RU2617651C1 - Magnet controlled valve - Google Patents

Abstract

FIELD: machine engineering.

SUBSTANCE: valve comprises a body, a cover made of a magnetically conductive material in the form of a body of revolution with an inner cylindrical protruding part and a blind longitudinal inner hole, a spring-loaded locking body with a rod entering the inner blind opening of the cover. A choke is located on the stem under the plug, a washer with through holes is fixed firmly to the stem, each of which has one permanent magnet, below the washer and above the shut-off organ is a disk mounted on the body made of a magnetically conductive material with a central through hole through which the stock is missing; the blind longitudinal inner hole in the cover is made of a variable section; through holes are located on the washer in a circle at an equal distance from its center; cover is designed to be movably controlled relative to the body and to lock the position.

EFFECT: expansion of the arsenal of valves magnetically adjustable with adjustable opening force due to a magnetically adjustable valve.

4 cl, 1 dwg

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.

Known "MAGNETIC ADJUSTABLE VALVE" according to patent RU 2307279 of November 22, 2005, application No. 2005136273, publ. 05.27.2007, IPC F16K31 / 08, comprising a housing, a spring-loaded locking member with a stem, a saddle, a washer made of magnetic material on the stem, two ring magnets between which the washer is located, two magnetic cores in which an annular magnet is installed, installed in the housing and interacting alternately with the washer in its extreme positions when moving it, a single-stage throttle in the form of a throttling disk, installed in the passage section of the saddle nozzle and rigidly fastened to the locking body, while the housing consists of a base with rod, in which the saddle is fixed, of the first sleeve with a magnetic circuit rigidly fixed in it and screwed into the base on the thread, the second sleeve with the magnetic circuit rigidly fixed in it, screwed into the first sleeve of the thread, cups with a screw device for regulating the preliminary compression force of the spring loading a locking member screwed onto the thread in the second sleeve, the first and second bushings and the cup mounted to move along the thread to regulate axial clearances between the washer, in its extreme positions, and magnetic circuits, while moving the washer rigidly mounted on the rod from one extreme position to the other is limited in one direction by the stop of the locking body against the seat, in the other - by the stop of the stem collar against the partition of the base of the body.

The closest in technical essence is the “MAGNETIC CONTROLLED VALVE” according to patent RU 2387906 dated 04/13/2009, application No. 2009113872, publ. 04/27/2010, IPC F16K31 / 08, containing a metal case with a cap on the thread, base and partition, a spring-loaded locking element with a rod, a seat in the form of a pipe with a sealing collar on the end, a washer made of magnetic material on the rod, permanent magnets, two magnetic cores - the upper and lower throttling disc installed in the bore of the saddle nozzle and rigidly fastened to the locking body, while the permanent magnets, made in the form of discs, are mounted in a washer fixed to the rod in ring bores on the upper and lower its surfaces close to each other around the circumferences of the annular bores, and the upper magnetic circuit is mounted with the possibility of axial movement in the housing cover, fixed with a retaining ring and provided with a spring, and the washer with permanent magnets is equipped with an adjusting gasket made of non-magnetic corrosion-resistant material.

The design of the known valve is relatively complex and requires the use of two groups of magnets located in annular bores on the upper and lower surfaces of the washer mounted on the rod.

The objective of the proposed technical solution is to create a new magnetically adjustable valve design that allows you to pre-configure the force at which it opens.

The problem is solved by a magnetically controlled valve, 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 internal cylindrical protruding part and a non-through longitudinal internal hole, a spring-loaded shut-off element with a stem entering the internal through hole of the cover, in this case, a throttle is located under the locking member on the stem; under the cover on the stem, a washer with through holes is rigidly fixed, in each of which is located one permanent magnet, below the washer and above the locking member, a disk of magnetically conductive material fixed to the housing with a central through hole through which the rod is passed; non-through longitudinal inner hole in the cover is made of variable cross-section; through holes are located on the washer on a circle at an equal distance from its center; the cover is made with the possibility of controlled movement relative to the housing and fixing the position.

The essence of the technical solution is illustrated in figure 1, which shows a longitudinal section of a magnetically controlled valve.

In FIG. 1 shows a solenoid valve 1, a body 2, a cover 3, an inner cylindrical protruding part 4, a non-through longitudinal internal hole 5 of variable cross-section, a locking member 6, a rod 7, a spring 8, a washer 9, through holes 10, permanent magnets 11, a disk 12, Central through hole 13, flange 14, housing seat 15, throttle 16.

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 casing. A cover 3 made of magnetically conductive material is installed in the upper end of the casing 2. The cover 3 is made in the form of a body of revolution and is provided with an inner cylindrical protruding part 4. The cover 3 is made with the possibility of controlled movement relative to the housing 2 and fixation of the position, for example due to installation using a threaded connection. In the lid 3, a non-through longitudinal internal hole 5 is made, directed downward with its open end. The hole 5 is made of variable cross section and contains three cylindrical sections of different diameters. The valve 1 contains a locking member 6, provided with a stem 7 extending into the inner through hole 5 of the cover 3. Under the locking member 6, a throttle 16 is located on the stem 16. A washer 9 is fixed on the stem 7 with through holes 10 located around the circumference at an equal distance from the center washers 9. One permanent magnet 11 is located in each hole 10. The washer 9 is located under the cover 3 of magnetically conductive material. Below the washer 9 and above the locking member 6, there is a disk 12 of magnetically conductive material with a central through hole 13 through which the rod 7 is passed. The disk 12 is rigidly fixed to the housing 2. Between the upper surface of the washer 9 and the surface on the cover 3 at the base of the protruding part 4 a spring 8 is located, 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 rod 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 the inductor 16, the washer 9 with magnets 11 is pressed from the disk 12 and pressed, compressing the spring 8, to the protruding part 4 of the cover 3, the rod 7 and the locking element 6 at the same time they rise, thereby ensuring the flow of fluid in the saddle 15 of the housing. Fixation of 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 protruding inner 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 protruding part 4 of the cover 3 and presses it against the disk 12, the rod 7 and the locking member 6 thus lower and block the fluid flow in the seat 15 of the housing 2. Fixing the extreme the closed position of the valve 1 is due to the interaction of permanent magnets 11 with a disk 12 of magnetically conductive material. The valve 1 has no intermediate fixed positions and the movement from one extreme position to another occurs without stopping. The magnitude of the differential pressure of the working medium, at which the opening and closing of the valve 1, are 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. The inventive device contains a smaller number of kinetically interacting parts, which increases the period of its trouble-free operation and overall reliability. Due to the implementation of the seats of the magnets 11 in the form of through holes 10, and not two annular grooves, as well as reducing the total number of parts, the claimed device is more technologically advanced in manufacture. The reduction in the number of magnets 11 used in the device provides a reduction in material consumption.

The technical result of the claimed technical solution is to expand the arsenal of solenoid valves with adjustable opening force due to a solenoid valve, 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 internal hole, a spring-loaded shut-off element with a stem extending into the internal through hole of the lid, while under the locking element on the rod put the throttle flap on the rod is rigidly fixed washer with through holes, each of which is located one permanent magnet above and below the locking washer body is mounted on the housing disc of magnetically conductive material with a central through hole through which the rod is omitted; non-through longitudinal inner hole in the cover is made of variable cross-section; through holes are located on the washer on a circle at an equal distance from its center; the cover is made with the possibility of controlled movement relative to the housing and fixing the position.

Claims (4)

1. The valve is magnetically adjustable, characterized in that it comprises 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 internal hole, a spring-loaded shut-off element with a rod that goes into the inner through hole of the cover, while under the shut-off the throttle body is located on the stem; under the cover on the stem, a washer with through holes is rigidly fixed, each of which has one permanent magnet, below the thrust A disk made of a magnetically conducting material with a central through hole through which a rod is passed is located above the locking member. 2. The valve according to claim 1, characterized in that the non-through longitudinal inner hole in the cover is made of variable cross-section. 3. The valve according to claim 1, characterized in that the through holes are located on the washer around the circumference at an equal distance from its center. 4. 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.

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