RU2549391C2 - Drive for pipeline valves - Google Patents

Abstract

FIELD: machine building.

SUBSTANCE: invention relates to machine building, namely to valve manufacturing, namely to spring loaded hydraulic or pneumatic drives, and can be used to control the pipeline valves, operated in various purpose pipelines. The target is ensured by the fact that drive for the pipeline valves contains secured on bonnet the support plate with installed drive interacting with the spring drive, its stock is coaxially linked with spindle controlling the gate of the pipeline valve, at that spring and pneumatic drives are installed horizontally in series, and are connected with each other by system of double arm gears enclosing the specified drives, and hinges controlling the spring drive are installed between the fixed hinges secured on the support plate, and hinges connecting the control levers and tie-rods, in bottom part connected with each other by beam kinematically connected with stock of the pneumatic(hydraulic) drive.

EFFECT: invention target is creation of the pneumatic (hydraulic) drive with possibility of its use for normally opened pipeline valves, gates (wedge, shutter), butterfly gates, including for high values of NB, Pset.

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Description

The invention relates to the field of mechanical engineering, namely to valve manufacturing, specifically to spring-loaded hydraulic or pneumatic actuators, and can be used to control pipe fittings operated in pipelines for various purposes.

A wedge gate valve with a pneumatic actuator is known (see www.Psk-izh.ru 30c 676 nzh), comprising a housing, a cover with a stand, on which a piston pneumatic actuator is mounted, the lower end of the latter’s stem is connected to the valve spindle, and the upper end is with a manual drive (backup) . The disadvantages of this design include the lack of automatic return of the pneumatic actuator to its original position, which reduces the consumer properties of the structure.

Also known is a pneumatic valve actuator (see RU 2084739 C1 F16K 31/122), a prototype comprising a housing with a cover on which a base plate is installed with a vertical double actuator located on it in one housing, consisting of a spring actuator operating to open the valve, and pneumatic actuator working to close the valve. In this case, the pneumatic actuator stem is coaxially connected to the valve spindle.

The disadvantages of the known design include the lack of visual monitoring of the state of the spring drive, as well as the inability to use this design for high parameters of pipe fittings, both in terms of the diameter of the pipeline and the pressure of the medium.

The purpose of the present invention is the creation of a pneumatic (hydro) actuator with the possibility of its use for a normally open pipe fittings, valves (wedge, slide), valves, butterfly valves, including high parameters for Du, Ru.

This goal is achieved by the fact that the actuator for pipe fittings, containing a base plate mounted on the lid with a pneumatic actuator mounted on it, interacting with a spring actuator, the rod of which is coaxially connected to the spindle controlling the valve of the pipe fittings, while the spring and pneumatic actuators are mounted horizontally in series and interconnected by a system of double linkage mechanisms covering the aforementioned drives, and the hinges controlling the spring drive are located between izhnymi hinges fixed to the base plate, and hinges which connect the levers with rods, the bottom beam interconnected kinematically associated with the rod pneumo (hydro) drive.

Figure 1 shows the main view of the actuator, in the closed position of the pipe fittings; figure 2 shows a top view; figure 3, view A in figure 1.

The drive consists of a base plate 1 mounted on supports 2, cover 3 of pipe fittings. Coaxially with the spindle 4, the control valve (not shown in Fig.) Of the pipe fittings, the rod 5 of the spring actuator 6 is fixed (or made integrally with the spindle), on its two sides axes 8 are made on the upper support 7, pivotally connected by control levers 9 One end of the control levers 9 is pivotally connected to a fixed support 10, and the other is also pivotally with rods 11 connected to each other by a transverse beam 12, kinematically connected with the rod 13 of the pneumatic actuator 14 with a fitting 15 for supplying a controlled medium.

The drive operates as follows.

To close the valve of pipe fittings.

When a controlled medium (air) is supplied, the pneumatic actuator piston goes down, acting through the rod 13 on the beam 12, which rotates relative to the hinge of the fixed support 10, and, through the hinge 8 acting on the upper support 7, compresses the actuator spring 6 until the pipeline shutter valves, whether a valve or a valve, will not be closed.

The shutter opens in the following order.

Through the fitting 15 of the pneumatic actuator 14, the control medium enters the atmosphere, while the spring of the actuator 6 is opened and through the hinges 8 and control levers 9 lifts the piston of the pneumatic cylinder 14 up until the shutter is fully open.

Such sequential horizontal placement of the actuators allows not only to reduce the overall dimensions of the pipeline valves in height, but also to get a complete visual overview of the state of the spring actuator, which significantly increases its consumer properties.

In addition, changing the distance between the hinges of the control lever allows you to use this design for higher parameters of pipe fittings, using Belleville springs in the spring drive, which also favors the location of the pneumatic actuator with the power rod down.

Moreover, this design is universal, as it can be applied to many types of controlled pipeline valves operating in the “normally open” mode using both a pneumatic actuator and a hydraulic actuator.

Claims (1)

An actuator for pipe fittings, comprising a base plate fixed to the cover with a drive installed on it, interacting with a spring drive, the stem of which is coaxially connected to the spindle controlling the valve of the pipe fittings, characterized in that the spring and pneumatic actuators are mounted horizontally in series and connected by a system double linkage mechanisms covering said drives, wherein the hinges controlling the spring drive are located between the fixed hinges, securing ennymi on the base plate, and hinges, connecting the levers with the rods, the bottom beam interconnected kinematically connected to the rod of pneumatic or hydraulic drive.

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