CN1876208A - Polyhedral block-type magnetic toys - Google Patents

Abstract

Disclosed herein is a polyhedral block-type magnetic toy, which is constructed so that a magnet is movably provided on each surface of a polyhedron. The magnetic toy includes a plurality of polyhedral blocks ( 31 ) and magnets ( 32 ). Each of the blocks includes a magnet moving space (R), which is provided across each surfaces of the polyhedron, is partitioned into a plurality of small moving spaces (R<SUB>s</SUB>) by a plurality of walls (W), is covered by a cover unit such that each open end is isolated from an exterior, and has the shape of a straight groove. The magnets are movably inserted into the small moving spaces provided on opposite ends. The polyhedral block-type magnetic toy allows the contact area or coupling position to be changed as desired, when unit blocks contact each other, thus creating various shapes of structure, therefore being useful for education.

Description

Polyhedral block-type magnetic toys

Technical field

The present invention relates generally to polyhedral block-type magnetic toys, relate in particular to a kind of polyhedral block-type magnetic toys, it comprises and has various polyhedron-shaped cell blocks; Pass through the magnet mobile space of each surface setting of cell block, make this space not give prominence to and be separated into a plurality of little mobile spaces from the surface; And the magnet that moves these little mobile spaces of insertion.Like this, when a cell block the surface near the surface of another cell block, and approaching magnet has identical polarity chron, the repulsion between the magnet of these two cell blocks makes the magnet of a cell block rotate in a relevant little mobile space.Therefore, gravitation can be present between two magnet always, thus can be how regardless of the polarity of magnet, and with magnetic force with the attracted by surfaces of a cell block to another cell block surface.In addition, when the surface of a cell block was connected to another cell block surperficial, many magnet inserted each surface of a cell block movably, therefore allowed contact area or link position to change on demand.So the present invention can provide the threedimensional model with different shape.

Background technology

The typical case of commercialization toy representative has happy high block toy product (Lego products) in the world, when playing this toy for a long time, the function that improves children ' s creation is arranged.

In happy high block toy product, the assembly of many different shapes can be assembled into various structures according to children individual's hobby and idea.Therefore, happy high block toy product is considered to improve children's imagination and creativeness, simultaneously, under the prerequisite that the dimension scale of assembly is consistent, happy high block toy product is also according to the age, formed by the assembly of different numbers and size, like this, children can play the high block toy product of this pleasure always, up to growing up to teenage teenager.

Yet owing to need the assembly of special shape to assemble special construction, there is limitation in happy high block toy product.In addition, the assembly of each happy high block toy product is made up of the 3D shape of a cuboid or square.Therefore, if children have the high construction toy set of pleasure based on several themes, its whole assembled components will occupy very big storage area.In addition, need long time owing to find out required component in many assemblies that mix, assembling an ad hoc structure also just needs the longer time.

For solving these shortcomings of happy high block toy product, developed magnetic toy, it is prepared new geometry designs and builds them by allowing children, and does not rely on the basic design of relevant particular topic, is beneficial to the creativeness that improves children.

In general, magnetic toy is made up of bar magnet and Metal Ball, and each bar magnet is covered with synthetic resin and covers thing, and each bar magnet has a metal bar and the permanent magnet that places this each end of metal bar.A plurality of bar magnets are by continuous the coupling together of Metal Ball, thereby have been assembled into required model or structure.

That is to say that various composition models with three-dimensional structure can form by combination bar magnet and Metal Ball.Therefore, children can rely on play magnetic toy, strengthen their spatial impression, creativeness and to the understanding of geometry.

Fig. 1 and 2A and 2B are depicted as a kind of sketch of representative magnetic toy.

The perspective view of Fig. 1 when to be that traditional magnetic toy is actual use.Moreover Fig. 2 A and 2B are respectively the bar magnet of magnetic toy of pie graph 1 and the sectional view of basic package assembly thereof.

As shown in drawings, traditional magnetic toy comprises a plurality of bar magnets 1 and a plurality of Metal Ball 2, wherein each bar magnet 1 by metal bar 12, place metal bar 12 each end disc permanent magnet 11, be overlying on the covering of making by synthetic resin 13 of metal bar 12 and outer surface and the edge of permanent magnet 11 outer end S formed.By each Metal Ball 2, a plurality of bar magnets 1 are connected.In bar magnet 1, disc permanent magnet 11 places each end of metal bar 12, makes bar magnet 1 to play a role as the cylindrical magnet with circular section, and an end of bar magnet 1 is the N utmost point like this, and its other end is the S utmost point.

Each end of bar magnet 1 is connected in Metal Ball 2 by magnetic force.So, syndeton shows as triangle basically.Based on such shape, bigger more complicated structure can assemble.

Magnetic end disc 11 is made of mechanical strength and the fabulous rare earth neodymium (Nd) of corrosion resistance, and it plays the size of the final magnetic force product of reduction and the effect of weight by keeping high performance magnetic.End disc 11 is contained in each end of metal bar 12 and produces the intensive magnetic line of force, and magnetic force has been strengthened about 1000G as a result.By the magnetic force of strengthening, any have a plurality of bar magnets 1 of linking together and the package assembly of a plurality of Metal Ball 2 can obtain firm keeping.

So, the conventional magnetic toy that comprises Metal Ball and bar magnet can provide various geometrical models.Conventional magnetic toy can form 3D shape, and is promptly polyhedron-shaped, but it does not have face, so it is not suitable for education.

Particularly, it is necessary allowing the preprimary child understand polyhedron.Therefore, propose to comprise the educational toy of various polyhedron-shaped a plurality of modules, made children can play these toys, and make children understand various polyhedral shapes and characteristic, comprised tetrahedron, hexahedron and polygon prism.Yet the problem of traditional polyhedron module is that they are made by timber or synthetic resin, when module stack is got up, even is subjected to very little external force and just is damaged easily.

In order to solve the problem of traditional polyhedron module, developed the polyhedron module of carry magnet.For example, 6-302425 number Japanese publication communique just disclosed a kind of suction building block.

The suction building block comprises housing, lid and a spherical magnet.This housing is a hexahedral shape, and its inside has living space, and opening is arranged at top.Magnet places the inner space of this housing rotationally.Because magnet can rotate in housing, just may interconnect, and need not consider the polarity of magnet by required suction building block a plurality of hexahedral shape.In addition, they are not stretched out from each surface of each polyhedron module, just can stably link together the polyhedron module mutually by magnetic force by clocklike arranging these suction building blocks.

Yet although magnet is rotatable in housing, its position is fixed.In addition, each suction building block has a magnet, makes only can be connected one to one between the surface of surface and another suction building block of a suction building block to be.That is to say to have a surface of a suction building block to attract two surfaces of two suction building blocks simultaneously, so provide constant syndeton.In addition, the polyhedron module with suction building block only can be adsorbed to the part with another suction building block.Therefore, when keeping this connection status, it is impossible changing contact area as required.

No. 457305 Korean Patent has disclosed the toy that a kind of inside has the jockey of rotatable magnet and has the structure type of this device.According to the document, magnet inserts in each a plurality of grooves of being located at the polyhedron surface, and each groove is provided with a cap and prevents that magnet is undesirable and move.Magnet can rotate when moving to a certain degree in associated groove.Yet this invention has similar effect and shortcoming to above mentioned day disclosure communique.

According to the detailed description of open in advance application of above-mentioned Japan and above-mentioned Korean Patent, magnet can rotate and do some and move.Yet the groove at each magnet place is located at predefined position, like this, only could connect in the position that magnet exists.Though a polyhedral surface can be connected to another polyhedral surface, can not change contact area as required.Therefore, various assembled shape can not be finished, several fixed shape can only be finished.

Summary of the invention

Technical problem

Therefore, the present invention develops in view of the problem that produces in the above-mentioned prior art, the purpose of this invention is to provide a kind of polyhedral block-type magnetic toys, wherein a plurality of magnet are connected to polyhedral each surface, make magnet not be fixed but movably, like this, when the surface of a polyhedron module contacts another polyhedron module surperficial, allow contact area to adjust on demand, therefore can make module connect into different shape.

Technical scheme

To achieve these goals, the invention provides the magnet mobile space that passes through each surface formation of polyhedron.

The feature of polyhedral block-type magnetic toys of the present invention is that it comprises a plurality of multiaspect cell blocks, be located at a plurality of magnet on each surface of each cell block movably, and pass through each surface of each cell block and form, make magnet be located at the magnet mobile space of each cell block movably.

In detail, the magnet mobile space is a rectilinear form, and its end from each surface of each cell block extends to this surperficial opposite end.The magnet mobile space is separated wall or similar structures is separated into two or more little mobile spaces.Each little mobile space is put into a magnet.Therefore, each surface of passing through each cell block when magnet moves freely, that is to say, and during along the vertically moving of each little mobile space, be rotating.

Each magnet can have shape arbitrarily, as long as it can move freely or rotate in each little mobile space.Magnet is for being preferably spherical or cylindrical.

Here, the direction of magnet mobile space describes with reference to the magnet mobile space that is formed at polyhedral upper surface, makes to avoid term to obscure.

The typical method that forms each magnet mobile space is as described below.That is to say that under the situation that is wooden unit, the magnet mobile space with rectangular cross section forms by carving a slot part from an end on each surface to its opposite end.After magnet is put into the magnet mobile space, prevent that with open upper end magnet from dropping out from the magnet mobile space to such an extent as to close the open relative side of magnet mobile space.And under the situation that is the synthetic resin piece, then adopt injection-molded technology to form the module of trough of belt, thereby make the magnet mobile space.Except that these methods, the magnet mobile space can be formed at polyhedral each surface by the whole bag of tricks.

In addition, when the partition wall that is used to separate the magnet mobile space was thin-walled, the magnet that inserts two adjacent little mobile spaces can be attached together mutually owing to magnetic force.In this case, magnet does not move.

So, for instance, when needs are divided into three intervals to each magnet mobile space, prepare a pair of partition wall.After a magnet mobile space was separated into three little mobile spaces that are arranged in a row, magnet was only put into two little mobile spaces except that the little mobile space of centre.Such structure prevents to be positioned over two mutual magnetic attraction of magnet of mobile space both sides.In addition, little mobile space can be located at each surface of passing through each cell block and the relative both sides of the linear part that is provided with, and is not located at the mid portion of linear part.Can be prevented that by the structure that thick partition wall is separated into the little mobile space magnet of putting into the little mobile space of being located at relative both sides respectively from interfering with each other as the magnet mobile space, thereby allow magnet freely to move.

The magnet of putting into the little mobile space of linear that passes through surface formation can move when rotating by repulsion between magnet or gravitation with being in line shape.Like this, put into the magnet of two polyhedral little mobile spaces that its surface is in contact with one another by magnetic force, can vertically in little mobile space, moving together along little mobile space.Even when two polyhedrons were connected to each other together, these two polyhedrons also can move along the longitudinal direction of little mobile space therefore.

That is to say, can change two contacts area between the polyhedron as required.

In this case, two polyhedrons can be connected to each other together, make the vertically parallel to each other, perhaps orthogonal of the little mobile space be located at the polyhedron contact-making surface.When little mobile space vertical parallel to each other, two polyhedral magnet can vertically moving along little mobile space together.Simultaneously, when two polyhedral little mobile spaces were orthogonal, only being located at the magnet on the polyhedron can vertically moving along little mobile space.

The magnetic toy that has the magnet mobile space on polyhedral each surface of the present invention can be realized regardless of polyhedral number.Best, the polyhedron of selection has at least one pair of parallel surfaces, for example is hexahedron or polygon prism, and the magnet mobile space is established on each surface that is connected to parallel surfaces at its opposite end, makes the magnet mobile space perpendicular to parallel surfaces.

For instance, be under the hexahedral situation, the magnet mobile space can be formed on the hexahedral all surface.Simultaneously, under the situation for triangular prism, the magnet mobile space can be formed on three surfaces except that two parallel surfaces, makes the magnet mobile space perpendicular to two parallel surfaces.

Under the situation that is triangular prism, the magnet mobile space can be formed at two parallel surfaces.Yet the magnet mobile space of being located at two parallel surfaces may disturb the magnet mobile space that is provided in three surfaces, because the opposite end of each magnet mobile space is positioned on two parallel surfaces.Therefore, the magnet mobile space of establishing with passing through three surfaces that are not parallel to each other is different, and the magnet mobile space of two parallel surfaces preferably not exclusively passes through the surface, but is formed at the position of leaving marginal surface.

Description of drawings

Fig. 1 is the perspective view of the assembled state of expression conventional magnetic toy.

Fig. 2 A and 2B represent conventional magnetic toy, and wherein Fig. 2 A is the sectional view that constitutes the bar magnet of magnetic toy, and Fig. 2 B is the sectional view of expression magnetic toy assembled state;

Fig. 3 A and 3B represent the polyhedral block-type magnetic toys according to first embodiment of the invention, and wherein Fig. 3 A is the perspective view with cell block of hexahedral shape, and Fig. 3 B is the perspective view with cell block of triangular prism shape;

Fig. 4 A represents variation according to the magnetic toy contact surface of first embodiment of the invention to 4C, wherein Fig. 4 A represents that the entire portion on a surface contacts the partial cross section figure of the state of another surperficial entire portion, Fig. 4 B represents that the part on a surface leaves the partial cross section figure of another surperficial state, and Fig. 4 C is the partial cross section figure of presentation surface state disconnected from each other most ofly;

Fig. 5 is the part decomposition diagram according to the magnetic toy of first embodiment of the invention;

Fig. 6 is according to the improved perspective view that is connected the cap on the cell block mobile space of first embodiment;

Fig. 7 is according to another improved sectional view that is formed at the magnet mobile space of cell block of first embodiment;

Fig. 8 is the perspective view according to the block-type magnetic toys of second embodiment of the invention;

Fig. 9 is the perspective view according to the block-type magnetic toys of third embodiment of the invention;

Figure 10 is the part decomposition diagram according to the block-type magnetic toys of fourth embodiment of the invention;

Figure 11 is the perspective view according to the block-type magnetic toys of fifth embodiment of the invention;

Figure 12 A represents block-type magnetic toys according to sixth embodiment of the invention to 12C, wherein Figure 12 A is the perspective view with cell block of hexahedron (or quadrangular) shape, Figure 12 B is the perspective view with cell block of triangular prism shape, and Figure 12 C is the perspective view with cell block of cylindrical shape;

Figure 13 A and 13B represent the block-type magnetic toys according to seventh embodiment of the invention, and wherein Figure 13 A is the perspective view with cell block of triangular prism shape, and Figure 13 B is the perspective view with cell block of hexahedral shape;

Figure 14 A represents block-type magnetic toys according to eighth embodiment of the invention to 14C, wherein Figure 14 A is the perspective view with cell block of quadrant cylinder body shape, Figure 14 B is the perspective view with cell block of semicylinder shape, and Figure 14 C is the perspective view of the cell block of sixth cylindrical shape; And

Figure 15 is the perspective view according to the block-type magnetic toys with printed panel of ninth embodiment of the invention.

The specific embodiment

By reading following explanation and with reference to the accompanying drawing of preferred embodiment of the present invention, structure of the present invention and operating effect will be apparent to those skilled in the art.

Fig. 3 A and 3B represent the multiaspect piece shape magnetic toy according to first embodiment of the invention, Fig. 4 A is the sectional view of expression according to the mode of operation of the polyhedral block-type magnetic toys of first embodiment of the invention to Fig. 4 C, and Fig. 5 is the part decomposition diagram according to the polyhedral block-type magnetic toys of first embodiment of the invention.

As shown in drawings, polyhedron magnetic toy of the present invention comprises a plurality of cell blocks 31, a plurality of magnet 32 and cap 33.Each cell block 31 is polyhedron-shaped, and is provided with the magnet mobile space R of each straight trough shape.Each magnet mobile space R passes through each surface of each cell block 31 and forms, and is separated into a plurality of little mobile space R by a plurality of partition wall W that face one another _s

Each magnet 32 is put into the little mobile space R on each each surface of being located at each cell block 31 movably _s

Each cap 33 comprises upper cover part 33A and side cover part 33B.Upper cover part 33A is the bar belt shape, and the openend that is arranged on each magnet mobile space R is isolated from the outside magnet mobile space R.The opposing open end that side cover part 33B is arranged on each magnet mobile space R is isolated from the outside magnet mobile space R.

In this case, the interval of magnet mobile space R can change on demand.Magnet mobile space R preferably is separated into three little mobile space R that are arranged in a row by two partition wall W _s, magnet 32 is only put into the little mobile space R that is located at relative both sides _sIn, and be not placed on the little mobile space R that is located at the centre position _s

Yet, only put into the little mobile space R that is located at relative both sides when magnet _sIn, two cell blocks contact with each other and make together and be located at mobile space R on polyhedral contact-making surface when orthogonal, these two polyhedrons can not contact with each other and couple together, because be located at the little mobile space R on the centre position of each magnet mobile space R _sIn do not have magnet.

Therefore, in order to address this problem, the little mobile space R in the middle of magnet can be put into _sIn this case, do suitable adjustment, make gravitation between the polyhedral magnet that acts on two contacts be better than to act on and be placed on a polyhedral adjacent little mobile space R the thickness of each partition wall W of being used to separate magnet mobile space R _sMagnet between gravitation.

The thickness of each partition wall preferably is provided with greater than the distance between two polyhedral magnet, makes that the gravitation between a polyhedral adjacent magnets is weaker than two gravitation between polyhedral magnet.

In addition, each the partition wall W that separates each magnet mobile space R can be made of one with the lower surface that is contained in each cap 33 that prevents on the magnet mobile space R that magnet from dropping out from magnet mobile space R.The upper cover part 33A of each cap 33 and side cover part 33B can integrally formed bottom opening the U type.As shown in Figure 6, in order to prevent that each upper cover part 33A reduces magnetic force between two magnet 32, is preferably putting the little mobile space R of magnet 32 along covering when a polyhedral surface is connected to another polyhedral surface _sUpper cover part 33A offer linear through hole H.This through hole H allows two polyhedral magnet 32 to contact with each other.

In addition, the through hole (not shown) can be formed at each side cover part 33B.Like this, each magnet mobile space R can be isolated from the outside fully, perhaps can be open by throughhole portions ground.

Importantly, each cap 33 can not separate with relevant magnet mobile space R easily because of external force or extruding.Therefore, the shape of the cross sectional shape of each magnet mobile space R, each side cover part 33B and the shape of each partition wall W preferably are provided with as shown in Figure 7.That is to say that the width W ' of magnet mobile space lower end must be greater than the width W of magnet mobile space upper end, and cap 33 must insert along direction from the end to end of magnet mobile space R.

This structure that is to say the structure that has magnet mobile space R on each multiaspect cell block, can be by the whole bag of tricks manufacturing.Under the situation that is wooden unit, the magnet mobile space can pass through the polyhedron surface, and the end to end fluting formation from magnet mobile space R is connected cap 33 then with the magnet mobile space.Simultaneously, under the situation that is the synthetic resin piece, as shown in Figure 8, the module board 31A of rectangular plate shape can be by injection moulding or similar technology manufacturing.In this case, the magnet mobile space R with through hole H is located on the lower surface of module board 31A, extends to the relative other end from the end of module board 31A.Six cell block plate 31As interosculated just become a hexahedral element piece thereafter.

In this case, can in each magnet mobile space R, make or insert a plurality of partition wall W, thereby magnet mobile space R is separated into a plurality of little mobile space R _sIn addition, a thickness can be enough to stop that the partition wall of magnetic force inserts the mid portion of magnet mobile space R, make magnet mobile space R only be divided into two little mobile space R _s

Different with such magnet mobile space R, each magnet mobile space R can not be separated into two or more little mobile space R _sIn this case, a magnet is put into magnet mobile space R, makes magnet can be freely move to the relative other end from the end of magnet mobile space R.

Yet like this, when each magnet mobile space R formed as a space, only there was a magnet on each surface of cell block.Like this, just two cell blocks can not be adsorbed onto on the surface of a cell block.Therefore, each magnet mobile space R can separate or not separate on demand.

In addition, as shown in Figure 9, suppose that the surface that will form the magnet mobile space thereon is referred to as " reference plane ", magnet mobile space R can be by drilling through one or more holes with reference to the surface on surface to its apparent surface and just in time be formed at this with reference to below the surface from connecting this so.Rectilinear through hole H can form with such method: even its inner circumferential surface from each magnet mobile space R extends to the just in time reference surface on magnet mobile space R.

In addition, as shown in figure 10, little mobile space R _sCan be formed at the opposite end that passes through each surperficial straight line.In this case, be located at two little mobile space R _sBetween do not dig the effect that part plays thick partition wall W.Be connected in each little mobile space R _sCap 33 can be " L " shape.

Except method above-mentioned, can form magnet mobile space R by the whole bag of tricks.Separate and formedly pass through each surperficial flute profile magnet mobile space R of polyhedron or separate by drilling through each partition wall W of the magnet mobile space R that the part that just in time is positioned at surface underneath forms, and be contained in magnet mobile space R and go up cover part to prevent that magnet from dropping out from the magnet mobile space, for example cap 33, and various structures can be arranged.The invention is not restricted to specific method or structure.That is to say that according to the present invention, magnet mobile space R can be located at the part that surface underneath was gone up or just in time was positioned on polyhedral each surface.In addition, magnet mobile space R can comprise two little mobile spaces, and it has magnet separately and is located at the opposite end that passes through each surperficial straight line of polyhedron respectively.In addition, the magnet mobile space can be divided into three little mobile space R that are arranged in a row by partition wall W _sIn this case, magnet 32 is only put into the little mobile space R that is provided in relative both sides _s, and the little mobile space R in the middle of not being placed on _sIn.

Constitute cell block of the present invention and be not limited to specific material, for example timber or synthetic resin.Timber is more desirable as the instrument of teaching children.

Magnetic force instrument of the present invention with above-mentioned formation is not limited to specific polyhedron-shaped.Yet, consider each magnet mobile space R and the cap cover part that is covered in magnet mobile space opposite end, the polyhedron of at least one pair of parallel surfaces is arranged, for example hexahedron, cylinder or polygon prism, than the polyhedron that does not have parallel surfaces, for example be that tetrahedron is more suitable.As shown in figure 11, the magnet mobile space R that is located at each polyhedron surface forms perpendicular to two parallel surfaces.If want to form magnet mobile space R on parallel surfaces, magnet mobile space R does not preferably pass through corresponding parallel surfaces, should be positioned at the position of leaving the parallel surfaces edge.

But, be placed on be located at the perpendicular plane of parallel surfaces on magnet mobile space R in the magnetic force of magnet 32, can act on the edge of parallel surfaces, although magnet 32 is covered with by capping unit.Therefore, can be used for the thickness of the capping unit that opposite end with magnet mobile space R is isolated from the outside, and the method that forms through hole H is saved the magnet mobile space R on the parallel surfaces by reducing each.

In addition, magnet mobile space R can be formed on each surface of polyhedron as required in a different manner.Shown in Figure 12 B, two to four magnet mobile space R can be set parallel to each other on polyhedral each surface.Shown in Figure 13 A and 13B, each magnet mobile space R can be for beginning from predetermined surface around polyhedral closed annular.In this case, the magnet mobile space of parallel surfaces can pass through the surface setting.

When closed annular magnet mobile space R is divided into a plurality of little mobile space R _sThe time, thin partitioning wall is set makes little mobile space R _sNumber average.Then, magnet is alternately put into little mobile space R _sThereby, prevent that adjacent magnet from attracting each other.Partition wall can alternately be thick.In this case, magnet is put into all little mobile space R _s

In addition, at each mobile space R is under the situation of closed annular, can in each magnet mobile space R, put into a magnet 32, make magnet center on polyhedral magnet mobile space R and move, and each magnet mobile space R is not divided into little mobile space R _sYet, in this case, two or more polyhedrons can not be connected on the polyhedron.Like this, even under the situation of closed annular magnet mobile space R, preferably also be that each magnet mobile space is divided into a plurality of little mobile space R _s

In addition, shown in Figure 14 C, under the situation of the part cylindrical piece with fan shaped cross section, magnet mobile space R can form around the external peripheral surface of this cell block.

Like this, magnetic toy of the present invention comprises a plurality of polyhedron cell blocks.As shown in figure 15, can so just can arouse the interest of children with having printed numeral, letter, pattern or the like, having with each identical planar structure in surface of cell block, the printed panel D that is consistent with this surface and removably be contained on each surface of cell block to digital or various patterns.

Commercial Application

As mentioned above, the invention provides a kind of polyhedral block-type magnetic toys, when with a plurality of polyhedron groups During the dress three-dimensional structure, it can change the contact area between the polyhedron in every way. Thereby just complete Become to have the structure of various shapes, therefore can improve children's creativeness.

Claims (9)

1. polyhedral block-type magnetic toys is characterized in that comprising:

Respectively be polyhedron-shaped a plurality of cell blocks, and comprise:

One or more magnet mobile spaces on the one or more surfaces that be arranged in parallel, pass through each cell block, each magnet mobile space is divided into a plurality of little mobile spaces by a plurality of walls, is capped parts and covers, and makes each openend be isolated from the outside, and have a straight trough shape, and

Put into the magnet of all or part of little mobile space of each cell block movably.

2. polyhedral block-type magnetic toys is characterized in that comprising:

Respectively be polyhedron-shaped a plurality of cell blocks, and comprise:

Respectively be capped parts and cover, make its openend be isolated from the outside, be located at a straight line portion on one or more surfaces of passing through each cell block, the little mobile space of straight trough shape of the opposite end of perhaps two or more parallel lines parts; And

Put into the magnet of each little mobile space of each cell block movably.

3. polyhedral block-type magnetic toys is characterized in that comprising:

Respectively be polyhedron-shaped a plurality of cell blocks, and comprise:

One or more magnet mobile spaces, its pass abreast one or more just in time in each of a plurality of surfaces of each cell block with reference to subsurface one or more positions, and be capped parts and cover, make two ends be isolated from the outside that this each magnet mobile space is divided into a plurality of little mobile spaces by a plurality of partition walls; And

Put into the magnet of all or part of little mobile space of each cell block movably.

4. polyhedral block-type magnetic toys according to claim 3 is characterized in that rectilinear through hole is located at each magnet mobile space by the inner circumferential surface of magnet mobile space with reference to the surface.

5. polyhedral block-type magnetic toys is characterized in that comprising:

Respectively be polyhedron-shaped a plurality of cell blocks, and comprise:

It respectively is the little mobile space of straight trough shape, it is capped parts and covers, makes openend be isolated from the outside, and be located at pass through abreast one or more just in time at the two ends of each straight line portion at the subsurface one or more positions of reference on a plurality of surfaces of each cell block; And

Put into the magnet of each little mobile space of each cell block movably.

6. multiaspect piece shape magnetic toy according to claim 5 is characterized in that rectilinear through hole is located at each magnet mobile space by the inner circumferential surface of magnet mobile space with reference to the surface.

7. polyhedral block-type magnetic toys is characterized in that comprising:

Respectively be polyhedron-shaped a plurality of cell blocks, and comprise:

The one or more closed annular magnet mobile spaces that be arranged in parallel along each surface perpendicular to two parallel surfaces of polygon prism, each magnet mobile space is divided into a plurality of little mobile spaces by partition wall, it perhaps is the space of a no partition wall, the openend of each magnet mobile space is capped parts and covers, and is isolated from the outside; And

Put into all or part of little mobile space of each cell block movably or be not separated the magnet of the magnet mobile space that wall separates.

8. polyhedral block-type magnetic toys is characterized in that comprising:

Respectively be polyhedron-shaped a plurality of cell blocks, and comprise:

Along cylindrical piece or have one or more magnet mobile spaces that the cylindrical outer circumference surface of part of fan shaped cross section be arranged in parallel, each magnet mobile space is separated into a plurality of little mobile spaces by partition wall or is the space of a no partition wall, the openend of each magnet mobile space is capped parts and covers, and is isolated from the outside; And

Put into all or part of little mobile space of each cell block movably or be not separated the magnet of the magnet mobile space that wall separates.

9. according to any one the described polyhedral block-type magnetic toys in the claim 1,2,3,5,7 and 8, it is characterized in that the printed panel D with printed numeral, letter or pattern removably is contained at least one surface of each cell block.

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