RU53747U1 - MAGNETIC LATCH BYPASS VALVE - Google Patents

Abstract

The utility model relates to valve engineering and can be used to bypass liquid and gaseous working media, in particular, in devices for measuring the flow rate of wells in the oil industry. The design of the valve allows you to adjust the values: spring force and fixing magnetic force; in order to adjust the valve to a predetermined value of the differential pressure of the medium on the valve at the moments of its opening and closing. The application of the utility model will expand the scope of the valve, reduce commissioning and adjustment work, increase the accuracy, reliability and quality of its work, its design ensures the complete opening and closing of the valve without intermediate positions, which increases the nominal valve capacity and also allows an increase in capacity beyond nominal in case of emergency pressure increase of the bypassed working medium.

Description

The utility model relates to valve engineering and can be used to bypass liquid or gaseous working media, in particular, in devices for measuring the flow rate of wells in the oil industry.

Known magnetically controlled valve containing a seat, an anchor with a spool. placed in a separation tube made of soft magnetic material, l a permanent magnet located between two disks of soft magnetic material.cha fixedly mounted on the separation tube, and enclosed in a holder \ soft magnetic material made with the possibility of axial movement. (SU. Copyright certificate No. 406483 dated 02.25.72, F 16 K 31/08).

A disadvantage of the known magnetically controlled valve is the inability to control the values: spring force and magnetic flux; for the purpose of us (digging a magnetically controlled valve to a predetermined pressure drop of the working medium on the valve shut-off element, which narrows the scope of its application for pressure drop.

Known safety valve, in a housing with a cover, which is a spring-loaded locking body with a rod, seat, spring, guide sleeve. a magnetic washer and a magnetic system made in the form of a permanent magnet mounted between the magnetic element and the magnetic circuit, the inner surface of the latter is made in the form of a surface of revolution of a piece of cardioid with a length not exceeding the stroke length of the locking member. (SU, copyright certificate No. 703719 of 07/12/1977. F 16 K 31/08; 17/04).

The disadvantages of the known safety valve are:

- the inability to control the magnitude of the magnetic flux in the magnetic system;

- there is no magnetic fixation of the locking element in the open position of the valve.

The known valve is closest to the utility model in technical essence and achieved technical results.

The technical task of the utility model is to create a bypass valve with magnetic fixation, the design of which allows you to separately adjust, independently of each other, the spring force and the fixing magnetic force, to provide valve settings for predetermined pressure drops of the working medium or the valve at the moments of opening and closing it, increase valve capacity in the event of an emergency increase in pressure of a bypassed medium.

The technical problem of the bypass valve with magnetic fixation, comprising a housing with a cover and placed in it a spring-loaded locking body with a monk. a saddle, a spring, a guide sleeve, a magnetic washer, a magnetic system consisting of a permanent magnet installed between the magnetic element and the magnetic circuit, is solved according to the utility model in that the magnetic system includes another permanent magnet in addition to the one already installed in it, both of which are permanent magnets are ring-shaped, each placed and fixed in its own ring magnetic circuit with a U-shaped cross-section, facing each other with the same poles, while the ring magnetic circuits are spot are closed between a blind-end, open ends facing one to magnitonrovodu, the other to the magnetic element; set and fixed in a sleeve of non-magnetic material, mating with the housing with the possibility of axial movement. limited on one side by the stop of the sleeve into the cap screwed on the thread, with the possibility of movement along the thread, into the body, on the other hand, by focusing on the spring, loading with the possibility of adjusting the preliminary compression force, the rod,

at the end of which a magnetic element is fixed in the form of a washer, and a magneto-lead, including a magnetic washer and a sleeve fastened with it, planted, with the possibility of axial movement, in the inner cylindrical surface of the ring magnetic circuits and on its coaxial rod, is pressed by the end face of the sleeve to the magnetic element with an additional spring supported , with the possibility of adjusting the preliminary compression force, about the rod with a locking element mating with the seat, in the passage section of the nozzle of which a throttle is installed in the form of a throttle the disk, rigidly fastened to the locking body, in addition, the movement of the rod, and with it the magnetic element is limited by the stop of the locking body on one side in the saddle, on the other - in the transverse partition of the housing, in which the guide sleeve is pressed, which centers the axis along the rod, and the movement of the magnetic circuit is limited by the emphasis of the magnetic circuit washer in one direction in the annular magnetic circuit, in the other - through an additional spring, rod and locking member, in the saddle.

The essence of the utility model is illustrated by the drawing: figure 1 - General view of the bypass valve with magnetic fixation.

The bypass valve with magnetic lock, hereinafter referred to as the valve, comprises a housing 1 with a cover 2 screwed into the housing 1 on the thread with the possibility of movement along the thread, a spring-loaded locking element 3 rigidly fastened to the rod 4, a seat 5. mating with a locking body 3, a spring 6, a loading rod 4 with the possibility of adjusting the preliminary compression force, a guide sleeve 7, centering the rod 4 along the valve axis, a magnetic washer 8, which is part of the magnetic core 9 along with the sleeve 10, and the magnetic system 11 attached to it, including ayuschuyu two annular permanent magnet 12 arranged and fixed each in its own annular magnetic core 13 with a cross section in U-shape facing each other with the same poles established between the magnetic member 14 in the form of a washer. rigidly fixed to the end of the rod 4, and the magnetic circuit 9.

The ring magnetic circuits 13 are tightly closed by deaf mountaineers and face open ends: one to the magnetic element 14, the other to the magnetic washer 8 of the magnetic circuit 9; tightly planted in a sleeve 15 of non-magnetic material, mating with the possibility of axial movement with the housing 1, fixed from axial displacement in the sleeve 15 by a ring 15a pressed into it and a bottom 15b. The axial movement of the sleeve 15 is limited on the one hand by stopping it in the cover 2. on the other hand, in the spring 6, resting on the threaded washer 16, screwed onto the stem 4 and locked by the nut 17. The magnetic core 9 is inserted by the sleeve 10, with the possibility of axial movement, into the inner the cylindrical surface of the annular magnetic circuits 13 and is pressed by the end face of the sleeve 10 to the magnetic element 14 with an additional spring 18. supported with the possibility of adjusting the preliminary compression force, into the threaded washer 19 screwed onto the rod 4. Thread 4, napresso annym on her glass 20 of nonmagnetic material, is seated, with the possibility of axial movement, the sleeve 10 of the magnetic circuit 9. The annular magnets 12 mounted in annular magnetic cores 13, retaining rings 13a. The use of a glass 20 and a sleeve 15 of non-magnetic material prevents the dispersion of magnetic fluxes in the annular magnetic circuits 13 into the surrounding parts of magnetic materials. The arrangement of the ring permanent magnets 12 with the same poles towards each other allows one to avoid mutual damping of magnetic fluxes at the blind ends of the ring magnetic circuits 13, which is possible if opposite poles are directed towards each other. The guide sleeve 7 is pressed into the transverse partition 21 mounted and fixed by the circlip 21 a in the housing 1.

The valve with the help of a conical quick-detachable flange connection 22 is installed in the application device 23, while the seat 5 is mounted on the tube of the seat 5d, in the passage section of which there is a throttle 24 in the form of a throttling disk 24a, rigidly fastened to the locking element 3. Elastomeric sealing

the rings 5g, 3a, 22a, 2a ensure the tightness of the valve cavity, and the ring 2a, along with this, ensures that the cover 2 is prevented from spontaneously turning out on the thread from the housing 1. The movement of the rod 4 and with it the magnetic element 14 is limited by the stop of the locking element 3 in one side into the saddle 5, the other into the transverse partition 21. The movement of the magnetic circuit 9 is limited by the emphasis of the magnetic washer 8 in one direction in the annular magnetic circuit 13, the other through an additional spring 18. the rod 4 and the locking member 3 in the saddle 5. The saddle 5 includeslastomernuyu cuff 5a. which, due to elasticity, provides self-sealing of the interface of the locking member 3 with the cuff 5a upon contact, the supporting washer 5b, onto which the locking body 3 is supported when it is seated on the saddle 5, the threaded sleeve 5g, the mounting sleeve 5a and the supporting washer 5c in the threaded socket 1a housing 1.

The valve operates and is adjusted as follows.

The pressure drop of the working medium, when the valve is in the closed position, on the shut-off element 3 acts on it by the force perceived by the spring 6 and the fixing magnetic force acting on the magnetic element 14 from the side of the magnetic circuit:

an annular permanent magnet 12, an annular magnetic circuit 13 and a magnetic element 14. which is the closing link of the magnetic circuit. When the differential pressure of the working medium exceeds the upper limit to which the valve is set, the shut-off element 3 detaches from the seat 5, the valve partially opens and the magnetic element 14 detaches from the magnetic circuit, the fixing magnetic force drops sharply to zero and the valve is closed . Under the dynamic influence of the flow of the working medium from the nozzle of the saddle 5d on the locking member 3 and on the throttling disk 24a of the throttle 24, the locking member 3 with the rod 4, overcoming the compression force of the spring 6, rises until the magnetic washer K of the magnetic circuit 9 rests against the annular magnetic circuit 13, under the influence of an additional spring 18. Further movement will stop, since in

Otherwise, the preliminary compression force of the additional spring 18 may be added abruptly to the compression force of the spring 6, and the difference between the compression force of the spring 6 and the dynamic action of the flow of the working fluid does not exceed the preliminary compression force of the additional spring 18. The valve opens by a nominal value, the magnetic washer 8 closes the magnetic chain: ring permanent magnet 12, ring magnetic circuit 13, magnetic washer 8; and is affected by the fixing magnetic force of the magnetic circuit. Magnetic locking of the valve open position has occurred. The valve bypasses the medium in an amount within the nominal capacity.

When reducing the magnitude of the differential pressure of the working medium on the valve below the lower limit to which the valve is configured, the sum of the dynamic effects of the working fluid flow on the throttling disk 24a of the throttle 24 and the locking member 3 and the fixing magnetic force on the magnetic washer 8 becomes lower than the compression force of the spring 6, separation of the magnetic conductor washer 8 under the influence of the spring 6 on the rod 4, which by the action of the magnetic element 14 on the end face of the sleeve 10 of the magnetic circuit 14 shifts the magnetic conductor washer 8. The fixing magnetic force of the pad It is up to zero in size, and the valve is open. Under the influence of a spring 6, which overcomes the dynamic effect of the flow of the working medium, the shut-off element 3 moves down and sits on the saddle 5, blocking the flow of the working medium, the valve is closed. The magnetic element 14 closes the magnetic circuit: an annular permanent magnet 12, an annular magnetic circuit 13, a magnetic element 14. The magnetic element 14 is affected by the fixing magnetic force of the magnetic circuit. Magnetic locking of the valve closed position has occurred.

In the event of an emergency increase in the pressure of the working medium, for example, the ejection of a gas bubble into a liquid working medium, the dynamic effect of the working medium flow remains large even after the valve is opened by a nominal value and

exceeds the sum of the preliminary compression forces of the additional spring 18 and the compression forces of the spring 6, which allows the rod 4 to be shifted, compressing the spring 6. until the magnetic element 14 detaches from contact with the end face of the sleeve 10 of the magnetic circuit 9, which leads to an abrupt application of the preliminary compression force of the additional spring 18 to the rod 4, and its further movement continues with compression of the springs 6 and 18 up to the stop of the locking element 3 in the transverse partition 21 of the housing 1, thereby. shifting the shut-off element 3 to the maximum distance from the seat 5 and opening the valve to the maximum value, which makes it possible to quickly relieve the pressure of the bypassed working medium and return to the nominal mode of operation of the valve when the shut-off element 3 returns to the position of the nominal opening of the valve. When the emergency pressure drop decreases, the dynamic effect of the working fluid flow decreases but the magnitude and the rod 4 under the influence of the forces of the springs 6 and 18 are shifted to the contact of the magnetic element 14 with the end face of the sleeve 10 of the magnetic circuit 9, the compression force of the additional spring 18 drops abruptly to zero and the rod 4 stops , the locking element 3 was located from the seat 5 at a distance providing a nominal opening of the valve. Further occurs in normal operation.

Regulation and adjustment of the valve is as follows.

The value of the upper limit of the differential pressure of the working medium at which the valve opens depends on the sum of the fixing magnetic force of the magnetic circuit acting on the magnetic element 14 and the preliminary compression force of the spring 6. The preliminary compression force of the spring 6 is adjusted by rotating the threaded washer 16. The fixing magnetic force produce a change in the value of the gap Zo between the annular magnetic circuit 13 and the magnetic element 14 in the extreme position of the rod 4, determined by the stop of the locking element 3 in the saddle 5, by rotation of the cover 2. Changing the magnitude of the gap Zo changes the resistance in the magnetic circuit, which leads to a change in the magnitude of the magnetic cat

in the magnetic circuit and, consequently, to a change in the fixing magnetic force. The value of the lower limit of the pressure of the working medium at which the valve closes depends on the difference in the compression force of the spring 6 and the fixing magnetic force acting on the magnetic plate 8 of the magnetic circuit 9. Setting the value of the lower limit is to control the amount of the preliminary compression force of the spring 6.

The value of the emergency pressure of the working medium at which the valve opens above the nominal value is determined by the amount of preliminary compression force of the additional spring 18, which is regulated by the rotation of the threaded washer 19.

Valve adjustment is carried out on a special stand. Partial adjustment of the valve is allowed, in operation on the application device 23, by the value of the upper limit of the differential pressure of the working medium.

The use of a utility model will expand the scope of the valve. reduce adjustment and adjustment work; to increase the accuracy, reliability and quality of its work.

Claims (1)

Bypass valve with magnetic fixation, comprising a housing with a cover and. placed in it a spring-loaded locking element with a rod, a saddle, a spring, a guide sleeve, a magnetic washer, a magnetic system consisting of; permanent magnet installed between the magnetic element and the magnetic circuit, characterized in that the magnetic system includes another permanent magnet in addition to already installed in it, and both permanent magnets have a ring shape, are placed and fixed each in its own ring magnetic circuit with a cross section of a U-shaped are facing each other by poles of the same name, while the annular magnetic cores are tightly closed together by blind ends, facing open ends: one to the magnetic circuit, the other to the magnetic lementu; set and fixed in a sleeve of non-magnetic material, mating with the housing with the possibility of axial movement, limited on one side by the stop of the sleeve into the cap screwed on the thread, with the possibility of movement along the thread, into the housing, and on the other - by the stop in the spring, loaded with adjustable pre-compression force, a rod, at the end of which a magnetic element is fixed in the form of a washer, and a magnetic circuit, including a magnetic washer and a sleeve attached to it, seated, with the possibility of axial movement, in Cored oil cylindrical surface of circular magnetic and coaxially with the rod,
it is pressed by the end face of the sleeve to the magnetic element with an additional spring, supported, with the possibility of adjusting the preliminary compression force, against the rod with a locking member mating with a saddle, in the passage section of the nozzle of which a throttle in the form of a throttling disk is rigidly fixed to the locking member. in addition, the movement of the rod, and with it the magnetic element, is limited by the stop of the locking element on one side of the saddle, on the other - on the transverse partition of the housing, in which a guide sleeve is pressed that centers along the axis of the rod, and the movement of the magnetic circuit is limited by the emphasis of the magnetic washer in one side in an annular magnetic circuit, in the other - through an additional spring, rod and locking element in the saddle.