DE2502240A1 - SHUT-OFF DEVICE FOR PIPELINES - Google Patents

Description

Yes 3092

to Steege & Janich KG, Neubeckum

Shut-off device for pipelines

The invention relates to a shut-off device for pipelines, with one between an open position and one Shut-off position movable shut-off element and at least one in the shut-off position between the shut-off element and the pipeline located sealing element.

In particular, linearly displaceable slide plates as well as rotatable or pivotable ones are used to shut off pipelines Known flaps. Regardless of the construction of the shut-off element selected in the individual case, the ones used for sealing are used Sealing elements used between the movable shut-off element and the pipeline, especially when opening and closing Closing movement exposed to extremely high mechanical wear. To make matters worse, then if the pipelines carry hot, dusty gases, the sealing elements are also subjected to high thermal loads are and that disturbing material deposits often occur on the sealing elements and their mating surfaces.

Since the previously used sealing elements were mostly not able to cope with these loads for a long time, has one already tried special sealing elements at all

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to be omitted, i.e. the sealing solely by the surfaces of the movable shut-off device that are in sliding contact with one another and the counter surface firmly connected to the pipeline. However, this occurs especially with pipelines large dimensions, which are intended for hot media, cause considerable difficulties. Namely, it results in such cases so significant thermal expansion of individual components that a considerable play between the movable shut-off element and its stationary counter surfaces must be provided if jamming phenomena are avoided should. On the other hand, however, such a large play means a completely inadequate seal in many cases between the sections of the pipeline separated from one another by the shut-off device.

Attempts have also been made to reduce the annoying wear and tear on the sealing element during the opening and closing movement to avoid thereby that the sealing element is formed by a deformable membrane, which only in the shut-off position is deformed (inflated) by a supplied pressure medium such that it is in sealing contact with the mating surface comes. However, such designs are relatively expensive. As the membrane in such a design must consist of rubber or similar material, only temperatures of a maximum of about 120 ° C are permissible.

The invention is therefore based on the object, while avoiding the shortcomings of the known designs to develop suitable shut-off device for hot gas pipelines of large dimensions, which is achieved by a simple and reliable construction as well as perfect function over a long period of operation.

According to the invention, this object is achieved in that the sealing element is U-shaped bent spring steel

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strip is formed, which seals approximately in the middle area between the two clamping points with a mating surface cooperates.

A spring steel strip clamped in this way lies in the middle area between the two clamping points high spring pressure on the mating surface, but on the other hand it is elastic enough to be able to move in case of need (e.g. with a very solid caking present on the opposite surface) locally deform. It is also of particular importance that the deformation of the spring steel strip caused by the contact with the mating surface practically on the entire, part of the spring steel strip lying between the two clamping points expands. This has the consequence that on the sealing element Existing caking flakes off immediately when the shut-off device is inserted into the shut-off position.

Since the sealing element according to the invention to a can deform a considerable amount without the mechanical load on the sealing element or the contact pressure become unacceptably large on the opposite surface, one can move between the shut-off device itself and the stationary parts of the pipeline Provide a relatively large gap (as the spring steel strip seals this gap); this results in better guidance of the movable shut-off element and avoids malfunctions in the event of thermally induced problems Deformation of individual components.

Numerous further features of the invention emerge from the subclaims and are illustrated in the drawing illustrated embodiments explained in more detail.

Show in the drawing

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Pig. 1 shows a partial section through a first embodiment of the shut-off device according to the invention;

Figures 2 to 6 partial sections through further embodiments.

Between two in fig. 1 sections of a pipeline, not shown, there is a valve housing 1 which is firmly connected to the pipeline and which carries two inner profiles 2, 3 which serve to accommodate a shut-off element H. This shut-off element ¹ J is designed as a linearly displaceable slide plate and is movable between an open position and a shut-off position (in FIG. 1, the shut-off element 4 is illustrated in the shut-off position).

The shut-off element 4 carries two sealing elements 6, 7 on a profile web 5, which are formed by spring steel strips which are clamped on both longitudinal edges and bent into a U-shape in cross section. Rectangular profile tubes 8, S _3, tabs 10, 11 and screw bolts 12, 13 are used to clamp these sealing elements 6 and 7.

In the embodiment shown in Fig. 1, sealing elements 6, 7 are thus provided in the area of both broad sides of the shut-off element k . The space 14 between these sealing elements 6 and 7, which are arranged on different broad sides of the shut-off element 4, can be provided with a ventilation connection (not illustrated in the drawing). A barrier medium, for example, can be introduced into the space 1H through such a connection. A guide 15, which is also accommodated in this space 14, for an actuating element 16 of the shut-off element 4 is of no further interest in the present context.

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The spring steel strips that the sealing elements 6, 7 form, it is advisable to use stainless steel sheets, which are re-rolled in the cold state to achieve the spring properties. Depending on the circumstances, their thickness can now be between 0.15 and 0.5, preferably between 0.2 and 0.3 mm.

In a practical embodiment (for a pipeline of very large dimensions) the sealing element 6 has, for example a width B of about 50 mm and a height H of also about 50 mm. Such a sealing element with a thickness of 0.25 mm has an elastic deformability of 10 to 15 mm in the direction of the height H.

It goes without saying that the ratio of height to width of the cross-sectional profile of the sealing element also deviates can be selected from the illustrated embodiment. Appropriately, the height H is 0.8 to 2 times, preferably 1.0 to 1.5 times the width B. Essential for the creation of a good sealing effect (also under Consideration of thermal deformations and any caking) is, however, that the sealing element is approximately in middle area between the two clamping points of its edges, i.e. with the middle zone of the curved part of the U-shaped cross-sectional profile, cooperates in a sealing manner with the mating surface.

In the further exemplary embodiments shown in FIGS. 2 to 6, corresponding components are in each case with the same reference numerals as in Fig. 1, but with the addition of a letter (a, b, c, d or e). in the furthermore, only those features are explained in more detail below, in which the exemplary embodiments of the figures 2 to 6 differ from the arrangement in FIG.

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Fig. 2a shows an arrangement in which the shut-off device 4a is displaceable in a horizontal plane (the pipeline runs essentially vertically here). Sealing elements 6a are only in the area of one broad side (namely the upper broad side) of the shut-off element 4a is provided. The shut-off element 4a is supported on the other broad side Guide pin 17 off.

The arrangement is expediently made here so that the contact pressure between the sealing element 6a and the Opposite surface (of the profile 2a) enlarged by the gas pressure (arrow 18) prevailing in the lower section of the pipeline will.

Fig. 3 differs from the embodiment according to FIG. 2 only by a slightly different design of the profile web 5b on the outer edge of the shut-off element 4b.

While in the embodiments of Figures 1 to 3, the sealing elements are arranged on the movable shut-off device 4 illustrates an embodiment in which the sealing elements 6c, 7c on the stationary slide housing Ic are appropriate. The cooperating with the sealing elements 6c, 7c Opposing surfaces are formed by the profile web 5c of the shut-off element 4c.

Fig. 5 differs from the embodiment according to FIG. 4 only in that sealing elements 6d only interact with one broad side of the movable shut-off element 4d.

In the variant illustrated in FIG. 6, in contrast to the embodiment according to FIG. 5, it carries the shut-off element 4e forming slide plate at its lower edge,

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which is formed by the profile web 5e, a knife-like approach 5e ', which has a sharpened edge 19, which when Lowering the shut-off device into the shut-off position, any deposits penetrates in the lower area of the housing Ie. This knife-like approach 5e 'also forms with the lowest sealing element 6e cooperating mating surface.

While in all the illustrated embodiments, the shut-off device by a linearly displaceable slide plate is formed, the invention is also applicable to devices in which the shut-off as rotatable or pivotable flap is formed.

There are also embodiments possible within the scope of the invention, in which the shut-off device is in contact with the Pipeline introduced and only then through a pressure acting in the longitudinal direction of the pipeline in the shut-off position is moved. In this case, the sealing elements come only after this movement in the longitudinal direction of the pipeline of the shut-off element in sealing contact with its counter surface.

In such a case, it can be advantageous to use the

Sealing element forming spring steel strips in his to

ny

Plant on the opposite surface graining area with a deformable Overlay made of heat-resistant material, preferably made of asbestos, to be provided.

It should be emphasized that even in such cases in which the sealing element per se during the opening and Closing movement does not come into sliding contact with an opposing surface, the use of the spring steel strip according to the invention is advantageous because this results in both deformations due to thermal stresses and manufacturing inaccuracies can be ideally balanced.

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Claims (13)

25022A0 Claims Shut-off device for pipelines, with a shut-off element located between an open position and a shut-off position as well as at least one sealing element located in the shut-off position between the shut-off element and the pipeline, characterized in that the sealing element (e.g. 6) has one on both longitudinal edges clamped, in cross-section U-shaped bent Pederstahl strips is formed, which is approximately in the middle area interacts with a counter surface (e.g. 2) between the two clamping points. 2. Shut-off device according to claim 1, characterized in that the shut-off element (e.g. 4) is displaceable in a straight line Slide plate is formed. 3. Shut-off device according to claim 1, characterized in that the shut-off device by a rotatable or pivotable Flap is formed. 4. Shut-off device according to claim 1, characterized in that the sealing element (e.g. 6) on the movable shut-off element (e.g. 4) is attached. 5. Shut-off device according to claim 1, characterized in that the sealing element (e.g. 6c) at one with the pipeline permanently connected component, preferably on a stationary housing (e.g. Ic of the movable shut-off device (e.g. 4c) is attached. 6. Shut-off device according to claim 1, characterized in that sealing elements (e.g. 6a) only in the area of one broad side of the shut-off device (e.g. 4a) are provided. 609830/0753 7. Shut-off device according to claim 1, characterized in that sealing elements (eg 6, 7) are provided in the region of both broad sides of the shut-off element (eg k) . 8. Shut-off device according to claim 7> characterized in that that the space (14) between the sealing elements (e.g. 6, 7) arranged on different broad sides of the shut-off device (e.g. 4) with a ventilation connection is provided. 9. Shut-off device according to claim 1, characterized by such an arrangement of at least one sealing element (e.g. 6a) and the opposing surface (e.g. 2a) interacting with it, that the contact pressure between the sealing element and the opposing surface is through the gas pressure (18) prevailing in the pipeline is increased. 10. Shut-off device according to claim 1, characterized in that the shut-off element can be introduced into the pipeline without contact and can then be moved into the shut-off position by a pressure acting in the longitudinal direction of the pipeline. 11. Shut-off device according to claim 10, characterized in that the spring steel strip in its to rest on a Opposite area coming area carries a deformable support made of heat-resistant material, preferably made of asbestos. 12. Shut-off device according to claim 1, characterized in that the spring steel strip is rolled by a cold state Stainless steel sheet with a thickness between 0.15 and 0.5 mm, preferably between 0.2 and 0.3 mm, is formed. 13. Shut-off device according to claim 1, characterized in that the U-shaped cross-sectional profile of the sealing element (e.g. 6) has a height which is 0.8 to 2 times, preferably 1.0 to 1.5 times the width B. 609830/0753 - ίο - Shut-off device according to claims 1, 2 and 5 with a slide plate which can be lowered into the shut-off position in the vertical direction, characterized in that the slide plate ( ¹ each) carries a knife-like extension (5e ^f ) on its lower edge, which is connected to the lowest sealing element ( 6e) forms cooperating mating surface. 609830/0753 Blank page