SU454391A1 - Self-heating gas control valve - Google Patents

Description

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This invention relates to valves and can be used in gas, chemical and petroleum industries.

Known regulating gas valves with self-heating, washed by a controlled medium, contain a cylindrical cup and a hollow plunger, inside which is installed a hollow cylinder with tangential nozzles, forming a vortex tube that separates the gas into "hot" and "cold" due to the vortex effect gas is used to preheat the valve valve surfaces.

In such valves, at low flow rates, the self-heating of the valve valve parts is not very effective due to the small throttling of the vortex tube in the tangential nozzles.

The purpose of the proposed gas valve is to provide an effective and stable self-heating of the rubbing surfaces in a wide range of gas consumption.

This is achieved in that the valve is provided with a vortex tube made in the upper part of the closure plate having a thickening with an annular groove for the nozzles, the thickening being the guide for the glass.

FIG. 1 shows a general view of the valve, a section; in fig. 2 - the same section along the AA.

The gas control valve comprises a housing 1 with a saddle 2 and a lid 3 in the hole

which passes the rod 4 connected to the plunger, which is made composite in the form of an inverted glass 5 with holes 6 in the bottom for bypassing "hot gas into the above plunger cavity 7. Inside the glass the tube 8 is axially displaced to axially move the vortex 8. Lower end the vortex tube is made with a cylindrical thick base with two ledges,

moreover, the diameter of the upper step is equal to the diameter of the guide part of the glass. In the annular groove 9, at the base of the upper scarp, tangential nozzles 10 are located (not shown in Fig. 1). The lower step is equal to or larger than the outer diameter of the lower part of the glass 5, and its end parts are equipped with sealing elements 11. Through holes in the ciliaric thickening of the vortex tube are made to bypass

gas in the main channel of the bottom 13, formed by the inner walls of the glass and the outer vortex tube and sealed by a seal 14. A spring 15 is installed inside the glass. The lower end of the rod with

annular rim 16 is passed inside the pipe, the upper part of which is provided with an inner collar 17 and throttle holes 18. The adjustable gas valve works as follows.

In the closed position, the base of the vortex tube 8 is tightly pressed against the saddle 2 of the body. When the stem 4 is lifted upward, the spring 15 pushes the cup 5. This creates a gap between the ends of the cup and the lower ledge of the base of the inner tube 8, into which gas flows, and the passage along the groove 9p through the tangential nozzles 10 is split in the inner tube. and cold gas. "A hot gas stream, moving along the periphery of the pipe 8, in its upper part, passes through the opening 18 into the cavity 13, where it washes the internal surfaces of the regulator and heats them. From cavity 13, gas passes through holes 12 into the main channel, and through holes 6 into the plunger cavity 7. With further movement of the rod 4, it lifts the vortex tube 8. Gas rushes through the gap between the lower end of the vortex tube and the saddle 2 of the Cornus into the trunk channel. Due to the presence of the groove 9 at the beginning of operation, during the course of the glass, which is less than the height of the nozzle 10, self-heating reaches maximum efficiency. The presence of a 7 ”hot gas in the superplunger cavity with possible leaks excludes freezing of the stem 4.

The valve is especially effective at low gas consumption, when the hydro-formation process is most intense.

Subject invention

A self-heating gas control valve, washed by an adjustable medium with two regulating bodies, a plate and a cup, connected through a spring with one control unit, characterized in that, in order to ensure effective and stable self-heating of sliding surfaces in a wide range of gas flow, it is provided with a vortex tube made in the upper part of the closure plate having a thickening with an annular groove for nozzles, the thickening being a guide for stacking.

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