阅读说明：本技术 一种磁性拼装积木组合与积木制作方法 (Magnetic assembled building block combination and building block manufacturing method ) 是由 不公告发明人 于 2018-06-17 设计创作，主要内容包括：一种磁性拼装积木组合,包括条状磁性积木体、片状磁性积木体和块状磁性积木体；所述条状积木体的两端各设置有一个空腔,两个空腔之间又设置有零个或以上空腔,每个空腔内部至少设置一颗磁铁；所述片状积木体为多边形结构,主视图平面内部设置有中轴线垂直于主平面的空腔,空腔数量至少是3个,每个空腔内部设置至少一颗磁铁；所述块状积木至少有4个面组成,每个平面内部设置至少一个空腔,每个空腔内部设置至少一颗磁铁。(A magnetic splicing building block combination comprises strip-shaped magnetic building block bodies, sheet-shaped magnetic building block bodies and block-shaped magnetic building block bodies; two ends of the strip-shaped building block body are respectively provided with a cavity, zero or more cavities are arranged between the two cavities, and at least one magnet is arranged in each cavity; the sheet building block body is of a polygonal structure, cavities with central axes perpendicular to the main plane are arranged in the main view plane, the number of the cavities is at least 3, and at least one magnet is arranged in each cavity; the block-shaped building block is composed of at least 4 surfaces, at least one cavity is arranged in each plane, and at least one magnet is arranged in each cavity.)

1. The utility model provides a building blocks combination is assembled to magnetism which characterized in that includes:

the magnetic building block comprises strip-shaped magnetic building block bodies, sheet-shaped magnetic building block bodies and block-shaped magnetic building block bodies; two ends of the strip-shaped building block body are respectively provided with a cavity, zero or more cavities are arranged between the two cavities, and at least one magnet is arranged in each cavity; the sheet building block body is of a polygonal structure, cavities with central axes perpendicular to the main plane are arranged in the main view plane, the number of the cavities is at least 3, and at least one magnet is arranged in each cavity; the block-shaped building block is composed of at least 4 surfaces, at least one cavity is arranged in each plane, and at least one magnet is arranged in each cavity.

2. The magnetic assembling building block combination of claim 1, wherein: the shape of the blocky building block body is a regular hexahedron.

3. The magnetic assembling building block combination of claim 1, wherein: two axially or longitudinally magnetized magnets are arranged in the cavity.

4. The magnetic assembling building block combination of claim 1, wherein: the two largest contact planes of the strip-shaped and the sheet-shaped magnetic building blocks share the magnet inside the cavity.

5. The magnetic assembling building block combination of claim 1, wherein: the building block body can be matched with a wheel building block body, a battery, a motor and a remote control module to form a dynamic building block, wherein the magnet is arranged inside the wheel, the battery, the motor and the remote control module and can adsorb the strip-shaped magnetic building block body, the sheet-shaped magnetic building block body or the block-shaped magnetic building block body.

6. A method for manufacturing a strip building block body of a magnetic splicing building block and a method for manufacturing a sheet building block body are characterized in that: set up the through-hole in strip and the inside of slice building blocks body main part, fix the cavity body inside the through-hole, put into the magnet again in every cavity internal portion, pass through back-off or then ultrasonic bonding seal the cavity body both ends with cavity body lid at last, prevent that the magnet of inside from droing.

7. A method for manufacturing a block-shaped building block body of magnetic splicing building blocks is characterized by comprising the following steps: the method comprises the steps of firstly arranging six cavity bodies in the building block body, enabling adjacent cavity bodies to be perpendicular to each other, placing a magnet in the cavity body, then sealing the cavity body through a cavity body cover body in an inverted buckle or ultrasonic welding mode, and finally combining the hexahedron main body cover body with the cavity body cover body in six different directions in an inverted buckle or ultrasonic welding mode respectively to form six surfaces of the hexahedron.

8. A manufacturing method of a magnetic splicing building block wheel is characterized by comprising the following steps: firstly, a cavity body is placed at the center of the plastic hub, two cavities in opposite directions are arranged in the cavity body, then a magnet is placed in the two cavity bodies, then the cavity body is sealed by a cavity body cover body in an inverted buckle or ultrasonic welding mode, the magnet is prevented from falling off, and finally the outer ring of the plastic hub is sleeved with soft plastic to form the wheel.

Technical Field

The invention relates to a magnetic assembling building block and a manufacturing method thereof, belongs to the field of toys, and particularly relates to a building block combination capable of improving the flexibility and the controllability of the assembling building block.

Background

The assembled building blocks are one of the very popular building block toys in the market at present, and are popular with children and teenagers; traditional building blocks of assembling can be divided into plastics and assemble building blocks and wood system and assemble building blocks, and these compound mode of assembling the building blocks use can be divided into two types: firstly, a specific self-locking device is formed through the self structure of the plastic or wood toy, and the toys are combined pairwise and need to be interacted by the self-locking device; secondly, when the plastic or wooden toys are combined, a fastening device like a screw or a pin is needed to complete the splicing of every two toys, so that the building blocks are built; although the building blocks spliced by the two modes have certain stability, the operation is more complicated, the steps are relatively complex, and children are easy to be irritated to feel, so that the children can reject the building blocks.

Chinese patent document (published: 2015, 08, 05, publication No. CN 204522308U) discloses an all-dimensional assembled block toy, which is a cube and consists of four side faces with the same shape, a top face with circular protrusions, and a hexahedron with a groove bottom face opposite to the top face, wherein two concave through grooves are arranged on each side edge of the assembled block at intervals, and can realize the assembly with an adjacent block, and simultaneously, the circular protrusions on the top face can be inserted into the bottom of a groove of another identical assembled block, so as to realize the assembly of the same block up and down, front and back, and left and right. The invention can assemble more abundant three-dimensional models, can build more stable models of the structure and can simplify the types of the assembled building blocks.

Above-mentioned technical scheme provides a building blocks mode of assembling, and it forms self-lock device through the concave-convex structure of self and realizes the spelling of building blocks, though it has certain stability, but the building blocks that this building blocks were built not only the form is single, and the operation is more loaded down with trivial details moreover.

Chinese patent literature (published: 2014, 12, 03, publication number: CN 203971405U) discloses a construction block member and a toy, the construction block member comprises a base member, a main member and a double-pin member, wherein the main body of the base member is provided with a convex column and a hole groove, and the main body of the main member is provided with a convex column, a hole groove and a bending groove; the building block toy consists of one or more members of a basic member, a main member and a double pin. Because the building block components adopt the design with higher degree of freedom, the assembled building block toy consisting of the three components has the functions of multi-directional splicing and modeling, thereby widening the space for exerting logical thinking ability and imagination of the assembled building block toy and creating more artistic modeling by reasonably applying the three components.

Above-mentioned technical scheme provides a building blocks mode of assembling, and building blocks are found and are stabilized the combination together through the twin columns pin between the structure, though its some stability, operate very complicacy and loaded down with trivial details when piecing together, and the molding that this building blocks can be pieced together moreover is also very limited.

Disclosure of Invention

The invention aims to provide a magnetic splicing building block, which solves the problems of complex operation, complicated steps and the like of the traditional plastic or wood splicing building block in a relatively economic mode by utilizing the splicing flexibility of the magnetic building block.

The first technical scheme adopted for realizing the technical purpose of the invention is as follows: a magnetic splicing building block combination comprises strip-shaped magnetic building block bodies, sheet-shaped magnetic building block bodies and block-shaped magnetic building block bodies; two ends of the strip-shaped building block body are respectively provided with a cavity, zero or more cavities are arranged between the two cavities, and at least one magnet is arranged in each cavity; the sheet building block body is of a polygonal structure, cavities with central axes perpendicular to the main plane are arranged in the main view plane, the number of the cavities is at least 3, and at least one magnet is arranged in each cavity; the block-shaped building block is composed of at least 4 surfaces, at least one cavity is arranged in each plane, and at least one magnet is arranged in each cavity.

Preferably, the block-shaped building block body has a regular hexahedron shape.

Preferably, two axially or longitudinally magnetized magnets are arranged in each cavity.

Further, the two largest contact planes of the strip-shaped and the sheet-shaped magnetic building blocks share the magnet inside the cavity.

Furthermore, the building block body can be matched with a wheel building block body, a battery, a motor and a remote control module to form a dynamic building block, wherein magnets are arranged in the wheel, the battery, the motor and the remote control module and can adsorb the strip-shaped magnetic building block body, the sheet-shaped magnetic building block body or the block-shaped magnetic building block body.

The second technical scheme adopted for realizing the technical purpose of the invention is as follows: a method for manufacturing a strip building block body of a magnetic splicing building block and a method for manufacturing a sheet building block body; set up the through-hole in strip and the inside of slice building blocks body main part, fix the cavity body inside the through-hole, put into the magnet again in every cavity internal portion, pass through back-off or then ultrasonic bonding seal the cavity body both ends with cavity body lid at last, prevent that the magnet of inside from droing.

The third technical scheme adopted for realizing the technical purpose of the invention is as follows: a method for manufacturing a block building block body of magnetic splicing building blocks comprises the steps of firstly arranging six cavity bodies in the building block body, enabling adjacent cavity bodies to be perpendicular to each other, then placing a magnet in the cavity bodies, then sealing the cavity bodies by using cavity body cover bodies in an inverted buckle or ultrasonic welding mode, and finally combining six hexahedron surfaces by using hexahedron main body cover bodies and cavity body cover bodies in six different directions in an inverted buckle or ultrasonic welding mode respectively.

The fourth technical scheme adopted for realizing the technical purpose of the invention is as follows: a method for manufacturing a magnetic assembled building block wheel comprises the steps of firstly placing a cavity body in the center of a plastic hub, arranging two cavities in opposite directions in the cavity body, then placing a magnet in the two cavity bodies, then sealing the cavity body by using a cavity body cover body in an inverted buckle or ultrasonic welding mode to prevent the magnet from falling off, and finally sleeving a soft plastic sleeve on an outer ring of the plastic hub to form the wheel.

The invention has the beneficial effects that: this building blocks combination make full use of the flexibility of strip form magnetic building blocks and the stability of slice and cubic building blocks, through the adsorption affinity of built-in magnet, splice out various abundant models, saved the loaded down with trivial details building blocks subassembly of screw, pin etc. simplified the tradition greatly and pieced together the service steps of building blocks, activated the interest of player especially child to this type of building blocks to a great extent.

Drawings

Fig. 1 is a front view of a strip-shaped magnetic building block according to the present invention.

Fig. 2 is a perspective view of a strip-shaped magnetic building block according to the present invention.

Fig. 3 is an exploded view of a strip-shaped magnetic building block according to the present invention.

Fig. 4 is a front view of another strip-shaped magnetic building block according to the invention.

Fig. 5 is a perspective view of another strip-shaped magnetic building block according to the present invention.

Fig. 6 is an exploded view of another strip-shaped magnetic building block according to the present invention.

Fig. 7 is a front view of still another strip-shaped magnetic building block according to the present invention.

Fig. 8 is a perspective view of still another strip-shaped magnetic building block according to the present invention.

Fig. 9 is an exploded view of yet another strip-shaped magnetic building block according to the present invention.

Fig. 10 is a front view of a sheet-shaped magnetic building block of the present invention in a triangular shape.

Fig. 11 is a perspective view of a sheet-shaped magnetic building block according to the present invention in a triangular shape.

Fig. 12 is an exploded view of a sheet-shaped magnetic building block according to the present invention in a triangular shape.

Fig. 13 is a front view of a sheet-shaped magnetic building block of the present invention in a quadrangular shape.

Fig. 14 is a perspective view of a sheet-shaped magnetic building block according to the present invention in a quadrangular shape.

Fig. 15 is an exploded view of a sheet-shaped magnetic building block according to the present invention in a quadrangular shape.

Fig. 16 is a front view of a sheet-shaped magnetic building block according to the present invention in a trapezoidal shape.

Fig. 17 is a perspective view of a sheet-shaped magnetic building block according to the present invention in a trapezoidal shape.

Fig. 18 is an exploded view of a sheet-shaped magnetic building block according to the present invention in a trapezoidal shape.

Fig. 19 is a front view of a block-shaped magnetic building block of the present invention in a regular hexahedron.

Fig. 20 is a perspective view of a block-shaped magnetic building block of the present invention in a regular hexahedron.

Fig. 21 is an exploded view of a block-shaped magnetic building block of the present invention in the shape of a regular hexahedron.

Fig. 22 is a front view of a magnetic construction block of the present invention as a wheel.

Fig. 23 is a perspective view of a magnetic construction block of the present invention as a wheel.

Fig. 24 is an exploded view of a magnetic construction block of the present invention as a wheel.

Fig. 25 is a battery module with a magnet provided therein according to the present invention.

Fig. 26 shows a motor with a magnet inside and a remote control module according to the present invention.

Fig. 27 is a schematic perspective view of the present invention after splicing a plurality of strip-shaped magnetic building blocks, a plurality of sheet-shaped magnetic building blocks, 1 battery module with a magnet, 1 motor with a magnet, a remote control module, and a plurality of magnetic wheels.

Fig. 28 is a schematic perspective view of the present invention after splicing a plurality of strip-shaped magnetic building blocks, a plurality of sheet-shaped magnetic building blocks, and a plurality of block-shaped magnetic building blocks.

In the drawings: a strip-shaped magnetic building block body 1, a sheet-shaped magnetic building block body 2, a block-shaped magnetic building block body 3, a magnet 0, a cavity 9, a cavity 90, a strip-shaped building block cavity body cover 12, a through hole 91, a sheet-shaped building block cavity body cover 22, a sheet-shaped magnetic building block body main body 23, a strip-shaped magnetic building block body main body 13, a central axis x, a block-shaped magnetic building block body cavity 93, a block-shaped magnetic building block body cavity cover 32, a block-shaped magnetic building block body cover 33, a magnetically spliced building block wheel 4, a magnetically spliced building block wheel plastic hub 43, a magnetically spliced building block wheel cavity 44, a magnetically spliced building block wheel soft plastic sleeve 43, a magnetically spliced building block wheel cavity body cover 42, a magnetically spliced building block wheel cavity 49, a magnetic battery module 5, and a magnetic electromagnetic module power output hole, magnetic motor and remote control module 6, magnetic motor and remote control module power input hole 61, power wire 7.

Detailed Description

The technical solution of the present invention is further described in detail by the following specific embodiments with reference to the accompanying drawings.