SU1290276A1 - Pressure drop regulator - Google Patents

Abstract

This invention relates to a control technique. The differential controller contains a housing with control and adjustable pressure chambers and a drain chamber connected to the adjustable pressure chamber with a flow orifice, in which a regulating member, made in the form of a rod with a spring-loaded piston, is installed. An axial channel is made in the stem. The communication of the pressure-controlled chamber with the axial channel with a part of the control pressure, limited by the pressure regulator and the regulator body, makes it possible to simplify and improve the accuracy of the regulator. 1 hp ff, 1 ill. tsD SO o Y O5

Description

The invention relates to the adjustment technique and can be used in the end seal designs of the rotating shafts of centrifugal compressors and pumps.

The aim of the invention is to simplify and increase the accuracy of the controller.

The drawing shows a differential pressure regulator, a longitudinal section.

 The differential pressure regulator comprises a housing 1 with a control pressure chamber 2, an adjustable pressure chamber 3, a drain chamber 4 and a feed hole 5 connecting the pressure regulated chamber 3 to the drain chamber 4. In the feed hole 5, an adjusting member b is made a rod 7 with a piston 8 forming with the body 1 part (damping cavity) 9 of the chamber 2 of the control pressure, communicated by the axial channel 10, made in the rod 7, with the chamber 3 of the adjustable pressure. In the axial channel 10 is installed the jet 11. The piston 8 is spring-loaded spring 12.

The differential pressure regulator operates as follows.

Control pressure chamber Py is supplied to the control pressure chamber 2 of a liquid or gas, under the action of which, as well as under the action of the spring 12, the regulator 6 moves to its extreme position at which the piston 8 abuts against the housing I. Part 9 of the control pressure chamber 2 - the lazy surface turns into an annular gap between the piston 8 and the housing 1, and the brush 7 completely fits into the discharge opening 5. A pressure is supplied to the chamber 3 of the regulated pressure, the pressure of which rises, and through the gap between the rod 7 and the discharge opening 5 camera 4, achinaets fluid flow with minimum consumption. As the pressure in the chamber 3 of the regulated pressure increases, it through the jet 11 and the axial channel 10 in the rod 7 enters the part 9 of the control pressure chamber 2 and, when a certain pressure PP is reached, the force of which exceeds the pressure force Pj and the spring pressure 12, press regulator 6 from its extreme position. At the same time, the flow of fluid through the gap between the rod 7 and the body 1 of the chamber 3 of the regulated pressure in the drain chamber 4 will increase and the pressure will slow down until an equilibrium state occurs in which the pressure PP

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The fluids in the chamber 3 of the controlled pressure will be balanced by the pressure Py in the chamber 2 of the control pressure and the compression force of the spring 12, i.e. PP pressure will be greater than Ru pressure by a certain amount. If the adjustable pressure PP starts to grow, the liquid depress the regulator 6, increasing the flow area of the flow orifice 5, the flow of fluid through it into the discharge chamber 4 increases and the pressure Pp stops. If the adjustable pressure Pp starts to fall, the plunger moves to the side of chamber 3, closing the head 5 more tightly. The flow of fluid through channel 5 into the non-draining chamber 4 will decrease and the drop of adjustable 5 pressure PP will stop.

When the regulator is in operation, the regulator 6 is dynamically stabilized. First, the change in the flow area of the orifice 5 changes very smoothly with noticeable movements of the regulator 6. Secondly, when the regulator moves b, fluid flows from part 8 chamber 2 of the control pressure in the chamber of the regulated pressure 3 or vice versa through the nozzle 11, which resists the rate of flow of fluid through it and, therefore, the speed of movement of the regulator used in any direction, alerting its fluctuations and thereby improving control accuracy.

Claims (2)

1. A differential pressure regulator comprising a housing with control and adjustable pressure chambers and a drain chamber in communication with the adjustable pressure chamber with a flow orifice, in which a regulating member is installed, made in the form of a rod with a spring-loaded piston placed in the control chamber An axial channel is made in the regulator rod, characterized in that, in order to simplify and improve the accuracy of the regulator, the pressure-controlled chamber is connected by an axial channel with a damping cavity, which is part of Amer. controls its pressure, bounded by the piston p, its regulating organ, and the body of the regulator. 2. The regulator according to claim 1, characterized in that it comprises a nozzle mounted in the axial channel of the rod. 77  U 9