SU1681098A1 - Gate valve with double-disk wadge gate - Google Patents

Abstract

Invention m. used in double gate valves for oil production and refining systems. The purpose of the invention is to increase reliability. The shutter is connected with the head of the spindle 7. Disks 1 and 2 are made with medium mutually in contact spherical parts 3 and 4. Disks 1 and 2 on the side of spindle 7 are made with semi-cylindrical bores 6 facing each other. The head of the spindle 7 is equipped with a spike 8, placed in the bores 6. Parts 3 and 4 are made of thin-walled. When the valve is closed, the disks 1 and 2 are pressed against the seats 9 of the housing 10, which reduces the deformation with the elimination of a possible skew. 3 silt, 7 V Y fe o 00 O che with Figure 1 Yu

Description

The invention relates to stop valves of pipeline systems and can be applied in oil production and refining systems.

The purpose of the invention is to improve the reliability of the shutter.

FIG. 1 shows a section of the central part of the valve; in fig. 2 - the upper part of the wedge gate in the section; in fig. 3 shows section A-A in FIG. one.

The valve contains a wedge valve with discs 1 and 2, the middle parts 3 and 4 of which are spherical and thin-walled. In the upper parts of the disks there are rectangular grooves 5 and semi-cylindrical bores 6 for connection with the lower rectangular end part of the spindle 7, equipped with a cylindrical spike 8. When the valve is closed, the disks 1 and 2 of the wedge gate are pressed against the seats 9 of the valve body 10.

The valve operates as follows.

Moving a wedge gate with a spindle along its axis of symmetry in one direction or another, the valve is opened or closed. When the wedge gate with the spindle moves downwards, the disks 1 and 2, interacting with the saddles 9 of the housing 10 of the valve, rotate relative to each other along mutually contacting spherical surfaces and tightly press against the saddles 9, the valve closes. When the wedge gate with the spindle moves upwards, the disks 1 and 2 move away from the seats 9, the valve opens. The magnitude of the rotation of the discs relative to each other during the closing and opening of the valve is caused by manufacturing errors and distortions of the mutually contacting sealing surfaces of the disks and seats of the valve body.

The middle spherical parts 3 and 4 of the disks 1 and 2 are mutually in contact at a site with a diameter equal to the diameter of the valve body seat 9, which increases the area of the mutually contacting areas of the disk to the maximum possible design value. A larger area of the mutually contacting surfaces of the discs as compared with the analogues and the prototype reduces the specific pressure on the spherical surfaces of the 3 and 4 discs from the effect of the closing force of the valve and

increases their wear resistance and durability.

Increase the spherical surfaces of the disks to their structurally possible

the maximum value also provides an increase in their rigidity, which helps reduce the wear of the mutually contacting sealing surfaces of the discs and seats of the valve body and

increase the tightness of closing the valve.

The presence in the upper parts of the disks of semi-cylindrical bores 6, which include the spike 8 of the lower end part of the spindle

7, prevents the spindle from bending possible from the closing force of the valve and the decay of the discs from the end part of the spindle, and significantly reduces the consumption of materials compared to analogues.

With the mutual contact of the discs on a spherical surface coinciding along the contour with the contour of the valve body seat, a reduction in deformation (deflection) of the middle parts 3 and 4 of the valve discs from the closing force of the valve is achieved, eliminating the possible bias of the sealing surfaces of the disk and valve body seats relative to each other This leads to

uniform transmission of the closing force of the valve from the discs, reducing the wear of the sealing surfaces of the disks and body seats, increasing the tightness of closing the valve, and therefore

increase the reliability of this design in the work.

Claims (1)

Thus, the invention achieves a significant simplification of the design of the valve with a double-disk wedge gate and an increase in its reliability in operation. Claims of invention. A valve with a double-disk wedge gate comprising a housing, a bolt connected to the spindle head, wherein The discs are made with medium mutually contacting spherical parts, characterized in that, in order to increase reliability, the discs on the spindle side are made with semi-cylindrical bores facing each other, and the spindle head is equipped with a spike placed in the bores, and the middle contacting spherical parts of the disks are thin-walled. five Fig.Z