JP3222470U - Block toys - Google Patents

Abstract

A block toy capable of repeating the coupling of blocks in any of three axial directions orthogonal to each other and capable of intuitively modeling a three-dimensional shape. A block toy in which a plurality of block bodies 1 formed in a regular hexahedron are connected by a magnetic force and a magnet 11 is arranged in the vicinity of each of four corners on each surface 10 of the block body 1. Of these four magnets 11, a pair of S poles are arranged on one diagonal line orthogonal to each other on each surface 10, and a pair of N poles are arranged on the other diagonal line. Magnetic poles having the same polarity are adjacent to each other on the surfaces 10 adjacent to each other. [Selection] Figure 1

Description

  The present invention relates to a block toy capable of combining a plurality of blocks and assembling any three-dimensional shape.

  As this type of block toy, one disclosed in Patent Document 1 is known. The block toy shown in the same document is provided with magnets for the eight corners of the block body formed in a cube, and connects the block bodies using the magnetic force of the magnet. It is configured. Further, the magnet is formed in a spherical shape, and the spherical magnet is rotatably accommodated in an accommodation chamber provided at a corner of the block body. For this reason, when the corners of the block bodies are brought close to each other, the N pole of one spherical magnet and the S pole of the other spherical magnet are attracted to each other, and these spherical magnets rotate by themselves in the accommodation chamber, This makes it possible to connect the block bodies without causing repulsion between the magnets.

JP-A-2019-24759

  However, in the block toy of Patent Document 1, since the N pole and the S pole are provided in the opposite directions of the diameter of the spherical magnet, there is no problem if a plurality of block bodies are repeatedly connected in one direction. If one block body is connected to another block body from two or three directions orthogonal to each other, there is a concern that the magnetic force of the spherical magnet does not sufficiently act, and there is a degree of freedom in modeling a three-dimensional shape. It was low.

  The present invention has been made in view of such problems, and the object of the present invention is to be able to repeat the combination of blocks in any direction of three axial directions orthogonal to each other, and intuitively to form a three-dimensional shape. Providing a block toy capable of forming a

  That is, the present invention is a block toy that plays by connecting a plurality of block bodies formed in a regular hexahedron by magnetic force, and magnets are arranged in the vicinity of each of the four corners on each side of the block body. Of the four magnets, a pair of S poles are arranged on one diagonal line orthogonal to each other, and a pair of N poles are arranged on the other diagonal line. Further, on the adjacent surfaces of the block body, Magnetic poles of the same polarity are adjacent to each other.

  According to the present invention as described above, by making the north and south poles of the magnets arranged on each surface of the block body face each other, the block bodies that are regular hexahedrons are successively formed by the magnetic force acting between these magnetic poles. It is possible to combine, and it is possible to repeat the joining of block bodies in any direction of three axial directions orthogonal to each other. Therefore, it is possible to form a three-dimensional three-dimensional shape freely and intuitively without minding the connection between blocks.

It is a perspective view showing a first embodiment of a block toy to which the present invention is applied. It is a sectional view of a block toy of a first embodiment. It is an expanded view of a block toy of a first embodiment. It is a perspective view which shows the 1st connection example of the block toy to which this invention is applied. It is a perspective view which shows the 2nd connection example of the block toy to which this invention is applied. It is a perspective view which shows 2nd embodiment of the block toy to which this invention is applied.

  Hereinafter, embodiments of a block toy to which the present invention is applied will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view showing a first embodiment of a block toy 1 of a block toy to which the present invention is applied. The block body 1 is formed in a regular hexahedron, and four magnets 11 are disposed on each of the faces 10 where the hexahedron exists. Each of the magnets 11 is disposed in the vicinity of the four corners of each surface.

  FIG. 2 is a cross-sectional view of the block body 1. The block body 1 is manufactured by injection molding of synthetic resin, and the inside is hollow. As a specific manufacturing method, the regular hexahedron is completed by injection-molding the five faces of a regular hexahedron as an integral first member, while the remaining one surface is injection-molded as a second member, and combining the two after molding. Can do. The magnet 11 is attached to each surface 10 of the block body 1 from the inside of the block body 1. The magnet 11 is formed in a disc shape, and N and S poles are magnetized on the front and back, and the front and back of the magnet 11 are selected and pasted on the back side of each surface 10 of the block body 1. By attaching, an arbitrary magnetic pole appears on the front side of each surface 10 of the block body 1.

  FIG. 3 is a development view of the block body 1 and shows a magnetic pole arrangement of the magnet 11 on each surface 10. As the magnetic pole arrangement of the magnet 11 on each surface 10 of the block body 1, a pair of S poles is arranged on one of the two diagonals orthogonal to each other on the surface 10, and on the other diagonal A pair of N poles are disposed in. Further, the magnet 11 is provided at a position from a corner of each surface 10 of the block body 1 to a quarter of the length of the diagonal. That is, assuming that each surface 10 is divided into four squares at the center line, the magnet 11 is disposed at the center of the four divided squares. Furthermore, as shown in the figure, in two adjacent surfaces of the block body 1, magnetic poles of the same polarity are adjacent to each other across the side. For this reason, as shown in FIG. 1, at eight corners provided in the block body 1, three magnetic poles of the same polarity are arranged so as to surround each corner.

  FIG. 4 is a view showing how the block body 1 is coupled by the magnetic force of the magnet 11. The two block bodies 1 are connected to each other by the magnetic force acting between the magnets 11 when the north pole and the south pole of the magnet 11 face each other on the face 10 facing each other. If the N pole and the N pole, and the S pole and the S pole of the magnet 11 face each other, the magnets repel each other, so the two block bodies 1 can not be connected. In that case, by rotating one block body 1 by 90 degrees, the N pole and S pole of the magnet 11 face each other, and the two block bodies 1 can be connected again.

  Further, since the south pole and the north pole of the magnet are arranged diagonally on each face 10 in the block body 1, as shown in FIG. It is also possible to repeatedly couple to (X axis, Y axis, Z axis). Therefore, it is possible to freely create a three-dimensional three-dimensional shape by using the block toy of the present invention.

  Further, assuming that each surface 10 of the block body 1 is divided into four squares by a center line, the magnet 11 is located at the center of each divided square, as shown in FIG. In addition, it is possible to connect the block bodies 1 in a state of being displaced by half with respect to the other block bodies 1. Also in this respect, using the block toy of the present invention, it is possible to freely create various three-dimensional three-dimensional shapes.

  3 to 5 simply show the arrangement of the magnetic poles of the magnet 11 on the surface of the block body 1, and the magnet 11 cannot actually be visually recognized on the surface of the block body 1.

  Next, FIG. 6 is a sectional view showing another embodiment of the block body to which the present invention is applied. In the block body 1 of the first embodiment described above, the magnet 11 is affixed to the inside of the injection-molded block body 1. In this second embodiment, the block body 1A is formed by insert molding using the magnet 11 as an insert. I'm making it. 1 A of said block bodies are comprised from the magnet holding body 12 shape | molded by the regular hexahedron by the injection molding of the synthetic resin which used the magnet 11 as an insert, and the outer body 13 which coat | covers the said magnet holding body 12 from the outer side. . By manufacturing the magnet holder 12 by insert molding, the labor of attaching each magnet 11 to the inside of the block body is reduced, and the block body 1A can be mass-produced at low cost. Further, since the magnet 11 is not exposed to the outside by covering the periphery of the magnet holder 12 with the outer body 13, it is possible to prevent damage such as dropping off of the magnet and to secure the strength of the magnet holder 12. Then, since the synthetic resin for molding the outer body 13 can be selected without worrying about strength and thickness, the width of the external design of the block body 1A is expanded, and a block toy more tailored to consumer preference Can be provided.

1 ... block body, 10 ... surface, 11 ... magnet

Claims (2)

A block toy that plays by connecting a plurality of block bodies formed in a regular hexahedron by magnetic force,
On each surface of the block body, magnets are arranged in the vicinity of each of the four corners, and among these four magnets, a pair of S poles are on one diagonal line orthogonal to each other on each surface, and the other diagonal line. A block toy characterized in that a pair of N poles are disposed on the upper side, and further, magnetic poles of the same polarity are adjacent to each other on adjacent surfaces of the block body. 2. The block according to claim 1, wherein the magnet is arranged at the center of the four divided squares on the assumption that each surface of the block body is divided into four squares by a center line. 3. Toy system.

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