RU162299U1 - PRESSURE REGULATOR - Google Patents

Abstract

1. A pressure regulator comprising a housing with inlet and outlet cavities between which a saddle is located, normally closed by a valve, as well as a control element in the form of an annular piston installed in the housing to form a low-pressure chamber and a control chamber rigidly connected to the valve and spring-loaded in direction of closing the seat with a return spring located in the low-pressure chamber, characterized in that the piston is equipped with a damping spring located in the control chamber and made with rigidity and effort pre-compression, lower stiffness and pre-compression forces of the return spring, respectively. 2. The regulator according to claim 1, characterized in that the valve is cylindrical and the seat is provided with a non-metallic sealing ring for interaction with the valve. 3. The regulator according to any one of paragraphs. 1 and 2, characterized in that the casing is made cylindrical with annular chambers of low pressure and control and with coaxially located inlet and outlet cavities. 4. The regulator according to any one of paragraphs. 1 and 2, characterized in that the control chamber is configured to be connected to a control valve, and the low-pressure chamber to the atmosphere or to a fluid drain tank. 5. The regulator according to any one of paragraphs. 1 and 2, characterized in that in the low-pressure chamber and the control chamber washers are installed to control the preliminary compression of the return and damping springs, respectively.

Description

The utility model relates to the field of hydro-pneumatic automation and can be used in hydraulic systems or fluid supply systems for various purposes, in particular, for regulating the pressure of natural gas at the outlet of gas distribution stations.

Known regulator with command pressure, made in the form of a cylindrical body with cavities of inlet and outlet, containing a valve, a sensing element in the form of a piston, a saddle (US 6,006,780).

The disadvantage of this device is that when the inlet pressure enters the regulator, a large effort is required to open the valve due to the difference in the areas acting on the inlet pressure valve, which leads to a decrease in the sensitivity of the valve and a decrease in the accuracy of pressure maintenance.

A known gas pressure regulator of indirect action, which includes cylindrical bodies with coaxially located inlet and outlet cavities, a valve, a seat, a piston-sensitive element rigidly connected to the valve, characterized in that the sensitive element is equipped with a return spring pressing it to the seat, and the saddle is equipped with a non-metallic sealing ring (RU 73744, prototype).

The disadvantage of this regulator is its low durability, due to increased wear of the valve and seat during repeated fluctuations - reduced gas consumption at the outlet, when the valve closes and opens under the action of the return spring, repeatedly acting on the seat. Moreover, as a result of repeated impacts, the material of the valve and seat (especially non-metallic) in the places of interaction is subjected to increased destruction. Thereby, the accuracy of maintaining the outlet pressure is also reduced.

The technical task of the utility model is to create an effective pressure regulator and expand the arsenal of fluid pressure regulators.

The technical result that provides a solution to the problem lies in the fact that the damping of pressure changes and valve movements in the process of pressure control is implemented. In this case, in the case of short-term fluctuations in the flow rate of the flow medium and / or pressure fluctuations at the outlet for any reason, the interaction of the valve with the seat may not occur or occurs slowly — with less effort — by impact.

The essence of the utility model is that the pressure regulator comprises a housing with inlet and outlet cavities between which a saddle is located, normally closed by a valve, and also a control element in the form of an annular piston installed in the housing with the formation of a low-pressure chamber and a control chamber rigidly connected with a valve and a spring loaded in the direction of closing the seat with a return spring located in the low-pressure chamber, the piston being provided with a damping spring located in the control chamber and made with stiffness and pre-compression force, less stiffness and pre-compression force of the return spring, respectively.

In this case, the valve is made cylindrical, and the seat is equipped with a non-metallic sealing ring for interaction with the valve, the body is made cylindrical, with annular chambers of low pressure and control, and with coaxially located inlet and outlet cavities, the control chamber is made with the possibility of connection to the control distributor, and the chamber low pressure. - to the atmosphere or to the fluid drain tank, in addition, washers are installed in the low-pressure chamber and control chamber for regulating the pre th compression and return damping springs, respectively.

The drawing shows a structural diagram of a pressure regulator

The pressure regulator includes a housing 1 with a cavity 2 of the inlet and a cavity 3 of the outlet, between which there is a seat 4, normally closed by the valve 5. The control element is made in the form of an annular piston 6 installed in the housing 1 with the formation of the low-pressure chamber 7 and the control chamber 8. The piston 6 is rigidly connected to the valve 5 and is spring-loaded in the closing direction of the seat 4 with a return spring 9 located in the low-pressure chamber 7.

The piston 6 is equipped with a damping spring 10 located in the control chamber 8 and supported on the piston 6 from the side opposite to the spring 9. The spring 10 is made with stiffness and pre-compression force less than the stiffness and pre-compression force of the return spring 9, respectively.

The valve 5 is cylindrical, and the seat 4 is equipped with a non-metallic sealing ring 11 for interaction with the valve 5, which is supported in a static position on the ring 11 of the saddle 4 with its annular edge. The saddle 4 is fixed in the cover 13, which is part of the composite housing 1. The flange 14 is attached to the cover 13.

The housing 1 is cylindrical, with annular chambers 7, 8 of low pressure and control, and with coaxially located cavities 2, 3 of the inlet and outlet.

The control chamber 8 is configured to be connected to a pilot device — a two-position control continuously variable distributor 12, and the low-pressure chamber 7 — to the atmosphere or to a fluid drain tank (not shown).

In the low-pressure chamber 7 and the control chamber 8, washers (not indicated) are installed to control the preliminary compression of the return and damping springs 9, 10, respectively.

The pressure regulator operates as follows.

In the initial position, the valve 5 is closed (supported on the ring 11 of the seat 4) by the return spring 9. The presence of the return spring 9 holds the valve 5 in the closed position, preventing gas from entering the outlet cavity 3. The pumped fluid, for example gas, is supplied to the inlet cavity 2. The pressure regulator is connected by a chamber 8 to the distributor 12. To open the regulator, the distributor 12 is installed (manually or by other means) in a position that determines the control pressure. The control chamber 8 is supplied with the same as in the cavity 2, or another control fluid (gas), and at the same time, the outlet gas at atmospheric pressure is fed into the low-pressure chamber 7. The piston 6, rigidly connected to the valve 5, moves to the left according to the drawing, compressing the spring 9 and forming an annular gap between the valve 5 and the seat 4. The spring 10 does not prevent the controlled movement of the valve 5 with the piston 6 to open the passage of fluid through the regulator. The presence of a non-metallic sealing ring 11 in the seat 4 prevents freezing of the valve 5 to the seat 4 at low temperatures and high humidity of the gas. Regulation (reduction) of gas pressure occurs due to its throttling when passing through an annular gap formed by valve 5 and seat 4. After starting the regulator, the distributor 12 adjusts to a given stationary mode of operation according to the output pressure, the value of which is set by the gas consumer.

In the case of a decrease in gas consumption in the outlet cavity 3, the pressure increases, while the piston 6 moves to the right according to the drawing under the influence of the spring 9, the throttling cross section decreases or overlaps, which reduces the gas flow rate, restoring the required gas pressure at the outlet or stopping its flow.

However, such a restoration of the operating mode cannot occur instantaneously, the transition process of the spring 9 moving the valve 5 to close for some time cannot be stopped. In cases of a sharp drop in pressure in the outlet cavity 3, the spring 10 does not stop the valve 5 completely, since it has less rigidity and compression force, but prevents the valve 5 from quickly moving to close and hitting it on the ring 11 of the seat 4, or softens the impact in case of interaction. Thus, the rapid wear of the valve 5 and the seat 4 is prevented, especially with repeated and frequent pressure fluctuations in the outlet cavity 3.

With a decrease in the outlet pressure (increase in gas consumption) in the cavity 3, the regulator operates in the reverse order.

Thus, damping of pressure changes and valve movement during pressure control is ensured. In this case, in the case of short-term fluctuations in the flow rate of the flow medium and / or pressure fluctuations at the outlet for any reason, the interaction of the valve with the seat may not occur or occurs slowly — with less effort — by impact. At the same time, sufficient adjustment accuracy, accuracy of maintaining the gas pressure at the outlet, as well as the durability and reliability of the device, as well as the convenience and ease of operation and repair, are ensured.

Claims (5)

1. A pressure regulator comprising a housing with inlet and outlet cavities between which a saddle is located, normally closed by a valve, as well as a control element in the form of an annular piston installed in the housing to form a low-pressure chamber and a control chamber rigidly connected to the valve and spring-loaded in direction of closing the seat with a return spring located in the low-pressure chamber, characterized in that the piston is equipped with a damping spring located in the control chamber and made with rigidity and effort digestive compression, lower stiffness and pre-compression forces of the return spring, respectively. 2. The regulator according to claim 1, characterized in that the valve is cylindrical and the seat is provided with a non-metallic sealing ring for interaction with the valve. 3. The regulator according to any one of paragraphs. 1 and 2, characterized in that the casing is made cylindrical with annular chambers of low pressure and control and with coaxially located inlet and outlet cavities. 4. The regulator according to any one of paragraphs. 1 and 2, characterized in that the control chamber is configured to be connected to a control valve, and the low-pressure chamber to the atmosphere or to a fluid drain tank. 5. The regulator according to any one of paragraphs. 1 and 2, characterized in that in the low-pressure chamber and the control chamber washers are installed to control the preliminary compression of the return and damping springs, respectively.

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