WO2013078630A1 - Intelligence building block construction - Google Patents

Intelligence building block construction Download PDF

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Publication number
WO2013078630A1
WO2013078630A1 PCT/CN2011/083193 CN2011083193W WO2013078630A1 WO 2013078630 A1 WO2013078630 A1 WO 2013078630A1 CN 2011083193 W CN2011083193 W CN 2011083193W WO 2013078630 A1 WO2013078630 A1 WO 2013078630A1
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WO
WIPO (PCT)
Prior art keywords
groove
rectangular parallelepiped
width
equal
lead angle
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PCT/CN2011/083193
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French (fr)
Chinese (zh)
Inventor
吴宽瀛
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大沣实业有限公司
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Application filed by 大沣实业有限公司 filed Critical 大沣实业有限公司
Priority to PCT/CN2011/083193 priority Critical patent/WO2013078630A1/en
Publication of WO2013078630A1 publication Critical patent/WO2013078630A1/en

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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63HTOYS, e.g. TOPS, DOLLS, HOOPS OR BUILDING BLOCKS
    • A63H33/00Other toys
    • A63H33/04Building blocks, strips, or similar building parts
    • A63H33/06Building blocks, strips, or similar building parts to be assembled without the use of additional elements
    • A63H33/08Building blocks, strips, or similar building parts to be assembled without the use of additional elements provided with complementary holes, grooves, or protuberances, e.g. dovetails
    • A63H33/084Building blocks, strips, or similar building parts to be assembled without the use of additional elements provided with complementary holes, grooves, or protuberances, e.g. dovetails with grooves

Definitions

  • the invention relates to a puzzle building structure, in particular to a building block structure which can be composed of a plurality of different building blocks and different specific forms and specific structures.
  • Puzzle blocks are used by players to form a variety of specific forms or specific structures. They provide players with entertainment and train their brains through the process of combination. They are often used in the development of children's brains and the brainstorming of adults. In order to be suitable for all ages, there are many types of puzzle blocks on the market, and the variability and difficulty are different. Different building blocks can be combined into different specific forms and specific structures. Therefore, there are still many building block forms and combined structures to be developed, so that more building blocks can be created and can be used for entertainment.
  • the building blocks based on different geometric shapes can be combined to form a specific shape and a specific structure, thereby providing entertainment and learning for the player.
  • the inventors devoted themselves to research and invented a new type of building block, and the present invention was produced.
  • the solution of the present invention is:
  • a puzzle building structure is provided with a first groove and a second groove of the same size for a rectangular parallelepiped, the width of the rectangular parallelepiped is equal to the height of the rectangular parallelepiped, and the length of the rectangular parallelepiped is six times the width of the rectangular parallelepiped, the foregoing
  • the widths of the first groove and the second groove are respectively equal to the width of the rectangular parallelepiped, and the depths of the first groove and the second groove are respectively half of the height of the rectangular parallelepiped, the first groove and the second concave
  • the length of the groove is one-third of the length of the rectangular parallelepiped, and the first groove and the second groove are symmetrically located on the same side of the rectangular parallelepiped, and the distance between the first groove and the second groove is equal to the cuboid width.
  • a leading end of the rectangular parallelepiped is provided with a lead angle, and a lead angle C of the leading angle is between 0.082 times and 0.0845 times the width of the rectangular parallelepiped.
  • a leading end of the rectangular parallelepiped is provided with a lead angle
  • a side end of the first groove and the second groove are respectively provided with a rounded corner
  • a lead angle C of the leading angle is a rectangular parallelepiped From 0.06 times to 0.0625 times the width, the rounded corner amount R of the aforementioned rounded corner is 0.04 times the width of the rectangular parallelepiped.
  • the side end of the rectangular parallelepiped is provided with a first lead angle
  • the side ends of the first groove and the second groove are respectively provided with a second lead angle
  • the guide of the first lead angle of the rectangular parallelepiped The angular amount C is 0.06 times to 0.0625 times the width of the rectangular parallelepiped
  • the lead angle amount C of the second guiding angle of the first groove and the second groove is 0.021 times to 0.0235 of the width of the rectangular parallelepiped. Times.
  • a puzzle building structure is provided with a first groove, a second groove and a third groove of the same size for a rectangular parallelepiped, the width of the rectangular parallelepiped is equal to the height of the rectangular parallelepiped, and the length of the rectangular parallelepiped is the width of the rectangular parallelepiped
  • the width of the rectangular parallelepiped is equal to the height of the rectangular parallelepiped
  • the length of the rectangular parallelepiped is the width of the rectangular parallelepiped
  • the depths of the first groove, the second groove and the third groove are respectively
  • the lengths of the first groove, the second groove and the third groove are respectively two-ninths of the length of the rectangular parallelepiped, the first groove, the second groove and the foregoing
  • the third groove is symmetrically located on the same side of the rectangular parallelepiped, and the distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, and the distance between the second groove and the third groove is equal to the width of the rectangular parallele
  • a leading end of the rectangular parallelepiped is provided with a lead angle, and a lead angle C of the leading angle is between 0.082 times and 0.0845 times the width of the rectangular parallelepiped.
  • a leading end of the rectangular parallelepiped is provided with a lead angle
  • a side end of the first groove, the second groove and the third groove are respectively provided with a rounded corner
  • the leading angle of the leading angle The amount C is 0.06 times to 0.0625 times the width of the rectangular parallelepiped
  • the rounded corner amount R of the rounded corner is 0.04 times the width of the rectangular parallelepiped.
  • the side end of the rectangular parallelepiped is provided with a first lead angle
  • the side ends of the first groove, the second groove and the third groove are respectively provided with a second lead angle
  • the rectangular parallelepiped The amount of guide angle C of the first lead angle is 0.06 times to 0.0625 times the width of the cuboid, and the guide of the second guide angle of the first groove, the second groove and the third groove
  • the angular amount C is 0.021 times to 0.0235 times the width of the rectangular parallelepiped.
  • a puzzle building structure is provided with a first groove, a second groove, a third groove and a fourth groove of the same size for a rectangular parallelepiped, the height of the rectangular parallelepiped being twice the width of the rectangular parallelepiped And the length of the rectangular parallelepiped is six times the width of the rectangular parallelepiped, and the widths of the first groove, the second groove, the third groove and the fourth groove are respectively equal to the width of the rectangular parallelepiped, and the first The depth of the groove, the second groove, the third groove and the fourth groove are respectively a quarter of the height of the rectangular parallelepiped, the first groove, the second groove, and the third groove And the length of the fourth groove is one-third of the length of the rectangular parallelepiped, and the first groove, the second groove, the third groove and the fourth groove are respectively symmetrically located corresponding to the rectangular parallelepiped.
  • the two sides, and the distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, and the distance between the third
  • a puzzle building block having a first groove, a second groove, a third groove, a fourth groove, a fifth groove and a sixth groove of the same size for a rectangular parallelepiped
  • the height of the rectangular parallelepiped is twice the width of the rectangular parallelepiped, and the length of the rectangular parallelepiped is nine times the width of the rectangular parallelepiped
  • the first groove, the second groove, the third groove, and the fourth groove are The widths of the fifth groove and the sixth groove are respectively equal to the width of the rectangular parallelepiped, and the first groove, the second groove, the third groove, the fourth groove, and the fifth groove
  • the sixth recess has a depth of one quarter of a height of the rectangular parallelepiped, the first recess, the second recess, the third recess, the fourth recess, the fifth recess, and the foregoing
  • the length of the sixth groove is respectively two-ninths of the length of the rectangular parallelepiped, the first groove, the second groove, the third
  • the present invention provides a new type of building block, and the new type of building block combines a new specific form and a specific structure for the player to learn and entertain.
  • Figure 1 is a schematic view showing a building block 1 of a preferred embodiment
  • Figure 2 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment using a guide angle
  • Figure 3 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment in a preferred embodiment
  • Figure 4 is a schematic view showing the second embodiment of the building block of the preferred embodiment
  • Figure 5 is a schematic view showing the combination of a plurality of blocks in a preferred embodiment using a guide angle
  • Figure 6 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment in a preferred embodiment
  • Figure 7 is a schematic view showing the third embodiment of the building block of the preferred embodiment.
  • Figure 8 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment in a preferred embodiment
  • Figure 9 is a schematic view showing the building block configuration 4 of the preferred embodiment.
  • Figure 10 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment.
  • a preferred embodiment of the present invention is a puzzle building 1 configuration.
  • a rectangular parallelepiped 11 is provided with a first recess 12 and a second recess 13 of the same size.
  • the width of the rectangular parallelepiped 11 is equal to the height of the rectangular parallelepiped 11, and the length of the rectangular parallelepiped 11 is six times the width of the rectangular parallelepiped 11, the foregoing
  • the width of a groove 12 and the second groove 13 are respectively equal to the width of the rectangular parallelepiped, and the depths of the first groove 12 and the second groove 13 are respectively half of the height of the rectangular parallelepiped 11, and the first groove 12 is
  • the length of the second groove 13 is one-third of the length of the rectangular parallelepiped 11, and the first groove 12 and the second groove 13 are symmetrically located on the same side of the rectangular parallelepiped 11, and the first groove 12 and The distance between the second grooves 13 is equal to the width of the rectangular parallelepiped 11.
  • the width of the rectangular parallelepiped 11 is represented by X, the height is represented by Y, and the length is represented by Z. Further, the end of the rectangular parallelepiped 11 is provided with a lead angle.
  • the rectangular parallelepiped 11 The leading end is provided with a lead angle, and the lead angle C of the leading angle is between 0.082 times and 0.0845 times the width of the rectangular parallelepiped 11; or the side end of the rectangular parallelepiped 11 is provided with a lead angle, the first The edge of the groove 12 and the second groove 13 are respectively provided with rounded corners, and the amount of lead C of the aforementioned lead angle is 0.06 times to 0.0625 times of the width of the rectangular parallelepiped 11
  • the rounding amount R is 0.04 times the width of the rectangular parallelepiped 11; or alternatively, the side end of the rectangular parallelepiped 11 is provided with a first guiding angle, and the edge of the first groove 12 and the second groove 13
  • the second guide angle is respectively provided, and the lead angle C of the
  • a puzzle block 1A structure is provided with a first recess 12A, a second recess 13A and a third recess 14A of the same size for a rectangular parallelepiped 11A, and the rectangular parallelepiped 11A
  • the width is equal to the height of the rectangular parallelepiped 11A
  • the length of the rectangular parallelepiped 11A is nine times the width of the rectangular parallelepiped 11A
  • the widths of the first groove 12A, the second groove 13A and the third groove 14A are respectively equal to the width of the rectangular parallelepiped 11A.
  • the depths of the first groove 12A, the second groove 13A and the third groove 14A are respectively half of the height of the rectangular parallelepiped 11A, and the first groove 12A, the second groove 13A and the third recess
  • the length of the groove 14A is two-ninths of the length of the rectangular parallelepiped 11A, and the first groove 12A, the second groove 13A and the third groove 14A are symmetrically located on the same side of the rectangular parallelepiped 11A, and the first groove
  • the distance between the 12A and the second groove 13A is equal to the width of the rectangular parallelepiped 11A
  • the distance between the second groove 13A and the third groove 14A is equal to the width of the rectangular parallelepiped 11A
  • the width of the rectangular parallelepiped 11A is represented by X and the height is represented by Y.
  • the length is represented by Z, this
  • the side end of the rectangular parallelepiped 11A is provided with a lead angle. Further, the side end of the rectangular parallelepiped 11A is provided with a lead angle, and the lead angle C of the lead angle is 0.082 times to 0.0845 times the width of the rectangular parallelepiped 11A. Or, the side end of the rectangular parallelepiped 11A is provided with a lead angle, and the side ends of the first groove 12A, the second groove 13A and the third groove 14A are respectively provided with rounded corners.
  • the lead angle C of the lead angle is 0.06 times to 0.0625 times the width of the rectangular parallelepiped 11A, and the rounded corner amount R of the rounded corner is 0.04 times the width of the rectangular parallelepiped 11A; or alternatively, the rectangular parallelepiped
  • the edge of the 11A is provided with a first lead angle, and the side ends of the first groove 12A, the second groove 13A and the third groove 14A are respectively provided with a second lead angle, and the rectangular parallelepiped 11A
  • the lead angle amount C of the first lead angle is 0.06 times to 0.0625 times the width of the rectangular parallelepiped 11A, and the first groove 12A, the second groove 13A, and the second groove 14A are second.
  • the lead angle C of the lead angle is 0.021 times to 0.0235 times the width of the rectangular parallelepiped 11A, and the blocks 1A are combined into a special shape by the above three kinds of lead angles. State (as shown in Figure 5).
  • a puzzle block 1B structure is provided with a first recess 12B, a second recess 13B, a third recess 14B and a fourth recess of the same size for a rectangular parallelepiped 11B.
  • the height of the rectangular parallelepiped 11B is twice the width of the rectangular parallelepiped 11B
  • the length of the rectangular parallelepiped 11B is six times the width of the rectangular parallelepiped 11B, the first groove 12B, the second groove 13B, and the third concave surface.
  • the width of the groove 14B and the fourth groove 15B are respectively equal to the width of the rectangular parallelepiped 11B, and the depths of the first groove 12B, the second groove 13B, the third groove 14B and the fourth groove 15B are respectively.
  • the length of the first groove 12B, the second groove 13B, the third groove 14B, and the fourth groove 15B is a third of the length of the rectangular parallelepiped 11B, which is a quarter of the height of the rectangular parallelepiped 11B.
  • the first groove 12B, the second groove 13B, the third groove 14B, and the fourth groove 15B are respectively symmetrically located on opposite sides of the rectangular parallelepiped 11B, and the first groove 12B and the second groove
  • the distance between the grooves 13B is equal to the width of the rectangular parallelepiped 11B
  • the third groove 14B The fourth groove 15B is spaced apart by a distance equal to the width of the rectangular parallelepiped 11B.
  • the side end of the rectangular parallelepiped 11B is provided with a lead angle for helping the assembly process of the building block 1B to be smoother and preventing the building block 1B from being sharp.
  • the width of the rectangular parallelepiped 11B is represented by X
  • the height is represented by Y
  • the length is represented by Z.
  • FIG. 9 is a puzzle building block 1C structure.
  • a rectangular parallelepiped 11C is provided with a first groove 12C, a second groove 13C, a third groove 14C and a fourth recess of the same size.
  • a groove 15C, a fifth groove 16C and a sixth groove 17C wherein the height of the rectangular parallelepiped 11C is twice the width of the rectangular parallelepiped 11C, and the length of the rectangular parallelepiped 11C is nine times the width of the rectangular parallelepiped 11C, the first concave
  • the width of the groove 12C, the second groove 13C, the third groove 14C, the fourth groove 15C, the fifth groove 16C and the sixth groove 17C are respectively equal to the width of the rectangular parallelepiped 11C, and the foregoing
  • the depths of a groove 12C, the aforementioned second groove 13C, the third groove 14C, the fourth groove 15C, the fifth groove 16C and the sixth groove 17C are respectively four points of the height of the rectangular parallele
  • the length of the first groove 12C, the second groove 13C, the third groove 14C, the fourth groove 15C, the fifth groove 16C and the sixth groove 17C are respectively rectangular parallelepiped 11C.
  • Two-thirds of the length, the first groove 12C, the second groove 13C, and the third The groove 14C and the fourth groove 15C, the fifth groove 16C, and the sixth groove 17C are respectively symmetrically located on opposite sides of the rectangular parallelepiped 11C, and the distance between the first groove 12C and the second groove 13C Equal to the width of the rectangular parallelepiped 11C
  • the distance between the second groove 13C and the third groove 14C is equal to the width of the rectangular parallelepiped 11C
  • the distance between the fourth groove 15C and the fifth groove 16C is equal to the width of the rectangular parallelepiped 11C
  • the distance between the 16C and the sixth recess 17C is equal to the width of the rectangular parallelepiped 11C.
  • the edge of the rectangular parallelepiped 11C is provided with a lead angle to help the assembly process of the building block 1C to be smoother and prevent the building block 1C from being generated.
  • the width of the rectangular parallelepiped 11C is represented by X
  • the height is represented by Y
  • the length is represented by Z.

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Abstract

An intelligence building block (1) construction is a cuboid (11) provided with a first groove (12) and a second groove (13) having the same size. The width of the cuboid (11) is equal to the height of the cuboid (11). The length of the cuboid (11) is six times the width of the cuboid (11). The width of the first groove (12) and the width of the second groove (13) are both equal to the width of the cuboid (11). The depth of the first groove (12) and the depth of the second groove (13) are both half of the height of the cuboid (11). The length of the first groove (12) and the length of the second groove (13) both each one third of the length of the cuboid (11). The first groove (12) and the second groove (13) are located symmetrically at the same side of the cuboid (11). A distance between the first groove (12) and the second groove (13) is equal to the width of the cuboid (11). In the present invention, a new building block is provided, and the new building block is used to obtain new specific shapes and specific structures through combination, for a player to study and entertain.

Description

一种益智积木构造 Puzzle building structure 技术领域Technical field
本发明涉及一种益智积木构造,尤指一种可由复数个积木组成各种不同的特定形态及特定结构的积木构造。  The invention relates to a puzzle building structure, in particular to a building block structure which can be composed of a plurality of different building blocks and different specific forms and specific structures.
背景技术Background technique
益智积木系用以供玩家组合,而得以形成各种特定形态或特定结构,透过组合过程中提供玩家娱乐并训练脑力,而常用于小孩子脑力的开发,及成年人的脑力激荡,系为适合各种年龄层使用的益智物品,市面上的益智积木种类非常的多,其变化性及难易度也不相同,不同的积木构造即可组合成不同的特定形态及特定构造,因此还有很多积木形态及组合结构有待发展,以至于可创作出更多的积木形态,而可供玩家娱乐。Puzzle blocks are used by players to form a variety of specific forms or specific structures. They provide players with entertainment and train their brains through the process of combination. They are often used in the development of children's brains and the brainstorming of adults. In order to be suitable for all ages, there are many types of puzzle blocks on the market, and the variability and difficulty are different. Different building blocks can be combined into different specific forms and specific structures. Therefore, there are still many building block forms and combined structures to be developed, so that more building blocks can be created and can be used for entertainment.
因此,基于不同几何形状的积木经过组合可形成特定形态及特定结构,而得以提供玩家娱乐及学习,本发明人致力于研究,而发明一种新式积木,本案由此产生。Therefore, the building blocks based on different geometric shapes can be combined to form a specific shape and a specific structure, thereby providing entertainment and learning for the player. The inventors devoted themselves to research and invented a new type of building block, and the present invention was produced.
发明内容Summary of the invention
本发明的目的在于提供一种新式积木,并透过新式积木组合出新式特定形态及特定结构。为达成上述目的,本发明的解决方案为:It is an object of the present invention to provide a new type of building block and to combine a new specific form and a specific structure through a new type of building block. To achieve the above object, the solution of the present invention is:
为达成上述目的,本发明的解决方案为:To achieve the above object, the solution of the present invention is:
一种益智积木构造,为一长方体设有相同大小的一第一凹槽及一第二凹槽,前述长方体的宽度等于长方体的高度,且前述长方体的长度为长方体的宽度的六倍,前述第一凹槽及前述第二凹槽的宽度分别等于前述长方体的宽度,前述第一凹槽及前述第二凹槽的深度分别为长方体的高度的一半,前述第一凹槽及前述第二凹槽的长度分别为长方体的长度的三分之一,前述第一凹槽及前述第二凹槽系对称位于前述长方体的同一面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度。A puzzle building structure is provided with a first groove and a second groove of the same size for a rectangular parallelepiped, the width of the rectangular parallelepiped is equal to the height of the rectangular parallelepiped, and the length of the rectangular parallelepiped is six times the width of the rectangular parallelepiped, the foregoing The widths of the first groove and the second groove are respectively equal to the width of the rectangular parallelepiped, and the depths of the first groove and the second groove are respectively half of the height of the rectangular parallelepiped, the first groove and the second concave The length of the groove is one-third of the length of the rectangular parallelepiped, and the first groove and the second groove are symmetrically located on the same side of the rectangular parallelepiped, and the distance between the first groove and the second groove is equal to the cuboid width.
进一步,所述长方体的边端设有导角,前述导角的导角量C介于所述长方体的宽度的0.082倍至0.0845倍之间。Further, a leading end of the rectangular parallelepiped is provided with a lead angle, and a lead angle C of the leading angle is between 0.082 times and 0.0845 times the width of the rectangular parallelepiped.
进一步,所述长方体的边端设有导角,所述第一凹槽及所述第二凹槽的边端分别设有导圆角,而前述导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,前述导圆角的导圆角量R为所述长方体的宽度的0.04倍。Further, a leading end of the rectangular parallelepiped is provided with a lead angle, and a side end of the first groove and the second groove are respectively provided with a rounded corner, and a lead angle C of the leading angle is a rectangular parallelepiped From 0.06 times to 0.0625 times the width, the rounded corner amount R of the aforementioned rounded corner is 0.04 times the width of the rectangular parallelepiped.
进一步,所述长方体的边端设有第一导角,所述第一凹槽及所述第二凹槽的边端分别设有第二导角,而所述长方体的第一导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,所述第一凹槽及所述第二凹槽的第二导角的导角量C为所述长方体的宽度的0.021倍至0.0235倍。Further, the side end of the rectangular parallelepiped is provided with a first lead angle, and the side ends of the first groove and the second groove are respectively provided with a second lead angle, and the guide of the first lead angle of the rectangular parallelepiped The angular amount C is 0.06 times to 0.0625 times the width of the rectangular parallelepiped, and the lead angle amount C of the second guiding angle of the first groove and the second groove is 0.021 times to 0.0235 of the width of the rectangular parallelepiped. Times.
一种益智积木构造,为一长方体设有相同大小的一第一凹槽、一第二凹槽及一第三凹槽,前述长方体的宽度等于长方体的高度,前述长方体的长度为长方体的宽度的九倍,前述第一凹槽、前述第二凹槽及前述第三凹槽的宽度分别等于前述长方体的宽度,前述第一凹槽、前述第二凹槽及前述第三凹槽的深度分别为长方体的高度的一半,前述第一凹槽、前述第二凹槽及前述第三凹槽的长度分别为长方体的长度的九分之二,前述第一凹槽、前述第二凹槽及前述第三凹槽对称位于前述长方体的同一面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度,而第二凹槽及第三凹槽相距的距离等于长方体的宽度。A puzzle building structure is provided with a first groove, a second groove and a third groove of the same size for a rectangular parallelepiped, the width of the rectangular parallelepiped is equal to the height of the rectangular parallelepiped, and the length of the rectangular parallelepiped is the width of the rectangular parallelepiped Nine times the widths of the first groove, the second groove and the third groove are respectively equal to the width of the rectangular parallelepiped, and the depths of the first groove, the second groove and the third groove are respectively For the half of the height of the rectangular parallelepiped, the lengths of the first groove, the second groove and the third groove are respectively two-ninths of the length of the rectangular parallelepiped, the first groove, the second groove and the foregoing The third groove is symmetrically located on the same side of the rectangular parallelepiped, and the distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, and the distance between the second groove and the third groove is equal to the width of the rectangular parallelepiped.
进一步,所述长方体的边端设有导角,前述导角的导角量C介于所述长方体的宽度的0.082倍至0.0845倍之间。Further, a leading end of the rectangular parallelepiped is provided with a lead angle, and a lead angle C of the leading angle is between 0.082 times and 0.0845 times the width of the rectangular parallelepiped.
进一步,所述长方体的边端设有导角,所述第一凹槽、所述第二凹槽及所述第三凹槽的边端分别设有导圆角,而前述导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,前述导圆角的导圆角量R为所述长方体的宽度的0.04倍。Further, a leading end of the rectangular parallelepiped is provided with a lead angle, and a side end of the first groove, the second groove and the third groove are respectively provided with a rounded corner, and the leading angle of the leading angle The amount C is 0.06 times to 0.0625 times the width of the rectangular parallelepiped, and the rounded corner amount R of the rounded corner is 0.04 times the width of the rectangular parallelepiped.
进一步,所述长方体的边端设有第一导角,所述第一凹槽、所述第二凹槽及所述第三凹槽的边端分别设有第二导角,而所述长方体的第一导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,所述第一凹槽、所述第二凹槽及所述第三凹槽的第二导角的导角量C为所述长方体的宽度的0.021倍至0.0235倍。Further, the side end of the rectangular parallelepiped is provided with a first lead angle, and the side ends of the first groove, the second groove and the third groove are respectively provided with a second lead angle, and the rectangular parallelepiped The amount of guide angle C of the first lead angle is 0.06 times to 0.0625 times the width of the cuboid, and the guide of the second guide angle of the first groove, the second groove and the third groove The angular amount C is 0.021 times to 0.0235 times the width of the rectangular parallelepiped.
一种益智积木构造,为一长方体设有相同大小的一第一凹槽、一第二凹槽、一第三凹槽及一第四凹槽,前述长方体的高度为长方体的宽度的两倍,且前述长方体的长度为长方体的宽度的六倍,前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽的宽度分别等于前述长方体的宽度,且前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽的深度分别为长方体的高度的四分之一,前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽的长度分别为长方体的长度的三分之一,前述第一凹槽、前述第二凹槽及前述第三凹槽、前述第四凹槽分别对称位于前述长方体的相对应二面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度,第三凹槽及第四凹槽相距的距离等于长方体的宽度。A puzzle building structure is provided with a first groove, a second groove, a third groove and a fourth groove of the same size for a rectangular parallelepiped, the height of the rectangular parallelepiped being twice the width of the rectangular parallelepiped And the length of the rectangular parallelepiped is six times the width of the rectangular parallelepiped, and the widths of the first groove, the second groove, the third groove and the fourth groove are respectively equal to the width of the rectangular parallelepiped, and the first The depth of the groove, the second groove, the third groove and the fourth groove are respectively a quarter of the height of the rectangular parallelepiped, the first groove, the second groove, and the third groove And the length of the fourth groove is one-third of the length of the rectangular parallelepiped, and the first groove, the second groove, the third groove and the fourth groove are respectively symmetrically located corresponding to the rectangular parallelepiped. The two sides, and the distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, and the distance between the third groove and the fourth groove is equal to the width of the rectangular parallelepiped.
一种益智积木构造,为一长方体设有相同大小的一第一凹槽、一第二凹槽、一第三凹槽、一第四凹槽、一第五凹槽及一第六凹槽,前述长方体的高度为长方体的宽度的两倍,且前述长方体的长度为长方体的宽度的九倍,前述第一凹槽、前述第二凹槽、前述第三凹槽、前述第四凹槽、前述第五凹槽及前述第六凹槽的宽度分别等于前述长方体的宽度,且前述第一凹槽、前述第二凹槽、前述第三凹槽、前述第四凹槽、前述第五凹槽及前述第六凹槽的深度分别为长方体的高度的四分之一,前述第一凹槽、前述第二凹槽、前述第三凹槽、前述第四凹槽、前述第五凹槽及前述第六凹槽的长度分别为长方体的长度的九分之二,前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽、前述第五凹槽、前述第六凹槽分别对称位于前述长方体的相对应二面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度,第二凹槽及第三凹槽相距的距离等于长方体的宽度,第四凹槽及第五凹槽相距的距离等于长方体的宽度,第五凹槽及第六凹槽相距的距离等于长方体的宽度。A puzzle building block having a first groove, a second groove, a third groove, a fourth groove, a fifth groove and a sixth groove of the same size for a rectangular parallelepiped The height of the rectangular parallelepiped is twice the width of the rectangular parallelepiped, and the length of the rectangular parallelepiped is nine times the width of the rectangular parallelepiped, and the first groove, the second groove, the third groove, and the fourth groove are The widths of the fifth groove and the sixth groove are respectively equal to the width of the rectangular parallelepiped, and the first groove, the second groove, the third groove, the fourth groove, and the fifth groove And the sixth recess has a depth of one quarter of a height of the rectangular parallelepiped, the first recess, the second recess, the third recess, the fourth recess, the fifth recess, and the foregoing The length of the sixth groove is respectively two-ninths of the length of the rectangular parallelepiped, the first groove, the second groove, the third groove, the fourth groove, the fifth groove, and the sixth The grooves are symmetrically located on the corresponding two sides of the aforementioned rectangular parallelepiped, and The distance between the groove and the second groove is equal to the width of the rectangular parallelepiped, the distance between the second groove and the third groove is equal to the width of the rectangular parallelepiped, and the distance between the fourth groove and the fifth groove is equal to the width of the rectangular parallelepiped, The distance between the five grooves and the sixth groove is equal to the width of the rectangular parallelepiped.
采用上述方案后,本发明提供一种新式积木,通过所述新式积木组合出新式特定形态及特定结构,得以供玩家学习及娱乐。After adopting the above solution, the present invention provides a new type of building block, and the new type of building block combines a new specific form and a specific structure for the player to learn and entertain.
附图说明DRAWINGS
图1为说明较佳实施例的积木构造一的示意图;Figure 1 is a schematic view showing a building block 1 of a preferred embodiment;
图2为说明较佳实施例的复数积木利用导角组合成特定形态的示意图;Figure 2 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment using a guide angle;
图3为说明较佳实施例的复数积木组合成特定形态的示意图;Figure 3 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment in a preferred embodiment;
图4为说明较佳实施例的积木构造二的示意图;Figure 4 is a schematic view showing the second embodiment of the building block of the preferred embodiment;
图5为说明较佳实施例的复数积木利用导角组合成特定形态的示意图;Figure 5 is a schematic view showing the combination of a plurality of blocks in a preferred embodiment using a guide angle;
图6为说明较佳实施例的复数积木组合成特定形态的示意图;Figure 6 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment in a preferred embodiment;
图7为说明较佳实施例的积木构造三的示意图;Figure 7 is a schematic view showing the third embodiment of the building block of the preferred embodiment;
图8为说明较佳实施例的复数积木组合成特定形态的示意图;Figure 8 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment in a preferred embodiment;
图9为说明较佳实施例的积木构造四的示意图;Figure 9 is a schematic view showing the building block configuration 4 of the preferred embodiment;
图10为说明较佳实施例的复数积木组合成特定形态示意图。Figure 10 is a schematic view showing the combination of a plurality of building blocks in a preferred embodiment.
标号说明Label description
积木1长方体11 Building block 1 rectangular parallelepiped 11
第一凹槽12第二凹槽13 First groove 12 second groove 13
积木1A长方体11A Building block 1A cuboid 11A
第一凹槽12A第二凹槽13A First groove 12A second groove 13A
第三凹槽14A Third groove 14A
积木1B长方体11B Building block 1B cuboid 11B
第一凹槽12B第二凹槽13B First groove 12B second groove 13B
第三凹槽14B第四凹槽15B Third groove 14B fourth groove 15B
积木1C长方体11C Building block 1C cuboid 11C
第一凹槽12C第二凹槽13C First groove 12C second groove 13C
第三凹槽14C第四凹槽15C Third groove 14C fourth groove 15C
第五凹槽16C第六凹槽17C Fifth groove 16C sixth groove 17C
具体实施方式detailed description
以下结合附图及具体实施例对本发明做详细的说明。The present invention will be described in detail below with reference to the accompanying drawings and specific embodiments.
有关本发明的技术特征及增进功效,配合附图的较佳实施例即可清楚呈现,首先,请参阅图1所示,本发明的较佳实施例,为一种益智积木1构造,为一长方体11设有相同大小的一第一凹槽12及一第二凹槽13,前述长方体11的宽度等于长方体11的高度,且前述长方体11的长度为长方体11的宽度的六倍,前述第一凹槽12及前述第二凹槽13的宽度分别等于前述长方体的宽度,前述第一凹槽12及前述第二凹槽13的深度分别为长方体11的高度的一半,前述第一凹槽12及前述第二凹槽13的长度分别为长方体11的长度的三分之一,前述第一凹槽12及前述第二凹槽13对称位于前述长方体11的同一面,且第一凹槽12及第二凹槽13相距的距离等于长方体11的宽度,上述长方体11的宽度以X表示、高度以Y表示、长度以Z表示,此外,所述长方体11的边端设有导角,进一步说明,所述长方体11的边端设有导角,前述导角的导角量C介于所述长方体11的宽度的0.082倍至0.0845倍之间;或者,所述长方体11的边端设有导角,所述第一凹槽12及所述第二凹槽13的边端分别设有导圆角,而前述导角的导角量C为所述长方体11的宽度的0.06倍至0.0625倍,前述导圆角的导圆角量R为所述长方体11的宽度的0.04倍;又或者,所述长方体11的边端设有第一导角,所述第一凹槽12及所述第二凹槽13的边端分别设有第二导角,而所述长方体11的第一导角的导角量C为所述长方体11的宽度的0.06倍至0.0625倍,所述第一凹槽12及所述第二凹槽13的第二导角的导角量C为所述长方体11的宽度的0.021倍至0.0235倍,藉由前述三种导角方式得以让所述积木1组合成特殊形态(如图2所示)。The technical features and enhancements of the present invention are clearly shown in conjunction with the preferred embodiments of the drawings. First, referring to FIG. 1, a preferred embodiment of the present invention is a puzzle building 1 configuration. A rectangular parallelepiped 11 is provided with a first recess 12 and a second recess 13 of the same size. The width of the rectangular parallelepiped 11 is equal to the height of the rectangular parallelepiped 11, and the length of the rectangular parallelepiped 11 is six times the width of the rectangular parallelepiped 11, the foregoing The width of a groove 12 and the second groove 13 are respectively equal to the width of the rectangular parallelepiped, and the depths of the first groove 12 and the second groove 13 are respectively half of the height of the rectangular parallelepiped 11, and the first groove 12 is The length of the second groove 13 is one-third of the length of the rectangular parallelepiped 11, and the first groove 12 and the second groove 13 are symmetrically located on the same side of the rectangular parallelepiped 11, and the first groove 12 and The distance between the second grooves 13 is equal to the width of the rectangular parallelepiped 11. The width of the rectangular parallelepiped 11 is represented by X, the height is represented by Y, and the length is represented by Z. Further, the end of the rectangular parallelepiped 11 is provided with a lead angle. The rectangular parallelepiped 11 The leading end is provided with a lead angle, and the lead angle C of the leading angle is between 0.082 times and 0.0845 times the width of the rectangular parallelepiped 11; or the side end of the rectangular parallelepiped 11 is provided with a lead angle, the first The edge of the groove 12 and the second groove 13 are respectively provided with rounded corners, and the amount of lead C of the aforementioned lead angle is 0.06 times to 0.0625 times of the width of the rectangular parallelepiped 11 The rounding amount R is 0.04 times the width of the rectangular parallelepiped 11; or alternatively, the side end of the rectangular parallelepiped 11 is provided with a first guiding angle, and the edge of the first groove 12 and the second groove 13 The second guide angle is respectively provided, and the lead angle C of the first lead angle of the rectangular parallelepiped 11 is 0.06 times to 0.0625 times the width of the rectangular parallelepiped 11, the first groove 12 and the second concave The guide angle amount C of the second lead angle of the groove 13 is 0.021 times to 0.0235 times the width of the rectangular parallelepiped 11, and the three lead angles are used to combine the blocks 1 into a special shape (as shown in FIG. 2). ).
请参阅图3所示,为利用复数个上述积木1组合成特定形态及特定结构,而得以供玩家学习及娱乐。Referring to FIG. 3, in order to utilize a plurality of the above-mentioned building blocks 1 to form a specific form and a specific structure, the player can learn and entertain.
请参阅图4所示,为一种益智积木1A构造,为一长方体11A设有相同大小的一第一凹槽12A、一第二凹槽13A及一第三凹槽14A,前述长方体11A的宽度等于长方体11A的高度,前述长方体11A的长度为长方体11A的宽度的九倍,前述第一凹槽12A、前述第二凹槽13A及前述第三凹槽14A的宽度分别等于前述长方体11A的宽度,前述第一凹槽12A、前述第二凹槽13A及前述第三凹槽14A的深度分别为长方体11A的高度的一半,前述第一凹槽12A、前述第二凹槽13A及前述第三凹槽14A的长度分别为长方体11A的长度的九分之二,前述第一凹槽12A、前述第二凹槽13A及前述第三凹槽14A对称位于前述长方体11A的同一面,且第一凹槽12A及第二凹槽13A相距的距离等于长方体11A的宽度,而第二凹槽13A及第三凹槽14A相距的距离等于长方体11A的宽度,上述长方体11A的宽度以X表示、高度以Y表示、长度以Z表示,此外,所述长方体11A的边端设有导角,进一步说明,所述长方体11A的边端设有导角,前述导角的导角量C介于所述长方体11A的宽度的0.082倍至0.0845倍之间;或者,所述长方体11A的边端设有导角,所述第一凹槽12A、所述第二凹槽13A及所述第三凹槽14A的边端分别设有导圆角,而前述导角的导角量C为所述长方体11A的宽度的0.06倍至0.0625倍,前述导圆角的导圆角量R为所述长方体11A的宽度的0.04倍;又或者,所述长方体11A的边端设有第一导角,所述第一凹槽12A、所述第二凹槽13A及所述第三凹槽14A的边端分别设有第二导角,而所述长方体11A的第一导角的导角量C为所述长方体11A的宽度的0.06倍至0.0625倍,所述第一凹槽12A、所述第二凹槽13A及所述第三凹槽14A的第二导角的导角量C为所述长方体11A的宽度的0.021倍至0.0235倍,藉由前述三种导角方式得以让所述积木1A组合成特殊形态(如图5所示)。Referring to FIG. 4, a puzzle block 1A structure is provided with a first recess 12A, a second recess 13A and a third recess 14A of the same size for a rectangular parallelepiped 11A, and the rectangular parallelepiped 11A The width is equal to the height of the rectangular parallelepiped 11A, the length of the rectangular parallelepiped 11A is nine times the width of the rectangular parallelepiped 11A, and the widths of the first groove 12A, the second groove 13A and the third groove 14A are respectively equal to the width of the rectangular parallelepiped 11A. The depths of the first groove 12A, the second groove 13A and the third groove 14A are respectively half of the height of the rectangular parallelepiped 11A, and the first groove 12A, the second groove 13A and the third recess The length of the groove 14A is two-ninths of the length of the rectangular parallelepiped 11A, and the first groove 12A, the second groove 13A and the third groove 14A are symmetrically located on the same side of the rectangular parallelepiped 11A, and the first groove The distance between the 12A and the second groove 13A is equal to the width of the rectangular parallelepiped 11A, and the distance between the second groove 13A and the third groove 14A is equal to the width of the rectangular parallelepiped 11A, and the width of the rectangular parallelepiped 11A is represented by X and the height is represented by Y. , the length is represented by Z, this The side end of the rectangular parallelepiped 11A is provided with a lead angle. Further, the side end of the rectangular parallelepiped 11A is provided with a lead angle, and the lead angle C of the lead angle is 0.082 times to 0.0845 times the width of the rectangular parallelepiped 11A. Or, the side end of the rectangular parallelepiped 11A is provided with a lead angle, and the side ends of the first groove 12A, the second groove 13A and the third groove 14A are respectively provided with rounded corners. The lead angle C of the lead angle is 0.06 times to 0.0625 times the width of the rectangular parallelepiped 11A, and the rounded corner amount R of the rounded corner is 0.04 times the width of the rectangular parallelepiped 11A; or alternatively, the rectangular parallelepiped The edge of the 11A is provided with a first lead angle, and the side ends of the first groove 12A, the second groove 13A and the third groove 14A are respectively provided with a second lead angle, and the rectangular parallelepiped 11A The lead angle amount C of the first lead angle is 0.06 times to 0.0625 times the width of the rectangular parallelepiped 11A, and the first groove 12A, the second groove 13A, and the second groove 14A are second. The lead angle C of the lead angle is 0.021 times to 0.0235 times the width of the rectangular parallelepiped 11A, and the blocks 1A are combined into a special shape by the above three kinds of lead angles. State (as shown in Figure 5).
请参阅图6所示,为利用复数个上述积木1A组合成特定形态及特定结构,而得以供玩家学习及娱乐。Referring to FIG. 6, in order to combine a plurality of the above-mentioned building blocks 1A into a specific form and a specific structure, the player can learn and entertain.
请参阅图7所示,为一种益智积木1B构造,为一长方体11B设有相同大小的一第一凹槽12B、一第二凹槽13B、一第三凹槽14B及一第四凹槽15B,前述长方体11B的高度为长方体11B的宽度的两倍,且前述长方体11B的长度为长方体11B的宽度的六倍,前述第一凹槽12B、前述第二凹槽13B、前述第三凹槽14B及前述第四凹槽15B的宽度分别等于前述长方体11B的宽度,且前述第一凹槽12B、前述第二凹槽13B、前述第三凹槽14B及前述第四凹槽15B的深度分别为长方体11B的高度的四分之一,前述第一凹槽12B、前述第二凹槽13B、前述第三凹槽14B及前述第四凹槽15B的长度分别为长方体11B的长度的三分之一,前述第一凹槽12B、前述第二凹槽13B及前述第三凹槽14B、前述第四凹槽15B分别对称位于前述长方体11B的相对应二面,且第一凹槽12B及第二凹槽13B相距的距离等于长方体11B的宽度,第三凹槽14B及第四凹槽15B相距的距离等于长方体11B的宽度,此外,所述长方体11B的边端设有导角,系用以帮助所述积木1B组合过程更顺利,及防止所述积木1B产生尖角而有伤人的疑虑,上述长方体11B的宽度以X表示、高度以Y表示、长度以Z表示。Referring to FIG. 7 , a puzzle block 1B structure is provided with a first recess 12B, a second recess 13B, a third recess 14B and a fourth recess of the same size for a rectangular parallelepiped 11B. In the groove 15B, the height of the rectangular parallelepiped 11B is twice the width of the rectangular parallelepiped 11B, and the length of the rectangular parallelepiped 11B is six times the width of the rectangular parallelepiped 11B, the first groove 12B, the second groove 13B, and the third concave surface. The width of the groove 14B and the fourth groove 15B are respectively equal to the width of the rectangular parallelepiped 11B, and the depths of the first groove 12B, the second groove 13B, the third groove 14B and the fourth groove 15B are respectively The length of the first groove 12B, the second groove 13B, the third groove 14B, and the fourth groove 15B is a third of the length of the rectangular parallelepiped 11B, which is a quarter of the height of the rectangular parallelepiped 11B. The first groove 12B, the second groove 13B, the third groove 14B, and the fourth groove 15B are respectively symmetrically located on opposite sides of the rectangular parallelepiped 11B, and the first groove 12B and the second groove The distance between the grooves 13B is equal to the width of the rectangular parallelepiped 11B, and the third groove 14B The fourth groove 15B is spaced apart by a distance equal to the width of the rectangular parallelepiped 11B. Further, the side end of the rectangular parallelepiped 11B is provided with a lead angle for helping the assembly process of the building block 1B to be smoother and preventing the building block 1B from being sharp. There is a concern of the wounded that the width of the rectangular parallelepiped 11B is represented by X, the height is represented by Y, and the length is represented by Z.
请参阅图8所示,为利用复数个上述积木1B组合成特定形态及特定结构,而得以供玩家学习及娱乐。Referring to FIG. 8, in order to combine a plurality of the above-mentioned building blocks 1B into a specific form and a specific structure, the player can learn and entertain.
请参阅图9所示,为一种益智积木1C构造,为一长方体11C设有相同大小的一第一凹槽12C、一第二凹槽13C、一第三凹槽14C、一第四凹槽15C、一第五凹槽16C及一第六凹槽17C,前述长方体11C的高度为长方体11C的宽度的两倍,且前述长方体11C的长度为长方体11C的宽度的九倍,前述第一凹槽12C、前述第二凹槽13C、前述第三凹槽14C、前述第四凹槽15C、前述第五凹槽16C及前述第六凹槽17C的宽度分别等于前述长方体11C的宽度,且前述第一凹槽12C、前述第二凹槽13C、前述第三凹槽14C、前述第四凹槽15C、前述第五凹槽16C及前述第六凹槽17C的深度分别为长方体11C的高度的四分之一,前述第一凹槽12C、前述第二凹槽13C、前述第三凹槽14C、前述第四凹槽15C、前述第五凹槽16C及前述第六凹槽17C的长度分别为长方体11C的长度的九分之二,前述第一凹槽12C、前述第二凹槽13C、前述第三凹槽14C及前述第四凹槽15C、前述第五凹槽16C、前述第六凹槽17C分别对称位于前述长方体11C的相对应二面,且第一凹槽12C及第二凹槽13C相距的距离等于长方体11C的宽度,第二凹槽13C及第三凹槽14C相距的距离等于长方体11C的宽度,第四凹槽15C及第五凹槽16C相距的距离等于长方体11C的宽度,第五凹槽16C及第六凹槽17C相距的距离等于长方体11C的宽度,此外,所述长方体11C的边端设有导角,系用以帮助所述积木1C组合过程更顺利,及防止所述积木1C产生尖角而有伤人的疑虑,上述长方体11C的宽度以X表示、高度以Y表示、长度以Z表示。Please refer to FIG. 9 , which is a puzzle building block 1C structure. A rectangular parallelepiped 11C is provided with a first groove 12C, a second groove 13C, a third groove 14C and a fourth recess of the same size. a groove 15C, a fifth groove 16C and a sixth groove 17C, wherein the height of the rectangular parallelepiped 11C is twice the width of the rectangular parallelepiped 11C, and the length of the rectangular parallelepiped 11C is nine times the width of the rectangular parallelepiped 11C, the first concave The width of the groove 12C, the second groove 13C, the third groove 14C, the fourth groove 15C, the fifth groove 16C and the sixth groove 17C are respectively equal to the width of the rectangular parallelepiped 11C, and the foregoing The depths of a groove 12C, the aforementioned second groove 13C, the third groove 14C, the fourth groove 15C, the fifth groove 16C and the sixth groove 17C are respectively four points of the height of the rectangular parallelepiped 11C. The length of the first groove 12C, the second groove 13C, the third groove 14C, the fourth groove 15C, the fifth groove 16C and the sixth groove 17C are respectively rectangular parallelepiped 11C. Two-thirds of the length, the first groove 12C, the second groove 13C, and the third The groove 14C and the fourth groove 15C, the fifth groove 16C, and the sixth groove 17C are respectively symmetrically located on opposite sides of the rectangular parallelepiped 11C, and the distance between the first groove 12C and the second groove 13C Equal to the width of the rectangular parallelepiped 11C, the distance between the second groove 13C and the third groove 14C is equal to the width of the rectangular parallelepiped 11C, and the distance between the fourth groove 15C and the fifth groove 16C is equal to the width of the rectangular parallelepiped 11C, and the fifth groove The distance between the 16C and the sixth recess 17C is equal to the width of the rectangular parallelepiped 11C. In addition, the edge of the rectangular parallelepiped 11C is provided with a lead angle to help the assembly process of the building block 1C to be smoother and prevent the building block 1C from being generated. There is a concern about the sharp corners, and the width of the rectangular parallelepiped 11C is represented by X, the height is represented by Y, and the length is represented by Z.
请参阅图10所示,为利用复数个上述积木1C组合成特定形态及特定结构,而得以供玩家学习及娱乐。Referring to FIG. 10, in order to combine a plurality of the above-mentioned building blocks 1C into a specific form and a specific structure, the player can learn and entertain.
以上所述仅为本发明的较佳实施例,当不能以此限定本发明实施的范围,即依本发明权利要求及发明说明内容所作简单的等效变化与修饰,皆属本发明专利涵盖的范围内。The above is only the preferred embodiment of the present invention, and the scope of the present invention is not limited thereto, that is, the simple equivalent changes and modifications according to the claims and the description of the invention are covered by the present invention. Within the scope.

Claims (10)

1、一种益智积木构造,其特征在于:为一长方体设有相同大小的一第一凹槽及一第二凹槽,前述长方体的宽度等于长方体的高度,且前述长方体的长度为长方体的宽度的六倍,前述第一凹槽及前述第二凹槽的宽度分别等于前述长方体的宽度,前述第一凹槽及前述第二凹槽的深度分别为长方体的高度的一半,前述第一凹槽及前述第二凹槽的长度分别为长方体的长度的三分之一,前述第一凹槽及前述第二凹槽系对称位于前述长方体的同一面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度。 A puzzle building structure, characterized in that a rectangular parallelepiped is provided with a first groove and a second groove of the same size, the width of the rectangular parallelepiped is equal to the height of the rectangular parallelepiped, and the length of the rectangular parallelepiped is cuboid Six times the width, the widths of the first groove and the second groove are respectively equal to the width of the rectangular parallelepiped, and the depths of the first groove and the second groove are respectively half of the height of the rectangular parallelepiped, the first concave The length of the groove and the second groove are respectively one-third of the length of the rectangular parallelepiped, and the first groove and the second groove are symmetrically located on the same side of the rectangular parallelepiped, and the first groove and the second groove are respectively The distance between the distances is equal to the width of the cuboid.
2、如权利要求1所述的一种益智积木构造,其特征在于:所述长方体的边端设有导角,前述导角的导角量C介于所述长方体的宽度的0.082倍至0.0845倍之间。2. The puzzle building structure according to claim 1, wherein a corner of the rectangular parallelepiped is provided with a lead angle, and the amount of lead C of the leading angle is 0.082 times the width of the rectangular parallelepiped. Between 0.0845 times.
3、如权利要求1所述的一种益智积木构造,其特征在于:所述长方体的边端设有导角,所述第一凹槽及所述第二凹槽的边端分别设有导圆角,而前述导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,前述导圆角的导圆角量R为所述长方体的宽度的0.04倍。The puzzle building structure according to claim 1, wherein the side end of the rectangular parallelepiped is provided with a lead angle, and the side ends of the first groove and the second groove are respectively provided. The rounded corner is obtained, and the lead angle C of the aforementioned lead angle is 0.06 times to 0.0625 times the width of the rectangular parallelepiped, and the rounded corner amount R of the rounded corner is 0.04 times the width of the rectangular parallelepiped.
4、如权利要求1所述的一种益智积木构造,其特征在于:所述长方体的边端设有第一导角,所述第一凹槽及所述第二凹槽的边端分别设有第二导角,而所述长方体的第一导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,所述第一凹槽及所述第二凹槽的第二导角的导角量C为所述长方体的宽度的0.021倍至0.0235倍。The puzzle building structure according to claim 1, wherein the side end of the rectangular parallelepiped is provided with a first guiding angle, and the edges of the first groove and the second groove are respectively respectively a second lead angle is provided, and the lead angle C of the first lead angle of the rectangular parallelepiped is 0.06 times to 0.0625 times the width of the rectangular parallelepiped, and the first groove and the second groove are second The amount of lead angle C of the lead angle is 0.021 times to 0.0235 times the width of the cuboid.
5、一种益智积木构造,其特征在于:为一长方体设有相同大小的一第一凹槽、一第二凹槽及一第三凹槽,前述长方体的宽度等于长方体的高度,前述长方体的长度为长方体的宽度的九倍,前述第一凹槽、前述第二凹槽及前述第三凹槽的宽度分别等于前述长方体的宽度,前述第一凹槽、前述第二凹槽及前述第三凹槽的深度分别为长方体的高度的一半,前述第一凹槽、前述第二凹槽及前述第三凹槽的长度分别为长方体的长度的九分之二,前述第一凹槽、前述第二凹槽及前述第三凹槽对称位于前述长方体的同一面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度,而第二凹槽及第三凹槽相距的距离等于长方体的宽度。5 . A puzzle building structure, characterized in that: a rectangular parallelepiped having a first groove, a second groove and a third groove of the same size, the width of the rectangular parallelepiped being equal to the height of the rectangular parallelepiped, the rectangular parallelepiped The length of the first groove, the second groove and the third groove are respectively equal to the width of the rectangular parallelepiped, the first groove, the second groove and the foregoing The depths of the three grooves are respectively half of the height of the rectangular parallelepiped, and the lengths of the first groove, the second groove and the third groove are respectively two-ninths of the length of the rectangular parallelepiped, the first groove, the aforementioned The second groove and the third groove are symmetrically located on the same side of the rectangular parallelepiped, and the distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, and the distance between the second groove and the third groove is equal to The width of the cuboid.
6、如权利要求5所述的一种益智积木构造,其特征在于:所述长方体的边端设有导角,前述导角的导角量C介于所述长方体的宽度的0.082倍至0.0845倍之间。The puzzle building structure according to claim 5, wherein the side end of the rectangular parallelepiped is provided with a lead angle, and the lead angle C of the leading angle is 0.082 times the width of the rectangular parallelepiped. Between 0.0845 times.
7、如权利要求5所述的一种益智积木构造,其特征在于:所述长方体的边端设有导角,所述第一凹槽、所述第二凹槽及所述第三凹槽的边端分别设有导圆角,而前述导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,前述导圆角的导圆角量R为所述长方体的宽度的0.04倍。The puzzle building structure according to claim 5, wherein the side end of the rectangular parallelepiped is provided with a lead angle, the first groove, the second groove and the third concave The edge ends of the grooves are respectively provided with rounded corners, and the lead angle C of the aforementioned lead angle is 0.06 times to 0.0625 times the width of the rectangular parallelepiped, and the rounding amount R of the rounded corners is the width of the rectangular parallelepiped. 0.04 times.
8、如权利要求5所述的一种益智积木构造,其特征在于:所述长方体的边端设有第一导角,所述第一凹槽、所述第二凹槽及所述第三凹槽的边端分别设有第二导角,而所述长方体的第一导角的导角量C为所述长方体的宽度的0.06倍至0.0625倍,所述第一凹槽、所述第二凹槽及所述第三凹槽的第二导角的导角量C为所述长方体的宽度的0.021倍至0.0235倍。The puzzle building structure according to claim 5, wherein the side end of the rectangular parallelepiped is provided with a first guiding angle, the first groove, the second groove and the first The side ends of the three grooves are respectively provided with a second lead angle, and the amount of lead C of the first lead angle of the rectangular parallelepiped is 0.06 times to 0.0625 times the width of the rectangular parallelepiped, the first groove, the first groove The amount of lead C of the second groove and the second guide angle of the third groove is 0.021 times to 0.0235 times the width of the cuboid.
9、一种益智积木构造,其特征在于:为一长方体设有相同大小的一第一凹槽、一第二凹槽、一第三凹槽及一第四凹槽,前述长方体的高度为长方体的宽度的两倍,且前述长方体的长度为长方体的宽度的六倍,前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽的宽度分别等于前述长方体的宽度,且前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽的深度分别为长方体的高度的四分之一,前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽的长度分别为长方体的长度的三分之一,前述第一凹槽、前述第二凹槽及前述第三凹槽、前述第四凹槽分别对称位于前述长方体的相对应二面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度,第三凹槽及第四凹槽相距的距离等于长方体的宽度。9. A puzzle building structure, characterized in that: a rectangular parallelepiped is provided with a first groove, a second groove, a third groove and a fourth groove of the same size, and the height of the rectangular parallelepiped is The width of the rectangular parallelepiped is twice, and the length of the rectangular parallelepiped is six times the width of the rectangular parallelepiped, and the widths of the first groove, the second groove, the third groove and the fourth groove are respectively equal to the rectangular parallelepiped Width, and the depths of the first groove, the second groove, the third groove and the fourth groove are respectively a quarter of the height of the rectangular parallelepiped, the first groove and the second groove The lengths of the third groove and the fourth groove are respectively one-third of the length of the rectangular parallelepiped, and the first groove, the second groove, the third groove and the fourth groove are respectively symmetric The distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, and the distance between the third groove and the fourth groove is equal to the width of the rectangular parallelepiped.
10、一种益智积木构造,其特征在于:为一长方体设有相同大小的一第一凹槽、一第二凹槽、一第三凹槽、一第四凹槽、一第五凹槽及一第六凹槽,前述长方体的高度为长方体的宽度的两倍,且前述长方体的长度为长方体的宽度的九倍,前述第一凹槽、前述第二凹槽、前述第三凹槽、前述第四凹槽、前述第五凹槽及前述第六凹槽的宽度分别等于前述长方体的宽度,且前述第一凹槽、前述第二凹槽、前述第三凹槽、前述第四凹槽、前述第五凹槽及前述第六凹槽的深度分别为长方体的高度的四分之一,前述第一凹槽、前述第二凹槽、前述第三凹槽、前述第四凹槽、前述第五凹槽及前述第六凹槽的长度分别为长方体的长度的九分之二,前述第一凹槽、前述第二凹槽、前述第三凹槽及前述第四凹槽、前述第五凹槽、前述第六凹槽分别对称位于前述长方体的相对应二面,且第一凹槽及第二凹槽相距的距离等于长方体的宽度,第二凹槽及第三凹槽相距的距离等于长方体的宽度,第四凹槽及第五凹槽相距的距离等于长方体的宽度,第五凹槽及第六凹槽相距的距离等于长方体的宽度。10 . A puzzle building structure, characterized in that: a rectangular parallelepiped having a first groove, a second groove, a third groove, a fourth groove and a fifth groove of the same size And a sixth recess, wherein the height of the rectangular parallelepiped is twice the width of the rectangular parallelepiped, and the length of the rectangular parallelepiped is nine times the width of the rectangular parallelepiped, the first recess, the second recess, and the third recess. The widths of the fourth groove, the fifth groove and the sixth groove are respectively equal to the width of the rectangular parallelepiped, and the first groove, the second groove, the third groove, and the fourth groove The depths of the fifth groove and the sixth groove are respectively a quarter of the height of the rectangular parallelepiped, the first groove, the second groove, the third groove, the fourth groove, and the foregoing The length of the fifth groove and the sixth groove are respectively two-ninths of the length of the rectangular parallelepiped, the first groove, the second groove, the third groove, the fourth groove, and the fifth The groove and the sixth groove are respectively symmetrically located on the rectangular parallelepiped Corresponding to two sides, and the distance between the first groove and the second groove is equal to the width of the rectangular parallelepiped, the distance between the second groove and the third groove is equal to the width of the rectangular parallelepiped, and the distance between the fourth groove and the fifth groove is The distance is equal to the width of the rectangular parallelepiped, and the distance between the fifth groove and the sixth groove is equal to the width of the rectangular parallelepiped.
PCT/CN2011/083193 2011-11-30 2011-11-30 Intelligence building block construction WO2013078630A1 (en)

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