KR101148938B1 - Magnet Toy Set - Google Patents

Abstract

The present invention provides a magnet toy set, comprising: at least two or more three-dimensional polyhedral unit toys having at least one or more rotating magnet parts formed on at least one surface thereof; And two or more connecting members coupled to the rotating magnet part to connect the two or more three-dimensional polyhedral unit toys by magnetic force, wherein the connecting member is formed on two or more different three-dimensional polyhedral unit toys. A surface distance of a length that can be coupled to two or more spaced apart rotating magnet parts, such that at least two or more three-dimensional polyhedral unit toys can be connected to each other with a single connecting member without direct contact between the rotating magnet parts. And the surface distance is a distance between the two points when connecting any two points on the surface of the connecting member in a straight line along the surface of the connecting member. To start.
The present invention, when combining a plurality of unit toys, by further attaching a connection member between each of the unit toys or at least one pair of combined unit toys, it is possible to improve the bonding force by the magnetic force, through the connection member There is an effect that can connect or combine at least one pair of unit toys spaced apart.
In addition, the present invention, when the plurality of unit toys are joined, even if the size and the number of magnets and the arrangement of the bonding surface facing each other can be coupled through the connecting member, a plurality of unit toys using the connecting member When assembling, the binding force between the unit toys is improved, so that the block supporting the assembly, such as a column, can be deleted, thereby minimizing the use of the unit toys.
In the present invention, when assembling a structure by combining a plurality of unit toys using a connecting member, the assembling force of the structure is increased, and the area to be joined is expanded, so that the assembly of the piloti structure with which the minimum pillars are assembled is easy. In addition, when the at least one pair of unit toys are engaged, even when the positions of the magnets provided on the mating surfaces in contact with each other are shifted by a predetermined amount, there is an effect that the magnetic force can be coupled through the connection member.

Description

Magnetic Toy Set {Magnet Toy Set}

The present invention relates to a magnet toy using a magnet, and in more detail, the coupling member is further coupled between the at least one pair of unit toys or outside the pair of unit toys to increase the coupling force of each unit toy, and By expanding the area, as well as overcome the limitations of the coupling form of the conventional assembly, by increasing the bonding force with each unit toy, it is possible to assemble the structure using the minimum unit toys, assembling various types of structures Relates to a set of magnetic toys.

In general, magnet toys using magnets are assembled using a plurality of unit toys by connecting the surfaces with magnets to each other and assembling them into various shapes according to the intention of the user. Of course, it is possible to assemble in a variety of forms according to the assembly of the respective toys can cause continuous interest.

However, the range in which the conventional magnet toys can be assembled is limited depending on the number and arrangement of magnets provided on each side of the individual unit toys. That is, although at least one magnet is provided on each side of the unit toy, it is manufactured in consideration of the weight and manufacturing cost of the unit toy, the number and arrangement of the magnets are bound to be limited.

Such a limited number of magnets and their arrangements are limited in assembling with each unit toy, and may further influence creative and imagination. This problem will be described with reference to the drawings.

As shown in FIG. 1, a conventional magnetic toy 10 is provided on a surface where each unit toy 11 abuts each other when at least one pair of unit toys 11 abut each other and are coupled by a magnet 12. The coupling force is increased or decreased depending on the number of magnets 12 and their arrangement.

That is, when the magnet toy 10 combines at least a pair of unit toys, as shown in FIG. 1, the pair of unit toys 11 may be provided with the number of magnets 12 provided on abutting surface thereof and the magnets ( If the arrangement of 12) is the same as each other, not only the coupling is easy, but also the coupling force is increased so that the contact surfaces are eliminated from each other in the assembling process, or the surface and the surface misalignment in the assembly process can be prevented.

However, in the assembling process using the plurality of unit toys 11, it is not always possible to assemble using only the unit toys 11 of the same arrangement and the same number of magnets. This will be described with reference to FIGS. 2 and 3.

As shown, FIG. 2 shows that at least one pair of unit toys has a contact area of the same size and the same number of magnets 12, but the magnets are arranged differently in a predetermined manner.

When the arrangement of the magnets 12 is different as described above, only one magnet 12 among the plurality of magnets 12, that is, three magnets 12, as shown in the drawing, is in contact with each other. This is provided with a plurality of magnets 12, but its utilization is not easy.

In addition, since only one magnet 12 is used among the plurality of magnets 12, the coupling force due to the magnetic force is lowered, whereby dropping by the own weight may occur.

Here, the illustrated shape is an example of assembling using a pair of unit toys 11, when the pair of unit toys are combined, the arrangement of the magnets 12 provided on one surface in contact with each other is arranged differently It raises a problem, but is not limited to the shape shown.

Although not shown, when assembling a plurality of unit toys 11, even when the number and arrangement of magnets 12 are the same, the unit toys 110 may be assembled by assembling the plurality of unit toys 11. It may also occur when the magnet 12 is arranged differently from the surface to be assembled in the process of assembling a predetermined number or assembling the plurality of unit toys 11.

In addition, as shown in FIG. 3, when the pair of unit toys 11 are coupled to each other, when the pair of unit toys 11 are different in shape or size, the number and arrangement of the magnets 12 are different from each other, thereby limiting the coupling surface. . That is, as shown in FIG. 3, when the unit toys 11 are coupled along the leader line, the magnets 11 and the magnets 11 provided on each surface contact each other to be coupled to each other. Limited coupling to the provided position.

That is, it is limited to the position of the magnet 12 provided in each unit toy 11, the movement of up / down (Z) or left / right (X) is impossible, as well as the plurality of unit toys (11) In the case of assembling the used structure, the coupling surface of each unit toy is limited, and thus, the assembling of the structure may not be easy and may cause inconvenience in assembling to a desired shape.

On the other hand, the conventional magnetic toy 10 has a problem that is not easy to assemble in a spaced state as shown in FIG. That is, as shown in FIG. 4, it is not easy to assemble a structure in which at least one pair or a plurality of unit toys 11 are spaced apart from each other.

As an example of this, when assembling a pilotis structure using the magnetic toy 11, as shown in Figure 4a, a plurality of unit toys (11) vertically stacked first toy portion 20, A plurality of unit toys are composed of a horizontal second toy portion 30 is coupled to each other covering the upper end of the first toy portion 20 and the third toy portion 40 which is decorated on the upper end of the second toy portion 30. .

The first toy part 20 is formed by stacking a plurality of unit toys 11 vertically, but the stable state is maintained by gravity generated vertically, while the second toy part 30 is a plurality of unit toys (11) is assembled horizontally may cause a problem that the structure is collapsed by the coupling surface of each unit toy 11 is separated from each other by its own weight. That is, when the plurality of unit toys 11 are assembled side by side in parallel, there is a problem that the respective engaging surfaces are separated from each other by their own weight. In this case, the structure may be completed by adding a pillar supporting the plurality of unit toys 11 assembled horizontally, but commercially available magnetic toys 10 are packaged in a set unit, and unit toys ( There is a problem that only the limited structure and number of 11) can be used. That is, the structure can be assembled only within a limited quantity.

On the other hand, the conventional unit toy 11 is a constraint that can be assembled only when the magnet 12 and the magnet 12 abut each other. That is, as shown in Figure 4a, the assembly of each toy portion 20, 30, 40 consisting of a plurality of unit toys 11 is assembled along the leader line, this type is assembled in the form of Figure 4b.

Looking at Figure 4b, it is assembled depending on the position of the magnet provided in each of the toys 20, 30, 40, it can be seen that they are assembled to shift each other. That is, the conventional magnet toy 10 can be assembled only when the magnet 12 and the magnet 12 abut each other, thereby completing the structure. As a result, as shown in FIG. 4B, the coupling of the toy parts 20, 30, and 40 is limited to the position where the magnet 12 is formed. It is assembled with one side eccentric.

In addition, when looking at the first toy part 20 and the second toy part 30, the first toy part 20, that is, the first toy part 20 in the form of a pillar, may include a second toy part having a magnet ( It will be bound to the inside of 30).

As such, the conventional magnet toy 10 is also limited in the form of assembly, and thus, the structure to be assembled is also limited.

Therefore, in order to overcome the problems and limitations of the conventional magnetic toys, the magnetic toys can be assembled by using the minimum unit toys, and also, the magnetic force decreases when the at least one pair of the unit toys are combined with each other. Due to the separation of the coupling surface is prevented, when assembling, the mating surface is coupled to the mating surface by the magnetic coupling to the magnet toy to overcome the limitations of the assembly should be required.

Therefore, the present invention has been made to overcome the problems described above and the limitations of the conventional magnetic toys, the object of the present invention can be attached to the outer or between the plurality of unit toys to improve the bonding force by the magnetic To provide a set of magnetic toys.

Another object of the present invention is to allow at least one pair of unit toys to be coupled through the connecting member so that the unit toys can be combined through the connecting member even when the unit toys are spaced a predetermined distance or the contact area and the position of the magnet are misaligned. To provide a set of magnetic toys.

Yet another object of the present invention is to attach at least one pair of unit toys, a coupling member is further attached between or outside the pair of unit toys combined to improve the binding force of the unit magnet toy, and to expand the bonding area To provide a set of toys.

In order to achieve the above object, the present invention provides a magnet toy set comprising: at least two or more three-dimensional polyhedral unit toys having at least one or more rotating magnet parts formed on at least one surface thereof; And two or more connecting members coupled to the rotating magnet part to connect the two or more three-dimensional polyhedral unit toys by magnetic force, wherein the connecting member is formed on two or more different three-dimensional polyhedral unit toys. A surface distance of a length that can be coupled to two or more spaced apart rotating magnet parts, such that at least two or more three-dimensional polyhedral unit toys can be connected to each other with a single connecting member without direct contact between the rotating magnet parts. And the surface distance is a distance between the two points when connecting any two points on the surface of the connecting member in a straight line along the surface of the connecting member. Initiate.

The connecting member is one having at least one bent portion, and when the connecting member is folded based on the bent portion, it is preferable to have a rectangular planar shape.

It is preferable that any one or more of the horizontal to vertical lengths of the partial connecting members of the connecting member divided according to the bent portion correspond to any one or more lengths of the horizontal, vertical, and height of any specific surface of the three-dimensional polyhedral unit toy. Do.

The connecting member may have a planar polygonal shape or a planar shape having an outer surface thereof, and the connecting member may have a surface distance of a length that may be coupled to at least four or more rotating magnet parts included in at least two or more three-dimensional polyhedral unit toys. It is preferable to include.

The connecting member may be a planar shape including a planar polygonal shape or a portion in which at least a predetermined portion of the outer portion is curved, and the connecting member may connect at least four points to at least two or more of the three-dimensional polyhedral unit toys. It is preferable.

Preferably, the three-dimensional polyhedral unit toy includes a curved portion on at least one surface.

Preferably, the three-dimensional polyhedral unit toy includes a spherical portion on at least one surface or has a spherical shape.

The magnetic toy set preferably includes a three-dimensional polyhedral unit toy of at least one of a three-dimensional object shape, an animal shape, a plant shape, or a three-dimensional human shape.

The rotating magnet part includes a magnet, and the magnet is preferably rotatable or rotatable.

Preferably, the rotating magnet portion has a rotating shaft, and the magnet rotates or rotates about the rotating shaft.

The rotating magnet part may be included in a case in which the magnet is hollow, and the magnet may be freely rotated in the case.

At least 50% or more of the magnet is contained in a hollow cube, and the magnet is freely rotatable in the cube.

Preferably, the three-dimensional polyhedral unit toy includes at least one or more of the rotating magnet parts per surface.

At least two of the three-dimensional polyhedral unit toys constituting the magnet toy set are different from each other in the relative position of the rotating magnet part on the surface of the three-dimensional polyhedral unit toy on which the rotating magnet part is formed, and thus the two or more polyhedral units It is preferable to include the surface which the said rotating magnet parts do not directly contact in two or more points with respect to the surface which a toy contacts.

In order to achieve the above object, the present invention provides a magnet toy set comprising: at least two or more three-dimensional polyhedral unit toys having at least one or more magnets formed on at least one surface thereof; And two or more connection members coupled to the magnet part, wherein the two or more three-dimensional polyhedral unit toys are connected by magnetic force, wherein the connection member is a virtual straight line connecting the centers of the magnet parts to each other. Even when the surfaces of the connecting member are spaced apart at an acute angle, the magnetic force connection between the two or more three-dimensional polyhedral unit toys is possible through the connecting member, and the connecting member may include two or more members. At least two or more three-dimensional polyhedral unit toys each having a surface distance of a length that can be coupled to the two or more spaced magnets formed on different three-dimensional polyhedral unit toys, so as to be a single connection member To be connected to each other without direct contact of the magnet parts, the surface distance is a table of the connecting member Discloses a magnetic toy set, characterized in that the distance between the two points when it is connected in a straight line to any point on the second along the surface of the connecting member.

Preferably, the magnet part is a rotating magnet part.

The connecting member is one having at least one bent portion, and when the connecting member is folded based on the bent portion, it is preferable to have a rectangular planar shape.

The connecting member has a planar polygon shape or a planar shape having an outer curved surface, and the connecting member includes a surface distance of a length that can be coupled to at least four magnet parts included in at least two or more three-dimensional polyhedral unit toys. It is desirable to do it.

The connecting member may have a planar polygonal shape or a planar shape including a portion in which at least a predetermined portion is a curved surface, and the connecting member may connect at least four points with respect to at least two or more three-dimensional polyhedral unit toys. It is preferable.

The magnet unit includes a magnet, the magnet is preferably rotatable or rotatable.

Preferably, the three-dimensional polyhedral unit toy includes at least one or more of the magnet parts per surface.

Any two or more of the three-dimensional polyhedral unit toys constituting the magnet toy set are different from each other in the relative positions of the magnetic portions on the surface of the three-dimensional polyhedral unit toys on which the magnet portion is formed, so that the two or more polyhedral unit toys It is preferable to include a surface which is not in direct contact with the magnet parts at two or more points based on the contact surface.

The present invention for achieving the above object in the magnetic toy, a three-dimensional polyhedron, at least one rotating magnet unit provided on each side; And a connecting member coupled to the rotating magnet part to connect the at least one pair of unit toys to each other, wherein the connecting member includes the at least one between the at least one pair of unit toys or through the rotating magnet part. Disclosed is a magnet toy set, which is coupled to a pair of unit toy outer surfaces, and which can increase the bonding force of each unit toy and expand the bonding area.

It is preferable that the said connection member is a plate of a flat plate, and is a form which combined at least any one of rectangular, square, circular, elliptical, and closed curve shape, or at least one or more of said each shape.

When the connecting member is rectangular or rectangular, it is preferable that each corner is rounded.

It is preferable that at least one bent part bent at a predetermined angle is formed on one surface between both ends in the longitudinal direction.

According to the configuration of the present invention, the following effects can be expected.

According to the present invention, when the plurality of unit toys are combined, the coupling member may be further attached between the unit toys or the outer side of the unit toys in which at least one pair is coupled, thereby improving the bonding force by the magnetic force.

The present invention has the effect of being able to connect or couple at least a pair of unit toys spaced apart through the connecting member.

The present invention has the effect that can be coupled through the connecting member even when the plurality of unit toys, the size of the bonding surface facing each other or the number and magnet arrangement of the unit toys are different.

According to the present invention, when assembling a plurality of unit toys using a connecting member, the binding force between the unit toys is improved, so that the block supporting the assembly such as a column can be deleted, thereby minimizing the use of the unit toy. There is.

In the present invention, when assembling a structure by combining a plurality of unit toys using a connecting member, the coupling force of the structure is increased, and the area to be joined is expanded, so that the assembly of the piloti structure with which the minimum pillars are assembled on the axis is easy. It works.

According to the present invention, when the at least one pair of unit toys are coupled, even when the positions of the magnets provided on the mating surfaces in contact with each other are shifted by a predetermined amount, the coupling may be performed by the magnetic force.

1 is a perspective view illustrating a conventional magnetic toy,
2 to 4 is a coupling state diagram for explaining the coupling state of the conventional magnetic toys,
Figure 5 is a coupling diagram shown to explain the magnetic toy set according to an embodiment of the present invention,
6 is a perspective view of a unit toy shown to explain the coupling state of each unit toy according to an embodiment of the present invention,
7 to 10 are cross-sectional views for explaining the rotating magnet portion according to an embodiment of the present invention,
11 is a plan view and an exploded view illustrating a first example of a connecting member according to a preferred embodiment of the present invention;
12 is a cross-sectional view taken along the line AA of FIG. 11;
13 is a plan view and an exploded view showing a second example of a connecting member according to a preferred embodiment of the present invention;
14 is a cross-sectional view taken along the line AA of FIG. 13;
15 to 22 are plan views and separation views shown to explain a third example of the connecting member according to an embodiment of the present invention;
23 to 27 are a plan view and an exploded view showing a fourth example of a connecting member according to a preferred embodiment of the present invention;
28 is a plan view illustrating a fifth example of a connecting member according to an exemplary embodiment of the present invention;
29 to 34 are combined state diagrams for explaining the coupled state of the magnetic toy set according to an embodiment of the present invention,
35 is a coupling state diagram for explaining an example of a structure using a magnetic toy set according to an embodiment of the present invention, and
36 is a coupling state diagram for explaining another example of the structure using a magnetic toy set according to an embodiment of the present invention.

Hereinafter, a preferred embodiment of the magnetic toy set according to the present invention will be described in detail with reference to the accompanying drawings. In the following description of the present invention, a detailed description of known functions and configurations incorporated herein will be omitted when it may make the subject matter of the present invention rather unclear.

In describing the present invention, the defined terms are defined in consideration of the functions of the present invention, and they can be changed according to the intention or custom of the technician working in the field, and the definition is based on the contents throughout this specification It should be reduced.

5 is a perspective view showing a magnetic toy set according to an embodiment of the present invention.

As shown, the magnet toy 100 is largely composed of a unit toy 110 having a block shape and a connection member 130 coupled to or attached to the unit toy 110.

The unit toy 110 is a three-dimensional polyhedron, and at least one rotating magnet part 120 is provided on each surface so that at least one or more pairs of unit toys 110 can be assembled to each other to assemble various structures, and have various shapes. do.

The unit toy 110 has a rectangular box shape as shown in the figure, as well as a spherical shape, a semicircular shape having a predetermined thickness, and at least one surface portion R as shown in FIGS. 6 to 36. Or is composed of a shape including the spherical portion (C) and the shape of a three-dimensional person, although not shown, may be configured to further include the shape of objects, animals and plants.

In addition, the rotating magnet unit 120 is for coupling at least one pair of unit toys 110 through a magnetic force, that is, the coupling by a magnet, a detailed description thereof will be described later.

The connection member 130 is made of a metal which can be coupled to the rotating magnet part 120, and is for coupling at least one pair of unit toys 110 as shown in the drawing.

That is, as shown, the pair of unit toys 110 are coupled to each other through the rotating magnet portion 120 provided on the surface facing each other. At this time, each surface is provided with one rotating magnet portion 120, the coupling force of the unit toy 110 through the magnetic force is weak, or due to its weakness or at least one unit toy 110 is rotated in contact with each other There is a problem in that the magnet portion 120 is rotated by an axis to be fixed differently from the intention of the user.

Therefore, the connecting member 130 is weak by the magnetic force to prevent each engaging surface from falling off, or by attaching to the side of the pair of unit toys 110 as shown in the form of the structure to be fixed as the user's intention, The above problem can be solved. That is, in the pair of unit toys 110, the rotating magnets 120 provided at the respective coupling surfaces are coupled to each other by magnetic force, and the other surface is indirectly supported by the connecting member 130.

Such a connection member 130 is configured in a variety of shapes, as shown in Fig. 11 to Fig. 36 to be described later or rectangular. In addition, the connection member 130 is not limited to the illustrated shape, which corresponds to the shape of the unit toy 110, the shape capable of efficient operation according to the shape of the structure using a plurality of unit toys 110 Is very preferred. At this time, each corner of the connection member 130, that is, the outer edge is preferably processed into a curved surface to prevent the user from scratching or the occurrence of injuries by sharp edges.

Meanwhile, the rotating magnet part 120 provided on each surface of the unit toy 110 will be described with reference to FIG. 6.

6 is a perspective view of a unit toy shown to explain the combined state of each unit toy according to an embodiment of the present invention;

As shown in the drawing, the rotating magnet part 120 is provided with at least one of each surface of the unit toy 110. At this time, the rotating magnet 120 is preferably applied differentially according to the size and shape of the unit toy 110, the illustrated unit toy 110 is carried out through the unit toy 110 made of a small unit size Explain the example.

FIG. 6A illustrates a state in which the rotating magnet part 120 is embedded in each side of the unit toy, and as shown in FIG. 6B, the rotating magnet part 120 is formed in the magnet accommodating horn 111 formed on each side of the unit toy. Landfilled. That is, after forming grooves of a size corresponding to the rotating magnet portion 120 so that the rotating magnet portion 120 is embedded in each surface of the unit toy 110, the rotary magnet portion 120 is embedded therein to press-fit or adhesive It is fixed using the back. Such a rotating magnet unit 120 will be described in more detail with reference to FIGS. 7 to 10.

7 to 10 are cross-sectional views for explaining a rotating magnet unit according to an embodiment of the present invention.

As shown in FIG. 5, when the pair of unit toys 110 are coupled to each other as shown in FIG. 5, when the polarities of the rotating magnets 120 which come into contact with each other are different from each other, a coupling force is generated by magnetic force. However, if the same polarity with each other there is a problem that the coupling is impossible due to the repulsive force by the magnetic force.

Therefore, when combining a pair of unit toys 110, it is always maintained in a different polarity to facilitate the coupling of each unit toy. This will be described in detail with reference to the rotating magnet 120 embedded in various forms with reference to each drawing.

FIG. 7 illustrates an example of the rotating magnet part 120, and the rotating magnet part 120 includes a case 123 having a housing shape and a magnet part 121 accommodated inside the case 123. do.

The case 123 is a cylinder or a cube formed into an empty space therein, and preferably has a shape in which the magnet portion 121 can be accommodated in the empty space thereof.

Meanwhile, the magnet housing horn 111 accommodating the rotating magnet part 120 may correspond to the shape of the case 123, or the shape of the case 123 may be manufactured to correspond to the shape of the magnet housing horn 111. have.

In addition, as shown, the magnet portion 121 has an N pole and an S pole with respect to the center line, and is accommodated inside the case 123 with a size of at least 50% of the inner space of the case 123. Preferably, this will be described with reference to FIG.

FIG. 8 illustrates an operation of the rotating magnet part 120 of FIG. 7, and FIG. 8A illustrates a state in which a pair of unit toys 110 are coupled by the rotating magnet part 120.

Referring to FIG. 8A, the pair of unit toys 110 are coupled to each other, but the N poles having the same polarity of the magnet parts 121 facing each other face each other, so that the pair of unit toys 110 are close by the repulsive force. It can be seen that the magnets 121 that face each other are pushed out from each other.

However, the magnet part 121 is about 50% of the inner space of the case 123 and is pushed by the repulsive force. As shown in FIG. 8B, the magnet part 121 rotates inside the case 123 by a pair of magnets. The unit toy 110 may be combined by magnetic.

That is, by using magnetic force, when the polarities are different from each other, the polarity is switched so that the bond ready state can be maintained at all times.

In addition, FIG. 9 illustrates another example of the rotating magnet part 120. The rotating magnet part 120 includes a magnet part 121 embedded in the magnet accommodating horn 111 and a magnet part 121. It is composed of a rotation shaft 127 protruded to both sides.

That is, when the pair of unit toys 110 are coupled, when the magnets 121 of the unit toys facing each other have different polarities, at least one magnet 121 is rotated about the rotation shaft 127 to be coupled. This is to make it possible.

10 illustrates another example of the rotating magnet part 120, in which the rotating magnet part 120 is embedded in the magnet accommodating horn 111 in the form of a sphere.

At this time, the magnet accommodating horn 111 also has the same shape as the rotary magnet part 120 but has a predetermined large internal space, so that the rotatable magnet part 120 can be rotated in the magnet accommodating groove 111. Will be.

Accordingly, when the pair of unit toys 110 are coupled to each other, when the magnets 121 of the unit toys facing each other have the same polarity, at least one magnet 121 is rotated in the magnet accommodating groove so that the polarity thereof is increased. It can be transformed so that a pair of unit toys 110 can be combined.

As described above, the rotating magnet unit 120 has an advantage in that the assembling of the plurality of unit toys 110 can be easily performed as the polarity change is freely converted as described with reference to FIGS. 7 to 10. .

On the other hand, the unit toys 110 may be limited to the shape that is coupled according to the position and arrangement of the rotating magnet unit 120, when at least one pair of unit toys 110 are coupled, which will be described later with reference to FIGS. It is possible to overcome through the connecting member 130 as shown in 28, which will be described in detail with reference to the drawings below.

11 is a plan view and an exploded view illustrating a first example of a connecting member according to an exemplary embodiment of the present invention.

First, the connecting member 130 includes a surface distance of a length that can be coupled to two or more spaced rotating magnet parts 120 formed on two or more different three-dimensional polyhedral unit toys 110, It is to be able to connect at least two or more three-dimensional polyhedral unit toys 110 with each other without a direct contact of the rotating magnet portion 120 with a single connection member 130. In addition, the surface distance is a distance between two points when two arbitrary points of the surface of the connecting member 130 are connected along the surface of the connecting member 130 in a straight line, and thus the respective connecting members 130 will be described. do.

As shown in FIG. 11A, the connecting member 130 is a plate of a flat plate and has a rectangular shape, and each corner portion is rounded.

When the plurality of unit toys 110 are combined using the connection member 130, as shown in FIG. 11B, the coupling area of each unit toy 110 is expanded to facilitate the coupling, and the coupling force is also increased to increase the unit toys. The engagement surface of the 110 can be prevented from falling off, which will be described with reference to FIG. 12.

12 is a cross-sectional view taken along the line A-A of FIG. 11.

Looking at the upper / lower unit toys 110 coupled through the connecting member 130 as shown, the upper / lower unit toys 110 are coupled by a magnetic force, but the direct contact through the rotating magnet portion 120 It can be seen that is not achieved. That is, the coupling of the upper and lower unit toys 110 is an indirect coupling through the connection member 130, not the coupling with each of the rotating magnet portion 120.

In other words, each of the upper and lower unit toys 110 is coupled to the connection member 130, not to the upper and lower unit toys 110. That is, the upper and lower unit toys 110 are coupled to the connection member 130 independently of each other.

Therefore, the unit toy 110 located at the top is to be attached and coupled to any one surface provided with a connection member 130.

If the upper / lower unit toys are combined in a state in which the connecting member is excluded, as in the conventional magnetic toys, the upper unit and the lower unit toys may not be coupled between both ends of the lower unit toy. This is because there is no rotating magnet in the center. In other words, when the connection member is excluded, the upper unit toy is moved left or right, and thus the rotating magnet part of the upper unit toy is bound to only the rotating magnet part of the lower unit toy.

Such a problem may be disregarded by the user due to a problem that the combination of the unit toys 110 is limited and can be assembled differently from the user's intention.

On the other hand, the connection member 130 has an advantage that can further increase the bonding force, which will be described with reference to FIG.

13 is a plan view and an exploded view illustrating a second example of a connecting member according to an exemplary embodiment of the present invention.

As shown in FIG. 13A, the connection member 130 is similar to FIG. 12, but at least one side of the connection member 130 has a predetermined width. However, the shape of the connection member 130 also varies according to the size of the unit toy 110 coupled with the connection member 130 and the number and arrangement of the rotating magnet parts 120, which are referred to together with FIG. 13B. To explain.

As shown in FIG. 13B, the number of the rotating magnets 120 is configured in plural to provide the unit toy 110 with a size and a coupling force suitable for its weight.

However, although the number of the rotating magnets 120 provided on one surface of the upper and lower unit toys 110 facing each other is the same, it can be seen that the arrangement of the predetermined difference. If the upper / lower unit toys are coupled in a state where the connection member 130 is excluded, only one rotating magnet part 120 of the three rotating magnet parts 120 is coupled to one rotating magnet part ( There is a problem that must be maintained through 120). That is, a problem arises that can not be given a bonding force suitable for the weight. This is because the coupling surface of each of the toy unit 110 is dropped from each other due to the coupling force is not able to complete the structure according to the user's intention.

Therefore, the connecting member 130 is provided between the upper and lower unit toys 110 so that the coupling force is maintained even if the arrangement of the plurality of rotating magnet parts 120 provided in the upper and lower unit toys 110 facing each other is different. It is further provided. The upper and lower unit toys 110 may have a form in which they are coupled to each other through the connecting member 130, but the upper and lower unit toys 110 may be combined with the connecting member 130 and the upper and lower unit toys 110. ) Is not combined. This will be described with reference to FIG. 14.

14 is a cross-sectional view taken along the line A-A of FIG. 13.

The upper / lower unit toys 110 are indirect couplings through the connection member 130, not coupling between the rotating magnets 120 provided in the upper / lower unit toys 110 as shown.

That is, the entire rotating magnet part 120 provided on one surface of the plurality of upper and lower facing unit toys 110 is coupled with the connection member 130 to be given according to the size and weight of each unit toy 110. It can be coupled through the connecting member 130 without wasting magnetic force.

In addition, the connection member 130 may be represented by various shapes other than a simple coupling, which will be described with reference to FIGS. 15 to 22.

15 is a plan view and an exploded view illustrating a third example of the connecting member according to the preferred embodiment of the present invention.

As shown in FIG. 15A, the connecting member 130 may have a cross shape or a shape that may be used as an X and a multiplication by a predetermined rotation.

In this way, it can also be used as an assembly frame for assembling a plurality of unit toys 110 using the cross connecting member 130, or the structure itself can be completed.

The cross connecting member 130 may be coupled as shown in FIG. 15B, which will be described with reference to FIG. 16.

FIG. 16 is a front view and a cross-sectional view of FIG. 15. Referring to the front view of FIG. 16A, the coupling of the rotating magnet part 120 provided in each unit toy 110 is not performed. That is, it will be appreciated that the plurality of unit toys 110 are coupled through the connection member 130. This can be clearly seen in FIG. 16B showing a cross section taken along line A-A in FIG. 16A.

Referring to FIG. 16B, it can be seen that the rotating magnet part 120 of each unit toy 110 is coupled with the connection member 130, and the shape can be maintained by the connection member 130.

And, the combination of the above-described manner is combined in the same manner as the "Y" shape shown in Figs. 17 and 18, the "T" shape shown in Figs. 19 and 20 and the semicircle shape shown in Fig. 21 are also combined. The detailed description thereof will be omitted, which is represented only by the drawings.

On the other hand, Figure 22 is a plurality of unit toys 110 can be connected in a predetermined spaced state, which will be described as an example of the disk shape as shown in Figure 22a.

As shown in FIG. 22A, the connecting member 130 has a disc shape in which a plurality of unit toys 110 are spaced apart from each other, as shown in FIG. 22B. It can be kept in a state.

As an example using the connecting member 130 of the disc, the four unit toys 110 spheres are spaced apart by a predetermined distance, the coupling member 130 of the disc can be coupled to the upper end to form a kind of stage. . That is, as shown in FIG. 36, the stage toy can also be attached by attaching the unit toy 110 of a human shape on the original plate.

However, the unit toys 110 may be spaced apart from each other by being connected to or coupled to each other, not limited to the connecting member 130 of the original plate, and the connecting member 130 having the shape illustrated in FIGS. 11 to 21 described above may be used. Yes, it is preferable, which can be applied according to the utilization by the user.

Meanwhile, the connection member 130 is not limited to the flat plate, and may have a curved or curved surface in various forms as shown in FIGS. 23 to 28, which will be described later with reference to the drawings.

23 to 27 are a plan view and an exploded view illustrating a fourth example of a connecting member according to an exemplary embodiment of the present invention.

As shown in FIG. 23A, the connecting member 130 includes at least one bent portion 131 formed on one surface between both ends, and is configured as a partial connecting member 133 on each side of the bent portion 131. do.

Partial connection member 133 has a size corresponding to any one or more of the length, width, and height of any particular surface of the unit toy 110, at least one of the horizontal to vertical length, which is shown in Figure 23b As combined. That is, at least one pair of unit toys 110 is freely coupled vertically or horizontally through the connection member 130.

Such a shape of the connection member 130 may be formed in various shapes and lengths according to the width, length and height of the unit toy, for example, as shown in Fig. 24, 24a, 24b The members 130 may be square or rectangular in shape with respect to the bent portion 131. Although not illustrated, each partial connecting member ie, the first partial connecting member 133-1 may be formed. Preferably, the second connecting member 133-2 may be formed in a rectangular shape.

In addition, the angles of the respective connection members 130 may be variously formed based on the bent portion 131, which may be perpendicular to each other as illustrated in FIGS. 23 and 24, or may be formed at an acute angle as illustrated in FIG. 25. have. This, too, can be applied in various ways depending on the shape and combination of the unit toy 110.

In addition, as shown in FIG. 26, the connection member 130 may have different shapes from the partial connection member 133 based on the bent portion 131. That is, the first partial connecting member 133-1 may have a rectangular shape, and the second partial connecting member 133-2 may be manufactured in a semicircular shape.

As such, the connection member 130 may be formed in various angles of the plurality of bent portion 131 and the bent portion 131 according to the assembly form or shape of the unit toy 110, which is shown in FIG. As shown, two bent portions 131 may be formed.

FIG. 27A has two bent portions 131, and a plurality of partial connecting members 133-1, 133-2, and 133-2 are formed based on the respective bent portions 131-1 and 131-2. Reference numerals 133-1, 133-2, and 133-2 may be formed at right angles, or may be formed at obtuse angles as shown in FIG. 27B.

On the other hand, the connection member 130 is not limited to the shape bent at a predetermined angle, it may be formed in a curved surface as shown in Figure 28a, b.

As such, when the connection member 130 is formed in a curved surface, it is possible to couple with the inner or outer edge of the unit toy 110 shown in FIG. 21, and replaces the connection member 130 of FIG. 21A. Toys 110 may be combined.

As described above, the magnetic toy 100 of the present invention can be integrated without the coupling of the rotating magnet unit 120 by combining the at least one pair of unit toys 110 using the connecting member 130, and also to rotate to face each other Even when the position of the magnet unit 120 is shifted by a predetermined amount, the coupling member 130 may be coupled. That is, in the related art, when the pair of unit toys 110 are coupled, the rotating magnets 120 provided on the respective coupling surfaces may be vertically or horizontally contacted with each other, but the present invention may be coupled to at least one pair of units. When combining the toy 110, even if the rotating magnet portion 120 provided on each coupling surface is a predetermined shift, such as acute angle, not vertical or horizontal, can be coupled to each other by the connecting member 130, of course, the coupling force You can also increase it.

As described above, the first assembly example of the structure by the magnetic toy 100 of the present invention will be described with reference to FIGS. 29 to 34.

29 to 34 are coupled state diagrams for explaining the coupled state of the magnetic toy set according to an embodiment of the present invention.

FIG. 29 illustrates that the structure is assembled with reference to a giraffe, and is assembled through a plurality of unit toys 110 and a connection member 130. Thus, the plurality of unit toys 110 and a connection member 130 are described. ) Will be described with reference to FIGS. 30 to 34.

Giraffe is characterized by a long leg and a long neck, according to the assembly process according to, first, by using a plurality of unit toys 110 is divided into the giraffe's legs, torso and neck blocks, each leg, torso and neck The block will be described with reference to the drawings that are coupled through the connecting member 130.

The giraffe's leg and torso block are coupled by attaching a connecting member 130 between the leg and the torso block as shown in FIG. 30, and the body and neck blocks are also sandwiched therebetween as shown in FIG. The connecting member 130 can be combined to combine.

Meanwhile, referring to FIG. 32, when the long neck, which is a characteristic of the giraffe, is expressed, and the head block of the giraffe is further formed at the top of the neck, the head block protrudes horizontally from the top of the neck block, and the head block protrudes horizontally. The weight of the neck and the head block can be eliminated from each other. Thus, as shown in the drawing, the coupling member 130 connecting the neck and the head block may be attached to prevent the head block from falling off from the neck block.

And, when the giraffe is expressed, there is an advantage that can be expressed through the connection member 130, such as the expression of the detailed portion of the ear or tail. That is, in order to express the tail of the giraffe as shown in FIG. 33, after further attaching the connecting member 130 to the rear of the trunk block, the predetermined unit toy 110 is further attached to one surface of the connecting member 130. You can also express the tail.

On the other hand, the body block is a plurality of unit toys are horizontally coupled, the coupling surface of each of the unit toys 110 by their own weight, or the number and the arrangement of the rotating magnet portion 120 is different from the coupling surface This may be eliminated.

Therefore, as shown in FIG. 34, the connecting member 130 may further reinforce the trunk block to prevent the coupling surface of each unit toy from falling off.

Meanwhile, the conventional problem presented through FIG. 4 may be solved through the present invention, which will be described with reference to FIG. 35.

35 is a coupling state diagram illustrating an example of a structure using a magnetic toy set according to an exemplary embodiment of the present invention.

As shown, the structure using the plurality of unit toys and the connecting member 130 is a structure of the pilot type.

Here, the piloti method, by opening the lower part through the pillar, and raising the building to the upper pillar, can also be assembled stably using the magnetic toy 100 of the present invention.

That is, as shown, the pilot-type structure is composed of a plurality of pillar blocks, horizontal blocks, and decorative blocks, and attaching the connection member 130 between each block to ensure a stable shape as well as assembly according to the user's intention. It can be seen that it is possible.

In addition, as illustrated in FIG. 36, the plurality of unit toys may be assembled at predetermined intervals.

100: Magnet Toy Set 110: Unit Toys
111: magnet receiving groove 120: rotating magnet portion
121: magnet 123: case
127: axis of rotation 130: connection member
131: bend portion 133: partial connection member

Claims (26)

In the magnetic toy set,
At least two or more three-dimensional polyhedral unit toys having at least one or more rotating magnet parts formed on at least one surface thereof; And
It is coupled to the rotating magnet, and comprises two or more connection members for connecting the two or more three-dimensional polyhedral unit toys by magnetic force,
The connecting member comprises a surface distance of a length that can be coupled to two or more spaced apart rotating magnet parts formed on two or more different three-dimensional polyhedral unit toys, so that at least one single connecting member To connect two or more three-dimensional polyhedral unit toys to each other without direct contact of the rotating magnet parts, wherein the surface distance connects any two points on the surface of the connecting member in a straight line along the surface of the connecting member. Magnetic toy set, characterized in that the distance between the two points when. The method of claim 1,
The connecting member has at least one bent portion, the magnet toy set characterized in that it has a rectangular planar shape when folding the connecting member based on the bent portion. The method of claim 2,
Any one or more of the horizontal to vertical length of the partial connecting member of the connecting member divided according to the bent portion corresponds to the length of any one or more of the horizontal, vertical, and height of any particular surface of the three-dimensional polyhedral unit toy Magnetic toy set, characterized in that. The method of claim 1,
The connecting member may have a planar polygonal shape or a planar shape having an outer surface thereof, and the connecting member may have a surface distance of a length that may be coupled to at least four or more rotating magnet parts included in at least two or more three-dimensional polyhedral unit toys. Magnetic toy set characterized in that it contains. The method of claim 1,
The connecting member may be a planar shape including a planar polygonal shape or a portion in which at least a predetermined portion of the outer portion is curved, and the connecting member may connect at least four points to at least two or more of the three-dimensional polyhedral unit toys. Magnetic toy set characterized in that. The method of claim 1,
The three-dimensional polyhedral unit toy is a magnet toy set, characterized in that it comprises a curved portion on at least one surface. The method of claim 1,
The three-dimensional polyhedral unit toy is a magnet toy set, characterized in that it comprises a spherical portion on at least one surface or a spherical shape. The method of claim 1,
The magnet toy set is a magnet toy set, characterized in that it comprises a three-dimensional polyhedral unit toy of at least one of three-dimensional object shape, animal shape, plant shape or three-dimensional human shape. The method of claim 1,
The rotating magnet unit includes a magnet, the magnet toy set, characterized in that the rotating or rotatable. The method of claim 9,
The rotating magnet portion has a rotation axis, the magnet toy set, characterized in that the magnet rotates or rotates about the rotation axis. The method of claim 9,
The rotating magnet part is a magnet toy set, characterized in that the magnet is contained in the hollow case, the magnet is freely rotatable in the case. The method of claim 9,
And said rotating magnet portion is contained in a hollow cube at least 50% of said magnet, said magnet being freely rotatable in said cube. The method of claim 1,
The three-dimensional polyhedral unit toy is a magnet toy set, characterized in that it comprises at least one of the rotating magnet portion per surface. The method of claim 1,
At least two of the three-dimensional polyhedral unit toys constituting the magnet toy set are different from each other in the relative position of the rotating magnet part on the surface of the three-dimensional polyhedral unit toy on which the rotating magnet part is formed, and thus the two or more polyhedral units Magnetic toy set, characterized in that it comprises a surface that is not in direct contact with the rotating magnet portion at two or more points on the surface that the toy is in contact. In the magnetic toy set,
At least two or more three-dimensional polyhedral unit toys formed with at least one magnet portion on at least one surface; And
And two or more connection members coupled to the magnet part and connected by two or more three-dimensional polyhedral unit toys by magnetic force.
The connecting member may include the two or more three-dimensional polyhedral units via the connecting member even when the virtual straight line connecting the central portions of the magnet parts and the surface of the connecting member are spaced apart at an acute angle. To enable magnetic coupling between toys,
The connecting member comprises a surface distance of a length that can be coupled to two or more spaced apart magnet parts formed on two or more different three-dimensional polyhedral unit toys, so that at least one single connecting member Two or more three-dimensional polyhedral unit toys are connected to each other without direct contact of the magnet parts, and the surface distance may be connected to any two points on the surface of the connecting member in a straight line along the surface of the connecting member. A magnet toy set, characterized in that the distance between the two points of time. 16. The method of claim 15,
Magnetic toy set, characterized in that the magnet is rotatable. 16. The method of claim 15,
The connecting member has at least one bent portion, the magnet toy set characterized in that it has a rectangular planar shape when folding the connecting member based on the bent portion. 16. The method of claim 15,
The connecting member has a planar polygon shape or a planar shape having an outer curved surface, and the connecting member includes a surface distance of a length that can be coupled to at least four magnet parts included in at least two or more three-dimensional polyhedral unit toys. Magnetic toy set characterized by doing. 16. The method of claim 15,
The connecting member may have a planar polygonal shape or a planar shape including a portion in which at least a predetermined portion is a curved surface, and the connecting member may connect at least four points with respect to at least two or more three-dimensional polyhedral unit toys. Magnetic toy set characterized in that. 16. The method of claim 15,
The magnet unit includes a magnet, the magnet toy set, characterized in that the rotating or rotatable. 16. The method of claim 15,
The three-dimensional polyhedral unit toy is a magnet toy set, characterized in that it comprises at least one or more of the magnet portion per surface. 16. The method of claim 15,
Any two or more of the three-dimensional polyhedral unit toys constituting the magnet toy set are different from each other in the relative positions of the magnetic portions on the surface of the three-dimensional polyhedral unit toys on which the magnet portion is formed, so that the two or more polyhedral unit toys Magnetic toy set, characterized in that it comprises a surface which is not in direct contact with the magnet portion at two or more points based on the contact surface. In the magnetic toy set,
A three-dimensional polyhedron, comprising: a unit toy provided with at least one rotating magnet portion on each side; And
And a connection member coupled to the rotating magnet to connect the at least one pair of unit toys to each other.
The connection member may be coupled to the at least one pair of unit toys outer surfaces between the at least one pair of unit toys or through the rotating magnet to increase the coupling force of the unit toys and expand the coupling area. Magnetic toy set, characterized in that. The method of claim 23, wherein
The connecting member,
A flat plate, wherein at least one of rectangular, rectangular, circular, elliptical, and closed curve shapes, or a combination of at least one or more of the above shapes, is a magnet toy set. 25. The method of claim 24,
When the connecting member is rectangular or rectangular, the magnet toy set, characterized in that each corner is rounded. 25. The method of claim 24,
The connecting member,
Magnet toy set, characterized in that at least one bent portion bent at a predetermined angle on any one surface between both ends in the longitudinal direction.

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