RU2761993C1 - Automatic pressure regulator - Google Patents

Abstract

FIELD: medical technology.

SUBSTANCE: invention relates to automatic pressure regulation and can be used in healthcare institutions to supply oxygen. The automatic pressure regulator consists of a main body and a pressure setting body connected through a rubber ring by a bolted connection, the main body contains an inlet pressure chamber and a reduced pressure chamber, which is separated by an elastic membrane to form a supra membrane cavity, which is connected through a channel made in the main body and the pressure setting body to the submembrane cavity of the control pressure chamber located in the pressure setting body, while the main body has a central hole with a threaded sleeve with a seat, the hole is made with a diameter equal to the diameter of the seat hole, on a sliding fit, and a rubber ring, a stroke limiter having an internal thread, and a main valve located on the pusher of the main valve, in which a channel is made connecting the cavity formed by the surfaces of the valve and the hole in which it moves with a reduced pressure chamber. In the lower part of the main body, a cover is attached through an elastic membrane with a disk. The pressure setting housing contains two blind holes in the center of the housing, one of which is threaded, and the other without a thread, a sleeve with a seat screwed into the blind hole with a thread, a control valve with a seal and a control valve pusher is pressed against the seat of the sleeve by a spring, an annular groove is made on the side surface of the blind hole without a thread with a rubber sealing ring, a main valve with a seal, a main valve pusher and a spring, the upper part of the pressure setting housing is connected to a sleeve with a regulating screw, pressed against the pressure-setting housing by a cap nut through an elastic membrane with an axial bearing and a spring installed between the membrane and the adjusting screw, a channel connecting the inlet pressure chamber and the blind hole with a thread is made in the pressure-setting housing.

EFFECT: provision by the pressure regulator of reduction and automatic maintenance of gas (oxygen) pressure at the outlet of the regulator, regardless of gas extraction by the consumer, fluctuations in gas (oxygen) pressure at the inlet of the regulator and at minimum ratios of input and output pressures.

9 cl, 2 dwg

Description

The invention relates to automatic pressure control and can be used in health care facilities for oxygen supply. The regulator according to the claimed invention is designed to reduce and automatically maintain the oxygen pressure at the outlet of the regulator, regardless of the gas selection by the consumer, fluctuations in the oxygen pressure at the inlet of the regulator and at a minimum ratio of inlet and outlet pressures.

Known pressure regulator containing a housing with an inlet in the lower part, rigidly connected to the housing of the outlet, located in the housing of a sensitive element with a rigid center and a regulating body made in the form of a nozzle and a shutter, a rod, one end of which is connected to a rigid center, and the task spring, designed to load the rigid center of the sensitive element, while the cavity above the rigid center of the sensitive element is sealed, equipped with an elastic shell and filled with an incompressible working medium, the task spring is equipped with a plunger, one end of which is supported on the elastic shell of the said cavity, the damper is rigidly connected to the outer surface of the stem, and the body is equipped with a threaded belt intended for communication with the gas cylinder and the filling pipe of the latter, located above the threaded body of the body, while the outlet pipe is located on the body opposite to the cylinder filling pipe (RU2211475 C2, 27.08.2003).

The disadvantage of the known pressure regulator is that the pressure in the supra-membrane cavity acts on the membrane and through it on the pusher, overcomes the force of the spring, which leads to a significant increase in the outlet gas pressure.

Known pressure reducing valve (M.D. Golubev. Gas pressure regulators. - M .: Mashinostroenie, 1964, p. 40), consisting of a body having an inlet pressure chamber further (HPC), a reduced (outlet) pressure chamber further ( KRD), a partition with an opening separating the KVD and KRD; a plunger disposed movably in the bore of the baffle with a gap between the surface of the bore and a portion of the surface of the plunger; parts of the plunger protruding into the HPC, with the possibility of bridging the gap when the plunger moves towards the baffle; a control chamber, divided by a piston with a diaphragm connected to the plunger, into a piston cavity, closed by a cover, and under the piston cavity; channel connecting the HPC with under the piston cavity, the second partition separating the KRD and under the piston cavity.

The known pressure reducing valve works as follows, to open it, a control pressure from a special source is supplied to the piston cavity, the piston and plunger move under the action of the force created by the control pressure acting on the piston, reduce the gas flowing through the gap between the plunger part and the septum from the HPC to CRP, the pressure of the CRP is regulated by changing the control pressure of the gas supplied to the piston cavity, moving the plunger and changing the gap between the part of the plunger and the baffle, the gas supply of the CRP is stopped by stopping the supply of the control pressure to the piston cavity and connecting it to the atmosphere.

The disadvantage of a pressure reducing valve is the need to have special equipment for supplying and regulating the control pressure.

A single-stage oxygen ramp reducer RKZ-500-2 manufactured in accordance with GOST 13861-89 was adopted as a prototype.

The reducer consists of two main and control pressure regulators connected in parallel. The main regulator consists of a body with inlet and outlet fittings, a filter, a seat closed by a spring-loaded valve, a pusher that passes through the center of the seat, and a diaphragm between the body and bonnet. The control regulator is attached by an inlet fitting to the main regulator body and consists of a body with a seat closed by a spring-loaded valve, a pusher, a sleeve with a spring and an adjusting screw pressed through the diaphragm to the body by a union nut. The gas, having passed the filter, is divided into two streams and enters the cavities with valves of the main and control regulators. When the adjusting screw rotates, the spring acts on the diaphragm of the control regulator and through it on the pusher, which, overcoming the force of the spring, moves the valve away from the seat and the gas at a given pressure enters the supra-membrane cavity of the main regulator. The pressure in the supra-membrane cavity acts on the membrane and through it on the pusher, which, overcoming the force of the spring and the pressure in front of the valve, pushes the valve away from the seat, opening the gap between the valve and the seat, through which gas from the high-pressure cavity enters the reduced pressure cavity.

The disadvantage of the prototype is that the pressure in the supra-membrane cavity, acting on the membrane and through it on the pusher, overcomes not only the spring force, but also the force created by the inlet pressure on the valve, which leads to a significant increase in the outlet pressure after stopping gas extraction.

The problem to be solved by the claimed invention is the creation of an automatic pressure regulator with eliminated shortcomings of the prototype, i.e. compact main gas pressure regulator for high oxygen consumption at a minimum ratio of inlet and outlet pressures with high control accuracy and reliability.

The technical result achieved by the claimed invention is to provide a pressure regulator for reducing and automatically maintaining the gas (oxygen) pressure at the outlet of the regulator, regardless of the gas selection by the consumer, fluctuations in the gas (oxygen) pressure at the inlet of the regulator and at a minimum ratio of inlet and outlet pressures.

The essence of the technical solution of the claimed invention lies in the fact that the automatic pressure regulator consists of a main body and a pressure setting body, connected through a rubber ring, by a bolted connection, the main body contains an inlet pressure chamber and a reduced pressure chamber, which is divided by an elastic membrane to form a supra-membrane cavity, which, through a channel made in the main body and the pressure setting body, is connected to the submembrane cavity of the control pressure chamber located in the pressure setting body, while in the main body there is a central hole with a threaded bushing with a seat, the hole is made with a diameter equal to the diameter of the seat hole, on a sliding fit, and a rubber ring, a travel stop having an internal thread, and the main valve located on the main valve pusher, in which a channel is made connecting the cavity formed by the surfaces of the valve and the hole in which it is It is placed with a reduced pressure chamber, a cover is attached to the lower part of the main body through an elastic membrane with a disc, the pressure setting body contains two blind holes in the center of the body, one of which is threaded and the other is unthreaded, a bushing with a seat screwed into a blind hole with a thread, the control valve with a seal and a pusher of the control valve is pressed to the seat of the bushing, on the side surface of the blind hole without a thread, there is an annular groove with a rubber O-ring installed, a main valve with a seal, a pusher of the main valve and a spring, the upper part of the pressure setting body connected to a sleeve with a regulating screw pressed against the pressure-setting body by a union nut through an elastic membrane with a thrust bearing and a spring installed between the membrane and an adjusting screw; a channel connecting the inlet pressure chamber and a threaded blind hole is made in the pressure-setting body.

Also, the essence of the technical solution of the claimed invention lies in the fact that the inlet and outlet fittings are connected to the main body.

Also, the essence of the technical solution of the claimed invention lies in the fact that the main and control valves are located on the same axis.

Also, the essence of the technical solution of the claimed invention lies in the fact that nipples are attached to the inlet and outlet fittings.

Also, the essence of the technical solution of the claimed invention lies in the fact that a filter is located in the inlet fitting.

Also, the essence of the technical solution of the claimed invention lies in the fact that the seals are elastic.

Also, the essence of the technical solution of the claimed invention lies in the fact that the cover is pressed against the main body with screws.

Also, the essence of the technical solution of the claimed invention lies in the fact that in the channel connecting the reduced pressure chamber of the main body and the sub-membrane cavity of the control pressure chamber, the body that sets the pressure, there is a throttle for venting gas.

Also, the essence of the technical solution of the claimed invention lies in the fact that the cylindrical surface of the reducing valve is coated with a lubricant inert to oxidants.

The principle of operation of an automatic pressure regulator (reducer) with a pneumatic setting is similar to the principle of operation of a single-stage gearbox with a spring setting, with the difference that the operating pressure is set not by a spring, but by the pressure of the gas supplied from the starting reducer (setpoint).

An automatic pressure regulator (reducer) with a pneumatic setting of the operating pressure, due to the absence of a rigid regulating spring in the main reducer, in comparison with reducers with a mechanical setting of the operating pressure, are most suitable for operation with a wide range of gas flow rate variation.

The claimed automatic pressure regulator provides a control pressure acting on the sensitive element (membrane) creates a force that pushes the main reducing valve away from the seat, opening and increasing the gap between them when the flow rate increases without a significant drop in the outlet pressure, in contrast to regulators with a master spring, where a decrease in the outlet pressure with increasing flow is directly proportional to the stiffness of the set spring and valve travel.

In this case, the main reducing valve moves into a hole with a diameter equal to the diameter of the seat hole, along a sliding fit, an annular groove is made on the lateral cylindrical surface of the hole, in which a rubber ring is installed, which isolates the cavity formed by the surfaces of the main valve and the hole from the inlet pressure, thereby significantly reducing the growth of the reduced pressure after stopping gas extraction.

Also, the cylindrical surface of the main reducing valve is coated with a lubricant inert to oxidants, including oxygen, preventing wear of the rubber ring and reducing friction between the surfaces of the main valve and the hole, thereby increasing the reliability of the regulator and control accuracy.

In addition, the channel formed by the holes in the pusher of the main valve connects the cavity formed by the surfaces of the valve and the hole, in which it moves with the reducing pressure chamber (hereinafter referred to as KRD), balancing the main valve with respect to the outlet pressure, thereby increasing the accuracy of maintaining a given value of the outlet pressure in the working range of gas consumption.

At the same time, a disc fixed on an elastic membrane that moves the main valve and a stop in the regulator body protects the membrane from abnormal deformation, which allows to increase the resource and additionally contributes to the stable operation of the regulator,

The arrangement of the main and control valves on the same axis ensures the compactness of the regulator.

The essence of the invention is illustrated by the following description and the accompanying illustrations, which show:

fig. 1 is a front view of an automatic pressure regulator;

fig. 2 is a side view of an automatic pressure regulator;

The device works as follows.

The regulator contains two bodies 1 (main) and 2 (setting pressure) connected by four screws 3. A rubber ring 4 is installed between the bodies, which separates the inlet pressure chamber 5 (HPC) from the environment.

The body 1 contains an inlet 6 with a filter 7 and an outlet 8.

Nipples 10 are attached to the fittings with union nuts 9 for connection to pipelines. A threaded bushing with a seat 11 and a rubber ring 12 is installed in the central hole of the housing 1, which separates the HPC from the reduced pressure chamber 13 (KRD). The threaded bushing 11 is pressed against the body by a travel stop 14 having an internal thread.

The body 2 has in the center two blind holes 15 and 16 with a thread and without a thread, respectively.

A bushing 17 is screwed into the hole 15, to the seat of which the control valve 19 with the elastic seal 20 and the valve pusher 21 is pressed against the seat of which the control valve 19 with the elastic seal 20 and the valve pusher 21 is valve 24 with an elastic seal 25, pressed against the end surface of the valve by a pusher 26 with a drain hole 27.

The sleeve 30 with the adjusting screw 31 is pressed to the body 2 from the side of the sleeve 17 through the elastic membrane 28 with the cap nut 29. The membrane 28 is assembled into one unit with a thrust bearing 32 between which a spring 33 is installed and the adjusting screw. The membrane separates the cavity 34 from the environment.

Cover 37 is pressed against the body 1 from the side of the travel stop 14 through the elastic membrane 35 by screws 36. The membrane 35 separates the cavities 13 and 40 from each other and separates them from the environment. The membrane is assembled into an udin assembly with a disc 38 that prevents the membrane from deforming from the action of the control pressure.

The bodies 1, 2 and the cover 37 contain a channel 39 formed by holes connecting the sub-membrane cavity 34 and the above-membrane cavity 40, forming a control pressure chamber (CAP).

The body 2 contains a channel 41 formed by holes connecting the cavities 5 and the opening 15.

A choke 42 is installed in the hole of channel 39 of housing 1 to discharge gas from the KUD into KRD 13.

Gas through the filter 7 enters the cavity 5 and through channel 41 into the hole 15. When the adjusting screw 31 rotates, the spring 33 acts on the membrane 28 and through it on the pusher 21, which, overcoming the force of the spring 18, moves the control valve 19 away from the seat of the sleeve 17, opening the gap between the control valve 19 and the seat of the sleeve 17, through which the gas enters the cavity 34, while the gas pressure is reduced to a predetermined level by the force of the spring 33. The control pressure gas enters the channel 39 and is then divided into two flows into the supra-membrane cavity 40 and through the throttle into the KRD. The control pressure in the cavity 41 acts on the membrane 35 and through it on the pusher 26, which, overcoming the force of the spring 23, pushes the main valve 24 away from the seat of the sleeve 11, opening the gap between the main valve 24 and the seat of the sleeve 11, through which gas from the cavity 5 enters into the cavity 13, while the gas pressure is reduced to a predetermined control pressure.

Thus, the claimed invention, an automatic pressure regulator, provides for the reduction and automatic maintenance of the gas (oxygen) pressure at the outlet of the regulator, regardless of the gas selection by the consumer, fluctuations in the gas (oxygen) pressure at the inlet of the regulator and at a minimum ratio of the inlet and outlet pressures.

Claims (9)

1. The automatic pressure regulator consists of a main body and a pressure setting body, connected through a rubber ring by a bolt connection, the main body contains an inlet pressure chamber and a reduced pressure chamber, which is separated by an elastic membrane to form a supra-membrane cavity, which through a channel made in the main body and the body that sets the pressure is connected to the sub-membrane cavity of the control pressure chamber located in the body that sets the pressure, while in the main body there is a central hole with a threaded bushing with a seat, the hole is made with a diameter equal to the diameter of the seat hole, along a sliding fit, and with a rubber ring, a travel stop having an internal thread, and a main valve located on the pusher of the main valve, in which a channel is made connecting the cavity formed by the surfaces of the valve and the hole in which it moves, with the reduced pressure chamber in the lower part of the main a cover is connected to the body through an elastic membrane with a disc, the pressure setting body contains two blind holes in the center of the body, one of which is threaded and the other is unthreaded, a bushing with a seat screwed into a threaded blind hole is pressed against the sleeve seat by a spring a control valve with a seal and a control valve pusher, on the side surface of a blind hole without a thread there is an annular groove with a rubber O-ring installed, a main valve with a seal, a main valve pusher and a spring, the upper part of the pressure setting body is connected to a sleeve with an adjusting screw, Pressed against the pressure-setting body by a union nut through an elastic membrane with a thrust bearing and a spring installed between the membrane and an adjusting screw, a channel is made in the pressure-setting body that connects the inlet pressure chamber and a threaded blind hole. 2. Automatic pressure regulator according to claim 1, characterized in that the inlet and outlet fittings are connected to the main body. 3. Automatic pressure regulator according to claim 1, characterized in that the main and control valves are located on the same axis. 4. Automatic pressure regulator according to claim 1, characterized in that nipples are attached to the inlet and outlet fittings. 5. Automatic pressure regulator according to claim 1, characterized in that a filter is located in the inlet connection. 6. Automatic pressure regulator according to claim. 1, characterized in that the seals are elastic. 7. Automatic pressure regulator according to claim 1, characterized in that the cover is pressed against the main body with screws. 8. Automatic pressure regulator according to claim. 1, characterized in that in the channel connecting the reduced pressure chamber of the main body and the sub-membrane cavity of the control pressure chamber, the body that sets the pressure, there is a throttle for venting gas. 9. Automatic pressure regulator according to claim 1, characterized in that the cylindrical surface of the reducing valve is coated with a lubricant inert to oxidants.

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