SE445249B - PROCEDURE AND DEVICE FOR SEAT VALVE SEALS - Google Patents

Description

8200654-5 - claim 1. In a valve constructed in this way, the sealing surfaces will retain their sealing shape regardless of the wear they are subjected to, mainly due to the plastic formability of the valve body. Although the position of the valve body in relation to the valve seat is slightly different with each closing of the valve, the plastic deformation of the valve body against the harder valve seat will provide a reliable seal at each closing. It can thus be said that the sealing surfaces are reshaped with each closing of the valve. The tightness of the valve is further improved by the fact that the valve seat, ie. the part which retains its shape is fixedly arranged in the valve housing.

The part of the valve body that will abut against the valve seat is enlarged due to the deformation of the valve body caused by the normal closing force.

As a result, the valve body will be formed against the surface of the valve seat. This reduces the risk of leakage. In a preferred embodiment of the invention, the valve seat is designed so that its contour line in an axial section has a considerably larger radius of curvature than the corresponding contour line of the valve body. The contour of the valve seat is preferably rectilinear, i.e. the valve seat is conical, while the contour line of the valve body consists of an arc of a circle or some similar continuously curved curve. The sealing surface of the valve body can be made of stellite, a metal alloy often used in valves, which usually contains chromium and cobalt. Both the sealing surface of the valve body and the valve seat _can consist of different hard stellite, whereby the softer stellite is used in the valve body. It has been found that the increase in the extent of the contact surface when using the valve is very small, which contributes to the sealing surfaces. long maintains a shape favorable for achieving good sealing.

In special cases, for example in valves intended for chlorine-containing media, the sealing surface of the valve body can advantageously be made of polytetrafluoroethylene or of a plastic with corresponding properties, while the valve seat is made of acid-resistant steel.

The invention also relates to a seat valve which is mainly designed in the manner described above.

The invention will be described in more detail in the following with reference to the accompanying drawing, the only figure of which shows an axial section through an embodiment of a seat valve according to the invention.

In the drawing, 1 denotes a valve body connected to a valve spindle 2, which extends through an opening 8 in a cover 3 arranged on the valve housing 4. The valve body 1 comprises an element 5, the outer surface of which constitutes the sealing surface of the valve body . A stationary conical valve seat 6 is arranged in the valve housing H. According to the invention, the element 5 consists of softer material - than the valve seat 6, whereby when closing the valve the element 5 "will be slightly deformed against the harder valve seat 6. This keeps the valve tight, wear that occurs on the sealing surfaces.The element _§ _may be attached to the valve body 1 by welding, soldering - or in any other suitable way. In connection with the invention, the valve comprises in a conventional manner an inlet opening 9 and an outlet opening 10 as well as a seal 7 between the valve housing H and the detachable lid 3.

The invention is not limited to the embodiment shown, but a number of variants and modifications are conceivable within the scope of the following claims.

Claims (6)

8200654-5 PATENT REQUIREMENTS A method of sealing a seat valve comprising a movable valve body (1) and a fixed metallic valve seat and sealing surfaces (5,6) on the valve body and on the valve seat, which sealing surfaces are of plastically deformable material, the valve surface (5) of the valve body being inclined 1 in relation to the direction of movement of the valve body and is of a softer material than the sealing surface (6) of the valve seat, characterized in that at least the sealing surface (5) of the valve body is given a shape which at least substantially corresponds to a spherical surface or other similar rounded shape, and that the sealing surface (5) of the valve body is dimensioned in relation to the normal closing force of the valve, that this closing force is able to cause a plastic deformation of the sealing surface (5) of the valve body against the valve seat (6), thereby ensuring that the valve body and valve seat resulting shape regardless of the wear to which the sealing surfaces are exposed. Method according to claim 1, characterized in that the sealing surface (6) of the valve seat is designed such that its contour line in an axial section through the valve seat has a much larger radius of curvature than the corresponding contour line of the valve surface (5) of the valve body, preferably rectilinear. Method according to claim 1 or 2, characterized in that the valve body and the sealing surfaces (5, 6) of the valve seat are formed of different hard metal alloys, preferably of stellite, the valve seat (6) being made of the harder alloy. Method according to Claim 1 or 2, characterized in that the sealing surface (5) of the valve body is made of polytetrafluoroethylene or of a plastic with corresponding properties, while the valve seat (6) is made of acid-resistant steel. 8200654-5 5 Apparatus for applying the method according to any one of the preceding claims to a seat valve comprising a movable valve body (1) and a fixed metallic valve seat and sealing surfaces on the valve body and on the valve seat, which sealing surfaces are of plastically deformable material, the valve body sealing surface is inclined with respect to the direction of movement of the valve body and is of softer material than the sealing surface (6) of the valve seat, due to the fact that at least the sealing surface (5) of the valve body is substantially spherical or has some other similarly rounded shape, and that the sealing body ( 5) is so dimensioned in relation to the normal closing force of the valve that this closing force is able to cause a plastic deformation of the sealing surface of the valve body (5) against the valve seat (6) to thereby ensure that the valve body and the valve seat maintain their seal. the wear the sealing surfaces are exposed to. Device according to claim 5, characterized in that the sealing surface (6) of the valve seat is conical and of a harder metal alloy than the sealing surface (5) of the valve body. characterized