DE3339472A1 - In-series valve and seal unit - Google Patents

Abstract

In pipe systems, a plurality of valves are often arranged in series. If one of the valves leaks, an indicator arranged between the fittings can indicate a leak. However this does not allow indication of which of the two valves is leaky. The invention therefore proposes an apparatus housing in which the operating or control elements for the fittings are arranged and are surrounded by externally adjustable sealing elements.

Description

Valve and seal unit in series design

The invention relates to an apparatus for sealing shut-off and / or control valves in series.

In pipeline systems there are often several valves one behind the other arranged in series. For safety reasons often two switching valves can be connected in series. There is a monitoring line between the valves appropriate. If both fittings are closed, the space in between must also lead to the line to be sealed. If one of the valves leaks, an between the indicator arranged on the fittings indicate a leak. The display device is but unable to indicate which of the two valves is leaking. That's why in such a case it is necessary to replace both valves The same thing applies to the combination of a switching valve with a control valve if both are in Are connected in series.

The invention is based on the object of creating a device with which the sealing in the event of a leak indication from the outside, without complex assembly work, possible it.

The solution according to the invention is characterized by a housing in which the switching or control elements of the fittings arranged and are encompassed by externally adjustable sealing elements. As adjustable sealing elements Sealing shells made of graphite, especially elastic graphite, are suitable. To the Adjustability of the sealing effect of the sealing shells can be in the space between The ring made of elastic graphite used for the switching or control elements is used, which exerts a retensioning effect on the sealing shells. For this purpose, one of externally adjustable penetration body provided in the central elastic graphite ring takes effect and, thanks to its displacement effect, provides sufficient pressure to re-seal the sealing shells generated. Preferably there are between the elastic graphite ring and the sealing shells used additional spring elements, which in turn are made of graphite can exist.

The one arranged between the sealing shells for the switching or control elements elastic graphite ring can be bordered by metal plates on which the Can support spring elements to transmit the clamping pressure. In addition, there is the possibility of framing the central graphite ring with a metal ring 7 of the has axially outward-facing collars, which the retensioning forces to the outside pass on to the spring elements.

It is only necessary to reseal a leakage that has been indicated necessary, the indenter for the ring made of elastic graphite radially to push forward, for example with the help of a thread to by the displacement effect to generate sufficient axial clamping force on the sealing shells. Each additional Assembly work is unnecessary.

Two exemplary embodiments of the invention are shown schematically in the drawing shown and explained below.

1 shows the arrangement of two switching valves in series with a display device arranged between the fittings, FIG. 2 the combination of a manually operated shut-off valve with a control valve in series and one between the fittings arranged display device, Fig. 3 the fittings according to figures 1 or 2 comprising device housing, FIG. 4 shows a device with a spherical Shut-off element and a slide-shaped and Fig. 5 shows the arrangement of a central elastic graphite ring within a metal ring with axially pointing collars.

The display 3 monitors the between the fittings or valves 1 and 2 lying room. The pressure 4 can be on one side or on both sides 4 queuing. In the event of a leak, the display 3 would report a leak. However, it is difficult to determine which valve 1 or 2 is defective. Therefore both would have to Valves 1 and 2 are replaced.

In other systems, for example, switching valves are used with control valves connected in series (Fig 2).

Here, for example, an automatic valve 5 is installed, which can work with pneumatic, hydraulic or electrical auxiliary energy. That Valve 6 represents a manual shut-off valve. The display 3 in turn monitors this Leak from 5 or 6.

Here, too, both fittings would have to be removed and reinstalled together will.

In Fig. 3, for example, two switching balls 7 and 8 are shown. They are adjusted by turning (arrow) around their own Z and X axes. How general known, are the Scn.altkugeln with ball valves, here 7 and 8p with a bore 9 and 10 provided. If these are placed transversely to the direction of flow, they are Taps closed. Sealing shells 11 and 12 must be in contact with the switching balls.

When the balls turn, the axis of the switching ball can move change little. To compensate for the resulting play, the sealing shells must be arranged resiliently This task is taken over by the spring elements 13.

According to the invention, the spring elements are made of elastic graphite. They are supported by plates 14. According to the invention, there is between the plates 14 the elastic graphite ring 15.

If, for example, the shells 11, 12 or the switching balls 7 or 8 leaking against each other due to too much play, can be achieved by pretensioning the spring elements 13 and 15, the sealing elements 1 1 and 12 again prestressed with sufficient contact pressure will. For this purpose, one or more penetrators 16 are attached to the circumference, which can be pressed into the graphite ring 15 from the outside.

The bore 17 serves as a leak detection line that passes through the seal package and the fitting housing 18 was passed to the outside. Monitoring the Switching balls can of course. only take place if the through holes 9 or the switching balls 7 and 8 are perpendicular to the direction of flow.

According to Figure 4, only a switching ball was through a slide 19 replaced. This slide moves transversely to the flow direction and gives the opening cross-section 20 to a greater or lesser extent according to its stroke position free. Experience has shown that switching balls (ball valves) are worse for control tasks suitable as valves or sliders.

Often, control valves must also have switching valves - as described above - be combined. Here, too, a leak detection line, as described in Figure 3, to be built in. However, control valves usually have the task of controlling the flow regulate and do not necessarily have to be tight. According to Figure 4, however, takes over the switching valve has the task of ensuring a tight seal.

In the event of high pressure drops (e.g. at the slide), the throttle points 21 and 22 caused severe damage.

In the case of damage (cavitation, erosion or abrasion) it is not possible to achieve a still tight seal at the throttle points.

In this case, the switching ball 8 (Fig. 4) ensures that anyway a sufficient degree is granted. To ensure high availability and a long service life the fitting shown in Figure 4 are the most important inner parts 8, 12 12, 19, 20 made of ceramic materials.

According to the invention, more than two switching balls and throttle bodies can be attached one behind the other. Figure 5 shows, for example, how the middle one Graphite up device 15 can be designed with the penetrator 16 When penetrating of the body 16 in the graphite ring 15 are the axially pointing Collars 24 pressed against the spring elements 13. According to the invention, the ring 23 the graphite ring 15 (or graphite filling). Move the two sealing shells 12 axially outwards and press them against the switching balls, not shown (Fig. 5) - blank page -

Claims (1)

CLAIMS 1. Device for sealing in series Shut-off and / or control fittings characterized by a housing (18) in which the switching or control elements (7,8921) of the fittings are arranged and through from the outside adjustable sealing elements (11X12) are included. 2. Device according to claim 1, characterized characterizedp that sealing shells (1112) made of graphite serve as sealing elements. 3. Apparatus according to claim 2, characterized in that the sealing shells consist of elastic graphite. 4. Device according to one or more of claims 1 to 3s characterized that in the space between the switching or control elements on the Sealing shells (12) acting ring (15) made of elastic graphite inserted and with an externally adjustable penetration body (16) is provided. 5. Device according to one or more of claims 1 to 4 »thereby characterized in that between the elastic graphite ring (15) and the sealing shells (12) additional spring elements (13) are used 6 device according to claim 5, characterized in that the additionally arranged spring elements (13) consist of graphite 7. Vorricntung according to one or more of the claims 1 to 6, characterized in that the switching or control elements of the fittings are spherical with a through hole (9710). 8. Device according to one or more of claims 1 to 7, characterized characterized in that the sealing shells and the switching or control elements made of ceramic Material. 9. Device according to one or more of claims 1 to 8, characterized characterized in that a spherical switching or regulating member with a slide-shaped is combined. 10 Vorricntung according to one or more of claims 1 to 9, characterized characterized in that a monitoring hole between the switching and control elements is arranged for a leak detector (3). 11. The device according to one or more of claims 1 Dis 10, characterized characterized in that the acting on the Dichtscha len graphite ring (15) between two support plates (14) is arranged 12. Device according to one or more of the Claims to 11, characterized in that the graphite ring (15) consists of a metal ring (23) is bordered with axially outwardly pointing collars (24).