RU124347U1 - CHECK VALVE - Google Patents

Abstract

1. The non-return valve, comprising a housing with a seat and a rotary leaf, pivotally mounted on the axis by means of eyes located on the leaf, a torsion spring mounted on the same axis and interacting with the leaf and the housing, stops in the form of tides and gaskets mounted on the axis between case and eyelets for centering the location of the sash, characterized in that the axis of attachment of the sash is rigidly fixed in the technological niche of the casing, made outside the passage section of the valve, and the tides are mounted on the body all in places of contact with the eyes when opening the sash. 2. The non-return valve according to claim 1, characterized in that the casing at the inlet of the working fluid stream is provided with a centering protrusion, and in the places of the plane connecting the casing with the pipe flanges, with gaskets. The non-return valve according to claim 1, characterized in that damping sealing gaskets are installed in the saddle of the housing.

Description

The claimed utility model relates to valve engineering and can be used to prevent backflow in pipeline systems due to a sudden decrease in pressure in the system.

Known check valve flange 19ch21br Du 59-250 mm designed to be used as a locking device to prevent the back flow of the working medium in pipelines, and consisting of a housing, shutter (sash) installed inside the housing on the axles, mounted on tides, and cargo.

[see site:

http://www.beltepl.com/catalogue/truboprovodnaja.armat/klapany/klapan.obr.l9ch 21br_r_beltepl.pdf)

The disadvantage of this valve should be considered that the actuation occurs due to the weight of the load on the shut-off element, which determines the specifics of the installation of this valve, namely, either only on horizontal pipelines or on vertical ones, only if the working fluid flows from bottom to top.

Known double-leaf check valve DN 40-250 mm consisting of a housing with an inlet and outlet with a cross member at the entrance, shutters made in the form of semicircles fixed to the housing by a hinged mechanism, springs fixed on a separate pin, allowing interaction with the shutters (in case of loss pressure in the pipeline) to shutter the system. The presence of springs allows the double-leaf valve to be used both in horizontal and vertical pipelines in any direction of flow of the working fluid

(see website: http://zimenet.com/p3470011-klapan-obratnyj-dvuhstvorchatyj.html

http://proconsim.ru/files/Seagull-ZOCH-Pasp.pdf)

The disadvantage of this valve is the housing design features, namely, the presence of cross members at the inlet, which creates an obstacle to the incoming flow and reduces the area of the inlet.

A non-return valve is known, comprising a body with an inclined seat and a rotary leaf, pivotally mounted on an axis by means of eyes located on the leaf, a torsion spring mounted on the same axis and interacting with the leaf and the body, a stop in the form of a tide, located on the leaf in the place of contact of the latter with the body at the time of opening the sash. The sash attachment axis is fixed inside the housing on its walls and is equipped with centering gaskets installed between the eyes and the housing (see website:

http://ru.wikipedia.org/wiki/%DO%A4%DO%BO%DO%B9%DO%BB:Inside-tilting-disc-check-valve-The-Alloy-Valve-Stockist.jpg - prototype ]

The presence of an inclined seat in the non-return valve determines the technical effect in this technical solution, namely, a decrease in the valve response time, due to the fact that the angle of rotation of the sash when it is closed is reduced by the angle of the angle of the seat, relative to the plane perpendicular to the movement of the liquid, in short, the time the response of the flap decreases in this case, due to a decrease in the required angle of rotation of the flap, which is ensured by the presence of an inclined saddle that predetermines a certain initial angle l which is located under the flap and.

However, the manufacture of a valve with an inclined seat is characterized by high complexity, since instead of a round seat (the plane of which is perpendicular to the axis of the flow of the working medium), it is necessary to produce (with an inclined seat) either an ellipsoidal seat and sash, or a round seat and sash, but using tides (eliminating saddle ellipsoid) with their subsequent processing. In addition, the sash, divided by the axis of attachment into two parts (small and large), acquires the property of a lever, making negative adjustments to the system, both when opening and closing the sash. In the first case, a small part of the sash under the pressure of the working medium will prevent the sash from opening, using part of the flow energy to counteract the sash opening i.e. hindering its more complete opening, in the second case, being a counterweight to its closure, leads to the need to install a more powerful spring. The location of the axis of attachment of the sash in the housing on the path of the flow of the working medium creates an obstacle and leads to an inevitable increase in resistance to the movement of the flow, as well as reduces the area of the valve through passage.

The task to which the claimed utility model is directed is to eliminate these drawbacks, namely, reducing the resistance in the pipeline, increasing the area of the flow cross section and simplifying the design.

The specified technical result is achieved by the fact that in the non-return valve, comprising a housing with a seat and a rotary leaf, pivotally fixed to the axis by means of eyes located on the leaf, a torsion spring mounted on the same axis and interacting with the leaf and the body, stops in the form of tides and gaskets mounted on an axis between the body and the eyes to center the location of the sash, according to the claimed technical solution, the axis of attachment of the sash is rigidly fixed in the technological niche of the body, made outside the flow area of the valve, and the tides are installed on the body at the points of contact with the eyes when opening the sash. In addition, the casing at the inlet of the working fluid flow is provided with a centering protrusion, and in the places of the planes connecting the casing with the pipeline flanges with gaskets, damping sealing gaskets are installed in the casing saddle.

Between the totality of the essential features of the claimed object and the achieved technical result, there is a causal relationship, namely, the design features of the claimed object (transfer of the sash attachment axis beyond the valve passage area) in comparison with the non-return valve with an inclined seat, which reduces the resistance in the pipeline, which ultimately, it allows to prevent changes in the flow rate of the working medium and the occurrence of pressure drops, which positively affects the performance pumping units in pumping systems.

Figure 1 shows the check valve in the closed state - top view;

Figure 2 shows the check valve in the open state - top view;

Figure 3 is a section along aa;

The check valve consists of a housing 1 with stops 2 in the form of tides, with a technological niche 3, with a centering protrusion 4 and a saddle 5; sash 6 in the form of a circle with eyes 7, pivotally mounted on an axis 8 located in a niche 3 and rigidly fixed with bolts (not shown in the drawing), a torsion spring 9, also mounted on axis 8 and interacting with the sash 6 and the body 1.

The housing 1, in places of the mating planes with the pipeline flanges for sealing the joints during installation, is equipped with sealing gaskets 10, as well as gaskets 11 (for example, fluoroplastic) between the housing 1 and the eyes 7 for centering the leaf, and damping sealing gaskets 12 in the saddle 5.

The check valve operates as follows:

In normal operation, the flow of the working medium, acting on the spring-loaded leaf 6, opens the valve bore, overcoming the efforts of the spring 9.

When changing the direction of flow (emergency mode), the sash 6, under the action of torsion spring 9, closes the valve bore.

Thus, the fastening element of the sash 6 - axis 8 and torsion spring 9 is taken outside the perimeter of the valve passage section, that is, it is removed from the working medium flow zone and does not impede the working medium flow, decreasing the resistance in the pipeline without decreasing the passage area, and the manufacture of a round saddle and sash compared to an inclined saddle is more simplified.

Claims (3)

1. The non-return valve, comprising a housing with a seat and a rotary leaf, pivotally mounted on the axis by means of eyes located on the leaf, a torsion spring mounted on the same axis and interacting with the leaf and the housing, stops in the form of tides and gaskets mounted on the axis between case and eyelets for centering the location of the sash, characterized in that the axis of attachment of the sash is rigidly fixed in the technological niche of the casing, made outside the passage section of the valve, and the tides are mounted on the body all in places of contact with the eyes when opening the sash. 2. The non-return valve according to claim 1, characterized in that the casing at the inlet of the working fluid flow is provided with a centering protrusion, and in the places of the plane where the casing joins the pipeline flanges, with gaskets. 3. The non-return valve according to claim 1, characterized in that damping sealing gaskets are installed in the body seat.

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