FI68890C - TAETNING AV SAETESVENTIL - Google Patents

Description

68890

SEALING THE SEAT VALVE - TÄTNING AV SÄTESVENTIL

The invention relates to a method according to the preamble of claim 1 and to a valve made using this method.

It is known in sealing solutions for seat valves to make the seat surface of a harder material than the valve body. In this case, the seat surface is usually sharp-edged, so that it cuts the softer valve body, causing depressions and grooves when the valve is closed. Thus, the valve is not completely tight unless the grooves in question are set in exactly the same position. This requires backlash-free control of the valve body, which, however, is practically impossible to implement. This can result in the valve leaking after just a few uses.

Attempts have been made to avoid wear on the valve sealing surfaces by using equally hard materials in the valve seat and valve body. In practice, however, wear is unavoidable. For this reason, as the seat surface wears, the valve begins to leak after a certain period of use.

It is also known per se to use a harder material in the valve body than in the valve seat, as disclosed in U.S. Pat. No. 3,761,052 for sealing a slide-type valve. However, the wear problems of the sealing surfaces of the slide type valve differ from the problems of the seat valve to such an extent that the known construction is not sufficiently suitable for the latter type of valve.

The object of the invention is to improve the tightness of the seat valves so that, despite use and wear, they retain their tightness considerably longer than known solutions. The features of the invention appear from claim 1.

2 68890 By applying this method, an improved tightness is achieved in the valve, because when the position of the valve body varies with different closing times, it deforms against a harder valve seat, so that the valve remains tight despite wear. The sealing surface of the valve body is thus, in a sense, renewable in use. In addition, the tightness is improved by the fact that the valve seat, i.e. the part which retains its shape, cannot move.

The part of the sealing surface of the valve body which is in contact with the valve seat is increased by deformations caused by the closing force so that the valve body is shaped to conform to the sealing surface of the valve seat. In this way, due to the wear of the valve body, the contact surface between the sealing surfaces increases, which is advantageous from the point of view of tightness. Said sealing part of the valve body can be made of, for example, stellite. It is advantageous to use different types of stellites in the same valve, so that a softer stel connector quality is selected for the valve body than for the valve seat. It has been found that the contact surface increases very little in use, which is advantageous from the point of view of preserving the geometric shape. The radius of curvature of the axial section of the sealing part of the valve body is preferably clearly smaller than the corresponding radius of curvature of the axial section of the valve seat. In special cases, such as for chlorine valves, the sealing part of the valve body can advantageously be made of polytetrafluoroethylene or a plastic with similar properties and the valve seat made of acid-resistant steel.

The invention also relates to a seat valve according to the preamble of claim 5, the features of which appear from the same claim. In this case, the valve seat can advantageously be conical and of a harder stellite than the sealing part of the valve body.

The invention is illustrated by the accompanying drawing, 3 68890, the sole figure of which shows an embodiment of a seat valve sealing arrangement according to the invention in an axial section of the valve body.

In the drawing, 1 means a valve body, the drive spindle 2 of which moves through the opening 8 of the valve cover 3. A separate spherical segment-shaped part 5 comprising a sealing surface is arranged in the valve body 1. A conical valve seat 6 is arranged in the valve body part 4. According to the invention, the part 5 is formed of a softer material than the valve seat 6, whereby the part 5 of the valve body 1 is formed harder. against the valve seat 6 and remains tight despite the wear of the valve. In the illustrated embodiment, the part 5 comprising the sealing surface is fixed by welding to the valve body 1. The sealing of the stem 2 in the opening 8 of the cover 3 is not shown in more detail, as it does not fall within the scope of the invention. The valve has conventional flow channels 9 and 10 and a seal 7 between the cover 3 and the body 4.

In addition to the spherical valve body shown in the drawing, the invention can advantageously also be applied to other valve bodies in the form of rotating bodies, in which the surfaces curve in all directions. Material selections can be made according to the purpose of the valve.

The invention is not limited to the embodiment shown, but several variations of the invention are conceivable within the scope of the appended claims.

Claims (6)

A method for sealing a seat valve, comprising a valve body (1) and a fixed metal valve seat (6) connected to the stem (2) and moving in the direction of this axis, and corresponding sealing surfaces in the valve body (1) and the valve seat (6), the valve body the sealing part (5) of the valve (1) is oblique to the direction of movement of the valve body (1) and a softer material than the valve seat (6), characterized in that at least the surface of the sealing part (5) of the valve body (1) substantially corresponds to a spherical surface or some other curved surface the rotating body generated by the line, and that the valve body (1) detachable from the contact of the seat (6) is dimensioned with respect to the normal closing force of the valve so that the valve seat (6) can cause plastic deformation that the valve body (1) and the valve are brought into reciprocal contact the i-seat (6) retains its general sealing dimension regardless of the wear of the sealing part (5) of the valve body (1). Method according to Claim 1, characterized in that in order to increase the contact surface between the sealing surfaces during operation of the valve, the axial section contour of the valve seat (6) is given a considerably larger radius of curvature than the corresponding contour of the sealing part (5) of the valve body (1). the outline of the seat (6) is made linear. Method according to Claim 1 or 2, characterized in that the sealing part (5) of the valve body (1) and the valve seat (6) are made of different stellite grades, so that a harder stellite grade is selected for the valve seat (6). 5,68890 Method according to Claim 1 or 2, characterized in that the sealing part (5) of the valve body (1) is made of polytetrafluoroethylene or a plastic with similar properties and the valve seat (6) is made of acid-resistant steel. A seat valve sealing arrangement for applying a method according to any one of the preceding claims, comprising a valve body (1) and a fixed metal valve seat (6) connected to the stem (2) and moving in the direction of this axis, and in the valve body (1) and the valve seat (6) corresponding sealing surfaces, the sealing part (5) of the valve body (1) being oblique to the direction of movement of the valve body (1) and a softer material than the valve seat (6), characterized in that at least the surface of the sealing part (5) of the valve body (1) another rotating body generated by a curved line, and that the valve body (1) detachable from the contact of the seat (6) to open the valve is dimensioned with respect to the normal closing force of the valve so that the valve seat (6) can deform the plastic (5) thus ensuring that repeat the valve body (1) and the valve seat (6) brought into contact with each other retain their general sealing shape regardless of the wear of the sealing part (5) of the valve body (1). Sealing arrangement according to Claim 5, characterized in that the sealing surface of the valve seat (6) is conical and has a harder stellite than the sealing part (5) of the valve body (1). 6 68890