RU42611U1 - GAS FLOW VALVE - Google Patents

Abstract

The invention relates to mechanical engineering, namely to pipe fittings, and comprises a housing with inlet and outlet nozzles, in which a spindle, a rotary locking element with a passage channel and lower and upper supports are located, the lower one being made spherical and installed in an opening made in the housing under locking body, and the upper support is made with the possibility of displacement relative to the lower under the action of the spindle and also containing a seat with a seal, and the seat is made in the form of a cylindrical sleeve. The difference of the inventive locking device lies in the fact that the hole for the lower spherical support is offset towards the saddle by the amount of displacement of the upper support, and the saddle is movable along the nozzles of the housing. The technical result consists in increasing the durability of the device by ensuring uniform distribution of the sealing force around the perimeter of the seat and the ability to adjust the force for sealing with technological simplification of the manufacture of the inventive locking device.

Description

The utility model relates to mechanical engineering, namely to pipeline valves, and can be used to control gas flows in various industries.

Known devices for blocking gas flows described in the patents for inventions: SU 739298, RU 2088828, RU 2158866. All of them contain a housing with inlet and outlet nozzles, inside of which are a rod, a rotary locking element with a passage channel and an axis of rotation, the lower support of which performed spherically.

The disadvantage of all of the above devices is the unevenness of the sealing force caused by the inclination of the locking element along the axis to the plane of the saddle at the time of sealing. This leads to increased seat wear and reduces the reliability and durability of the device.

Closest to the proposed device is a patent for invention RU 2206808, comprising a housing with inlet and outlet nozzles, in which a spindle, a rotary locking element with a passage channel and lower and upper spherical bearings and a saddle with seals are located, and the lower bearing is made eccentric to the axis of rotation locking organ.

The disadvantage of this analogue is the technological complexity of manufacturing a locking body, which leads to an increase in the complexity and cost of the device.

The objective of the utility model is to increase the durability of the locking device while reducing the complexity of manufacturing.

The essence of the claimed utility model lies in the fact that in the shut-off device for gas flow, comprising a housing with inlet and outlet nozzles, in which a spindle is located, a rotary shut-off element with a passage channel and lower and upper supports, the lower one being made spherical and installed in the hole, made in the housing under the locking body, and the upper support is made with the possibility of displacement relative to the lower under the action of the spindle, and the seat with a seal, and the seat is made in the form of a cylindrical sleeve, open The term for the lower spherical bearing formed shifted toward the seat by the amount of displacement of the upper support and the seat is movable along the nozzle body.

In addition, a variant is claimed in which the saddle displacement element is made in the form of a thread on the outer forming surface of the sleeve, and a seal is installed on one side of the sleeve — on the side of the rotary locking member, and grooves for rotating the sleeve are made on the other end.

The technical result of the inventive locking device is achieved by ensuring uniform distribution of the sealing force around the perimeter of the seat and the ability to adjust the force to seal due to the possibility of moving the seat, in particular, using a thread placed on the outer surface of the seat. The technical result also consists in reducing the complexity of manufacturing the lower support of the locking organ, in contrast to the most

close analogue, which made it difficult to achieve an increase in durability in the latter. In the closest analogue, the lower support was located eccentrically to the axis of the locking element and required sophisticated special equipment and considerable technological efforts for its manufacture, which greatly complicated the practical implementation of the previously announced solution. In the solution claimed in this application, the lower support is located along the axis of the locking member. Its manufacture does not require complex equipment, which simplifies the achievement of a positive result - durability due to the uniform distribution of the sealing force over the saddle, which is achieved by displacing the holes in the device housing for installing the lower support, which, in turn, also does not require complex equipment and complex technology.

A utility model is illustrated in the drawing, where in FIG. shows a general view of the device in the "Closed" position.

The inventive device comprises a housing 1 with input 2 and output 3 nozzles, a cover 4, a rotary locking element 5 with a passage channel 6 having an upper support in the form of two parallel rods 7 installed in the hole 8, in which the spindle 9 is placed, having two parallel parallel surfaces 10 interacting with the rods 7. The lower spherical support 11 is installed in the hole 12, which is offset towards the seat 13 along the axis of the nozzles 2 and 3 of the housing 1. The displacement of the lower spherical support 11 and the upper support (rod 7) of the locking member 5 is the same. The saddle 13 is made in the form of a sleeve and has a thread 14 and a cylindrical section 15 on the outer surface for sealing with a seal 16. A seal 17 is installed at one end of the seat 13, and there are grooves 18 at the other end for rotation of the saddle 13 during adjustment. Fixing the position of the saddle 13 is carried out by screw 19.

The device operates as follows. When moving the spindle 9 upward, the locking member 5 is first wrung out from the seat 13 due to the inclination of its axis, and then rotated 90 ° to the "Open" position. When the spindle 9 moves down, everything happens in the reverse order, i.e. the locking body 5 initially rotates 90 °, and then is pressed against the seal 17 of the seat 13, ensuring the tightness of the gas flow shutoff. The equality of the mixing values of the lower and upper supports allows you to set the closed body axis of the locking element 5 parallel to the seat 13, which ensures uniform distribution of the sealing force around the perimeter of the seal 17 and reduces its wear.

Since the lower support is located along the axis of rotation of the locking member, the manufacture of the locking member does not have technological difficulties. This reduces the complexity and cost of the device.

Claims (2)

1. A locking device for a gas stream, comprising a housing with inlet and outlet nozzles, in which a spindle, a rotary locking element with a passage channel and lower and upper supports are located, the lower one being made spherical and installed in an opening made in the housing under the locking element, and the upper support is made with the possibility of displacement relative to the lower under the action of the spindle, and the seat with a seal, and the saddle is made in the form of a cylindrical sleeve, characterized in that the hole for the lower spherical support is ying biased towards the seat by the amount of displacement of the upper support and the seat is movable along the nozzle body. 2. The locking device according to claim 1, characterized in that the saddle displacement element is made in the form of a thread on the outer forming surface of the sleeve, and a seal is installed on one side of the sleeve on the side of the rotary locking body, and grooves for rotating the sleeve are made on the other end .