SU1366997A1 - Pressure regulator - Google Patents

Abstract

The invention relates to the field of automation, in particular to liquid pressure regulators, and is intended to maintain a predetermined pressure and establish a uniform flow in the pressure pipe. The purpose of the invention is to increase the accuracy, simplify and expand the scope of application of the controller. The pressure regulator includes a housing 1, an inlet 2 and an outlet 3, a cavity, a locking member 4, a hollow rod 5, a membrane 6, a spring 7, a cover 8, an overmembrane cavity 9, a throttle 10, a partition 11, a side window 13 forming the end of the sleeve 12 variable throttle 14, needle valve 15, spring 16, spring 17, adjusting screw 18, control cavity 19, tube 20, drain hole 21, hole 22. The regulator is simple in design and can function as a gate valve. silt gv with $ (L

Description

The invention relates to automation, in particular to liquid pressure regulators, and is intended to maintain a predetermined pressure and establish a uniform flow in the pressure pipe.

The purpose of the invention is to increase the accuracy, simplification and expansion of the field of application of the controller.

The drawing shows a schematic of a pressure regulator.

The regulator comprises a housing 1, between the inlet 2 and the outlet 3 cavities of which a locking member 4 is connected, connected through a hollow rod 5 with a membrane 6, preloaded with a spring 7. The membrane 6 forms with the cover 8 an over-membrane cavity 9 connected through a choke 10 mounted in the lower part of the hollow stem 5, with the input cavity 2, In the hollow stem 5, a partition 11 is made, dividing it into lower and upper parts. The upper part of the hollow stem 5 is installed in the supramembrane cavity 9, passes inside the sleeve 12 and has a side window 13, which forms a variable throttle 14 with the end of the sleeve 12. The regulator is designed as a needle valve 15 located at the end of the hollow stem located outside of the crack 8 and is connected with a sensitive element made in the form of a piston 16 spring loaded 17 and connected with an adjusting screw 18. The output of the needle valve 15 and the control cavity 19 of the piston 16 are connected by a tube 20 with an output cavity 3. The bottom of the housing 1 has The inlet 21, the hollow rod - the hole 22.

The pressure regulator operates as follows.

Water flows into the controller housing 1 through the inlet cavity 2, lifts the locking member 4 and enters the outlet cavity 3. At the same time, water passes through a calibrated orifice - throttle 10, hollow stem 5 and orifice 22 enters the supermembrane cavity 9 and from there through the side window 13 , a hollow rod 5, a needle valve 15 and the tube 20 enters the output cavity 3. With the help of a pressure device attached to the end of the hollow stem located at the top of the cover 8, set the required pressure of the consumer, turning the adjusting screw 18 and, the investigator about.

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moving the piston 16 and the needle valve 15 and providing a certain stiffness of the spring 17. When the piston 16 and the needle valve 15 are moved to the left, the cross section of the hollow rod 5 decreases. This causes a certain discharge of water from the overmembrane cavity 9 into the output cavity 3. When the pressure in front of the regulator increases the locking member 4 is lifted, the cross section of the variable throttle 14 is reduced as it overlaps. The pressure is transmitted through the throttle 10 and the hollow brush 5 to the supermembrane cavity 9, and therefore through the lateral o 13 but the hollow rod 5, the needle valve 15 and the tube 20 into a control cavity 19 of the piston 16. Under the influence of excess pressure in the control cavity 19, the needle valve 15 is moved to the left and closes the flow section of the upper portion of the hollow rod 5, i.e. the discharge of fluid from the supramembrane cavity 9 stops. In the nadmembrane cavity, a pressure is created that acts on the membrane 6. Under the action of this pressure and elastic force of the spring 7, the hollow rod 5, and together with it, the locking member 4 moves down and the flow through the regulator decreases to a predetermined value.

When the pressure decreases in front of the retractor, the locking organ 4 drops a little, the cross section of the side window 13 increases, the pressure in the overpiston control cavity 19 also decreases, therefore, the flow cross section through the hollow rod 5 increases. The pressure in the supermembrane cavity 9 decreases, and the flow through the controller is increased to a predetermined value.

The regulator can perform valve functions. Rotating the adjusting screw 18 and clockwise up to the stop, close the cross section of the hollow shaft 5. The discharge of water from the supermembrane cavity 9 stops, and therefore, the locking member 4 hermetically closes the flow section of the pressure valve.

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The regulator is simple in design, provides for increased accuracy by simultaneously changing the throttles between the end of the sleeve 12 and the side window and the gap created by the needle valve 15, and the function of the valve.

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Formula

the invention

A pressure regulator, comprising a housing, between the inlet and outlet cavities of which a stop valve is mounted, connected through a hollow rod to a spring-loaded diaphragm, which forms a supramembrane cavity connected to the cap, connected through an orifice mounted in the hollow stem, to the inlet cavity, and the regulator, made in the form of a valve connected with a spring-loaded sensitive element, the control cavity of which and the outlet of the valve are connected to the output cavity, about t and h

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In order to simplify, increase accuracy and expand the field of application of the regulator, a partition is made in the hollow stem, a part of the hollow stem above the partition is provided with a side window, located in the upper part of the cavity and fixed in the outer sleeve inside it and with the formation of a variable throttle between the end of the sleeve and the side window in the hollow stem, and the end of the hollow stem is located outside the cover, and the regulator is designed as a needle valve that is installed inside the end of th rod disposed outside the cover, the sensor element is coupled with the adjusting screw.

Claims (1)

Claim A pressure regulator comprising a housing between which the inlet and outlet cavities have a shut-off element connected through a hollow stem with a spring-loaded membrane forming a supmembrane cavity connected to the cap via a throttle installed in the hollow stem with an inlet cavity and a regulating body made in the form a valve associated with a spring-loaded sensing element, the control cavity of which and the outlet of the valve are connected to the output cavity, so that, in order to simplify, improve accuracy and expand In this case, in the hollow rod, a partition is made, a part of the hollow rod above the partition is provided with a side window, is located in the supmembrane cavity and fixed in the cover of the sleeve with the possibility of movement inside it and with the formation of an alternating throttle between the end of the sleeve and the side window in the hollow rod, and the end of the hollow rod is located outside the cover, and the regulatory body is made in the form of a needle valve, which is installed inside the end of the hollow rod located outside the cover, a sensing element with knitted with adjusting screw.