CN201440073U - Rotational magnetic suspension device - Google Patents
Rotational magnetic suspension device Download PDFInfo
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- CN201440073U CN201440073U CN2009201316326U CN200920131632U CN201440073U CN 201440073 U CN201440073 U CN 201440073U CN 2009201316326 U CN2009201316326 U CN 2009201316326U CN 200920131632 U CN200920131632 U CN 200920131632U CN 201440073 U CN201440073 U CN 201440073U
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Abstract
The utility model relates to a rotational magnetic suspension device which aims at the disadvantages that the gyroscope is easy to drift to cause poor stability and the self-rotation speed of the gyroscope is not rapid in the existing rotational magnetic suspension device; the rotational magnetic suspension device provided by the utility model comprises a magnetic bottom plate with two magnetic poles which are toward to top and bottom respectively and a magnetic gyroscope with two magnetic poles which are arranged on an axis line, a magnetic device with magnetic poles which are toward to top and bottom respectively is arranged above the magnetic bottom plate, a space for containing the gyroscope is formed above the magnetic bottom plate, and the adjacent magnetic poles of the magnetic device and the magnetic bottom plate have the same polarity, and the direction of the pole polarity of the magnetic device and the gyroscope is the same. The rotational magnetic suspension device has low requirements to the magnetic field strength and the weight precision of the gyroscope, has strong resistance capacity to external disturbance and good stability, and greatly prolongs the suspension time of the gyroscope.
Description
Technical field
The utility model relates to magnetic levitation technology, more particularly, relates to a kind of rotary magnetic suspension device.
Background technology
The polarity of magnet has the same sex repels each other the characteristic that there is a natural attraction between the sexes.Utilize this specific character of magnet, can make between two magnets to have interaction, but not directly contact, the widespread use of this specific character is exactly magnetic levitation.Shown in Figure 1 is a kind of rotary magnetic suspension device that utilizes magnetic levitation technology, can be used as gyroscope.This device comprises that one is weak magnetic or the magnetic base plate 1 that does not have magnetic, supporting plate 2, magnetic gyro 3 in geometric center, the pole polarity that magnetic base plate 1 and magnetic gyro 3 are relative is identical, utilize the principle of the identical mutual repulsion of magnet polarity, magnetic base plate 1 can hold up the magnetic gyro 3 of rotation, treat supporting plate to be taken away after gyro 3 is stablized, gyro 3 is not contacted with supporting plate, reduce gyro 3, make its rotational time more permanent because of the off-energy that rubbed.This rotary magnetic suspension device is to rely on magnetic repulsion and gyro is floated next from gyro spin twisting resistance (steady axle property).Float gyro to come, gyro must be in stability, therefore needs gyro to be in the center of a symmetric magnetic field, and follows the trail of the magnetic line of force that base plate makes progress by Gyroscope Precession and make the stable suspersion of gyro own.If in a single day gyro departs from the center in magnetic field, gyro then is subjected to the asymmetric effect in magnetic field, can drift about to magnetic base plate edge rapidly, thus loss of stability.Because having only the very little regional extent in disc magnetic base plate center is the stabilized zone, therefore this kind rotary magnetic suspension device has following shortcoming: maglev balance and stability zone is very narrow, magnetic field intensity and gyro weight accuracy requirement height, the gyro rotating speed is restricted, can not be too fast, that the operative technique that realizes gyroscope magnetic suspension requires is high, be not easy to grasp, and outside disturbance meeting a little makes the gyro balance and stability district of escaping out, thereby makes the easy loss of stability of gyro.
The utility model content
The technical problems to be solved in the utility model is, drift about easily and cause the shortcoming of poor stability at the gyro in the existing rotary magnetic suspension device, provide a kind of spinning top the oneself to adjust, to prevent the drift escape, to realize gyroscope magnetic suspension easy grasp simple to operate, low, the good stability of accuracy requirement, the rotary magnetic suspension device that suspension time is long.
The technical scheme that its technical matters that solves the utility model adopts is: construct a kind of rotary magnetic suspension device, comprise two magnetic poles respectively up and down towards magnetic base plate, the magnetic gyro of two magnetic poles on its rotational axis line, above the magnetic base plate, be provided with magnetic pole respectively up and down towards magnetic devices, described magnetic devices surrounds a space that holds gyro above the magnetic base plate, the pole polarity that described magnetic devices is adjacent with the magnetic base plate is identical, and the pole polarity of described magnetic devices and gyro is towards identical.Rotary magnetic suspension device with this kind structure, the rotation of gyro can make it have steady axle property, and magnetic base plate magnetic field can overcome the gravity of gyro to the repulsive interaction of gyro, makes gyro be in suspended state; Because it is big more the closer to the magnetic field intensity of magnetic devices position, therefore when gyro in magnetic devices when any side is drifted about, gyro and magnetic devices are strengthened in the repulsive interaction of this side, the repulsion force of a relative side then can weaken, make magnetic devices that gyro is produced one and gyroscopic drift direction opposite effect power like this, stop gyro to continue outwards drift escape.Because gyro can not escaped, therefore maglev balance and stability zone is broad in the utility model, magnetic field intensity and the accuracy requirement of gyro weight are low, the gyro rotating speed is restricted little, realize that gyro rotates maglev easy grasp simple to operate, the ability of opposing external disturbance is strong, advantages such as good stability.
In rotary magnetic suspension device described in the utility model, described magnetic base plate is rotational symmetric magnet, and rotational symmetric magnet can produce the magnetic field of a symmetry above it, is convenient to the stable of gyro.
In rotary magnetic suspension device described in the utility model, described magnetic devices is around the rotational symmetric magnetic devices in magnetic base plate center, its magnetic field of magnetic devices that rotation symmetry and center overlap with the center of magnetic base plate and magnetic field superposition after still be symmetrical magnetic field, help gyrocontrol is rotated at the center, reduce the drift of gyro in magnetic devices.
In rotary magnetic suspension device described in the utility model, described magnetic devices comprises some magnetic posts of circumferentially arranging around the magnetic base plate center line, and the pole polarity of described magnetic post is towards identical.
In rotary magnetic suspension device described in the utility model, described each magnetic post is identical magnet.
In rotary magnetic suspension device described in the utility model, described magnetic post constitutes by several same permanent magnet is stacked, two adjacent permanent magnets to face pole polarity mutually different.Adopt this structure, can increase and decrease the length of magnetic post, thereby can realize adjusting the range of stability of gyro by the number that increases and decreases stacked permanent magnet.
In rotary magnetic suspension device described in the utility model, described magnetic post is an electromagnet.
In rotary magnetic suspension device described in the utility model, described magnetic devices is the annular permanent-magnet body.
In rotary magnetic suspension device described in the utility model, described annular permanent-magnet body is formed by stacking by several beads, two adjacent beads to face pole polarity mutually different.
In rotary magnetic suspension device described in the utility model, described magnetic base plate is an electromagnet.
In rotary magnetic suspension device described in the utility model, described magnetic base plate is to be the permanent magnet of uniform magnetization.
In rotary magnetic suspension device described in the utility model, be provided with the nonferromagnetic electrical insulator supporting plate of level between described magnetic devices and the magnetic base plate.The effect of supporting plate is to hold gyro before gyro reaches magnetic levitation, gyro can be rotated on supporting plate and locate, the supporting plate of nonferromagnetic can be by magnetic field magnetisation, avoid gyro is caused harmful effect, and the electrical insulator material can avoid gyro to produce electromagnetic induction in rotating process causing the gyro energy loss, and supporting plate can be glass plate, plastic plate or wood-block etc.Supporting plate can be fixedly installed on the magnetic devices.
In rotary magnetic suspension device described in the utility model, be provided with the regulating device of regulating distance between magnetic base plate and the supporting plate between described magnetic base plate and the supporting plate.The effect of regulating device is to regulate the distance that shortens between supporting plate and the magnetic base plate, thereby makes gyro and the reinforcement of the repulsive interaction between magnetic base plate picking-up gyro on the supporting plate make it be in magnetic suspension state.
State in realization in the gyroscope magnetic suspension method of rotary magnetic suspension device, this method step is: rotate be positioned among the magnetic devices, the magnetic gyro on the supporting plate, shorten distance between magnetic base plate and the supporting plate by regulating device, make acting force between gyro and the magnetic base plate equal the gravity of gyro.
For this gyroscope magnetic suspension method, before rotary gyro, make supporting plate be positioned at the magnetic base plate to the acting force of gyro position less than gyro gravity by regulating device, can make things convenient for gyro on supporting plate, to rotate like this and stable position.
For this gyroscope magnetic suspension method, shorten between magnetic base plate and the supporting plate in the distance or before, also regulate the magnetic field intensity in the magnetic devices institute region.
For this gyroscope magnetic suspension method, the magnetic field intensity of regulating in the magnetic devices institute region comprises the length that increases or shorten on the magnetic devices vertical direction, and the magnetic field intensity of perhaps regulating in the magnetic devices institute region comprises the size that radially increases or dwindle magnetic devices.If the magnetic field in the magnetic devices enclosed space too a little less than, then shorten supporting plate and magnetic base plate apart from the time, under the repulsion effect of magnetic base plate, may the drift about outside of magnetic devices institute region of gyro.At this time will shorten between magnetic base plate and the supporting plate in the distance or before the size that suitably increases the length on the magnetic devices vertical direction or radially dwindle magnetic devices.If the magnetic field in the magnetic devices space is too strong, when gyro was risen, gyro meeting high jump was to the sky more higher than magnetic devices shortening supporting plate and magnetic base plate distance, and falling down is then held by the magnetic force of magnetic devices.At this time will shorten between magnetic base plate and the supporting plate in the distance or before the size that suitably shortens the length on the magnetic devices vertical direction or radially amplify magnetic devices.
Implement rotary magnetic suspension device of the present utility model, have following beneficial effect: maglev balance and stability zone is broad, and magnetic field intensity and the accuracy requirement of gyro weight are low, the gyro rotating speed is restricted little, the ability of opposing external disturbance is strong, good stability, suspension time advantage such as extend greatly; Gyroscope magnetic suspension method in the utility model has simple to operate, easily realizes and the advantage of grasping.
Description of drawings
The utility model is described in further detail below in conjunction with drawings and Examples, in the accompanying drawing:
Fig. 1 is existing rotary magnetic suspension device structural representation;
Fig. 2 is the structural representation of the utility model rotary magnetic suspension device first embodiment;
Fig. 3 is the gyro synoptic diagram during magnetic levitation not as yet among the utility model rotary magnetic suspension device first embodiment;
Fig. 4 is the synoptic diagram when gyro is in magnetic suspension state among the utility model rotary magnetic suspension device first embodiment;
Fig. 5 is first kind of structural representation of the utility model rotary magnetic suspension device second embodiment;
Fig. 6 is second kind of structural representation of the utility model rotary magnetic suspension device second embodiment.
Embodiment
Fig. 2 to Fig. 4 shows an embodiment of the present utility model.
As shown in Figure 2, rotary magnetic suspension device in the present embodiment comprises magnetic base plate 11, magnetic gyro 16, magnetic devices, supporting plate 13, regulating device 12; Magnetic base plate 11 is discoid permanent magnets of the uniform magnetization of horizontal positioned, its N utmost point down, the S utmost point is up; Magnetic devices be positioned at magnetic base plate 11 directly over, constitute by four magnetic posts 14; Supporting plate 13 is to make with the electrical insulator material of nonferromagnetic, between horizontal positioned magnetic post 14 and the magnetic base plate 11, magnetic post 14 constitutes by several same little permanent magnet 15 is stacked, two adjacent small magnets to face pole polarity mutually different, the magnetic post is fixedly installed on the supporting plate 13 and vertical with supporting plate 13 around magnetic base plate 11 centers rotations symmetry, the N utmost point of magnetic post 14 up, the S utmost point is down.Magnetic gyro 16 is positioned at the zone that four magnetic posts 14 are surrounded, and is positioned on the supporting plate 13.The two poles of the earth of magnetic gyro 16 are on its rotation, and the N utmost point up, and the S utmost point down.Be connected by regulating device 12 between magnetic base plate 11 and the supporting plate 13, regulating device 12 can be the mechanism of worm screw and so on, realizes regulating distance between supporting plate 13 and the magnetic base plate 11 by lifting supporting plate 13 or magnetic base plate 11.
As shown in Figure 3, the connected mode of magnetic post 14 and supporting plate 13 can be that mounting groove position 131 is set on supporting plate 13, this mounting groove position 131 is to be that central point is provided with radially with magnetic base plate 11 centers, the bottom surface diameter of the width of each mounting groove position 131 and magnetic post 14 is suitable, thereby magnetic post 14 can be connected on the supporting plate 13, realize being connected of magnetic post 14 and supporting plate 13.After magnetic post 14 snapped in mounting groove position on the supporting plate 13, magnetic post 14 can be in the mounting groove position 131 slides, and realized regulating magnetic field intensity in the magnetic devices institute region thereby realize regulating magnetic devices size radially.In addition, the connected mode of magnetic post 14 and supporting plate 13 can also be at supporting plate 13 downside settings small magnet or the ferromagnetism thing piece corresponding with each magnetic post, and the magnetic post 14 that is positioned at supporting plate both sides about in the of 13 attracts each other with small magnet or ferromagnetism thing piece and realizes that magnetic post 14 is connected on the supporting plate 13.Because magnetic post 14 is to be spliced by a plurality of little permanent magnets 15, therefore can be by the quantity of the little permanent magnet 15 of control, the length of control magnetic post 14.Shown in Fig. 2 and 3, magnetic gyro 16 can be to have a rotating shaft and a rotating disk to constitute, this rotating shaft is passed rotating disk by the center of circle of rotating disk, thereby forms a centrosymmetric whirligig, wherein, the contact portion of rotating shaft and supporting plate 13, can be pyramidal structure, be beneficial to the rotation of magnetic gyro 16, but understandable, magnetic gyro 16 also can be constructed by other form and structure, as long as make its balance and steady axle rotation just can.
Rotary magnetic suspension device in the present embodiment realizes that the female suspension process of gyro is as follows: make between supporting plate 13 and the magnetic base plate 11 by regulating device 12 adjustings earlier to have enough distances, make acting force that magnetic field makes progress to gyro 16 gravity less than gyro 16, gyro 16 is positioned on the supporting plate 13.As shown in Figure 3; After the spinning top, the distance by regulating device 12 shortens between supporting plate 13 and the magnetic base plate 11 makes magnetic field increase gradually the acting force that gyro 16 makes progress, and finally equals the gravity of gyro 16.For shorten between magnetic base plate and the supporting plate apart from the time, the gyro zone that magnetic devices enclosed that can not drift about out, can shorten between magnetic base plate and the supporting plate in the distance or before, regulate the magnetic field intensity in the magnetic devices institute region.The magnetic field intensity of regulating in the magnetic devices institute region should be done corresponding the adjustment according to given gyro.If the magnetic field in the magnetic devices enclosed space too a little less than, then shorten supporting plate and magnetic base plate apart from the time, under the repulsion effect of magnetic base plate, may the drift about outside of magnetic devices institute region of gyro.At this time the magnetic field intensity in the magnetic devices institute region can be by suitably increasing length on the magnetic devices vertical direction promptly by increasing the number of the little permanent magnet that constitutes the magnetic post, also each magnetic post of constituting magnetic devices can be moved radially the radial dimension that dwindles magnetic devices to the center and realize strengthening magnetic field intensity in the magnetic devices institute region.If the magnetic field in the magnetic devices space is too strong, when gyro was risen, gyro meeting high jump was to the sky more higher than magnetic devices shortening supporting plate and magnetic base plate distance, and falling down is then held by the magnetic force of magnetic devices.At this time to weaken magnetic field intensity in the magnetic devices institute region by suitably shortening size that each magnetic post back of the body that length on the magnetic devices vertical direction promptly reduces the number of the little permanent magnet that constitutes the magnetic post or will constitute magnetic devices thinks that the center moves radially the amplification magnetic devices.
Because the gyro 16 of rotation has steady axle property, and it is not fallen; And in the vertical direction, magnetic field equates with gravity the acting force that gyro 16 makes progress, and reaches balance, so gyro 16 can break away from supporting plate 13 and realize rotary magnetic suspensions, as shown in Figure 4.In the magnetic field of magnetic post, the closer to the two poles of the earth of magnetic post 14, its magnetic field intensity is just big more.When gyro 16 the magnetic post surrounded the zone in when any lateral deviation is moved, the N utmost point of gyro and the S utmost point be the N utmost point and the S utmost point of close magnetic post respectively, magnetic post magnetic field is strengthened the repulsive interaction of gyro, produce one and gyroscopic drift direction opposite effect power, stop gyro outwards to drift about, thereby gyro is limited in the long-time stable rotation magnetic levitation of the interior realization in zone that the magnetic post is surrounded.Owing to have magnetic post 14 to prevent that gyro 16 from drifting about away, so magnetic field intensity can reduce also just simple and easy grasp of the operation of realization gyroscope magnetic suspension relatively with the accuracy requirement of gyro weight.
In the present embodiment, the number of gyro can be one, also can be a plurality of, when a plurality of gyro, can repel each other and is separated from each other owing to the same sex between the gyro, can not collide, separately rotary magnetic suspension.
In the present embodiment, magnetic base plate 11 can be an electromagnet; Magnetic post 14 can be whole permanent magnet, also can be electromagnet, and the radical of magnetic post 14 can be three or more simultaneously, is regular polygon or approximate regular polygon around magnetic base plate 11 centers and arranges.
In the present embodiment, the N utmost point of magnetic base plate 11, magnetic devices, gyro and the S utmost point be towards overturning simultaneously, both the N utmost point of magnetic base plate 11 up the S utmost point down, the S utmost point is up down for the N utmost point of gyro 16 and magnetic post 14.
Fig. 5, Fig. 6 show second embodiment of the present utility model.
In a kind of structure as shown in Figure 5, this rotary magnetic suspension device comprises magnetic base plate 11, magnetic gyro 16, magnetic devices 17, regulating device 12, supporting plate 13 equally; Magnetic base plate 11 is discoid permanent magnets of the uniform magnetization of horizontal positioned, its N utmost point down, the S utmost point is up; Magnetic gyro 16 is positioned at the formed zone of magnetic devices.The two poles of the earth of magnetic gyro 16 are on its rotation, and the N utmost point up, and the S utmost point down.Be connected by regulating device 12 between magnetic base plate 11 and the magnetic devices 17, regulating device 12 can be the mechanism of worm screw and so on, realizes regulating distance between supporting plate 13 and the magnetic base plate 11 by lifting magnetic devices 17 or magnetic base plate 11.As shown in Figure 5, this magnetic gyro 16 also is to have a rotating shaft and a rotating disk to constitute, this rotating shaft is passed rotating disk by the center of circle of rotating disk, thereby form a centrosymmetric whirligig, but it is understandable, magnetic gyro 16 also can be constructed by other form and structure, as long as make its balance and steady axle rotation just can.
Present embodiment is compared with first embodiment, and its difference is magnetic devices 17.In the present embodiment, what magnetic devices 17 comprised is the magnet of annular, as shown in Figure 5, the magnet of this annular can be the monoblock magnet, also can be that the bead of a plurality of annulars is formed by stacking, two adjacent beads to face pole polarity mutually different, therefore can be by the quantity of control bead, thereby the height of magnet of control annular, and the magnetic field intensity that is used for regulating space in the magnetic devices 17, make gyro shorten supporting plate and base plate apart from the time can stable suspersion.
In the another kind of structure as shown in Figure 6, this rotary magnetic suspension device comprises magnetic base plate 11, magnetic gyro 16, magnetic devices 18, regulating device 12, supporting plate 13 equally; Magnetic base plate 11 is discoid permanent magnets of the uniform magnetization of horizontal positioned, its N utmost point down, the S utmost point is up; Magnetic gyro 16 is positioned at the formed zone of magnetic devices.The two poles of the earth of magnetic gyro 16 are on its rotation, and the N utmost point up, and the S utmost point down.Be connected by regulating device 12 between magnetic base plate 11 and the magnetic devices 18, regulating device 12 can be the mechanism of worm screw and so on, realizes regulating distance between supporting plate 13 and the magnetic base plate 11 by lifting magnetic devices 18 or magnetic base plate 11.In like manner, as shown in Figure 6, this magnetic gyro 16 also is to have a rotating shaft and a rotating disk to constitute, this rotating shaft is passed rotating disk by the circle of rotating disk, thereby form a centrosymmetric whirligig, but understandable, magnetic gyro 16 also can be constructed by other form and structure, as long as make its balance and steady axle rotation just can.
The difference of enforcement structure shown in Figure 6 and enforcement structure shown in Figure 5 is, the magnet of magnetic devices shown in Figure 6 18 is out of shape, it for example can be foursquare magnet ring, or the magnet ring of rectangle, understandable, the magnet of this magnetic devices 18 also can be other regular polygon structure.
The utility model describes by several specific embodiments, it will be appreciated by those skilled in the art that, under the situation that does not break away from the utility model scope, can also carry out various conversion and be equal to alternative the utility model.In addition, at particular condition or concrete condition, can make various modifications to the utility model, and not break away from scope of the present utility model.Therefore, the utility model is not limited to disclosed specific embodiment, and should comprise the whole embodiments that fall in the utility model claim scope.
Claims (11)
1. rotary magnetic suspension device, comprise two magnetic poles respectively up and down towards magnetic base plate, the magnetic gyro of two magnetic poles on axial line, it is characterized in that, above the magnetic base plate, be provided with magnetic pole respectively up and down towards magnetic devices, described magnetic devices surrounds a space that holds gyro above the magnetic base plate, the pole polarity that described magnetic devices is adjacent with the magnetic base plate is identical, and the pole polarity of described magnetic devices and gyro is towards identical.
2. rotary magnetic suspension device according to claim 1 is characterized in that, described magnetic base plate is rotational symmetric magnet.
3. rotary magnetic suspension device according to claim 2 is characterized in that, described magnetic devices is around the rotational symmetric magnetic devices in magnetic base plate center.
4. rotary magnetic suspension device according to claim 3 is characterized in that, described magnetic devices comprises some magnetic posts of circumferentially arranging around the magnetic base plate center line, and the pole polarity of described magnetic post is towards identical.
5. rotary magnetic suspension device according to claim 4 is characterized in that, described magnetic post constitutes by several same permanent magnet is stacked, two adjacent permanent magnets to face pole polarity mutually different.
6. rotary magnetic suspension device according to claim 4 is characterized in that, described magnetic post is an electromagnet.
7. rotary magnetic suspension device according to claim 3 is characterized in that, described magnetic devices is the annular permanent-magnet body.
8. rotary magnetic suspension device according to claim 7 is characterized in that, described annular permanent-magnet body is formed by stacking by several annular beads.
9. according to each described rotary magnetic suspension device in the claim 1 to 8, it is characterized in that described magnetic base plate is the permanent magnet of electromagnet or uniform magnetization.
10. according to each described rotary magnetic suspension device in the claim 1 to 8, it is characterized in that, be provided with the nonferromagnetic electrical insulator supporting plate of level between described magnetic devices and the magnetic base plate.
11. rotary magnetic suspension device according to claim 10 is characterized in that, is provided with the regulating device of regulating distance between magnetic base plate and the supporting plate between described magnetic base plate and the supporting plate.
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CN2009201316326U CN201440073U (en) | 2009-05-07 | 2009-05-07 | Rotational magnetic suspension device |
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CN2009201316326U CN201440073U (en) | 2009-05-07 | 2009-05-07 | Rotational magnetic suspension device |
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CN2009201316326U Expired - Fee Related CN201440073U (en) | 2009-05-07 | 2009-05-07 | Rotational magnetic suspension device |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2010127572A1 (en) * | 2009-05-07 | 2010-11-11 | Hung Ching Nam | Rotating magnetic levitation device and method for magnetically levitating top |
CN110672082A (en) * | 2019-12-06 | 2020-01-10 | 中国人民解放军国防科技大学 | Concentrated mass vibrating gyroscope based on push-up magnetic suspension platform |
-
2009
- 2009-05-07 CN CN2009201316326U patent/CN201440073U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
WO2010127572A1 (en) * | 2009-05-07 | 2010-11-11 | Hung Ching Nam | Rotating magnetic levitation device and method for magnetically levitating top |
CN110672082A (en) * | 2019-12-06 | 2020-01-10 | 中国人民解放军国防科技大学 | Concentrated mass vibrating gyroscope based on push-up magnetic suspension platform |
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Granted publication date: 20100421 Termination date: 20140507 |