RU25337U1 - GASKET FOR OVERLAPPING AND REGULATING GAS SUPPLY - Google Patents

Description

GASKET FOR OVERLAPPING AND REGULATING GAS SUPPLY

The utility model relates to the field of pneumatic automation and can be used to shut off and control the flow of gases.

Known valve for shutting off and regulating the flow of gas, comprising a housing and a saddle installed with the possibility of regulating the position of the saddle relative to the axis of the housing, located in the housing and interacting with the saddle, a needle-type locking and regulating body with a conical locking surface and sealing elements (A.S. USSR 1566152, CL P16K 1/42, 1990). The disadvantage of this valve is the complexity of its design and the high cost of manufacturing the valve.

Of the known valves, the closest in combination of essential features and the technical result achieved is a valve for shutting off and adjusting the gas supply, comprising a housing in which two chambers are made with inlet and outlet openings, a saddle located between the said chambers, a travel sleeve fixed in the housing by threaded connection, locking and regulating body, made in the form of a spindle with a threaded part, the diameter of which is larger than the diameter of the spindle, and a conical locking element, laid at the bottom of the spindle, a handwheel mounted on the top of the spindle, and a union nut with an oil seal screwed onto the top of the spindle (Patent

i a o

F16K 47/04

RF number 2097641, cl. F16K 47/04, 1997). To ensure reliable valve closure, it is necessary to ensure the exact alignment of the spindle and valve seat, which complicates the design and increases the cost of manufacturing the valve.

The objective of the utility model is to create a valve with a simple design, low cost and providing reliable shutoff of gas flow.

The specified technical result is achieved due to the fact that the valve for shutting off and adjusting the gas supply comprises a housing in which two chambers are made with inlet and outlet openings, a saddle located between the said chambers, a running sleeve fixed in the housing by means of a threaded connection, a shut-off regulating body, made in the form of a spindle with a threaded part, the diameter of which is larger than the diameter of the spindle, and a conical locking element located in the lower part of the spindle, a handwheel mounted on the upper spindle part and the union nut with the gland, screwed onto the upper portion of the running sleeve, wherein, according to the utility model, suspension sleeve fixed in the housing when screwed fully into the seat of the valve spindle, the threaded connection with the housing sleeve formed with backlash. This embodiment of the valve does not require strict alignment of the spindle and seat. The locking element itself is centered and provides reliable shutoff of the gas flow due to play in the threaded connection.

It is advisable that the running sleeve be sealed in the housing by means of an elastic sealant applied to the threaded connection of the sleeve with the housing, or by means of a sealing gasket installed above the threaded connection of the sleeve with the housing. The presence of an elastic sealant or gasket provides sealing of the valve and allows angular movement of the bushing when closing the valve.

It is advisable that the angle of the conical locking element ranged from 10 to 120 degrees. If the angle is less than 10 degrees, the spindle may jam in the saddle, and if the angle is more than 120 degrees, the seat will become too deformed and the flow rate will be less smooth due to the rapid increase in the area of the open annular gap.

The analysis of the prior art showed that the claimed combination of essential features set forth in the formula of the utility model is unknown. This allows us to conclude that it meets the criterion of novelty.

The essence of the utility model is illustrated by drawings and a description of the valve.

Figure 1 shows a longitudinal section of a valve assembly with sealant in a threaded connection.

Figure 2 shows a longitudinal section of a valve assembly with a sealing gasket.

The valve includes a handwheel 1, a spindle 2 with a threaded part and a tapered locking part, a union nut 3, an oil seal 4, stuffing rings 5, a driving sleeve 7, a housing 8, an inlet 9 with a camera, a seat 10, an outlet 11c with a camera. The angle of the conical locking element of the spindle is from 10 to 120 degrees, the running sleeve 6 is fixed in the housing 7 by means of a threaded connection made with play. The sealing of the sleeve is drained; it is carried out by means of elastic sealant 8, or by sealing; gaskets 8. When assembling, the spindle 2 is screwed fully into the seat 10, after which the sleeve 6 is fixed in the housing 7. The valve operates as follows. By turning the handwheel 1, the spindle 2 is turned out, the conical locking element comes out of contact with the seat 10, opening the gap for the passage of gas. When the valve is closed by turning the handwheel in the opposite direction, screw the spindle 2 all the way with the seat 10, while the conical locking element of the spindle 2 itself is centered in the hole of the seat 10 due to the angular mobility of the travel sleeve 6.

Based on the foregoing, we can conclude that the claimed valve can be implemented in practice with the achievement of the claimed technical result, i.e. It meets the criterion of industrial applicability.

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Claims (4)

1. A valve for shutting off and adjusting the gas supply, comprising a housing in which two chambers are made with inlet and outlet openings, a saddle located between said chambers, a bushing fixed in the housing by means of a threaded connection, a shut-off and regulating body made in the form of a spindle with a threaded part, the diameter of which is larger than the diameter of the spindle, and a tapered locking element located at the bottom of the spindle, a handwheel mounted on the top of the spindle, and a union nut with gland and oil seals E rings screwed to the upper part of the running sleeve, characterized in that the running sleeve is fixed in the housing when screwed fully into the seat of the valve spindle, the threaded sleeve connection to the housing is configured to backlash.  2. The valve according to claim 1, characterized in that the running sleeve is sealed in the housing by means of an elastic sealant applied to the threaded connection of the sleeve with the housing.  3. The valve according to claim 1, characterized in that the running sleeve is sealed in the housing by means of a sealing gasket installed above the threaded connection of the sleeve with the housing. 4. The valve according to claim 1, characterized in that the angle of the conical locking element is from 10 to 120 ^o .