CN2773996Y - Movable magnetic-suspension device - Google Patents

Abstract

The utility model relates to a movable magnetic suspension move device, which comprises a rack box body and a floating body which is positioned under the rack box body and comprises a permanent magnet, wherein the permanent magnet is positioned on the barycenter line of the floating body, and the inner of the rack box body comprises an electric magnet which reacts with the permanent magnet for balancing the fall gravity of the floating body, a displacement sensor used for measuring the position of the floating body and a magnetic suspension control circuit. A rotary generating device is additionally arranged on the move device for making the floating body rotate. The floating body can rotate by self when the rotary generating device is matched with a rotary magnet in the floating body. When the floating body of the utility model rotates by self, the floating body of the utility model can move horizontally and rotate in a circle shape simultaneously, etc. The utility model can be exploited into a celestial body model, a mobile globe, a figure exhibiting product, etc. The utility model combines the functions of liberal education, art and recreation. The utility model has intense visual effect and enlarged use ranges.

Description

Mobile magnetic levitation system

(1) technical field

The utility model relates to a kind of magnetic levitation system.

(2) background technology

Many products such as realia, handicraft, souvenir, model are made magnetic levitation system, and visual effect is good.The various patents and the product of relevant in the past magnetic levitation system, its buoyancy aid can magnetic suspension or can be rotated automatically in the maglev while, but buoyancy aid is not removable.

The patent No. provides a kind of magnetic suspension tellurion for 92215714.6 Chinese patent, but this its buoyancy aid of magnetic suspension tellurion can not rotation, and buoyancy aid can not be done mobile.The patent No. provides a kind of magnetic levitation system for 00115354.4 Chinese patent, and the buoyancy aid of this magnetic levitation system can rotate, but buoyancy aid still can not move.Because buoyancy aid can not move, visual effect is limited to, and range of application also is restricted.

(3) summary of the invention

In order to overcome the irremovable deficiency of buoyancy aid in the prior art, the utility model provides a kind of buoyancy aid can realize the magnetic levitation system that moves.

The technical scheme that its technical problem that solves the utility model adopts is: the mobile magnetic levitation mobile device, comprise the frame casing, be positioned at frame casing below and comprise the buoyancy aid of permanent magnet, described permanent magnet is positioned on the center of gravity line of described buoyancy aid, described casing contains with described permanent magnet and interacts with the electromagnet of balance buoyancy aid whereabouts gravity, be used to measure the displacement transducer of position of floating body, the magnetic suspension control circuit, the input of described magnetic suspension control circuit connects displacement transducer, the output of described magnetic suspension control circuit connects the coil of electromagnet, and described interior electromagnet and the displacement transducer of casing is arranged on the mobile device.

Further, the rotation generating means that makes described buoyancy aid rotation also is housed on the described mobile device, in the described buoyancy aid rotary magnet is housed, described rotation generating means is by the deflecting force generator, deflection circuit, rotation sensor constitutes, described deflecting force generator and rotation sensor are arranged on the described mobile device, described deflecting force generator and rotation sensor are all within the induction range of the rotary magnet in buoyancy aid, the input of described deflection circuit connects described rotation sensor, and the output of described deflection circuit connects described deflecting force generator.

Further, described mobile device by rotating disk, motor, decelerator, mechanical transmission mechanism, form, described motor is connected with described decelerator, the output shaft of described decelerator is connected with described mechanical transmission mechanism, described mechanical transmission mechanism is connected with described rotating disk, described rotating disk is installed on the frame casing, and described electromagnet, displacement transducer and rotation generating means are installed on the rotating disk;

Perhaps: described mobile device is a car mould, and the electric wheel of described car mould matches with track on being arranged at the frame casing, and described electromagnet, displacement transducer and rotation generating means are installed on the car mould;

Perhaps: described mobile device is the carrier that is installed on the manipulator, and described manipulator is installed on the frame casing, and described electromagnet, displacement transducer and rotation generating means are installed on the carrier.

Further, described rotary magnet is the permanent magnet that is installed in the permanent magnet side in the described buoyancy aid; Perhaps: described rotary magnet is the magnetic conductor that is connected the permanent magnet side in the described buoyancy aid.

Further, comprise a plurality of electromagnets in described the casing, it is hard-wired wherein having an electromagnet at least, and each electromagnet cooperates with separately buoyancy aid.

Further, described electromagnet has two, and one is fixedly mounted on the frame casing, and this electromagnet is arranged on the center of rotating disk; Another is installed on the rotating disk; Described buoyancy aid is a spheroid.

Because electromagnet, displacement transducer and rotation generating means all are arranged on the mobile device, so when mobile device was moved, buoyancy aid can move with mobile device in rotation.Therefore, the technical solution of the utility model can be used to make motion of celestial body system model, rotary suspension toy etc., has expanded the expressive force and the application of magnetic suspension toy greatly.

The beneficial effect of mobile magnetic levitation system described in the utility model mainly shows: realized moving of buoyancy aid, strengthened visual effect, also enlarged the range of application of product simultaneously.

(4) description of drawings

Fig. 1 is the structural representation of the present utility model that has rotating disk.

Fig. 2 is the structural representation of the present utility model that has guide rail and car mould.

Fig. 3 is the concrete application schematic diagram of the utility model as model of celestial bodies.

(5) embodiment

Below in conjunction with drawings and the specific embodiments the utility model is further described.

Embodiment one

With reference to Fig. 1, mobile magnetic levitation system comprises frame casing 1, and a buoyancy aid 2 is arranged below the frame casing, and permanent magnet 3 is installed on the center of gravity line of buoyancy aid 2, and this buoyancy aid 2 can be model of celestial bodies, aircraft and various handicraft.

The mobile device of being made up of rotating disk 4, motor 5, mechanical transmission mechanism is installed on frame casing 1, and motor 5 is connected with described mechanical transmission mechanism, and described mechanical transmission mechanism is connected with described rotating disk 4.On described rotating disk 4, be equipped with buoyancy aid 2 in the corresponding electromagnet 6 in permanent magnet 3 positions, and the displacement transducer 7 and the magnetic suspension control circuit that are used to measure buoyancy aid 2 positions, described displacement transducer 7 can be selected transducers commonly used such as linear hall element, magneto sensor for use, displacement transducer 7 should be corresponding with the position of permanent magnet 3 in the buoyancy aid 2, and the iron core lower surface that displacement transducer 7 is installed in electromagnet 6 is a more satisfactory method.The input of magnetic suspension control circuit connects displacement transducer 7, and output connects the coil of electromagnet 6.

The utility model is that realization is maglev like this: energized, electronic circuit is started working, when buoyancy aid 2 usefulness hands were incorporated into the below of electromagnet 6, the permanent magnet 3 in electromagnet 6 and the buoyancy aid 2 attracted each other the enough gravitational equilibriums that upwards lifts strength and buoyancy aid 2 of generation and makes buoyancy aid 2 unsettled.Displacement transducer 7 is surveyed the buoyancy aid 2 change in location situation when unsettled, provide the corresponding dynamic signal, this signal amplifies through the magnetic suspension control circuit, the electric current of the coil of electromagnet 6 is supplied with in control and adjustment, thereby adjust the magnetic force of 6 pairs of buoyancy aids 2 of electromagnet, make buoyancy aid 2 can be in the equilbrium position, be in a kind of dynamic equilibrium: when buoyancy aid 2 falls, displacement transducer 7 just sends a displacement signal and is transferred to the magnetic suspension control circuit, strengthen the electromagnetic attraction of electromagnet 6 apace, make buoyancy aid 2 be subjected to bigger on draw suction, prevent buoyancy aid 2 to fall, when stopping but buoyancy aid 2 is subjected to upper pulling force, because relationship with acceleration, can exceedingly rise, cause that buoyancy aid 2 is continued to suct by upper pulling force, at this moment displacement transducer 7 receives the signal that buoyancy aid 2 excessively rises, be transferred to the magnetic suspension control circuit, to reduce the electromagnetic attraction of electromagnet 6 sharp, force buoyancy aid 2 to descend immediately, have after the decline and continue to rise, high and low so apace, and heave amplitude is tending towards utmost point low value, dynamically keeps buoyancy aid 2 to suspend, and reaches visual stable floating sky.

Motor 5 drives mechanical transmission mechanism, is rotated by mechanical transmission mechanism control rotating disk 4.Because electromagnet 6 and displacement transducer 7 are arranged on the rotating disk 4, when rotating disk 4 rotated, electromagnet 6 and displacement transducer 7 be along with rotating disk 4 rotates together, is subjected to the buoyancy aid 2 of the electromagnetic attraction attraction of electromagnet 6 also to follow rotating disk 4 and rotates together.The needed general supply of circuit board can be fed in the rotating disk by the electrode that is connected with the movable contact of rotating disk in the frame casing by extraneous power supply.

Embodiment two

With reference to Fig. 2, the electric wheel that a guide rail 8, one car moulds 9 are installed on frame casing 1 matches with guide rail 8, and electromagnet 6, displacement transducer 7 are installed in the described car mould 9.Because electromagnet 6 and displacement transducer 7 are arranged in the car mould 9, during 9 motions of car mould, electromagnet 6 and displacement transducer 7 are along with car mould 9 moves together, be subjected to buoyancy aid 2 that the electromagnetic attraction of electromagnet 6 attracts also Following Car mould 9 rotate together, thereby produce one and guide rail 8 corresponding running orbits, as shown in phantom in Figure 2.All the other execution modes are identical with embodiment one.

Embodiment three

One manipulator is installed on the frame casing, carrier is installed on the manipulator, electromagnet, displacement transducer are installed in the described carrier.Because electromagnet and displacement transducer are arranged in the carrier, when manipulator drives carrier movement, electromagnet and displacement transducer are along with carrier moves together, the buoyancy aid that attracted by the electromagnetic attraction of electromagnet is also followed carrier and is rotated together, thereby produces a corresponding running orbit of movement locus with the manipulator of setting.All the other execution modes are identical with embodiment one.

Embodiment four

With reference to Fig. 1, the rotation generating means that makes described buoyancy aid 2 rotations also is housed on rotating disk 4, the rotating permanent magnet 10 that is positioned at buoyancy aid permanent magnet 3 sides is housed in the described buoyancy aid 2, certainly this rotating permanent magnet 10 also can replace with other objects with magnetic, as being connected the magnetic conductor of permanent magnet 3 sides in the buoyancy aid, the form of magnetic conductor can be magnetic conduction objects such as iron plate.The rotation generating means is made of deflecting force generator 11, deflection circuit, rotation sensor 12, and described rotation sensor 12 can be Hall element, tongue tube, magneto sensor etc., and described deflecting force generator 11 is an electromagnet.Deflecting force generator 11 and rotation sensor 12 are arranged on the described rotating disk 4, and deflecting force generator 11 and rotation sensor 12 are all within the induction range of the rotating permanent magnet in buoyancy aid 10.The input of described deflection circuit connects rotation sensor 12, the deflecting force generator 11 that the output of deflection circuit connects.

When buoyancy aid 2 rotates the rotating permanent magnet that makes in the buoyancy aid 10 near rotation sensor 12, rotation sensor 12 is subjected to the action of a magnetic field of rotating permanent magnet 10, promptly send a synchronizing signal and lead to magnetic field force that acts on the rotating permanent magnet 10 in the buoyancy aid of deflecting force generator 11 generations, make buoyancy aid 2 rotations for pulsedly 2 one deflecting forces of buoyancy aid through deflection circuit formation lock-out pulse electric current.

If will reach bigger rotary speed, can increase the quantity that rotating permanent magnet 10 distributes, buoyancy aid 2 whenever rotates a circle like this, and deflecting force generator 11 can be given more than 2 additional revolving force of buoyancy aid.

All the other execution modes are identical with embodiment one.

Embodiment five

With reference to Fig. 2, one guide rail 8 is installed on frame casing 1, the electric wheel of one car mould 9 matches with guide rail 8, the rotation generating means that the deflecting force generator 11, deflection circuit, the rotation sensor 12 that make the rotation of described buoyancy aid constitute also is housed in car mould 9 to be installed on the car mould 9, the rotating permanent magnet 10 that is positioned at buoyancy aid permanent magnet 3 sides is housed in the described buoyancy aid 2, certainly this rotating permanent magnet 10 also can replace with other objects with magnetic, as being connected the magnetic conductor of permanent magnet 3 sides in the buoyancy aid, the form of magnetic conductor can be magnetic conduction objects such as iron plate.All the other execution modes are identical with embodiment four.

Embodiment six

One manipulator is installed on the frame casing, carrier is installed on the manipulator, the rotation generating means that is made of deflecting force generator, deflection circuit, rotation sensor that makes the rotation of described buoyancy aid also is housed in the described carrier, the rotating permanent magnet that is positioned at buoyancy aid permanent magnet side is housed in the described buoyancy aid, certainly this rotating permanent magnet also can replace with other objects with magnetic, as being connected the magnetic conductor of the permanent magnet side in the buoyancy aid, the form of magnetic conductor can be magnetic conduction objects such as iron plate.All the other execution modes are identical with embodiment four.

Embodiment seven

With reference to Fig. 3, electromagnet 6 has two, and one is fixedly mounted on the frame casing 1, and another is installed on the rotating disk 4.Each electromagnet 6 cooperates with separately buoyancy aid 2, and described buoyancy aid 2 is spheroids.All the other execution modes are identical with embodiment four.2 of buoyancy aids that cooperate with hard-wired electromagnet 6 are done rotation, the buoyancy aid 2 that cooperates with electromagnet 6 on being installed in rotating disk 4 in rotation again under the effect of rotating disk 4 around buoyancy aid 2 revolution that cooperate with hard-wired electromagnet 6, Here it is, and a moon centers on the model of celestial bodies that the revolution of the earth adds rotation.

Embodiment eight

At the middle part of frame casing an electromagnet is installed, displacement transducer is arranged on the lower surface of the iron core of this electromagnet, at this electromagnet side the rotation generating means is housed, and this rotation generating means is made up of deflecting force generator, deflection circuit, rotation sensor.Have spherical buoyancy aid below this electromagnet, on the center of gravity line of buoyancy aid permanent magnet is installed, the permanent magnet side has a rotating permanent magnet in buoyancy aid.The quantity of quantity that rotary permanent-magnet is carried and rotation generating means can be adjusted as required: if want buoyancy aid to reach bigger rotary speed, can increase the quantity that rotating permanent magnet and rotation generating means distribute.

Rotating disk is provided with another electromagnet, the lower surface of the iron core of this electromagnet is equipped with another displacement transducer, this electromagnet side is installed the another set of rotation generating means that is made of deflecting force generator, deflection circuit, rotation sensor, and the below of this electromagnet has another spherical buoyancy aid.

What present embodiment was described is a such model of celestial bodies: the moon of magnetic suspension and rotation is around the revolution of the earth of rotation.

Claims (10)

1. mobile magnetic levitation system, comprise the frame casing, be positioned at frame casing below and comprise the buoyancy aid of permanent magnet, described permanent magnet is positioned on the center of gravity line of described buoyancy aid, described casing contains with described permanent magnet and interacts with the electromagnet of balance buoyancy aid whereabouts gravity, be used to measure the displacement transducer of position of floating body, the magnetic suspension control circuit, the input of described magnetic suspension control circuit connects displacement transducer, the output of described magnetic suspension control circuit connects the coil of electromagnet, it is characterized in that: described interior electromagnet and the displacement transducer of casing is arranged on the mobile device.

2. mobile magnetic levitation system as claimed in claim 1, it is characterized in that: the rotation generating means that makes described buoyancy aid rotation also is housed on the described mobile device, in the described buoyancy aid rotary magnet is housed, described rotation generating means is by the deflecting force generator, deflection circuit, rotation sensor constitutes, described deflecting force generator and rotation sensor are arranged on the described mobile device, described deflecting force generator and rotation sensor are all within the induction range of the rotary magnet in buoyancy aid, the input of described deflection circuit connects described rotation sensor, and the output of described deflection circuit connects described deflecting force generator.

3. mobile magnetic levitation system as claimed in claim 1 or 2, it is characterized in that: described mobile device is made up of rotating disk, motor, mechanical transmission mechanism, described motor is connected with described mechanical transmission mechanism, described mechanical transmission mechanism is connected with described rotating disk, described rotating disk is installed on the frame casing, and described electromagnet, displacement transducer and rotation generating means are installed on the rotating disk.

4. mobile magnetic levitation system as claimed in claim 1 or 2, it is characterized in that: described mobile device is a car mould, the electric wheel of described car mould matches with track on being arranged at the frame casing, and described electromagnet, displacement transducer and rotation generating means are installed on the car mould.

5. mobile magnetic levitation system as claimed in claim 1 or 2, it is characterized in that: described mobile device is the carrier that is installed on the manipulator, described manipulator is installed on the frame casing, and described electromagnet, displacement transducer and rotation generating means are installed on the carrier.

6. mobile magnetic levitation system as claimed in claim 3 is characterized in that: described rotary magnet is the permanent magnet that is installed in the permanent magnet side in the described buoyancy aid.

7. mobile magnetic levitation mobile device as claimed in claim 3 is characterized in that: described rotary magnet is the magnetic conductor that is connected the permanent magnet side in the described buoyancy aid.

8. as claim 6 or 7 described mobile magnetic levitation systems, it is characterized in that: comprise a plurality of electromagnets in described the casing, it is hard-wired wherein having an electromagnet at least, and at least one electromagnet is arranged on the mobile device, and each electromagnet cooperates with separately buoyancy aid.

9. mobile magnetic levitation system as claimed in claim 8 is characterized in that: described electromagnet has two, and one is fixedly mounted on the frame casing, and this electromagnet is arranged on the pivot of rotating disk; Another is installed on the rotating disk; Described buoyancy aid is a spheroid.

10. mobile magnetic levitation system as claimed in claim 3, it is characterized in that: electromagnet is fixedly mounted on the middle part of frame casing and is positioned at the pivot of rotating disk, described displacement transducer places the lower surface of the iron core of electromagnet, this electromagnet side is installed the rotation generating means that is made of deflecting force generator, deflection circuit, rotation sensor, and the below of described electromagnet has spherical buoyancy aid; Described rotating disk is provided with another electromagnet, the lower surface of the iron core of this electromagnet is equipped with another displacement transducer, this electromagnet side is installed the another set of rotation generating means that is made of deflecting force generator, deflection circuit, rotation sensor, and the below of this electromagnet has another spherical buoyancy aid.

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