, an additional consumption of spring material and an increase in the cost of the crane.

Thus, it is an object of the present invention to provide a valve that eliminates the above-mentioned disadvantages inherent in known ball valves.

The technical result of the present invention is to increase the corrosion resistance of a ball valve, reducing the number of parts, reducing the number of machining operations, reducing the size of the seat, increasing the tightness of the valve, maintaining the temperature range of application of the valve, reducing the turning torque of the shutter, which increases the life of the valve, increases reliability , and also reduces its cost.

In particular, the technical result of the present invention is to increase the corrosion resistance of the parts of the ball valve by providing an outwardly expanding spring part, which makes it possible to compensate for the thermal expansion of the elements of the ball valve due to its expansion and contraction.

The above technical result is achieved by means of a ball valve containing a housing with a longitudinal and transverse axes, nozzles mounted on the housing and continuing along the longitudinal axis of the housing from its two sides, a shutter with a through hole mounted in the housing and configured to rotate around the transverse axis of the housing, a support element installed between the nozzle and the shutter on each side of the housing, and a seat located with the possibility of interaction with the support element and with the shutter, while the support ement has a part for installation on pipe substantially does not change its flow cross-section and a portion for placement of said seat, made in the form of outwardly divergent spring portion to compensate for thermal expansion of the ball valve elements.

The implementation of the support element with a part for installation on the pipe, essentially not changing its bore, increases the corrosion resistance of the crane parts and reduces the number of necessary processing operations, because thanks to this part, the bore of the pipes remains essentially constant, and the bore of the pipes is not required, as a result which reduces the cost of manufacturing a crane.

The implementation of the part to accommodate the specified saddle in the form of an expanding spring part to compensate for the temperature expansion of the elements of the ball valve allows to reduce the number of valve parts and the size of the seat, to save the temperature range of the valve, and also to reduce the turning torque of the shutter, since a separate spring element is not required and the spring part expanding outward itself acts as a spring to compensate for the thermal expansion of the parts of the ball valve.

Thus, the service life of the crane increases, the cost of its manufacture is reduced, and reliability increases.

The part for installation on the nozzle can be located both inside the nozzle and on the outside, due to which it is possible to use a wide range of tube blanks for the production of nozzles, the passage section of the valve is not changed, which allows to further improve the hydraulic characteristics of the valve and increase the corrosion durability.

Placing the part for installation on the nozzle in a groove made in the end surface of the nozzle also allows to improve hydraulic characteristics and increase the corrosion resistance of the valve, since the passage section of the valve will also remain unchanged.

The supporting element can be made with a cavity for placing the seal between the nozzle, the part for installation on the nozzle and the spring part expanding outward, which further increases the tightness of the valve and, consequently, increases the service life of the valve and increases its reliability.

The outwardly extending spring portion can be bent at the end to prevent displacement of the seat, thereby increasing the tightness of the valve and therefore its reliability, since the displacement of the seat is prevented, which further increases the life of the valve.

The supporting element can be made of stainless steel, which further increases the corrosion resistance of the crane, leading to an increase in the life of the crane and increase its reliability.

The supporting element can be made in one piece with the pipe, welded to the pipe or soldered to it, thereby further increasing the reliability of the crane and increasing its service life.

The invention will now be described in more detail with reference to the drawings, in which:

Figure 1 is a General view in section of a ball valve according to the invention, and

Figure 2 is an enlarged view of the support element and the seat of the ball valve shown in Figure 1.

The ball valve comprises a housing 1 with a longitudinal and transverse axes and nozzles 2 mounted on the housing 1. The nozzles 2 extend along the longitudinal axis of the housing 1 on two sides of the housing 1. In the housing 1 there is a shutter 3 with a through hole made to rotate around the transverse axis housing 1, for closing / opening the flow of the working medium and two nozzles that can be connected to the pipeline by welded, flanged and / or threaded connections, or combinations thereof. On each side of the housing 1 between the nozzle 2 and the shutter 3 is installed a support element 4. The support element 4 has a part 5 for installation on the nozzle 2, essentially not changing its bore, and part 6 for accommodating the saddle. The saddle 7 is located with the possibility of interaction with the supporting element 4 and with the valve 3. The specified part 6 for accommodating the saddle 7 is made in the form of a spring part expanding outward to compensate for the thermal expansion of the elements of the ball valve.

When the working medium is supplied under pressure into one of the nozzles 2, the working medium flows through it essentially unhindered due to the part 5 for installation on the nozzle 2, which does not substantially change its bore, which as a result increases the corrosion resistance of the valve and increases its service life. When the working medium flows through the shutter 3, a fluid working medium having a different operating temperature than room temperature has a temperature effect on all parts of the valve, which expand with increasing temperature and contract with decreasing temperature. Part 6 for placing the saddle, made in the form of a spring part expanding outward, compensates for the temperature expansion of the parts of the ball valve depending on the temperature of the flowing working medium, respectively, expanding and contracting.

The tests showed that the ball valve according to the present invention allows to increase the corrosion resistance, reduce the number of valve parts, reduce the number of machining operations, reduce the size of the seat, increase the tightness of the valve, maintain the temperature range of application of the valve, reduce the torque of rotation of the shutter, which together increases the life of the crane, increases reliability, and also reduces its cost.

Claims (19)

1. Ball valve containing: housing with longitudinal and transverse axes; nozzles mounted on the housing and continuing along the longitudinal axis of the housing from its two sides; a shutter with a through hole mounted in the housing and configured to rotate around the transverse axis of the housing; a support element mounted between the nozzle and the shutter on each side of the housing; and a saddle located with the possibility of interaction with the supporting element and with the shutter, wherein the supporting element has a part for installation on the nozzle, which does not substantially change its bore, and a part for accommodating said saddle, made in the form of a spring part expanding outward to compensate for thermal expansion of the elements of the ball valve. 2. The ball valve according to claim 1, in which the part for installation on the pipe is located inside the pipe. 3. The ball valve according to claim 1, in which the part for installation on the pipe is located in a groove made in the end surface of the pipe. 4. The ball valve according to claim 1, in which the part for installation on the pipe is located outside the pipe. 5. The ball valve according to claim 1, in which the supporting element is made with a cavity for placing a seal between the nozzle, a part for installation on the nozzle and the spring part expanding outward. 6. The ball valve of claim 1, wherein the outwardly extending spring portion is folded at the end to prevent saddle displacement. 7. The ball valve according to claim 1, in which the supporting element is made of stainless steel. 8. The ball valve according to claim 1, in which the supporting element is made in one piece with the pipe. 9. The ball valve according to claim 1, in which the supporting element is welded to the pipe. 10. The ball valve according to claim 1, in which the supporting element is soldered to the pipe. 11. The ball valve according to claim 1, in which each of the nozzles is made with a constant bore over the entire length. 12. The ball valve according to claim 1, in which each of the nozzles is made with a constant outer diameter along the entire length.

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