RU2495309C1 - Control valve - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: control valve includes a body with supply and discharge branch pipes and a cage shutoff assembly installed inside it, which consists of a sleeve, in the walls of which there are mainly radial holes, and on inner surface there is a support sealing surface of the seat. A plunger is installed so that it can be moved axially inside the above sleeve and interacts with the above support surface of the sleeve. Sleeve is closed on one side and installed in a supply branch pipe of the valve. The plunger is connected to an actuating mechanism of a hydraulic drive, which is arranged in the valve body. The actuating mechanism of the hydraulic drive is connected to a linear position flow rate sensor.

EFFECT: simplifying the design and enlarging functional capabilities of a control valve.

2 cl, 2 dwg

Description

The invention relates to mechanical engineering, in particular to control valves, designed to shut off and control the flow of a passing medium.

Known control valve containing a housing with offset inlet and outlet nozzles, placed in it sleeve with profile holes, mounted inside the sleeve with the ability to move a hollow plunger with symmetrically located holes with a perforated disk at the end (US Pat. No. 2189512, IPC F16K 1/54) . The disadvantage of this development is the short life of the locking element due to its rapid wear.

Known shut-off and control valve, comprising a housing with inlet and outlet nozzles, inside of which is a cellular locking unit, consisting of a sleeve with two rows of holes and with a saddle surface, inside which there is a glass-shaped locking element with longitudinal holes in the upper end, and the lower end of which has a surface identical to that of the saddle. The locking element is mounted on a rod having a drive (Catalog of the company "RUST").

The disadvantages of this valve are the rapid wear of the locking edge of the locking element, a small range in regulating the flow rate of the transported medium.

A control valve is known, comprising a housing with inlet and outlet pipes, with a cellular locking assembly installed inside it, consisting of a sleeve, on the inside of which a supporting sealing surface of the seat and radial holes are made, and a plunger mounted on the rod and mounted axially movable connected to the drive, while the plunger is made in the form of a hollow cylinder with identical end surfaces corresponding to the mating sealing surface of the seat, and installed on the rod with a nut and bushings with end collars, in which longitudinal channels are made connecting the cavity of the inlet pipe with a cavity above the plunger, located inside it towards each other with the end gap, the amount of space formed by the ends of the bushings with the collar and the inner cavity of the hollow cylinder, not less than the volume of the longitudinal channel of the lower sleeve with a shoulder, while the upper sleeve with an end shoulder rests with its shoulder on the end surface of the hollow cylinder, the lower one on the annular protrusion made inside the canopy about the cylinder and located in its central part, in addition, the length of the hollow cylinder is at least one stroke of the locking element, and the liner has at least two rows of radial holes (RF Patent No. 2308627, IPC: F16K 1/54, F16K 47/04 prototype )

The specified valve operates as follows.

The transported medium enters the inlet pipe. During operation, the actuator moves the stem with the plunger up or down. In the lowermost position of the plunger, the end edge of the hollow cylinder fits snugly against the saddle surface. The valve is closed since the outer surface of the hollow cylinder seals the radial openings. The transported medium • fills the inner cavity of the inlet pipe, passing along the longitudinal channels into the cavity above the plunger, formed by the inner surface of the stem housing. When the drive is turned on, the rod together with the plunger begins to move upward, opening the radial holes depending on the set value of the flow rate of the transported medium. In this case, the latter through radial holes in the sleeve enters the outlet pipe, and the compressible transported medium from the cavity above the plunger passes through the longitudinal channels, the volume between the ends of the bushings into the area under the plunger and then through the radial holes into the outlet pipe. The magnitude of the rise of the plunger, and therefore the degree of ajar of the radial holes, is determined by the flow rate of the transported medium and is monitored by a linear positional flow sensor.

The main disadvantages of this valve are the significant complexity of the design, low reliability due to the complexity of the design, significant dimensions and weight, the possibility of using only one type of actuator, use only for corner pipelines.

The objective of the proposed invention is to remedy these disadvantages and expand the functionality of the control valve.

The solution to this problem is achieved by the fact that the proposed control valve, according to the invention, contains at least a housing with inlet and outlet pipes and a cellular locking unit installed inside it, consisting of a sleeve, the walls of which are made mainly of radial holes, and on the inner surface - the supporting sealing surface of the seat, and the plunger mounted with the possibility of axial movement inside the mentioned sleeve and interacting with the specified supporting surface of the sleeve, sleeve formed closed at one end and a valve installed in the supply pipe.

In an embodiment, the plunger is connected to an actuator of a hydraulic actuator located in the valve body.

In an embodiment, the hydraulic actuator is connected to a linear positional flow sensor.

The invention is illustrated by drawings, where figure 1 shows the proposed control valve in the closed position, figure 2 - the proposed control valve in the open position.

The proposed control valve comprises a housing 1 with a supply 2 and a discharge pipe 3, inside which a cellular locking assembly 4 is installed. A cellular locking assembly 4 consists of a sleeve 5. The walls of which are predominantly made of radial holes 6. And on the inner surface there is a bearing sealing surface 7 of the seat and the plunger 8. The plunger 8 is mounted with the possibility of axial movement inside the mentioned sleeve 5 and interacts at one end with the supporting sealing surface 7 of the sleeve 5. The sleeve 5 is made closed with one torons and installed in the inlet pipe 2 valves.

Inside the valve body, a hydraulic actuator is installed, consisting of a piston 9, a supply chamber for the working fluid 10 and a spring 11. A rod 13 is mounted in the support washer 12, which is connected to a linear positional flow sensor 14 located on the valve body. Depending on the position of the rod 13, the current through the linear positional flow sensor varies from 4 to 20 mA.

The proposed valve operates as follows. The transported medium enters the inlet pipe 2 of the housing 1. In the closed position of the valve, the radial holes 6 are blocked by a plunger 8, which is in the extreme right position under the action of the spring 11. In this position, the end of the plunger 8 interacts with the supporting sealing surface 7, thereby blocking the flow rate gas passing through the annular gap between the inner surface of the sleeve 5 and the outer surface of the plunger 8.

When the valve is opened, the working fluid is fed into the supply chamber of the working fluid 10 and begins to act on the piston 9, which, in turn, shifts to the right and compresses the spring 11. The end of the plunger 8 moves away from the sealing surface of the sleeve 7 and opens the radial holes 6. The transported medium begins to flow through the radial holes 6 into the cavity of the plunger 8 and then to the outlet pipe 3. The flow rate of the transported medium through the valve is determined by the degree of opening of the radial holes 6 and corresponds to current value of the linear positional flow sensor 14.

When the plunger moves left / right, the washer 12 is moved left / right, in which the rod 13 is mounted, which is connected to a linear positional flow sensor 14 located on the valve body. By the magnitude of the current strength of the linear positional flow sensor, the gas flow through the valve is determined, and, if necessary, it is regulated.

To close the valve, the pressure of the working fluid is relieved, while the pressure in the supply chamber of the working fluid 10 is reduced, and the spring 11 returns the plunger to its original position, while blocking the radial holes 6.

Using the proposed technical solution will allow you to create a direct-flow control valve for straight sections of pipelines.

Claims (2)

1. A control valve, characterized in that it contains at least a housing with inlet and outlet nozzles and a cellular locking assembly installed inside it, consisting of a sleeve, the walls of which are made mainly of radial holes, and on the inner surface there is a supporting sealing surface of the seat and a plunger installed with the possibility of axial movement inside said sleeve and interacting with said supporting surface of the sleeve, the sleeve being made closed on one side and installed It claimed in the supply pipe of the valve and the piston is connected to the actuator of the hydraulic actuator arranged in the valve housing. 2. The control valve according to claim 1, characterized in that the actuator of the hydraulic actuator is connected to a linear positional flow sensor.

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