SU390508A1 - GAS PRESSURE DROP STABILIZER - Google Patents

Description

one

The invention relates to devices for maintaining a predetermined pressure difference of gas media and can be used in systems for automatic control, monitoring, and measurement.

Devices are known for maintaining a predetermined differential pressure of a gas consisting of a body partially filled with liquid and an upside-down metal cup freely floating in it, under the bottom of which pressure of the gas is created, displacing the liquid to the level of the bottom section of the metal cup. Excess gas barbs through a layer of liquid in the body of the device and enters the outlet. The change in pressure drop is carried out with the help of replaceable weights mounted on a metal beaker.

However, the prior art device has a number of disadvantages; use only in stationary conditions; low accuracy due to the harmful effect of friction force in the kinematic elements; The change (regulation) of the gas pressure differential is made by changing the loads only in the absence of gas pressure inside the device. The purpose of the invention is to develop a new design of the stabilizer for the pressure differential of gaseous media, which will improve the efficiency of gas regulation

media and maintaining a given value of the output pressure at a variable input pressure and changing the flow rate in various systems of automatic control and control on stationary and moving adjustable objects by changing the number of rotor revolutions or the amount of fluid in the hollow rotor.

The goal is achieved by the fact that

The cylinder is equipped with a rotating hollow rotor, partially filled with liquid, not interacting with the flowing gaseous medium. A thrust pressure is used to create the force that determines the pressure drop of the gas.

a fluid that is formed between two disks fixedly mounted inside the rotor during rotation of the rotor, for example, by means of an electric motor. Thanks to the action of the centrifugal forces on

the fluid, its position in the rotating rotor is determined and does not depend on the position of the stabilizer in space and the action of the force for it.

Smooth change in gas pressure differential

This is accomplished by changing the rotor speed or changing the amount of fluid in the rotor with additional tubes to feed or remove fluid from the rotor during rotation.

FIG. 1 shows the stabilizer of the gas pressure drop in the section; in fig. 2 - a cross-section along aa.

The gas differential pressure stabilizer includes a housing / with an electric motor 2 mounted on it, on its axis a hollow rotor 3 is fixed. Inside there is a small fixed disk 4 having triangular cuts along the outer edge, an excess gas outlet pipe 5 and a large fixed disk 6 with a pipeline 7 gas supply. A gas supply pipeline 8 to the power supply object 9 is concentrically mounted inside the pipeline 7.

A pipeline 10 is also installed inside the rotor 3 to remove fluid from the rotor and the pipeline and to supply fluid 12 to rotor 3. The fluid is removed and supplied respectively through valves 13 and 14. The rotor 3 inside is partially filled with fluid 12 (for example, mineral oil, water etc.)

When the pressure differential pressure stabilizer is operated, the electric motor 2 rotates the hollow rotor 3 with its filling fluid 12. Due to the centrifugal forces, the fluid in the rotating rotor 3 is rejected in the radial direction, forming a liquid ring of a certain thickness along the inner perimeter of the rotor 3. Gas is supplied through pipe 7 into the space between the disks 4 and 6, from where through pipe 8 is supplied to the supply object 9. Excess gas, overcoming the pressure of the liquid 12 formed between the non-movable disks 4 and 6, sparks through the edge of the small disk 4 and separates to the center of the rotor 3 in the space between the wall of the rotor 3 and the disk 4, from where the pipeline 5 enters the exit.

Fluid 12 is removed from the rotor 5 through pipe 10 and valve 13. Fluid is supplied to rotor 3 through pipe 11 and valve 14.

The proposed device allows smoothly varying the value of the gas pressure drop by changing the number of revolutions of the rotor 3 or the amount of fluid 12 in the rotor. In addition, it is universal, as it is impregnated to use it in stationary conditions and on moving objects.

Subject invention

A gas pressure differential regulator containing a cylindrical body with inlet and outlet nozzles and a regulating element, characterized in that, in order to increase the reliability and accuracy of the device, the regulating element is designed as a rotating hollow rotor filled with fluid with two parallel-mounted fixed disks of different diameters, forming an annular channel connected to the gas inlet and outlet by the inlet and outlet nozzles, with a smaller diameter disk located under the disk. It has a larger diameter and has triangular cuts in the outer diameter.

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