JP2017119088A - Surface structure for inter-block junction in block toy incorporating magnet - Google Patents

Abstract

PROBLEM TO BE SOLVED: To provide a surface structure for inter-block junction in a block toy incorporating a magnet capable of perfectly preventing a phenomenon of being pressed laterally even if an external force acts laterally which is not in a direction of junction at the time of up and down junction, vertical junction, and horizontal junction.SOLUTION: A structure of a protrusion and a groove form is formed on a block surface of a block toy incorporating a magnet. At the time of up and down junction, vertical junction, and horizontal junction between blocks, a structure of a projection and a groove form formed on each block surface naturally engages with each other, resulting in stable junction between blocks.SELECTED DRAWING: Figure 1

Description

  The present invention relates to a surface structure for joining between blocks of a block toy in which a magnet is built, and more specifically, by forming a protrusion- and groove-shaped structure on the block surface of the block toy in which a magnet is built-in, In the vertical joint, vertical joint, and horizontal joint between the blocks, the magnets that enable stable joints between the blocks while the protrusions and grooves formed on the surfaces of the blocks naturally mesh with each other. This is related to the built-in block toy and the surface structure for joining between the blocks of the block toy, especially when external force acts from the lateral direction that is not the direction in which joining is performed during vertical joining, vertical joining, and horizontal joining. The present invention also relates to a surface structure that can completely prevent the phenomenon of being pushed in the lateral direction.

  A toy is a block toy that can be enjoyed by assembling a small plastic block to create a desired three-dimensional shape. The block toy is composed of a large number of blocks.

  As for block toys, assembled block toys having a coupling structure that fits the protrusions and grooves formed on each block to each other are commercially available. Once assembled, there is the inconvenience that it is difficult to disassemble each block in order to create another three-dimensional shape.

  On the other hand, block toys with built-in magnets that allow easy joining between the blocks by magnetic force as long as the magnets are mounted inside the blocks and the blocks are brought close to each other are also commercially available. By using magnets, the block toys can be conveniently joined to each other and can be easily disassembled after assembly. However, the edges of most blocks are rounded, The joint between the blocks is not strong, and after being assembled in a three-dimensional shape, there is a drawback that even if a slight impact is applied, the shape will collapse.

  In order to solve the above-mentioned problems, the inventors of the present invention invented “surface structure for joining between blocks of a block toy with built-in magnet” disclosed in Patent Document 1.

  Compared to the fact that the edge of the block is rounded, the invention is very strong in the connection between the blocks and has the effect of significantly increasing the maximum compressive load in the vertical direction. When an external force is applied from the lateral direction that is not the direction in which the joining is performed at the time of horizontal joining, a phenomenon that is easily pushed in the lateral direction has occurred.

  As a result of continuing research on the surface structure that enables stable bonding between the blocks, the inventor applied not only the direction in which the bonding is performed but also an external force from the lateral direction that is not the direction in which the bonding is performed. However, it has led to the development of a surface structure that can be stably joined between blocks without being pushed in the lateral direction at all.

Republic of Korea registered utility model No. 475198

  The present invention forms protrusions and groove-shaped structures on the block surface of a block toy with a built-in magnet, and the protrusions and grooves formed on the surface of each block in the vertical joint, vertical joint, and horizontal joint between the blocks. To provide a surface structure for bonding between a block toy with a built-in magnet and the block toy block, so that the structure of the form naturally interlocks with each other and allows stable bonding between the blocks. Provided is a surface structure that can completely prevent the phenomenon of being pushed in the lateral direction even when an external force is applied from the lateral direction, which is not the direction in which the joining is performed, particularly during vertical joining, vertical joining, and horizontal joining. Is.

  The surface structure for joining between blocks of a block toy according to the present invention is a block toy block 100 in which the upper frame 10 and the lower frame 20 are combined into one block, and the central portion is A square-shaped panel having a hollow shape is formed, and a magnet mounting groove in which an internal space for rotating the magnet is secured is formed at the center of the four sides of the upper frame 10 and the lower frame 20. In a block in which two columnar magnets or two columnar magnets are incorporated in a row in parallel with the longitudinal direction of the edges of the frames 10, 20, the edges of the upper surface 11 of the upper frame 10 and the lower surface 21 of the lower frame 20 The horizontal protrusions 30 and the insertion grooves 31 are alternately provided in the direction parallel to the edge portion, spaced apart from each other at a predetermined interval, and the upper frame 10 of the one block is When one other block is placed on the upper surface 11, the horizontal protrusion 30 on the upper surface 11 of the upper frame 10 of the lower block is inserted into the insertion groove on the lower surface 21 of the lower frame 20 of the other block placed thereon. The horizontal projection 30 on the lower surface 21 of the lower frame 20 of another block placed thereon is fitted into the insertion groove 31 of the upper frame 10 of the block located on the lower side. The upper inclined surface 40 is formed to extend from the edge of the upper frame 10 at a 45 ° angle downward, and the upper vertical surface 50 is formed to extend downward from the upper inclined surface 40 to form the lower frame. A lower inclined surface 60 is formed at an angle of 45 ° extending from the edge of the upper portion 20, and a lower vertical surface 70 is formed extending upward from the lower inclined surface 60. On the left The engagement portion 41 is formed at the upper, middle, and lower three stages on the left side, and the engagement groove 42 is formed at the upper, middle, and lower three stages on the right side with a predetermined interval as a reference. It is formed slightly lower and longer than the engaging portion 41, and the lower inclined surface 60 has a predetermined interval with reference to a position slightly deviated to the right from the center, and the upper left, the middle, and the lower three steps. An engagement groove 62 is formed, and on the right side, an engagement portion 61 is formed slightly higher and shorter than the engagement groove 62 in three stages of upper, middle, and lower, and the upper vertical surface 50 is slightly left from the center. The engagement portion 51 is formed on the left side with a predetermined interval with respect to the biased position, and the engagement groove 52 is formed slightly lower and longer than the engagement portion 51 on the right side, and the lower vertical surface 70 is formed. Is formed with an engagement groove 72 on the left side at a predetermined interval with reference to a position slightly deviated to the right side from the center, An engagement portion 71 is formed slightly higher and shorter than the engagement groove 72 on the side, and an engagement groove 42 on the right side of the upper inclined surface 40 and an engagement groove 52 on the right side of the upper vertical surface 50 are engaged with each other. An upper protrusion 80 is formed in the direction perpendicular to the grooves 42 and 52 so as to be higher than the height of the engaging portions 41, 51, 61 and 71, and the engaging portion 41 on the left side of the upper inclined surface 40 and the engaging portion on the left side of the upper vertical surface 50. An upper insertion groove 90 is formed in the middle portion of the portion 51 in a direction perpendicular to the engagement portions 41, 51, and an engagement groove 62 on the left side of the lower inclined surface 60 and an engagement groove 72 on the left side of the lower vertical surface 70 are located in the middle portion. The lower protrusion 81 is formed in a direction perpendicular to the engagement grooves 62 and 72 to be higher than the height of the engagement portions 41, 51, 61, 71, and the lower inclined surface 60 right side of the engagement portion 61 and the lower vertical surface 70 right side. A lower insertion groove 91 is formed in the middle portion of the engaging portion 71 in a direction perpendicular to the engaging portions 61, 71. It can be characterized by being.

  In addition, the block 100 in which the upper frame 10 and the lower frame 20 are combined may be formed to have a width of 60 to 70 mm and a thickness of 6 to 9 mm.

  In addition, the horizontal protrusion 30 and the insertion groove 31 may have the same depth of 0.8 to 1.0 mm.

  Further, the depth of each of the engaging grooves 42 and 62 of the upper and lower inclined surfaces 40 and 60 and the height of each of the engaging portions 41 and 61 are respectively set to 0.25 to 0.35 mm. Can be characterized.

  Further, the depths of the engaging grooves 52 and 72 of the upper and lower vertical surfaces 50 and 70 and the heights of the engaging portions 51 and 71 are respectively 0.4 to 0.6 mm. be able to.

  The protrusions 80 and 81 and the insertion grooves 90 and 91 may have a depth of 0.8 to 1.0 mm.

  The present invention forms a protrusion and groove structure on the block surface of a block toy with a built-in magnet, and the protrusion and groove formed on the surface of each block in the vertical joint, vertical joint, and horizontal joint between the blocks. There is an effect that stable joining is performed between the blocks while the structure of the form naturally meshes with each other.

  In particular, the present invention has a remarkable effect that even if an external force is applied from the lateral direction, which is not the direction in which the vertical joining between the blocks, vertical joining, and horizontal joining are performed, the lateral direction is not pushed at all.

FIG. 1 is a perspective view of a magnet block on which a surface structure of the present invention is formed. FIG. 2 is a perspective view of upper and lower joining of the magnet block of the present invention. FIG. 3 is a perspective view of the vertical joining of the magnet block of the present invention. FIG. 4 is a perspective view of horizontal joining of the magnet blocks of the present invention. FIG. 5a is a diagram illustrating pressing in blocks opposite to each other after horizontal joining of blocks formed with a surface structure according to the prior art, and FIG. 5b is a horizontal view of blocks formed with a surface structure according to the present invention. It is a figure which shows pushing to the direction of a mutually opposite side after joining.

  Hereinafter, embodiments of the present invention will be described in detail with reference to the accompanying drawings.

  FIG. 1 is a perspective view of a magnet block on which the surface structure of the present invention is formed, and FIG. 2 is a perspective view of upper and lower joining of the magnet block of the present invention.

  The block toy block 100 according to the present invention is a block toy block 100 in which a magnet is built in, and the upper frame 10 and the lower frame 20 are combined into one block, and has a square panel shape with a hollow in the middle portion. In the center of the four sides of the frame 10 and the lower frame 20, a magnet mounting groove (not shown) in which an internal space for rotating the magnet is secured is formed, and one cylindrical magnet or 2 Two cylindrical magnets are incorporated in a row (not shown) so as to be parallel to the longitudinal direction of the edges of the frames 10 and 20.

  When two cylindrical magnets are built in the magnet mounting groove, the number of poles is increased and the two blocks are joined together more strongly than when one cylindrical magnet is built. become.

  The block 100 in which the upper frame 10 and the lower frame 20 are combined is preferably 60 to 70 mm in width and length and 6 to 9 mm in thickness, and is formed in a panel shape having a hollow in the middle portion. This is because if the width and length do not reach 60 mm and the thickness of 6 mm, respectively, the block toy block is too small. If the width and length exceed 70 mm and the thickness exceeds 9 mm, the block toy block is too large. In this embodiment, the block 100 in which the upper frame 10 and the lower frame 20 are joined is a panel shape having a horizontal and vertical length of 65 mm, a thickness of 7 mm, and a hollow in the middle portion. It is formed to 11 mm.

  Horizontal projections 30 and insertion grooves 31 are alternately provided in the direction parallel to the edges at the edges of the upper surface 11 of the upper frame 10 and the lower surface 21 of the lower frame 20 and spaced apart from each other. When another block is placed on the upper surface 11 of the upper frame 10 of the block, the horizontal protrusion 30 of the upper surface 11 of the upper frame 10 of the block located on the lower side is placed on the lower frame of the other block. The horizontal projection 30 on the lower surface 21 of the lower frame 20 of another block placed on the insertion groove 31 of the upper frame 10 of the block located on the lower side is sandwiched between the insertion grooves 31 of the lower surface 21 of the 20. Is formed so as to be sandwiched.

The horizontal protrusions 30 and the insertion grooves 31 have a depth of 0.8 to 1.0 mm and are preferably formed to be the same. However, this is because the horizontal protrusions 30 and the insertion grooves 31 have a depth of 0.8 mm. Otherwise, the meshing force between the horizontal protrusion 30 and the insertion groove 31 becomes weak, and when the depth of the horizontal protrusion 30 and the insertion groove 31 exceeds 1.0 mm, the horizontal protrusion 30 protrudes too high, and the block is used. This is inconvenient. In this embodiment, the height of the horizontal protrusion 30 and the depth of the insertion groove 31 are 0.9 mm.
The surface structure of the block as described above is used for vertical joining between the blocks of the present invention. However, even if an external force is applied from a lateral direction that is not the direction in which the vertical joining is performed, it is completely pushed in the lateral direction. It is firmly joined without any problems.

  FIG. 3 is a perspective view of vertical joining of the magnet blocks of the present invention, and FIG. 4 is a perspective view of horizontal joining of the magnet blocks of the present invention.

  An upper inclined surface 40 is formed at a 45 ° angle downward from the edge of the upper frame 10, and an upper vertical surface 50 is formed extending downward from the upper inclined surface 40, extending from the edge of the lower frame 20. A lower inclined surface 60 is formed at an angle of 45 ° above, and a lower vertical surface 70 is formed extending upward from the lower inclined surface 60.

The upper inclined surface 40 is formed with an engagement portion 41 in three stages, upper, middle, and lower, on the left side with a predetermined interval with a position slightly deviated to the left from the center as a reference. In the middle and lower three stages, the engaging groove 42 is formed slightly lower and longer than the engaging portion 41, and the lower inclined surface 60 is spaced a predetermined distance from the center on the right side with a predetermined interval, Engaging grooves 62 are formed in the upper, middle, and lower three stages on the left side, and engaging portions 61 are formed slightly higher and shorter than the engaging grooves 62 in the upper, middle, and lower three stages on the right side.
An engagement portion 51 is formed on the left side of the upper vertical surface 50 with a predetermined distance from a position slightly deviated to the left from the center, and an engagement groove 52 is formed on the right side from the engagement portion 51. The lower vertical surface 70 has a predetermined interval with respect to a position slightly deviated to the right from the center, an engagement groove 72 is formed on the left side, and an engagement portion 71 is formed on the right side. It is formed slightly higher and shorter than the engagement groove 72.

  In the middle of the engagement groove 42 on the right side of the upper inclined surface 40 and the engagement groove 52 on the right side of the upper vertical surface 50, the height of the engagement parts 41, 51, 61, 71 is perpendicular to the engagement grooves 42, 52. An upper protrusion 80 is formed to be higher than that, and an upper portion is inserted vertically into the engagement portions 41 and 51 in the middle portion of the engagement portion 41 on the left side of the upper inclined surface 40 and the engagement portion 51 on the left side of the upper vertical surface 50. A groove 90 is formed, and engaging portions 41, 51, 61 are perpendicular to the engaging grooves 62, 72 in the middle portion of the engaging groove 62 on the left side of the lower inclined surface 60 and the engaging groove 72 on the left side of the lower vertical surface 70. A lower protrusion 81 is formed higher than the height of 71, and the intermediate portion between the engaging portion 61 on the right side of the lower inclined surface 60 and the engaging portion 71 on the right side of the lower vertical surface 70 is perpendicular to the engaging portions 61, 71. A lower insertion groove 91 is formed.

  The upper inclined surface 40 and the lower inclined surface 60 form the engaging grooves 42 and 62 slightly lower and longer than the engaging portions 41 and 61, and the engaging portions 41 and 61 are formed from the engaging grooves 42 and 62. The reason why it is formed slightly higher and shorter is to allow the engaging portions 41 and 61 to be easily sandwiched between the engaging grooves 42 and 62.

  The engaging grooves 42 and 62 are formed slightly lower and longer than the engaging portions 41 and 61, and the depth of each of the engaging grooves 42 and 62 and the height of each portion of the engaging portions 41 and 61 are respectively Preferably, the depth of each of the engaging grooves 42 and 62 and the height of each of the engaging portions 41 and 61 reach 0.25 mm, respectively. Otherwise, for example, the engagement force between the engaging portion 41 of the upper inclined surface 40 and the engaging groove 62 of the lower inclined surface 60 becomes so weak that the projecting portions 80 and 81 and the insertion grooves 90 and 91 are also formed. Therefore, until the depth of each of the engagement grooves 42 and 62 and the height of each of the engagement portions 41 and 61 exceed 0.35 mm, the engagement portion 41 and the lower inclination of the upper inclined surface 40 are each increased. It is not necessary to increase the meshing force between the engagement groove 62 of the surface 60 and That. In this embodiment, the height of the engaging portions 41 and 61 is 0.35 mm, and the depth of the engaging grooves 42 and 62 is 0.3 mm.

  In the upper vertical surface 50 and the lower vertical surface 70, the engaging grooves 52 and 72 are formed slightly lower and longer than the engaging portions 51 and 71, and the engaging portions 51 and 71 are slightly shorter than the engaging grooves 52 and 72. The reason why it is formed high and short is that the engaging portions 51 and 71 are easily sandwiched between the engaging grooves 52 and 72.

  The engaging grooves 52 and 72 are formed slightly lower and longer than the engaging portions 51 and 71, and the depths of the engaging grooves 52 and 72 and the heights of the engaging portions 51 and 71 are 0.4-0. Preferably, it is formed to 6 mm. If the depth of the engagement grooves 52 and 72 and the height of the engagement portions 51 and 71 do not reach 0.4 mm, the engagement between the engagement grooves 52 and 72 and the engagement portions 51 and 71 is achieved. Since the force is weakened and the protrusions 80 and 81 and the insertion grooves 90 and 91 are also formed, the depth of each of the engagement grooves 52 and 72 and the height of each of the engagement parts 51 and 71 are determined. This is because it is not necessary to increase the meshing force between the engaging portions 51 and 71 and the engaging grooves 52 and 72 until each exceeds 0.6 mm. In this embodiment, the height of the engaging portions 51 and 71 is 0.55 mm, and the depth of the engaging grooves 52 and 72 is 0.5 mm.

  The reason why the protrusions 80 and 81 are formed in the intermediate portions of the engaging grooves 42, 52, 62, and 72 and the insertion grooves 90 and 91 are formed in the intermediate portions of the engaging portions 41, 51, 61, and 71 is as follows. Even if the insertion holes 90 and 91 are formed, the insertion grooves 90 and 91 into which the protrusions 80 and 81 are inserted are higher than the engagement grooves 42, 52, 62 and 72 because they do not protrude on the surface. The engaging portions 41, 51, 61, 71 are formed, and the protruding portions 80, 81 protrude on the surface when formed. If the protruding portions 80, 81 are formed too high, the use of the block toy is inconvenient. Therefore, the protrusions 80 and 81 are formed in the engagement grooves 42, 52, 62 and 72 having a height lower than that of the engagement portions 41, 51, 61 and 71, and the engagement portions 41 and 51 are formed. , 61, 71 so that it does not protrude too much on the surface. It is for.

  The protrusions 80 and 81 and the insertion grooves 90 and 91 preferably have a depth of 0.8 to 1.0 mm. This is because the protrusions 80 and 81 have a height of 0.8 mm. If not reached, for example, if the meshing force between the upper projection 80 and the lower insertion groove 91 becomes so weak that the height of the projections 80, 81 exceeds 1.0 mm, the projections 80, 81 This is because too many stick out and cause inconvenience to the use of block toys. In this embodiment, the protrusions 80 and 81 and the insertion grooves 90 and 91 are formed to a depth of 0.9 mm.

  The surface structure of the block as described above is used for vertical joining and horizontal joining between the blocks. When the two blocks of the present invention are vertically joined, for example, the engaging portion 41 of the upper inclined surface 40 of the block positioned vertically is used. The engaging groove 42 is engaged with the engaging groove 62 and the engaging portion 61 of the lower inclined surface 60 of the block positioned horizontally, and the upper projecting portion 80 of the block positioned vertically is positioned horizontally. It is inserted in the lower insertion groove 91 of the block and vertically inserted into the upper insertion groove 90 of the block, and the lower projection 81 of the block located in the horizontal direction is inserted, and it is not the direction in which the joining at the time of vertical joining is performed. Even if an external force is applied from the lateral direction, it is firmly pressed without being pushed in the lateral direction.

  When the two blocks of the present invention are horizontally joined, for example, the engaging groove 72 is engaged with the engaging portion 71 of the lower vertical surface 70 of one block, and the engaging groove 72 is engaged with the engaging groove 52 of the upper edge of the upper vertical surface 50 of the other block. The upper protrusion 80 on the right side of the upper vertical surface 50 of one block is inserted into the upper insertion groove 90 on the left side of the upper vertical surface 50 of the other block. 70 Even if the lower protrusion 81 on the left side is inserted into the lower insertion hole 91 on the right side of the lower vertical surface 70 of another block and an external force is applied from a lateral direction that is not the direction in which the horizontal joining is performed, Rigidly joined without being pushed to

  The configuration as described above is formed identically on the four sides and edges of the block 100 of the present invention having a regular square panel shape.

  In the block according to the present invention, the projecting portions 80 and 81 protrude slightly, but the height is 1.0 mm or less, and there is no inconvenience for the use of the block toy. Bonding is performed firmly, and even if an external force is applied from a lateral direction that is not the direction in which the bonding is performed, it is not pushed at all in the lateral direction.

  FIG. 5a is a diagram illustrating pressing in the opposite directions after horizontal joining of blocks having a surface structure according to the prior art, and FIG. 5b is a horizontal joining of blocks having a surface structure according to the present invention. It is drawing which shows pushing in the direction opposite to each other afterwards.

  After horizontally joining the blocks on which the surface structure according to the prior art is formed, the two blocks are grasped with two fingers and lightly pushed in the opposite directions, but easily pushed in the other direction ( FIG. 5 a), after horizontally joining the blocks formed with the surface structure according to the present invention, even if the two blocks are grasped with both hands and pushed to the opposite direction with full force, they are not pushed at all (FIG. 5 b).

  In the present invention, the shape of the block is a regular square, but the shape of the block is not limited to this, and various shapes of blocks such as a rectangle, a triangle, a hexagon, and an octagon may be used. it can.

  As described above, the embodiments of the present invention have been described. However, the present invention is not limited to the configurations and operations according to the embodiments described and illustrated, but within the scope of the appended utility model registration claims. Since many changes and modifications to the present invention are possible without departing from the spirit and scope, all such changes and modifications and equivalents, particularly protrusions as the size of the panel-shaped block changes, Changes in the length, height, spacing, etc. of the groove-shaped structure should also be considered within the scope of the present invention.

100: Block 10 of the present invention: Upper frame 11: Upper surface 20: Lower frame 21: Lower surface 30: Horizontal protrusion 31: Insertion groove 40: Upper inclined surface 41: Engaging portion 42: Engaging groove 50: Upper vertical surface 51: Engaging portion 52: engaging groove 60: lower inclined surface 61: engaging portion 62: engaging groove 70: lower vertical surface 71: engaging portion 72: engaging groove 80: upper protruding portion 81: lower protruding portion 90: Upper insertion groove 91: lower insertion groove

Claims (6)

As the block toy block (100), the upper frame (10) and the lower frame (20) are joined to form a single block and have a square panel shape with a hollow in the middle portion. ) And the lower frame (20) at the center of the four sides, a magnet mounting groove in which an internal space for rotating the magnet is secured is formed, and one cylindrical magnet or two cylindrical magnets are formed. In a block that is embedded so as to be horizontal with the longitudinal direction of the edge of the frame (10, 20),
Horizontal protrusions (30) and insertion grooves (31) are alternately bordered on the edges of the upper surface (11) of the upper frame (10) and the lower surface (21) of the lower frame (20) at a predetermined interval. When the other block is placed on the upper surface (11) of the upper frame (10) of the one block, the upper frame (10) of the block located below is provided. The upper part of the block located on the lower side is inserted into the insertion groove (31) of the lower surface (21) of the lower frame (20) of the other block on which the horizontal protrusion (30) of the upper surface (11) is placed. The insertion groove (31) of the frame (10) is formed so that the horizontal protrusion (30) of the lower surface (21) of the lower frame (20) of the other block placed thereon is sandwiched between them,
An upper inclined surface (40) is formed extending from the edge of the upper frame (10) at a 45 ° angle downward, and an upper vertical surface (50) is formed extending downward at the upper inclined surface (40).
A lower inclined surface (60) is formed extending from the edge of the lower frame (20) at a 45 ° angle upward, and a lower vertical surface (70) is formed extending upward from the lower inclined surface (60).
The upper inclined surface (40) is formed with an engagement portion (41) in three steps of upper, middle, and lower on the left side with a predetermined interval on the basis of a position slightly deviated to the left from the center, On the right side, the engagement groove (42) is formed slightly lower and longer than the engagement portion (41) in three stages of upper, middle and lower,
An engagement groove (62) is formed in the lower inclined surface (60) at a predetermined interval with a position slightly deviated to the right side from the center as a reference, and on the left side in three steps of upper, middle, and lower, On the right side, the engaging part (61) is formed slightly higher and shorter than the engaging groove (62) in three stages of upper, middle and lower,
The upper vertical surface (50) is formed with an engagement portion (51) on the left side and a engagement groove (52) on the right side at a predetermined interval with reference to a position slightly deviated to the left side from the center. Is formed slightly lower and longer than the engaging portion (51), and the lower vertical surface (70) is spaced apart from the center by a predetermined distance on the left side with an engagement groove (72) on the left side. ) Is formed, and on the right side, the engaging portion (71) is formed slightly higher and shorter than the engaging groove (72),
An upper protrusion (80) is formed in the engagement groove (42, 52) at an intermediate portion between the engagement groove (42) on the right side of the upper inclined surface (40) and the engagement groove (52) on the right side of the upper vertical surface (50). The engaging portion (41, 51, 61, 71) is formed vertically higher than the engaging portion (41) on the left side of the upper inclined surface (40) and the engaging portion on the left side of the upper vertical surface (50) ( 51) An upper insertion groove (90) is formed in the middle portion in a direction perpendicular to the engaging portions (41, 51), and the lower inclined surface (60), the left engaging groove (62) and the lower vertical surface (70). ) In the middle portion of the left engagement groove (72), a lower protrusion (81) is formed in a direction perpendicular to the engagement grooves (62, 72) and higher than the height of the engagement portions (41, 51, 61, 71). The lower inclined surface (60) right engagement portion (61) and the lower vertical surface (70) right engagement portion (71) intermediate portion between the engagement portion (61 Wherein the lower insertion groove (91) is formed in the vertical direction 71), the surface structure for joining between the blocks toy magnets are built block.   The block (100) in which the upper frame (10) and the lower frame (20) are combined is formed to have a width of 60 to 70 mm and a thickness of 6 to 9 mm, respectively. Surface structure for joining between blocks of toy blocks with built-in magnets.   The block of the block toy according to claim 1, wherein the horizontal protrusions (30) and the insertion grooves (31) have the same depth of 0.8 to 1.0 mm. Surface structure for bonding between.   The depth of each of the engaging grooves (42, 62) formed on the upper and lower inclined surfaces (40, 60) and the height of each part of the engaging portions (41, 61) are 0.25 to 0.25, respectively. The surface structure for joining between blocks of the block toy in which the magnet according to claim 1 is built, wherein the surface structure is 0.35 mm.   The depth of the engagement grooves (52, 72) formed on the upper and lower vertical surfaces (50, 70) and the height of the engagement portions (51, 71) are each set to 0.4 to 0.6 mm. The surface structure for joining between the blocks of the block toy in which the magnet according to claim 1 is built.   The magnet according to claim 1, wherein the height of the protrusion (80, 81) and the depth of the insertion groove (90, 91) are 0.8 to 1.0 mm. Surface structure for bonding between blocks of a toy block.