RU2486572C1 - Pressure regulator - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: regulator includes a housing with inlet and outlet cavities and between them a spring-loaded sensitive element in the form of a shell, a setting cavity with an elastic element, a seat, a shutoff element in the form of a disc with a conical surface. The housing is made of two halves in the form of bowls with flanging, and in it there introduced and installed with stiff connection is a cylinder with the above mentioned shell located in it with outer surface of the bottom towards the seat installed in the inlet cavity. A safety spring is introduced to prevent mismatch of the control system at abrupt opening of the network. The elastic element uses working medium for springing of a sensitive element in the setting cavity; pressure energy of the above working medium is controlled with additional regulator tightly installed on the cylinder wall with its outlet on the side of the outlet cavity.

EFFECT: improving accuracy, processibility and reliability.

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Description

The invention relates to techniques for automatic regulation and can be used in water supply systems and others.

A pressure regulator is known, comprising a housing with inlet and outlet cavities, between which a spring-loaded sensing element is arranged, made in the form of a cup located in a blind hole and forming a compacted defining cavity with an elastic element with its surfaces (patent RU 31221704 C-1, 10.11. 98, Bull. No. 31).

The disadvantages of this controller are the increased mass-dimensional characteristics, a decrease in reliability due to the large number of sealing elements. The accuracy of the regulator is reduced by the uncompensated non-linearly flow-dependent jet force acting on the locking element when it is rotated (jet) into the slot.

These disadvantages are eliminated in the regulator, which, by its technical nature and the achieved result, is closest to the claimed invention (patent RU 2237919 C-1, 10.10.2004, Bull. No. 28).

Possessing all the positive qualities of analogues in size, weight and high accuracy over a wide range of both inlet pressure and flow rate, its drawback is the restriction on the use of the upper nominal pass DN = 100 mm, due to the dimensions of the spring used as energy for springing the sensing element .

The technical result is to eliminate this drawback while maintaining the above advantages.

To achieve this, in a known pressure regulator comprising a housing with inlet and outlet cavities, between which a spring-loaded sensing element is arranged, made in the form of a cup located axially movable in a blind hole and forming a compacted defining cavity with elastic surfaces located in it element, a regulatory body made in the form of a saddle and a locking element in the form of a disk with a conical surface facing the saddle, the diameter of the hole mating with the stack Mr., larger than the diameter of the saddle, according to the invention, the housing is made of two halves in the form of bowls with flanges and bottoms in the form of walls, a cylinder with a partition is inserted and installed coaxially with rigid connection with the housing, the wall from the outlet side of which is perforated, and from the entrance side with in it, by the aforementioned glass, the outer bottom surface in the direction of the saddle mounted on the inside of the wall of the inlet cavity, a safety spring, and as an elastic element for springing the sensing element in the driver Lost used working fluid, wherein pressure energy is controlled by an additional controller, sealingly mounted on the cylinder wall outlet to the outlet cavity.

The introduction and rigid connection coaxially with the modernized cylinder body with the outer shell of the bottom located therein in the direction of the seat mounted on the inside of the inlet cavity, in combination with the use of a pressure medium as a spring element for the sensing element in the driving cavity, the pressure energy of which is controlled an additional regulator, hermetically installed on the cylinder baffle with an exit to the outlet cavity, allowed to create a reliable, compact, technological and high precision pressure regulator with a range of use with a nominal bore diameter of 50 mm or more.

A safety spring is introduced to prevent control system mismatch when the network is suddenly opened.

The pressure regulator (see drawing) contains a housing 1, an inlet 2 and an outlet 3 cavities, a spring-loaded sensing element in the form of a cup 4, which is axially movable in a blind hole, which forms a sealed driver cavity 5 with its surfaces, a regulating body made in the form of a saddle 6 and a locking element in the form of a disk with a conical surface facing the saddle 6, the diameter of the hole mating with the glass 4 is larger than the diameter of the saddle 6.

In addition, the housing 1 is made of 2 halves in the form of bowls with flanges, and the bottom forms the inlet wall 7 and the outlet 8, is inserted and installed coaxially with rigid connection with the housing 1, the cylinder 9 with the glass 4 located therein, the outer bottom surface to the side a saddle 6 mounted on the inside of the inlet wall 7, a safety spring 10 is introduced.

As an elastic element for springing the sensitive element in the master cavity 5, a working medium is used, the pressure energy of which is controlled by an additional regulator 12, an outlet to the outlet cavity installed on the cylinder baffle.

The regulator operates as follows.

In dynamic mode, the path of the working medium flow from inlet to outlet includes an inlet cavity 2, a slit of a regulating body, an annular channel 11, openings of a perforated rear wall of a cylinder 9, an opening of a wall 8 of the housing 1, an outlet cavity 3.

With a decrease (increase) in the pressure at the outlet, the adjustment balance in the known controller is violated, the volume of the master cavity decreases (increases), opening (partially closing) the passage section of the regulatory body until the balance (equality) of the inflow and outflow in the known controller is achieved.

Claims (1)

A pressure regulator comprising a housing with inlet and outlet cavities, between which a spring-loaded sensing element is located, made in the form of a cup located with the possibility of axial movement in a blind hole and forming its surfaces with a compacted defining cavity with an elastic element located in it, a regulating body, made in in the form of a saddle and a locking element in the form of a disk with a conical surface facing the saddle, the diameter of the hole mating with the glass is larger than the diameter of the saddle, distinguishing The fact is that the body is made of two halves in the form of bowls with flanges and bottoms that form the walls, a cylinder with a partition is inserted and mounted coaxially with the body, the wall is perforated on the outlet side and the aforementioned located on the entrance side a safety spring is introduced by a glass with the outer surface of the bottom towards the seat mounted on the inner side of the wall of the inlet cavity with a protrusion, and as an elastic element for springing the sensing element in the driver cavity and a working medium was used, the pressure energy of which is controlled by an additional regulator, which is hermetically installed on the cylinder baffle by the outlet to the outlet cavity.