CS267974B1 - Pipeline's spherical valve with packing plate - Google Patents

Abstract

The ee solution relates to spherical pipework a seal with a sealing plate that is resting the closed position of the closure into the seat in the closure cap and during adjustment of the rotating body pushed away from the seat and, on the contrary, pressed against it rotating body. According to the solution, this one has plate shape annular and is provided withdrawable guide bush with sealing ring, with radial clearance between with this sleeve and the swivel collar the closure body is less than radial clearance between sealing plate and recess said rotatable body.

Description

The invention relates to a spherical pipe closure and provides an embodiment of the sealing part of this closure, making it possible to reduce its dimensions and weight. ·

Spherical pipe closures are known in which the sealing element, which prevents the flow of medium through the pipe, has the shape of a curved circular plate mounted with its outer cylindrical surface in the rotating body of the closure. In the closed position of the closure, the sealing plate abuts with its sealing surface formed as part of a ball on the front surface of the edge of the plate, into the corresponding spherical surface of the sealing seat housed in the lid of the closure in the flow direction.

The disadvantage of this design - especially for large-sized closures and for high media prints - is that a considerable width of the sealing surfaces of the plate and seat is required due to the fact that the circular sealing plate in the closed position of the closure is exposed to its entire front surface. have a plate of considerable wall thickness, which gives the required dimension of the ball of the sealing surfaces and consequently also the overall dimensions of the outer body of the ball valve and its construction length. In view of these large forces acting on the sealing ring plate. The pins and the bearing of the rotating body are also dimensioned, enabling the adjustment of the sealing plate from the open to the closed position and vice versa. When rotating the rotating body, it is necessary to overcome the friction in the bearings, which requires the use of a control mechanism of considerable performance. .

The above-mentioned disadvantages do not occur with the ball pipe closure according to the invention. Which is characterized in that in the rotating body of the cap being disposed movable sealing ring with ^- a guide sleeve provided with a sealing ring, the radial clearance between said sleeve and the shoulder pivot. ..body is smaller than the radial clearance between said ring and the ring of the same body.

Due to the substantially smaller front surface of the sealing ring against the usual sealing plate and the resulting lower load of this ring, the overall dimensions and thus the weight of the ball valve can also be reduced as well as a smaller control mechanism. used by the sealing plate up to 25.

The sealing ring is mounted in the rotating body in such a way that its outer cylindrical surface has a small radial clearance precisely defined against the associated cylindrical surface of the rotating body, which determines the flow of pressure medium into the space between the sealing ring and the rotating body. closure position. The sealing ring is guided in the rotating body by its inner opening with a smaller diameter than the clearance of the closure, and at this point it is also sealed against the rotating body. In order to be able to replace the respective sealing ring if necessary, without removing the cap, it is housed in a pull-out guide housing, the centering function of which is maintained even after partial extension in the direction of medium flow for said seal ring replacement.

An exemplary embodiment of a ball pipe closure according to the invention is shown in the drawing, where Fig. 1 is a main section of the closure in the closed position;

As can be seen, the main parts of the ball pipe closure form a body 1, a lid 2 with a sealing seat 3, a rotating body 4 with pins 5 and 6 and then a sliding sealing ring 7 with a sliding guide sleeve 8 provided with a sealing ring 9. a larger pressing surface 10 and a smaller pressing surface 11 are formed by the sliding sealing ring 7. A permanent flow of pressure medium through the gap 13 is allowed into the space 12 between the sliding sealing ring 7 and the rotating body 4. While a channel 14 serves to drain this medium from said space 12. formed in the rotating body 4 and in the pin (5 and closable by the valve 15.

In the rest closed position of the closure, due to the constant inflow of pressure medium into the space through the gap 13 and with the valve 15 closed, the sliding sealing ring 7 is pressed into the sealing seat 3 in the lid 2 by the medium pressure against the pressure surface 10.

C3 267 974 Dl

If the rotary body 4 is to be rotated together with the sliding sealing ring 7 in order to change the position from closed to open or vice versa, the opening of the valve 15 drains the pressure medium from the space 12 outside the closure. Due to the strongly constricted continuous inflow of pressure medium into the space 12, when the outflow of this medium from the space is fully open, the pressure of the medium decreases there so that the pushing force from the full pressure of the medium to the pressing surface 11 exceeds the contact force, after which the sliding sealing ring 7 is pushed seat 6 and abuts on the abutment surface of the rotating body 4 towards the center of the closure, so that the body 4 can freely rotate to the open position and back. After its return to the closed position, the medium outlet closes with the valve 15, so that due to the constant inflow of medium into the space 12 above the pushing force and therefore the sliding sealing ring 7 is pressed into the seat 2.

Claims (1)

Spherical pipe closure provided with a rotating body, characterized in that a sliding sealing ring (7) with a sliding guide sleeve (C) provided with a sealing ring (9) is arranged in the rotating body (4), the radial play between the sliding sealing sleeve (8) and the collar of the rotating body (4) is smaller than the radial clearance between the sliding sealing ring (7) and the collar of the rotating body (4).