CN215781523U - Magnetic square building block - Google Patents

Abstract

The application relates to a magnetic block, which comprises building blocks with various shapes and sizes, wherein each building block consists of a plurality of small cubes, and the building blocks are connected with each other through different magnets inside; the magnet moving space is reserved in the building blocks contained in the magnetic-field-sensing device, and the magnets can turn over and move in the reserved space; according to the principle, various combinations and splicing can be carried out among different building blocks, and the building block has rich playability.

Description

Magnetic square building block

Technical Field

The application relates to a magnetic toy, in particular to a magnetic square building block. The building block shape has 7 kinds: small L-shaped magnetic square blocks, large L-shaped magnetic square blocks, T-shaped magnetic square blocks, Z-shaped magnetic square blocks, special-shaped magnetic square blocks A, special-shaped magnetic square blocks B and special-shaped magnetic square blocks C.

Background

The building block toy is the best early education toy of training children's intelligence, it provides more chances to exert their imagination and creativity, the children want to do something well oneself before putting up, want to observe, think and choose the pattern that can realize that they want of what kind of shape just can be realized to choose, can temper thinking logic ability through similar embodiment, the observation ability, the power of moving about, can excavate the space perception simultaneously, the creativity, exert children's organizational ability and comprehension, strengthen the patience. Magnetic building blocks on the market are generally square structures fully loaded with magnetic steel, the playing method is simple, the single magnetic cube structure has certain limitation on interestingness and imagination, and the square structures fully loaded with magnetic steel have general material waste.

Disclosure of Invention

The technical problem that this application will be solved provides one kind and uses the monomer square as the basis, and simple structure reduces raw and other materials and uses, reduces the magnet use amount on the basis that does not influence the method of playing, can ensure recreational and interesting magnetism square building blocks.

In order to solve the problem, the application provides a magnetism square building block, its characterized in that: the magnetic building block comprises small L-shaped magnetic square building blocks, large L-shaped magnetic square building blocks, T-shaped magnetic square building blocks, Z-shaped magnetic square building blocks, special-shaped magnetic square building blocks A, special-shaped magnetic square building blocks B and special-shaped magnetic square building blocks C, and all the small L-shaped magnetic square building blocks, the large L-shaped magnetic square building blocks, the T-shaped magnetic square building blocks, the Z-shaped magnetic square building blocks, the special-shaped magnetic square building blocks A, the special-shaped magnetic square building blocks B and the special-shaped magnetic square building blocks C are composed of building block bottoms, building block upper covers, magnets and magnet plugs, wherein magnet accommodating cavities or reinforcing ribs are arranged on the building block bottoms, each building block is based on a single square block, a logic relation is built between every two square blocks through a side edge, and particularly, whether a magnet accommodating cavity or a reinforcing rib is configured on the independent surface of each square block according to the adjacent building block; the magnets placed in the magnet accommodating cavities are all permanent magnets. There is a constructable logical relationship between each building block.

Furthermore, all magnets arranged in the building blocks can be freely turned inside the building blocks, each building block is based on a small square, and meanwhile, the building blocks are separated from the single body, and the building blocks are constructed by the least magnets;

compared with the prior art, the method has the following advantages:

1, each building block is internally composed of a plurality of small squares, different magnets are placed in each square through a logic relation built on the side edge, and the building blocks are different from monomers at the same time and are formed in a way of saving the magnets at most;

2, because the building blocks are connected by using the attractive force of the magnets, and the magnets are all permanent magnets, the building blocks are built quickly, the building modeling can be greatly increased, and the interestingness and the playing diversity are improved;

3, because the building blocks have certain logicality, different shapes can be built through logical thinking, and the logical thinking exercise capacity is improved;

4 this application simple structure, convenient operation, practical nimble convenient, interesting strong.

Drawings

FIG. 1 is a perspective and exploded view of a small L-shaped magnetic cube building block of the present application;

FIG. 2 is a perspective and exploded view of a large L-shaped magnetic cube building block of the present application;

FIG. 3 is a perspective and exploded view of a T-shaped magnetic cube block of the present application;

FIG. 4 is a perspective and exploded view of the Z-shaped magnetic cube building block of the present application;

FIG. 5 is a perspective view and an exploded view of the shaped magnetic block A of the present application;

FIG. 6 is a perspective and exploded view of the shaped magnetic block B of the present application;

FIG. 7 is a perspective and exploded view of the shaped magnetic cube building block C of the present application;

FIG. 8 is a schematic view of the internal structure of a small L-shaped magnetic cube of the present application;

FIG. 9 is a schematic view of the internal structure of a large L-shaped magnetic block of the present application;

FIG. 10 is a schematic view of the internal structure of the T-shaped magnetic cube block of the present application;

FIG. 11 is a schematic view of the internal structure of the Z-shaped magnetic cube construction of the present application;

FIG. 12 is a schematic view of the internal structure of the shaped magnetic block A of the present application;

FIG. 13 is a schematic view of the internal structure of the shaped magnetic block B of the present application;

FIG. 14 is a schematic view of the internal structure of the shaped magnetic block C of the present application;

FIG. 15 is a schematic view of a plurality of magnetic blocks of the present application assembled together;

1 small L-shaped magnetic square building block: 011 bottom, 000 magnet, 001 magnet plug, 012 upper cover;

2 large L-shaped magnetic square building blocks: 021 bottom, 000 magnet, 001 magnet plug, 022 upper cover;

3T-shaped magnetic square building blocks: 031 bottom, 000 magnet, 001 magnet plug, 032 upper cover;

4, a Z-shaped magnetic square building block: 041 bottom, 000 magnet, 001 magnet plug, 042 top cover;

5, special-shaped magnetic square building blocks A: 051 bottom, 000 magnet, 001 magnet plug, 002 cube bottom, 003 cube cover, 052 upper cover;

6, special-shaped magnetic square building block B: 061 bottom, 000 magnet, 001 magnet plug, 002 cubic bottom, 003 cubic cover, 012 upper cover;

7, special-shaped magnetic square building block C: 071 bottom, 000 magnet, 001 magnet plug, 002 cube bottom, 003 cube cover, 012 top cover.

Detailed Description

The present application is further described below with reference to the accompanying drawings.

Example 1: please refer to fig. 1 and fig. 2, which are a schematic perspective view and an internal view of a magnetic block in embodiment 1 of the present application, respectively; the application provides a magnetism square block building blocks:

1 small L-shaped magnetic square building block: including 011 end, 000 magnet, 001 magnet stopper, 012 upper cover, wherein 000 magnet setting are in the magnet holding chamber that 011 bottom and 012 upper cover are constituteed, 001 magnet stopper is fixed on 012 upper cover cylinder 0121, prevents 000 magnet inter attraction, and the 011 end, 012 upper cover pass through ultrasonic bonding together, and 000 magnet can be in the cavity free rotation.

2 large L-shaped magnetic square building blocks: the magnetic lock comprises a 021 bottom, 000 magnets, 001 magnet plugs and a 022 upper cover, wherein the 000 magnets are arranged in a magnet accommodating cavity formed by the 021 bottom and the 022 upper cover, an independent column is arranged in each cavity for supporting, the 000 magnets are prevented from attracting each other, the 001 magnet plugs are fixed on a column 0221 of the 022 upper cover, the 000 magnets are prevented from attracting each other, the 021 bottom and the 022 upper cover are welded together through ultrasonic waves, and the 000 magnets can freely rotate in the cavities.

3T-shaped magnetic square building blocks: including 031 end, 000 magnet, 001 magnet stopper, 032 upper cover, wherein 000 magnet setting is in 031 end and 032 upper cover constitute in the magnet holding chamber, have independent post to support in every cavity, prevent 000 magnet inter attraction, 001 magnet stopper is fixed on 032 upper cover cylinder 0321, prevents 000 magnet inter attraction, 031 end, 032 upper cover pass through ultrasonic bonding together, and 000 magnet can freely rotate in the cavity.

4, a Z-shaped magnetic square building block: the 041 magnet type magnetic switch comprises a 041 base, 000 magnets, a 001 magnet plug and a 042 upper cover, wherein the 000 magnets are arranged in a magnet accommodating cavity formed by the 041 base and the 042 lower cover, an independent column is arranged in each cavity for supporting, the 000 magnets are prevented from attracting each other, the 001 magnet plug is fixed on a 042 upper cover column 0421 and is prevented from attracting each other, the 041 base and the 042 upper cover are welded together through ultrasonic waves, and the 000 magnets can freely rotate in the cavity.

5, special-shaped magnetic square building blocks A: including 051 end, 000 magnet, 001 magnet stopper, 002 cube end, 003 cube lid, the 012 upper cover, wherein 000 the magnet sets up simultaneously 051 end and 012 upper cover and the magnet holding chamber that the 002 cube end and 003 cube lid constitute, there is independent post support in each cavity, prevent 000 magnet inter attraction, 001 magnet stopper is fixed on 012 upper cover cylinder 0121 and 003 cube lid 0031, prevent 000 magnet inter attraction, 051 end, the 012 upper cover is in the same place through ultrasonic bonding, 002 cube end and 003 cube pass through ultrasonic bonding together, 002 cube end is fixed together through the hole 0511 on buckle 0021 and 051 end, 000 the magnet can freely rotate in the cavity at the bottom of 051.

6, special-shaped magnetic square building block B: including the 061 end, 000 magnet, 001 magnet stopper, the 002 cube end, the 003 cube lid, the 012 upper cover, wherein 000 magnet sets up simultaneously at the 061 end with the 012 upper cover and the 002 cube end and the magnet holding chamber that the 003 cube lid constitutes, there is independent post to support in every cavity, prevent 000 magnet inter attraction, 001 magnet stopper is fixed on 012 upper cover cylinder 0121 and 003 cube lid cylinder 0031, prevent 000 magnet inter attraction, the 061 end, the 012 upper cover passes through ultrasonic welding together, the 002 cube end passes through ultrasonic welding together with the 003 cube, the 002 cube end is fixed together through the hole 0611 on buckle 0021 and the 061 end, the 000 magnet can freely rotate in the cavity.

7, special-shaped magnetic square building block C: the anti-interference magnet plug comprises a 071 bottom, 000 magnets, a 001 magnet plug, a 002 cube bottom, a 003 cube cover and a 012 upper cover, wherein the 000 magnets are simultaneously arranged in a magnet accommodating cavity formed by the 071 bottom, the 012 upper cover, the 002 cube bottom and the 003 cube cover, an independent column is arranged in each cavity for supporting, the 000 magnets are prevented from attracting each other, the 001 magnet plug is fixed on a 012 upper cover column 0121 and a 003 cube cover column 0031, the 000 magnets are prevented from attracting each other, the 071 bottom and the 012 upper cover are welded together through ultrasonic waves, the 002 cube bottom and the 003 cube are welded together through ultrasonic waves, the 002 cube bottom is fixed together with the 0761 bottom through holes 0711 and 071 bottom by buckles, and the 000 magnets can freely rotate in the cavities.

Example 3: please refer to fig. 4 and 5, which are schematic structural diagrams of a plurality of magnetic block bricks 1, 2, 3, 4, 5, 6, and 7 with various shapes after combination, the magnetic block bricks are formed by mutually adsorbing and combining magnets 000 arranged in edge cavities of the magnetic block bricks, and the magnetic block bricks can be randomly matched through respective logic relations, thereby greatly increasing the playability and originality of the blocks.

Finally, it should be noted that: the above embodiments are only used for illustrating the technical solutions of the present application, and not for limiting the same; although the present application has been described in detail with reference to the foregoing embodiments, it should be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some or all of the technical features may be equivalently replaced; and the modifications or the substitutions do not make the essence of the corresponding technical solutions depart from the scope of the technical solutions of the embodiments of the present application.

Claims (3)

1. A magnetism square building blocks which characterized in that: the magnetic building block comprises small L-shaped magnetic square building blocks, large L-shaped magnetic square building blocks, T-shaped magnetic square building blocks, Z-shaped magnetic square building blocks, special-shaped magnetic square building blocks A, special-shaped magnetic square building blocks B and special-shaped magnetic square building blocks C, and all the small L-shaped magnetic square building blocks, the large L-shaped magnetic square building blocks, the T-shaped magnetic square building blocks, the Z-shaped magnetic square building blocks, the special-shaped magnetic square building blocks A, the special-shaped magnetic square building blocks B and the special-shaped magnetic square building blocks C are composed of building block bottoms, building block upper covers, magnets and magnet plugs, wherein magnet accommodating cavities or reinforcing ribs are arranged on the building block bottoms, each building block is based on a single square block, a logic relation is built between every two square blocks through a side edge, and particularly, whether a magnet accommodating cavity or a reinforcing rib is configured on the independent surface of each square block according to the adjacent building block; the magnets placed in the magnet accommodating cavities are permanent magnets, and a constructable logic relationship exists between each building block.

2. The magnetic building block of claim 1, wherein the small L-shaped magnetic building block, the large L-shaped magnetic building block, the T-shaped magnetic building block and the Z-shaped magnetic building block each comprise a bottom, a magnet plug and an upper cover, wherein each two adjacent contact surfaces of the three blocks forming the bottom are respectively provided with a reinforcing rib, the other three blocks forming the bottom are respectively provided with a magnet accommodating cavity facing inwards, the magnet is arranged in the closed magnet accommodating cavity formed by the bottom and the upper cover, the magnet plug is fixed on a cylinder of the upper cover to prevent the magnets from attracting each other, the bottom and the upper cover are welded together by ultrasonic waves, and the magnet can freely rotate in the cavity.

3. The magnetic building block of claim 1, wherein the shaped magnetic building block A, the shaped magnetic building block B, and the shaped magnetic building block C each comprise a base, a magnet plug, a cubic base, a cubic cover, and an upper cover, wherein each two adjacent contact surfaces of the three blocks forming the base are provided with a reinforcing rib, the other individual surfaces are provided with a magnet receiving cavity facing inward, the reinforcing ribs are replaced by mounting surfaces on the individual surfaces of the base and the cubic base, wherein the magnet is simultaneously disposed in the closed magnet receiving cavity formed by the base, the upper cover, the cubic base, and the cubic cover, each cavity is internally provided with an independent post support to prevent the magnets from attracting each other, the magnet plug is fixed on the upper cover cylinder and the cubic cover to prevent the magnets from attracting each other, the base and the upper cover are welded together by ultrasonic waves, and the cubic base and the cube are welded together by ultrasonic waves, the cubic bottom is fixed with the bottom through the holes on the cubic bottom by the buckles, and the magnet can freely rotate in the cavity.

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