CS242585B1 - Fittings with device for pressure equalizing before and behind the closing fittings device - Google Patents

Abstract

The solution is in the field of valves and concerns with fittings for balancing pressure in front of and behind the closure organ fittings, especially for systems operating with high media pressures consisting of a body in which it is slidable a spindle with a closure member formed two sealing plates inserted into the ring provided with the overflow openings while the spindle is terminated inserted between the sealing member by the expander member closure plate, its essence is that in the leak holes of the seals the plates with the bearing surface are slidably mounted spring loaded shutters with a sealing surface and a collar with two supporting surfaces that are expanding by the closure face on the contact surface of the overflow holes. The suspension is spring-loaded positioned between the first support surface the collar of the caps and the inside sealing plates while the other is supporting the surface is supported on the pressing surface spindle expander member. In this case, the shutters are inserted into the bypass valves holes provided with a guide surface longitudinal relief.

Description

BACKGROUND OF THE INVENTION 1. Field of the Invention

Numerous valves, in particular valves operating with high pressure gradients, are required to equalize the pressures upstream and downstream of the valve closing body before opening. This pressure equalization is carried out by means of bypasses equipped with shut-off valves, including actuators or remote control, the number of which is from one to three depending on the connection method, and secondly by design of the valve, especially fast acting. full overpressure. The disadvantage of using bypasses with inserted shut-off valves, including actuators, as well as the use of heavily dimensioned actuators and valve control, is that it is a very costly measure that significantly increases the cost and construction dimensions of valves and is very energy intensive in operation.

It is also known for systems with high pressure gradients to use a cascade shut-off fitting in which the sealing plate is provided with a closable orifice and whose end of the spindle is provided with an operating intermediate for operating the sealing plate. This design significantly reduces the hydraulic resistance of the valve, requires low actuating forces and allows both stages to be operated with a single · v drive unit

The disadvantage, however, is that it only allows one-sided supply of the working medium, furthermore the construction of the intermediate member is very complex, which reduces the service life and functional reliability, increases the construction height and reduces the seismic resistance of the valve.

There is also known a stepped opening and closing fitting of a closing member which consists of a split main wedge formed by sealing plates housed in the main ring and provided with closable leakage openings such that an additional wedge consisting of closing plates and an additional wedge is disposed between the sealing wedges. a ring attached to the spindle, wherein an expansion member is disposed within the additional wedge. The disadvantage of this solution is the difficult grinding and sealing of the inner and outer sealing surfaces of the main wedge plates and the sealing surfaces of the additional wedge plates. Due to the substantially different stroke of the closure member with stepped opening and closing relative to the normal closure member, it is necessary to carry out each design with a different construction height and thus with a different body and other components.

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In essence, the present invention, which is a fitting with a pressure equalization device upstream and downstream of the shut-off body of the device, in particular for systems operating at high pressures of the conveyed medium, consists of a body in which the spindle with the shut-off body consists of two sealing plates. the spindle terminated by the expanding member is inserted between the sealing plates of the closing member and is characterized in that the sealing openings of the sealing plate provided with the bearing surface are displaceably mounted spring-loaded locks with a sealing surface and a collar with two supporting surfaces, which are pushed by the expanding member by the closing surface onto the contact surface of the through holes

It is a further object of the invention that the closure suspension is provided by a spring disposed between the first abutment shoulder abutment surface and the inside of the sealing member sealing plates, while the second abutment surface abuts against the thrust surface of the valve stem expanding member.

It is a further object of the invention that the shutters are inserted into the overflow openings of the sealing plates by a guide surface provided with longitudinal relief.

It is a further object of the invention that the second abutment shoulder of the closure is a spherical surface, while the thrust surface of the expander is flat.

Finally, it is an object of the invention that the second abutment shoulder abutment surface is flat, while the thrust surface of the expansion member is formed by a cylindrical surface.

The higher effect of the solution according to the invention is that there is no need to use bypasses equipped with shut-off valves, including actuators, thereby saving additional equipment costs by substantially unifying parts, except for a slightly higher valve stroke with pressure relief device built in in the closing member, in the order of several mm, all the components of this valve are identical to the components of the closing valve, only the plates of the closing member of the valve according to the invention are adapted to receive the closure in the form of a spring plug. Further, a higher effect is achieved by the fact that the armature according to the invention is very simple in construction, consisting only of proven,

- 3 242 585 rotary elements to ensure its functional reliability and reduce production costs · Another advantage of the solution is that the dimensions of the actuator and control are reduced, thereby reducing the overall weight and construction height of the fitting while increasing its seismic resistance in operation. The big advantage of this fitting is that it can be used for the full pressure drop of the working medium on both sides.

DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENT OF THE INVENTION FIG. 1 is a partial cross-sectional view of the slide in accordance with the present invention in the closed position; FIG. 2 is a partial cross-sectional view of the slide shown in FIG. is a partial cross-sectional view of a slide according to the invention in an alternative embodiment.

According to the invention, the armature consists of a body 1, in whose flow channel 11 are formed seats 12 and in the lower part of the body 1, then a stop surface 13. In the flow channel 11 a closing member 2 is inserted between the seats 12, thereby creating a space 111 in the flow channel 11 The closing member 2 is made up of a ring 21 and two sealing plates 22 inserted into the guide 211 in the ring or 21. The sealing plates 22 are provided on the outside 221 with a sealing surface 222. the plates 22 in the closed position of the closing member 2 engage the seats 12 of the body 1. Axial transfer holes 223 are provided in the sealing plates 22 provided with a bearing surface 224 on the inner side 220 of the sealing plates 224. Closures are inserted into the through holes 223 of the sealing plates 22 6 formed, for example, by pins. In _the closure 2, they are provided on the one hand with a guide surface 31 and on the other hand with a sealing surface 32. The guide surface 31 of the shutters 2 aligns with the through holes 223 of the sealing plates 22 and the closing surface 32 of the shutters 2 seals with the abutment surface 224 of the through holes 223 in the sealing plates 22. guide surface 31 of the closure 2 ^<3 and production of the longitudinal relief 33 · From the inner side 220 of the sealing plate 22 of the cap 2 terminated shoulder 21 ^»with two support surfaces 341 and 342, wherein the first abutment surface 341 of the collar 34 of cap 2 is supported on a spring £, The second abutment surface 342 of the collar 34 of the shutters 2, which, for example, is spherical in shape, is supported by a pressing surface 511, for example a planar, expanding member 51 formed at the end of the spindle. 2

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4 of the fitting and located between the sealing plates 22 of the closing member 2, the spindle 8 with the expander member 51 being inserted into the space between the sealing plates 22 through the opening 212 in the ring 21. The expanding member 51 is provided with a driving surface 512. the ring 21 of the closing organ 2 as the spindle moves upwards.

In the alternative embodiment of Fig. 3, the shutters 54 of the through holes 22 in the sealing plates 22 are provided with a collar 34 whose second abutment surface 342 is flat and the pressing surface 511 of the expander member 51 is formed by a cylindrical surface. A spring 6 mounted between the first abutment surface 34 &apos;. the collar 34 of the caps 6 and the inner one. side 220 of the sealing plates 22 around their overflow apertures 223 is in the form of a helical spring biased in a circular groove 226 made around the overflow apertures 223 in the sealing plates 22 of the closure member 2 from the inside 220 of the sealing plates 22.

When closing the fitting Fig. 1, the force is applied downwards by the control (not shown). The spindle 8 with the expansion member 51 is inserted into the ring 21 of the closing member 2 and at the same time carries the closing member 2 to the closing position. As soon as the ring 21 of the closure member 2 abuts the stop surface 13 in the lower part of the fitting body 5, the pressing surfaces 511 of the expander 51 begin to act on the second abutment surfaces 342 of the closure collar 34, thereby compressing the springs. the contact surface 224 of the through holes 223 in the sealing plates 22 thereby closing the passage of the working substance through the through holes 223. Thereafter, the force applied to the spindle 5 is transmitted via the expanding member 51 to the sealing plates 22 of the closing member 2 so that their sealing surfaces 222 abut the seats 12 in the flow channel 11 of the valve body 1 and seal the closing member 2 and the valve.

When opening the fitting, a force is applied from the control not shown upwards. The spindle 8 with the expander member 51 begins to move upwardly, thereby releasing the pressure surfaces 511 of the expander member 51 to release a force on the second abutment surface 342 of the collar 34 of the shutters 34, which is affected by a spring 6 which is dimensioned to overcome the highest possible overpressure, sliding from the overflow openings 223 in the sealing plates 22f. Thereby, the closure surface 32 of the shutters 32 is separated from the abutment surface 22 of the through holes 223 in the sealing plates 22 and the resulting flow space.

5,242,585 between the overflow openings 223 and the longitudinal relief <33 in the shutter guide surface 31 and between the shut-off surface 32 of the shutters 54 and the abutment surface 224 of the overflow openings 223 in the sealing plates 22 and recessing 225 body 2 and in the second space 112 downstream of the valve closing body 2. As a result, the sealing plates 22 of the closing member 2 are relieved in the sealing surfaces 222 and seats 12 of the flow channel 11 of the valve body 1. Further movement of the spindle with the expansible member £ 51 upwardly abuts the follower surfaces 512 of the expander member 51 of the spindle 2 ⁰ inner surface 213 of the ring 21 of the shutoff element 2, which moves in the direction of the spindle and £ passage opens as the flow channel 11 of the valve.

The present invention can be used in parallel and bevel wedge fittings.

Claims (5)

SUBJECT OF THE INVENTION 242 585 A valve with a pressure relief device upstream and downstream of a valve closing member, in particular for systems operating at high pressures of the conveyed medium, consisting of a body in which a spindle with a closing member consisting of two sealing plates inserted into a ring provided with leakage openings wherein the spindle terminated by the expanding member is inserted between the sealing plates of the closing member, characterized in that spring-loaded shutters (3) provided with a sealing surface (32) are displaceably mounted in the overflow openings (223) of the sealing plates (22) provided with the contact surface (224). ) and a collar (34) with two abutment surfaces (341, 342), which are pushed by the expanding member (51) by the sealing surface (32) onto the abutment surface (224) of the through holes (223). A fitting with a pressure relief device upstream and downstream of a shut-off member of a firing fitting 1 _, characterized in that the closing of the shutters (3) is effected by a spring (4) disposed between the first abutment surface (341) of the collar (34) of the shutters (3) and the inner side (220) of the sealing plates (22) of the closing member (2), while the second abutment surface (342) is supported against the pressing surface (511) of the expanding member (51) of the valve stem (5). Fitting with a pressure relief device upstream and downstream of the valve closing member according to claim 1, characterized in that the shutters (3) are inserted into the through holes (223) of the sealing plates (22) by a guide surface (31) provided with longitudinal relief (33). A valve with a pressure relief device upstream and downstream of the shut-off member of the valve of points 1 to 3, characterized in that the second abutment surface (342) of the collar (34) of the shutters (3) is a spherical surface while the thrust surface (511) the expansion member (51) is straight. 5. A valve with a pressure relief device upstream and downstream of the firing member of the firing valve of points 1 to 3 _, characterized in that the second abutment flat shoulder (34) of the shutters (3) is straight, behind the valve. ⁷¹ JJJ also the thrust plofofe.a (311) -distributing Deer (51) consists of a cylindrical surface *