CN113593887A - Radial anisotropic magnetic ring combination device - Google Patents

Abstract

The invention discloses a radial anisotropic magnetic ring combination device which comprises an outer cover and a sleeve, wherein eight groups of mounting baffle plates which are equidistantly arranged are arranged on the surface of the sleeve in a surrounding mode, the tail end of each mounting baffle plate is connected with the outer cover in a sliding mode, the outer cover and the sleeve are of concentric circle structures, eight groups of embedding grooves which are equidistantly arranged are formed in the inner wall of the sleeve, the inner wall of the sleeve is connected with a magnetizing plate in a sliding mode through the embedding grooves, a detection cylinder is arranged inside the sleeve and located on the inner side of the magnetizing plate, a sleeving structure is sleeved on the surface of the outer cover, and a mounting assembly is connected to the bottom of the sleeving structure. The invention can detect whether the magnetic pole in the combination is demagnetized in the use process of the magnetic ring by arranging the detection cylinder and the magnetizing plate, and magnetizes the magnetic pole by the magnetizing plate so as to ensure the magnetic strength of the magnetic ring combination and even improve the magnetic strength of the magnetic ring combination, thereby improving the magnetic support effect of the magnetic ring combination.

Description

Radial anisotropic magnetic ring combination device

Technical Field

The invention relates to the technical field of magnetic rings, in particular to a radial anisotropic magnetic ring combination device.

Background

The radial anisotropic magnetic ring combination is characterized in that magnetic poles with opposite magnetism are combined together, the principle of opposite attraction is utilized, the magnetic ring combination is more compact, the magnetic force action of the magnetic ring after adsorption combination treatment is enhanced, the radial anisotropic magnetic ring combination can be used in the magnetic suspension support industry, and support conditions are provided for high-speed running, so that the demand and demand variety of the radial anisotropic magnetic ring combination are in a synchronous increasing trend.

The existing magnetic ring combination has the defects that:

1. the comparison document CN207165380U discloses a combined magnetic ring, which sequentially comprises an inner magnetic ring body and an outer magnetic ring body from inside to outside, wherein the inner magnetic ring body and the outer magnetic ring body are matched to form a magnetic ring loop; the inner magnetic ring body and the outer magnetic ring body are matched to form a chamber, and the chamber can accommodate a pair of coils, namely a first coil wound on the inner magnetic ring body and a second coil wound on the outer magnetic ring body. When the coil is electrified, because the magnetic ring material is easy to conduct magnetism, a magnetic field generated by the inner magnetic ring body can be intensively transmitted to the outer magnetic ring body through the magnetic ring loop, and can generate larger magnetic flux, but the magnetic ring combination can not check whether the magnetic pole is demagnetized in the using process, so that a user can not timely know the specific position of the magnetic pole where demagnetization occurs and can not timely and effectively carry out targeted maintenance measures;

2. the comparison document CN208385120U discloses a telescopic combined magnetic ring, which comprises a magnetic ring body and a magnetic ring accessory, wherein the magnetic ring body is a hollow circular arc-shaped magnetic ring, and the magnetic ring body is provided with a port for sliding in one end of the magnetic ring accessory and a bayonet for clamping the other end of the magnetic ring accessory; the magnetic ring accessory is a solid arc-shaped magnetic ring and comprises an inner magnetic ring body, a middle magnetic ring body and an outer magnetic ring body, the inner magnetic ring body, the middle magnetic ring body and the outer magnetic ring body are equal in thickness, the inner magnetic ring body, the middle magnetic ring body and the outer magnetic ring body are manganese-zinc ferrite magnetic rings, and a plurality of alloy parts are distributed on the middle magnetic ring body at intervals in the circumferential direction. The telescopic combined magnetic ring provided by the utility model is easy to wind and has higher magnetic conductivity, but the magnetic ring combination can not realize the accurate adjustment of the installation height when being installed, and can not detect the magnetic support weight, so that the possibility that the magnetic ring is crushed by a support due to insufficient support force exists when being used;

3. the comparison document CN213303851U discloses a SMD magnetic ring structure, which comprises a patch PCB and PIN PINs arranged on two sides of the bottom of the patch PCB, wherein a magnetic ring assembly is arranged at the top of the patch PCB and is fixedly connected with the patch PCB in an inserting manner, the magnetic ring assembly comprises a first magnetic ring, a second magnetic ring and a third magnetic ring which are sequentially distributed from inside to outside, and the first magnetic ring, the second magnetic ring and the third magnetic ring are mutually nested; the magnetic rings are arranged into a first magnetic ring, a second magnetic ring and a third magnetic ring which are mutually nested, the second magnetic ring positioned on the outer layer can be sleeved on the outer side of the first magnetic ring to change the number of turns of a coil on the whole magnetic ring assembly, the number of turns in the second magnetic ring and the third magnetic ring can also be a preset value, and the second magnetic ring and the third magnetic ring can be selected for use according to actual requirements, so that the outer magnetic ring can be modularized, the installation and the disassembly are convenient, the speed of changing the parameters of the magnetic rings can be greatly improved, and the ordered anisotropic combination installation can not be realized during the assembly of the magnetic rings, and the limit treatment can not be carried out on the magnetic poles according to the actual installation size, so that the magnetic adsorption effect of the magnetic ring combination is not strong, and the demagnetization threat can be easily caused by the heat generation of sliding friction;

4. the reference CN208861804U discloses a magnetic ring assembly, "comprising: the magnetic resonance type magnetic resonance imaging device comprises an outer magnetic ring, an inner magnetic ring, an outer coil and an inner coil, wherein the outer coil and the inner coil are respectively arranged on the outer magnetic ring and the inner magnetic ring, the outer magnetic ring is sleeved on the outer side of the inner magnetic ring, the center of the inner magnetic ring is overlapped with the center of the outer magnetic ring, and the inner magnetic ring and the outer magnetic ring can rotate relatively around the centers. The radar system with the magnetic ring assembly comprises the magnetic ring assembly, and further comprises a rotating part and a fixing part, wherein the inner magnetic ring of the magnetic ring assembly is connected with the fixing part, the outer magnetic ring is connected with the rotating part, and the inner magnetic ring and the outer magnetic ring move relatively while the rotating part rotates relative to the fixing part. The magnetic ring assembly and the radar system have the advantages of high magnetic flux, good communication or energy transmission quality, high reliability and long service life, but the magnetic ring assembly cannot realize magnetizing treatment, so that the magnetism of the device cannot be strengthened, and the magnetic force supporting effect of the magnetic ring assembly is limited.

Disclosure of Invention

The present invention is directed to a radial anisotropic magnetic ring assembly to solve the above problems.

In order to achieve the purpose, the invention provides the following technical scheme: a radial opposite-polarity magnetic ring combination device comprises an outer cover and a sleeve, wherein eight groups of mounting baffle plates which are equidistantly arranged are arranged on the surface of the sleeve in a surrounding mode, the tail end of each mounting baffle plate is connected with the outer cover in a sliding mode, the outer cover and the sleeve are of concentric circle structures, eight groups of embedding grooves which are equidistantly arranged are formed in the inner wall of the sleeve, the inner wall of the sleeve is connected with a magnetizing plate in a sliding mode through the embedding grooves, a detection cylinder is arranged inside the sleeve, and the detection cylinder is located on the inner side of the magnetizing plate;

the surface of the detection cylinder is sleeved with a lantern ring base, eight groups of prompting lamps are arranged on the surface of the lantern ring base at equal intervals, the top of the lantern ring base is provided with gravity sensors arranged at equal intervals, the surface of the detection cylinder is provided with partition plates and adsorption magnetic poles at equal intervals, and the adsorption magnetic poles and the partition plates are arranged at intervals;

the surface of the outer cover is sleeved with a sleeving structure, and the bottom of the sleeving structure is connected with an installation assembly.

Preferably, the installation component is including pressure sensors, telescopic adjusting rod, scale mark and reinforcement base, reinforce the top of base and install pressure sensors, pressure sensors's top is connected with telescopic adjusting rod, telescopic adjusting rod's surface is equipped with the scale mark, the surface mounting of dustcoat has the siren, and siren and pressure sensors electric connection, the siren is located the top of cup joint structure, detect the inside gomphosis of top centre of a circle position department of drum and install infrared distance meter, infrared distance meter and siren electric connection.

Preferably, the inside of installation sideboard is equipped with the logical groove that runs through, the inside sliding connection that leads to the groove has a lasso and No. two lassos, and No. two lassos are located the top of a lasso, the top of a lasso is connected with the telescopic link, and the top of telescopic link is connected with the bottom of No. two lassos, the inside of telescopic link is equipped with the jack that the equidistance was arranged.

Preferably, pole setting and two sets of symmetrical arrangement's threaded rod are installed to magnetism board's interior diapire, and two sets of threaded rod are located the centre of pole setting, the surface winding of pole setting is connected with spring coil, the surface of threaded rod runs through and installs the clamp plate, the surperficial threaded connection of threaded rod has the fastener, and the bottom of fastener and the top laminating of clamp plate.

Preferably, the telescopic inside is equipped with eight equidistant interlayers of keeping apart, interbedded internally mounted has inlays the magnetic pole, it is the same with the magnetism that adsorbs the magnetic pole to inlay the magnetic pole, and two sets of adjacent inlay magnetism between the magnetic pole opposite.

Preferably, the inside of dustcoat is equipped with hollow intermediate layer, hollow intermediate layer's internally mounted has the heat insulating board, the embedded electronic thermometer that installs of inner wall of dustcoat, the surface mounting of dustcoat has the display screen, and the display screen is located one side of siren, electronic thermometer and display screen electric connection.

Preferably, the support base is installed to the bottom of dustcoat, the bottom of supporting the base is equipped with the socket that runs through, the movable support post has been placed to the inner diapire of supporting the base, the diameter of movable support post is greater than the diameter of socket, and the top and the telescopic bottom of movable support post are connected.

Preferably, the sleeving structure comprises an inner sleeve ring, an embedded block and an outer sleeve ring, the outer surface of the outer cover is sleeved with the inner sleeve ring, the embedded blocks are arranged on the outer surface of the inner sleeve ring in an equidistant mode, the outer surface of the inner sleeve ring is connected with the outer sleeve ring through the embedded blocks in an embedded mode, and the bottom of the outer sleeve ring is connected with the top of the telescopic adjusting rod.

Preferably, the adsorption magnetic poles are located right above the gravity sensor, and the installation number and the installation positions of the gravity sensor and the adsorption magnetic poles correspond to the prompting lamps one to one.

Preferably, the working steps of the device are as follows:

s1, before the magnetic ring combination operation is carried out by using the device, four groups of S pole magnetic poles and four groups of N pole magnetic poles with the same specification are prepared, and the four groups of S pole magnetic poles and the four groups of N pole magnetic poles are absorbed in a gap formed by the sleeve and the installation baffle at intervals according to the magnetic pole arrangement mode of the embedded magnetic poles installed on the surface of the sleeve to form a magnetic ring with opposite polarities;

s2, adjusting the distance between the first ferrule and the second ferrule according to the specification and the size of the prepared S pole and N pole until the first ferrule and the second ferrule clamp and fix the magnetic pole absorbed in the gap between the sleeve and the mounting baffle plate, and then fixing the distance between the first ferrule and the second ferrule through the insertion hole on the surface of the telescopic rod to determine the adjustable fixation of the magnetic pole;

s3, after the magnetic poles are combined and fixed, the outer cover can be sleeved on the surface of the combined sleeve, then the effective extension height of the telescopic adjusting rod is adjusted according to the installation requirement and the scale marks, and then the outer cover and the inner lantern ring on the surface are embedded into the outer lantern ring, so that the integral installation of the device is realized;

s4, in the process of utilizing the magnetic ring to carry out magnetic support, the pressure of the magnetic support can be detected through the pressure sensor, so that when the device bears the pressure outside the range of the magnetic support capacity, the pressure sensor can send a signal to the alarm in time, and a worker is reminded of adjusting the magnetic support capacity of the device in time;

s5, when the magnetic poles in the device need to be magnetized, the telescopic adjusting rods extend upwards to enable the device to be lifted, then the supporting base is grasped to separate the outer cover and the inner lantern ring from the inner part of the outer lantern ring, then the movable supporting columns can be jacked up through the jacks, further the sleeves can be exposed out of the outer cover, and then the sleeves are taken down;

s6, overlapping spring coils with a plurality of turns on the surface of the vertical rod according to the magnetic force required to be magnetized, penetrating a pressure plate through the inside of the threaded rod by utilizing the compressibility of the spring coils, rotating a fastener to fix the pressure plate at a fixed position on the surface of the threaded rod, extruding the spring coils with a plurality of turns to enable the spring coils to be stably placed in an inner cavity of the magnetizing plate, then switching on external current, and performing corresponding magnetization treatment on magnetic poles attached to the surface of the sleeve by a magnetic field generated by the spring coils when the spring coils are electrified so as to achieve the corresponding magnetizing purpose;

s7, in the using process of the device, if the magnetic pole adsorbed on the surface of the sleeve generates a demagnetization phenomenon, the magnetic attraction effect on the adsorption magnetic pole is weakened, and then the adsorption magnetic pole falls to the surface of the gravity inductor, at the moment, the gravity inductor senses the gravity effect of the adsorption magnetic pole and sends a signal to the prompting lamp to start the prompting lamp, the light penetrating through the prompting lamp can remind a worker that the magnetic pole in the corresponding direction generates the demagnetization phenomenon, and the magnetizing treatment needs to be carried out in time so as to ensure that the magnetic pole adsorbed on the surface of the sleeve can stably provide the magnetic force;

s8, when the device is magnetically supported on a supporting plane, the distance between the device and a supporting object can be detected through the infrared distance meter, when the difference exists between the distance between the device and the supporting object and the distance between the other group of devices, the group of devices and the other group of devices are in unequal planes, the telescopic adjusting rods can be adjusted according to needs until the distances detected by the two groups of devices are equal, and the devices are subjected to uniform and equivalent pressure, so that the horizontal state of the supporting object can be ensured.

Compared with the prior art, the invention has the beneficial effects that:

1. according to the invention, the detection cylinder, the partition plate, the gravity sensor, the adsorption magnetic poles, the lantern ring base and the prompting lamp are arranged, the magnetic interference effect between adjacent adsorption magnetic poles can be isolated through the partition plate, so that when the magnetic poles of the adsorption valve on the surface of the sleeve barrel are demagnetized, the adsorption effect on the adsorption magnetic poles is weakened, and the adsorption magnetic poles slide down to the surface of the gravity sensor along the detection cylinder, so that a signal is sent to the prompting lamp to light the prompting lamp, a user is reminded to position the demagnetization magnetic poles as soon as possible, and demagnetization detection is realized.

2. The device is connected with the supporting plane through the reinforcing base, the auxiliary device realizes accurate height adjustment processing under the matching of the telescopic adjusting rod, the scale marks and the infrared distance meter, and a prompt signal can be sent through the alarm under the matching of the pressure sensor and the alarm when the gravity requirement of supporting articles cannot be met under the magnetic supporting effect of the device, so that the magnetizing operation can be performed in time.

3. According to the invention, the installation baffle plate, the first ferrule, the telescopic rod and the second ferrule are installed, the distance between the first ferrule and the second ferrule is adjusted according to the size of the magnetic pole until the first ferrule and the second ferrule can tightly clamp and fix the magnetic pole, the inserted rod is inserted into the insertion hole in the telescopic rod to fix the first ferrule and the second ferrule, and further the magnetic pole is prevented from generating heat due to sliding friction on the surface of the sleeve and generating demagnetization damage to the magnetic pole.

4. The invention is provided with the magnetizing plate, the spring coil, the threaded rod, the upright stanchion, the pressing plate and the fastener, when needing to be magnetized, the magnetizing plate corresponding to the magnetic pole needing to be magnetized can be extracted from the inner wall of the sleeve in a sliding way, the pressing plate and the fastening piece are taken out from the inner part of the magnetizing plate, then the spring coils with a plurality of turns are connected by a metal wire, and is connected with the group of spring coils wound on the surface of the upright post, then the spring coil group is extruded, the pressure plate is sleeved on the surfaces of the threaded rod and the upright post again, then the fastening piece is utilized to connect the threaded rod, the pressing plate is fixed, and then the spring coil group is extruded, so that the top end surface of the spring coil group is positioned below the top edge of the magnetizing plate, and then the magnetic field intensity which is several times that of the original single group of spring coils can be generated when the magnetic plate is electrified, the purpose of magnetic force strengthening is realized, and the magnetic force supporting capacity of the magnetic ring combination is further enhanced.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the installation structure of the sleeve, the magnetizing plate and the detecting cylinder of the present invention;

FIG. 3 is a schematic view of the mounting rail, sleeve, housing and support base mounting structure of the present invention;

FIG. 4 is a schematic cross-sectional view of the sleeve, detection cylinder and infrared rangefinder of the present invention;

FIG. 5 is a schematic view of the housing and socket mounting structure of the present invention;

FIG. 6 is a schematic view of the assembly structure of the magnetizing plate according to the present invention;

FIG. 7 is a schematic view of the structure at point A of the present invention;

FIG. 8 is a schematic view of the structure at B in the present invention.

In the figure: 1. a sleeve; 101. a fitting groove; 102. inlaying the magnetic poles; 2. detecting the cylinder; 201. a partition plate; 202. a gravity sensor; 203. adsorbing the magnetic pole; 204. a collar base; 205. a warning light; 3. installing a baffle plate; 301. a first ferrule; 302. a telescopic rod; 303. a second ferrule; 304. a through groove; 4. a housing; 401. a heat insulation plate; 402. an electronic thermometer; 403. a display screen; 5. a magnetizing plate; 501. a spring coil; 502. a threaded rod; 503. erecting a rod; 504. pressing a plate; 505. a fastener; 6. a support base; 601. a socket; 602. a movable support column; 7. a socket structure; 701. an inner collar; 702. a fitting block; 703. an outer collar; 8. mounting the component; 801. a pressure sensor; 802. a telescopic adjusting rod; 803. scale lines; 804. reinforcing the base; 9. an alarm; 10. an infrared distance meter.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example one

Referring to fig. 1-2 and 4, an embodiment of the present invention is shown: a radial anisotropic magnetic ring combination device comprises an outer cover 4 and a sleeve 1, wherein eight groups of embedding grooves 101 which are arranged at equal intervals are arranged on the inner wall of the sleeve 1, the inner wall of the sleeve 1 is connected with a magnetizing plate 5 in a sliding mode through the embedding grooves 101, a detection cylinder 2 is installed inside the sleeve 1, and the detection cylinder 2 is located on the inner side of the magnetizing plate 5;

the surface of the detection cylinder 2 is sleeved with a lantern ring base 204, eight groups of prompting lamps 205 which are arranged at equal intervals are installed on the surface of the lantern ring base 204, gravity sensors 202 which are arranged at equal intervals are installed at the top of the lantern ring base 204, partition plates 201 and adsorption magnetic poles 203 are arranged at equal intervals on the surface of the detection cylinder 2, the adsorption magnetic poles 203 and the partition plates 201 are arranged at intervals, the adsorption magnetic poles 203 are located right above the gravity sensors 202, and the installation quantity and the installation position of the gravity sensors 202 and the adsorption magnetic poles 203 are in one-to-one correspondence with the prompting lamps 205;

the surface of dustcoat 4 has cup jointed socket joint structure 7, and the bottom of socket joint structure 7 is connected with installation component 8.

Specifically, the sliding connection between the magnetizing plate 5 and the interior of the sleeve 1 can be realized through the embedding groove 101, so that the magnetizing plate 5 at the corresponding position can be conveniently taken out from the interior of the sleeve 1 to perform corresponding magnetizing operation;

when the device is used as a magnetic ring combination, the magnetism of the magnetic pole absorbed on the surface of the sleeve 1 can be monitored through the detection cylinder 2, so that related information can be timely obtained when the demagnetization phenomenon occurs, and the magnetization processing is carried out through the magnetization plate 5;

when the detection cylinder 2 works, the prompting lamps 205 are electrically connected with the gravity sensors 202 at corresponding positions one by one, and the partition plate 201 is made of a magnet magnetic field isolation material, so that the magnetic attraction effect of one group of the magnetic attraction poles 203 on the adjacent magnetic attraction poles 203 can be isolated, the accuracy of the detection result is ensured, if a certain group of the magnetic poles is demagnetized, the magnetic attraction effect on the magnetic attraction poles 203 at the corresponding positions is weakened, at the moment, the magnetic attraction poles 203 at the positions slide down along the surface of the detection cylinder 2 under the action of gravity until the surface of the gravity sensor 202 descends to the lower part to form pressure on the magnetic attraction poles, so that the magnetic attraction poles can send starting signals to the prompting lamps 205 at the corresponding positions, at the moment, the prompting lamps 205 are lightened, and a worker can be reminded to determine the orientation of the demagnetized magnetic poles as soon as possible, so as to perform targeted magnetizing treatment.

Example two

Referring to fig. 7, an embodiment of the present invention: the utility model provides a radial opposite sex magnetic ring composite set, including dustcoat 4 and sleeve 1, installation component 8 is including pressure sensors 801, telescopic adjusting rod 802, scale mark 803 and reinforcement base 804, pressure sensors 801 is installed at the top of reinforcement base 804, pressure sensors 801's top is connected with telescopic adjusting rod 802, telescopic adjusting rod 802's surface is equipped with scale mark 803, dustcoat 4's surface mounting has siren 9, and siren 9 and pressure sensors 801 electric connection, siren 9 is located the top of cup joint structure 7, detect the inside gomphosis in top centre of a circle position department of drum 2 and install infrared distance meter 10, infrared distance meter 10 and siren 9 electric connection.

Specifically, the thread fixed connection between the device and the supporting plane can be realized through the reinforcing base 804, and then the supporting height can be adjusted under the matching of the scale lines 803 and the telescopic adjusting rod 802 according to the supporting height requirement;

in addition, when the magnetic ring combination is used for carrying out magnetic force mutual exclusion support, the gravity of a supported article can be detected through the pressure sensor 801, and when the magnetic force for supporting the magnetic ring does not meet the gravity of the supported article, the pressure sensor 801 can send a signal to the alarm 9 so as to send a prompt signal to a worker, so that the worker can be promoted to carry out concentrated magnetization on the magnetic ring, and the magnetic force supporting effect is enhanced;

when the device is magnetically supported on a supporting plane, the distance between the device and a supporting object can be detected through the infrared distance meter 10, when the difference exists between the distance between the device and the supporting object and the distance between another group of devices and the supporting object, the group of devices and the other group of devices are in unequal planes, the telescopic adjusting rod 802 can be adjusted as required until the distances detected by the two groups of devices are equal, and the devices are subjected to uniform and equivalent pressure, so that the horizontal state of the supporting object can be ensured.

EXAMPLE III

Referring to fig. 1 and 3, an embodiment of the present invention: the utility model provides a radial opposite sex magnetic ring composite set, including installation sideboard 3, the surface of sleeve 1 is encircleed and is installed eight installation sideboard 3 that the equidistance was arranged, the tail end sliding connection of installation sideboard 3 has dustcoat 4, and dustcoat 4 is concentric circle structure with sleeve 1, the inside of installation sideboard 3 is equipped with logical groove 304 that runs through, the inside sliding connection who leads to groove 304 has No. one lasso 301 and No. two lassos 303, and No. two lassos 303 are located the top of No. one lasso 301, the top of No. one lasso 301 is connected with telescopic link 302, and the top of telescopic link 302 is connected with No. two lassos 303's bottom, the inside of telescopic link 302 is equipped with the jack that the equidistance was arranged.

Eight groups of interlayers with equal intervals are arranged in the sleeve 1, the embedded magnetic poles 102 are arranged in the interlayers, the magnetism of the embedded magnetic poles 102 is the same as that of the adsorption magnetic pole 203, and the magnetism between two adjacent groups of embedded magnetic poles 102 is opposite.

Specifically, when a plurality of groups of opposite magnetic poles are combined and assembled, the magnetic poles which are assembled and adsorbed on the surface of the sleeve 1 can be assembled according to the opposite magnetic pole and embedded magnetic pole 102 magnetic polarity principle, so that the plurality of groups of magnetic poles without marked magnetism are prevented from being arranged in a mixed blue manner and cannot be arranged in order;

then, the distance between the first ferrule 301 and the second ferrule 303 is adjusted according to the size of the magnetic pole until the first ferrule 301 and the second ferrule 303 can tightly clamp and fix the magnetic pole, and the inserted rod is inserted into the insertion hole in the telescopic rod 302 to fix the first ferrule 301 and the second ferrule 303, so that the magnetic pole is prevented from generating heat due to sliding friction on the surface of the sleeve 1 and generating demagnetization damage to the magnetic pole;

the through groove 304 can provide a passage for the first ferrule 301 and the second ferrule 303 to slide along the installation direction of the installation baffle 3 for distance adjustment, so that the purpose of adjusting the distance between the first ferrule 301 and the second ferrule 303 is realized by utilizing the flexibility of the telescopic rod 302.

Example four

Referring to fig. 2, fig. 6 and fig. 8, an embodiment of the present invention: the utility model provides a radial opposite sex magnetic ring composite set, includes and magnetizes board 5, magnetizes the interior diapire of board 5 and installs pole setting 503 and two sets of threaded rod 502 of symmetrical arrangement, and two sets of threaded rod 502 are located the centre of pole setting 503, and the surface winding of pole setting 503 is connected with spring coil 501, and the surface of threaded rod 502 is run through and is installed clamp plate 504, and the surface threaded connection of threaded rod 502 has fastener 505, and the bottom of fastener 505 and the top laminating of clamp plate 504.

The inside of dustcoat 4 is equipped with the hollow intermediate layer, and the internally mounted of hollow intermediate layer has heat insulating board 401, and the embedded electronic thermometer 402 that installs of inner wall of dustcoat 4, the surface mounting of dustcoat 4 has display screen 403, and display screen 403 is located one side of siren 9, electronic thermometer 402 and display screen 403 electric connection.

Specifically, the magnetizing plate 5 can magnetize the magnetic poles attached to the surface of the sleeve 1 and improve the magnetic strength, when the device needs magnetizing, the magnetizing plate 5 corresponding to the magnetic poles needing magnetizing can be externally connected with a current with a constant value to the spring coil 501, and then the magnetic field generated when the spring coil 501 is electrified can strengthen the magnetic poles needing magnetizing, so that the magnetizing purpose is realized;

when the overall magnetic force of the device needs to be enhanced, the magnetizing plate 5 corresponding to the magnetic pole to be magnetized can be slidingly extracted from the inner wall of the sleeve 1, the pressing plate 504 and the fastener 505 are taken out from the inner part of the magnetizing plate 5, then the spring coils 501 with a plurality of turns are connected by metal wires, and is connected to the set of spring coils 501 wound around the surface of the upright 503, after which the set of spring coils 501 is pressed, and the pressure plate 504 is sleeved on the surfaces of the threaded rod 502 and the upright 503 again, and then by the connecting action of the fastener 505 and the threaded rod 502, the pressing plate 504 is fixed, and then the spring coil 501 group is extruded, so that the top end surface of the spring coil 501 group is positioned below the top edge of the magnetizing plate 5, and then the magnetic field intensity which is several times that of the original single group of spring coils 501 can be generated when the magnetic plate is electrified, the purpose of magnetic force strengthening is realized, and the magnetic force supporting capacity of the magnetic ring combination is further enhanced;

the heat insulation plate 401 can prevent external heat from entering the inner part of the outer cover 4, so that the magnetic poles adsorbed on the surface of the sleeve 1 are prevented from being influenced by heat, and the possibility of demagnetization exists;

can monitor the inside temperature of dustcoat 4 through electron thermometer 402, show through display screen 403 afterwards to the user can in time know the inside temperature value of dustcoat 4, avoids using this magnetic ring combination when the high temperature, and then guarantees that the magnetic pole that adsorbs on sleeve 1 surface can normally work.

EXAMPLE five

Referring to fig. 3 and 5, an embodiment of the present invention: the utility model provides a radial opposite sex magnetic ring composite set, includes support base 6 and cup joint structure 7, and support base 6 is installed to the bottom of dustcoat 4, and the bottom of supporting base 6 is equipped with the socket 601 that runs through, and movable support column 602 has been placed to the inner diapire of supporting base 6, and the diameter of movable support column 602 is greater than the diameter of socket 601, and the top of movable support column 602 is connected with the bottom of sleeve 1.

The sleeving structure 7 comprises an inner sleeve 701, a mosaic block 702 and an outer sleeve 703, the outer surface of the outer cover 4 is sleeved with the inner sleeve 701, the mosaic block 702 is arranged on the outer surface of the inner sleeve 701 around the same distance, the outer surface of the inner sleeve 701 is connected with the outer sleeve 703 through the mosaic block 702 in a mosaic mode, and the bottom of the outer sleeve 703 is connected with the top of the telescopic adjusting rod 802.

Specifically, when the magnetic poles in the device need to be magnetized, the telescopic adjusting rod 802 is extended upwards, so that the device is lifted, the supporting base 6 is grasped to separate the outer cover 4 and the inner sleeve ring 701 from the inner part of the outer sleeve ring 703, then the movable supporting column 602 can be jacked up through the socket 601, the sleeve 1 can be exposed out of the outer cover 4, and the sleeve 1 can be taken down immediately.

The working steps of the device are as follows:

s1, before the magnetic ring combination operation is carried out by using the device, four groups of S pole magnetic poles and four groups of N pole magnetic poles with the same specification are prepared, and the four groups of S pole magnetic poles and the four groups of N pole magnetic poles are absorbed in the gap formed by the sleeve 1 and the installation baffle plate 3 at intervals according to the magnetic pole arrangement mode of the embedded magnetic poles 102 installed on the surface of the sleeve 1 to form a magnetic ring with opposite polarities;

s2, then, adjusting the distance between the first ferrule 301 and the second ferrule 303 according to the specification and the size of the prepared S pole and N pole until the first ferrule 301 and the second ferrule 303 clamp and fix the magnetic pole absorbed in the gap between the sleeve 1 and the mounting baffle 3, and then fixing the distance between the first ferrule 301 and the second ferrule 303 through the insertion hole on the surface of the telescopic rod 302 to determine the adjustable fixation of the magnetic pole;

s3, after the magnetic poles are combined and fixed, the outer cover 4 can be sleeved on the surface of the combined sleeve 1, then the effective extension height of the telescopic adjusting rod 802 is adjusted according to the scale lines 803 according to the installation requirement, and then the outer cover 4 and the inner lantern ring 701 on the surface are embedded into the outer lantern ring 703, so that the integral installation of the device is realized;

s4, in the process of magnetic force supporting by using the magnetic ring, the pressure of the magnetic force support can be detected by the pressure sensor 801, so that when the device bears the pressure outside the range of the magnetic force supporting capacity, the pressure sensor 801 can send a signal to the alarm 9 in time to remind a worker of adjusting the magnetic force supporting capacity of the device in time;

s5, when the magnetic poles in the device need to be magnetized, the telescopic adjusting rod 802 is extended upwards to enable the device to be lifted, then the supporting base 6 is grasped to separate the outer cover 4 and the inner lantern ring 701 from the inner part of the outer lantern ring 703, then the movable supporting column 602 can be jacked up through the socket 601, further the sleeve 1 can be exposed out of the inner part of the outer cover 4, and then the sleeve 1 is taken down;

s6, overlapping the spring coil 501 with the number of phase turns on the surface of the upright post 503 according to the magnetic force required to be magnetized, then penetrating the pressing plate 504 through the inside of the threaded rod 502 by utilizing the compressibility of the spring coil 501, rotating the fastening piece 505 to fix the pressing plate 504 at the fixed position on the surface of the threaded rod 502, extruding the spring coil 501 with the number of groups of turns to be stably placed in the inner cavity of the magnetizing plate 5, then switching on external current, and magnetizing the magnetic field generated by the spring coil 501 when being electrified can correspondingly magnetize the magnetic pole attached to the surface of the sleeve 1, thereby realizing the corresponding magnetizing purpose;

s7, in the using process of the device, if the magnetic pole adsorbed on the surface of the sleeve 1 generates a demagnetization phenomenon, the magnetic attraction effect of the magnetic pole on the adsorption magnetic pole 203 is weakened, and the adsorption magnetic pole 203 falls to the surface of the gravity sensor 202, at the moment, the gravity sensor 202 senses the gravity effect of the adsorption magnetic pole 203 and sends a signal to the prompting lamp 205 to start the device, the light transmitted by the device can remind a worker that the magnetic pole in the corresponding direction generates the demagnetization phenomenon, and the magnetizing treatment needs to be carried out in time so as to ensure that the magnetic pole adsorbed on the surface of the sleeve 1 can stably provide the magnetic force;

s8, when the device is magnetically supported on a supporting plane, the distance between the device and a supporting object can be detected through the infrared distance meter 10, when the difference exists between the distance between the device and the supporting object and the distance between the other group of devices, the group of devices and the other group of devices are in unequal planes, at the moment, the telescopic adjusting rod 802 can be adjusted according to needs until the distances detected by the two groups of devices are equal, and at the moment, the devices are subjected to uniform and equivalent pressure, so that the horizontal state of the supporting object can be ensured.

The working principle is as follows: before the device is used for carrying out corresponding magnetic ring combination operation, four groups of S-pole magnetic poles and four groups of N-pole magnetic poles with the same specification can be prepared, and the four groups of S-pole magnetic poles and the four groups of N-pole magnetic poles are adsorbed in a gap formed by the sleeve 1 and the installation baffle plate 3 at intervals according to the arrangement mode of the magnetic poles of the embedded magnetic poles 102 installed on the surface of the sleeve 1 to form a magnetic ring with opposite polarities;

then, according to the specifications and sizes of the prepared S-pole magnetic pole and N-pole magnetic pole, the distance between the first ferrule 301 and the second ferrule 303 is adjusted until the first ferrule 301 and the second ferrule 303 clamp and fix the magnetic pole absorbed in the gap between the sleeve 1 and the installation baffle plate 3, the distance between the first ferrule 301 and the second ferrule 303 can be fixed through the jacks on the surface of the telescopic rod 302 so as to determine the adjustable fixation of the magnetic pole, after the magnetic poles are combined and fixed, the outer cover 4 can be sleeved on the surface of the combined sleeve 1, then the effective extension height of the telescopic adjusting rod 802 can be adjusted according to the scale line 803 according to the installation requirement, and then the outer cover 4 and the inner ferrule 701 on the surface are embedded into the outer ferrule 703, so that the integral installation of the device is realized;

in the process of utilizing the magnetic ring to carry out magnetic support, the pressure sensor 801 can be used for detecting the pressure of the magnetic support, so as to ensure that the pressure sensor 801 can send a signal to the alarm 9 in time when the device bears the pressure outside the magnetic supporting capacity range, and remind the worker to adjust the magnetic supporting capacity of the device in time, and in addition, if the magnetic pole adsorbed on the surface of the sleeve 1 generates demagnetization in the use process of the device, the magnetic attraction effect of the attraction magnetic pole 203 is weakened, and the attraction magnetic pole 203 falls to the surface of the gravity sensor 202, at this time, the gravity sensor 202 senses the gravity effect of the attraction magnetic pole 203 and sends a signal to the indicator light 205 to start, the light transmitted through the magnetic pole sleeve can remind workers of the demagnetization phenomenon of the magnetic pole in the corresponding direction, and timely magnetizing treatment is needed to ensure that the magnetic pole adsorbed on the surface of the sleeve 1 can stably provide a magnetic force effect;

when the magnetic poles in the device need to be magnetized, the telescopic adjusting rod 802 is extended upwards to lift the device, then the supporting base 6 is grasped to separate the outer cover 4 and the inner sleeve ring 701 from the inner part of the outer sleeve ring 703, then the movable supporting column 602 can be jacked up through the socket 601, further the sleeve 1 can be exposed out of the outer cover 4, then the sleeve 1 is taken down, the spring coils 501 with the number of turns are lapped on the surface of the upright post 503 according to the magnetic force needed to be magnetized, then the pressing plate 504 penetrates through the inner part of the threaded rod 502 by utilizing the compressibility of the spring coils 501, the fastening piece 505 is rotated to fix the pressing plate 504 at the fixed position on the surface of the threaded rod 502, the spring coils 501 with the number of turns is extruded to be stably placed in the inner cavity of the magnetizing plate 5, then external current is switched on, and the magnetic field generated by the spring coils 501 when being electrified can carry out corresponding magnetization treatment on the magnetic poles attached on the surface of the sleeve 1, thereby realizing the corresponding magnetizing purpose;

when the device is magnetically supported on a supporting plane, the distance between the device and a supporting object can be detected through the infrared distance meter 10, when the difference exists between the distance between the device and the supporting object and the distance between another group of devices and the supporting object, the group of devices and the other group of devices are in unequal planes, the telescopic adjusting rod 802 can be adjusted as required until the distances detected by the two groups of devices are equal, and the devices are subjected to uniform and equivalent pressure, so that the horizontal state of the supporting object can be ensured.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (10)

1. The utility model provides a radial opposite sex magnetic ring composite set, includes dustcoat (4) and sleeve (1), its characterized in that: the surface of the sleeve (1) is provided with eight groups of mounting baffle plates (3) which are arranged at equal intervals in a surrounding mode, the tail end of each mounting baffle plate (3) is connected with an outer cover (4) in a sliding mode, the outer covers (4) and the sleeve (1) are of concentric circle structures, eight groups of embedding grooves (101) which are arranged at equal intervals are formed in the inner wall of the sleeve (1), the inner wall of the sleeve (1) is connected with a magnetizing plate (5) in a sliding mode through the embedding grooves (101), a detection cylinder (2) is arranged inside the sleeve (1), and the detection cylinder (2) is located on the inner side of the magnetizing plate (5);

the surface of the detection cylinder (2) is sleeved with a lantern ring base (204), eight groups of prompting lamps (205) are arranged on the surface of the lantern ring base (204) at equal intervals, gravity sensors (202) are arranged at the top of the lantern ring base (204) at equal intervals, partition plates (201) and adsorption magnetic poles (203) are arranged on the surface of the detection cylinder (2) at equal intervals, and the adsorption magnetic poles (203) and the partition plates (201) are arranged at intervals;

the surface of the outer cover (4) is sleeved with a sleeving structure (7), and the bottom of the sleeving structure (7) is connected with a mounting component (8).

2. The radially anisotropic magnetic ring assembly of claim 1, wherein: installation component (8) are including pressure sensors (801), telescopic adjusting rod (802), scale mark (803) and reinforcement base (804), pressure sensors (801) are installed to the top of reinforcing base (804), the top of pressure sensors (801) is connected with telescopic adjusting rod (802), the surface of telescopic adjusting rod (802) is equipped with scale mark (803), the surface mounting of dustcoat (4) has siren (9), and siren (9) and pressure sensors (801) electric connection, siren (9) are located the top of socket structure (7), detect the inside gomphosis in top centre of a circle position department of drum (2) and install infrared distance meter (10), infrared distance meter (10) and siren (9) electric connection.

3. The radially anisotropic magnetic ring assembly of claim 1, wherein: the inside of installation sideboard (3) is equipped with logical groove (304) that runs through, the inside sliding connection who leads to groove (304) has a lasso (301) and No. two lassos (303), and No. two lassos (303) are located the top of a lasso (301), the top of a lasso (301) is connected with telescopic link (302), and the top of telescopic link (302) is connected with the bottom of No. two lassos (303), the inside of telescopic link (302) is equipped with the jack that the equidistance was arranged.

4. The radially anisotropic magnetic ring assembly of claim 1, wherein: pole setting (503) and two sets of symmetrical arrangement's threaded rod (502) are installed to the interior diapire of magnetism charging plate (5), and two sets of threaded rod (502) are located the centre of pole setting (503), the surface winding of pole setting (503) is connected with spring coil (501), the surface of threaded rod (502) is run through and is installed clamp plate (504), the surface threaded connection of threaded rod (502) has fastener (505), and the bottom of fastener (505) is laminated with the top of clamp plate (504).

5. The radially anisotropic magnetic ring assembly of claim 1, wherein: the inside of sleeve (1) is equipped with eight equidistant interlayers of keeping apart, the internally mounted of intermediate layer has inlay magnetic pole (102), it is the same with the magnetism that adsorbs magnetic pole (203) to inlay magnetic pole (102), and two sets of adjacent inlay magnetism between magnetic pole (102) opposite.

6. The radially anisotropic magnetic ring assembly of claim 1, wherein: the utility model discloses a warning device, including dustcoat (4), the inside of dustcoat (4) is equipped with hollow intermediate layer, the internally mounted of hollow intermediate layer has heat insulating board (401), the embedded electronic thermometer (402) of installing of inner wall of dustcoat (4), the surface mounting of dustcoat (4) has display screen (403), and display screen (403) are located one side of siren (9), electronic thermometer (402) and display screen (403) electric connection.

7. The radially anisotropic magnetic ring assembly of claim 1, wherein: support base (6) are installed to the bottom of dustcoat (4), the bottom of supporting base (6) is equipped with socket (601) that run through, movable support column (602) have been placed to the inner diapire of supporting base (6), the diameter of movable support column (602) is greater than the diameter of socket (601), and the top of movable support column (602) is connected with the bottom of sleeve (1).

8. The radially anisotropic magnetic ring assembly of claim 1, wherein: the sleeve structure (7) comprises an inner sleeve ring (701), a mosaic block (702) and an outer sleeve ring (703), the outer surface of the outer cover (4) is sleeved with the inner sleeve ring (701), the mosaic block (702) is arranged on the outer surface of the inner sleeve ring (701) in an equidistant mode, the outer surface of the inner sleeve ring (701) is connected with the outer sleeve ring (703) in a mosaic mode through the mosaic block (702), and the bottom of the outer sleeve ring (703) is connected with the top of the telescopic adjusting rod (802).

9. The radially anisotropic magnetic ring assembly of claim 1, wherein: the adsorption magnetic poles (203) are located right above the gravity sensor (202), and the installation number and the installation positions of the gravity sensor (202) and the adsorption magnetic poles (203) are in one-to-one correspondence with the prompting lamps (205).

10. A radially anisotropic magnetic ring assembly according to any of claims 1 to 9, wherein the assembly is operated as follows:

s1, before the magnetic ring combination operation is carried out by using the device, four groups of S pole magnetic poles and four groups of N pole magnetic poles with the same specification are prepared, and the four groups of S pole magnetic poles and the four groups of N pole magnetic poles are absorbed in a gap formed by the sleeve (1) and the installation baffle plate (3) at intervals according to the magnetic pole arrangement mode of the embedded magnetic pole (102) installed on the surface of the sleeve (1) to form a magnetic ring with opposite polarities;

s2, then, according to the specification and the size of the prepared S pole and N pole, adjusting the distance between a first ferrule (301) and a second ferrule (303) until the first ferrule (301) and the second ferrule (303) clamp and fix the magnetic pole absorbed in the gap between the sleeve (1) and the installation baffle plate (3) and then fix the distance between the first ferrule (301) and the second ferrule (303) through the jack on the surface of the telescopic rod (302) so as to determine the adjustable fixation of the magnetic pole;

s3, after the magnetic poles are combined and fixed, the outer cover (4) can be sleeved on the surface of the combined sleeve (1), the effective extension height of the telescopic adjusting rod (802) is adjusted according to the scale mark (803) according to the installation requirement, and then the outer cover (4) and the inner lantern ring (701) on the surface are embedded into the outer lantern ring (703), so that the integral installation of the device is realized;

s4, in the process of utilizing the magnetic ring to carry out magnetic support, the pressure of the magnetic support can be detected through the pressure inductor (801), so that when the device bears the pressure outside the range of the magnetic support capacity, the pressure inductor (801) can send a signal to the alarm (9) in time, and a worker is reminded of adjusting the magnetic support capacity of the device in time;

s5, when the magnetic poles in the device need to be magnetized, the telescopic adjusting rod (802) is extended upwards, so that the device is lifted, then the supporting base (6) is grasped to separate the outer cover (4) and the inner lantern ring (701) from the inner part of the outer lantern ring (703), then the movable supporting column (602) can be jacked up through the socket (601), further the sleeve (1) can be exposed out of the inner part of the outer cover (4), and then the sleeve (1) is taken down;

s6, overlapping spring coils (501) with phase turns on the surface of an upright rod (503) according to the magnetic force required to be magnetized, penetrating a pressure plate (504) through the interior of a threaded rod (502) by utilizing the compressibility of the spring coils (501), rotating a fastener (505) to fix the pressure plate (504) at a fixed position on the surface of the threaded rod (502), extruding the spring coils (501) with multiple turns to be stably placed in an internal cavity of a magnetizing plate (5), and then switching on external current, wherein a magnetic field generated by the spring coils (501) when being electrified can carry out corresponding magnetization treatment on magnetic poles attached to the surface of a sleeve (1), so that the corresponding magnetizing purpose is realized;

s7, in the using process of the device, if the magnetic pole adsorbed on the surface of the sleeve (1) generates a demagnetization phenomenon, the magnetic attraction effect of the magnetic pole on the adsorption magnetic pole (203) is weakened, and then the adsorption magnetic pole (203) can fall to the surface of the gravity sensor (202), at the moment, the gravity sensor (202) senses the gravity effect of the adsorption magnetic pole (203) and sends a signal to the prompting lamp (205) to start the gravity sensor, the light penetrating through the gravity sensor can remind a worker that the magnetic pole in the corresponding direction generates the demagnetization phenomenon, and timely magnetizing treatment is needed, so that the magnetic pole adsorbed on the surface of the sleeve (1) can stably provide the magnetic effect;

s8, when the device is magnetically supported on a supporting plane, the distance between the device and a supporting object can be detected through the infrared distance meter (10), when the difference exists between the distance between the device and the supporting object and the distance between the other group of devices, the group of devices and the other group of devices are in unequal planes, at the moment, the telescopic adjusting rod (802) can be adjusted according to needs until the distances detected by the two groups of devices are equal, and the devices are subjected to uniform and equal pressure, so that the horizontal state of the supporting object can be ensured.

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