SU1251040A1 - Pressure regulator - Google Patents

Abstract

The invention relates to the field of automatic control and can be applied to control the pressure of the working medium in various automatic control systems. The aim of the invention is to simplify the design, simplify the setting and reduce the flow rate of the control gas. The pressure regulator contains a pneumomechanical pressure transducer to move the valve, including a sensitive element and a disk with a valve installed on it, having two sections - one of the material partially permeable to the gas jet, the other from the material impervious to the gas jet, and two indicator edges. On one side of the flap, a supply nozzle is installed with a gap, on the other, a receiving nozzle, which is connected to the input of a proportional pressure amplifier, the output of which is connected to the input of a relay inverter and through a valve to a control input of a pneumatic actuator. The output of the relay inverter is connected to the control input of a pneumatic valve installed on the discharge line, the input of which is connected to the output of the regulator. When at the outlet of the regulator the pressure is less than the set pressure, the indicator edges are in front of the nozzles and the gas stream from the nozzle flows unhindered into the receiving nozzle. As the outlet pressure increases, the indicator edge approaches the gap between the nozzles, the flap closes the jet section, the pressure in the receiving nozzle decreases by 80-90%, and the pneumatic actuator closes. With a further increase in pressure at the outlet, the indicator edge intersects the gas jet and the damper completely blocks this jet. The pressure at the output and at the input of the relay inverter is equal to zero, pressure is fed into the controlled cavity of the pneumatic valve and, opening, relieves the overpressure from the regulator output, 1 sludge. c (lu o1

Description

The invention relates to automatic control and can be applied to control the pressure of the working medium in various automatic control systems.

The purpose of the invention is to simplify the design, simplify the adjustment and reduce the flow rate of the control gas.

The drawing shows a pressure regulator circuit.

The pressure regulator contains a pneumomechanical pressure transducer to the valve movement, including the sensing element 1 and a disk .2, a power nozzle 3 and a receiving nozzle 4, a proportional pressure amplifier 5 connected between the receiving nozzle 4 and the pneumatic actuator 6 installed at the inlet 7 controllers, relay inverter 8 and shut-off valve 9, installed on line 10 of the consumer. The input of the sensitive element 1. made in the form of a single-turn tubular spring connected to the outlet 11 of the regulator. The free end of the tubular spring rotates the axis 12 through which the dis 2 is mounted with a flap having two sections installed on it: one 13 - from a material partially permeable to a gas jet, for example a mesh, the other 14 - from a material not permeable to a gas jet , and two indicator edges 5 and 16. On one side of the flap 13-14, a power supply nozzle 3 is connected with a gap, connected via a valve 17 to a constant pressure source 8, and on the other side, a power supply nozzle 3 is installed with a clearance nozzle 4 which is connected About with the input of the proportional pressure amplifier 5, the output of which is connected to the input of the relay inverter 8 and through the valve 19 to the control input of the pneumatic actuator 6, the output of the relay inverter 8 is connected to the control input of the pneumatic valve 20 installed on the discharge line 21 and connected an entrance with an exit of 11 regulators

The pressure regulator works as follows

At the initial moment, when at the outlet 11 of the regulator the pressure is less than this, the indicator edges 15 and 16 are in front of the nozzles 3 and 4. At this position of the indicator edges

15 and 16 a stream of gas (liquid) from the power supply nozzle 3 passes unimpeded into the receiving nozzle 4 and creates an overpressure at the input of the proportional amplifier 5. The pressure from the output of the proportional amplifier 5 enters the input of the relay inverter 8 and through the valve 19 into the control cavity of the pneumatic the actuator 6, which is fully open, and the pneumatic valve 20 is closed. As the pressure at regulator outlet 1 increases, the indicator edge 15 approaches the gap between nozzles 3 and 4, the flap 13-14 begins to block the jet section flowing from the power nozzle 3 to the receiving nozzle 4, the inlet pressure to the proportional amplifier 5 decreases, the executive the mechanism 6 begins to close, and the indicator edge 15 occupies a position determined by the pressure value at the inlet to the proportional pressure amplifier 5, corresponding to a predetermined pressure value at the output 11 of the regulator

With a further increase in pressure at the regulator outlet I1 (overshoot), for example, with a sharp change in the flow rate (shut-off valve 9), the indicator edge 15 intersects the stream of gas flowing from the power supply nozzle 3 into the receiving nozzle

4 and the pressure in the receiving nozzle 4 decreases by 80-90%, since the air jet has to overcome the flap 13 in the form of a thin sheet of material partially permeable to the gas jet. In proportion to the input pressure, the pressure at the output of the proportional amplifier decreases.

The pressure is 80-90%, and the pneumatic actuator 6 is closed, i.e. its characteristic is selected in such a way that the opening of the pneumatic actuator 6 is carried out at pressures in the control cavity of the mechanism more than 20% of the maximum value of the control pressure. The pneumatic valve 20 remains closed due to the presence of weakened pressure at the input to the relay inverter 8. With a further increase in pressure at the regulator outlet I1, the indicator edge 16 intersects the gas stream flowing out of the power supply nozzle 3

in receiving nozzle 4, flap 14 half 31

bone overlaps this struga. The pressure at the output of the proportional amplifier 5, and therefore at the input of the relay inverter 8, becomes zero, the pressure flows into the control cavity of the pneumatic valve 20, and it opens abruptly, releasing excess pressure from the regulator output 11. When the pressure reaches the regulator 11, the setpoint value of the valve 13-14 returns to the position corresponding to this value, t, e. the lip 15 occupies a position between the nozzles 3 and 4, defining a predetermined pressure value.

Claims (1)

Invention Formula A pressure regulator containing a pneumomechanical pressure transducer to move the valve, on one side of which the supply nozzle is installed with a clearance, and on the other hand, a receiving nozzle proportional to the pressure amplifier is switched on10104 between the receiving nozzle and the pneumatic actuator mounted on the regulator inlet, the output of which is connected. c. an inverter input, a pneumatic valve installed on a discharge line connected to the controller output, and a relay inverter whose output is connected to a pneumatic valve control input, which is designed to simplify the design, simplify setup and reduce consumption control gas, pneumatic mechanical converter valve is made 15 with two indicator edges located at the same level with respect to the plane of rotation of the valve; the valve section between the first and second indicator edges is made of a material partially permeable to a gas jet, such as a mesh, and the rest of the valve is impermeable to a gas jet, and the input of the relay inverter is connected to the proportional output of the amplifier. Lx cb 21 /four VNIIPIZakaz 4410/44 Circulation 836 Subscription Production.-polygraph, pre-e, Uzhgorod, st. Project, 4