CS222789B1 - Regulating valve β with three-stage gas expansion for reduction valves - Google Patents

Abstract

The control valve is designed for pressure reducing valves for reducing the pressure of gas taken from steel cylinders. The control valve consists of a hollow body in which an upper expansion chamber is formed above the cone seat and the seat is formed by a flat sealing ring placed on a washer. A lower expansion chamber is formed under the seat, connected by a circular slot with a transverse groove, which forms the outlet from the control valve.

Description

- 2 - 222 789

The invention relates to a control valve for reducing valves with a high degree of gas pressure reduction, for example for compressed gases in steel bottles.

In order to increase the uniformity of the output reduced gas pressure and to avoid the effect of maximum a and minimum inlet pressure of the gas supplied to the reduction valve, two-stage reduction valves are used. Known reduction valves are complex and costly to manufacture. Also, the maintenance of these pressure reducing valves is not very expensive.

The aforementioned drawbacks are substantially alleviated by the regulating valve by three-stage expansion of the gas through the reduction valves of the invention, the principle being that the hollow body is provided with at least a ducting channel covered in the seated position of the cone on the seat by a plug body; The upper expansion chamber is connected by switching channels to the inner space of the plug. The seat is formed by a flat sealing ring, which is supported on the washer. The lower expansion chamber is formed by the seat support. The lower expansion chamber is connected by an annular gap formed by the intermediate member of the pressure member and by a sliding pin with a transverse groove which is formed on the head of the threaded bolt and forms an outlet from the control valve.

The three-stage gas expansion valve of the invention provides a simple design solution for low production costs and low operating and maintenance costs, while improving the safety and lifetime of the reducing valve. One of the advantages of the invention is that it is also possible to provide the previously manufactured and used re-pressure valves. 222? 9

In the accompanying drawing, there is shown an exemplary solution of a three-stage gas expansion control valve for flow valves, wherein in Fig. 1 a front view is shown in partial section and Fig. 2 is a sectional view taken along line A-A of Fig. 1.

An exemplary control valve consists of a hollow body χ screwed into the opening of the reducing valve body 2, in which it forms a distributing cavity X and into which a supply conduit 8 opens. In the hollow body, χ, the χ on the push spring £ is slid. The lower portion of the plug X is provided with a control pin 13, which is provided with a bearing surface 12 in the cone on the plug χ. In contrast to the seat flat 12 of the seat X, there is a seat 14 in the form of a flat sealing ring, which is supported by the pad 15. In another embodiment, the seat 14 can be rigidly connected to the backing 15. The seat 14 and the washer 15 are fixed in the hollow body by a χ In the threaded bolt 16 there is a slidably mounted pressure member 18 provided with a head 19 opposite the control pin 13 of the plug. There is a fixed seat of the fuse 22 on the pressure member 18. In the hollow body χ, four ducts χ are formed, which are seated in the seated position of the plug X by the plug body X overlapped. An upper expansion chamber 6 is formed between the hollow body χ and the valve cone X above the seat 14, which is connected by the switching channels 11 to the inner space χ of the cone. Below the seat XX of the seat X 'is a bulge expansion chamber XX which is connected by an annular gap formed between the head eq of the pressure member 18 and a stud bolt 16 with a transverse groove 21 which is formed on the head of the screw 16 and forms an output from the regulating ventila.

Upon connection of a reducing valve comprising a control valve according to the invention to a pressurized bottle and opening the gas shut-off valve of the pressurized bottle (in FIG. 2), the inlet pressure of the inlet duct 8 flows into the distribution chamber χ. After moving the cone X through the thrust member 18 in the upward direction, the telescopes X expose the distribution channel χ, whereby the gas begins to flow from the deposition cavity X through the distribution channel χ to the upper expansion chamber 6 where its first expansion occurs. The gas passes through the passage between the seat X a and the contact surface χ χ of the plug X into the bottom - 4 - 222 789 of the expansion chamber 17 where it expands the second time. From the lower ex- ternal chamber 17, the gas passes through the annular gap 20 and the transverse groove 21 of the threaded bolt 16 into the space above the diaphragm of the reduction valve (illustrated), with a third gas expansion. Upon reaching the set gas pressure on the diaphragm, the thrust force on the thrust member 18 decreases as a result of which the thrust spring 6 moves the cone χ downwards. The thrust bearing surface 12 then abuts the seat 14 and the plug body 2 closes the manifold. the channel χ in the hollow body X until the set gas pressure drops over the reducing valve diaphragm. When changing the amount of gas removed from the reduction valve, the control valve is proportionally throttled or opened at all three stages, with a significant reduction in the adverse effect of the gas inlet pressure change on the gas outlet pressure, such as in the case of one-stage gas pressure reduction .

Claims (1)

BACKGROUND OF THE INVENTION 222 789 A three-stage gas expansion hegulation valve comprises a hollow body in which a slidable plug is mounted on a compression spring seated on a seat bolt in which a thrust member is displaceable, characterized in that the hollow body (1) is provided with at least two conduit channels (5) overlapped in the seated position of the cone (7) on the seat (14) by the plug body (7), between the hollow body (1) and the plug body (7) above the seat (7) 14 / is an expansion chamber (6) connected by switching channels (11) to the inner space (8) of the plug, while the seat (14) is formed by a flat sealing ring which is supported on the support (15). wherein a padded expansion chamber (17) is formed beneath the pad (15) of the seat (14) connected by a circular slot (20) formed between the head (19) of the pressure member (18) and the threaded bolt (16) with a transverse groove (21). formed on the head of the tow bolt (16) and form the outlet of the control valve. 1 drawing I