The present invention relates to an assembly unit for a toy assembly block.
A self-assembly block toy set including a plurality of blocks of various shapes is used for various purposes. Such a self-assembly block toy set allows a user to make an arbitrary structure by assembling desired blocks. With the self-assembly block toy set, structures of various shapes can be created depending on imagination of the user, which can be used in a repeated manner by assembling and disassembling the blocks.
The activity of assembling the blocks to create the user's own structure stimulates creativity and imagination of the user, leading to an improvement of brain activity and intelligence of the user. In addition, as a more complicated structure can be made depending on design ability and imagination of the user, such a self-assembly block toy set is widely used not only for children of early childhood and preschool children but also for students and adults.
The self-assembly block toy set is designed to build a meaningful structure by coupling unit blocks in various directions. Therefore, a number of unit blocks of various sizes and shapes are required depending on the structure to be built.
In general, a self-assembly block toy set including unit blocks of fixed sizes and shapes virtually standardized is commercially available, or a set of unit blocks matching a specific structure is commercially available, such as LEGO®.
In this case, when a unit block of a desired size or shape is absent, the user needs to separately purchase a specific unit block to complete a desired structure. If the desired unit block is not sold separately or hard to purchase separately, the desired structure cannot be completed, which can limit the creativity and the imagination of the user.
Further, when a user wants to implement his or her own imagination by building a structure of an unknown shape, he or she may need a building block of non-standardized size and shape.
According to some embodiments of the present invention, an assembly unit for a toy assembly block includes a side plate having a plate shape and including a first coupling member on a first side, a second coupling member on a second side, and a third coupling member on each of a third side and a fourth side, a top plate having a plate shape and including a fourth coupling member on each side and a top stud on a top surface, and a bottom plate having a plate shape and including a fifth coupling member on each side and a bottom stud on a bottom surface. The first coupling member of the side plate is configured to be engaged with the second coupling member of a neighboring side plate of a same type as the side plate. The fourth coupling member of the top plate is configured to be engaged with the third coupling member of the side plate. The fifth coupling member of the bottom plate is configured to be engaged with the third coupling member of the side plate. The first coupling member includes a protrusion. The second coupling member includes a groove. When the first coupling member of the side plate is engaged with the second coupling member of the neighboring side plate, the protrusion of the side plate is fitted into the groove of the neighboring side plate. The third coupling member includes a thread. Each of the fourth coupling member and the fifth coupling member includes a thread corresponding to the thread of the third coupling member. The fourth coupling member and the fifth coupling member are configured to be engaged with the third coupling member in a screwed manner using the threads.
Further, according to some embodiments of the present invention, an assembly unit for a toy assembly block includes a side plate having a plate shape and including a first coupling member on a first side, a second coupling member on a second side, and a third coupling member on each of a third side and a fourth side, a top plate having a plate shape and including a fourth coupling member on each side and a top stud on a top surface, and a bottom plate having a plate shape and including a fifth coupling member on each side and a bottom stud on a bottom surface. The first coupling member of the side plate is configured to be engaged with the second coupling member of a neighboring side plate of a same type as the side plate. The fourth coupling member of the top plate is configured to be engaged with the third coupling member of the side plate. The fifth coupling member of the bottom plate is configured to be engaged with the third coupling member of the side plate. The first coupling member includes a protrusion. The second coupling member includes a groove. When the first coupling member of the side plate is engaged with the second coupling member of the neighboring side plate, the protrusion of the side plate is fitted into the groove of the neighboring side plate. Each of the fourth coupling member and the fifth coupling member includes a protrusion. The third coupling member includes a rail structure to guide the protrusion. The fourth coupling member and the fifth coupling member are configured to be engaged with the third coupling member by sliding the protrusion through the rail structure.
Moreover, according to some embodiments of the present invention, an assembly unit for a toy assembly block includes a side plate having a plate shape and including a first coupling member on a first side, a second coupling member on a second side, and a third coupling member on each of a third side and a fourth side, a top plate having a plate shape and including a fourth coupling member on each side and a top stud on a top surface, and a bottom plate having a plate shape and including a fifth coupling member on each side and a bottom stud on a bottom surface. The first coupling member of the side plate is configured to be engaged with the second coupling member of a neighboring side plate of a same type as the side plate. The fourth coupling member of the top plate is configured to be engaged with the third coupling member of the side plate. The fifth coupling member of the bottom plate is configured to be engaged with the third coupling member of the side plate. The third coupling member includes a thread. Each of the fourth coupling member and the fifth coupling member includes a thread corresponding to the thread of the third coupling member. The fourth coupling member and the fifth coupling member are configured to be engaged with the third coupling member in a screwed manner using the threads.
Further, according to some embodiments of the present invention, an assembly unit for a toy assembly block includes a side plate having a plate shape and including a first coupling member on a first side, a second coupling member on a second side, and a third coupling member on each of a third side and a fourth side, a top plate having a plate shape and including a fourth coupling member on each side and a top stud on a top surface, and a bottom plate having a plate shape and including a fifth coupling member on each side and a bottom stud on a bottom surface. The first coupling member of the side plate is configured to be engaged with the second coupling member of a neighboring side plate of a same type as the side plate. The fourth coupling member of the top plate is configured to be engaged with the third coupling member of the side plate. The fifth coupling member of the bottom plate is configured to be engaged with the third coupling member of the side plate. Each of the fourth coupling member and the fifth coupling member includes a protrusion. The third coupling member includes a rail structure to guide the protrusion. The fourth coupling member and the fifth coupling member are configured to be engaged with the third coupling member by sliding the protrusion through the rail structure.
The above and other objects, features, advantages and technical and industrial significance of this invention will be better understood by reading the following detailed description of presently preferred embodiments of the invention, when considered in connection with the accompanying drawings.
Exemplary embodiments of the present disclosure are described in detail below with reference to the accompanying drawings. In the following descriptions, like reference numerals designate like elements although the elements are shown in different drawings. Further, detailed descriptions of known functions and configurations incorporated herein are omitted for the purpose of clarity and for brevity.
As shown in
The first coupling member 121 of one side plate 120 is engaged with the second coupling member 122 of a neighboring side plate 120 to couple two side plates 120. When four side plates 120 are coupled to form four sides of a hexahedron, the fourth coupling member 111 of the top plate 110 is engaged with the third coupling member 123 on the top side of the side plate 120 and the fifth coupling member 131 of the bottom plate 130 is engaged with the third coupling member 123 on the bottom side of the side plate 120 to complete the hexahedron.
Although a hexahedron including the top plate 110, the bottom plate 130, and four side plates 120 are described in
The assembly unit 100 can be assembled and disassembled as appropriate to form blocks of different sizes and different shapes depending on the structure to be built.
The side plates 120 are coupled with each other to form sides of a polyhedron or a cylindrical shape. Although the side plate 120 is shown in the drawings as a solid plate, in some embodiments of the present invention, the side plate 120 is a side frame such that a functional unit can be fitted into the side frame to exhibit various functions on the side plate 120.
The top plate 110 defines the top surface of the assembly unit 100 when a polyhedron is formed. The size and the shape of the top plate 110, the number of top studs 112, and the layout of the top studs 112 can be determined depending on the size and the shape of the assembly unit 100.
The bottom plate 130 defines the bottom surface of the assembly unit 100 when a polyhedron is formed. The size and the shape of the bottom plate 130, the number of bottom studs (1133 in
As shown in
The first coupling member 121 of the side plate 120 is engaged with the second coupling member 122 of a neighboring side plate 120, and the number of side plates 120 coupled in this manner determines the shapes of the top plate 110 and the bottom plate 130.
In some embodiments of the present invention, two side plates 120 need to be coupled in a fixed manner instead of being rotatably coupled with each other.
The fourth coupling member 111 of the top plate 110 and the fifth coupling member 131 of the bottom plate 130 includes a hole into which the hook 720 of the side plate 120 is inserted and locked. The shape of the hole can be square or circular.
In
The size and the shape of the top plate 110, the number of top studs 112, and the layout of the studs 112 can be determined depending on the shape of the assembly unit 100 to be formed. In the example shown in
The top plate 110 includes the fourth coupling member 111 on each side in the form of a square or circular (including elliptical) hole. The number of fourth coupling members 111 is set to be at least same as the number of third coupling members 123.
The size and the shape of the bottom plate 130 and the support mechanism can be determined depending on the shape of the assembly unit 100 to be formed. In the example shown in
The bottom plate 130 includes the fifth coupling member 131 on each side in the form of a square or circular (or elliptical) hole. The number of fifth coupling members 131 is set to be at least same as the number of third coupling members 123.
With the assembly unit 1200 and the assembly unit 1300 the stacking direction can be changed by 90 degrees, providing the flexibility in building more complicated structure.
As shown in
Similarly, the bottom plate of the assembly unit 1400 includes a thread 1430 and the side plate includes a thread 1440. When all side plates are coupled to form the side wall of a cylinder, the bottom plate can be coupled in a screwed manner using the thread 1430 and the thread 1440.
In some embodiments, the top and bottom plates includes a protrusion (not shown) on at least a pair of edges facing each other and at least two side plates facing each other include a rail structure to guide the protrusion of the top and bottom plates. When all side plates are coupled to form the side wall of a hexahedron, the top and bottom plates can be coupled by sliding the protrusion through the rail structure of the side plates.
When a relatively small block or a shallow block needs to be stacked on the assembly unit 1500 it may not be possible to stably stack the small or shallow block. The internal protrusion 1520 reduces the effective inner diameter of the top stud 112 such that a bottom stud of a smaller diameter can be stably fitted into the top stud 112.
Further, the screw structure of the top and bottom plates of the assembly unit 1400 can be applied to the front of the side plate in a protruded manner. Two neighboring assembly units both having the screw structure on any one of the side plates then can be coupled laterally in a screwed manner.
The present invention should not be limited to the above-mentioned embodiments but various changes and modifications can be made by a person having ordinarily skill in the art within the subject matter, the spirit and scope of the present invention as hereinafter claimed. Specific terms in the specification and drawings are used for illustrative purposes and not to be considered as limitations of the present invention. Exemplary embodiments of the present invention have been described for the sake of brevity and clarity. Accordingly, a person having ordinary skill in the art would understand the scope of the claimed invention is not to be limited by the above-mentioned embodiments but by the claims and equivalents thereof.
This invention has been published as Korean Patent Laid-Open Publication No. 10-2017-0013078 on Feb. 6, 2017, which is now Korean Patent No. 10-1714642. This application is a Divisional Application of U.S. patent application Ser. No. 16/151,854, filed Oct. 4, 2018 which is the Divisional Application of U.S. patent application Ser. No. 15/889,155, filed Feb. 5, 2018, the disclosure of which is incorporated by reference herein in its entireties.
Number | Date | Country | |
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Parent | 16151854 | Oct 2018 | US |
Child | 16934913 | US | |
Parent | 15889155 | Feb 2018 | US |
Child | 16151854 | US |