WO2014126271A1

WO2014126271A1 - Magnetic block toy

Info

Publication number: WO2014126271A1
Application number: PCT/KR2013/001105
Authority: WO
Inventors: 윤정석
Original assignee: Yoon Jung Seok
Priority date: 2013-02-12
Filing date: 2013-02-13
Publication date: 2014-08-21
Also published as: KR101349152B1; US20140227935A1

Abstract

The present invention relates to a magnetic block toy and, more specifically, to a magnetic block toy, allowing a part of a casing covering the outer circumferential surface of a magnet to be opened, thereby increasing the magnetic gauss, and, at the same time, allowing a movement section of the magnet to be extended to a block face, thereby securing a coupling site of the magnet at the time of face-to-face coupling between blocks; and allowing sounds to be made when the magnet moves, thereby enabling an auditory play effect to be obtained. To this end, the present invention is characterized by a casing having an open groove formed longitudinally therein in such a manner that a cylindrical magnet is embedded in the casing, and a part of the magnet located on the inside is exposed to the outside so that the magnetic force can be released to the outside; and having a guide pin formed on each of the left and right sides thereof, wherein the guide pins of the casing are inserted into a first guide groove and a second guide groove of a planar block and a solid block, thereby allowing sounds to be made in the process of the guide pins coming into contact with the first guide groove and the second guide groove at the time of movement.

Description

Magnetic block toys

The present invention relates to a magnetic block toy, and more particularly, to open a portion of the casing surrounding the outer peripheral surface of the magnet to increase the magnet Gauss (GAUSS) and at the same time to extend the moving section of the magnet to the block surface between the blocks between the blocks (面間) ) It is related to the magnetic block toy which secures the coupling position of the magnet when it is engaged and makes an acoustic play effect by making a sound when the magnet moves.

It is a kind of toys or toys for infants or children, and is composed of a set including a plurality of unit components called blocks (or bricks), and is provided to assemble a special shape structure intended by a user by combining the blocks. There is a block toy.

In general, the block toy, by combining a number of blocks, which are simple units in their own right, makes a specific structure intended by the user. Of course, training to plan and build a three-dimensional structure can see the effect of improving intellectual ability, and for young children and infants, it has a good influence on the development of cognitive development, cow, large muscle development and physical coordination.

The simplest form of the block toy is configured to be used by stacking blocks of various three-dimensional shapes such as polygonal pillars, cylinders, polygonal cones, cones, and polygonal panels made of wood or other hard materials.

However, a block toy composed of such block components has a disadvantage in that, since the lack of a means for fastening each of the combined blocks, the structure made hard can easily collapse in the external impact.

In order to alleviate this drawback, magnetic block toys have been provided, such as a built-in magnet in a unit block having a three-dimensional shape, such that the blocks can be combined with each other. Looking at its configuration simply, the magnet made of N / S poles is built in the middle of the corner connecting the boundary of each block, and the block and the block are combined using this magnet to be stacked in a desired three-dimensional shape.

The above-mentioned magnetic block toys have the advantage of being able to simply combine blocks and convexes with each other by using magnets, but the magnets are always fixed and are not fixed to the edges of the blocks. At the time of combining, not only the bonding force is reduced, but even when combined, there is a disadvantage in that the three-dimensional shape of the stacking is somewhat limited.

In addition, the magnets used in the magnetic block toys are usually 3000 gauss, but since the magnets are used inside the block, the magnetic force is only about 1800 gauss. This not only causes the coupling force between the blocks to deteriorate, but also increases the production cost because the size of the magnet must be increased to increase the coupling force.

In addition, the above-described magnetic block toys have a variety of problems, such as not more effective stacking play because the separate sound does not go out when combined.

An object of the present invention has been made in view of the above-mentioned conventional problems, by opening a portion of the casing surrounding the outer peripheral surface of the magnet to increase the magnet Gauss (GAUSS), reducing the size of the magnet, as well as reducing the cost of the block It is to provide a magnetic block toy to increase the bonding force.

Another object of the present invention is to extend the moving section of the magnet to the block surface to secure the coupling position of the magnet when the inter-block coupling between the blocks, to provide a magnetic block toys that can be set more freely the direction of coupling between the blocks There is.

Still another object of the present invention is to provide a magnet block toy that can obtain an acoustic play effect by making a magnet movement sound when the magnet moves.

As a means for achieving the above object, the present invention, the cylindrical magnet is built-in and a portion of the magnet located inside is exposed to the outside to form an open groove in the longitudinal direction so that the magnetic force can be emitted to the outside, left and right Casings each of which guide pins are formed; The guide pin of the casing is inserted into the first guide groove and the second guide groove of the surface block or the three-dimensional block to make a sound in the process of contacting the guide pin, the first guide groove and the second guide groove when moving;

The three-dimensional block is formed in the middle of the corners forming the boundary of each surface is formed a moving space extending from both ends to the surface portion, the first guide groove and the second guide groove of the "b" shape is formed on the left and right sides of the moving space Formed,

The surface block is formed with a moving space in which both ends extend to the surface portion in the middle of the side, and the circular first guide groove and the second guide groove is formed on the left and right sides of the moving space,

Projections are formed on the outer circumferential surfaces of the guide pins formed on the left and right sides of the casing, and on the inner circumferential surfaces of the first guide grooves and the second guide grooves, respectively, and the projections come into contact with each other to make a sound.

As described above, according to the present invention, a part of the casing surrounding the outer circumferential surface of the magnet is opened through the opening groove. Therefore, the magnet according to the present invention can be used because 3000 gauss because some of the magnet is directly coupled without being blocked from the outside. This increases the bonding force of the magnet, so that the blocks (three-dimensional block, face block, etc.) are not easily separated, and the production cost can be reduced by reducing the size of the magnet.

In addition, a moving space in which both ends extend to the surface portion is formed in the middle portion of the corners forming the boundary of each block surface, and the magnet is movable to the surface portion through the moving space. By securing the engagement position of the magnet, it is possible to more freely set the direction of engagement between the blocks.

In addition, the present invention has the effect that the user can obtain the auditory play effect at the same time because the sound is generated while the guide pins formed on the left and right sides of the casing and the projections formed in the first guide groove and the second guide groove when the magnet moves.

1 is a perspective view of a magnet for a toy toy block according to the invention.

Figure 2 is a perspective view showing a state in which the magnet according to the present invention is installed on the surface block.

Figure 3 is an enlarged sectional view of the main portion showing a state in which the magnet according to the present invention is installed on the surface block.

Figure 4 is an enlarged perspective view of the main portion showing a state in which the magnet according to the present invention is installed on the surface block.

5 is a perspective view showing a state in which a magnet according to the present invention is installed in a three-dimensional block.

Figure 6 is an enlarged perspective view of the main portion showing a state in which a magnet according to the invention is installed in a three-dimensional block.

7 is a sectional view showing the principal parts of a magnet coupled to a three-dimensional block according to the present invention;

Figure 8 is a perspective view showing a state in which the three-dimensional block is coupled up and down according to the invention.

Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings.

Magnet 600 of the present invention is also made of N / S pole and the basic configuration and operation of the surface block 100a or the three-dimensional block 100 is mutually coupled through the magnet 600 is the same as the conventional. The magnet used for the block as described above is 3000 gauss.

However, the present invention is to more effectively use the magnetic block toys, the surface block 100a, three-dimensional block 100, magnet 600, the

moving space

200a, 200, The casing 500, the first guide grooves 300a and 300, and the

second guide grooves

310a and 310 are configured.

The casing 500 has a cylindrical magnet 600 therein, and a part of the magnet 600 located therein is exposed to the outside so that the opening groove 520 is formed in the longitudinal direction so that the magnetic force can be emitted to the outside, Each guide pin 510 is formed. The guide pin 510 of the casing 500 is inserted into the

first guide grooves

300a and 300 and the

second guide grooves

310a and 310 of the surface block 100a or the three-dimensional block 100 to move. The guide pin, the first guide groove and the second guide groove is configured to make a sound in the process of contacting.

Protrusions 530 are formed on the outer circumferential surface of the guide pins 510 formed on the left and right sides of the casing 500 as a means for making a sound, and the first guide grooves 300a and 300 and the

second guide grooves

300a and 300 are provided. On the inner circumferential surface of the

projections

400a and 400 are formed, respectively, the projections 530 and the

projections

400a and 400 are configured to make a sound while contacting each other.

The casing 500 in which the magnet 600 as described above is installed is used in the surface block 100a or the three-dimensional block 100. This will be described in more detail as follows.

2 to 4 show that the magnet according to the present invention is used to install the face block,

When the surface block 100a forms a moving space 200a in the middle of the side surface, both end portions of the moving space 200a extend to the surface portion, and circular first guide grooves 300a are respectively formed on the left and right sides of the moving space 200a. ) And a second guide groove 310a, and the inner circumferential surfaces of the first guide groove 300a and the second guide groove 310a are in contact with the protrusion 530 formed on the outer circumferential surface of the guide pin 510. Each of the protrusions 400a was formed.

Here, the guide pin 510 and the first guide groove 300a and the second guide groove 310a preferably have a space such that the contact is not in close contact. For example, if the guide pin 510 located in the first guide groove 300a and the second guide groove 310a is closely coupled, the movement is not free or no sound is generated. Therefore, when the inner diameter of the first guide groove (300a) and the second guide groove (310a) is formed larger than the outer circumferential surface of the guide pin (510) to form a suitable space, the guide pin (510) freely moves and the projection (400) It can make a sound when touched.

When the casing 500 configured as described above is coupled to the surface block 100a side, the body of the casing 500 is positioned in the moving space 200a, and the guide pins are formed in the first guide groove 300a and the second guide groove 310a. Each of the 510 is positioned, and the protrusion 530 of the guide pin 500 and the protrusion 400a of the first guide groove 300a and the second guide groove 310a face each other.

In this state, when the surface block 100a is connected to the other surface block, the coupling force is increased because the surface block and the surface block are coupled by the magnet 600 exposed to the outside through the opening groove 520.

Meanwhile, when one surface block is moved in a coupled state, the protrusion 530 of the guide pin 500, the protrusion 400a of the first guide groove 300a, and the second guide groove 310a are moved in the moving process. Not only does the sound come into contact with each other, it is possible to move by the moving space (200a) formed to extend to the surface portion to ensure the inter-coupling force.

5 to 8 show that the magnet according to the present invention is used in the three-dimensional block,

The moving space 200 is positioned in the middle of the corners forming the boundary of each surface of the three-dimensional block 100, and both ends thereof extend to the surface portion so that the magnet 600 can move to the surface portion of the three-dimensional block 100. In this configuration, since the magnet 600 is not always fixed at the corner portion and is movable to the surface portion of the three-dimensional block 100, the coupling force is increased as well as the three-dimensional block when the surface is coupled between the three-dimensional blocks 100. Coupling position between (100) can be variously changed.

The first guide groove 300 and the second guide groove 310 are formed at left and right sides of the moving space 200, and the casing 300 in which the magnet 600 is embedded may be guided along a moving space 200. Guide pins 510 are inserted into the first guide groove 300 and the second guide groove 310, respectively.

Here, the projections 400 are continuously arranged at regular intervals on the inner circumferential surfaces of the first guide groove 300 and the second guide groove 310 so as to be in contact with the projection 530 of the guide pin 50. The guide pin 510 and the first guide groove 300 and the second guide groove 310 preferably have a space that is not in close contact with each other.

For example, when the guide pin 510 located in the first guide groove 300 and the second guide groove 310 is closely coupled, the movement is not free or no sound is generated. Therefore, if the inner space of the first guide groove 300 and the second guide groove 310 is formed larger than the outer circumferential surface of the guide pin 510 to provide a suitable space, the guide pin 510 moves freely and the protrusion 400 and It can make a sound when touched.

In order to use the present invention configured as described above, first, the edge portion constituting the boundary surface of each surface of the three-dimensional block 100 is selected, and the moving space 200 is formed in the middle portion of the selected edge, and both ends of the moving space 200 are blocks ( It extends to the surface portion of the 100, and the first guide groove 300 and the second guide groove 310 having the projection 400 is formed on the left and right sides of the moving space (200).

After preparing the casing 500 in which the magnet 600 is embedded and the opening groove 520 and the guide pin 510 are integrally formed, the guide pin 510 is formed in the first guide groove 300 and the second guide groove. When inserted into the 310, the body of the casing 500 is located on the moving space 200 of the three-dimensional block 100, the guide pin 510 is the first guide groove 300 and the second guide groove 310 side Are located at.

When the other three-dimensional block is coupled to the top of the three-dimensional block 100 in the above state, the three-dimensional block and the three-dimensional block are coupled to each other by the magnetic force of the magnet through the open groove 520. In this case, when the three-dimensional block is moved, the casing 500 body moves through the moving space 200, and the protrusion 530, the first guide groove 300, and the second guide groove ( The projections 400 of 310 are in contact with each other to make a sound.

Claims

In the magnetic block toys to connect the blocks to each other using a cylindrical magnet,

A casing in which a cylindrical magnet is embedded and an opening groove is formed in a longitudinal direction so that a part of the magnet located inside is exposed to the outside so that magnetic force can be emitted to the outside; The guide pin of the casing is inserted into the first guide groove and the second guide groove of the surface block and the three-dimensional block to make a sound in the process of contacting the guide pin, the first guide groove and the second guide groove when moving. Magnetic Block Toys.
According to claim 1, wherein the three-dimensional block is formed in the middle of the corners forming the boundary of each surface is formed a moving space extending from the end portion to the surface portion, the first guide groove of the "b" shape on the left and right of the moving space And a second guide groove formed therein.
According to claim 1, The surface block is formed with a moving space in which both ends are formed to extend to the surface portion in the middle of the side, the circular first guide groove and the second guide groove is formed in the left and right sides of the moving space Magnetic Block Toys.
The magnet according to claim 1, wherein protrusions are formed on the outer circumferential surfaces of the guide pins formed on the left and right sides of the casing, and on the inner circumferential surfaces of the first guide grooves and the second guide grooves, respectively. Block toys.