RU155242U1 - VALVE REGULATING WITH AXIAL LOCK WITH A SLIDER - Google Patents

Abstract

A control valve with an axial lock with a slider, comprising a housing, a cover with a seating seat and a movable lock, characterized in that the sleeve is mounted axisymmetrically on the streamlined pylons, inside which the lock moves due to the movement of the slide in inclined grooves in the longitudinal walls of a rectangular hole in diameter in the center of the lock, during rotation of the spindle installed in the pylon with a thread passing through the center of the slider.

Description

A utility model is a control valve with axial closure with a slider. It relates to pipeline valves, in particular, to axial-type control valves designed to control the flow of liquid and gaseous media in pipelines for pumping liquid and gas media, including contaminated ones, to control the pressure on the discharge pipelines. and can be used in the housing and utilities sector and various industries of gas, oil, chemical, metallurgical. The control valve with axial closure with a slider installed in the pipeline consists of a body and a passage cover with a locking seat. Inside the valve body, a sleeve is axially symmetrically mounted on the streamlined pylons, inside of which the bolt moves with the help of a threaded slide and a screw-spindle drive passing inside the pylon to the outside of the body. A locking seat is installed inside the passage cover, which allows to shut off or regulate the flow of liquid or gas depending on the position of the movable lock. The utility model is aimed at simplifying the design of valves, increasing reliability, eliminating cavitation and noise from fluid flow. This design allows you to significantly reduce the effort to move the shutter when opening and closing, allows you to perform the valve, both with manual and mechanical actuators.

Axial type control valves differ from other types of valves and have the following features:

- rectified axisymmetric and obstructing flow of the medium through a full-bore extended valve body, which eliminates turbulence;

- due to the lack of turbulence, erosive wear of surfaces and vibration are eliminated;

- inside the valve is unloaded by pressure, which determines a high accuracy of regulation with a minimum degree of opening. This allows the use of small actuators for large valves;

- the throughput of a valve of this type is 50-100% more than that of a conventional seat valve, which allows you to choose a smaller valve;

- due to the large throughput in combination with the accuracy of regulation, it is possible to use one valve in a wide range of operating modes;

- increased environmental safety: dynamic noise from the housing is minimal.

The closest technical solution is the control valve according to the RF Patent No. 2476742, class. F16K 1/12., Where the specified result is achieved in that the axial-type control valve installed in the pipeline and consisting of a housing with inlet and outlet openings, drills central to the piston and peripheral through holes for fluid flow coaxially located with respect to it passing into the cavity of the diffuser formed by the regulating sleeve and placed in it a saddle mounted on the outlet of the housing, while the working ends of the piston are made of variable cross-section. A piston located in the central hole is connected to the spindle by means of an eccentric. The spindle and piston can be interconnected via a rack and pinion transmission. The specified valve has drawbacks: the need to cast the casing with subsequent drilling of the bore holes, the central bore for the piston and the eccentric drive hole, increased wear of the sliding surfaces of the eccentric pin and its socket in the piston under pressure, the increased diameter of the casing to obtain the total bore of all openings equal to the living the cross section of the pipeline, the turbulence of the flow when it is divided into through holes and the subsequent connection in front of the output saddle.

The technical result, which is achieved by the claimed utility model, is to simplify the design and production technology, increase reliability during operation at high operating parameters of the working environment, reduce turbulence in the flow and, as a result, reduce cavitation wear of surfaces, low noise.

The specified technical result is achieved by the fact that in the valve regulating with an axial lock with a slider installed in the pipeline, a sleeve is coaxially mounted on the streamlined pylons in the center of the body, a streamlined lock having a replaceable head matching in shape with the shape of the replaceable landing seat of the passage cover is moved inside it . In the center of the constipation there is a diametrical through hole in the form of a parallelepiped with inclined grooves on the long sides. In the grooves, a slider with a hole in the center moves across the lock, in which the threaded part of the spindle rotates through the hollow pylon to the outside of the valve to control the lock and indicate its position. The head of the lock and the seat of the cover have mutually mating surfaces and can change with wear, during operation during maintenance, when the cover is disconnected from the housing.

Axial Locking Valve FIG. 1 contains a housing 9, a passage cover 1 with a replaceable landing seat 2, a sleeve 5 with streamlined pylons 6 for mounting it in the center of the housing. Inside the sleeve there is a movable lock 4 with a replaceable head 3, moving using a slider 11 and a screw spindle 10, passing inside the pylon. The slider 11 moves along the inclined grooves 7 cut on the long sides of a rectangular hole passing diametrically through the center of the constipation. The lock position indicator and external spindle drive are not shown.

In FIG. 2 shows a lock from the input side of the spindle into the lock: slider 11, spindle 10, rectangular hole 8, inclined grooves 7.

In FIG. 3 shows a slider 10, which is a shaft with a diameter along the width of the inclined groove with a hole with a thread in the center for the spindle.

The control valve with axial lock with a slider operates as follows: in FIG. 1 valve is fully open, the lock is in the right position, the slider is in the lowest position, the fluid passes through the valve without obstacles and turbulence, because the cross-sectional area of the pipelines and the area of space between the sleeve and the valve body are equal.

When the spindle 10 rotates, the slider 11 starts to rise up along the inclined slots of the lock, moves it to the left, closes the valve and closes the valve in the extreme left position, pressing the lock head to the valve cover seat. The degree of valve opening is indicated by a valve position indicator on the outside of the valve body (not shown in the figure). The valve can be controlled manually or by an electric or pneumatic actuator connected to a spindle outside the valve. Moving parts inside the valve - the surface of the lock, spindle, slider and lock grooves are lubricated by the pumped liquid, the stuffing box at the outlet of the spindle from the valve body (not shown in the figure) prevents leakage to the outside. In the figures, the valve is shown schematically, in the production it is necessary to make all the parts in the fluid stream as streamlined as possible, without protrusions, the surfaces of the head of the lock and the seat seat of the cover are made mating, which will prevent turbulence even with small valve openings. The material of the head of the lock and the seat is selected depending on the chemical and physical properties of the pumped fluids, while the basic design of the valve is preserved, and with significant wear only the head of the valve and the seat of the valve change, disconnecting the valve cover from the pump housing. Low operational wear of the surfaces is compensated by additional pressing of the shutter to the actuator seat. You can use this valve when the flow is moving in any direction. All valve parts can be manufactured using existing turning, milling and drilling equipment, using existing technologies for the production of seamless pipes, without the need for costly precision injection molding.

Claims (1)

A control valve with an axial lock with a slider, comprising a housing, a cover with a seating seat and a movable lock, characterized in that the sleeve is mounted axisymmetrically on the streamlined pylons, inside which the lock moves due to the movement of the slide in inclined grooves in the longitudinal walls of a rectangular hole in diameter in the center of the lock, during rotation of the spindle installed in the pylon with a thread passing through the center of the slider.

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