SU1487003A1 - Pressure controller - Google Patents

Description

The invention relates to pneumatic automation and can be used <in pneumatic systems. The purpose of the invention is the expansion of the scope. For

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use in systems where high accuracy is required in both flow and non-flow modes; the regulator includes a housing 1 with an inlet 2 and an output 3 cavities and a cavity 4 of constant pressure, a valve · 5 with a shoulder 6, a saddle 7, a spring-loaded sensitive element 8, a rod 9, a spring-loaded sleeve 10 with the first 11 and second 12 end stops, a stepped piston 13 with a greater 14 and a smaller 15 steps, springs 16 and 17, an emphasis 18 associated with a smaller step 15 of the stepped piston 13. 1 st.

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

The purpose of the invention is the expansion of the scope.

The drawing is a schematic diagram of the pressure regulator.

The regulator includes a housing 1 with an input 2 and output 3 cavities and a cavity 4 of constant pressure, valve 5 with collar 6, saddle 7, under · ¹ spring sensing element 8, rod 9, spring-loaded sleeve 10 with the first 11 and second 12 end stops, which coaxially installs valve 5 with a stepped piston 13 with a greater 14 and a smaller 15 steps, springs 16, 17, an emphasis 18, a fixed partition 19. Moreover, between the shoulder 6 and the second mechanical stop 12 there is a gap A.

The pressure regulator operates as follows.

When the regulator is set to the required output pressure, and the input pressure is not applied, the spring-loaded sensing element 8 rests in the housing 1, the valve 5 is depressed by the rod 9 from the seat 7.

When the medium is fed into the input cavity 2, the pressure-medium in the output cavity 3 begins to increase and, with the shut-off element (not shown) closed on the output line, reaches the value specified by the setting, the spring-loaded sensing element 8 moves and the valve 5 closes the saddle 7.

After opening the shut-off element on the output line, the regulator operates in the flow mode, in which every change in gas flow rate and inlet pressure corresponds to a change in output pressure. Spring-loaded sensitive element 8, in response to these changes, through the rod 9

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in one way or another, moves valve 5 relative to the seat 7. The influx of medium into the output cavity 3 automatically changes, and the pressure in it returns to the value specified by the regulator setting, with some error set for the calculated input pressure range.

When the pressure in the inlet part 2 increases' beyond the calculated value, for example in non-flow rate mode, due to leaks of sources of increased pressure (not shown), the valve 5 and the stepped piston 13 are affected. The preload force of the valve 5 to the seat 7 is slightly increased, and the stepped piston 13, compressing the spring 17, begins to move. together with the spring-loaded sleeve 10. When the gap A becomes equal to zero, the system of the stepped piston 13 - the spring-loaded sleeve 10 - the valve 5 remains stationary with a constant pressure force of the valve 5 to the seat 7. The sealing surfaces of the seat 7 will not experience high specific pressures.

When the consumer again takes the medium out of the outlet cavity 3 of the regulator, the valve 5 opens the saddle 7, the pressure in the inlet cavity 2 due to the influx of the medium into the output cavity 3 decreases to a normal value set, for example, by a reducer in the input line, and the regulator starts working again design mode with the required high accuracy.

At elevated inlet pressure, the regulator is also operational, but the regulation accuracy will be somewhat reduced, the system is stepped.

the piston — the valve is spring-loaded; the valve becomes connected, and the valve 5, in the process of automatic adjustment of the gap, moves along the seat with the stepped piston. The moving regulator system is affected by the friction force on the stepped piston 13,

Claims (1)

Claim A pressure regulator, comprising a housing with inlet and outlet cavities and a constant pressure cavity, installed in it a regulating body made in the form of a seat and a valve installed in the inlet cavity and connected with a spring-loaded sensitive element by means of a stem located in the saddle, compacted movable element, installed between the input cavity and the cavity of constant pressure, and between the valve and the sealed movable element has a spring, characterized in that, in order to expand the area When a regulator is inserted, a spring-loaded bushing installed in the inlet cavity with the first and second end stops is inserted into it, the sealed movable element is made in the form of a stepped piston, the largest stage of which is located in the spring-loaded bushing with a smaller stage connected with a stop located in the cavity of constant pressure, the valve is made with a collar and installed in a spring-loaded sleeve with a gap between the collar and the second end stop, and the diameter of the smaller stage tupenchatogo piston equals the effective diameter of the seat. 1487003