SU596920A1 - Pressure regulator - Google Patents

Description

I

The invention relates to the field of automatic control of air parameters and can be used in various systems of automatic control, monitoring and control, for example, in agricultural production - in greenhouses, greenhouses, etc .; in the food industry — on the production lines of the liver in the oil refining industry — on the production lines of refining, as well as in air conditioning systems.

A device is known comprising a housing with a control chamber and an regulating body installed therein, which interacts with a sensitive element | 1Д.

In such a device, a plunger with a valve is both a regulator and a sensing element. This makes it possible to reduce the overall dimensions and weight of known regulators. However, the small area of the plunger (a large area of the plunger causes leakage through the gap) can lead to an unacceptable increase in the dead zone, i.e. to move the sensing element, a large change in the magnitude of the pressure on the sensing element-plunger is necessary. In addition, the pressure on the sensing element-plunger varies one-way, since there is a spring on the other side.

The control accuracy, sensitivity and speed of such a regulator are insufficient.

The closest technical solution to the invention is a process parameter regulator, comprising a housing with inlet and outlet nozzles and a control chamber installed in it, divided by a partition into two cavities, in one of which btx a piston is installed that is connected to the hollow stem of the regulator, and in the other, a gauge sensing element associated with the valve 2j.

The disadvantage of this device is low speed.

The aim of the invention is to increase the speed of the controller.

This goal is achieved by the fact that in the proposed regulator, the piston cavity is connected to the channel in the rod and the over piston cavity (which is connected through the throttle to the outlet pipe connected to the cavity above the manometric sensor).

 cavity under which; associated with the atmosphere ..

The figure shows a sectional pressure regulator.

I - Regulator, contains body 1 with inlet 2 and outlet nozzles 3 and control chamber 4. Regulator

5 rigidly connected to piston b. The manometric sensor element membrane 7 is hermetically clamped around the periphery in the control chamber 4, with its hard center connects with the hollow rod 9 of the valve 10 installed in the partition 8, which closes the channel 11, connects the piston 12 and the supra piston 13 cavities. The overmembrane cavity 14 and the overpiston cavity 13 with the throttle 15 communicate with the nozzle 3, the submembrane cavity

16, in which the adjustable spring 17 is installed, communicates with the atmosphere via channel 18.

The device is based on the balance of forces acting on the piston 6

The pressure regulator operates as follows.

In the initial position, the regulatory authority 5 is open. Compressed air (or gas) under pressure is fed into the inlet 2, passes through the gap between the housing 1 and the control chamber 4 and enters the outlet. At the same time, the air under pressure through channel 19 in the stem of the regulating organ and through channel 11 fills cavities 12 and 13, as well as cavity 14. The position of valve 10 using a membrane 7 with adjustable spring 17 can be adjusted so that on the piston

6 arises - the pressure drop, under the influence of which the sprit with regulating body 5 is moved to the side of reducing the flow cross section (between the regulating body in the runway 2) to the value at which

on pipe 3, a predetermined air pressure is established.

With SiTOM, the forces acting on the piston 6 and the membrane 7 are balanced.

If the inlet air pressure increases or the air flow through the regulator decreases (i.e.

collecting air from the regulator by an object of consumption) the pressure between the housing and the control chamber in the outlet pipe and in the cavities 12 and 14 increases. At the same time, the membrane 7 bends slightly, moving the valve 10 to the cover, and the piston 6 under the action of increased pressure in the cavity 12 moves with the regulator 5 to reduce the flow area (between the regulator 5 and the inlet 2). As a result, the air pressure in the regulator nipple-3 decreases.

When the input pressure decreases or the air intake from the regulator increases, the object of consumption in the device is the reverse process.

Due to the simultaneous change of pressure in the over-piston and sub-piston cavities of the control cadres of the recurrent chamber, the performance of the proposed device is increased.

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Claims (2)

Formula of Invention Pressure regulator, comprising a housing with inlet and outlet pipes and one installed; in a non-shielding chamber, divided. YERE; COMBUS on two cavities; In, cn ° of which the piston is mounted, it has a hollow stem of the regulator, and in the other - a gauge sensitive an element associated with the valve, characterized in that, in order to increase speed, the piston cavity is connected to a channel in the rod and a piston piston that it is connected through a choke with an outlet nozzle connected to a cavity above a manometric sensitive element, the cavity under which is connected with the atmosphere. Sources of information taken in attention during examination: 1, USSR Author's Certificate No. 376764, M.kl.S 05V 16/00, 1971. 2. Forward 2416858 from 02.11.76, according to which it was taken: positive decision. IS