SU1156025A1 - Regulator of gas pressure - Google Patents

Abstract

A GAS PRESSURE REGULATOR, comprising a housing in which a regulating member is mounted between the inlet and outlet cavities associated with the first two-stage sensing element in which the second sensing element is mounted associated with the nepBbiM valve located opposite the first seat connecting the outlet cavity with a cavity formed by two steps of the first two-stage sensing element and a housing, two adjustment springs, one of which with a lesser rigidity is installed between the second The second element and the adjusting nut, and the second, between the first two-stage sensing element and the sleeve, the adjustment nut and the sleeve are connected by an adjustment screw, characterized in that, in order to expand the functionality and simplify the operation of the controller, it contains a second valve installed in front of the inlet cavity, balanced. inlet pressure and connected through a rod to a piston located in (L cylinder and dividing it into two cavities, in one of which a spring is installed on the side of the rod, and the second is connected to the cavity formed by the steps of the first two-stage sensing element and the housing. sd oi oh ate

Description

The invention relates to pneumatic automation and can be used in gas supply systems.

The purpose of the invention is to enhance the functionality and simplify the operation of the controller.

The drawing shows a diagram of the proposed gas pressure regulator.

The gas pressure regulator comprises a housing 1, in which a regulating body is installed between the inlet 2 and the outlet 3

a saddle 4 and spring 1

valve 5. Spring-loaded valve 5 through rod 6 is connected to a two-stage sensing element 7, in which a second sensitive element is installed, made in the form of a piston 8, the end of which is a valve 9 located opposite the seat 10 connecting the launching cavity 3 to the cavity 11 formed by two stages of the two-stage element 7 and the housing 1. The saddle 10 is connected to the output cavity 3 by channels 12 and 13. The regulator is equipped with two adjusting springs 14 and 15. A spring 14 with lower rigidity is installed. Between the piston 8 and the regulator internal nut 16, and the spring 15 between the two-stage sensor element 7 and the sleeve 17, the adjusting nut 16 and the sleeve 17 are connected to the adjusting screw 18 The regulator is equipped with a valve 19 installed in front of the input cavity 2. The valve 19 is balanced by the input pressure through the channel 20 and the cavity 21 and connected through a rod 22 to a piston 23 placed in a cylinder 24. A cylinder 24 is divided by a piston 23 into two cavities, in one of which a spring 25 is installed on the side of the rod 22, and the second is connected to the cavity 11 through a channel 26. The valve 19 is placed across from For 27, installed between the input of the controller 28 and the channel 29 connected to the input cavity 2.

The springs 14 and 15 provide the required elastic force on the sensitive elements 7 and 8 when compressed with an adjusting screw 18, the sensitive element, the piston 8, being loaded with such a force that it reacts to a pressure less than the pressure to which the sensitive element 7 responds. .

The adjusting screw 18 through the pin 30 and the spatula 31 is connected with the adjusting nut 16. From the cavity 11 there is a constant drainage through the choke 32.

The gas pressure regulator operates as follows.

In the initial position of the regulator, the spring 25 pushes the stem 22 to the upper extreme position and the valve 19 opens when the gas is supplied to the input of the regulator 29, passes a gas flow through the channel 29 into the cavity 2 to the valve 5, while the gas through the channel 20 enters the cavity 21 and valve 19 is balanced by inlet pressure.

The springs 14 and 15 of the regulator are loaded with a screw 18 and a nut 16, the rotational movement of the adjusting screw 18 through the pin 30, the spatula 31 is transferred to the nut 16, and the springs 14 and 15 are loaded on the force at which the sensitive element 8 reacts to the output pressure, more lower than the sensing element 7.

The valve 5 is pressed from the seat 4, and the valve 9 on the piston 8 is pressed against the seat 10, made in the stepped piston 7.

The gas from the cavity 2 flows through the annular gap between the valve 5 and the saddle 4 into the cavity 3 and through the channel 13 acts on the sensitive element 7, and through the channel 12 - on the sensitive element 8. The sensitive element 7 from the influence of this pressure begins to move, between the valve 9 and a saddle 10 is formed by the saddle 10, through which the gas enters the cavity 11, from where the gas is drained through the choke 32.

The pressure in the cavity 11 affects the stage of the sensing element 7, which, moving, reduces the annular gap between the valve 5 and the saddle 4. The gas inflow into the output cavity 3 decreases until the balance of forces acting on the sensitive element 7 from the springs 15, the outlet pressure in the cavity 11, and the forces acting on the valve 5 and transmitted through the rod 6 to the sensing element 7.

3

. When the output pressure decreases (the flow through the regulator increases), moving, the sensing element 8 reduces the gap between the saddle 10 and the valve 9, the gas inflow into the cavity 11 decreases, the sensitive element 7 depresses the valve 5 from the saddle through the rod 6, providing the required output pressure. An increase in output pressure (a decrease in flow through the regulator) leads to an increase in pressure in cavity 11 and a decrease in the flow of gas into the output cavity 3, providing the desired output pressure. The pressure from the cavity 11 is transmitted through the channel

254

26 and acts on the piston 23, which is pressed by the spring 25, the force of pressing the latter exceeds the force from the pressure

in the cavity 11 during the correct operation of the regulator.

When the admissible pressure is exceeded, or in the cavity 11 (the appearance of malfunctions in the operation of the regulator), the piston 23 acts on the rod 22, reducing the annular gap between the valve 19 and the seat 27.

With a further increase in pressure in the cavity 11, the valve 19 blocks the flow of gas into the cavity 2,

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15

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Claims (1)

USSR copyright certificate No. 1053074, cl. G 5 D 16/10, 1982.. GAS PRESSURE CONTROLLER, comprising a housing in which a regulating body is connected between the inlet and outlet cavities, connected to the first two-stage sensing element, in which a second sensing element, connected to the first valve, located opposite the first seat connecting the outlet cavity with the cavity formed by two the steps of the first two-stage sensitive element and the housing, two adjustment springs, one of which with less rigidity is installed between the second sensitive element and an adjusting nut, and the second - between the first two-stage sensitive element and the sleeve, and the adjusting nut and the sleeve are connected by an adjusting screw, characterized in that, in order to expand the functionality and simplify the operation of the regulator, it contains a second valve installed in front of the inlet cavity, balanced. according to the input pressure and connected through the rod with the piston, it is placed in the cylinder and separating it into two cavities, in one of which a spring is installed on the side of the rod, and the second is connected to the cavity formed by the steps of the first two-stage sensing element and the housing.