SU1451660A1 - Gas pressure regulator - Google Patents

Abstract

The invention relates to the field of automatic control and can be used in pneumatic automation systems of machines and installations for various purposes. The purpose of the invention is to improve the accuracy and improve the dynamic characteristics: a gas pressure regulator. The regulator includes a housing 1 with inlet A and outlet B with chambers between which the saddle 4 of a spring-loaded valve 5 is located, connected through sense

Description

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Tel 7 with a rigid center .8 of the membrane 9, forming with the body a supramembrane C and submembrane D chambers, with the supramembrane chamber separated from the output chamber by a partition

11, in which the throttle is installed

12, and the membrane 9 is provided with an intermediate support in the form of two, arranged coaxially with the membrane 9, split rings 13 and 14, the constituent elements of which are installed with the possibility of radial movement and are connected with the sensitive elements of the pneumatic sensor, made in the form of two

toroidal tubes 17 and 18, installed coaxially with the membrane, respectively, in the supramembrane and submembrane chambers. Moreover, the sensitive elements of the pneumatic sensor are made in the form of bellows 15, 16, each of which is fastened with one end to a toroidal tube, and the other end - to the corresponding component of the split ring. The cavities of the toroidal tubes communicate with the inner bellows cavities and through the channel 19 with the inlet chamber. 2 Il.

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This invention relates to an automatic adjustment technique and can be used in systems. non-automatic machines and installations for various purposes.

The purpose of the invention is to increase the accuracy and improve the dynamic actorism of the controller.

FIG. 1 shows a regulator, a general view; fig 2 is the same section

In the case 1 of the regulator, the inlet 2 and outlet 3 channels are connected to inlet A and outlet B by cameras, between which saddle A of spring-loaded valve 5 is located with spring 6 connected via spring 7 with rigid center B of membrane 9 loaded with spring 10.-Membrane 9 forms a submembrane C and submembrane D chambers with the housing, with the supramembrane chamber separated from the output chamber by a partition 11 in which the throttle 12 is installed. The membrane 9 is provided with an intermediate support in the form of split rings 13 and 14, whose components are radially movable and are associated with sensor elements pnevmodatchika made in the form of bellows 15 and 16, the ends of which are fastened respectively to the toroidal tubes 17 and 18, which cavity communicated with the internal cavities bellows and through the channel 19 - with the inlet chamber A,

The regulator works as follows.

With the closed output channel 3 in the output chamber in the gas pressure

 Pftfx increases due to inflow

gas from the inlet chamber A through the annular gap and between the valve 5 and the seat 4. Accordingly, the pressure in chamber C increases due to the influx

0 gas into it from the outlet chamber B through the throttle 12 in the partition 11. At the same time, the membrane 9, the pusher 7 and the valve 5 move downwards and the valve 5 sits in the saddle 4, stopping the passage of the pelvis into the outlet chamber. Opening the output channel 3 of the output chamber of the regulator B reduces the gas pressure and the gas pressure in chamber C due to flow

0 gas from chamber C to chamber B through throttle 12. In this case, the membrane 9, the pusher 7 and the valve 5 move upward, forming an annular gap h between the valve 5 and the seat 4, through which the gas from the inlet chamber A passes output chamber B and further through the output channel 3 to the consumer. Gas pressure in the inlet chamber

0 V acts on the bellows 15 and 16 and changes the position of the constituent elements of the split rings 13 and 14, which form the intermediate support of the membrane, which allows the rigidity of the membrane to change according to the 5th law and provides an increase in accuracy

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Claims (1)

Claim A gas pressure regulator comprising a housing with an inlet and outlet chambers, between which there is a seat of a spring-loaded valve located in the inlet chamber and connected to the rigid center of a membrane installed in the casing, forming a submembrane and submembrane chamber with the casing, and the submembrane chamber is separated from the output chamber by a partition, in which the dros-, mudflow is installed, and the rigid center of the membrane is loaded with a spring located in the submembrane chamber, characterized in that, in order to increase accuracy and improve the dyne ble controller characteristics, it is provided with pnevmodatchikom as two toroidal tubes mounted coaxially membrane respectively nadmembrannoy and submembrane chambers '' and associated with the sensing elements, wherein the cavity toroidal ^ ⁵ tubes communicated with the internal cavities of the respective sensor elements and the inlet chamber, and the membrane is provided with intermediate support in the form of two split rings mounted coaxially to the membrane respectively in the supramembrane and submembrane chambers with the possibility of radial transition location of the constituent elements of the split rings, and the constituent elements of the split rings are connected with the corresponding sensitive elements, and the sensitive elements are made in the form of bellows, moreover, one of the ends of each bellows 20 is fastened to the corresponding toroidal tube, and the other end to the corresponding composite element of the split ring.