RU182504U1 - MAGNETIC VALVE - Google Patents

Abstract

The magnetic control valve relates to the field of valve engineering, namely to valves, and can be used, for example, in devices for measuring the flow rate of oil wells for bypassing the working medium. The technical result of the claimed technical solution is to expand the arsenal of solenoid valves with adjustable opening and closing forces due to a solenoid valve, comprising a body, a cover with an axial hole, in its lower part made of a magnetically conductive material, while the valve contains a spring-loaded shut-off element with a stem entering the axial hole of the lid, under the lid on the rod, a washer with through holes in which the permanent magnets are located is rigidly fixed the washer and the above blocking member is fixedly mounted relative to the housing with the annular disk groove in which is located an annular permanent magnet, the disc is formed with a central through hole through which the rod is omitted; the cover is made with the possibility of controlled movement relative to the housing and fixing the position; the cover is made integral and provided with a damping spring located between its upper and lower parts; an annular recess is made on the lower surface of the lid.

Description

The technical solution relates to the field of valve engineering, namely to valves and can be used, for example, in devices for measuring the flow rate of oil wells to bypass the working medium.

The closest in technical essence is “MAGNETIC ADJUSTABLE VALVE” according to patent RU 2617651 dated 06/01/2016, application No. 2016121636, published 04/25/2017, IPC F16K31 / 08, characterized in that it contains a housing, a cover made of a magnetically conductive material in the form of a body of revolution with an inner cylindrical protruding part and a non-through longitudinal inner hole, a spring-loaded locking element with a stem extending into the internal non-through hole of the cover, while a throttle is located under the locking body on the rod, under the cover on the rod a washer with through holes is rigidly fixed, each of which has one permanent magnet, below the washer and above the locking member there is a disk of magnetically conductive material fixed to the housing with a central through hole through which the rod is passed.

The objective of the proposed technical solution is to expand the arsenal of solenoid valves with adjustable opening and closing forces.

The problem is solved by a magnetically controlled valve containing a housing, a cover with an axial hole, made in the lower part of a magnetically conductive material, while the valve contains a spring-loaded locking element with a stem entering the axial hole of the cover, a washer with through holes is rigidly fixed under the cover on the stem holes in which the permanent magnets are located, while below the washer and above the locking element, a disk with an annular groove in which the ring is located different permanent magnet, while the disk is made with a Central through hole, through which the rod is passed; the cover is made with the possibility of controlled movement relative to the housing and fixing the position; the cover is made integral and provided with a damping spring located between its upper and lower parts; an annular recess is made on the lower surface of the lid.

The essence of the technical solution is illustrated by the drawing, where in Fig.1 is a longitudinal section of a magnetically adjustable valve.

The drawing shows a solenoid valve 1, body 2, cover 3, lower part 4 of the cover, hole 5, locking member 6, stem 7, spring 8, washer 9, through holes 10, permanent magnets 11, disk 12, central through hole 13, a flange 14, a saddle 15 of the housing, a throttle 16, an annular groove 17, a permanent annular magnet 18.

The solenoid valve is as follows.

The magnetically adjustable valve 1 comprises a body 2 made hollow in the form of a body of revolution. The housing 2 is provided with an external mounting flange 14. Optionally, the housing 2 is made collapsible. A saddle 15 is located in the lower part of the body. A cover 3 is installed in the upper end of the body 2. The cover 3 is made in the form of a body of revolution. Optionally, the cover 3 is made integral, while the cover 3 consists of two parts, and the lower part 4 of the cover 3 is made by a spring-loaded damping spring located between the upper and lower 4 parts of the cover 3. Optionally, an annular recess is made on the lower surface of the cover 3. The lower part 4 of the cover 3 is made of a magnetically conductive material. The cover 3 is made with the possibility of controlled movement relative to the housing 2 and fixing the position, for example, due to the installation using a threaded connection. In the lower part 4 of the cover 3, an axial hole 5 is made. Valve 1 contains a locking member 6 provided with a stem 7 extending into the inner through hole 5 of the cover 3. A throttle is located under the locking member 6 on the stem 16. A washer 9 is fixed on the stem 7 with through-holes holes 10 located around the circumference at an equal distance from the center of the washer 9. In each hole 10 there is one permanent magnet 11. The washer 9 is located under the cover 3. Below the washer 9 and above the locking member 6 is a disk 12 with a central through hole 13, throughwhich missed the rod 7. The disk 12 is fixedly mounted relative to the housing 2. An annular groove 17 is made on the upper surface of the disk 12. A permanent annular magnet 18 is mounted on the annular groove 17 on the disk 12. The magnets 10 and magnet 18 are opposite poles to each other. Between the lower surface of the disk 12 and the platform mounted on the rod 7, a spring 8 is installed, which provides spring-loaded locking element 6.

The solenoid valve operates as follows.

On the one hand, the spring-loaded locking element 6 is affected by the hydrodynamic force of the flow of the working medium. On the other hand, the spring-loaded locking element 6, through the stem 7 is affected by: the force of the spring 8 and the magnetic forces of the permanent magnets acting on the washer 9. Valve 1 has two extreme fixed positions: “open” and “closed”. With sufficient, in accordance with the preliminary settings of valve 1, hydrodynamic force on the locking element 6 and throttle 16, the washer 9 with magnets 11 is pressed from the disk 12 and pressed, compressing the spring 8, to the lower part 4 of the cover 3, the rod 7 and the locking element 6 while rising, thereby ensuring the flow of fluid in the saddle 15 of the housing. The spring loaded bottom part 4 of the cover 3 reduces the shock load when opening the valve 1. Fixing the extreme open position of the valve 1 is due to the pressure drop across the throttle and the interaction of the permanent magnets 11 with the lower part 4 of the cover 3 made of a magnetically conductive material. With a decrease in hydrodynamic force on the throttle 16, the spring 8 squeezes the washer 9 with magnets 11 from the lower part 4 of the cover 3 and presses it against the disk 12 with an annular magnet 18, the rod 7 and the shut-off element 6 are lowered and shut off the fluid in the saddle 15 of the housing 2. The fixation of the extreme closed position of the valve 1 is due to the interaction of the permanent magnets 11 with a permanent annular magnet 18 installed in the annular groove 17 of the disk 12. The valve 1 has no intermediate fixed positions and movement from one edge his position to the other takes place without interruption. The magnitude of the differential pressure of the working medium, at which the opening and closing of the valve 1 is regulated, either by the selection of the spring 8, or the magnitude of the force of its preliminary compression. Adjusting the force of pre-compression of the spring 8 is carried out by moving the cover 3 relative to the housing 2 and fixing the selected position. By the number of holes 10 with magnets 11 in the washer 9, as well as by the strength of the magnets 11, 18, it is possible to further control the valve holding force in the extreme closed position.

The technical result of the claimed technical solution is to expand the arsenal of solenoid valves with adjustable opening and closing forces due to a solenoid valve, comprising a body, a cover with an axial hole, in its lower part made of a magnetically conductive material, while the valve contains a spring-loaded shut-off element with a stem entering the axial hole of the lid, under the lid on the rod, a washer with through holes in which the permanent magnets are located is rigidly fixed the washer and the above blocking member is fixedly mounted relative to the housing with the annular disk groove in which is located an annular permanent magnet, the disc is formed with a central through hole through which the rod is omitted; the cover is made with the possibility of controlled movement relative to the housing and fixing the position; the cover is made integral and provided with a damping spring located between its upper and lower parts; an annular recess is made on the lower surface of the lid.

Claims (4)

1. The valve is magnetically adjustable, comprising a housing, a cover with an axial hole, in its lower part made of magnetically conductive material, while the valve contains a spring-loaded shut-off element with a stem entering the axial hole of the cover, a washer with through holes is rigidly fixed under the cover on the stem, in of which permanent magnets are located, characterized in that a disk with an annular groove in which an annular permanent magnet is located t, while the disk is made with a Central through hole through which the rod is passed.
2. The valve according to claim 1, characterized in that the cover is made with the possibility of controlled movement relative to the housing and fixing the position.
3. The valve according to claim 1, characterized in that the cover is made integral and provided with a damping spring located between its upper and lower parts.
4. The valve according to claim 1, characterized in that an annular recess is made on the lower surface of the cap.

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