RU2211475C2 - Pressure regulator - Google Patents

Abstract

FIELD: automatic control over gas pressure in automotive, gas, power, chemical and other branches of industry and agriculture. SUBSTANCE: pressure regulator includes body with inlet branch pipe in lower part. Outlet branch pipe is made fast to body. Sensitive element with rigid center and regulating element coming in the form of nozzle and gate are positioned in body. There is rod one end of which is coupled to rigid center and loading spring meant to load rigid center of sensitive element. Space above rigid center of sensitive element is sealed, is fitted with elastic envelope and is filled with incompressible working medium. Loading spring is equipped with plunger which one end rests on elastic envelope of above-mentioned space. Gate is made fast to outer surface of rod. Body is provided with threaded band meant for connection to gas cylinder and filling branch pipe of the latter placed above threaded band of body. Outlet branch pipe is located on body opposite to filling branch pipe of cylinder. Given pressure regulator makes it feasible to unload gas line from pressure of cylinder and form compact gas cylinder fuel supply system. EFFECT: improved reliability of control over gas pressure. 1 dwg

Description

 The invention relates to the field of automatic control, and in particular to devices for regulating gas pressure, and can be used in the automotive, gas, energy, chemical and other industries and agriculture.

 Known gas pressure regulator containing a housing with inlet and outlet, between which a valve is installed in the seat, connected by a rod with a piston sensing element equipped with a rubber ring. Improving the reliability and durability was achieved in the regulator in that it contains a fluoroplastic sleeve with a rubber seal in the body mounted on the piston with the possibility of interaction with the rubber ring, while the rubber seal in the body is coated with fluoroplastic [1].

 The use of a fluoroplastic coating in the contact zone between the housing and the piston sensitive element ensured, along with the indicated qualities, an increase in accuracy and a decrease in the friction force in the rubbing couples, however, the layout of the input and output in the regulator on a common axis requires installing it on a tank of a finite volume (gas bottle) application of additional elements of pipe fittings. In addition, during operation, the pressure regulator is not protected from external influences, including mechanical ones, which may adversely affect its service properties, and the regulator must be dismantled to fill the cylinder with the working medium.

 A pressure regulator is known, comprising a housing with an inlet and outlet cavities, between which a regulating body is connected, connected from the side of the inlet cavity with an actuating element, and a pilot valve, the sensing element of which forms a cavity in communication with the housing, communicating with the outlet cavity and through the pilot valve with the cavity control of the actuator. Improving reliability, reducing the size and weight of the regulator is achieved by the implementation of the regulatory body in the form of a two-seat valve, the first locking element of which is pressed to the first saddle from the input cavity, and the second locking element is to the second saddle from the output cavity, while the area of the first locking element is larger the area of the second locking element by an amount corresponding to the sealing force of the two-seat valve, and the area of the actuating element is greater than the difference in the areas of the first and second lock elements [2].

 The layout of the inlet and outlet cavities on a common horizontal axis requires this valve to use additional elements of pipeline valves when installing it on a gas cylinder, in addition, it, like the pressure regulator according to [1], is not protected from harmful external influences, including mechanical ones. At the same time, the possibility of placing the regulator directly in the cylinder cavity is also excluded, since it becomes impossible both to select and supply the transported product to the consumer.

 A known pressure regulator comprising a housing with inlet and outlet nozzles and a sensing element located therein with a spring-loaded rigid center and a regulating body made in the form of a nozzle and a damper in the form of a flaccid membrane connected in contact with a spring-loaded stop with one end of the rod located in the central hole nozzle, the other end of the rod is connected with a spring-loaded rigid center, and around the nozzle in the housing there are made radial annular grooves, the tops of the protrusions of which are located in one plane . The expansion of the scope of the regulator is achieved by the fact that the sluggish membrane is placed freely between the nozzle and the spring-loaded stop with a gap along its outer diameter connecting the inlet pipe with radial and annular grooves [3]. In the aggregate of essential features, the regulator is closest to the claimed invention and adopted as a prototype.

 Installing the inlet and outlet nozzles in the lower part of the casing allowed reducing the weight and dimensions of the regulator, however, when installing the regulator on the final volume tank (gas cylinder), it is also necessary to use additional elements of gas fittings In addition, as well as the regulators according to [1] and [ 2], it is not protected from external influences, including mechanical ones.

 The objective of the invention is to develop a compact pressure regulator, which, being installed at least half its height in the cavity of the gas cylinder, would be reliably protected from external mechanical influences, providing the ability to control the output pressure over a wide range, as well as filling the cylinder with a working medium without dismantling the regulator.

 The problem is solved in that in the pressure regulator comprising a housing with an inlet pipe at the bottom, an outlet pipe rigidly connected to the housing, a sensing element located in the housing with a rigid center and a regulating body made in the form of a nozzle and a damper, a rod, one end of which is connected with a rigid center, and a task spring designed to load the rigid center of the sensing element, according to the invention, the cavity above the rigid center of the sensing element is sealed, provided with an elastic shell and filled with an incompressible working medium, the task spring is equipped with a plunger, one end of which is mounted on the elastic shell of the specified cavity, the valve is rigidly connected to the outer surface of the rod, the housing is equipped with a threaded belt designed to communicate with the gas cylinder, and the filling nozzle of the latter located above a threaded belt of the body, while the outlet pipe is installed on the body opposite to the cylinder filling nozzle.

 It is advisable to use a grease as the working medium.

 It is advisable to provide the inlet pipe with a filter element.

 It is advisable to use a brass porous filter as a filter element.

 It is advisable to make the plunger hollow, and to supply the task spring with a guide, one end of which should be placed in the plunger cavity, and the other end should be provided with a support whisk intended for interaction with the adjusting screw.

 It is advisable to carry out the rod with a through axial channel associated with the inlet pipe of the pressure regulator.

 It is advisable to connect the cylinder filling nozzle to its cavity by means of a longitudinal narrow groove in the threaded belt of the housing.

 It is advisable to equip the pressure regulator with a two-stage cylindrical cup, in a step of a smaller diameter which set the task spring with a plunger and an adjusting screw, and in a step of a larger diameter to form an airtight cavity above the rigid center of the sensing element.

 It is advisable to provide the housing with a liner mounted under the specified glass, the nozzle is made in the liner, and the peripheral parts of the elastic shell and the sensing element are closed between adjacent end surfaces of the liner and the glass.

 It is advisable to provide the insert with a sleeve, place the free end of the rod in the cavity of the sleeve, while the insert and the sleeve are rigidly connected to each other by means of a threaded belt.

 It is advisable to provide the adjusting screw of the task spring with an elastic retainer located in the slotted slot of the screw.

 It is advisable that the elastic retainer is made of rubber.

 It is advisable to provide the top cover of the regulator body with an air filter.

 It is advisable to use foam rubber as the material of the air filter.

When using the invention can be obtained technical result, expressed in
- unloading the gas pipeline from the cylinder pressure, which is due to the possibility of obtaining the working pressure in it directly at the cylinder outlet, which is used as the outlet pipe of the pressure regulator;
- unloading the shut-off valve of the cylinder from the pressure in the latter, due to the installation of the valve in the gas supply line after the pressure regulator;
- the possibility of creating a compact gas-balloon fuel supply system, for example, for a car, which is due to a significant reduction in the dimensions and force of the task spring and, as a result, the dimensions and mass of the regulator as a whole, as well as the ability to control the output pressure of the regulator in a wide range due to its use in sensitive element of the combined link "task spring - plunger with a closed volume of incompressible working medium".

 Other advantages of the claimed invention will be visible from the description and drawing, which shows a General view of the regulator in longitudinal section.

 The pressure regulator comprises a housing 1 with upper 2 and lower 3 covers, the last of which has an inlet pipe 4 and a semipermeable filter 5, an insert 6, a sensing element 7 in the form of a membrane with a spring-loaded rigid center 8, loaded with a task spring 9, an adjustment screw 10 , a regulating body made in the form of a shutter 11 and a nozzle 12, the shutter being located in the cavity 13 of the insert 6, connected to the inlet 4 by means of radial channels 14, and is rigidly connected with the rod 15 passing through the opening of the nozzle 12, which which, in turn, is rigidly connected by means of a nut 16 to a rigid center 8. A two-stage cylindrical cup 18 is installed in the housing cavity 17, the larger diameter step of which is supported by the insert 6 to form a sealed cavity 20 filled with an elastic shell 19 filled with an incompressible working medium, for example grease. The task spring 9 is equipped with a plunger 21 having a cavity 22 and a guide 23 having a support rim 24 at one end and placed in the cavity 22 with its other end. The plunger 21 is in constant contact with the shell 19 and together with the rigid center 8 forms in the sensing element the transmission lowering link with a characteristic equal to the ratio of the squares of the diameters of the plunger to the rigid center. On the outer surface of the upper half of the housing 1 there is a threaded belt 25, designed for tight connection with a gas cylinder (not shown) and provided with a longitudinal narrow slot 26, which forms, together with the hole 27 and the pipe 28, a gas filling channel for the cylinder. Opposite pipe 28 has an outlet pipe 29 of the regulator connected by a cavity 17, sector-shaped grooves 30 of the glass 18, cavity 31 and radial through holes 32 of the insert 6 with the nozzle 12 of the regulatory body, and actually serves as the outlet of the cylinder. The free end of the rod 15 is installed in the cavity of the sleeve 33 of the insert 6, which are rigidly connected to each other by means of a threaded belt 34, and is provided with an axial through channel 35. The top cover 2 is equipped with an air filter 36, and the cup 18, the rod 15 and the insert 6 are respectively sealing elements 37, 38, 39.

 To maintain the force settings of the spring 9 in conditions of vibration, for example when the vehicle is moving, an elastic locking element 40, for example, made of rubber, locked by a split spring ring 41, is placed in the slot of the screw 10.

The pressure regulator operates as follows. The gas flow through the inlet pipe 4 passes into the cavity 13 to the nozzle 12, where it is throttled and enters the chamber 42 under the membrane 7, and through the channel system 32, 31, 17 enters through the outlet pipe 29 to the consumer. The outlet pressure is set by adjustable screw 10 and is maintained automatically:
- when the pressure in the chamber 42 is reduced relative to the specified spring force 9, the membrane 7 with the rigid center 8 and the stem 15, as well as the plunger 21 will go down, increasing the gap between the valve 11 and the nozzle 12, as a result of which the output pressure increases and the pressure in the chamber 42 is restored, and the system "membrane 7, rigid center 8, plunger 21, spring 9" comes into equilibrium;
- with increasing pressure in the chamber 42 and at the outlet 29 of the regulator, the membrane 7 with the rigid center 8, rising upwards, acts through the working medium in the cavity 20 on the plunger 21, which, according to the gear ratio, will move upward, pumping the spring 9. At the same time, the rod 15 with a shutter 11 will also move upward, covering the throttling gap, and the pressure at the outlet 29 and in the chamber 42 decreases, and the membrane 7 comes into equilibrium.

The pressure regulator of the claimed design made it possible to create a highly reliable compact gas supply system for a passenger car based on the Orbit model manufactured by the Izhevsk Automobile Plant. At the same time, the fuel supply line was unloaded to a working pressure of 5-30 kgf / cm ² from a cylinder pressure of 250 atmospheres, and the line shutoff valve was designed for the outlet pressure of the regulator and was installed in a place convenient for the driver.

 The pressure regulator with minor changes in the design of the filling unit can be successfully used in the "open" version, when its input is connected to the transmission line of the working medium.

Sources of information
1. Patent of the Russian Federation 2031438, cl. G 05 D 16/00, publ. 03/20/95, Bull. 8.

 2. USSR patent 1779291, cl. G 05 D 16/00, publ. 11/30/92, Bull. 44.

 3. Copyright certificate of the USSR 1550490, cl. G 05 D 16/00, publ. 03.24.88, Bull. 10 is a prototype.

Claims (1)

 A pressure regulator comprising a housing with an inlet nozzle in the lower part, an outlet nozzle rigidly connected to the housing, a sensing element with a rigid center located in the housing and a regulating body made in the form of a nozzle and damper, a rod, one end of which is connected to the rigid center, and a spring tasks designed to load the rigid center of the sensing element, characterized in that the cavity above the rigid center of the sensing element is sealed, provided with an elastic shell and filled with incompressible p with a working medium, the task spring is equipped with a plunger, one end of which is mounted on the elastic shell of the specified cavity, the valve is rigidly connected to the outer surface of the rod, and the body is equipped with a threaded belt designed to communicate with the gas cylinder and the filling nozzle of the latter located above the threaded belt of the body while the outlet pipe is located on the housing opposite to the cylinder filling nozzle.