KR200434520Y1 - Assembled Spherical Block Toy and Its Set - Google Patents

Abstract

One set of prefabricated sphere block toys can be used to make a square pyramid-shaped assembly. By combining three sets of the same prefabricated sphere block toys, a much larger volume of triangular pyramid-shaped assembly can be assembled. When converted to triangles, the difficulty of assembly is also relatively high, with an increasing number of blocks. In this regard, the effects of intelligence development and entertainment are also higher. Looking at the structure, the square pyramid assembly is composed of 12 blocks forming a different molding, 5 rows X 5 columns, the bottom layer is arranged in 25, each block is composed of three to five spheres 12 because The total number of spheres constituting the block is 55. Three sets of the same prefabricated sphere block toys are 36 blocks, and constituting spheres is 165. When assembled using this, a triangular pyramid-shaped assembly consisting of nine three sides and 45 bottom layers can be assembled.

Building blocks, block toys, concrete blocks

Description

Assembled Spherical Block Toy and Its Set}

1 is a perspective view before assembling the twelve blocks of the present invention.

2 is a first type perspective view of a first embodiment of the present invention.

3 is a perspective view of a second type of the first embodiment of the present invention.

4 is a first type perspective view of a second embodiment of the present invention.

5 is a perspective view of a second type of the second embodiment of the present invention.

6 is a first type perspective view of a third embodiment of the present invention.

7 is a perspective view of a second type of the third embodiment of the present invention.

8 is a perspective view of a fourth embodiment of the present invention.

9 is a first type perspective view of a fifth embodiment of the present invention.

10 is a perspective view of a second type of the fifth embodiment of the present invention.

<Drawing symbol>

10: sphere

12: groove hole

20: Seating Tray 1

21: sphere seat

22: sphere seat 2

23: Top 1

24: Bottom 1

30: Seating Tray 2

31: sphere seat 3

32: sphere seat 4

33: top 2

34: Bottom 2

40: Seating Tray 3

41: sphere seat 5

42: sphere seat 6

43: convex pillar

51: sphere seat 7

61: sphere seat 8

62: sphere seat 9

The present invention relates to an intelligent development type prefabricated block toys that can be assembled in various forms.

Conventional toys, such as "Piece Sculpture", "Cheerboard", "Piece Assemblies", etc., are not as interesting as play because of the limitations of assembling toys in the plane and cannot increase the difficulty. Ability was small. In light of these problems, the present invention has researched and developed prefabricated block play toys suitable for use in various classes and age groups. The present invention can be stacked not only in the assembly method of the planar manner, but also in a three-dimensional manner. Furthermore, there is a patent application in several countries, for example, patent No.398313 published in Taiwan on July 11, 2000, "prefabricated block toys that can be changed to 60 °, 90 °, 120 °".

A feature of the above-mentioned design is to assemble a mounting tray into 19 blocks to assemble a three-dimensional sculpture such as a monolayer or multilayer sculpture, or a square pyramid assembly. However, the above-mentioned block (block) can only assemble the assembly of the square pyramid, the assembly of the triangular pyramid form is impossible, because the square pyramid and the triangular pyramid assembly is different from each other, the block to be assembled (block) Since the number of different from each other, the difficulty of the assembly operation is also inevitably different, in particular, the number of blocks (block) constituting the assembly of the triangular pyramid form is more difficult than the number of blocks constituting the square pyramid assembly, the difficulty is also higher. For this reason, how to convert a square pyramid assembly into a triangular pyramid assembly is a technical problem to be solved by the present invention.

In order to solve the above problems, the present invention has realized the following points. The present invention is a block structure of a kind of prefabricated spheres, the characteristic of which is a set consisting of 12 different forms of blocks, each block is composed of three to five spheres, so that 12 blocks The total number of spheres is 55. Using these 12 blocks, it is possible to assemble a square pyramid-shaped assembly consisting of 25 each with four bottom layers and five bottom layers.

 And the same set of three prefabricated sphere block toys as described above will be 36 blocks, using a total number of 165 spheres, 9 triangular pyramid-shaped pyramid shape consisting of nine on each of the three sides of the floor and 45 bottom layers. The assembly can be assembled.

Of the 12 blocks described above, if the total number of spheres constituting the seven blocks of A, B, C, F, I, J, and K is 30, the bottom layer is divided into four on each side of the floor. 16 square pyramid-shaped assemblies can be assembled.

Referring to the example of the implementation method in detail based on the contents shown in the drawings as follows.

As shown in Fig. 1, blocks A, B, C, D, E, F, G, H, I, J, K, L, etc., which are the structures of the present invention, are all 12 blocks. Each of three to five spheres 10 constitutes a group, and the total number of spheres constituting 12 blocks is 55, and the form thereof is as follows.

In block A, four spheres are formed into a pair to form a "b" shape. The first, second, and third spheres are combined so that three spheres form a straight line, and the fourth sphere is the first and the third. It is bonded perpendicularly to the straight line at one end of the combination of 2 and 3rd spheres.

In the block B, five spheres form a pair to form a “P”. The first and second spheres are connected to form a quadrangle on the same sphere. It is coupled in a straight line with any two adjacent spheres of the second, third, and fourth spheres.

In block C, five spheres form a group of “b”, wherein the first, second, third, and fourth spheres are combined to form a straight line, and the fifth sphere is the first and second. One end of the combination of the third and fourth spheres is perpendicular to the straight line.

In Block D, five spheres are grouped together to form a '⊥' shape. The first, second, third, and fourth spheres are joined so that four spheres form a straight line, and the fifth sphere is It is coupled perpendicular to the second or third sphere and its straight line.

In block E, five spheres form a pair, wherein the first, second and third spheres are joined to form a straight line, and the fourth sphere is perpendicular to the first or third sphere and its straight line. And the fourth and fifth spheres are joined while forming a straight line parallel to the straight line but in the opposite direction.

In the block F, three spheres form a pair, and the first and second spheres are combined to form a straight line, and the third sphere is connected to the first or second sphere and its straight line. Combined vertically.

In block G, five spheres are grouped together to form a "b" shape, where the first, second and third spheres are combined to form a straight line, and the fourth sphere is combined with the first or third sphere. The fifth sphere is joined to form a straight line with the third and fourth spheres.

In block H, five spheres are formed into a pair, and the first, second and third spheres are joined at a right angle, and the fourth sphere is parallel to the straight line formed by the first and second spheres, and the second and third spheres are It is coupled to the third sphere perpendicular to the straight line to form, and the fifth sphere is coupled to the fourth sphere to be orthogonal to the straight line formed by the third and fourth spheres, so that the five spheres all exist on the same plane. It constitutes a "W" form.

In Block I, five spheres are grouped together to form a “c”, where the first, second and third spheres are joined in a straight line, and the fourth and fifth spheres are first or third, respectively. Are perpendicular to the sphere and its straight line, and the spheres of the five spheres are joined so that they are all on the same plane.

In the block J, four spheres form a set of "-", but the first, second, third, and fourth spheres are joined in a straight line.

Block K has four spheres in a group to form a "□" shape, where the first, second, third, and fourth spheres form a quadrangle, and the spheres of the spheres are joined so that all the spheres exist on the same plane. .

In block L, five spheres form a group, and the first, second, and third spheres form a straight line, and the fourth sphere combines the second sphere with the fifth sphere. They are joined in a straight line perpendicular to the straight line.

As described above, the twelve blocks each form a group of three to five spheres, and the bonding method of each sphere corresponds to one of the following methods. That is, the spherical 10 is inserted into the groove hole 12 formed in the spherical shape by the '11'-shaped tenon 11 and the spherical 10 is bonded to each other with an adhesive (heat fusion glue, etc.) and fixed. And a method of coupling between the sphere 10 and the one-piece synthetic resin injection molding method.

As described above, the twelve blocks can arrange different embodiments in accordance with several different types of seating trays, combining three sets of identical prefabricated spherical blocks toys to form different types of solid assemblies. In addition, when assembled using seven blocks out of twelve blocks, different planar shapes or three-dimensional shapes can be configured, and embodiments thereof will be described below.

<First Embodiment>

As illustrated in FIG. 2, the 12 blocks described above can be assembled to a square pyramid-shaped assembly on the seating tray 1 (20), which is formed in 25 squares in 5 rows by 5 rows on the seating tray 1 (20). Although the spherical seating part 1 (21) arrange | positioned is provided, the form of the position fixing part seating part 21 is preferably comprised by the hemispherical groove which can seat the lower hemisphere of a sphere.

As shown in FIG. 3, the already described 12 blocks can be assembled into a single-layered rectangular shape on the seating tray 1 (20), which is a total of 55 rectangles in 11 rows by 5 columns on the seating tray 1 (20). Although the spherical seating part 2 (22) for arranging position is provided, it is preferable that the form of the spherical seating part 2 (22) is comprised by the hemispherical groove which can seat the lower hemisphere of a sphere.

The arrangement and assembly of Figures 2 and 3 can be carried out on the same rectangular seating tray 1 (20), the seating tray 1 (20) is the upper plate 23 and the lower lower plate 24 are combined with a light chip, among which The seating portions 21 and 22 are respectively installed on the upper surface of the upper plate 1 23 and the inner surface of the lower lower plate 1 24, so that the user is placed on the upper plate 23 and the lower support 24 on the square pyramid assembly and the single-layered rectangle, respectively. The assembly can be assembled separately.

<2nd embodiment>

As shown in FIG. 4, the already described 12 blocks can be assembled to form a square pyramid assembly on the seating tray 2 (30), which is 5 rows x 5 columns on the seating tray 2 (30), all 25 square shapes. The spherical seating portion 3 (31) is arranged to be arranged, but the shape of the spherical seating portion 3 (31) is preferably composed of a hemispherical groove that can seat the hemisphere of the sphere.

As shown in FIG. 5, the already described 12 blocks can be assembled to form a monolayer triangular assembly on the lower plate of the seating tray 2 (30), each of the three sides in the form of a right isosceles triangle on the seating tray 2 (30) Ten ten, all 55 sphere seating portion 4 (32) is arranged in a triangular shape, the shape of the position fixing sphere seating portion 4 (32) is preferably composed of a hemispherical groove that can seat the lower hemisphere of the sphere. Do.

The arrangement and assembly of Figures 4 and 5 can be carried out on the same semi-circular seating tray 2 (30), the seating tray 2 (30) is the upper plate 2 (33) and the lower plate 2 (34) is combined with a light chip, The position fixing concrete seats 31 and 32 are respectively installed on the upper surface of the upper plate 2 (33) and the lower surface of the lower plate 2 (34), so that the user can install the upper surface of the upper plate 2 (33) and the inner surface of the lower plate 2 (34). The square pyramid assembly and the single layer triangular assembly can be assembled respectively.

Third Embodiment

As shown in FIG. 6, the already described 12 blocks can be assembled to the square pyramid assembly on the upper surface of the seating tray 3 (40), 5 rows X 5 columns, all 25 on the upper surface of the seating tray 3 (40). Position fixing sphere seating portion 5 (41) arranged in the form of four squares, but the shape of the sphere seating portion 5 (41) is preferably composed of a hemispherical groove that can seat the lower hemisphere of the sphere.

As illustrated in FIG. 7, the 12 blocks described above can be assembled with a single-layer baseball home plate shape on the inner surface of the seating tray 3 (40). 42) and one convex column 43, and assemble the home plate assembly, the convex column 43 is fixed to be integral with the seating tray 3 (40), or the inner surface of the seating tray 3 (40) It can be inserted and inserted into an insertion hole (not shown in the drawing) installed in the holder.

6 and 7 can be carried out on the mounting tray 3 (40) of the same home plate shape, by installing the concrete seating portion 5 (41) on the upper surface of the seating tray 40, 12 blocks in the form of a square pyramid By assembling the assembly of the mounting tray 3, the inner surface of the 55 by mounting the concrete sphere 6 (42) and the convex column 43, the home plate assembly can be assembled into 12 blocks.

<4th embodiment>

As shown in FIG. 8, three sets of 12 blocks (A to L) shown in FIG. 1 above, that is, 36 blocks (12 × 3 sets = 36), and the total number of spheres constituting the same With 165 pieces (55 × 3 sets = 165 pieces), a triangular pyramid-shaped assembly of 165 spheres can be assembled on a seating tray having a total of 55 spherical seats arranged in equilateral triangles, each of nine on three sides.

The 36 blocks mentioned above can be blended into a seating tray 4 (50) of 45 spherical seating parts 7 (51), and the spherical seating parts 7 (51) have a total of 55 spherical seating parts, each of nine on three sides. It is arranged on the seating tray in the form of an equilateral triangle.

<Fifth Embodiment>

As shown in Fig. 9, this corresponds to the first type illustrated in the present embodiment. Among the blocks shown in Fig. 1, seven blocks (A, B, C, F, I, J, K), A total of 30 spheres 10 are used to assemble an assembly of quadrangular pyramids consisting of four sides of four, and seven blocks may also assemble an assembly of quadrangular pyramids on a seating tray 5 (60). The seating trays 5 (60) should be provided with four seats each of four sides, all of which have a fixed position seating portion 8 (61) arranged in 16 square shapes.

  As shown in FIG. 10, a single-layered rectangular assembly is assembled on the inner surface of the seating tray 5 (60) using seven blocks, and a rectangular sphere consisting of 6 horizontally and 5 vertically on the seating tray (60). Install the seat 9 (62).

9 and 10 can be assembled on the same seating tray 5 (60), and the upper surface of the seating tray 5 (60) is provided with a sphere seating portion 8 (61) to form a rectangular pyramid in which seven blocks are formed in four layers. To be assembled into an assembly of, and the rear of the seating tray 5 (60) is installed 30 sphere seating portion 62 arranged in a rectangular form.

One set can be assembled into three different seating trays by combining prefabricated sphere block toys composed of twelve different shapes, such as a single layered square, a single layered rectangle, and a single layered triangular structure. In addition, the square pyramid assembly can be assembled according to the seating tray shape. As such, the play method of switching from a planar arrangement to a three-dimensional assembly according to different seating trays has various effects, and also has the effect of intelligent development. Can be.

By using three sets of prefabricated sphere block toys, a triangular pyramid-shaped assembly can be assembled according to another seating tray. This type of play not only changes the assembly angle and increases the number of blocks but also increases the difficulty of the play. It can also increase the effects of stimulating the user's brain.

In addition, seven of the 12 blocks can be used to combine floors and to assemble a square pyramid assembly or a single-layer rectangular assembly, which allows the intelligent block to choose a wider variety of play styles. It also allows users to expand their imagination and stimulate the user.

Claims (11)

Four spheres 10 are combined into a set such that the first, second and third spheres are joined to form a straight line, and the fourth sphere is joined to the first or third spheres and block A which is perpendicular to the straight line. , Five spheres are combined into a group, and the first, second, third and fourth spheres are combined to form a rectangle in which a centripet exists on the same plane, and the fifth sphere is the first, second, third and fourth spheres. Block B, which is in line with any two spheres of Five spheres are joined together so that the first, second, third, and fourth spheres are joined to form a straight line, and the fifth sphere is the first or fourth sphere and the block C joined perpendicularly to the straight line, Five spheres are joined together so that the first, second, third, and fourth spheres are joined to form a straight line, the fifth sphere is the second or third sphere and the block D coupled perpendicularly to the straight line, Five spheres are combined into a set so that the first, second and third spheres are joined to form a straight line, the fourth sphere is joined perpendicularly to the first or third sphere and its straight line, and the fifth sphere is straight Block E combined with the fourth sphere while forming a straight line in the opposite direction in parallel with Three spheres in a group, the first and second spheres are joined to form a straight line, the third sphere is the first or second sphere and the block F is vertically coupled to the straight line, Five spheres are combined into a set so that the first, second and third spheres are joined to form a straight line, the fourth sphere is coupled perpendicularly to the first or third sphere, and the fifth sphere is the third And a block G coupled with the fourth sphere to form a straight line with the fourth sphere, Five spheres form a pair, and the first, second, and third spheres are joined at right angles, and the fourth sphere is parallel to the straight line formed by the first and second spheres, and on the straight line formed by the second and third spheres. Block H is orthogonally coupled to the third sphere, and the fifth sphere is coupled to the fourth sphere so as to be orthogonal to the straight lines formed by the third and fourth spheres, and the blocks H are combined so that all five spheres are on the same plane. Wow, Five spheres are grouped together so that the first, second and third spheres are joined in a straight line, and the fourth and fifth spheres are in the same direction perpendicular to the first or third sphere and their alignment, respectively. Combined with blocks I, such that the spheres of the five spheres are all coplanar, The four spheres are in a group, and the first, second, third and fourth spheres form a straight line and combine with the block J, Four spheres in a pair, the first, second, third, and fourth spheres formed into a quadrangle, and a block K joined so that a centripet exists on the same plane Five spheres form a pair, the first, second, and third spheres are joined in a straight line, the fourth sphere is bonded perpendicular to the second sphere and its straight line, and the fifth sphere is fourth, fourth, 2, The fifth sphere is a prefabricated sphere block toy, characterized in that composed of blocks L coupled to the second sphere while forming a straight line. Prefabricated sphere block toy set, characterized in that the five-row X 5 row, all 25 sphere seating portion 21 is composed of a seating tray (20) arranged in a square form and the prefabricated sphere block toys of claim 1. A prefabricated sphere block toy set comprising a prefabricated sphere block toy of claim 1 and a seat tray 20 in which all 55 sphere seats 22 are arranged in a rectangular shape in 11 rows X 5 rows. A seating tray 30 in which all 55 sphere seats are formed by a diagonal of a square 32 of 10 rows by 10 rows and arranged in a right isosceles triangle shape including a diagonal line. And prefabricated sphere block toys set, characterized in that consisting of prefabricated sphere block toys. Prefabricated sphere block toy set, characterized in that consisting of the mounting plate 40 and the prefabricated sphere block toys of claim 1 consisting of 55 spherical seat 42 and the convex pillar (43). The method of claim 1, The coupling method between the spheres of blocks made of prefabricated spheres is a method in which the spheres are fitted together using the '11'-shaped dowel 11 and the groove hole 12, the spheres are bonded to each other with an adhesive, and the spheres are integrally injected. Prefabricated sphere block toys, characterized in that joined in any one of the manner of bonding to form. Four seats X four rows, all sixteen concrete seats 61 are arranged in a square shape, and a tray A and a block B, a block C, a block F, a block I, Prefabricated sphere block toy set, characterized in that consisting of blocks J and K. Four seats in four rows, all sixteen seat seats 61 are arranged in a square shape seating tray 60 and Prefabricated sphere block toy set, characterized in that consisting of the block of claim 7. A prefabricated sphere block toy set comprising 6 seats x 5 rows, all 30 sphere seating portions (62) comprising a seating tray (60) arranged in a rectangular shape and the seven prefabricated sphere blocks of claim 7. The prefabricated sphere block toy set of claim 1, wherein a total of 45 spherical seating portions (51) of three sets of prefabricated sphere block toys and nine each of three sides are configured with a seating tray (50) arranged in an equilateral triangle shape. The prefabricated sphere block toy set of claim 10, wherein a total of 45 spherical seating portions (51) of three sets of prefabricated sphere block toys and nine each of three sides are composed of seating trays (50) arranged in an equilateral triangle shape.

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