SU1735822A1 - Device for gas pressure control - Google Patents

Description

The invention relates to gas supply systems and can be used to control gas pressure.

A dual-band gas pressure regulator is known, comprising a housing, a spring-loaded sensing element associated with a spring-loaded valve located in a movable sleeve with a seat 1.

The adjustment to another adjustment range is carried out by moving the sleeve with the valve pair by means of a pneumatic actuator to the value h set by means of adjusting nuts.

Closest to the present invention is a pressure regulator containing a pneumomechanical pressure transducer to move the valve, on one side of which there are feed nozzles, and on the other side receiving nozzles proportional to pressure amplifiers connected between receiving nozzles and pneumatic actuating mechanisms for supplying and releasing pressure 2 .

The disadvantage of this regulator is the uneconomical consumption of controlled gas, the increased weight and size.

The purpose of the invention is to increase efficiency, reduce the weight and size of the device.

The goal is achieved by performing a pneumatic actuator in the form of a regulating body in the body in the form of a hollow piston, in which a saddle is made and a spring-loaded gate is connected to a spring-loaded stepped sensing element forming an output cavity and feedback cavity with the body. the piston cavity is connected to the input cavity, and the first and second ends of the piston are located respectively in the output cavity and the chamber connected to the output cavity, while The mouth is connected via a pneumatic actuator to the output of a proportional amplifier, the feedback cavity is connected to the input of the consumer, and the output cavity is connected to the input of a pneumomechanical pressure transducer to the valve movement. In addition, a partition is installed in the outlet cavity, forming an additional cavity with the smaller step of the sensing element, which is connected to the outlet cavity through a capillary channel and a check valve.

The drawing shows a schematic diagram of a device for regulating gas pressure.

The device consists of a pneumomechanical pressure transducer to move the valve, containing the sensing element 1 and the disk 2, a pair of nozzles 3 and 4, a proportional pressure amplifier 5, a pneumatic actuator 6, a shut-off valve 7 installed on the consumer line 8. The input of the sensing element 1 made in the form of a single-turn tubular spring, connected to the outlet 9 of the pneumatic actuator 6.

The free end of the tubular spring rotates the axis 10 through which the disk 2 with the valve 11 mounted on it has an indicator edge 12. The power nozzle 3 is connected along the path of the valve 11 and connected via a valve 13 to a source 17 constant pressure, on the other hand, the receiving nozzle 4,

0 connected through valve 15c by an input of amplifier 5, the output of which is connected to the input of a pneumatic actuator 6, which consists of a pneumatic actuator 16, a housing 17 in which a spring-loaded, stepped sensing element 18 is connected via a rod 19 with a spring-loaded gate 20 located in a hollow piston 21, which is connected to the pneumatic actuator 16 through the rod 22.

0 The output cavity A is divided by the partition wall of the housing 17 with the formation, with a small step of the sensing element 18, of an additional cavity B connected to the output cavity A through a capillary

5, the channel 23 and the channel 24 of the check valve 25. The housing 17 forms a cavity In feedback with a larger step of the sensing element 18.

The cavity And the first end of the hollow piston

0 21 is connected to the chamber formed by the housing 17, with the second end of the hollow piston 21.

Claims (2)

1. A device for regulating the pressure of the gas, containing successively installed pneumomechanical pressure transducer in the movement of the valve and a proportional amplifier, as well as a pneumatic actuator, characterized in that, in order to increase efficiency, reduce the weight and size of the device, the pneumatic actuator consists of a body in which it is installed 5, the regulator, made in the form of a hollow piston, in which the seat is mounted and has a spring-loaded gate connected to a spring-loaded spring set by a stepped sensing element forming an output cavity and a feedback cavity with the housing, the piston cavity being connected to the input cavity, and the first and the second ends of the piston are located respectively in the output cavity and the chamber connected to the output cavity, while the piston is connected through a pneumatic actuator with the output of a proportional amplifier, the cavity is inverse communication is connected with the input of the wearer, and the outlet cavity - to the input pnevmomeha0 a pressure transducer to flap movement. 2. A device according to claim 1, characterized in that, in order to improve the dynamic characteristics of the device, a partition is installed in the output cavity, forming an additional cavity with a smaller step of the sensing element, connected to the output cavity through a capillary channel and a check valve.