TWM639862U - Magnetic shape block combination - Google Patents

Abstract

The present disclosure provides a magnetic shape block combination. The magnetic shape block combination includes a magnetic body and plural magnetic customized shape blocks. The magnetic body includes plural standardized blocks and plural first magnets. The standardized blocks has plural surfaces. The first magnets are embedded on the surfaces of the standardized blocks, so as to form plural magnetic surfaces, in which one of the magnetic surfaces of each standardized block is connected to one of the magnetic surfaces of another standardized block. The magnetic customized shape blocks are connected to the magnetic body.

Description

Magnetic modeling building block combination

The embodiments of the present disclosure relate to a combination design of modeling building blocks, in particular, a combination of magnetic modeling building blocks with several standardized building blocks and several customized building blocks.

The current toy building block market is booming. In addition to the traditional building block products for infants and young children, various companies have launched further building block products targeting adults in order to expand their brand value. This type of product mainly aims to stimulate users' brains and thinking, so that users can conduct a series of brainstorming in the process of assembling building blocks, thereby enhancing the user's imagination and creativity. Therefore, most products often have creative structures and shapes. Simulation, and can be customized to design according to needs.

However, in the existing building block toy market, the building block components used in most building block products are too simple in form, which in turn greatly limits the realistic appearance of the finished product. The fidelity of the finished building block assembly is not only related to the usability of the building block components themselves, but also largely affects consumers' willingness to purchase. Therefore, how to improve the fidelity of the assembled products of building blocks has become an important issue for enterprises to expand the value of building block products.

In view of this, in order to improve the fidelity of the finished building block assembly, a novel building block structure design is needed.

One purpose of the present disclosure is to provide a magnetic modeling building block combination. The magnetic modeling building block set uses a design that combines a magnetic body and several magnetic customized modeling blocks. Since the standardized building blocks in the magnetic main body and the customized building blocks in the magnetic customized building blocks are all produced by 3D printing technology, it is possible to use the more detailed and realistic shapes on the basis of standardized building blocks with simpler shapes. Customized modeling blocks greatly increase the realism of the overall combination of magnetic modeling blocks.

According to the above purpose of the present disclosure, a magnetic modeling building block combination is proposed. The magnetic modeling building block set includes a magnetic main body and several magnetic customized modeling building blocks. The magnetic body includes several standardized building blocks and several first magnetic blocks. A standardized building block has several surfaces. The first magnetic blocks are embedded on the surface of the standardized building blocks to form several magnetic surfaces, and the plurality of first magnetic blocks are embedded on the surfaces of the standardized building blocks to form a plurality of magnetic surfaces, wherein the standardized building blocks One of the magnetic faces on each is interconnected with one of the magnetic faces on the other of the standardized building blocks. Magnetic customized building blocks are connected to the magnetic main body.

According to some embodiments of the present disclosure, the shape of the above-mentioned standardized building block is an elliptical cylinder, a sphere, or a cuboid.

According to some embodiments of the present disclosure, the shape of the above-mentioned standardized building blocks is a cuboid, and the number of magnetic surfaces on each of the standardized building blocks is six.

According to some embodiments of the present disclosure, the above-mentioned magnetic surfaces include three N-pole magnetic surfaces and three S-pole magnetic surfaces, the N-pole magnetic surfaces are connected to each other, and the S-pole magnetic surfaces are connected to each other.

According to some embodiments of the present disclosure, the above-mentioned magnetic body includes a first rectangular volume and a second rectangular volume. The first cuboid has a first square face and a first long side. The second rectangular volume wood has a second square face and a second long side, wherein the areas of the first square face and the second square face are the same, and the length of the second long side is twice that of the first long side.

According to another embodiment of the present disclosure, the above-mentioned magnetic body includes a first rectangular volume and a third rectangular volume. The first cuboid has a first square face and a first long side. The third rectangular volume wood has a third rectangular surface and a third long side, wherein the areas of the first square surface and the third rectangular surface are the same, and the length of the third long side is three times that of the first long side.

According to another embodiment of the present disclosure, the above-mentioned standardized building blocks are several standardized 3D printed building blocks.

According to some embodiments of the present disclosure, the above-mentioned customized magnetic building block includes a customized building block and a second magnetic block. The second magnetic block is embedded in the customized modeling building block, wherein the customized modeling building block is connected to the magnetic body via the second magnetic block.

According to some embodiments of the present disclosure, the above-mentioned customized modeling building blocks are customized 3D printing building blocks.

According to some embodiments of the present disclosure, the above-mentioned first magnetic block and the second magnetic block include ferrite material, alnico material, neodymium iron boron material, or samarium cobalt material.

It can be seen from the above that the magnetic modeling building block combination disclosed in this disclosure includes a design in which standardized building blocks are connected to customized modeling building blocks, which can increase the simulation of the overall magnetic modeling building block combination on the basis of using standardized building blocks as the backbone. Both standardized building blocks and customized building blocks are produced by 3D printing. Therefore, in addition to customizing the design of magnetic building block combinations according to requirements, 3D printing can also be used to produce fast features and save manufacturing magnetic building block combinations. time cost. On the other hand, by embedding the first magnetic block on the surface of the standardized building block to form several magnetic surfaces, the magnetic modeling building block can be strengthened by matching the magnetic customized building block with the second magnetic block embedded inside. Combination for ease of assembly.

Please refer to FIG. 1 and FIG. 2 , FIG. 1 is a schematic diagram of a combination of magnetic modeling blocks according to an embodiment of the present disclosure, and FIG. 2 is an exploded schematic diagram of a combination of magnetic modeling building blocks according to an embodiment of the present disclosure. The magnetic modeling building block set 100 includes a magnetic main body 200 and several magnetic customized modeling building blocks 300 . It should be emphasized that the overall shape of the magnetic modeling building block combination 100 is not limited to a specific design, and the user can choose a specific shape as the main magnetic body 200 and a customized magnetic body according to the user's needs. 300 modeling building blocks.

As shown in FIG. 2 , the magnetic body 200 includes several standardized building blocks 210 and several first magnetic blocks 220 . The standardized building block 210 has several surfaces S1. In some embodiments, the shape of the standardized building block 210 is an elliptical cylinder, a sphere, or a cuboid. The standardized building blocks 210 should be simplified in shape so as to form a relatively simple magnetic body 200 when connected to each other, thereby facilitating the connection of the magnetic body 200 and the magnetic customized building blocks 300 on the magnetic surface A1. In some examples, the standardized building blocks 210 are several standardized 3D printing building blocks, which are produced by 3D printing technology, so the standardized building blocks 210 can be produced in large batches through pre-drawn design patterns. The type of 3D printing technology can be It is fused deposition modeling (fused deposition modeling, FDM), photolithography (stereolithography, SLA), or selective laser sintering (selective laser sintering, SLS) and so on. The production of the standardized building block 210 is not limited to any kind of 3D printing technology, but it only needs to ensure that the shape of the standardized building block 210 is intact.

The first magnetic block 220 is embedded on the surface S1 of the standardized building block 210 to form several magnetic surfaces A1, wherein one of the magnetic surfaces A1 on each standardized building block 210 is connected with the magnetic surface A1 on another standardized building block 210 One of them is connected with each other to form the magnetic body 200 . In some embodiments, the first magnetic block 220 includes ferrite material, alnico material, neodymium iron boron material, or samarium cobalt material. The first magnetic block 220 is not limited to a specific type of material, as long as it is magnetic, and the magnetic surfaces A1 can be connected by magnetic force.

Please refer to FIG. 3 . FIG. 3 is a schematic diagram illustrating a magnetic surface according to an embodiment of the present disclosure. In some embodiments, the standardized building block 210 is rectangular in shape and uses a six-sided magnetic pole design. Specifically, in these embodiments, the number of magnetic surfaces A1 on each of the standardized building blocks 210 is six. In some examples, the magnetic surface A1 includes three N-pole magnetic surfaces A11 and three S-pole magnetic surfaces A12, the N-pole magnetic surfaces A11 are connected to each other, and the S-pole magnetic surfaces A12 are connected to each other, so that users can easily and The combination and disassembly of the standardized building blocks 210 are successfully completed through the action of the magnetic force. In addition, through the principle of mutual repulsion of like poles and attraction of opposite poles, the user can be prompted how to correctly assemble the standardized building blocks 210, thereby reducing the user's frustration during assembly and increasing the fun of assembly.

Please refer to FIG. 4, FIG. 5, and FIG. 6 at the same time. FIG. 4 is a schematic diagram of the first rectangular volume wood, the second rectangular volume wood, and the third rectangular volume wood according to an embodiment of the present disclosure. An exploded schematic view of a combination of magnetic modeling building blocks according to another embodiment of the disclosure, and FIG. 6 is a schematic exploded view of a combination of magnetic modeling building blocks according to another embodiment of the disclosure. In some embodiments, as shown in FIG. 5 , the magnetic body 230 includes a first rectangular volume 211 and a second rectangular volume 212 . As shown in FIG. 4, in this embodiment, the first rectangular volume wood 211 has a first square surface Q1 and a first long side L1, and the second rectangular volume wood 212 has a second square surface Q2 and a second long side L2, wherein The area of the first square surface Q1 and the area of the second square surface Q2 are the same, and the length of the second long side L2 is twice that of the first long side L1 . Therefore, the user can assemble two first rectangular volume woods 211 and a single second rectangular volume wood 212 into the same size as the magnetic body 200 shown in FIG. 1 by connecting the first square surface Q1 and the second square surface Q2. The magnetic main body 230 is used to increase the user's choice when assembling.

In other embodiments, as shown in FIG. 6 , the magnetic body 240 includes a first rectangular volume 211 and a third rectangular volume 213 . As shown in FIG. 4, in this embodiment, the first rectangular volume wood 211 has a first square surface Q1 and a first long side L1, and the third rectangular volume wood 213 has a third square surface Q3 and a third long side L3, wherein The area of the first square surface Q1 and the area of the third square surface Q3 are the same, and the length of the third long side L3 is three times that of the first long side L1 . Therefore, the user can assemble a single first rectangular volume wood 211 and a single third rectangular volume wood 213 into a magnetic body 200 of the same size as shown in FIG. 1 by connecting the first square surface Q1 and the third square surface Q3. The magnetic main body 240 is used to increase the user's choice when assembling. It should be emphasized that the embodiments shown in FIG. 5 and FIG. 6 are only examples, and are not intended to limit the present disclosure. Users can choose several standardized building blocks 210 of different shapes and combine them to form various magnetic bodies. , and match with various magnetic custom-made building blocks 300 to achieve the effect of the magnetic modeling building block combination 100 with diverse shapes.

Please refer to FIG. 1 and FIG. 2 again. The magnetic customized modeling building block 300 is connected to the magnetic main body 200 . It should be emphasized that FIG. 1 , FIG. 2 , FIG. 5 , and FIG. 6 in this disclosure are all for illustration purposes only, and are not intended to limit the magnetic customized modeling building block 300 . Specifically, the user can replace the magnetic customized building blocks 300 with different shapes, such as animal shapes, car shapes, etc., according to needs, so that the magnetic modeling building block combination 100 has different appearances. In some embodiments, each magnetic customized building block 300 includes a customized building block 310 and a second magnetic block 320 .

In some embodiments, the customized modeling building blocks 310 are customized 3D printing building blocks, which are made by 3D printing technology, so the customized modeling building blocks 310 can be produced in large batches through pre-drawn design patterns. In these embodiments, the type of 3D printing technology may be fused lamination, photolithography, or selective laser sintering, among others. The production of the customized modeling building block 310 is not limited to any kind of 3D printing technology, but only needs to ensure that the shape of the customized modeling building block 310 meets the needs of users.

As shown in FIG. 2 , in some embodiments, the second magnetic block 320 is embedded in the customized building block 310 , wherein the customized building block 310 is connected to the magnetic body 200 via the second magnetic block 320 . Specifically, when the part around the second magnetic block 320 in the magnetic customized modeling building block 300 is close to the magnetic surface A1 on the magnetic body 200, due to the characteristics of magnetic substances repelling each other with the same pole and attracting each other with different poles, the second The magnetic block 320 may or may not be connected to the magnetic surface A1 on the magnetic body 200 . Therefore, by adjusting the magnetism of the second magnetic block 320 and the corresponding magnetic surface A1, the user can be reminded how to correctly connect the magnetic customized modeling building block 300 and the magnetic surface A1, thereby reducing the user's sense of frustration during assembly and adding Fun to assemble. In some embodiments, the second magnetic block 320 includes ferrite material, alnico material, neodymium iron boron material, or samarium cobalt material. The second magnetic block 320 is not limited to a specific type of material, as long as it is magnetic, and the magnetic surfaces A1 can be connected by magnetic force.

It can be seen from the above that the magnetic modeling building block combination disclosed in this disclosure includes a design in which standardized building blocks are connected to customized modeling building blocks, which can increase the simulation of the overall magnetic modeling building block combination on the basis of using standardized building blocks as the backbone. Both standardized building blocks and customized building blocks are produced by 3D printing. Therefore, in addition to customizing the design of magnetic building block combinations according to needs, 3D printing can be used to produce fast features and save manufacturing magnetic building blocks. Combined time cost. On the other hand, by embedding the first magnetic block on the surface of the standardized building block to form several magnetic surfaces, the magnetic modeling building block can be strengthened by matching the magnetic customized building block with the second magnetic block embedded inside. Combination for ease of assembly.

The previous disclosures have outlined the features of several embodiments, so those skilled in the art can better understand aspects of the present disclosure. Those skilled in the art should understand that they can easily use the present disclosure as a basis to design or modify other processes and structures to achieve the same purpose and/or achieve the same advantages as the embodiments or examples introduced here. Those skilled in the art should also understand that such an equivalent structure does not deviate from the spirit and scope of this disclosure, and those skilled in the art can make various changes, substitutions and modifications here without departing from the spirit and scope of this disclosure.

100: Magnetic modeling building block combination 200:Magnetic body 210:Standardized building blocks 211: The first rectangular building block 212: The second rectangular building block 213: The third rectangular volume wood 220: The first magnetic block 230:Magnetic body 240:Magnetic Body 300: Magnetic customized building blocks 310: Customized building blocks 320: the second magnetic block A1: Magnetic side A11:N pole magnetic surface A12: S pole magnetic surface L1: first long side L2: second long side L3: third long side Q1: The first square surface Q2: The second square side Q3: The third shape S1: surface

The present disclosure is best understood from the following detailed description and accompanying figures. It is emphasized that, in accordance with the standard practice in the industry, features are not drawn to scale and are used for illustration purposes only. In fact, the dimensions of the various features may be arbitrarily increased or decreased to illustrate the discussion. FIG. 1 is a schematic diagram illustrating a combination of magnetic modeling building blocks according to an embodiment of the present disclosure. FIG. 2 is an exploded schematic diagram of a combination of magnetic modeling building blocks according to an embodiment of the present disclosure. FIG. 3 is a schematic diagram illustrating a magnetic surface according to an embodiment of the present disclosure. FIG. 4 is a schematic diagram illustrating a first cuboid, a second cuboid, and a third cuboid according to an embodiment of the present disclosure. FIG. 5 is an exploded schematic diagram illustrating a combination of magnetic modeling building blocks according to another embodiment of the present disclosure. Fig. 6 is an exploded schematic view of a magnetic modeling building block assembly according to yet another embodiment of the present disclosure.

100: Magnetic modeling building block combination

200:Magnetic body

210:Standardized building blocks

220: The first magnetic block

300: Magnetic customized building blocks

310: Customized building blocks

320: the second magnetic block

A1: Magnetic side

S1: surface

Claims (10)

A combination of magnetic modeling building blocks, including: A magnetic body, wherein the magnetic body comprises: a plurality of standardized building blocks, wherein the standardized building blocks have a plurality of surfaces; and A plurality of first magnetic blocks are embedded on the surfaces of the standardized building blocks to form a plurality of magnetic surfaces, wherein one of the magnetic surfaces on each of the standardized building blocks is aligned with the standardized building blocks. one of the magnetic faces on the other of the building blocks is interconnected; and A plurality of magnetic customized building blocks are connected to the magnetic main body. The combination of magnetic modeling building blocks as described in Claim 1, wherein the shapes of these standardized building blocks are elliptical cylinders, spheres, or cuboids. The combination of magnetic modeling building blocks as described in Claim 2, wherein the shape of the standardized building blocks is a cuboid, and the number of the magnetic surfaces on each of the standardized building blocks is six. The combination of magnetic modeling building blocks as described in claim 3, wherein the magnetic surfaces include three N-pole magnetic surfaces and three S-pole magnetic surfaces, the N-pole magnetic surfaces are connected to each other, and the S-pole magnetic surfaces are connected to each other . The combination of magnetic modeling building blocks as described in claim 3, wherein the magnetic body includes: at least one first cuboid, wherein the at least one first cuboid has a first square face and a first long side; and at least one second cuboid, wherein the at least one second cuboid has a second square face and a second long side, Wherein the area of the first square surface is the same as that of the second square surface, and the length of the second long side is twice that of the first long side. The combination of magnetic modeling building blocks as described in claim 3, wherein the magnetic body includes: at least one first cuboid, wherein the at least one first cuboid has a first square face and a first long side; and at least one third cuboid, wherein the at least one third cuboid has a third face and a third long side, Wherein the area of the first square surface is the same as that of the third square surface, and the length of the third long side is three times that of the first long side. The combination of magnetic modeling building blocks as described in Claim 1, wherein the standardized building blocks are a plurality of standardized 3D printing building blocks. The combination of magnetic modeling building blocks as described in claim 1, wherein each of the magnetic customized modeling building blocks includes: a customized building block; and A second magnetic block is embedded in the customized building block, wherein the customized building block is connected to the magnetic body through the second magnetic block. The combination of magnetic modeling building blocks as described in Claim 8, wherein the customized modeling building block is a customized 3D printing building block. The magnetic modeling building block combination as described in Claim 8, wherein the first magnetic blocks and the second magnetic blocks comprise a ferrite material, an AlNiCo alloy material, a NdFeB material, or a samarium cobalt Material.

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