DE2210458A1 - ROTARY VALVE - Google Patents

Description

The invention relates to a rotary valve with a spherical zone-shaped Shell-shaped shut-off body, which alternately can be pressurized from both sides iBt *

With such rotary valves, such a design of the shut-off body and arrangement of the sealing elements is necessary, which allow the rotary valve to be used to shut off ύοϊι lines with gaseous and liquid media, irvsbescnaere for media conveyed under high pressure through lines of large nominal widths, whereby it must be observed that with many media there are deposits in the pipelines and shut-off devices, which have to be removed from time to time

It is known to use gate valves, butterfly valves and ball valves to meet these requirements. Gate valves have the disadvantage of being too high. Butterfly valves show particular disadvantages when cleaning the pipelines, since they do not allow the pigging of the same

a) The forces on the ball caused by the pressure of the flow medium are in most cases directed into overhung bearing journals and passed on from these to the housing, resulting in deformations of the ball, a higher weight of the ball for reasons of dimensional stability and high coefficients of friction when switching follow the ball. intuvc : -. :, & .

b) The switching of the ball takes place under the pressure de "s flow medium on the ball under the pressure of ⁷ one or ^J two seat rings for the sealing rings against the ball · Since # 'due to high wear of the sealing rings as well as the spherical surface, non-uniform loading of the Seat rings with the sealing rings, e.g. when the ball valve is half open during the switching process and very high frictional forces. ^Sv - ^{> l} ' ^!

c) Because of a) and b) there is a large drive torque at the Scha-L ^ - the ball is necessary.

d) The sealing rings are washed out on one side at the start of opening and in the last closing phase.

e) The structural design of the seating rings with the Abdichtungeringen or · of the guide bushings of the seat rings must be such DAEs one hand, no overstress the sealing rings to large compressive forces of the flow medium and on the other hand, at low medium pressure no leakage · Pur arises the initial pressure are therefore elements necessary additional spring ·

The finding should improve that. It is based on the task of creating a rotary valve for large nominal sizes and high pressures, which exhibits good tightness and which

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when switching the rotatable shut-off body, the sealing ring or rings do not touch the opposite sealing surface and the drive torque for the shut-off body is minimal is.

According to the invention, this object is achieved in that the shut-off body in the form of a spherical zone-shaped shell State of the closed seal by means of an axially displaceable sealing bushing with an "effective surface" between them Sealing sleeve and a pipe socket of the housing of the rotary valve is held under pressure, between an upper bearing pin for driving the shell and its bearing bush and between a lower bearing journal of the shell and its bearing bush in the axial direction of the sealing sleeve on both sides there are games, and that for the switching process of the shell one of the an annular surface oppositely directed effective annular surface is present, through the gap between the shell on the one hand and the sealing sleeve and the pipe socket are given on the other hand, for the state of the closed seal the addition of the play between the upper and lower bearing bushes and their upper or »lower guide and the play between the upper or lower bearing bush and the upper or lower bearing journal - both games in the axial direction of the sealing socket on the side facing the closed seal always gives a sum that is greater than the axial play between the sealing bush and the housing flange of the housing is

To ensure a perfect seal between the spherical zone-shaped To be able to ensure shell and the pipe socket of the housing, according to further developments of the invention between

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the shell and the pipe socket a sealing ring either in the pipe socket or arranged in the shell.

According to the invention, a sealing ring is preferably in the sealing bush for sealing between the shell and the sealing bush housed.

In order to be able to clean the rotary slide valve by pigging for the purpose of cleaning pipes and fittings, is according to the invention the circular opening of the shell with the passage openings of the sealing sleeve, the pipe socket from the housing and the Housing flange identical.

To either press the shell against the pipe socket of the housing with the help of the sealing sleeve for the sealing process to be able to or for the switching process the sealing sleeve with the shell of the pipe socket with the formation of gaps between To be able to pull off the three parts, comes after a further embodiment of the invention with the help of a known pneumatic or hydraulic switching device, the flow medium from the side of the rotary valve with the higher pressure either into the space with the one effective annular surface, with the sealing bushing being pressed against the shell, or into the space with the other effective annular surface via which the sealing sleeve with the shell is pulled off the pipe socket of the housing, wherein the space that is shut off from the flow medium is completely relieved of pressure.

The advantages achieved with the invention are in particular that when the seal is closed, the effect of the Contact pressure from the sealing bushing without the use of special spring elements via the spherical zone-shaped shell directly into the pipe socket the housing and further into the pipeline,

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without compressive stresses being able to be introduced into the housing via both bearing journals, since in all operating positions There are clearances between the bearing journals and the bearing bushings of the shell, and that when switching the shell gaps between her and each of the sealing bushing and the pipe socket of the housing are present, whereby only minimal drive torques are required during the switching operations and the important ones and relatively sensitive sealing rings with their sealing surfaces on the counter elements are particularly protected the weight of the moving parts is extremely low here

An embodiment of the invention is shown in the drawing and is described in more detail below. Show it Fig. 1 is a vertical longitudinal section

by a rotary valve, spherical zone-shaped

Shell in closed position,
Fig. 2 shows a section along the line H-II in Fig. 1 and

Fig. 3 is a perspective view of the as

zones
spherical shell formed shut-off body.

In FIGS. 1 and 2, 1 is the housing of the inventive Designated rotary valve, the pipe socket 2 of the housing 1 with the sealing ring 3 one end and the housing flange 4 limits the other end of the rotary valve with an O-ring 5. The shut-off body is the spherical zone-shaped shell 6, which is drawn in a perspective view in FIG. 3 and which circular opening 7, an upper arm 8, a lower arm 9, an upper hub 10 and a lower hub 11 shows · In the upper Hub 10 is the upper bearing bush 12 with a spring 13 connecting both parts and in the lower hub 11 the lower bearing

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Bush 14 fixed, housed without radial play. The location tion of the shell 6 relative to the housing 1 takes place with the help of the upper bearing pin 15, which is also provided for driving the shell 6 and has a spring 16 with radial play between the bearing pin 15 and the bearing bush 12 , and with the help of the lower Bearing pin 17, which is firmly seated in the housing 1 ″. The rotatable upper bearing pin 15 is mounted in a known manner in the housing 1 and sealed against it. In the state of closed seal between the bearing pin 15 or 17 and its bushing 12 or 14 are in flow Rich tung of the rotary valve, the radial Games S ₂ and Q .. available · The necessary for the sealing pressure force on the shell 6 of the packing sleeve 18 exercised, which is axially movable in the housing 1, wherein in the state of the closed seal, the axial play between the sealing sleeve 18 and the housing flange is denoted by β . The sealing bush 18, which bears the sealing ring 19 in its end face against the shell 6, is at the top on its outer shell with the Ti-shaped upper guide 20 for the bearing bush 12 and at the bottom of its outer shell with the U-shaped lower guide 21 for the bearing bush 14, with the radial clearance B ₁ in the axial direction of the sealing sleeve 18 in the closed seal between the guide 20 or 21 and the bearing bushing 12 or 14 · The sealing bushing 18, designed as an annular piston, shows the two oppositely directed effective surfaces F ₁ and Fp »which each represent a wall surface of the rooms 22 and 23. While the space 22 is formed by the housing flange 4, the housing 1 and the sealing sleeve 18 with the annular surface F. and against its surroundings by the O-ring 5,

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an O-ring 24 between the housing 1 and the sealing sleeve 18 and an O-ring 25 between the G-ehäuseflansch 4 and the sealing sleeve 18 is sealed, the space 23 of the Dichtbuch.se with the annular surface Fp »the housing 1 and a ring 26, which is locked by an outwardly pressing clamping ring 27, and is formed against its surroundings by the O-ring 24, an O-ring 28 between the housing 1 and the ring 26 and an O-ring 29 between the ring 26 and the sealing sleeve 18 sealed. With the help of the pneumatic or hydraulic switching device 30, which has an axially displaceable L. ppelkolben 31 for the switching process, which is operated by hand, mechanically, electrically, pneumatically or hydraulically in connection with the drive element of the bearing pin 15, depending on the need - for the sealing process or for the switching process of the shell 6 - the space 22 or the space 23 is placed under the respective highest pressure of the flow medium. It does not matter whether this highest pressure is shown in the passage opening of the pipe socket 2 or in that of the housing flange 4. Purely for the function of the switching device, the pipe socket 2 receives a bore 32 from the outside to the passage opening, the housing flange 4 has a bore 33 to the passage opening and a bore 34 to the space 22 and the housing 1 has a bore 35 to the space 23. With reference to FIG and 2, the operation of Drehsehiebers be explained. According to FIG. 2, the pressure of the flow medium in the passage opening of the housing flange 4 is greater than in the passage opening of the pipe socket 2, so that the simple piston of the switching device 30 is pushed to the right. The double piston 31 has been arbitrarily moved to the left into the "SEAL CLOSED" position, so that the flow medium over the cylinder of the double piston

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bens 31 and enters the space 22 through the bore 34. Since in this position of the double piston the space 23 is connected to the atmosphere via the right PRESSURE EQUALIZATION, the annular surface P _{1 can be} fully effective and push the sealing sleeve 18 to the right and press the shell 6 against the pipe socket 2. With an annular surface F ₁ dimensioned for certain pressure conditions, the compressive force of the sealing bush 18 against the shell 6 and against the pipe socket 2 can thus be determined beforehand. Conveniently, the sealing rings 19 and 3 from z. B. PTFE protrude so far from its groove that the compressive force utilizes the permissible compressive stress on the sealing material and when the compressive force increases, the sealing rings 19 and 3 disappear in their groove and the additional force transmission through metallic contact between the sealing sleeve 18 and the shell 6 and between the shell 6 and the pipe socket 2 takes place. ^{Since the games a} p and s are present in this sealing position, the bearing journals 15 and 17 are completely relieved. The games ^ ₁ and a are now also given, the components being designed in such a way that the condition S ₁ plus 3p greater than 8 applies. For the switching process of the shell 6, the double piston 31 must be brought to the right into the "DICHTUNG OPPEN" position for the opening or closing of the rotary valve, so that the pressurized flow medium enters the space 23, whereby the space 22 is now via the left DRUCIiAUSGIiEICH is connected to the atmosphere. Now the ring surface P _{2 can become} fully effective and push the sealing bush to the left. The game O ₁ disappears completely and the game? ₂ becomes smaller by such a distance until the game _a , has disappeared, while the game 9 ^ becomes larger.

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The disappearance of the game s creates a gap between the sealing bushing 18 and the shell 6 and as the game ß 2 becomes smaller, a gap arises between the shell 6 and the pipe socket 2. Due to the fact that these other extremes were also found the sealing bush 18 and the shell 6 have a residual play Sg and an enlarged play s. are present, it is ensured that under no operating condition of the rotary valve forces are transmitted from the shell 6 via the bearing journals 15 and 17 to the housing. When switching the shell 6 by rotating the bearing pin 15, the torque being transmitted to the shell 6 via the spring 16, the bearing bushing 12 and the spring 13, according to the invention only bearing friction forces have to be overcome. After the completion of each switching process, it does not matter whether the spherical zone-shaped shell 6 blocks or releases the flow opening, the double piston 31 of the switching device is always returned to the left in the "SEAL CLOSED" position, whereby the sealing sleeve 18 again the shell 6 presses against the pipe socket 2 This is also important for the AÜF position of the rotary valve, as otherwise the housing would be constantly under the medium pressure and incoming foreign bodies could get between the sealing sleeve 18 and the housing 1 and impair the functionality of the rotary valve.

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Claims (6)

PATENT ADVOCATE .. ₁₀ 3oo4 / 22 1000 BERLIN 27 EGELLSSTRASSE 20 Claims; Π. ! Rotary valve with a shut-off body designed as a spherical zone-shaped shell, which can be acted upon alternately from both sides by excess pressure, characterized in that the spherical zone-shaped shell (6) in the closed seal state by means of an axially displaceable sealing bushing (18) with an effective annular surface (P ₁ ) between this sealing sleeve (18) and a pipe socket (2) of the housing (1) of the rotary valve is held under pressure, between an upper bearing pin (15) for driving the shell (6) and its bearing bush (12) and between a lower bearing pin (17) of the shell (6) and its bearing bush (H) in the axial direction of the sealing bushing (18) on both sides radial play (s ₂ and s.) Are present, and that for the switching process of the shell (6) one of the one annular surface (P ..) oppositely directed effective annular surface (F ^) ^v o ^r ~ hands is, through the gaps between the shell (6) on the one hand and the sealing bush (18) and the pipe socket (2) a On the other hand are given, with the addition of the play (β-) between the bearing bushing (12; H) and its guide (20; 21) and the play (feg) between the bearing bushing (12; H) and the bearing pin (15; 17) - both games (»-, and a ₂ ) in the axial direction of the sealing sleeve (18) - always results in a sum that is greater than the axial play (S ^) between the sealing sleeve (18 ) and the housing flange (4) of the housing (1) is 309838/0040 -11- 2. Rotary valve after. Claim 1, characterized in that that a sealing ring (3) is arranged in the pipe socket (2) between the shell (6) and the pipe socket (2), 3. Rotary valve according to claim 1, characterized in that a sealing ring in between the shell (6) and the pipe socket (2) the shell (6) is present. 4 · Rotary slide valve according to claim 1 Ms 3, characterized in that that between the shell (6) and the sealing sleeve (18) a sealing ring (19) is preferably housed in the sealing sleeve (-8) is. 5. Rotary slide valve according to claim 1 to 4, characterized in that that the circular opening (7) of the shell (6) with the passage openings of the sealing sleeve (18), the pipe socket (2) and of the G-ehauseflansch.es (4) is identical. 6. Rotary slide valve according to claim 1, characterized in that with the help of a known pneumatic or hydraulic switching device (30) the flow medium from the side of the rotary slide valve with the higher pressure either into the space (22) with the one effective annular surface (]? .. ) or into the space (23) with the other effective annular surface (F ₂ ), whereby the space (23 or 22) which is switched off from the flow medium is completely relieved of pressure. 309838/0040 Blank page