JP2001120850A - Assembling game block - Google Patents

Abstract

PROBLEM TO BE SOLVED: To develop an assembling game block capable of assembling various shapes not formed by conventional blocks of this type by connecting a number of blocks having a same shape. SOLUTION: In this assembling game block, recessed holes 2 and protruding parts 3 are formed on each of optional three faces of a triangle pole, and recessed holes are formed on the remaining two faces, so that the respective faces having the recessed holes and protruding parts of this triangle pole and the other triangle pole of the same shape are mutually connectable, or the surface having the recessed holes and protruding parts is connectable to the face having the recessed holes. Further, recessed holes and protruding parts are formed on each of optional three faces of a cube, and recessed holes are formed on the remaining three faces, so that the respective faces having the recessed holes and protruding parts of this cube and the other cube of the same shape are mutually connectable, or the face having the recessed holes and protruding parts is connectable to the face having the recessed holes.

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a block for an assembled playground equipment, and by joining a large number of such blocks,
The present invention relates to a block capable of assembling a wide variety of shapes not available in a conventional block of this type.

[0002]

2. Description of the Related Art Hitherto, there has been a plaything called an assembly block which is used for children's play. This is a block having a convex portion on one side of the cube and a concave portion formed on the other side. By using a large number of the blocks, the concave and convex portions of the blocks are continuously joined to prepare various shapes. Was something. However, since this block merely joins predetermined surfaces, it can be assembled into a substantially fixed shape, but has little variability. To compensate for this, we have prepared cubes of various sizes, such as cubes, large and small, rectangular, plate-like, and multi-weekly.However, the disadvantage that they can be joined only in one direction can not be solved, and many types of blocks The cost was high because of the need for

[0003]

In order to solve such a problem that the conventional block has a variety of sizes and shapes even when the conventional block is a cube, one type of block having exactly the same shape is formed. The challenge is to develop blocks that can be assembled in various shapes by sequentially joining many blocks that can be joined in the same shape.

[0004]

According to the present invention, as a means for solving such a problem, a concave hole and a convex portion are formed on any three surfaces of a triangular prism, and a concave hole is formed on the remaining two surfaces. A triangular prism, and an assembled playground equipment block capable of joining surfaces having concave holes and convex portions of other triangular prisms of the same shape, or surfaces having concave holes and convex portions and surfaces having concave holes,
Furthermore, a concave hole and a convex portion are respectively formed on any three surfaces of the cube, and concave holes are formed on the remaining three surfaces, and the surfaces having the concave holes and the convex portions of another cube having the same shape as the cube, or the concave surfaces are formed. An assembling play equipment block capable of joining a surface having a hole and a convex portion to a surface having a concave hole. Further, the center of the convex portion or the concave hole formed on each surface of the cube (triangular prism) is set to the center of the cube. For assembling play equipment set at the center of the eight congruent isosceles triangles (intersections of the bisectors of each inner angle) divided by four symmetry axes centered on the center of the circumcircle of the square of each surface It is a block, and further, a concave hole and a convex portion are respectively formed on any three surfaces of the triangular prism, a concave hole is formed on the remaining two surfaces, and the center of the convex portion or the concave hole formed on each surface of the triangular prism is defined by each of the cubes. Eight congruent segments separated by four symmetry axes centered on the circumcircle of the square of the face The triangular prism is set at the center of the equilateral triangle (the intersection of the bisectors of the respective internal angles), and the surfaces of the triangular prism and other triangular prisms of the same shape having concave and convex portions or surfaces having concave and convex portions And the surface with the concave hole can be joined,
An arbitrary picture or the like is drawn on a surface obtained by joining a large number of the blocks in a plate shape, and an assembling play equipment block as an assembling puzzle is presented.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows each surface of the block 1 of the present embodiment, wherein A is a front view, B is a plan view, C is a right side view, D is a rear view, and E is a view showing a slope. Block 1
Is a triangular prism, and in this embodiment, the surface A and the surface C
Concave holes 2 are provided on two surfaces, and convex portions 3 are provided alternately with concave holes 2 on three surfaces B, D, and E. As shown in FIG. 2, the positions of the concave hole 2 and the convex portion 3 formed on each surface
Eight congruent isosceles triangles in which the center of the convex portion 3 or the concave hole 2 formed on each surface of the (triangular prism) is divided by four symmetry axes through the center of the circumscribed circle of the square of each surface of the triangular prism. (The intersection of the bisectors of each interior angle). Therefore, four concave holes 2 are provided on the A surface, four concave holes 2 and four convex portions 3 are provided on the B surface and the E surface, eight concave holes 2 are provided on the C surface, and eight concave holes 2 are provided on the D surface. Has two concave holes 2 and two convex portions 3. A side and C
The reason why only the concave hole 2 is provided without providing the convex portion 3 on the surface is that only the concave hole 2 is used because it is more advantageous to have a surface without the convex portion 3 at the time of joining and assembling. However, the surface without the convex portion 3 may be provided anywhere. In addition, since the concave hole 2 and the convex portion 3 are arranged as described above, two triangular prism blocks 1 are joined as shown in FIG. Central imaginary circle F of concave portion 2 and convex portion 3 located at the center
Is the same as the central imaginary circle G of the concave hole 2 and the convex portion 3 located on each surface of the block 1. In addition, as a second embodiment, there is a cubic block, which is the same as the cuboid formed by joining two E-planes of one block, and the positions of the concave hole 2 and the convex portion 3 are the same. is there. Therefore, two concave holes on three sides
And the convex portions 3 are alternately formed, and the other three surfaces only form the concave holes 2. Since FIGS. 2 and 3 are explanatory diagrams, outwardly protruding projections are omitted. As a third embodiment, as shown in FIG. 4, a concave hole 2 and a convex portion 3 are formed on any three surfaces of a triangular prism, and a concave hole 2 is formed on the remaining two surfaces, and each surface A, B, C, The centers of the convex portions 3 or the concave holes 2 formed in D and E are centered on eight congruent isosceles triangles divided by four symmetry axes centered on the center of the circumcircle of each square of the cube. (The intersection of the bisectors of each interior angle), the triangular prism and the other triangular prisms of the same shape having surfaces with concave portions 2 and convex portions 3 or surfaces with concave holes 2 and convex portions 3 The surface having the concave hole 2 can be joined, and an arbitrary picture 4 is attached to the surface obtained by joining a large number of the blocks 1 in a plate shape.
And so on so that they can be constructed as an assembled puzzle. Also in FIG. 4, the convex portions protruding outward are omitted.

[0006]

As described above, according to the present invention, a concave hole 2 and a convex portion 3 are formed on any three surfaces of a triangular prism, and a concave hole 2 is formed on the remaining two surfaces. A surface of the triangular prism having the concave portion 2 and the convex portion 3 or a surface of the triangular prism having the concave portion 2 and the convex portion 3 and the surface having the concave portion 2 can be joined together. Concave holes 2 and convex portions 3 are respectively formed on three arbitrary surfaces of the cube, concave holes 3 are formed on the remaining three surfaces, and surfaces having concave holes 2 and convex portions 3 of another cube having the same shape as the cube, Or, it is an assembled play equipment block 1 capable of joining the surface having the concave portion 2 and the convex portion 3 and the surface having the concave portion 2, and further has a cube (triangular prism).
The center of the convex portion 3 or the concave hole 2 formed on each of the surfaces A, B, C, D, and E is divided by four symmetry axes through the center of the circumcircle of the square of each surface of the cube. Is a block 1 for an assembled play equipment set at the inner center of the congruent isosceles triangle (the intersection of the bisectors of each inner angle), and further, a concave hole 2 and a convex portion 3 are provided on any three surfaces of the triangular prism, respectively. Are formed on the remaining two surfaces, and the center of the convex portion 3 or the concave hole 2 formed on each of the surfaces A, B, C, D, and E of the triangular prism is defined by the square circumscribed circle of each surface of the cube. It is set at the center of the eight congruent isosceles triangles (intersections of the bisectors of each interior angle) divided by four symmetry axes through the center, and the triangular prism and the concaves of other triangular prisms of the same shape are set. The surfaces having the holes 2 and the convex portions 3 or the surfaces having the concave holes 2 and the convex portions 3 and the surfaces having the concave holes 2 can be joined together. An arbitrary picture 4 or the like is drawn on the surface obtained by joining the block 1 in a plate shape, and the block 1 is constructed as an assembling puzzle. Therefore, this type of conventional block has a convex portion on one side of a cube. It is a block that has a concave portion on the other side and has various shapes by successively joining the unevenness of the blocks by using a large number of the blocks, but it is simply a determined surface Because it is only joined to the surface, it can be assembled to a nearly fixed shape but has little changeability, and cube shapes of large or small, long square, plate and multi-weekly blocks are prepared to supplement it Nevertheless, the disadvantage of being able to join in only one direction cannot be solved, and the cost is high because many types of blocks are required. However, in the present invention, a concave portion 2 and a convex portion 3 are provided on each surface of one block 1 (there is also a surface having only the concave portion 2 for diversification in assembly), and the surface and the surface are joined. Therefore, it is possible to assemble various shapes with only the blocks 1 having the same shape. Moreover, the positions of the concave hole 2 and the convex portion 3 are determined by the respective surfaces A, B,
The center of the convex portion 3 or the concave hole 2 formed in C, D, E is formed by eight congruent isosceles triangles divided by four symmetry axes centered on the center of the square circumcircle of each face of the cube. Since it is set at the inner center (the intersection of the bisector of each inner angle), the joining range can be further expanded.
Are drawn as an assembly puzzle on the surface obtained by joining them in the form of a plate, and assembling puzzles, the assembling game is greatly diversified.

[Brief description of the drawings]

FIG. 1 is a diagram showing each surface of a block according to the present invention.

FIG. 2 is a plan view for explaining the arrangement of concave holes and convex portions.

FIG. 3 is a plan view showing positions of a concave hole and a convex portion.

FIG. 4 is a plan view for explaining a third embodiment.

[Explanation of symbols]

 1 Block 2 Concave hole 3 Convex part 4 Picture for puzzle A Front B Plane C Right side D Back E Slope F Central virtual line of unevenness when combined G Central virtual line of unevenness on each surface

────────────────────────────────────────────────── ───

[Procedure amendment]

[Submission date] December 27, 1999 (1999.12.
27)

[Procedure amendment 1]

[Document name to be amended] Statement

[Correction target item name] Full text

[Correction method] Change

[Correction contents]

[Document Name] Statement

[Title of the Invention] Assembled play equipment block

[Claims]

[0001]

DETAILED DESCRIPTION OF THE INVENTION

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a block for an assembled playground equipment, and by joining a large number of such blocks,
The present invention relates to a block capable of assembling a wide variety of shapes not available in a conventional block of this type.

[0002]

2. Description of the Related Art Hitherto, there has been a plaything called an assembly block which is used for children's play. This is a block having a convex portion on one side of the cube and a concave portion formed on the other side. By using a large number of the blocks, the concave and convex portions of the blocks are continuously joined to prepare various shapes. Was something. However, since this block merely joins predetermined surfaces, it can be assembled into a substantially fixed shape, but has little variability. To compensate for this, we have prepared cubes of various sizes, such as cubes, large and small, rectangular, plate-like, and multi-weekly.However, the disadvantage that they can be joined only in one direction can not be solved, and many types of blocks The cost was high because of the need for

[0003]

In order to solve such a problem that the conventional block has a variety of sizes and shapes even when the conventional block is a cube, one type of block having exactly the same shape is formed. The challenge is to develop blocks that can be assembled in various shapes by sequentially joining many blocks that can be joined in the same shape.

[0004]

According to the present invention, as a means for solving such a problem, a concave hole and a convex portion are formed on any three surfaces of a triangular prism, and a concave hole is formed on the remaining two surfaces. A triangular prism, and an assembled playground equipment block capable of joining surfaces having concave holes and convex portions of other triangular prisms of the same shape, or surfaces having concave holes and convex portions and surfaces having concave holes,
Furthermore, a concave hole and a convex portion are respectively formed on any three surfaces of the cube, and concave holes are formed on the remaining three surfaces, and the surfaces having the concave holes and the convex portions of another cube having the same shape as the cube, or the concave surfaces are formed. An assembling play equipment block capable of joining a surface having a hole and a convex portion to a surface having a concave hole. Further, the center of the convex portion or the concave hole formed on each surface of the cube (triangular prism) is set to the center of the cube. For assembling play equipment set at the center of the eight congruent isosceles triangles (intersections of the bisectors of each inner angle) divided by four symmetry axes centered on the center of the circumcircle of the square of each surface It is a block, and further, a concave hole and a convex portion are respectively formed on any three surfaces of the triangular prism, a concave hole is formed on the remaining two surfaces, and the center of the convex portion or the concave hole formed on each surface of the triangular prism is defined by each of the cubes. Eight congruent segments separated by four symmetry axes centered on the circumcircle of the square of the face The triangular prism is set at the center of the equilateral triangle (the intersection of the bisectors of the respective internal angles), and the surfaces of the triangular prism and other triangular prisms of the same shape having concave and convex portions or surfaces having concave and convex portions And the surface with the concave hole can be joined,
An arbitrary picture or the like is drawn on the surface obtained by joining a large number of the blocks in a plate shape, and this is a block for assembling play equipment that becomes an assembling puzzle, and furthermore, a shape is formed on each surface of a cube (triangular prism).
The center of the convex or concave hole to be formed is the square of each face of the cube
Are divided by four axes of symmetry centered on the circumcircle of
The center of the eight congruent isosceles triangles (the bisector of each interior angle)
Intersection) and the other four except for the two sides of the triangle.
In the case of a square surface, from the center of an arbitrary concave hole (convex portion) a
Draw an arc c that contacts the outer diameter of the adjacent concave hole (convex portion) b,
The circle inscribed in the arc c (the square inscribed in the square of each surface)
A recess with a predetermined depth at the center.
It is a play equipment block, and furthermore, each side of the triangular prism
Holes in each of the triangular prisms.
The center is the center of the circumcircle of the square on each side of the cube.
8 congruent isosceles triangles separated by two symmetry axes
To the inner center (the intersection of the bisectors of each inner angle)
The prism and any other surface of the other triangular prism of the same shape can be freely attached and detached.
For play equipment that can be joined using pins
And a block consisting of a pair of triangular prisms.
There is a concave hole on each side of one triangular prism,
The center of the concave hole formed on each surface of the triangular prism is
Four symmetry axes centered on the circumcircle of the square of the plane
The center of eight congruent isosceles triangles that are sectioned (for each interior angle
At the intersection of the bisector) and each of the other triangular prisms
A convex part is formed on each surface, and it is formed on each surface of the triangular prism
The center of the convex part of the square within the circumscribed circle of the square on each side of the cube.
Eight congruent segments separated by four symmetry axes through the heart
Set to the center of the isosceles triangle (the intersection of the bisectors of each interior angle)
Then, the pair of triangular prism blocks can be continuously joined.
Even if you present a block for play equipment
It is.

[0005]

DESCRIPTION OF THE PREFERRED EMBODIMENTS Embodiments of the present invention will be described below with reference to the drawings. FIG. 1 shows each surface of the block 1 of the present embodiment, wherein A is a front view, B is a plan view, C is a right side view, D is a rear view, and E is a view showing a slope. Block 1
Is a triangular prism, and in this embodiment, the surface A and the surface C
Concave holes 2 are provided on two surfaces, and convex portions 3 are provided alternately with concave holes 2 on three surfaces B, D, and E. As shown in FIG. 2, the positions of the concave hole 2 and the convex portion 3 formed on each surface
Eight congruent isosceles triangles in which the center of the convex portion 3 or the concave hole 2 formed on each surface of the (triangular prism) is divided by four symmetry axes through the center of the circumscribed circle of the square of each surface of the triangular prism. (The intersection of the bisectors of each interior angle). Therefore, four concave holes 2 are provided on the A surface, four concave holes 2 and four convex portions 3 are provided on the B surface and the E surface, eight concave holes 2 are provided on the C surface, and eight concave holes 2 are provided on the D surface. Has two concave holes 2 and two convex portions 3. A side and C
The reason why only the concave hole 2 is provided without providing the convex portion 3 on the surface is that only the concave hole 2 is used because it is more advantageous to have a surface without the convex portion 3 at the time of joining and assembling. However, the surface without the convex portion 3 may be provided anywhere. In addition, since the concave hole 2 and the convex portion 3 are arranged as described above, two triangular prism blocks 1 are joined as shown in FIG. Central imaginary circle F of concave portion 2 and convex portion 3 located at the center
Is the same as the central imaginary circle G of the concave hole 2 and the convex portion 3 located on each surface of the block 1. In addition, as a second embodiment, there is a cubic block, which is the same as the cuboid formed by joining two E-planes of one block, and the positions of the concave hole 2 and the convex portion 3 are the same. is there. Therefore, two concave holes on three sides
And the convex portions 3 are alternately formed, and the other three surfaces only form the concave holes 2. Since FIGS. 2 and 3 are explanatory diagrams, outwardly protruding projections are omitted. As a third embodiment, as shown in FIG. 4, a concave hole 2 and a convex portion 3 are formed on any three surfaces of a triangular prism, and a concave hole 2 is formed on the remaining two surfaces, and each surface A, B, C, The centers of the convex portions 3 or the concave holes 2 formed in D and E are centered on eight congruent isosceles triangles divided by four symmetry axes centered on the center of the circumcircle of each square of the cube. (The intersection of the bisectors of each interior angle), the triangular prism and the other triangular prisms of the same shape having surfaces with concave portions 2 and convex portions 3 or surfaces with concave holes 2 and convex portions 3 The surface having the concave hole 2 can be joined, and an arbitrary picture 4 is attached to the surface obtained by joining a large number of the blocks 1 in a plate shape.
And so on so that they can be constructed as an assembled puzzle. Also in FIG. 4, the convex portions protruding outward are omitted. Next, the fourth embodiment will be described with reference to FIG.
Convex part 3 or concave part formed on each side of the cubic (triangular prism)
Center the center of hole 2 with the center of the circumcircle of the square on each side of the cube.
Eight congruent second magnitudes separated by four symmetry axes
Set to the inner center of the side triangle (the intersection of the bisectors of each inner angle)
Both are square surfaces other than triangles A and D
In B, C, and E, the center of any concave hole (convex portion) 2a
The arc H that is in contact with the outer diameter of the more adjacent concave hole (convex portion) 2b is
A circular concave portion 6 having a predetermined depth and being inscribed in the arc H
Is formed. Therefore, any convex portion of the triangular block 1
3 and fitted concave hole 2 of the other triangular portion blocks, Sankakubu
Another convex portion 3 of the lock 1 may be put in the concave portion 6 and joined.
It becomes possible. Next, the fifth embodiment will be described.
Recesses are formed on each side of the triangular prism as shown in
The center of the concave hole formed on each surface of the triangular prism is
Are separated by four symmetry axes centered on the circumcircle of the square
The center of the eight congruent isosceles triangles divided
(Intersection line of equal lines)
The arbitrary surfaces of the triangular prism can be detached as shown in FIG.
Joining is possible using the pin 5. Next, in the sixth embodiment
To explain this, as shown in FIG.
Block on each side of one triangular prism
Holes in each of the triangular prisms.
The center is the center of the circumcircle of the square on each side of the cube.
8 congruent isosceles triangles separated by two symmetry axes
At the center (the intersection of the bisectors of each interior angle)
A projection is formed on each surface of the other triangular prism.
The center of the convex part formed on each surface of the prism is
Divided by four symmetry axes centered on the square circumcircle
Of the eight congruent isosceles triangles (the bisecting of each interior angle)
Line intersection), and connect the pair of triangular prism blocks
It is configured so that it can be joined together.

[0006]

As described above, according to the present invention, a concave hole 2 and a convex portion 3 are formed on any three surfaces of a triangular prism, and a concave hole 2 is formed on the remaining two surfaces. A surface of the triangular prism having the concave portion 2 and the convex portion 3 or a surface of the triangular prism having the concave portion 2 and the convex portion 3 and the surface having the concave portion 2 can be joined together. Concave holes 2 and convex portions 3 are respectively formed on three arbitrary surfaces of the cube, concave holes 3 are formed on the remaining three surfaces, and surfaces having concave holes 2 and convex portions 3 of another cube having the same shape as the cube, Or, it is an assembled play equipment block 1 capable of joining the surface having the concave portion 2 and the convex portion 3 and the surface having the concave portion 2, and further has a cube (triangular prism).
The center of the convex portion 3 or the concave hole 2 formed on each of the surfaces A, B, C, D, and E is divided by four symmetry axes through the center of the circumcircle of the square of each surface of the cube. Is a block 1 for an assembled play equipment set at the inner center of the congruent isosceles triangle (the intersection of the bisectors of each inner angle), and further, a concave hole 2 and a convex portion 3 are provided on any three surfaces of the triangular prism, respectively. Are formed on the remaining two surfaces, and the center of the convex portion 3 or the concave hole 2 formed on each of the surfaces A, B, C, D, and E of the triangular prism is defined by the square circumscribed circle of each surface of the cube. It is set at the center of the eight congruent isosceles triangles (intersections of the bisectors of each interior angle) divided by four symmetry axes through the center, and the triangular prism and the concaves of other triangular prisms of the same shape are set. The surfaces having the holes 2 and the convex portions 3 or the surfaces having the concave holes 2 and the convex portions 3 and the surfaces having the concave holes 2 can be joined together. Draw 4, etc. Any painting surface, which is obtained by joining the block 1 in a plate shape, which are configured as assembling a puzzle, further, on each side of the cube (triangular prism)
The center of the convex portion 3 or the concave hole 2 to be formed is
Classified by four symmetry axes centered on the square circumcircle
Of the congruent eight isosceles triangles
(Intersection of the branch lines) and exclude the two faces A and D of the triangle.
For other square faces B, C, and E,
Of the concave hole (convex portion) 2b adjacent to the center of the hole (convex portion) 2a
Draw an arc H in contact with the outer diameter, and make a circle inscribed in the arc H
To form a recess 6 having a predetermined depth with
Lock, and furthermore, each side of the triangular prism has a recess 2
Forming a center of recessed holes 2 formed on each side of those said triangular prism
Are the four centers of the circumcircle of the square on each side of the cube
Of eight congruent isosceles triangles separated by the symmetry axis
Set to the inner center ( the intersection of the bisectors of each inner angle) and
The pillar and any surface of another triangular prism of the same shape can be freely attached and detached.
Assembled play equipment block that can be joined using pins 5
And a block consisting of a pair of triangular prisms.
There is a concave hole on each side of one triangular prism,
The center of the concave hole formed on each surface of the triangular prism is
Four symmetry axes centered on the circumcircle of the square of the plane
The center of eight congruent isosceles triangles that are sectioned (for each interior angle
At the intersection of the bisector) and each of the other triangular prisms
A convex part is formed on each surface, and it is formed on each surface of the triangular prism
The center of the convex part of the square inside the circumcircle of the square on each side of the cube
Eight congruent segments separated by four symmetry axes through the heart
Set to the center of the isosceles triangle (the intersection of the bisectors of each interior angle)
Then, the pair of triangular prism blocks can be continuously joined.
Since it is a block for playing games, it is a conventional block of this type having a convex portion on one side of the cube and a concave portion formed on the other side. By joining the unevenness of the blocks continuously, it can prepare various shapes,
Since it is simply joining the determined surfaces, it can be assembled into a roughly defined shape, but the change is poor, and in order to supplement it, the shape of the cube is large or small, long square, plate-like and many weeks Although such types of blocks were prepared, the disadvantage that they could be joined only in one direction could not be solved, and the cost was high because many types of blocks were required. However, in the present invention, a concave portion 2 and a convex portion 3 are provided on each surface of one block 1 (there is also a surface having only the concave portion 2 for diversification in assembly), and the surface and the surface are joined. Therefore, it is possible to assemble various shapes with only the blocks 1 having the same shape. Moreover, the positions of the concave holes 2 and the convex portions 3 are determined by the convex portions 3 formed on the respective surfaces A, B, C, D, and E of the triangular prism.
Alternatively, the center of the concave hole 2 is defined as the center of the eight congruent isosceles triangles (the intersections of the bisectors of the respective inner angles) divided by four symmetry axes centered on the center of the square circumcircle of each face of the cube. ), The joining range can be further expanded.
An arbitrary picture 4 or the like is drawn on the surface obtained by joining a large number of the blocks 1 in a plate shape, and is constructed as an assembling puzzle, so that the assembling game is also greatly diversified. In the present invention,
Irregularities are formed on each surface, and the irregular surfaces are joined together.
However, only the concave hole 2 is formed on each surface,
Joining can be performed using a flexible pin 5. Also, concave
A triangle block that forms the body of 2
Paired triangular blocks and join the blocks.
It is a block with only two holes,
It is possible to join using the joining pins 5 so that there is play
Are further increased. Also, the triangle two
In the center of the other three sides of the square excluding the face
Part) 2a adjacent to the outer diameter of the concave hole (convex part) 2b from the center of 2a.
Draw an arc H tangent to the circle, and specify a circle inscribed in the arc H
Since the concave portion 6 having a depth of is formed,
In other words, the surface sinks and the surface is distorted with cooling after molding
Not only is prevented, but also the convex portions 3 are formed using the concave portions 6 and the concave holes 2.
Diversify the joining method because it can be fitted
And the like, which have extremely remarkable effects .

[Brief description of the drawings]

FIG. 1 is a diagram showing each surface of a block according to the present invention.

FIG. 2 is a plan view for explaining the arrangement of concave holes and convex portions.

FIG. 3 is a plan view showing positions of a concave hole and a convex portion.

FIG. 4 is a plan view for explaining a third embodiment.

FIG. 5 is an enlarged front view illustrating a fourth embodiment.

FIG. 6 is a diagram illustrating each surface of a block according to a fifth embodiment.
You.

FIG. 7 is a side view illustrating the joining of the fifth embodiment.

FIG. 8 is an enlarged front view illustrating a sixth embodiment.

[Description of Signs] 1 block 2 concave hole 3 convex portion 4 picture for puzzle5 Pins for joining 6 recess  A Front B Plane C Right side D Back E Slope F Central imaginary line of unevenness when combinedH Virtual arcuate line circumscribing the recess 6 2a A central hole for drawing a virtual arc H 2b Concave hole inscribed in virtual arc H

[Procedure amendment 2]

[Document name to be amended] Drawing

[Correction target item name] Fig. 5

[Correction method] Added

[Correction contents]

FIG. 5

[Procedure amendment 3]

[Document name to be amended] Drawing

[Correction target item name] Fig. 6

[Correction method] Added

[Correction contents]

FIG. 6

[Procedure amendment 4]

[Document name to be amended] Drawing

[Correction target item name] Fig. 7

[Correction method] Added

[Correction contents]

FIG. 7

[Procedure amendment 5]

[Document name to be amended] Drawing

[Correction target item name] Fig. 8

[Correction method] Added

[Correction contents]

FIG. 8

Claims (4)

[Claims] 1. A concave hole and a convex portion are respectively formed on any three surfaces of a triangular prism, and a concave hole is formed on the remaining two surfaces.
An assembling play equipment block capable of joining surfaces having a concave hole and a convex portion of another triangular prism of the same shape or surfaces having a concave hole and a convex portion and a surface having a concave hole. 2. A concave and a convex are respectively formed on three arbitrary surfaces of the cube, and a concave is formed on the remaining three surfaces.
An assembling play equipment block capable of joining surfaces of another cube having the same shape having a concave hole and a convex portion, or a surface having a concave hole and a convex portion and a surface having a concave hole. 3. Eight congruences in which the center of a convex portion or a concave hole formed on each surface of a cube (triangular prism) is divided by four symmetry axes passing through the center of a circumcircle of a square on each surface of the cube. An assembled playground equipment block set at the inner center of an isosceles triangle (the intersection of bisectors of each inner angle). 4. A concave hole and a convex portion are respectively formed on any three surfaces of the triangular prism, and a concave hole is formed on the remaining two surfaces, and a center of the convex portion or the concave hole formed on each surface of the triangular prism is defined by each surface of the cube. Set the center of the eight congruent isosceles triangles (intersections of the bisectors of each inner angle) divided by four symmetry axes at the center of the square circumcircle, and With the other triangular prisms having the concave and convex surfaces, or the concave and convex surfaces and the concave surface can be joined, a large number of the blocks can be joined in a plate shape. An assembling playground equipment block that draws an arbitrary picture or the like on a surface and becomes an assembling puzzle.