RU2749057C1 - Non-return valve - Google Patents

Abstract

FIELD: valve engineering.

SUBSTANCE: invention relates to valve engineering, in particular to technological systems of the nuclear industry, and is intended for pipelines requiring a high degree of tightness relative to the external environment and operational safety. The non-return valve body is made in form of a shell and is equipped with inlet and outlet nozzles, which are fixed to the body by welding seams. A saddle body is connected to one of the branch pipes, in the latter a saddle is installed, which has possibility of contact with a plate connected to one of the ends of the guide rod. The guide rod is movable and equipped with a spring element. The second end of the guide rod is installed in a guide placed in the fairing connected to the rib in which the tube is installed to move the reed switch rod. One end of which is connected to the body of the magnet interconnected with the reed switch, the other is equipped with a roller. The body is connected by welded seams to the neck of the body and the flange of the body, in which the body cover is located, connected to the connector, made in form of a glass and equipped with a flange.

EFFECT: invention is aimed at protecting the valve from overload during automatic operation and increasing the tightness due to the accuracy of manufacturing structural elements.

1 cl, 3 dwg

Description

The invention relates to valve engineering, in particular to technological systems of the nuclear industry, namely, it is designed to shut off and prevent reverse flows of liquid and gaseous, radioactive, toxic, explosive environments in pipelines requiring a high degree of tightness relative to the external environment and operational safety.

Known check valve containing a housing with inlet and outlet nozzles and a seat, a shutter and a removable spindle interacting with the shutter, in which the valve is equipped with a damping device made in the form of a drum with windows, screened by a filter insert, and equipped with a fastening mechanism in the inlet nozzle of the valve ( Patent No. RU2247887. Publ. 10.03.2005).

However, the known valve has a low ability to protect against overload when the valve is in automatic mode, process maintainability and tightness.

A device and method of contact control of the seat of the main vapor barrier valve and the sealing surface of the poppet valve are known, in which the poppet valve is seated on the poppet slide device and the application of colored ink to control contact on the sealing surface of the poppet valve. In this case, the device for monitoring the contact between the seat of the main vapor barrier valve and the sealing surface of the poppet disk is a poppet plate (plate); a poppet slider that is configured to attach to the upper end of the main vapor control valve and guide the poppet to slide into the valve body; a poppet pushing device for tightly contacting the poppet sealing surface and the plate sealing surface to perform contact control. In this case, the pusher of the poppet valve has the ability to apply forces to the upper stem of the poppet valve in such a way that the contact of the sealing surface of the poppet valve with the sealing surface of the valve body is checked. The pusher plate also includes: a plurality of pins extending along a longitudinal direction inclined at an angle of 45 degrees; a plurality of fastening nuts attached to a plurality of studs; a plate to which the hydraulic ram is connected and secured by a plurality of pins; and a hydraulic pump for pressurizing the hydraulic ram for applying force to the top ram of the disc (Patent No. KR102073521B1. Publ. 2020-02-04).

However, the known technical solution has low maintainability and low ability to protect against overload when the valve is operating in automatic mode, has a high metal consumption and cost.

Known pressure head valve device containing a valve deck, valve body, valve stem and flap, and the valve of the pressure device includes: suppression of the ring, connection of a short tube, connecting pipe, ring, when assembling structural elements, welding is used; the pressure gauge is installed in the connecting pipe, the isolation valve is installed on the pipeline (Patent No. CN209326910U. Publ. 2019-08-30).

However, the known utility model has low maintainability and low overload protection capability when the valve is in automatic mode. Has a high metal consumption and cost.

Known Y-shaped double-body ball sealing check valve for the active zone of the island of nuclear energy contains a valve body and a valve cover, and the valve cover is located on the valve body to form a valve cavity; the valve has an inlet obliquely located on the lower side of the valve body, the outlet obliquely located on the upper side of the valve body, the inlet is located opposite the outlet and, accordingly, communicates with the valve cavity to form an oblique main runner; the check valve additionally contains a valve seat and a sealing ball, the valve seat is located in the valve cavity and is detachably connected to the valve body, and the sealing ball is located in the valve cavity, with the possibility of moving up and down along the valve cavity and being in sealing contact with the valve seat or separated from it (Patent No. CN110985715A Publ. 2020-04-10).

However, the known non-return valve has a complex design, has no overload protection, low maintainability and sealing. Has a high metal consumption and cost.

Known is a check valve containing a cover and a housing with a saddle fixed in it coaxially with a longitudinal channel and a plate mounted on a lever that is rotatable relative to the axis, in which a sealing sleeve is placed coaxially in the saddle, which interacts with its sealing field with the counter field of the plate when the valve is closed, and the axis of the rotary the lever is installed in the lugs of the clamp, covering the sealing sleeve, and placed between the bosses of the body (Patent No. RU2300686. Publ. 10.06.2007).

However, the known non-return valve, in spite of the fact that it has increased maintainability, is not intended for use in automatic mode due to the absence of a reed switch controlled by a magnet. Has a high metal consumption and cost.

Known control valve for regulating the pressure of the flow of a fluid, containing a valve body means having an inlet and outlet; flow channel means operatively connecting said inlet and outlet; flow resistance means functionally located in said flow channel means; valve closing means operatively located in said valve body means for interacting with flow resistance means for opening and closing said flow channel means; flow resistance means containing a plurality of hollow cylindrical bushings nested one into the other in a sealed manner (Patent US4327757A Publ. 1982-05-04).

However, the known control valve has a cast body, low maintainability and tightness, and has no overload protection. Has a high metal consumption and cost.

Known flow control valve with a housing, which is equipped with an inlet for the inlet of liquid at a certain inlet pressure, a restrictor that has a tubular restrictive separator and allows you to restrict the liquid to a certain discharge pressure, as well as a liquid outlet, with a drive that is located outside the housing and has a rotating shaft and piston that can be axially displaced within the housing in the direction of flow; wherein the rotation of the shaft can be induced by the drive and the axial movement of the piston can be induced by the rotation of the shaft, and the throttle cross-section can be adjusted by the axial movement of the piston, with the primary magnets mounted on the drive; with secondary magnets mounted on the shaft; with a rolling element screw drive mounted on the shaft; moreover, the rotation of the actuator is transmitted to the shaft by magnetically connecting the primary magnets with the secondary magnets and converted into axial movement of the piston using a screw drive of the rolling element (Patent No. EP2118535B1. Publ. 2013-06-19).

However, the known valve has a complex design, which has several bodies, the main one of which is made by casting, low maintainability due to the large number of connected elements that reduce the tightness of the valve during its use. In addition, despite the presence of a reed switch and a magnet, the well-known valve has low overload protection. Has a high metal consumption and cost.

The challenge is to improve performance and increase service life.

The technical result is manifested in the possibility of overload protection when the valve is operating in automatic mode, increasing technological capabilities and ease of maintainability, increasing tightness due to the precision of manufacturing structural elements. The use of a stamped-welded structure reduces the cost of the product, reduces the amount of production waste, which has a beneficial effect on the environment.

The delivered technical result is achieved by the fact that in a check valve containing a body equipped with an inlet and outlet, rods, a magnet, a spring element, fasteners, the body is made in the form of a shell and is equipped with inlet and outlet nozzles, which are fixed to the body by welding seams, with one of the nozzles is connected to the saddle body, in the latter a saddle is installed that has the ability to contact with a plate connected to one of the ends of the guide rod, installed with the possibility of movement and equipped with a spring element, the second end of which is installed in a guide placed in the fairing connected to the rib, in where a tube is installed to move the reed switch rod, at one end of which a roller is made, in addition, the body is welded to the neck of the body and the body flange, in which the body cover is located, made in the form of a glass and equipped with a flange, in the body cover, by means of a flange, placed the second end of the reed switch rod , which is indirectly insulated with a glass with a cover connected to the connector, while a reed switch is installed at the end of the reed switch rod, indirectly connected to the magnet.

It is advisable, in order to achieve the accuracy of structural elements, the body and nozzles are made of stamped steel.

The present invention is illustrated by a detailed description, drawings, in which:

FIG. 1 shows, on a reduced scale, a general sectional view of a valve according to the invention;

FIG. 2 is a view A on a scale of 1: 1, the same as in FIG. one;

FIG. 3 - view B on a scale of 1: 1, the same as in Fig. one.

The check valve contains a body 1 made in the form of a shell made of sheet steel rolled into a pipe. (Fig. 1). The body is equipped with an inlet nozzle 2 and an outlet nozzle 3. Nozzles 2 and 3 are made of annular forgings. Shell 1 is connected to the inlet and outlet nozzles, respectively 2 and 3, by means of welded seams, respectively 4 and 5. Inside the inlet nozzle 2, the seat body 6 is fixed, in which the seat 7 is fixed. one of the ends of the guide rod 9, installed with the possibility of movement and equipped with a spring element 10. An angular groove is made in the guide rod 9. The second end of the guide rod 9 is installed in the guide 11 fixed in the fairing 12. The said fairing 12 is equipped with a plug 13. In addition, the fairing 12 is connected, by means of pins 14 and 15, to the rib 16, which in turn is connected to the cover 18. The tube 17 is installed in the cover 18 installed in the groove of the neck 19 of the body. The neck 19 is made of sheet steel rolled into a pipe, welded to the shell 1 and the flange 20, made of a ring package. The flange 20 is connected to the flange 21 of the cover 18 by means of threaded connections, each of which is made of a nut 22, a stud 23, a washer 24. In this case, the cover 18 is welded to its flange 21. A roller 26 is made at one of the ends of the reed switch rod 25, having the possibility of contact with the rod 9. The second end of the rod 25 is located in the flange 27, the outer surface of which is made stepped. A remote position indicator (DUP) (not shown) is installed in the groove of the cover 18. DUP includes tube 17, flange 27, in the groove of which the reed switch rod 25 is installed. The flange 27 is placed inside the cover 18 and secured to it by means of threaded connections, each of which is made of interconnected nuts 28, pins 29 and washers 30. A sleeve 31 equipped with a cover 32 is connected to one of the steps of the flange 27 with connecting elements (not shown). The glass 31 is isolated from the external environment by means of a cap, which is made of a horizontal plane 33 and a pipe 34 equipped with a horizontal ring 35. In this case, the connector 36 is indirectly connected with the help of connecting elements to the cover 32 of the glass 31. From the side of the connector 36 inside the glass 31 on at the end of flange 27, a reed switch 37 is fixed with a strip 38.

Inside the flange 27, at the end of the rod 25, made stepped by means of a thread, there is a magnet body 39 (Fig. 2). The latter, with the help of washers 40, has the possibility of contact with the magnet 41. From above, the magnet body 39 is covered with a cover 42 and is welded 43 to the flange 43. Between the cover 42 of the magnet body 39 and the blind end of the flange 27 (Fig. 1), there is an additional elastic element 42, made in the form of a spring (Fig. 1, 2).

At the end of the rod 25, opposite to the mounted magnet body 39, a roller 26 is rotatably mounted by means of a pin 45 (Fig. 3). The roller 26 is installed with the possibility of permanent contact with the rod 9. One end of the spring element 10, located on the rod 9, is installed in the casing 46, secured by the union nut 47 by means of a thread on the bore of the plate 8.

The check valve works as follows.

When a flow of medium appears in the inlet 2, the plate 8, which is fixed on the rod 9, under the action of the flow moves away and compresses the spring 10. The rod 9 moves along the guide 11. The roller 26 slides along the angular groove in the rod 9 and moves the rod 25 in the transverse direction upwards reed switch. At the end of the rod 25, the body of the magnet 39 with the magnet 41 was fixed. When the magnet 41 moves due to the magnetic field, an electrical contact is closed inside the reed switch 37. The reed switch 37 is connected to the connector 36, which, by means of an electrical signal through the cable, transmits information to the control station that that the check valve is open.

When the flow of the medium stops or a reverse flow appears at the outlet 3, the plate 8 with the stem 9 moves in the opposite direction, sealing with the seat 7, ensuring tightness. The rod 13 with the magnet 41 is lowered under the action of the spring 42, the contact in the reed switch 37 is opened. The electrical signal disappears, the information comes to the helm that the valve is closed.

The proposed invention improves the operational properties and increases the service life of the check valve, allows for repairs without dismantling from the pipeline due to the removable valve body.

In addition, the proposed invention makes it possible to protect the structure from overload when the valve is operating in an automatic mode without the presence of a person.

The proposed invention improves manufacturability, reduces the cost of manufacturing due to the use of cheaper blanks (sheets and ring forgings), reduces the manufacturing time by reducing the material of the container, and reduces steel waste.

Claims (2)

1. A non-return valve containing a body equipped with an inlet and outlet, rods, a magnet, a spring element, fasteners, characterized in that the body is made in the form of a shell and is equipped with inlet and outlet nozzles, which are fixed to the body by welding seams, with one of the saddle body is connected to the nozzles, the saddle is installed in the latter, which has the possibility of contact with the plate connected to one of the ends of the guide rod, installed with the possibility of movement and equipped with a spring element, the second end of which is installed in the guide placed in the fairing connected to the rib in which a tube is installed to move the reed switch rod, at one end of which a roller is made, in addition, the body is welded to the neck of the body and the body flange, in which the body cover is located, made in the form of a glass and equipped with a flange, in the body cover, by means of a flange, the second end of the reed switch rod is placed, which is indirectly isolated from takan with a cover connected to the connector, while a reed switch is installed at the end of the reed switch rod, indirectly connected to the magnet. 2. The valve according to claim. 1, characterized in that the body and pipes are made of steel by stamping.

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