JP3151532U - Building equipment - Google Patents

Abstract

The present invention provides a building apparatus that improves the difficulty of playing with building blocks and gives moderate stimulation to the brain. In a localization tank 21 of a building rack 20, 11 rows of localization holes 22 are arranged in parallel in the X-axis direction, and an odd number of these 11 rows is localized in 5 locations. An even number of rows are composed of four stereotactic holes 22, and each of the odd and even rows of stereotactic holes 22 is an oblique row having an angle of 45? With respect to the X-axis direction or the Y-axis direction. The building set 10 is composed of 11 different types of building blocks 1A to 1K, and each of these building blocks 1A to 1K is formed of 3 to 5 parts, and is composed of 50 parts in total. . [Selection] Figure 4

Description

  The present invention relates to a building apparatus, and more particularly, to a building apparatus that is useful for giving a moderate stimulus to the brain and improving creativity and imagination.

  In the past, the authors of this application have developed a masashi building device. This Michichi building device is designed to stimulate the brain and increase creativity and imagination by stacking and arranging several different types of building blocks in a specific building case. It was announced on July 11th (see Patent Document 1), and in addition, “United States Patent” was also acquired.

  As shown in FIG. 1, in the profit-making block device of this document 1, eleven localization holes 31 are formed in the direction of the long side (Y-axis direction) on the surface of the building case 30, and the direction of the short side (X The five localization holes 31 are formed in the axial direction), and 55 localization holes 31 are provided as a whole. As shown in FIG. 2, twelve building sets used for these 55 localization holes 31 are provided. These 12 building blocks 3A to 3L are formed by connecting 3 to 5 parts, and the total number of parts is 55. It balances with the stereotaxic holes 31 of the pieces.

Taiwan Patent Publication No. 398313 “Changeable 60, 90 and 120 degrees wisdom blocks”

  However, in the conventional building apparatus, 11 localization holes 31 of the building bin 30 are arranged in the long side direction (Y-axis direction) and five in the short side direction (X-axis direction). The localization holes 31 arranged in the Y-axis direction and the localization holes 31 arranged in the X-axis direction are arranged at an angle θ1 = 90 °, the horizontal localization holes 31 are arranged in the X-axis direction, and the vertical localization holes 31 are arranged in the Y-direction. Since they are arranged with the same gap in the axial direction, placing the blocks 3A to 3L from the outside of the building bin 30 is easy for beginners, but satisfied for users who want to challenge the difficulty of playing with building blocks. There is a problem that it is impossible. Therefore, raising the difficulty of playing with building blocks is the first problem to be solved by the present invention.

  Moreover, in the said conventional building apparatus, when 12 building blocks which consist of 55 localization holes and 55 parts are used, these localization holes, the number of building blocks, and the number of building blocks are changed. Although it is possible to increase the difficulty of playing with building blocks, it is not preferable to simply increase the number of these localization holes, the number of building blocks, and the number of building blocks. There is a problem that it is desirable to reduce the number of. Therefore, raising the difficulty of answering building play under such severe conditions is the second problem to be solved by the present invention.

  The present invention solves such a conventional problem, and an object of this type of building apparatus is to improve the difficulty of playing with building blocks and to give an appropriate stimulus to the brain.

In order to achieve the above object, the present invention is a profitable building block combined with 45 °, which is made up of one building case 20, a stereotaxic tub 21 in the building case 20 and a suitable building set 10, and its features. Is as follows.
(A) A suitable building block 10 is placed in the stereotaxic tub 21 in the block case 20 in one flat block case 20, and the stereotyped concave tank 21 of the block case 20 has 50 stereotactic holes 22 in the lateral direction from above. 11 rows, odd rows (1, 3, 5, 7, 9, 11) are composed of five in one row, and even rows (2, 4, 6, 8, 10) are composed of four stereotactic holes 22 in one row, The odd-numbered and even-numbered stereotactic holes are arranged at an oblique angle of 45 °, and the stereotaxic bath 21 is attached to the front or bottom of the building bin 20.
(B) The building block set 10 is a building block 1A to 1K having 11 different shapes, and each building block is made up of three to five parts. The number of parts of the building blocks 1A to 1K is 50 in total. Then, the blocks 1A to 1K are put into the stereotaxic hole 22 in the stereotaxic tank 21 of the stacker 20 in such a manner that they are lined up at an oblique angle of 45 °.
(C) As shown in FIG. 7, the blocks 1 </ b> A to 1 </ b> K are formed of four parts a <b> 1 to a <b> 4, the parts a <b> 1 to a <b> 3 are connected to a straight line based on the X axis, and the part a <b> 4 is The Y axis is perpendicular to the X axis and is connected to the part a3.
(D) The building block 1B is made up of five parts b1 to b5, the parts b1 to b3 are connected in a straight line with respect to the X axis, and connected to the parts b4 and b5 in parallel with the X axis, provided that the part b2 Are connected to the component b4 and similarly to the component b3 and the component b5 to form one building block 1B.
(E) The building block 1C is made up of five parts b1 to b5, the parts c1 to c4 are connected in a straight line with respect to the X axis, and the part c5 is connected to the part c3 in the Y axis perpendicularly to the X axis. .
(F) The building block 1D is made up of three parts d1 to d3, the part d1 and the part d2 are connected in a straight line with respect to the X axis, and the part d3 is connected to the part d2 crossing the Y axis perpendicularly to the X axis. .
(G) The building block 1E is made up of five parts e1 to e5, the parts e1 and e2 are connected in a straight line with respect to the X axis, and are connected to the parts e3 and e4 in parallel to the X axis on the lateral side, The component e3 and the component e2 are connected by the Y axis, and are similarly connected to the component e4 and the component e5 to form one building block 1E.
(H) The building block 1F is made up of five parts f1 to f5, the parts f1 to f3 are connected to a straight line with reference to the X axis, and the parts f4 and f5 are connected to a straight line with reference to the Y axis, provided that The X axis and the Y axis intersect perpendicularly and are connected to the component f4 and the component f1.
(I) The building block 1G is made up of four parts f1 to g4, the parts g1 to g3 are connected in a straight line with the X axis as a reference, and the part g4 is connected to the part g2 perpendicularly to the X axis on the Y axis. To do.
(J) The building block 1H is made up of four parts h1 to h4, and the parts h1 to h4 are connected to a straight line with reference to the X axis.
(K) The building block 1I is made up of five parts i1 to i5, the parts i2 to i5 are connected in a straight line with the Y axis as a reference, and the part i1 is connected to the part i2 crossing the Y axis perpendicularly to the Y axis. To do.
(L) The building block 1J is made up of five parts j1 to j5, the parts j1 to j3 are connected in a straight line with reference to the X axis, and are connected to the parts j4 and j5 in parallel to the X axis on the lateral side. Part j3 and part j4 are connected by the Y axis.
(M) The building block 1K is made up of five parts k1 to k5, and the parts k1 and k4 are connected in a straight line with reference to the X axis, and are also connected in parallel to the parts k3 and k5, provided that the part k1 The parts k3 are connected between the parts k3.

Moreover, this invention is equipped with the following structures in each part.
(1) From the above, all the stereotaxic holes 22 of the stereotaxic tank 21 are rounded and connected by the concave grooves 24 between the stereotaxic holes 22 and the stereotactic holes 22, and both sides of the concave grooves 24 are recessed in an arc shape on the inside. Therefore, 31 cylinders 23 are formed in the stereotaxic tank 21 and have nine rows in the lateral direction from above, and the odd rows (1, 3, 5, 7, 9) are three in one row, The even-numbered columns (2, 4, 6, 8) each have four columns, and the odd-numbered columns and the even-numbered columns of cylinders 23 are arranged at an oblique angle of 45 °. Further, the parts of the 11 blocks 1A to 1K are round and flat, the parts are connected to each other by the connecting portion 12, and both sides of the connecting portion 12 are recessed in an arc shape inside. When a building block part is fitted in the stereotaxic hole 22, the connecting part 12 is also fitted in the concave groove 24.
(2) All the stereotaxic holes 22 of the stereotaxic tank 21 are connected to each other by circular recesses, a concave groove 24 between the stereotaxic hole 22 and the stereotaxic hole 22, so that 31 polygonal columns 23 are formed in the stereotaxic tank 21. , 9 rows in the horizontal direction from the top, 3 odd rows (1, 3, 5, 7, 9), 4 even rows (2, 4, 6, 8) in each row The odd-numbered and even-numbered polygonal columns 23 are arranged in a crossed manner at an oblique angle of 45 °. Also, the parts of the above 11 blocks 1A to 1K are round, and the parts are connected by a short bar 13, and when the parts of the building block are fitted in the stereotaxic hole 22, the short bar 13 can also be fitted in the shallow groove 25. It is a feature of this Masutoshi building equipment.
(3) All the stereotaxic holes 22 of the stereotaxic tank 21 are recessed squares, the stereotactic holes 22 and the stereotaxic holes 22 are connected to each other, and all the stereotactic holes 22 have a concave shallow tank 27 at the bottom, and 11 blocks 1A The components of ˜1K are three-dimensional squares, the six surfaces are protruding protrusions 14, and the protrusions 14 are fitted in the shallow tub 27, which is a feature of the building system of Motochi.
(4) All the stereotaxic holes 22 of the stereotaxic tank 21 are recessed squares, the stereotactic holes 22 and the stereotactic holes 22 are connected to each other, and all the stereotactic holes 22 have a concave shallow tank 27 at the bottom, and 11 blocks 1A The 装置 K building block is characterized by a four-sided flat body that is fitted in the stereotaxic hole 22 in the 1K part.

Conventionally, since it becomes a novel requirement, the answer is a combination of 11 building blocks, and it is also created in the form of 50 building blocks and 50 localization holes.
Therefore, the present invention has the following effects:
(1) The building case 20 of this utility model has 50 stereotactic holes 22 arranged at 45 °, and the 11 non-uniformly shaped blocks 1A to 1K are vertically shaped, so they are combined at an oblique angle of 45 °. It is a new game that is much more difficult than the old style of horizontal or series playing, and allows users to enjoy the fun of building blocks.
(2) Also, the answer of the present invention is not as many as the old formula, so it becomes difficult.
(3) In addition, the number of building blocks of the present invention is one less than the old type of 12, and the number of building blocks is 50 and less than the old type of 55. The cost is better than the old formula.
(4) The present invention is a four-type embodiment, each of the building blocks 1A to 1K are of a non-uniform shape, and the building block 20 and the stereotaxic tank 21 are also of a non-uniform shape, for example, a spherical part is placed in the stereotactic hole of a round concave tank In addition, the three-dimensional quadrangular part is inserted into the stereotaxic hole of the quadrangular concave tank. Depending on consumer preferences, there are four types of choices. From the above, the present invention is better for the inventive step because the answer, economic effect and form selection are better than the old style wisdom building equipment.

A plan view showing a building block, especially a conventional building block. Plan view showing building blocks and building blocks of the equipment The top view which shows the building block especially of the building apparatus in the 1st Embodiment of this invention Perspective view showing building blocks and building blocks of the device Plan view showing building blocks and building blocks of the equipment Sectional view showing the building bin and building blocks of the apparatus (line X-X 'in FIG. 4) Plan view showing building blocks of the device The perspective view which shows especially the building block of the building apparatus in the 2nd Embodiment of this invention. Plan view showing building blocks and building blocks of the equipment The perspective view which shows the building block and building block of the building block apparatus in 3rd Embodiment of this invention Plan view showing building blocks and building blocks of the equipment The perspective view which shows the building block and building block of the building block apparatus in 4th Embodiment of this invention Plan view showing building blocks and building blocks of the equipment

  Next, the form for implementing this device is demonstrated using figures. 3 to 7 show a first embodiment. As shown in FIGS. 4 and 5, this building apparatus is configured to include one flat building case 20 and a building set 10 to be put in the building case 20.

  As shown in FIG. 3, the building rack 20 has a stereotaxic tank 21 on the top surface or the bottom surface to which each building block of the building set 10 can be fitted (fit). In this orientation tank 21, 11 rows of orientation holes 22 are arranged in parallel in the vertical direction (hereinafter referred to as the Y-axis direction) of the storage case 20 in the horizontal direction (hereinafter referred to as the X-axis direction) of the building case 20. Of these 11 columns, odd-numbered columns, that is, the first column, the third column, the fifth column, the seventh column, the ninth column, and the eleventh column are configured by five stereotactic holes 22, The rows, that is, the second row, the fourth row, the sixth row, the eighth row, and the tenth row are constituted by four localization holes 22, and each of the localization holes 22 in each of the odd and even rows is a building rack 20. Are arranged in a diagonal row at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction.

  Moreover, in this building case 20, as shown in FIG.3 and FIG.4, each localization hole 22 of the localization tank 21 is formed in concave shape of planar view round shape (substantially circular shape). Further, among the 11 rows of the stereotaxic holes 22 in the stereotaxic tank 21, a cylinder 23 is formed between the stereotaxic holes 22 of the 2nd to 10th rows, and the cylinder 23 as a whole is formed. Nine rows are arranged side by side, and an odd number of these nine columns 23, that is, the first, third, fifth, seventh, and ninth columns are formed by three columns 23. The even-numbered columns, that is, the second column, the fourth column, the sixth column, and the eighth column are each composed of four columns 23, and each column 23 in each of the odd-numbered and even-numbered columns is Concave grooves 24 that are arranged in an oblique row at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction and that connect between the stereotaxic holes 22 between the stereotaxic holes 22 are arcuate concave shapes by the respective cylinders 23 on both sides. Formed.

  As shown in FIGS. 4 and 5, the building set 10 is composed of eleven different types of building blocks 1A to 1K, each of which is formed of 3 to 5 parts, for a total of 50 blocks. It consists of parts. Further, in the case of this building set 10, eleven blocks 1A to 1K each have a flat and round shape (substantially omitted) so that it can be fitted into the stereotaxic hole 22 of the building case 2, as shown in FIGS. A plurality of circular parts and a connecting part 12 that is recessed in an arc shape with both sides facing inward so as to be able to fit into the concave groove 24 of the building rack 2 and connecting the parts. The shapes of the building blocks 1A to 1K of this building block set 10 are as shown in FIG.

  The building block 1A is composed of four parts a1 to a4, the parts a1 to a3 are connected in a straight line, and the part a4 is perpendicular to the connecting direction of the parts a1 to a3 to the part a3 at one end of the parts a1 to a3 (see FIG. 7 on the right side) and are connected to each other to form a substantially L-shape as a whole.

  The building block 1B includes five parts b1 to b5, the parts b1 to b3 are linearly connected, the parts b4 and b5 are linearly connected to each other, and one of the parts b4 is a central part among the parts b1 to b3 The other component b5 is connected to b2 at one end of the components b1 to b3 so as to cross each other in the direction perpendicular to the connection direction of the components b1 to b3 (right side in FIG. 7). ) Q-shaped.

  The building block 1C is composed of five parts c1 to c5, the parts c1 to c4 are connected in a straight line, and the part c5 is connected to the part c3 adjacent to the part c4 at one end of the parts c1 to c4 with respect to the connecting direction of the parts c1 to c4. And intersecting in a right angle direction (left side in FIG. 7) to form a substantially T-shape as a whole.

  The building block 1D includes three parts d1 to d3, the parts d1 and d2 are connected in a straight line, and the part d3 is perpendicular to the connecting direction of the parts d1 and d2 to one of the parts d1 and d2. 7 on the left side) and is generally formed in a substantially (reverse) v-shape.

  The building block 1E is composed of five parts e1 to e5, the parts e1 and e2 are connected in a straight line, and the part e3 is perpendicular to the connecting direction of the parts e1 and e2 to one of the parts e1 and e2. 7, and the part e4 is connected to the part e3 in a direction parallel to the connecting direction of the parts e1 and e2 (however, the direction opposite to the part e1), and the part e5 is connected to the part e4. Are connected in a direction parallel to the connecting direction (left side in FIG. 7), and are formed in a substantially W shape (or substantially zigzag shape or waveform) as a whole.

  The building block 1F is composed of five parts f1 to f5, the parts f1 to f3 are connected in a straight line, and the part f4 is perpendicular to the connecting direction of the parts f1 and f1 to f3 at one end of the parts f1 to f3 (see FIG. 7 and the left side), and the part f5 is connected to the part f4 in a direction perpendicular to the connecting direction of the parts f1 to f3 (left side in FIG. 7) and is formed in a substantially (reverse) V-shape as a whole. Is done.

  The building block 1G is composed of four parts g1 to g4, the parts g1 to g3 are linearly connected, and the part g4 is perpendicular to the connecting direction of the parts g1 to g3 to the central part g2 among the parts g1 to g3 (see FIG. 7 on the right side), and is formed in a substantially (reverse) T-shape as a whole.

  The building block 1H is composed of four parts h1 to h4, and these parts h1 to h4 are connected in a straight line and formed in a substantially I shape as a whole.

  The building block 1I includes five parts i1 to i5, the parts i2 to i5 are connected in a straight line, and the part i1 is perpendicular to the connecting direction of the parts i2 to i5 to the part i2 at one end of the parts i2 to i5 (see FIG. 7 on the left side), and is formed in a substantially (reverse) L-shape as a whole.

  The building block 1J includes five parts j1 to j5, the parts j1 to j3 are connected in a straight line, and the part j4 is perpendicular to the connecting direction of the parts j1 to j3 to the part j3 at one end of the parts j1 to j3 (see FIG. 7 and the left side), the part j5 is connected to the part j4 in a direction parallel to the connecting direction of the parts j1 to j3, and is formed in a substantially Z-shape as a whole.

  The building block 1K includes five parts k1 to k5, the parts k1 to k3 are linearly connected, and the part k4 is perpendicular to the connecting direction of the parts k1 to k3 to the part k1 at one end of the parts k1 to k3 (see FIG. 7 and right side), and part k5 is connected to part k3 at the other end of parts k1 to k3 in a direction perpendicular to the connection direction of parts k1 to k3 (right side in FIG. 7). As a substantially inverted U shape (or a substantially inverted U shape or a gate shape).

  In this way, these blocks 1A to 1K are crossed obliquely at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction of the building rack 20 using the positioning holes 22 in the positioning tank 21 of the building rack 20 respectively. I made them line up.

  As described above, in this building apparatus, eleven blocks 1A to 1K having different shapes composed of a total of 50 building blocks are placed in the building bin 20 at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction. In order to create an answer to building play, it is combined with the 50 stereotaxic holes 22 that are arranged to intersect with the stereotactic holes 22 in a crossed arrangement, so that the conventional horizontal direction or vertical It is more difficult to arrange building blocks than to play with building blocks that are combined in series in the direction. Also, this type of device reduces the number of building play solutions compared to conventional building blocks. Difficult, can greatly improve the difficulty of playing with building blocks. Therefore, the user can give an appropriate stimulus to the brain while fully enjoying the excitement of playing with building blocks.

  In the case of this device, the number of building blocks 1A to 1K is 11, which is one less than 12 pieces of the conventional building device, and the number of parts of the building blocks 1A to 1K is 50 pieces, 55 of the conventional building device. Therefore, the production cost can be reduced by reducing the materials and manufacturing steps necessary for manufacturing the device.

  8 and 9 show a second embodiment. Since the basic configuration of this apparatus is the same as that of the first embodiment, only the differences from the first embodiment will be described here. As shown in FIGS. 8 and 9, in this apparatus, each localization hole 22 of the building rack 20 is formed in a concave shape (or a substantially hemispherical concave shape) having an arc cross section. A polygonal column 26 is formed between the stereotaxic holes 22 of the second to tenth rows among the 11 rows of the stereotactic holes 22 of the building rack 20, and the polygonal column 26 as a whole. 9 rows are arranged side by side, and among these 9 rows of polygonal columns 26, odd-numbered rows, that is, 1st row, 3rd row, 5th row, 7th row, 9th row are 3 rows each. It is composed of polygonal columns 26, and even columns, i.e., the second, fourth, sixth, and eighth columns are composed of four polygonal columns 26, and each of the odd and even columns. Polygonal pillars 26 are arranged in a diagonal row at an angle of 45 ° with respect to the X-axis direction or Y-axis direction of the building rack 20, and shallow grooves 25 that connect the respective stereotaxic holes 22 are formed between the stereotactic holes 22. The Each of the 11 building blocks 1A to 1K includes a plurality of spherical parts that can be fitted into the stereotaxic holes 22 of the building rack 20, and a short bar 13 that connects the parts to each other so as to fit into the shallow groove 25 of the building rack 20. It is formed by. Even if it does in this way, there can exist an effect similar to the said 1st Embodiment. In addition, by changing the shape of the building blocks 1A to 1K and the shape of the stereotaxic tank 21 of the building case 20 in this way, the variation of the building device can be increased, and the choice of the user can be improved along with the difficulty of the building device. The user can choose what suits his / her preference. Therefore, according to this apparatus, the difficulty level of building blocks, the variation of the form of building blocks, and the point of the economic effect thereof are all superior to the conventional building apparatus.

  10 and 11 show a third embodiment. Since the basic configuration of this apparatus is the same as that of the first embodiment, only the differences from the first embodiment will be described here. As shown in FIGS. 10 and 11, in this apparatus, each stereotactic hole 22 of the building rack 20 is formed in a concave shape with a square cross section (or a rectangular concave shape in plan view), and a shallow shallow tank is formed at the bottom. Thus, the stereotaxic holes 22 are connected to each other. Each of the 11 blocks 1A to 1K is made of a cubic part, and has convex portions 14 on each of the six surfaces of each part so as to be fitted in a shallow tank of each stereotaxic hole 22. Even if it does in this way, there can exist an effect similar to the said 1st Embodiment. In addition, by changing the shape of the building blocks 1A to 1K and the shape of the stereotaxic tank 21 of the building case 20 in this way, the variation of the building device can be increased, and the choice of the user can be improved along with the difficulty of the building device. The user can choose what suits his / her preference. Therefore, according to this apparatus, the difficulty level of building blocks, the variation of the form of building blocks, and the point of the economic effect thereof are all superior to the conventional building apparatus.

  12 and 13 show a fourth embodiment. Since the basic configuration of this apparatus is the same as that of the first embodiment, only the differences from the first embodiment will be described here. As shown in FIGS. 10 and 11, in this apparatus, the stereotaxic holes 22 of the building rack 20 are formed in a square concave shape, and the stereotactic holes 22 are connected to each other. Each of the 11 building blocks 1A to 1K is formed by a plurality of flat and square parts that can be fitted into the stereotaxic holes 22 of the building rack 20. Even if it does in this way, there can exist an effect similar to the said 1st Embodiment. In addition, by changing the shape of the building blocks 1A to 1K and the shape of the stereotaxic tank 21 of the building case 20 in this way, the variation of the building device can be increased, and the choice of the user can be improved along with the difficulty of the building device. The user can choose what suits his / her preference. Therefore, according to this apparatus, the difficulty level of building blocks, the variation of the form of building blocks, and the point of the economic effect thereof are all superior to the conventional building apparatus.

11 building blocks 1A-1K building blocks a1-a4 building blocks b1-b5 building blocks c1-c5 building blocks d1-d3 building blocks e1-e5 building blocks f1-f4 building blocks g1-g4 building blocks h1 -H5 Block parts i1-i5 Block parts j1-j5 Block parts k1-k5 Block parts 11-16 Block parts 12 Connecting parts 13 Short rods 20 Block holders 21 Stereotaxic tanks 22 Stereotactic holes 23 Cylinders 24 Concave grooves 25 Shallow groove 26 Square column 30 Block holder 31 Stereo hole 3A-3L Block θ1 90 ° angle θ2 45 ° angle 1 ′, 3 ′, 5 ′, 7 ′, 9 ′ Odd row 2 ′, 4 ′, 6 ′, 8 ′ even Row 1, 3, 5, 7, 9, 11 Odd row 2, 4, 6, 8, 10 Even row

Claims (5)

One flat building block (20), and a building set (10) to be put into the building block (20),
The building block (20) has a positioning tank (21) to which each building block of the building set (10) can be fitted on the top or bottom surface, and the positioning tank (21) is located next to the building box (20). 11 rows of localization holes (22) in the X-axis direction, which is the direction, are arranged in parallel in the Y-axis direction, which is the vertical direction of the building rack (20), and an odd number (1, 3) of these 11 rows. 5, 7, 9, 11) are composed of five stereotactic holes (22), and even (2, 4, 6, 8, 10) are composed of four stereotactic holes (22). Configured, the stereotactic holes (22) in each of the odd and even rows are arranged in a diagonal row at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction of the building rack (20),
The building set 10 is composed of 11 different types of building blocks (1A to 1K), each of which is composed of 3 to 5 parts, and is composed of 50 parts in total. ,
The shape of the building block (1A) is composed of four parts (a1 to a4), the parts (a1 to a3) are connected in a straight line, and the part (a4) is one of the parts (a1 to a3) ( a3) is connected in a direction perpendicular to the connecting direction of the components (a1 to a3), and is formed in a substantially L shape as a whole,
The shape of the building block (1B) is composed of five parts (b1 to b5), the parts (b1 to b3) are linearly connected, the parts (b4 and b5) are linearly connected to each other, and one of them The component (b4) is the central component (b2) of the components (b1 to b3), and the other component (b5) is the component (b3) at one end of the components (b1 to b3). b1-b3) are connected in a direction perpendicular to the connecting direction, and formed in a substantially q-shape as a whole,
The shape of the building block (1C) is composed of five parts (c1 to c5), the parts (c1 to c4) are connected in a straight line, and the part (c5) is one of the parts (c1 to c4) (c4). ) Adjacent parts (c3) and the parts (c1 to c4) are connected to each other in a direction perpendicular to the connecting direction, and formed in a substantially T-shape as a whole.
The shape of the building block (1D) consists of three parts (d1 to d3), the parts (d1, d2) are connected in a straight line, and the part (d3) is one of the parts (d1, d2) (d1) ) Are connected in a direction perpendicular to the connecting direction of the parts (d1, d2), and formed in a substantially v-shape as a whole,
The shape of the building block (1E) is composed of five parts (e1 to e5), the parts (e1, e2) are connected in a straight line, and the part (e3) is one of the parts (e1, e2) (e2). ) Are connected in a direction perpendicular to the connecting direction of the components (e1, e2), the component (e4) is connected to the component (e3) in a direction parallel to the connecting direction of the components (e1, e2), and the component ( e5) is connected to the component (e4) in a direction parallel to the connection direction of the components (e2, e3), and is formed in a substantially W shape as a whole.
The shape of the building block (1F) is composed of five parts (f1 to f5), the parts (f1 to f3) are linearly connected, and the part (f4) is one of the parts (f1 to f3) (f1). ) And the parts (f1 to f3) are connected at right angles to the connecting direction of the parts (f1 to f3), and the part (f5) is connected to the parts (f4) at right angles to the connecting direction of the parts (f1 to f3). Connected to each other and formed into a substantially V shape as a whole.
The shape of the building block (1G) is composed of four parts (g1 to g4), the parts (g1 to g3) are connected in a straight line, and the part (g4) is the central part (g2) of the parts (g1 to g3). ) Are connected in a direction perpendicular to the connecting direction of the parts (g1 to g3), and are formed in a substantially T-shape as a whole.
The shape of the building block (1H) is composed of four parts (h1 to h4), these parts (h1 to h4) are connected in a straight line, and formed in a substantially I shape as a whole,
The shape of the building block (1I) is composed of five parts (i1 to i5), the parts (i2 to i5) are connected in a straight line, and the part (i1) is one of the parts (i2 to i5) (i2). ) Are connected in a direction perpendicular to the connecting direction of the parts (i2 to i5), and are formed in a substantially L shape as a whole.
The shape of the building block (1J) is composed of five parts (j1 to j5), the parts (j1 to j3) are connected in a straight line, and the part (j4) is one part (j3) of the parts (j1 to j3). ) Are connected at a right angle to the connecting direction of the parts (j1 to j3), the part (j5) is connected to the part (j4) in a direction parallel to the connecting direction of the parts (j1 to j3), It is formed in a general Z shape
The shape of the building block (1K) is composed of five parts (k1 to k5), the parts (k1 to k3) are connected in a straight line, and the part (k4) is one of the parts (k1 to k3) (k1). ) And the parts (k1 to k3) are crossed in a direction perpendicular to the connecting direction of the parts (k1 to k3), and the part (k5) is connected to the other part (k3) among the parts (k1 to k3). ) In the direction perpendicular to the connecting direction, and formed in a substantially inverted U shape as a whole,
Each of these blocks (1A to 1K) is crossed obliquely at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction of the block case (20) in the localization tank (21) of the block case (20). I arranged them,
A building block characterized by that.   Each stereotactic hole (22) of the building rack (20) is formed in a round shape, and each row from the 2nd row to the 10th row among the 11 rows of stereotactic holes (22) of the building cabinet (20). Cylinders (23) are formed between the respective stereotaxic holes (22), and nine columns (23) are arranged side by side, and an odd number (1) of these nine columns (23) is arranged. 3, 5, 7, 9) are composed of three cylinders (23), and even (2, 4, 6, 8) are composed of four cylinders (23). The odd-numbered and even-numbered columns (23) are arranged in a diagonal row at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction of the building rack (20), and the stereotaxic holes (22) Concave grooves (24) connecting between the respective stereotaxic holes (22) are formed between the respective circular holes (23) so as to form an arcuate concave shape on both sides. Each of the building blocks (1A to 1K) is fitted into a plurality of flat and round parts that can be fitted into the stereotaxic hole (22) of the building block (20) and the recessed groove (24) of the building block (20). The building block according to claim 1, wherein the blocks are recessed in an arc shape with both sides facing inward and formed by the connection part (12) connecting the parts.   Each stereotactic hole (22) of the building rack (20) is formed in a concave shape with an arc-shaped cross section, and from the 2nd to the 10th row among the 11 rows of stereotactic holes (22) of the building rack (20). A polygonal column (26) is formed between the stereotaxic holes (22) of each column of the column, and nine columns of the polygonal column (26) are arranged side by side, and these nine columns of polygonal columns ( 26), odd-numbered (1, 3, 5, 7, 9) rows are each composed of three polygonal columns (23), and even-numbered (2, 4, 6, 8) rows are four. Each polygonal column (26) of each of the odd-numbered and even-numbered columns is formed at an angle of 45 ° with respect to the X-axis direction or the Y-axis direction of the building rack (20). The shallow grooves (25) that connect the stereotaxic holes (22) are formed between the stereotaxic holes (22), and are arranged in 11 diagonal rows. (1A to 1K) are a plurality of spherical parts that can be fitted into the stereotaxic holes (22) of the building rack (20), and the parts that can be fitted into the shallow groove (25) of the building rack (20). The building block according to claim 1, which is formed by a short bar (13) for connecting parts.   Each stereotactic hole (22) of the building rack (20) is formed in a concave shape with a square cross section, and a concave shallow tank is formed at the bottom thereof, and the stereotactic holes (22) are connected to each other. The building blocks according to claim 1, wherein each of the building blocks (1 </ b> A to 1 </ b> K) is formed of a cubic part, and has convex portions on each of six surfaces of each part so as to be fitted in the shallow tank of each localization hole (22). apparatus.   Each stereotactic hole (22) of the building block (20) is formed in a rectangular concave shape, and the stereotactic holes (22) are connected to each other, so that each of the 11 blocks (1A to 1K) is a building block (20 The building block according to claim 1, which is formed by a plurality of flat and square parts that can be fitted in the stereotaxic holes (22).