KR100629282B1 - Magnetic levitation toy within superconductor - Google Patents

Abstract

The present invention relates to a magnetically levitated toy using the magnetic force of the superconductor.

The magnetically levitated toy using the superconductor of the present invention is coupled to the magnet support 13 by the support fixture 12 on the rail support 11 forming a continuous asymmetric linear track, and opposite polarity on the magnet support 13. The exposed permanent magnets 15 are enclosed in a foam case 22 in a central portion inside the rail 10 in which the permanent magnets 15 are continuously arranged, and in the center of the vehicle body 21 circulated along a linear track from the upper portion of the rails 10. The superconductor 23 is fixed and mounted through the kit insertion opening 21a at the lower rear of the vehicle body 21 so that the cryogenic liquid nitrogen 24 is filled between the inner circumferential surface of the vehicle body 21 and the outer wall of the foam case 22. There is a technical feature in that the liquid nitrogen filling kit 25 is composed of a toy vehicle 20 is inserted.

The magnetically levitated toy using the superconductor of the present invention allows the toy vehicle to be circulated along the track only by the magnetic force of the superconductor and the permanent magnet transferred to the fully diamagnetic material without a separate power source, and also to satisfy the scientific curiosity of the user. In addition, since the toy vehicle is driven while being injured on the rail by magnetic force, there is no noise, and there is an advantage of increasing the collection value due to the improvement of the decorative effect.

Rail, rail support, support fixture, magnet support, compartment, permanent magnet, toy vehicle, vehicle body, foam case, superconductor, liquid nitrogen, liquid nitrogen charging kit, cover, clip

Description

Magnetic levitation toy using superconductor {Magnetic levitation toy within superconductor}             

1 is an overall perspective view of a magnetically levitated toy using the superconductor of the present invention.

Figure 2 is a perspective view of the toy vehicle assembly of the present invention the magnetically levitated toy.

Figure 3 is a toy vehicle cross-sectional view of the magnetically levitated toy according to the present invention.

Figure 4 is a perspective view of the rail of the magnetically levitated toy according to the present invention.

Figure 5 is a perspective view of the rail assembly of the magnetically levitated toy according to the present invention.

Figure 6 is a rail plan view of the magnetically levitated toy according to the present invention.

Figure 7 is an enlarged perspective view of the toy vehicle running of the present invention magnetically levitated toy.

8 is a cross-sectional view of the toy vehicle running of the present invention magnetically levitated toy.

((Explanation of symbols for main part of drawing))

               10. Rail 11. Rail Support

               12. Support Fixture 13. Magnetic Support

               14. Partition 15. Permanent magnet

               20. Toy Vehicle 21. Vehicle Body

               22. Foam Case 23. Superconductor

               24. Liquid nitrogen 25. Liquid nitrogen filling kit

               26.Cover 27.Clip

The present invention relates to a magnetically levitated toy using the magnetic force of the superconductor, and more particularly, a vehicle toy in which the superconductor is cooled by liquefied nitrogen is injured in the upper part of the magnetic rails arranged in series so that magnetic forces of different polarities are expressed. It relates to a magnetically levitated toy using a superconductor to circulate and flow along the linear track, so that a vehicle toy using magnetic force can be circulated flow without a separate power source.

Currently, a general train toy is configured to linearly move a toy vehicle along a track formed by combining a plurality of rails and supports, and the rail is composed of a circular rail or a slope rail by combining a straight rail and a curved rail. .

In addition, the conventional rail toy is equipped with a wheel that can be driven on the rail to the toy vehicle moving along the rail is made to move the vehicle by driving the wheel on the rail.

Such a conventional train toy can be moved to a structure such as a roller coaster by the inertia along a rail consisting of a circular or inclined rail after positioning the toy vehicle at the highest point of the rail constituting the track or A motor capable of driving wheels is mounted therein, and a toy vehicle can be transported along a rail by driving a motor by a battery or an electrical connection.

In this case, the train toy that flows along the rail with the latter structure, because the motor to drive the wheel and the battery to drive the motor must be included both inside the body of the toy vehicle will be heavy, so the wheel on the rail is idle Due to the weight of the vehicle itself, when the inclined rails are moved, the climbing ability is not good and smooth vehicle movement is not possible. It is cumbersome and the production cost has to be increased.

In addition, the train toy consisting of the electronic structure is the wheel is coupled to the lower both sides of the vehicle and the wheel is driven along the rail to advance the toy vehicle is made, by moving the toy vehicle to the highest point of the rail by inertia At the point where the flow by the inertia ends, it moves back to the upper part of the rail by another driving means, so that the circulation flow occurs according to the falling rail, but the wheel or the body of the vehicle is in contact with the rail surface. Since there is no choice but to move along the rail in a state, there is a problem in that the vehicle does not proceed smoothly due to a sudden change in the moving direction of the rail on the curved surface of the rail, and the body including the wheel is easily detached from the rail.

On the other hand, conventional train toys perform only functions as a simple play equipment by assembling the finished products or rails, and there is no means for stimulating the scientific curiosity of children, including infants, to be used due to the operation of train toys by general power devices. There is a disadvantage that can not.

Accordingly, the present invention was devised to solve the above-mentioned disadvantages and problems raised in the conventional train toy using a rail, and a cryogenic liquid such as liquefied nitrogen is filled in the inside of the toy vehicle and a strong magnetic force is generated in a cryogenic state. The superconductor is built in, and the toy vehicle is floated on the upper part of the magnetic rail arranged alternately so that different polarities are expressed and circulated along the linear rail track, and the toy vehicle is driven by magnetic force without a separate power source. An object of the present invention is to provide a magnetically levitated toy using a superconductor that allows the circular movement along the trajectory and the scientific curiosity of the user is satisfied.

The object of the present invention is a train toy consisting of a rail constituting a continuous linear track and a toy vehicle moving from the top along the rail, a pair of upper both sides to the rail support object in the form of a circular tube A rail provided with partitions, and a pair of permanent magnets having upper surfaces of the same polarity on the partitions mounted side by side in pairs, the rails having a plurality of support fixtures coupled to each other to be alternately formed along rail supports;
A foam case having a reinforcing member mounted on the rear lower end of the superconductor and having a reinforcing member mounted therein is inserted into the center of the vehicle body, and a liquid nitrogen filling kit filled with liquid nitrogen is inserted through a kit insertion hole provided at the rear lower end of the vehicle body. It is achieved by a magnetically levitated toy structure composed of toy vehicles.

The rail is a cylindrical rail support in which a continuous rail track is formed, a magnet support coupled to the rail support by a support fixture, and the upper surface is divided at regular intervals, and arranged in a row on both sides of the partition of the magnet support. It consists of a number of permanent magnets.

At this time, the magnet support is coupled to the upper portion of the cylindrical rail support by a support fixture in a state that a pair of magnets are mounted on the upper, the support fixture is coupled to the rotatable flow on the rail support outer circumference if necessary, such as bolts The angle is fixed by the fixing means of the.

The toy vehicle floated by the magnetic force on the upper part of the rail and transported along the rail has a superconductor surrounded by a foam case in the inner central part, and liquid nitrogen is filled in the space between the foam case and the toy body through the superconductor in a cryogenic state. It is a structure to generate strong magnetic force.

In order to keep the superconductor at a cryogenic temperature and to emit strong magnetic force, liquid nitrogen should always be filled on the outer side of the foam case surrounding the superconductor, and the filling of the liquid nitrogen is inserted through the lower end of the toy vehicle. This is done through the kit.

The magnetically levitated toy using the superconductor of the present invention has a permanent magnet mounted continuously on both sides of the upper partition of the magnet support and the superconducting force of the superconductor in which the strong magnetic force is generated in the cryogenic atmosphere by the filling of the liquid nitrogen in the inside of the toy vehicle. The toy vehicle rises above the rail, and the injured toy vehicle is configured to be able to move along the rail by changing the polarity of the permanent magnets alternately mounted so that different polarities are displayed on the rail. have.

Matters relating to the operational effects including the technical configuration for the above object of the magnetically levitated toy using the superconductor of the present invention will be clearly understood by the following detailed description with reference to the drawings showing preferred embodiments of the present invention.

First, Figure 1 is an overall perspective view of a magnetically levitated toy using the superconductor of the present invention, Figure 2 is a perspective view of the assembly of the toy vehicle of the present invention the magnetic levitating toy, Figure 3 is a cross-sectional view of the toy vehicle of the magnetic levitating toy according to the present invention, Figure 4 is a perspective view of the rail of the magnetic legging toy according to the present invention, Figure 5 is a perspective view of the rail assembly of the magnetic legging toy according to the present invention, Figure 6 is a plan view of the rail of the magnetic legging toy according to the present invention.

As shown, the magnetically levitated toy using the superconductor of the present invention is mounted with a magnet support 13 by a support fixture 12 on a rail support 11 that forms a continuous asymmetric linear track and the upper part of the magnet support 13. And a rail case 10 having permanent magnets 15 having opposite polarities therebetween continuously coupled to each other and a central portion inside the vehicle body 21 circulated and transported along a linear track from the upper portion of the rails 10. Enclosed and fixed to the superconductor 23 and the liquid nitrogen through the rear lower portion of the vehicle body 21 so that the cryogenic liquid nitrogen 24 is filled between the inner circumferential surface of the vehicle body 21 and the outer wall of the foam case 22. The charging kit 25 is a structure consisting of a toy vehicle 20 is inserted.

The toy vehicle 20 is electrically cooled when the superconductor 23 inserted therein is cooled to 20K (about -253 ° C.) at an extremely low temperature, that is, by an liquefied nitrogen 24 filled in its periphery. The transition is made to a superconducting magnet of perfect diamagnetism close to 0 ', and the floating is made on the rail 10 on which the continuous permanent magnets 15 are arranged.

The superconductor 23 of the toy vehicle 20 is embedded in a foam case 22 that is inserted into and fixed to an inner central portion of the vehicle body 21 in which the appearance of the vehicle is formed, wherein the foam case 22 is a vehicle body ( The inner wall surface of the vehicle 21 is fixed at a predetermined interval, and the superconductor 23 can be sufficiently cooled in a space formed between the inner wall surface of the vehicle body 21 and the outer wall surface of the foam case 22. The liquefied nitrogen 24 is filled.

The liquefied nitrogen 24 is filled with the liquefied nitrogen filling kit 25 through the kit insertion opening 21a provided at the rear lower portion of the vehicle body 21 so that the liquefied nitrogen 24 in the kit is inserted into the vehicle body 21. And the space between the foam case 22.

At this time, the liquefied nitrogen filling kit 25 is inserted into the main body 21 through the kit inserting opening (21a) of the vehicle body 21, the filling kit 25 is a kit in which the liquefied nitrogen 24 is injected It consists of a main body 25a and a kit cover 25b which is slid open and closed at the upper part thereof, and the upper kit cover 25b is inserted into the kit inserting opening 21a from the front, and the upper kit cover 25b is inserted into the vehicle main body 21. The kit body 25 is inserted into the lower part of the toy vehicle 20 while being caught in the rear lower end of the foam case 22 embedded therein, so that the liquid nitrogen 24 is filled in the vehicle body 21.

In addition, as the liquid nitrogen filling kit 25 is repeatedly attached and detached, a separate lower portion of the rear case of the foam case 22 in which the front end of the filling kit 25 is in contact with the foam case 22 is additionally used to improve the contact strength of the foam case 22. The reinforcing member 22a is coupled.

On the other hand, the upper portion of the vehicle body 21 is equipped with a cover 26 for protecting the internal constituent members including the liquid nitrogen 24 and the superconductor 23 embedded in the body 21, the cover 26 At least one clip 27 is additionally mounted on the upper surface of the upper surface of the rail to balance the vehicle main body 21 by magnetic force on the rail 20 by the left and right movement of the clip 27. It is configured to be.

Correlation between the rail 20 through the clip 27 and the magnetized superconductor 23 will be described once again by referring to the drawings.

The rail 10 which is orbitally transported in the state in which the toy vehicle 20 is lifted up is partitioned in the longitudinal direction on the upper surface by a support fixture 12 inserted into the outer circumferential surface of the continuous pipe-shaped rail support 11. The plate-shaped magnet support 13 having the portion 14 is fixedly mounted, and the permanent magnet 15 having the same polarity is expressed on both sides of the partition portion 14 of the magnet support 13.

The rail support 11 is configured in the form of a pipe to serve to guide the transport path of the toy vehicle 20, is supported at a certain height from the ground by a support (T) that is supported on the ground and the magnetic levitation In order to reduce the overall weight of the toy it will be desirable to be composed of a plurality of permanent magnets 15 and the load of the toy vehicle 20 is transported from the top.

The magnet support 13 fixed by the support fixture 12 coupled to the outer circumferential surface of the rail support 11 is provided with a plurality of partitions 14 in the longitudinal direction of the support 13 on the upper surface and both side partitions ( On 14), permanent magnets 15 having the same polarity are inserted and mounted.

In addition, the magnet support 13 is such that the support fixture 12 is rotatably coupled on the rail support 11 outer circumferential surface in a state in which the permanent magnet 15 is mounted through the partition 14. The twist structure is formed, and when the magnet support 11 is fixed, the support fixture 12 and the rail support 11 can be fixed using a separate fixing means (B) such as a bolt.

On the other hand, the pair of permanent magnets 15 mounted on both sides of the upper side of the magnet support 13 is coupled to the partition 14 so that the permanent magnets 15 mounted at opposite positions have the same polarity. And permanent magnets 15 continuously arranged along the partition portion 14 are alternately mounted so that different polarities are alternately displayed so that the toy vehicle 20 floating thereon can be transferred by magnetic force alone.

Looking at the operation principle of the present invention magnetic levitation toys having such a structure and the principle of the injury of the toy vehicle made in the operation process based on Figures 7 and 8 shown below.

7 is an enlarged perspective view of a toy vehicle driving the magnetically levitated toy of the present invention, Figure 8 is a cross-sectional view of the toy vehicle of the magnetic levitating toy of the present invention, as shown, the magnetic levitating toy using the superconductor of the present invention is a magnet support ( The superconductor 23 in which the transition of the fully diamagnetic material is transferred by the cryogenic liquid nitrogen 24 filled in the upper part of the permanent magnet 15 continuously coupled to the compartment 14 of the vehicle body 21 is embedded. The toy vehicle 20 has a technical feature to maintain a gap in the upper portion of the permanent magnet 24 of the rail 10 while maintaining a gap and no-load circulation flow along the track.

In addition, the toy vehicle 20 is inserted into the vehicle body 21 is cooled by the liquefied nitrogen 24 and the superconductor 23 and the permanent magnet mounted on the upper rail 10 of the lower portion that generates a strong magnetic force When lifted to the upper rail 10 by the repulsive force between the (15), the rail 10 by the left and right flow of the clip 27 coupled to the upper surface of the cover 26, which is covered on the upper portion of the vehicle body 21 By adjusting the magnetic force emitted through the permanent magnet 15 of both sides to adjust the equilibrium state of the toy vehicle 20 injured on the rail (10).

At this time, the clip 27 mounted on the cover 26 of the toy vehicle 20 and the pair of permanent magnets 15 coupled to the upper rail 10 are mutually moved even when the toy vehicle 20 moves along a track. The manpower is continuously operated so that the equilibrium state of the toy vehicle 20 is maintained, and the departure of the vehicle can be prevented even in a twisting section or a rotating section of the rail 10 track.

As described above, the magnetically levitated toy using the superconductor of the present invention is alternately so that the inside of the supercar is filled with a superconductor filled with a cryogenic liquid such as liquid nitrogen and a strong magnetic force is generated in the cryogenic state. It is a structure that is floated on the upper part of the continuously arranged magnet rail and is circulated along the linear rail track, and the toy vehicle is cyclically moved along the track only by the magnetic force of the superconductor and the permanent magnet transferred to the fully diamagnetic material without a separate power source. In addition to ensuring that the user's scientific curiosity is satisfied and that the toy vehicle is driven while being injured on the rail by magnetic force, there is no noise and the collection value can be increased by improving the decorative effect. There is this.

Claims (6)

delete In a magnetically levitated toy consisting of a rail with a permanent magnet arranged continuously along the rail support forming a continuous asymmetric linear track and a toy vehicle circulating along the track at the top of the rail and having a superconductor mounted therein, On the rail support 11 formed in the form of a circular tube, a pair of partitions 14 are provided on both sides of the upper part, and the permanent magnets 15 having the same polarity on the partition surface are arranged side by side. A pair of rails 10 to which a plurality of support fixtures 12 are coupled so as to alternate with each other along the rail support 11 to express different polarities; A kit surrounding the outer circumferential surface of the superconductor 23, the foam case 22 having the reinforcing member 22a mounted on the rear lower end thereof is embedded in the center portion of the vehicle body 21, and the kit is provided at the rear lower end of the vehicle body 21. Magnetically levitated toy using a superconductor composed of a toy vehicle 20 into which a liquefied nitrogen filling kit 25 filled with liquefied nitrogen is inserted through an insertion port 21a. delete delete The method of claim 2, The liquefied nitrogen filling kit 25 includes a main body 25a filled with the liquefied nitrogen 24 and a kit cover 25b sliding and opening at an upper portion of the main body 25a. . The method of claim 2, The vehicle body 21, the magnetic coupling toy using a superconductor, characterized in that the cover is coupled to the upper portion, at least one clip (27) flowing left and right on the upper portion of the cover (26).

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