JPH0595600U - Cube block toy - Google Patents

Abstract

(57) [Summary] [Object] With regard to a cubic block toy, it is an object to provide a cubic block toy in which the position where the block is incorporated is difficult to be determined and the enjoyment of assembling through trial and error over a long period of time is not lost. [Constitution] n is an integer, consisting of n ³ unit cubes (a), and n ( ³ ) unit cubes (a) are arranged on one side
Is connected to one small block (1) in which n unit cubes (a) are connected, and n + 1 unit cubes (a) are connected so that the number of connection in one direction is n or less. It is divided into n ² −n large blocks (2) to (13).

Description

[Detailed description of the device]

[0001]

[Industrial applications]

 The present invention relates to a cubic block toy.

[0002]

[Prior Art]

2. Description of the Related Art Conventionally, there is a cubic block toy in which a total cube including n ³ unit cubes and n unit cubes arranged on one side is divided into a plurality of blocks. In this conventional cubic block toy, a total cube is divided into three or more types of blocks with different numbers of unit cubes, such as a block in which two unit cubes are connected, a block in which three unit cubes are connected, and a block in which four unit cubes are connected. ing.

With this cubic block toy, the process of dividing a total cube into blocks and reassembling them into the original total blocks is enjoyed as play.

[0004]

[Problems to be solved by the device]

 However, when the number of types of blocks increases in this way, it becomes easier to find the position where the blocks will be incorporated, and it is possible to assemble the blocks into a general cube easily and in a short time. The process of assembling will be remembered, and the fun of assembling through trial and error will disappear.

The present invention has been made in view of the above circumstances, and provides a cubic block toy in which the position where the block is incorporated is difficult to be identified and the enjoyment of assembling through various trials and errors over a long period of time is not lost. With the goal.

[0006]

[Means for Solving the Problems]

In order to achieve the above-mentioned object, the cube block toy of the present invention comprises, for example, as shown in FIG. 1, n ³ unit cubes a, and a total cube A in which n unit cubes a are arranged on one side. , A small block 1 in which n unit cubes a are connected, and n ² −n large blocks in which n + 1 unit cubes a are connected so that the number of connections in one direction is n or less. It is divided into blocks 2 to 13.

[0007]

[Work]

 The shape of each of the large blocks 2 to 13 is not particularly limited as long as the number of unit cubes a to be connected is n + 1, and they can be connected in a plane or three-dimensionally. Further, it may be formed symmetrically with respect to some axis or surface, or may be formed asymmetrically, or may be formed as a pair of left and right handed ones.

Therefore, the small blocks 1 and the large blocks are provided by providing a symmetrical shape or a pair of left and right hands that are easily confused by the same number of large blocks 2 to 13 in terms of the number of unit cubes a. It becomes easy to confuse the positions where the blocks 2 to 13 are incorporated. Moreover, the small cube 1 and the large blocks 2 to 23 are assembled into the general cube A by a plurality of procedures instead of one.

[0009]

【Example】

An embodiment of the present invention will be described below with reference to FIGS. As shown in FIG. X, the cubic block toy according to this embodiment has 4 ³ = 64 unit cubes a and is assembled into a total cube A in which 4 unit cubes a are arranged on one side.

As shown in FIG. 1, the total cube A has one small block 1 in which four unit cubes a are connected in an L-shape and five unit cubes a are connected in one direction with a number of five. It is divided into 16-4 = 12 large blocks 2 to 13 which are connected so as to be less than or equal to one.

The shape of the small block 1 is not particularly limited as long as the number of unit cubes a to be connected is four. For example, as shown in FIGS. 1 and 2A to 2D, The three unit cubes a are arranged side by side and connected to each other, and one unit cube a is connected to the entire surface of the right end unit cube a to form an L-shape.

The shape of each of the large blocks 2 to 13 is not particularly limited as long as the number of the unit cubes a is 5, and the following may be adopted, for example. As shown in FIGS. 1 and 2 (a) to 2 (d), the first large block 2 is composed of one unit cube a, and one unit cube a is connected to each of the four sides of the unit cube a. It is formed in a cross shape.

As shown in FIG. 2 (a), the first large block 2 is assembled so that one protruding cross-shaped unit cube a meshes with the L-shaped inside of the small block 1. ..

The second large block 3 connects three unit cubes a in front and rear rows, connects one unit cube a on the rear end unit cube a, and further connects one unit cube a. One unit cube a is connected to the right side of the cube a, and is formed so as to look like an L shape when viewed from the front, the plane, or the side.

As shown in FIGS. 2B to 2D, the second large block 3 has a unit cube a at the front end on the left side of the unit cube a at the left end of the large block 2 and a rear end. Unit cube a of the small block 1 is in contact with the left side surface of the unit cube a at the left end, and the unit cube a protruding to the right side of the upper stage is in contact with the upper surface of the unit cube a at the left end of the small block 1. Can be assembled.

In the third large block 4, three unit cubes a are vertically connected, and one unit cube a is connected to the front surface and the left surface of the unit cube a at the lower end. It is formed so as to look like an L-shape when viewed from any of the above.

As shown in FIGS. 2C and 2D, the third large block 4 includes two unit cubes a at the right end of the small block 1 and a unit cube a on the left side thereof. It is placed on the upper side, and the left end face of the third large block 4 is brought into abutment with the upper right end face of the second large block 3.

The fourth large block 5 is formed by arranging two unit cubes a connected to the left and right in two upper and lower stages, and connecting them by shifting one unit to the left and right, and further connecting to the lower unit cube protruding to the left. One unit cube a is connected to the lower side of a to form a W-shaped or M-shaped inverted shape when viewed from the front.

As shown in FIG. 2 (d), the fourth large block 5 has a unit cube a projecting at the bottom end at the left end of the small block 1 and a left end of the first large block 2. Is inserted into a hole surrounded by the unit cube a of the second large block 3 and the unit cube a of the lower middle of the second large block 3, and the unit cube a on the right side of the middle stage is the upper surface on the central unit cube a of the first large block 2. The right end face of the unit cube a on the right side of the middle stage is received on the left side face of the unit cube a protruding forward of the third large block 4, and the lower face of the unit cube a projecting on the right side of the upper stage is received. It is received on the upper surface of each unit cube a projecting forward of the large block 4.

In the fifth large block 6, as shown in FIG. 1 and FIG. 2 (e) or FIG. 2 (f), unit cubes a are connected in upper and lower three stages, and one unit cube a is provided on the rear surface of the unit cube a. One unit cube a is connected, and further, another unit cube a is connected on the left side of the rear unit cube a.

As shown in FIG. 2 (e), the fifth large block 6 is a unit cube a in which the left side surface and the rear side surface of the lower unit cube a project toward the front of the first large block 2. The lower surface of the unit cube a projecting to the right is received by the right side surface and the front surface of the unit cube a projecting to the right of the large block 2, and the lower surface of the unit cube a projecting to the front of the large block 2. It is received on the side. Further, the rear side surfaces of the two rear unit cubes a are received by the front end surface of the third large block 4 and the front surface of the unit cube a 1 on the right side of the interruption of the fourth large block 5.

In the sixth large block 7, as shown in FIGS. 1 and 2 (f), unit cubes a are connected in upper and lower three stages, and one unit cube a is provided in each of the rear and right sides of the unit cube a in the middle stage. Units of a cube a are connected.

As shown in FIG. 2F, the sixth large block 7 includes a unit cube a in which the rear side surface and the right side surface of the lower unit cube a project to the left of the first large block 2. Of the unit cube a projecting to the front of the first large block 2 and the left side of the unit cube a projecting to the front of the first large block 2, and the lower side of the unit cube a projecting rearward to the left of the first large block 2. On the upper side of the unit cube a, the rear side is the front side of the unit cube a on the middle left side of the fourth large block 5, and the right side is the left side of the rear left unit cube a of the fifth large block 6. Each is accepted. The lower side surface of the unit cube a protruding to the right side of the sixth large block 7 is the upper side surface of the unit cube a protruding to the front of the first large block 2, and the rear side surface is behind the fifth large block 6. The right side face is received by the front side face of the left unit cube a, and the right side face is received by the left side face of the unit cube a in the front middle stage of the fifth large block 6, respectively.

The seventh large block 8 is, as shown in FIGS. 1 and 2 (g) to 2 (m), three unit cubes a connected in upper and lower three stages, and a unit cube in the middle stage. It is provided with two unit cubes a that are connected in sequence behind a.

As shown in FIG. 2G, the seventh large block 8 has the right side surface of the left side surface of the unit cube a on the left side of the middle stage of the fourth large block 5 and the sixth large block. The rear side surface of the lower unit cube a is received by the left side surface, and the rear side surface of the lower unit cube a is on the front end surface of the second large block 3, and the lower side surfaces of the two unit cubes a projecting to the rear of the middle step are the second large block. The front side surfaces of the two front unit cubes 3 of the third large block 3 are received by the front side surfaces of the unit cubes a of the upper left side of the second large block 3, respectively.

As shown in FIGS. 1 and 2 (h) and 2 (i), the eighth large block 9 includes two unit cubes a on the front side and the right side of one unit cube a, respectively. Are connected to form an L-shape.

The eighth large block 9 includes a unit cube a projecting to the right of the third large block 4, two unit cubes a at the upper stage of the second large block 3, and a seventh large block. It is placed on the upper side surface of the two unit cubes a protruding rearward.

The ninth large block 10 is substantially different from the second large block 3 in the left-right direction, and is connected with three unit cubes a on the left and right, and the unit cube at the left end thereof. One unit cube a is connected to the rear side of a, and one unit cube a is further connected to the upper side of the unit cube a protruding to the rear side.

As shown in FIGS. 2 (i) and 2 (j), the ninth large block 10 has four unit cubes a in the lower stage, which are the fourth large block 5 and the eighth large block 9. , The sixth unit block a and the fifth large block 6 are formed in the L-shaped groove formed at the height of the third stage from the bottom so that the upper unit cube a projects at the fourth stage. It will be fitted.

As shown in FIGS. 1 and 2 (j) to 2 (m), the tenth large block 11 includes three unit cubes a that are connected side by side and the unit cube a at the right end thereof. It has one unit cube a connected to the front side and one unit cube a connected to the right side of the unit cube a on the front side, and as shown in FIG. Of the large block 9 of the second large block 9 and the upper two unit cubes a of the fourth large block.

As shown in FIGS. 1 and 2 (k) and 2 (m), the eleventh large block 12 includes four unit cubes a connected to the left and right and a rear end unit cube a. It is composed of one unit cube a connected to the side, and as shown in FIGS. 2 (k) and (m), three unit cubes a on the front side of the ninth large block 10 and the eighth unit cube a. It is placed on the upper side of two unit cubes a that are projected in order in front of the block 9.

As shown in FIGS. 1 and 2 (m), the twelfth large block 13 includes four unit cubes a, which are sequentially connected to the left and right, and a lower side of the second unit cube a from the right. 2 and one unit cube a, which are placed on the fifth large block 6, the sixth large block 7, and the seventh large block 8, as shown in FIG. 2 (m).

In this three-dimensional block toy, for example, by combining one small block 1 and 12 large blocks 2 to 13 by the procedure shown in FIG. 2, from n ³ unit cubes a as shown in FIG. Therefore, it is possible to form a total cube A in which n unit cubes a are arranged on one side.

However, the procedure for combining the one small block 1 and the twelve large blocks 2 to 13 is not necessarily one, and for example, FIGS. 4 (a) to 4 (m) and FIG. ) Through FIG. 5 (m) or FIG. 6 (a) through FIG. 6 (m), it is possible to form a total cube A in which n unit cubes a are arranged on one side by various other procedures.

As described above, the small block 1 and the 12 large blocks 2 to 13 are assembled by a complicated procedure consisting of 13-1 = 12 steps, and the procedure is not limited to one. However, it becomes difficult to discover the procedure for assembling the small block 1 and the large blocks 2 to 13, and it becomes difficult to store the discovered procedure. As a result, the fun of assembling through various trials and errors over the long term cannot be lost.

The three-dimensional block toy of the present invention is not limited to the above-mentioned one embodiment, and for example, as shown in FIGS. 7 to 9, the total cube A is composed of nine unit cubes a. When one small block 1 made up of three unit cubes a and six large blocks 2 to 7 made up of four unit cubes a are provided, and also when n is 5 or more, The larger the number of n, the more steps to assemble and the more difficult it is to find that procedure.

[0037]

[Effect of the device]

As described above, the three-dimensional block toy of the present invention comprises n ³ unit cubes, where n is an integer, and n unit cubes are the total cubes (A) in which n unit cubes are arranged on one side. The unit cube is divided into one connected small block and n ² −n large blocks in which n + 1 unit cubes are connected so that the number of connected units in one direction is n or less. It is easy to confuse each other even with the same number of large blocks.By providing symmetrical and paired left and right handed blocks, the mounting positions of the small blocks and the large blocks are confused, and It will be difficult to find. As a result, you will be able to enjoy assembling through trial and error over a long period of time.

Moreover, since it is possible to assemble the whole cube A by a plurality of procedures instead of one procedure for assembling the small blocks and the large blocks, the complicated procedures that are difficult to find even one way are confused with each other. It is often advanced and you can enjoy it for a longer period until you discover all the steps.

[Brief description of drawings]

FIG. 1 is an exploded perspective view of an embodiment of the present invention.

FIG. 2 is an explanatory diagram of an example of an assembling procedure of an embodiment of the present invention.

FIG. 3 is a perspective view of an embodiment of the present invention.

FIG. 4 is an explanatory view of an example of a different assembly procedure of the embodiment of the present invention.

FIG. 5 is an explanatory diagram of another example of an assembly procedure of the embodiment of the present invention.

FIG. 6 is an explanatory view of still another assembly procedure example of the embodiment of the present invention.

FIG. 7 is an exploded perspective view of another embodiment of the present invention.

FIG. 8 is an explanatory view of an example of an assembling procedure of another embodiment of the present invention.

FIG. 9 is a perspective view of another embodiment of the present invention.

[Explanation of sign]

 A Total cube a Unit cube 1 Small block 3 to 13 Large block

Claims (1)

[Scope of utility model registration request] 1. A unit cube (a) of n ³ units, where n is an integer
A total cube consisting of n unit cubes (a)
(A) so that one small block (1) in which n unit cubes (a) are connected to each other and n + 1 unit cubes (a) are connected in one direction to n or less cubic block toy, characterized in that it is divided into concatenated with the n ² -n number of large blocks (2) to (13).