SU494729A2 - Gas Pressure Regulator - Google Patents

Description

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The invention relates to automation and can be used in automatic control systems, in particular in air conditioning installations of livestock buildings.

Known gas pressure regulator for ed. St. No. 392468, comprising a pipe with a throttle valve and a pressure sensor made in the form of a nozzle and a vortex tube, the "cold end of which is connected via a diaphragm to an actuator control cavity, the second cavity of which is in communication with the atmosphere.

In the known devices, a portion of the cold gas is not used to cool the second chamber cavity, where the spring and the rod associated with the movable bellows base are located, heating which increases the friction of the rod and reduces the spring stiffness, which reduces the control accuracy.

The aim of the invention is to expand the scope of application of the regulator.

This goal is achieved by the fact that the "cold end of the vortex tube is connected through the choke to the second cavity of the actuator.

The drawing shows the proposed controller.

The pressure regulator includes a control object, made, for example, in the form of pipeline 1, a pressure sensor consisting of a vortex tube 2 and a nozzle 3, and an actuator 4 with a regulating body 5. The output end of the pipe 1 is connected to the nozzle 3 by a channel 6 through a choke 7. The vortex tube 2 contains a chamber 8 with a diaphragm 9 (cold end), a cone 10 and an outlet nozzle 11 (hot end). The power of the vortex tube is carried out through the channel 12, which is made tangentially relative to the inner surface of the chamber 8.

The mechanism 4 has a bellows 13, which, together with the body, forms a control cavity 14 and a cavity 15, which is in communication with the atmosphere. The movable base of the bellows 13 is connected by a rod 16 to the throttle butterfly valve - the regulator 5 and is equipped with a compression spring 17. The cold end of the vortex tube is connected by a channel 18 to the control cavity 14 and through the throttle 19 and the channel 20 to the second cavity 15 of the bellows 13.

The regulator works as follows.

As the pressure increases, the resistance of the gas in the nozzle 11 increases, as a result, the pressure in the control cavity 14 increases, which, acting on the bellows 13, moves the valve of the regulator 5

decreasing pressure. When the pressure Pvd decreases, the gas discharge through the nozzle 11 increases, the pressure in the controller, the cavity 14 decreases, the compression spring 17 expands the bellows 13 and, mixing, and the valve adjusts its organ 5, increases the pressure PIR. At the same time at the time of discharge gas, the passage through the choke 19 and the channel 20 enters the cavity 15 and cools the rod 16 and the spring 17.

With a further change in pressure of the device, the operation of the device is repeated.

Subject invention

Gas pressure regulator autom. St. No. 392468, characterized in that, in order to expand the scope of application of the regulator, in it one end of the vortex tube is connected to the second cavity of the actuator via a choke.

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