TWM511362U - Dove-like building block - Google Patents

Description

Scorpion block

This creation is a kind of squat-shaped building block, which is mainly used to arrange the sides of the blocks, and the stern groove and the tail-tail block are arranged in turn, so that when the multiple blocks are connected, the stern block of the building block is fixed to another building block through the angle of each side. The dovetail groove forms a three-dimensional special shape with a curvature and is more versatile.

There are many toys on the market that train hand-eye coordination. Because of the inconsistency of various types of gameplay and combination, it is very suitable for the development of training creativity.

Among them, the most common types of building blocks are the stacking blocks of different patterns, or the concave and convex parts are arranged on each building block to achieve the purpose of inlaying, among which the most common building blocks are the most common. It is a LEGO building block, which is characterized by using a single square body area as a minimum unit to expand into a large area of a cube or a rectangular parallelepiped. The concave and convex portions on the square body are longitudinally assembled, but assembly in a single direction sometimes occurs. Poor structural strength, resulting in collapse, loose drag, etc., it is difficult for assembly on large structures, so Lego bricks need to adjust the direction with 90, 180, 270 degrees, it is possible to assemble large or curved The structure of the arc, and the need for more special parts can be completed, and the Lego building blocks are too tightly assembled, and the easy to assemble and difficult to disassemble often occur, resulting in the need to use brute force for group disassembly, resulting in structural damage of the building blocks. The creator also plagued the launch of a disassembly tool for players to use.

In addition, the conventional building blocks need to be carried out block by block when assembling or disassembling, so it is time-consuming, labor-intensive, and cannot be quickly assembled. It is known that there is still room for improvement.

The creation is a kind of block-shaped building block, which is mainly composed of a plurality of building blocks connected, wherein the building block is a regular polygon design, and the dovetail groove and the dovetail block are arranged in turn on each side of the building block, and the top of the building block, The bottom ends are provided with corresponding columns and recesses which can be combined.

When a plurality of blocks are connected, the tail pieces of the block are clamped to the dovetail groove of the other block through the angle of each side, so that the block can form a three-dimensional special shape with a curvature; and then the column and the groove are connected through the column. The building block can be adjusted in the longitudinal direction and the rotation direction, so that the combination of the vertical, horizontal, reverse and rotating means can make the assembled three-dimensional shape more rich and varied, and the overall structure is also It can maintain considerable stability; in addition, the upper and lower ends of the block of the building block are provided with parallel inclined faces and the positioning points formed by the inclined faces of the dovetail groove, so that the blocks can be stacked or horizontally connected. In view of the advantages of convenient group assembly and stable connection, in summary, the creation of the shape-shaped building blocks has the advantages of rich connection variability, stable connection, and convenient group disassembly, and the structure is simple and not easy to be damaged, which can greatly improve the deficiencies of the conventional technology. Where.

1‧‧‧Building blocks

11‧‧‧鸠尾槽

12‧‧‧鸠尾块

121‧‧‧Upper slope

122‧‧‧Lower slope

13‧‧‧ side

14‧‧‧Cylinder

15‧‧‧Inlay

16‧‧‧Location points

17‧‧‧Perforation

A1‧‧‧ angle

B‧‧‧ radians

The first picture is a perspective view of the building blocks of the creation.

The second figure is a three-dimensional diagram of the ordinary connection of the building blocks of the creation.

Figure 2A is a three-dimensional diagram of the building blocks of the creation.

Figure 3 is a perspective view of the building block rotation connection of the creation.

Figure 3A is a three-dimensional diagram of the building blocks of the creation.

Figure 4 is a perspective view of the reverse connection of the building blocks of the creation.

Figure 4A is a three-dimensional diagram of the building blocks of the creation.

Figure 5 is a schematic diagram of the regular hexagon, regular octagon, regular decagon, and regular dodecax of the building blocks.

Figure 6 is a schematic diagram of the assembly of the blocks of the creation at different heights of the regular decagon.

Figure 7 is a perspective view of a building block of another embodiment of the present invention.

Fig. 7A is a schematic view showing the building blocks of the other embodiment of the creation on an inclined surface.

Figure 7B is a perspective view of the building block connection of another embodiment of the creation.

Figure 7C is a cross-sectional view taken along line A-A of another embodiment of the present creation.

Figure 8 is a perspective view of the building block connection of another embodiment of the present invention.

Figure 8A is an enlarged schematic cross-sectional view of the B-B of another embodiment of the present invention.

Generally, according to the creation, the best feasible embodiment, and with the detailed description of the drawings, 俾 increase the understanding of the creation, this creation is a kind of 积-shaped building blocks, please refer to the figure shown in Figures 1~4A The hexagonal design of the building blocks (1), because the regular hexagonal structure can be combined with each other The gap is formed into a preferred shape, and each side surface (13) of the building block (1) is arranged in turn to provide a dovetail groove (11) and a dovetail block (12), so that each side surface (13) has a concave-convex design, here The rotation setting is such that the number of the dovetail groove (11) and the dovetail block (12) of each side (13) are equal, and it can be seen that the polygonal design of the creation can be applied to a minimum of a quadrilateral, and the maximum can be adjusted according to actual production requirements. When the plurality of building blocks (1) are connected, the dovetail block (12) of the building block (1) is clamped to the dovetail groove (11) of the other building block (1), so that the building blocks (1) can be laterally connected, and the six sides The angle (A1) of each side of the shape (A1) is 60 degrees, so that the building block (1) can be easily rotated and connected to the original structure to assemble a three-dimensional shape having a curvature (B); and the top of the building block (1) a column body (14) is provided, and at the bottom end of the building block (1), a fitting groove (15) corresponding to the area of the column body (14) is provided. When the plurality of building blocks (1) are connected, the column body (14) It can be assembled in the recessed groove (15) to connect the blocks (1) in a longitudinal direction, so that the plurality of blocks (1) can be connected to form a stable three-dimensional shape.

Referring to the figure 3~3A, it can be seen that the figure is a two-dimensional three-dimensional shape composed of 6 stacked blocks (1), and the dotted building blocks (1) in the figure are connected by the column (14). The groove (15) is used to achieve the connection, and the two are hexagonal, so that the building block (1) can be rotated to allow the subsequent connected blocks (1) to be assembled in the direction of orientation, due to the angle of the regular hexagon. It is (N-2)*180 degrees=720 degrees, each angle is 120 degrees, and the rotation is adjusted to 60 degrees by the inner angle of the triangle, and the embodiment is not limited to the hexagon, and can also be practical. The production needs to be changed. If the angle of the regular octagon is taken as an example, then (N-2)*180 degrees=1080 degrees, then the angles are 135 degrees, and the inner angles of the triangles are combined, so the rotation is adjusted to 45 degrees. Taking the angle of the regular dodecagonal as an example, if (N-2)*180 degrees=1800 degrees, the angles are 150 degrees, and the inner angles of the triangles are combined, so the rotation is adjusted to 30 degrees. As an example, it should be understood that this shape allows the various blocks (1) to have rich variability through the angle of rotation adjustment when connected in the lateral direction.

Please refer to the figure 4~4A. The figure shows the 2nd-order three-dimensional shape of the stack of 6 blocks (1). Because the tail groove (11) and the tail piece (12) can be mutually locked, The dotted line (1) in the figure can be connected in reverse. The regular hexagon, the regular octagon, the regular decagon, and the regular dodecagonal shown in Fig. 5 can be carried out in the aforementioned assembly and stacking manner, and then, as shown in Fig. 6, each building block (1) The height of the column, as well as the column (14) and the corresponding recessed groove (15), and the perforation (17), can be increased or decreased according to actual production requirements, so that the assembly of the building block (1) is more varied. Through the above description, it should be able to understand that this creation can use ordinary vertical and horizontal connections, rotary joints, and reverse connection exchanges, which can make the creation of the skull-shaped building blocks (1) rich and versatile, and to construct a three-dimensional special shape. dexterity.

In another embodiment of the present invention, please refer to the figure 7~7C, the center of the building block (1) is provided with a perforation (17), and the perforation (17) can be matched with a strip or column connection to allow the building block The combination is more versatile, and an upper inclined surface (121) and a lower inclined surface (122) are respectively arranged at the upper end and the lower end of the tail portion (12), and the two inclined surfaces (121, 122) are respectively provided. The drawings are arranged in parallel, and the drawings are illustrated by a structure of 60 degrees and 90 degrees, and are not limited thereto, and when the plurality of blocks (1) are stacked in the longitudinal direction, the upper inclined surface (121) will be The lower inclined surface (122) is fitted to make the building block (1) connected.

Referring to FIG. 8 to FIG. 8A, it can be seen that when the building blocks (1) are stacked in the longitudinal direction, the building blocks (1) continue to be longitudinally except that the two inclined surfaces (121, 122) are attached to each other. Stacked, the upper layer (1) forms a positioning point (16) under the dovetail groove (11) with the upper inclined surface (121) of the other building block (1), so that the building block (1) can prevent the lateral force from falling off. If the positioning point (16) continues to match the number of building blocks (1), the original upper and lower inclined surfaces (121, 122) can be connected to form a stable three-dimensional special shape.

1‧‧‧Building blocks

11‧‧‧鸠尾槽

12‧‧‧鸠尾块

13‧‧‧ side

14‧‧‧Cylinder

Claims (9)

The utility model relates to a scorpion-shaped building block, which comprises: a building block, which is a regular hexagonal shape, and a dovetail groove and a dovetail block are arranged in turn on each side of the building block. When a plurality of building blocks are connected, the angle of each side is fixed, and the dovetail block of the building block is fixed. The dovetail groove of another building block forms a three-dimensional special shape with a curvature. The crotch block according to claim 1, wherein the angle of the side is 60 degrees. The dove-shaped block according to claim 1, wherein the dovetail block further comprises: an upper inclined surface, a lower inclined surface, and an positioning point, wherein the upper inclined surface is disposed at an upper end of the dovetail block, and the lower inclined surface is disposed at The lower end of the dovetail block is disposed in parallel with the lower inclined surface. When the plurality of blocks are longitudinally connected, the upper inclined surface and the lower inclined surface are fitted together, and the inclined surface of the dovetail groove can form at least one The above positioning points make the building blocks more stable in horizontal and vertical connections. The slab-shaped building block as claimed in claim 1, wherein the building block further comprises: a column body disposed at a top end of the building block; and a fitting groove disposed at a bottom end of the building block, the column body area corresponding to the groove area , so that the blocks can be connected vertically and firmly. The 积-shaped building block of claim 1, wherein the building block can be replaced with one of a regular octagon, a regular decagon, or a regular dodecagonal. The crotch block according to claim 4, wherein the column and the trough are regular hexagons. The 积-shaped building block of claim 6, wherein when the blocks are stacked in a longitudinal direction, the column and the groove are adjusted by a multiple of 60 degrees to adjust the steering assembly. The 积-shaped building block of claim 1, wherein the building block further comprises: a perforation, the perforation being provided at the center of the building block. The 积-shaped building block of claim 1, wherein the height of the building block is set at different heights.