SU1569808A1 - Pressure regulator - Google Patents

Abstract

The invention relates to automation, in particular, to pressure regulators and can be used on irrigation pipelines, in water supply systems and pressure sewage systems, as well as on technological pipelines transporting various liquids. The purpose of the invention is to expand the scope and increase reliability. For this, the regulator comprises a housing 1, an inlet 2 and an outlet 3, a double-seat regulator 4, a rod 5, a sealing cuff 6, a membrane 7, a washer 8, an adjusting spring 9, a sleeve 10, a cover 11, an insert 12 in the form of a tube. Venturi, hole 13, channel 14, first cavity 15, rigid partition 16, omental seal 17, second cavity 18, hole 19. 1 Il.

Description

The invention relates to automation, in particular, to pressure regulators, and can be used on irrigation pipelines, in water supply systems and pressure sewage systems, as well as on process pipelines transporting various liquids.

The aim of the invention is to expand the scope and increase the reliability of the controller.

The drawing shows a pressure regulator, a general view.

The pressure regulator comprises a housing 1 with an inlet 2 and an outlet 3 cavities. Inside there is a double-seat regulating body 4 fixed on the rod 5, rigidly connected to the sealing cuff 6 and the membrane 7. On the rod from the inlet cavity between the cuff 6 and the washer 8 there is an adjusting spring 9, the compression of which is controlled by the sleeve 10 having a thread on the outer surface with which it is screwed into the threaded hole of the cover P. 15, limited by the membrane 7 and the housing. In the exit cavity 3, a rigid partition 16 is installed with a gland sealing 17, which forms a second cavity 18 with the membrane 7 and is communicated through the opening 19 with the atmosphere. The venturi tube with the stem channel and the first cavity forms an ejector-vacuum drive.

The pressure regulator operates as follows.

When passing through the housing 1, the Calculated amount of fluid in the inlet cavity is established - the pressure P4, and in the outlet Pg. In this case, the rod 5 is in the initial position, so

as pressure P4 on regulator 4 is balanced by pressure P on sealing lip 6, and pressure P2 on regulator 4 is balanced by spring 9. Atmospheric pressure on diaphragm 7 is balanced by pressure P5 in the cavity of regulator 15, which is equal to the difference of the values between pressure P2 and In the cavity of the regulator 15, which occurs due to ejection through the opening 13. When the pressure P increases into the cavity 3, the regulator 4 begins to move towards the entrance cavity 2, carries the rod 5 along with it. CRC through the opening 13 decreases and the pressure in chamber 15 increases, which leads to a further displacement and decrease the pressure in the outlet cavity.

When a pressure P2 equal to the calculated one is reached, the movement of the regulator stops, and when the pressure P falls below the calculated regulator, it returns to its original position. The degree of compression of the spring 9 by the sleeve 10 can be adjusted by the regulator to the value of P within wide limits.

With an increase in the flow rate of AIDKOST through the regulator more than the calculated one (may be caused, for example, by an accident on the pipeline), ejection through the opening 13 increases. In cavity 15, pressure PJ decreases and membrane 7 under the action of atmospheric pressure moves inside cavity 15, carries away the rod 5 and the regulator 4 associated with it. The flow through the regulator decreases, but due to the fact that the opening 13 moves inside the Venturi tube, the ejection remains the same and the pressure P3 in the cavity 15 decreases, which leads to further izheniyu stem toward cavity 15. Upon reaching the calculated

the minimum flow rate system is balanced. It can be reset to its initial state after complete intersection of the fluid flow through the regulator.

The pressure regulator provides various required operating pressures in irrigation and other fluid networks, and also prevents fluid loss and soil erosion in the event of a pipeline accident.

Claims (1)

Invention Formula A pressure regulator, comprising a housing, between the inlet and outlet cavities of which is placed a double-seat regulator mounted on a rod, the first end of which is fixed on the side of the inlet cavity cuff, tuning element, distinguished by the fact that, in order to expand the scope and increase the reliability of the regulator, in it the second end of the rod is sealed in a hole installed in the output cavity of a rigid partition and fixed on the membrane that forms with the body and a rigid partition, respectively, of the first and second cavities, an insert is installed between the two-piece regulating body and the partition, performed in the form of a Venturi tube, the section of which communicates with ne. howling cavity through the channel, made in stock, while the second cavity is in communication with the atmosphere, and the tuning The element is designed as an adjustable spring installed at the first end of the flow.