DE3016080A1 - BELLOW SEAL VALVE - Google Patents

Description

Bellows sealing valve

The invention relates to a bellows seal valve with a a sealing bellows existing shaft seal, in particular a bellows sealing valve with a with the sealing bellows associated counter-bellows and a protective gas sealed in the interior of the two bellows. The bellows seal valve the invention thereby has an improved service life, reliability and stability.

A bellows seal valve has a stem seal consisting of a bellows. The bellows surrounding the valve stem is in generally at one end to a valve member and at its other end to a wall of the valve housing in such a manner welded so that a fluid flowing through the valve does not leak along the circumferential surface of the valve stem even then, when the valve stem is moved.

However, when a conventional bellows seal valve is applied to a high temperature fluid, the temperature in the area of the bellows opposite the area in contact with the liquid to such a height increases that the bellows is easily oxidized. This affects the life of the bellows. When the bellows in use breaks, the fluid flowing through the valve escapes immediately.

An object of the invention is to eliminate the above-mentioned drawbacks in a conventional bellows seal valve.

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Another object of the invention is to provide a bellows seal valve which increases its service life, Reliability and stability enables and prevents leakage of a fluid flowing through the valve has a double seal structure.

The invention provides an improvement in a bellows seal valve with a valve housing including a valve seat formed therein, with a valve stem ', the is inserted into the valve housing through an opening provided in the wall of the valve housing, with a valve member at the lower end of the valve stem and with a sealing bellows between the valve member and the valve housing the opening for sealing the valve stem. By moving the valve stem, the valve member is in contact with the Valve seat brought and moved away from it.

The invention is characterized by a counter-bellows in an area at the end of the sealing bellows which is in contact with it with a fluid flowing in the valve housing end opposite. The counter bellows seals a protruding one Part of the valve stem from outside the valve housing and is in communication with the sealing bellows. In the interiors the sealing bellows and the counter bellows are sealed with an inert gas.

A bellows seal valve according to the invention is particularly Effective where a high reliability of the valve is required and when it is used at a high temperature fluid will. It is useful for a liquid metal in a facility with a fast breeder or other species used by nuclear power plants and chemical plants.

The invention is illustrated in conjunction with the drawing, for example described.

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The single figure shows an embodiment of the invention applied to a ball valve, the basic construction and operations are substantially the same as a conventional valve.

A handle 1 is provided on the upper end part of a valve stem 2. The valve stem 2 is inserted into a valve housing k through an opening 12 which is formed in a wall of the valve housing, that is to say in a delimiting wall 6.

When the handle 1 is rotated, the valve stem 2 is moved vertically without rotation. As a result, one will be at the bottom Valve member 2 attached to the end part of the valve stem 2 is brought into contact with a valve seat 5 in the valve housing 4 or moved away from opening and closing the valve. Between the valve member 3 and the boundary wall 6 a sealing bellows 7 is provided. One end of the sealing bellows 7 is welded to the valve member 3, while the other End is welded to the boundary wall 6, whereby the valve stem 2 is sealed. The valve body is from enclosed by a heat insulating material 8.

In this embodiment, the mating bellows 10 is between the Boundary wall 6 and a mounting plate 9 attached to the upper part of the valve stem 2 is provided, in the inner hollow areas A of the sealing bellows 7 and the counter-bellows 10 is sealed with a protective gas. Through an area B a fluid flows. An air area C is provided.

In general, an inert gas or protective gas is supplied from a protective gas sealing plug, not shown, in the mounting plate 9 introduced, to which the counter bellows 10 is attached o The protective gas then passes through a gap between the Opening 12 of the boundary wall 6 and the valve stem 2 in the sealing bellows 7.

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Since the areas A are filled with protective gas, the sealing bellows is never oxidized even if its temperature is raised to a high level due to a high-temperature fluid flowing through the valve.

The counter-bellows 10 has an air area C around it and is located in an upper non-heat-insulating area. Therefore, the temperature of the opposing bellows 10 is not increased and it is never oxidized. To maintain the counter-bellows 10 at a low temperature, a vent (not shown) can be provided in a side wall of an upper housing 11, or between the boundary wall 11 and the opposite wall of the upper housing 11 (between the areas B and C) a vent can be provided. heat insulating material 13 are used.

If the sealing bellows 7 should break in the valve according to the invention, leakage losses of the fluid flowing through can occur prevented by the mating bellows 10 v / grounding. Thus, if a fluid detector 14 (e.g. a sodium sensor in the event that Sodium flows through the valve) is provided in these bellows 7 and 10, i.e. in areas A, leakage losses can occur on the fluid can be found earlier by the fluid detector, so that accidents can be prevented from occurring.

Experimental data regarding the influence of the atmosphere of the bellows on their lifespan are given in the table below specified.

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the atmosphere
outside of
of the bellows

Atmosphere within the bellows

temperature

Service life (experimental value)

Luf-f-air

liquid
sodium

Air air argon gas

500

20th

400

2 χ 10 ^H cycles

2 χ 10 ⁵ cycles

1.7 x 10 ⁶ cycles

The bellows was not broken even at the end of the cycles)

The following is information about the bellows used in the above experiments:

Material:

free length:

larger diameter:

smaller diameter:

Thickness:

Number of beads:

Stretching distance:

Execution:

stainless steel (SUS 316L) 50 mm
55 well
36 mm

0.2 mm χ 2 layers
11

12 mm

seamless bellows formed with two layers.

The results of the above tests show that the life of the sealing bellows used in the invention is about a hundred times that of conventional bellows, and that the life of the mating bellows used in the invention, provided that it is designed to be at a normal temperature is held, which contains about ten times that of a conventional bellows is. Therefore, the life is an

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301608Q

Bellows seal valve as a whole according to the invention that approximately Ten times that of a conventional bellows seal valve.

One in a bellows seal valve of the above construction The sealing bellows used in the invention has at least one hundreds of times the service life of that of a conventional sealing bellows and also an improved safety compared to it Leakage of a fluid flowing through the valve. Even if a bellows seal in a valve according to the invention is broken, a fluid flowing through the valve is sealed by the mating bellows. This allows one Great improvement in the safety of a valve against leakage losses in a fluid flowing through it. Since the life of a bellows used in the invention is increased by about ten times the service life of bellows in a conventional bellows seal valve, is Lifetime of a bellows seal valve as a whole according to the invention compared to that of a conventional valve of this species increased to a great extent. Thus, the reliability and safety of a bellows seal valve can also be improved of the invention can be increased to a significant extent.

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Claims (4)

Dr. F. Zumstein Sr. - Dr. F. Aeomartn - Dr. R. Kcanigsberger Dipl.-Phys. R. Holzbauer - Dipl.-Ing. F. Küngseisen - Dr. F. Zumstein jun. PATENT LAWYERS 80OO Munich 2 ■ BräuhausstraGe 4 ■ Tetphone collective no. 22 53 41 ■ Telegrams Zumpat ■ Telex 529979 Ref: 262-TY DORYOKURO KAKUNENRYO IiAIHATSU JIGYODAN, Tokyo / Japan PATENT CLAIMS M »bellows seal valve with a valve housing, including a valve seat, with a valve stem extending through an opening in the wall of the Valve housing is inserted into this, with a valve member at the lower end of the valve stem, the The valve member can be brought into contact with the seat and moved away from it by moving the valve stem, and with a sealing bellows between the valve member and the housing wall around the opening for sealing the valve stem, characterized by an opposing bellows (iö) in an area at the end of the Sealing bellows (7) »which is opposite the end in contact with a fluid flowing in the valve housing j wherein the counter-bellows (10) seals a part of the valve stem (2) protruding from the valve housing (4) and with the sealing bellows (7) in connection 030048/0622 is, and sealed by one in the interior (A) of the sealing bellows (7) and the counter-bellows (10) Protective gas. 2. Bellows sealing valve according to claim 1, characterized in that that adjacent to the valve housing (4) a housing (11) is arranged which encloses the counter bellows (10) therein, and that the valve stem (2) out of the housing (11) protrudes. 3 bellows sealing valve according to claim 2, characterized in that that between the wall of the valve housing (4) and the opposite wall of the housing (11) is a heat insulating Material (13) is used. 4. bellows sealing valve according to claim 1, characterized in that in at least one of the interior spaces (A) of the sealing bellows (7) and the counter bellows (10) a fluid sensor (14) is provided.