All dimensions free connection magnetic building block

Abstract

The present disclosure provides a magnetic building block for connecting with other magnetic building block. The magnetic building block includes a base, a cover, at least one horizontal magnet and at least one vertical magnet. The base includes at least two vertical accommodating grooves and at least one horizontal accommodating groove. The cover is configured to connect with the base and cover the at least two vertical accommodating grooves and the at least one horizontal accommodate groove. The at least one horizontal magnet is located at the at least one horizontal accommodating groove. The at least two vertical magnets are located at the at least two vertical accommodating grooves respectively. Magnetic pole directions of two adjacent vertical magnets of the at least two vertical magnets are opposite to each other.

Claims

1. A magnetic building block, comprising a polyhedron, for connecting with another magnetic building block, which is also a polyhedron, comprising: a base comprising a polyhedron comprising at least three sides connected together so as to define at least three corners having at least three angles therebetween, at least one vertical accommodating groove defined within at least one of said at least three corners of said polyhedron, at least one vertical accommodating groove defined within at least one of said at least three sides of said polyhedron, and at least one horizontal accommodating groove; a cover configured to connect with said base and thereby cover said at least one vertical accommodating groove defined within said at least one of said at least three corners of said polyhedron, said at least one vertical accommodating groove defined within at least one of said at least three sides of said polyhedron, and said at least one horizontal accommodating groove; at least one horizontal magnet disposed within said at least one horizontal accommodating groove and having opposite pole directions; and at least two vertical magnets respectively disposed within said at least one vertical accommodating groove defined within said at least one of said at least three corners of said polyhedron and within said at least one vertical accommodating grooves defined within said at least one of said at least three sides of said polyhedron, respectively having opposite magnetic pole directions, and wherein said magnetic pole directions of two adjacent vertical magnets of said at least two vertical magnets are opposite to each other.

2. The magnetic building block according to claim 1, wherein: said at least one horizontal magnet comprises a plurality of horizontal magnets, said at least one horizontal accommodating groove comprises a plurality of horizontal accommodating grooves, and said plurality of horizontal magnets and said plurality of horizontal accommodating grooves are equal in number.

3. The magnetic building block according to claim 1, wherein: said magnetic pole direction of each one of said at least two vertical magnets is the same as a length dimension of each one of said at least two vertical magnets.

4. The magnetic building block according to claim 1, wherein: said at least one horizontal magnet has a predetermined length dimension and a predetermined thickness dimension; and said at least one horizontal magnet is able to rotate around a virtual axis extending along said length dimension of said at least one horizontal magnet.

5. The magnetic building block according to claim 1, wherein: said base has a cross-sectional configuration which is selected from the group comprising a rectangular shape, a square shape, and a triangular shape, and said cover has a cross-sectional shape corresponding to said cross-sectional shape of said base.

6. The magnetic building block according to claim 1, wherein: said magnetic pole direction of one of said at least two vertical magnets is from a north pole of said one of said at least two vertical magnets to a south pole of said one of said at least two vertical magnets and is the same as a direction extending from a top end of said one of said at least two vertical magnets to a bottom end of said one of said at least three vertical magnets, and said magnetic pole direction of an adjacent one of said at least two vertical magnets is from a south pole of said adjacent one of said at least two vertical magnets to a north pole of said adjacent one of said at least two vertical magnets and is the same as a direction extending from a top end of said adjacent one of said at least two vertical magnets to a bottom end of said adjacent one of said at least two vertical magnets.

7. The magnetic building block according to claim 1, wherein: said magnetic poles of said at least two vertical magnets, disposed within vertical planes, are arranged in a manner selected from first and second manners with said magnetic poles of adjacent vertical magnets alternating polarity such that said first manner comprises a north pole, a south pole, a north pole, and a south pole, and said second manner being a south pole, a north pole, a south pole, and a north pole.

8. The magnetic building block according to claim 1, wherein: said magnetic pole direction of each one of said at least two vertical magnets is along a length dimension of each one of said at least two vertical magnets, and said magnetic pole direction of said at least one horizontal magnet is along a thickness dimension of said at least one horizontal magnet.

9. A magnetic building block, comprising a polyhedron, for connecting with another magnetic building block, which is also a polyhedron, comprising: a base comprising a polyhedron comprising four sides connected together so as to define four corners having four angles therebetween, a vertical accommodating groove defined within each one of said four corners of said polyhedron, and a horizontal accommodating groove defined within each one of said four sides of said polyhedron; a cover configured to connect with said base and thereby cover said four vertical accommodating grooves defined within said four corners of said polyhedron and said four horizontal accommodating grooves defined within said four sides of said polyhedron; a horizontal magnet disposed within each one of said four horizontal accommodating grooves defined within said four sides of said polyhedron and having opposite pole directions; and four vertical magnets respectively disposed within said four vertical accommodating grooves defined within said four corners of said polyhedron, respectively having opposite magnetic pole directions, and wherein said magnetic pole directions of two adjacent vertical magnets of said at least two vertical magnets are opposite to each other.

10. The magnetic building block as set forth in claim 9, wherein: said base and said cover together comprise a cube.

11. A magnetic building block, comprising a polyhedron, for connecting with another magnetic building block, which is also a polyhedron, comprising: a base comprising a polyhedron comprising four sides connected together so as to define four corners having four angles therebetween, a vertical accommodating groove defined within each one of said four corners of said polyhedron, a pair of vertical accommodating grooves defined within two opposite sides of said polyhedron, and at least one horizontal accommodating groove defined within each one of said four sides of said polyhedron; a cover configured to connect with said base and thereby cover said four vertical accommodating grooves defined within said four corners of said polyhedron, said pair of vertical accommodating grooves defined within two opposite sides of said polyhedron, and said at least one horizontal accommodating groove defined within each one of said four sides of said polyhedron; a horizontal magnet disposed within all of said horizontal accommodating grooves defined within each one of said four sides of said polyhedron, and having opposite pole directions; and four vertical magnets respectively disposed within said four vertical accommodating grooves defined within said four corners of said polyhedron, and respectively having opposite magnetic pole directions, a pair of vertical magnets respectively disposed within said pair of vertical accommodating grooves defined within said two opposite sides of said polyhedron, and respectively having opposite magnetic pole directions, and wherein said magnetic pole directions of two adjacent vertical magnets of all of said vertical magnets are opposite to each other.

12. The magnetic building block as set forth in claim 11, wherein: said base and said cover together comprise a rectangular parallepiped.

13. The magnetic building block as set forth in claim 12, wherein: said pair of vertical magnets respectively disposed within said pair of vertical accommodating grooves defined within said two opposite sides of said polyhedron are disposed within longer sides of said rectangular parallepiped.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

(1) For the purpose of a clearer description of the embodiments in this application or technical solutions in prior art, below is a brief introduction of the attached drawings needed to be used in the description of the embodiments or prior art. Apparently, the attached drawings in the following description are only some embodiments indicated in the present application. For ordinary skill in the art, they may obtain other drawings according to these attached drawings without any innovative laboring.

(2) The present disclosure will be further described with reference to the attached drawings and the embodiments hereunder.

(3) FIG. 1 is an exploded view of a magnetic building block according to a first embodiment of the present disclosure;

(4) FIG. 2 is an exploded view of a magnetic building block according to a second embodiment of the present disclosure;

(5) FIG. 3 is an exploded view of a magnetic building block according to a third embodiment of the present disclosure;

(6) FIG. 4 is an exploded view of a magnetic building block according to a fourth embodiment of the present disclosure;

(7) FIG. 5 is an exploded view of a magnetic building block according to a fifth embodiment of the present disclosure;

(8) FIG. 6 is an exploded view of a magnetic building block according to a sixth embodiment of the present disclosure; and

(9) FIG. 7 is a schematic diagram of a plurality of magnetic building blocks according to above embodiments of the present disclosure connected with each other to build a toy house.

DETAILED DESCRIPTION OF THE ILLUSTRATED EMBODIMENTS

(10) In order to provide a clear understanding of the objects, features, and advantages of the embodiments, the following are detailed and complete descriptions to the technological solutions adopted in the embodiments. Obviously, the descriptions are part of the whole embodiments. The other embodiments which are not processed creatively by technicians of ordinary skills in the field are under the protection of this disclosure. The same is given with reference to the drawings and specific embodiments. It should be noted that non-conflicting embodiments in the disclosure and the features in the embodiments may be combined with each other without conflict.

(11) In the following description, numerous specific details are set forth in order to provide a full understanding of the disclosure. The disclosure may be practiced otherwise than as described herein. The following specific embodiments are not to limit the scope of the disclosure.

(12) Unless defined otherwise, all technical and scientific terms herein have the same meaning as used in the field of the art as generally understood. The terms used in the disclosure are to describe particular embodiments and are not intended to limit the disclosure.

(13) The disclosure, referencing the accompanying drawings, is illustrated by way of examples and not by way of limitation. It should be noted that references to “an” or “one” embodiment in this disclosure are not necessarily to the same embodiment, and such references mean “at least one.”

(14) FIG. 1-FIG. 6 show magnetic building blocks according to embodiments of the present disclosure and toy house build by the magnetic building blocks, and FIG. 7 shows a schematic diagram of a plurality of magnetic building blocks according to above embodiments of the present disclosure connected with each other to build a toy house. The magnetic building block for connecting with other magnetic building block includes a base having at least two vertical accommodate grooves 5 and at least one horizontal accommodate groove 6, a cover 2 configured to connect with the base 1 and cover the at least two vertical accommodate grooves 5 and the at least one horizontal accommodate groove 6, at least one horizontal magnet 4 located at the at least one horizontal accommodate groove 6, and at least two vertical magnets 3 located at the at least two vertical accommodate grooves 5. Magnetic pole directions of two adjacent vertical magnets 3 of the at least two vertical magnets 3 are opposite to each other.

(15) In the embodiments, the magnetic building block includes a plurality of vertical magnets 3 and a plurality of horizontal magnets 4. The base 1 includes a plurality of vertical accommodate grooves 5 and a plurality of horizontal accommodate grooves 6. The plurality of vertical magnets 3 and the plurality of vertical accommodate grooves 5 have equal number. The plurality of horizontal magnets 4 and the plurality of horizontal accommodate grooves 6 have equal number.

(16) In the embodiments, the plurality of vertical magnets 3 are located at the plurality of vertical accommodate grooves 5 respectively. The magnetic pole direction of each vertical magnet 3 is the same as a length direction of the vertical magnet 3. The magnetic pole direction of each vertical magnet 3 is the same as a length direction of the vertical magnet 3 and is opposite to the magnetic pole direction of the adjacent vertical magnet 3.

(17) In the embodiments, the horizontal magnet 4 defines a length direction and a thickness direction. The horizontal magnet 4 is disposed at the horizontal accommodate groove 6 along the thickness direction. The horizontal magnet 4 is able to rotate around a virtual axis along the length direction of the horizontal magnet 4.

(18) In the embodiments, a cross-section shape of the base 1 along the horizontal plane is selected from the group of a rectangular shape, a square shape, and a triangle shape, and the cover 2 has a shape corresponding to the cross-section shape of the base 1.

(19) In the embodiments, an intersection angle between a length direction of the vertical magnet 3 and a length direction of the horizontal magnet 4 can be 90 degree or other degree. The vertical magnets 3 and the horizontal magnet 4 are disposed alternately, and there is at least one horizontal magnet 4 disposed between two adjacent vertical magnets 4. Further, poles of the at least two vertical magnets 3 in the same horizontal plane are arranged in a first manner or a second manner. The first manner is a north pole, a south pole, a north pole to a south pole (that is N-S-N-S), and the second manner is a south pole, a north pole, a south pole to a north pole (that is S-N-S-N).

(20) In the embodiments, the magnetic pole direction of the vertical magnet 3 is from a south pole of the vertical magnet 3 to a north pole of the vertical magnet 3 (that is S-N) and is same as a direction from a top end of the vertical magnet 3 to a bottom end of the vertical magnet 3. The magnetic pole direction of the adjacent vertical magnet 3 is from a south pole of the adjacent vertical magnet 3 to a north pole of the adjacent vertical magnet 3 and is same as a direction from a bottom end of the adjacent vertical magnet 3 to a top end of the adjacent vertical magnet 3. Furthermore, the magnetic pole direction of the vertical magnet 3 is along a length direction of the vertical magnet 3, and the magnetic pole direction of the horizontal magnet 4 is along the thickness direction of the horizontal magnet 4.

(21) The present disclosure has the beneficial effects: magnetic pole directions of two adjacent vertical magnets 3 are opposite to each other, poles of the at least two vertical magnets 3 in the same horizontal plane are arranged in a selected manner from the first manner (N-S-N-S) and the second manner (S-N-S-N), such that all of the magnetic building blocks are arranged regularly. In addition, the poles of the vertical magnets 3 of the magnetic building block with the first manner can be connected with the poles of the vertical magnets 3 of the adjacent magnetic building block with the second manner in the vertical direction, and the horizontal magnet 4 of the magnetic building block may freely rotate so as to connect with the horizontal magnet 4 of the adjacent magnetic building block 4 in the horizontal direction.

(22) As mentioned, in the above magnetic building block of present disclosure, the vertical magnets 3 of the magnetic building block can be connected with the poles of the vertical magnets 3 of the adjacent magnetic building block in the vertical direction, and the horizontal magnet 4 of the magnetic building block may freely rotate so as to connect with the horizontal magnet of the adjacent magnetic building block 4 in the horizontal direction. Thus, two adjacent blocks can be connected with each other easily in the vertical direction and the horizontal direction, which brings conveniences to children and improves the user experience, and has reasonable design.

(23) It can be understood, if the vertical magnets 3 of one magnetic building block are arranged in a first manner of N-S-N-S, the vertical magnets 3 of other magnetic building block should be arranged in first manner of N-S-N-S such that two adjacent magnetic building block can have opposites attract, otherwise two adjacent magnetic building block will repel each other.

(24) Finally, it should be noted that above embodiments are merely used for illustrating the technical solutions of the disclosure, rather than limiting the disclosure; though the disclosure is illustrated in detail with reference to the aforementioned embodiments, it should be understood by those of ordinary skill in the art that modifications may still be made on the technical solutions disclosed in the aforementioned respective embodiments, or equivalent substitutions may be made to a part of technical features thereof; and these modifications or substitutions do not make the essence of the corresponding technical solutions depart from the spirit and scope of the technical solutions of the respective embodiments of the disclosure.