RU2728669C1 - Rotary valve - Google Patents

Abstract

FIELD: pipelines.

SUBSTANCE: invention relates to pipeline valves, namely, rotary disc gates, and can be used in oil and gas, chemical, cryogenic, power and other industries to shut off flows of liquid and gaseous media. Rotary valve includes housing, disk with sealing seat surface, through hole of rotary valve with sealing seat surface, axis of rotation. Sealing mounting surfaces of the disc and the through hole of the rotary gate have a conical shape. On peripheral sections of the disk coaxially to the axis of rotation there are shaped holes through which passes the axis of rotation, with the possibility of movement inside the profile holes in perpendicular direction relative to the plane passing through the sealing mounting surface of the disc, to the structurally specified stroke. Disk also has inner central hole with front and rear walls parallel to plane passing through sealing mounting surface of disc, through which axis of rotation passes. On central part of rotation axis there is a pusher for interaction with front and rear walls of inner hole of disc at possible non-rotation of axis of rotation about its axis. On end surfaces of disc, perpendicular to axis of rotation, shaped grooves are made, having straight and arc-shaped sections, where in each shaped groove there are made on the body of the bolt rotary fixed keys with the possibility of movement within the sizes of shaped grooves. Sections of the axis of rotation in the points of exit from the disc are located in corresponding holes made in the body of the rotary bolt, with the possibility of performing the non-rotation movement around its axis. When the disc is turned to the opening from the closed position, the continuous sealing mounting surface of the disc is instantly detached from the continuous sealing seating surface of the through bore of the breech, as well as during closing there is instant contact of continuous sealing mounting surface of disc to continuous sealing mounting surface of through bore of rotary gate.

EFFECT: technical result is reduction of wear of sealing seating surfaces, as well as providing mutual lapping of sealing seating surfaces of disc and through bore of rotary gate.

1 cl, 4 dwg

Description

The invention relates to pipeline fittings, namely to rotary disk gates and can be used in oil and gas, chemical, cryogenic, energy and other industries, to shut off flows of liquid and gaseous media.

Known rotary valve according to the patent for invention of the Russian Federation No. 2492383 (bull. No. 25, 09/10/2013), including a body, a disk with a sealing seating surface, a through hole of a rotary valve with a sealing seating surface, an axis of rotation, where when the disk is turned to open from a closed position, an instant separation of the continuous sealing surface of the disc from the continuous sealing surface of the bore of the rotary valve occurs, where, when closed, the continuous sealing of the seating surface of the disc instantly contacts with the continuous sealing surface of the bore of the rotary valve with minimization of wear on the sealing seating surfaces.

The disadvantage of the known design is the non-technological form of the sealing surface of the disc and the bore of the rotary valve, which requires the use of complex and expensive equipment for manufacturing, which does not allow mutual lapping of the sealing seating surfaces of the disc and the bore of the rotary valve by widely used methods, to ensure a high class of metal-to-metal tightness minimizing wear on the sealing surfaces.

The objective of the invention is to create a rotary valve with a high-tech shape of the sealing surface of the disc and the bore of the rotary valve that minimizes wear on the sealing surfaces, does not require the use of complex and expensive equipment for manufacturing, allowing mutual lapping of the sealing surfaces of the disc and the bore of the rotary valve by widely used methods , to ensure a high class of metal-to-metal tightness, where when the disc is turned to open from the closed position, the continuous sealing surface of the disc is instantaneously detached from the continuous sealing surface of the through hole of the rotary valve and where, upon closing, the continuous sealing surface of the disc is in contact with continuous sealing surface of the passage opening of the rotary valve.

The solution to this problem is achieved by the fact that in a rotary valve, including a body, a disc with a sealing seating surface, a through opening of a rotary valve with a sealing seating surface, an axis of rotation, sealing seating surfaces of a disc and a through opening of a rotary valve have a conical shape, where on the peripheral sections of the disc , coaxially with the axis of rotation, profile holes are made through which the axis of rotation passes, with the ability to move inside the profile holes in the perpendicular direction relative to the plane passing through the sealing surface of the disk, to a structurally given stroke, where the disk has an internal central hole with front and rear walls, parallel to the plane passing through the sealing seating surface of the disk, through which the axis of rotation passes, where a pusher is made on the central part of the axis of rotation, for interaction with the front and rear walls of the inner hole disk, with a possible part-turn movement of the axis of rotation around its axis, where on the end surfaces of the disk perpendicular to the axis of rotation, profiled grooves are made, having straight and arcuate sections, where in each profile groove there are fixed keys made on the valve body of the rotary valve, with the possibility of movement within the dimensions of the profile grooves, where the sections of the axis of rotation at the points of exit from the disk are located in the corresponding holes made in the body of the rotary valve, with the possibility of performing a part-turn movement around its axis, where when the disk is turned to open from the closed position, the continuous sealing surface of the disk is instantly detached, from the continuous sealing surface of the bore of the rotary valve and where, when closed, there is instant contact of the continuous sealing surface of the disc, to the continuous sealing surface of the bore The rip of the valve is rotary, with minimization of wear on the sealing surfaces.

The invention is illustrated by drawings, where Fig. 1 schematically shows a section of a rotary shutter in the closed state, FIG. 2 schematically shows a cross-section of a rotary valve in a state where the continuous sealing surface of the disc is in the phase of instantaneous separation from the continuous sealing surface of the passage opening of the rotary valve, FIG. 3 schematically shows a section of a rotary shutter in the open state; FIG. 4 conventionally shows a section of a rotary shutter in a closed state, along the axis of rotation.

The rotary valve contains a body 1, a disc 2 with a sealing surface 3, a through hole 4 of a rotary valve with a sealing surface 5, an axis of rotation 6, where on the peripheral sections of the disc 2, coaxially to the axis of rotation 6, profile holes 7 are made, where the disc 2 is it has an internal central hole 8 with a front wall 9 and a rear wall 10, where a pusher 11 is made on the central part of the axis of rotation 6, for interaction with the front wall 9 and the rear wall 10 of the inner central hole 8 of the disc 2, where on the end surfaces 12 of the disc 2 , profile grooves 13 are made, having straight and arcuate sections, where in each profile groove 13, there are fixed keys 14 made on the body 1 of the shutter of the rotary fixed keys, where sections 15 of the axis of rotation 6 at the exit points from the disk 2 are in the corresponding holes 16 made in the body 1 rotary shutter.

The rotary shutter works as follows.

When the rotary valve is in the closed state, the disk 2 with its continuous sealing surface 3 is pressed against the continuous sealing surface 5 of the passage opening 4 of the rotary valve. When the axis of rotation 6 is rotated in the direction of opening from the closed position of the rotary shutter, at the very beginning of the movement, the pusher 11, made on the central part of the axis of rotation 6, interacts with the rear wall 10 of the inner central hole 8 of the disc 2, which leads to instantaneous separation of the continuous sealing the seating surface 3 of the disc 2 from the continuous sealing surface 5 of the bore 4 of the rotary valve, to a structurally specified linear stroke, due to the movement of the fixed keys 14 in the straight sections of the profile grooves 13, while the parallelism of the plane passing through the continuous sealing the seating surface 3 of the disc 2 to the plane passing through the continuous sealing seating surface 5 of the bore 4 of the rotary valve, thereby ensuring minimal wear of the sealing seating surfaces. With further rotation of the axis of rotation 6 in the direction of opening the rotary valve, due to the movement of fixed keys 14 in the arcuate sections of the profile grooves 13 within the dimensions of the profile grooves, the plane of the continuous sealing surface 3 of the disc 2 is set perpendicular to the flow, and the rotary valve goes into the open state, with maximum throughput.

To transfer the rotary shutter to the closed state from the open position, by turning the rotation axis 6 in the direction of closing from the open position of the rotary shutter, the sequence of movements of the rotary shutter elements is repeated in the reverse order, as a result of which there is an interaction of the pusher 11 performed on the central part of the rotation axis 6 , with the front wall 9 of the inner central hole 8 of the disc 2, which ultimately leads to instant contact of the continuous sealing surface 3 of the disc 2, to the continuous sealing surface 5 of the through hole 4 of the rotary valve, with minimization of wear on the sealing surfaces. The conical shape of the sealing seating surfaces of the disc and the bore of the rotary valve, which does not require complex and expensive equipment for manufacturing, allows mutual lapping of the sealing seating surfaces of the disc and the bore of the rotary valve by widely used methods to ensure a high class of metal-to-metal tightness.

Claims (1)

A rotary valve, including a body, a disc with a sealing seating surface, a rotary valve passage opening with a sealing seating surface, an axis of rotation, characterized in that the sealing seating surfaces of the disc and the rotary valve passage opening have a conical shape, on the peripheral sections of the disc coaxially with the rotation axis, profiled holes through which the axis of rotation passes with the ability to move inside the profile holes in the perpendicular direction relative to the plane passing through the sealing surface of the disk, for a structurally given stroke, the disk has an internal central hole with front and rear walls parallel to the plane passing through the sealing surface of the disk through which the axis of rotation passes, a pusher is made on the central part of the axis of rotation to interact with the front and rear walls of the inner hole of the disk with a possible part-turn movement and the axis of rotation around its axis, on the end surfaces of the disk perpendicular to the axis of rotation, profile grooves are made, having straight and arcuate sections, where in each profile groove there are fixed keys made on the body of the rotary valve with the ability to move within the dimensions of the profile grooves, axis sections rotations at the points of exit from the disk are located in the corresponding holes made in the body of the rotary valve, with the possibility of performing a part-turn movement around its axis, when the disk rotates to open from the closed position, the continuous sealing surface of the disk is instantly detached from the continuous sealing surface of the valve passage opening rotary and when closed, instant contact occurs between the continuous sealing surface of the disc to the continuous sealing surface of the bore of the rotary valve.

Images