WO2015106628A1 - 六角型积木 - Google Patents

六角型积木 Download PDF

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Publication number
WO2015106628A1
WO2015106628A1 PCT/CN2014/095466 CN2014095466W WO2015106628A1 WO 2015106628 A1 WO2015106628 A1 WO 2015106628A1 CN 2014095466 W CN2014095466 W CN 2014095466W WO 2015106628 A1 WO2015106628 A1 WO 2015106628A1
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WO
WIPO (PCT)
Prior art keywords
unit
plane
building block
hexagonal
blocks
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PCT/CN2014/095466
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English (en)
French (fr)
Inventor
杨牧谦
Original Assignee
林美足
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Application filed by 林美足 filed Critical 林美足
Publication of WO2015106628A1 publication Critical patent/WO2015106628A1/zh

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    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F9/00Games not otherwise provided for
    • A63F9/06Patience; Other games for self-amusement
    • A63F9/12Three-dimensional jig-saw puzzles
    • 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
    • AHUMAN NECESSITIES
    • A63SPORTS; GAMES; AMUSEMENTS
    • A63FCARD, BOARD, OR ROULETTE GAMES; INDOOR GAMES USING SMALL MOVING PLAYING BODIES; VIDEO GAMES; GAMES NOT OTHERWISE PROVIDED FOR
    • A63F9/00Games not otherwise provided for
    • A63F9/06Patience; Other games for self-amusement
    • A63F9/12Three-dimensional jig-saw puzzles
    • A63F2009/1236Three-dimensional jig-saw puzzles with a final configuration thereof, i.e. the solution, being packed in a box or container

Definitions

  • the utility model relates to a hexagonal building block, which utilizes several different blocks of three-dimensional shape formed by one to several hexagonal units, and the corresponding bases are provided for different positions and stacking orders of the hexagonal units.
  • a variety of stacking methods can form a three-dimensional shape.
  • the manufacturer introduced a detachable square block structure with different shapes to match the corresponding base, thereby improving the variability of the building block combination.
  • the horizontal and vertical angles of the base and the square building block can be easily tested by using the edge of the base.
  • the combination is successful, although the building block structure has improved in combination variability and difficulty, it is still slightly insufficient, such as the above-mentioned various defects still have room for further improvement.
  • the utility model relates to a hexagonal building block, which is mainly composed of a plurality of different three-dimensional building blocks.
  • the building block is composed of one to several units, and the shape of each building block is as follows: building block A (11), the shape is the first 1 unit (a1) is horizontally connected to the second unit (a2), and the third unit (a3) and the fourth unit (a4) are respectively connected to both sides of the joint; the building block B (12) is in the shape of the first unit ( B1) horizontally connected to the second unit (b2), and connected to the third unit (b3) and the fourth unit (b4); the building block C (13) having the shape of the first unit (c1) and the second unit (c2) ) is connected vertically to the third unit (c3), the fourth unit (c4) is connected to the first unit (c1) side, and the building block D (14) is shaped as the first unit (d1) and the second unit (d2) Vertical Connected, the third unit (d3) is connected vertically to the fourth unit (d4), and
  • the fourth unit (e4) is connected to the second unit (e2) side;
  • the building block F (16) is shaped as the first unit (f1) and the second unit (f2) After the vertical connection, the third unit (f3) is connected to the second unit (f2) side, the fourth unit (f4) is connected to the first unit (f1) side;
  • the building block G (17) has a shape of After the second unit (g2), the third unit (g3), and the fourth unit (g4) are connected to each other, the first unit (g1) is connected above the second unit (g2).
  • the hexagonal building block further comprises: a base (18), and a groove having a position A to Z (182-188) for 7 units to be arranged for different shapes. Seven types of blocks (11 to 17) are placed in the shape of the base in a longitudinal direction, and four layers of 7 cells per layer are stacked, for a total of 28 units.
  • the hexagonal building block further comprises: a base (19), and a groove is provided for allowing 7 kinds of bricks (11-17) to be laterally inserted into the base, and the stack is 3 layers high.
  • the number of each layer is 8, 12, 8 units, a total of 28 units.
  • the hexagonal building block further comprises: a plurality of planes A to J (C1 to C10), a plane A (C1) and a plane B (C2), a plane C (C3) and a plane D ( C4), plane D (C4) and plane E (C5), plane F (C6) and plane G (C7), plane I (C9) and plane J (C10) exhibit an angle of 120 degrees; and plane B (C2)
  • the plane C (C3), the plane E (C5) and the plane F (C6), the plane H (C8) and the plane I (C9) exhibit an angle of 240 degrees, and 120 degrees are formed by a plurality of planes (C1 to C10).
  • the angle of 240 degrees can make the blocks A ⁇ G (11 ⁇ 17) into the stable and easy to take by hand.
  • Each building block is composed of a fixed number of hexagonal units.
  • the base When the base is arranged to be stacked, it has an arrangement that stimulates the user to think in the three-dimensional space, imagines and tries to stack the correct combination, and has certain training and inspiration. effect.
  • the base can be replaced, and most of the products on the market are vertically stacked.
  • the utility model allows the user to select the blocks to be arranged vertically and horizontally, thereby inspiring the user to think about the combination of blocks in different directions, which is unique.
  • the utility model utilizes the same number of building blocks, and the stacking combination can be changed in the vertical and horizontal directions corresponding to different bases, and each building block is mainly designed with a hexagonal shape, so the base matching stack needs to be sorted and combined regardless of the direction.
  • the three-dimensional shape formed by the base in order to achieve this goal, the combination must not leave vacancies, which is difficult for the combination of logical thinking training and stack sorting.
  • FIG. 1 is a schematic structural view of a part of the present invention.
  • FIG. 2 is a schematic perspective view of the utility model.
  • 3 is a schematic diagram of layers of the stack of the present invention.
  • FIG. 4 is a schematic view of another layer of the stack of the present invention.
  • Figure 5 is a perspective view of another embodiment of the present invention.
  • Figure 6 is a cross-sectional view showing another embodiment A-A of the present invention.
  • FIG. 7 is a schematic perspective view of another embodiment of the present invention.
  • FIG. 8 is a schematic diagram of layers after stack combination according to another embodiment of the present invention.
  • FIG. 9 is a schematic diagram of another layer after stack combination according to another embodiment of the present invention.
  • Figure 10 is a second schematic view of the structure of the parts of the present invention.
  • Figure 11 is a third structural schematic view of the parts of the present invention.
  • Figure 12 is a fourth structural schematic view of the parts of the present invention.
  • Figure 13 is a fifth schematic view of the structure of the parts of the present invention.
  • Figure 14 is a sixth structural view of the parts of the present invention.
  • Figure 15 is a seventh structural view of the parts of the present invention.
  • the utility model is a hexagonal building block.
  • the blocks A to G (11 to 17) used are four hexagonal units (10), which are formed by a combination of horizontal and vertical layers, and are composed of seven different three-dimensional hexagonal building blocks.
  • the positional relationship in the example is described by the unit (10) as the basic unit, and the shape of each building block is as follows:
  • the building block A (11) has a shape in which the first unit (a1) and the second unit (a2) are horizontally connected, and the third unit (a3) and the fourth unit (a4) are connected to both sides of the joint;
  • the building block B ( 12) the shape is that the first unit (b1) and the second unit (b2) are horizontally connected, and the third unit (b3) and the fourth unit (b4) are connected to the lower side;
  • the building block C (13) has a shape of the first The unit (c1), the second unit (c2) and the third unit (c3) are vertically connected, the fourth unit (c4) is connected to the first unit (c1) side, and the building block D (14) is formed in the first unit.
  • the building block F (16) is shaped such that the first unit (f1) is perpendicular to the second unit (f2) After the connection, the third unit (f3) is connected to the second unit (f2) side, the fourth unit (f4) is connected to the first unit (f1) side, and the building block G (17) is shaped as the second unit ( G2), the third unit (g3) and the fourth unit (g4) are connected to each other, and the first unit (g1) is connected above the second unit (g2).
  • a base (18) has a groove (181) which can be formed when the blocks A to G (11 to 17) are placed in the stack. 181)
  • the three-dimensional shape of the shape, the combination of which contains several kinds of changes, the shape of the groove (181) in the base (18) can be seen from the figure, which is composed of a central hexagonal type with 6 sides connected with 6 hexagonal shapes, the concave
  • the slots (181) are position A (182), position B (183), position C (184), position D (185), position E (186), position F (187), and position G (188), respectively.
  • the height formed after the stack is 4 layers, 7 units (10) per layer, a total of 28 units (10), and the stacking method is performed by the building block G (17) using the lower unit 2 (g2) and the third unit ( G3) and the fourth unit (g4) correspond to position C (184), position D (185), position G (188); continue stacking block F (16) using the second unit (f2) and the third unit (f3) Corresponding to position B (183) and position A (182), and the fourth unit (f4) is located above the third unit (g3); continue to stack the block E (15) using the third unit (e3) corresponding position F (187) ); continue to stack the block C (13) using the third unit (c3) corresponding position E (186), and the fourth unit (c4) is located in the first order Above the element (g1); continue to stack the block D (14) using the second unit (d2) and the fourth unit (d4) below the fourth unit (g4) and the fourth unit (f4); continue stacking blocks B (12) The third unit (b3) and the fourth unit (
  • the first unit to the fourth unit (a1 to a4) of the building block A (11) correspond to the position G (188), the position B (183), and the position. C (184), position A (182); continue to stack the block B (12) using the first unit (b2) and the second unit (b2) corresponding position D (185), position E (186); continue to stack the building block D14 utilization
  • the second unit (d2) corresponds to the position F (187), and the fourth unit (d4) is located above the third unit (a3);
  • the stacking block C (13) continues to use the first unit (c1) and the fourth unit (c4) Located above the second unit (a2) and the first unit (a1); the stacking block E (15) is located above the third unit (a3) by the first unit (e1), and the third unit (e4) is located at the third unit (e4) Above the unit (b3); continue to stack the block F (16) using the fourth unit (f4), the second unit (f2), and the third unit (f3) in
  • the base ( 19 ) of different designs can be replaced, and the base ( 19 ) can be placed in the horizontal direction by using the same building blocks A to G (11 to 17), thereby enhancing the utility.
  • the inside of the base (19) has a groove (191) having a plurality of planes 1 to 10 (C1 to C10), wherein the plane 1 (C1) and the plane 2 (C2), plane 3 (C3) and plane 4 (C4), plane 4 (C4) and plane 5 (C5), plane 6 (C6) and plane 7 (C7), plane 9 (C9) and plane 10 (C10) are both intersected by two planes At an angle of 120 degrees; plane 2 (C2) and plane 3 (C3), plane 5 (C5) and plane 6 (C6), plane 8 (C8) and plane 9 (C9) exhibit an angle of 240 degrees,
  • the planes 1 to 10 (C1 to C10) form an angle of 120 degrees and 240 degrees, which allows the blocks A to G (11 to 17) to be placed into a height of 3 layers, and the number of layers from bottom to top is 8.
  • the building block E (15) is utilized
  • the third unit (e3) is located above the third unit (f3), the second unit (e2), and the fourth unit (e4) are located on the right side of the second unit (c2) and the first unit (g1), and the first unit ( E1) is located above the fourth unit (b4); finally, the building block A (11) is located in the third unit (d3), the first unit (a3), the second unit (a2), and the fourth unit (a4).
  • the stack of seven blocks A to G (11 to 17) has been placed in the base (19) to complete the arrangement.
  • this figure shows another sorting combination of the base (19) and the building blocks A to G (11 to 17).
  • the building block A (11) uses the third unit (a3) corresponding position D' (204).
  • the second unit (a2) corresponds to the position H' (208);
  • the built-in brick E (15) uses the first unit (e1) corresponding position C' (203), and the second unit (e2) corresponds to the position B' ( 202), the third unit (e3) corresponds to the position A' (201);
  • the building block C (13) uses the first unit (c1) corresponding position G' (207) and the second unit (c2) corresponding position F' ( 206), the third unit (c3) corresponds to the position E' (205), at which time the lowermost layer is placed; and the building block B (12) is located in the third unit using the second unit (b2) and the fourth unit (b4) (a3) and the first unit (e1), the first unit (b1) and the third unit (b3) are located above the first unit (a1) and the fourth unit (
  • 3 unit (d3) is located on the right side of the first unit (b1), and the fourth unit (d4) and the first unit (d1) are located on the right side of the third unit (b3) and the fourth unit (c4); 16)
  • the fourth unit (f4) is located above the second unit (d2), the third unit (f3) is located above the third unit (e3); finally, the building block G (17) is used by the first unit (g1) and the 2 units (g2) are located Above the 2nd unit (c2) and the 3rd unit (c3), the 4th unit (g4) is located on the right side of the 2nd unit (f2), and the stack has now placed 7 types of blocks A to G (11 to 17) into the base ( 19) Complete the arrangement.
  • the utility model has a plurality of different combinations of hexagonal blocks, and can replace the different bases by using the vertical and horizontal two-way stacks, thereby deriving different combinations and arrangements, and even extending the types of the blocks and the number of units, and the base can accommodate The number of units is increased or decreased, and a more diverse and diverse combination mode is changed, so that the utility model can more effectively stimulate the user to think and learn in a three-dimensional space.

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Abstract

一种六角型积木,其由数种不同立体造型的积木组合而成,各积木基础形状可分为由1至数个呈六角型的单元(10),以水平和垂直多层相连结的形状射出所构成,能配合相对应的底座(18)以及凹槽(181),能让此积木通过纵向堆栈而相互组合;还能更换底座(19),以原数量积木组合以横向配合进行堆栈而相互组合,且因各积木以固定数目的六角型单元(10)构成,因此底座(18、19)配合堆栈不论纵向或横向都需排序组合并不余留空缺,以完成底座(18、19)所形成的立体造型,因此在堆栈排序组合上具有一定难度,能达到训练逻辑思考能力的目的。

Description

六角型积木 技术领域
本实用新型是关于一种六角型积木,利用数种不同的由1至数个六角型单元所构成立体造型的积木,配合相对应的底座供各六角型单元通过位置及堆栈顺序不同,而具有多种堆栈方式能形成立体造型。
背景技术
一般市场上销售的常见益智积木,其形状多为方形、板形、球体…等,其中方形主要由其六面经X、Y向所延伸而形成不同造型,但此积木结构都是以水平或是垂直角度来进行对应组合,由于人类大脑对于积木以水平或垂直角度的组合会较为容易,且在组合时容易辨识,所以对于孩童可能有其帮助性,但此积木组合过于简单,对于锻炼逻辑思考及加强群组概念方面相对薄弱;
后有业者推出可拆装的不同造型的方形积木结构配合相对应的底座,进而提高积木组合的变化性,但此种底座以及方形积木所利用水平及垂直角度,只要利用底座边缘进行尝试很容易组合成功,虽相比前者积木结构在组合变化性及难度上有所提升,但还是稍显不足,诸如上述各种缺失仍有进一步改良的空间。
实用新型内容
本实用新型是一种六角型积木,主要由数种不同立体造型的积木组合而成,该积木是由1至数个单元所组成,各积木形状如下:积木A(11),其形状为第1单元(a1)与第2单元(a2)水平连接,于连接处的两侧分别连接第3单元(a3)与第4单元(a4);积木B(12),其形状为第1单元(b1)与第2单元(b2)水平连接,于下方连接第3单元(b3)与第4单元(b4);积木C(13),其形状为第1单元(c1)、第2单元(c2)和第3单元(c3)垂直连接,第4单元(c4)连接于第1单元(c1)一侧;积木D(14),其形状为第1单元(d1)与第2单元(d2)垂直 连接,另第3单元(d3)与第4单元(d4)垂直连接后,连接于第1单元(d1)一侧;积木E(15),其形状为第1单元(e1)、第2单元(e2)和第3单元(e3)垂直连接后,第4单元(e4)连接于第2单元(e2)一侧;积木F(16),其形状为第1单元(f1)与第2单元(f2)垂直连接后,第3单元(f3)连接于第2单元(f2)一侧,第4单元(f4)连接于第1单元(f1)一侧;积木G(17),其形状为第2单元(g2)、第3单元(g3)和第4单元(g4)相互连接后,第1单元(g1)连接于第2单元(g2)上方。
优选的,所述的六角型积木,还包括有:一底座(18),设有一凹槽,该凹槽具有位置A~Z(182~188)能供7个单元摆放,让不同形状的7种积木(11~17)以纵向置入该底座形状,堆栈出每层7个单元高4层,共28个单元。
优选的,所述的六角型积木,还包括有:一底座(19),设有一凹槽,该凹槽能让7种积木(11~17)以横向置入该底座,堆栈出高3层,其各层数量为8、12、8个单元,共28个单元。
优选的,所述的六角型积木,该底座还包括有:多个平面A~J(C1~C10),其平面A(C1)与平面B(C2)、平面C(C3)与平面D(C4)、平面D(C4)与平面E(C5)、平面F(C6)与平面G(C7)、平面I(C9)与平面J(C10)呈现120度夹角;而平面B(C2)与平面C(C3)、平面E(C5)与平面F(C6)、平面H(C8)与平面I(C9)则呈现240度夹角,通过多个平面(C1~C10)所形成120度及240度夹角,能让积木A~G(11~17)置入后保持稳固并容易用手拿取。
综上所述,本实用新型实施具有下列优点:
1、各积木是以固定数目的六角型单元构成,当配合底座需排列进行堆栈时,具有激发使用者思考于立体空间中,进行想象及尝试堆栈出正确组合的排列,具有一定的训练与启发作用。
2、该底座能进行更换,而大部分市场上销售相关商品是纵向堆栈,本实用新型让使用者选择积木以纵、横向来进行排列组合,进而激发使用者思考不同方向的积木组合,具有独特的创新风格,不同方向的思考组合,且排列组合因各积木以固定数目的六角型 单元构成,当排列堆栈时,需多加尝试才能堆栈不会余留空缺的立体造型。
较先前技术特征,本实用新型利用相同数量积木,对应不同底座即可改变以纵、横向进行堆栈组合,且各积木主要为六角型所设计构成,因此底座配合堆栈不论方向都需以排序组合成底座所形成的立体造型,为达此目的,其组合必需不余留空缺,对于逻辑思考的训练以及堆栈排序组合上具有一定难度。
为便于进一步了解有关本实用新型为达上述目的、特征所采用的技术手段及其功效,兹例举较佳实施例并配合图式说明如下。
附图说明
图1是本实用新型的零件的结构示意图之一。
图2是本实用新型的立体组合示意图。
图3是本实用新型的堆栈组合后的各层示意图。
图4是本实用新型的另一种堆栈组合后的各层示意图。
图5是本实用新型另一实施例立体图。
图6是本实用新型另一实施例A-A剖面示意图。
图7是本实用新型另一实施例的立体组合示意图。
图8是本实用新型另一实施例的堆栈组合后的各层示意图。
图9是本实用新型另一实施例的另一种堆栈组合后的各层示意图。
图10是本实用新型的零件的结构示意图之二。
图11是本实用新型的零件的结构示意图之三。
图12是本实用新型的零件的结构示意图之四。
图13是本实用新型的零件的结构示意图之五。
图14是本实用新型的零件的结构示意图之六。
图15是本实用新型的零件的结构示意图之七。
【符号说明】
10 单元
C1~C10 平面1~平面10
11~17 积木A~积木G
a1~a4 第1单元~第4单元
18 底座
b1~b4 第1单元~第4单元
181 凹槽
c1~c4 第1单元~第4单元
182~188 位置A~位置G
d1~d4 第1单元~第4单元
19 底座
e1~e4 第1单元~第4单元
191 凹槽
f1~f4 第1单元~第4单元
201~208 位置A’~位置H’
g1~g4 第1单元~第4单元
具体实施方式
通常根据本实用新型,该最佳可行的实施例,并配合图式详细说明后,使增加对本实用新型的了解;请参阅图1~图15所示,本实用新型是一种六角型积木,而所用积木A~G(11~17)各为4个六角型单元(10)以水平和垂直多层相连结的形状所构成7种不同立体造型的六角型积木组合,为更了解下述实施例中的位置关系,故以单元(10)为基础单位进行说明,各积木形状如下:
积木A(11),其形状为第1单元(a1)与第2单元(a2)水平连接,于连接处的两侧分别连接第3单元(a3)与第4单元(a4);积木B(12),其形状为第1单元(b1)与第2单元(b2)水平连接,于下方连接第3单元(b3)与第4单元(b4);积木C(13),其形状为第1单元(c1)、第2单元(c2)和第3单元(c3)垂直连接,第4单元(c4)连接于第1单元(c1)一侧;积木D(14),其形状为第1单元(d1)与第2单元(d2)垂直连接,另第3单元(d3)与第4单元(d4)垂直连接后,连接于第1单元(d1)一侧;积木E(15),其形状为第1单元(e1)、第2单元(e2)和 第3单元(e3)垂直连接后,第4单元(e4)连接于第2单元(e2)一侧;积木F(16),其形状为第1单元(f1)与第2单元(f2)垂直连接后,第3单元(f3)连接于第2单元(f2)一侧,第4单元(f4)连接于第1单元(f1)一侧;积木G(17),其形状为第2单元(g2)、第3单元(g3)和第4单元(g4)相互连接后,第1单元(g1)连接于第2单元(g2)上方。
请参阅图1~图3以及图10~图15所示,一底座(18)具有凹槽(181)能供积木A~G(11~17)置入排列堆栈时,形成与该凹槽(181)形状的立体造型,其组合方式含数种变化,从图中可见底座(18)凹槽(181)内的形状,是由中央六角型配合6面相连接6个六角型所构成,该凹槽(181)内分别为位置A(182)、位置B(183)、位置C(184)、位置D(185)、位置E(186)、位置F(187)及位置G(188),由此可见堆栈后所形成高为4层,每层7个单元(10),共计28个单元(10),其堆栈方式由积木G(17)利用下方第2单元(g2)、第3单元(g3)和第4单元(g4)对应位置C(184)、位置D(185)、位置G(188)后;继续堆栈积木F(16)利用下方第2单元(f2)与第3单元(f3)对应位置B(183)和位置A(182),而第4单元(f4)则位于第3单元(g3)上方;继续堆栈积木E(15)利用第3单元(e3)对应位置F(187);继续堆栈积木C(13)利用第3单元(c3)对应位置E(186),而第4单元(c4)则位于第1单元(g1)上方;继续堆栈积木D(14)利用下方第2单元(d2)和第4单元(d4)位于第4单元(g4)和第4单元(f4)上方;继续堆栈积木B(12)利用第3单元(b3)和第4单元(b4)位于第4单元(e4)和第3单元(f3)上方;继续堆栈积木A(11)利用第1单元~第4单元(a1、a2、a3、a4)位于第1单元(c1)、第4单元(c4)、第1单元(d1)、第1单元(e1)上方,堆栈至此已将7种积木A~G(11~17)置入完成排列;可由图3各层更为明白前述积木A~G(11~17)的排序组合方式。
请参阅图4所示,本图为另一种组合方式,首先将积木A(11)的第1单元~第4单元(a1~a4)对应位置G(188)、位置B(183)、位置C(184)、位置A(182);继续堆栈积木B(12)利用第1单元(b2)和第2单元(b2)对应位置D(185)、位置E(186);继续堆栈积木D14利用 第2单元(d2)对应位置F(187),而第4单元(d4)位于第3单元(a3)上方;继续堆栈积木C(13)利用第1单元(c1)和第4单元(c4)位于第2单元(a2)和第1单元(a1)单元上方;继续堆栈积木E(15)利用第1单元(e1)位于第3单元(a3)上方,而第4单元(e4)位于第3单元(b3)上方;继续堆栈积木F(16)利用第4单元(f4)、第2单元(f2)和第3单元(f3)位于第4单元(e4)、第4单元(b4)和第1单元(d1)上方;继续堆栈积木G(17)利用第1单元(g1)、第3单元(g3)和第4单元(g4)位于第4单元(c4)、第3单元(f3)、第3单元(d3)上方,堆栈至此已将7种积木A~G(11~17)置入完成排列。
请参阅图5~图8所示,更换为不同设计的底座(19),该底座(19)能利用相同积木A~G(11~17)改以横向方式置入于其中,进而增进本实用新型积木A~G(11~17)排序组合的变化性。该底座(19)内侧具有一凹槽(191),该凹槽(191)中具有多个平面1~10(C1~C10),而其中平面1(C1)与平面2(C2)、平面3(C3)与平面4(C4)、平面4(C4)与平面5(C5)、平面6(C6)与平面7(C7)、平面9(C9)与平面10(C10)皆由两平面相交呈120度夹角;而平面2(C2)与平面3(C3)、平面5(C5)与平面6(C6)、平面8(C8)与平面9(C9)则呈现240度夹角,通过多个平面1~10(C1~C10)所形成120度及240度夹角,能让积木A~G(11~17)置入后成为高3层,其各层由下至上数量为8、12、8个单元(10)共28个单元(10),并易于拿取,因本实用新型中所用积木A~G(11~17)为六角型故各内角均为120度,当置入于该底座(19)时,前述呈120度夹角的平面与六角型单元(10)配合,令各积木A~G(11~17)置入稳固,例如图中所述平面4(C4)与平面5(C5)所呈120度夹角所配合六角型单元(10)即是如此。由上述底座(19)说明主要为高3层,其最下层为可容六角型单元(10)置入8个,其排序组合相关位置可参阅图7~图8,分别为位置A’(201)、位置B’(202)、位置C’(203)、位置D’(204)、位置E’(205)、位置F’(206)、位置G’(207)、位置H’(208),当排序积木A~G(11~17)时,首先将积木G(17)利用第3单元(g3)对应位置 D’(204);再置入积木F(16)利用第2单元(f2)对应位置H’(208)、第1单元(f1)对应位置G’(207)以及第4单元(f4)对应位置C’(203);再置入积木D(14)利用第4单元(d4)对应位置B’(202)以及第3单元(d3)对应位置A’(201);再置入积木B(12)利用第3单元(b3)对应位置F’(206)以及第1单元(b1)对应位置E’(205),此时最下层置入完成;再将积木C(13)利用第3单元(c3)位于第2单元(g2)上方、第2单元(c2)位于第1单元(g1)上方、第4单元(c4)位于第3单元(b3)上方;再将积木E(15)利用第3单元(e3)位于第3单元(f3)上方、第2单元(e2)、第4单元(e4)位于第2单元(c2)、第1单元(g1)的右侧,第1单元(e1)位于第4单元(b4)上方;最后再将积木A(11)利用第3单元(a3)、第2单元(a2)和第4单元(a4)位于第3单元(d3)、第1单元(b1)、第2单元(b2)上方,堆栈至此已将7种积木A~G(11~17)置入底座(19)完成排列。
请参阅图9所示,本图为底座(19)配合积木A~G(11~17)的另一种排序组合方式,积木A(11)利用第3单元(a3)对应位置D’(204)、第2单元(a2)对应位置H’(208);接着置入积木E(15)利用第1单元(e1)对应位置C’(203)、第2单元(e2)对应位置B’(202)、第3单元(e3)对应位置A’(201);再将积木C(13)利用第1单元(c1)对应位置G’(207)、第2单元(c2)对应位置F’(206)、第3单元(c3)对应位置E’(205),此时最下层置入完成;再将积木B(12)利用第2单元(b2)和第4单元(b4)位于第3单元(a3)和第1单元(e1)上方、第1单元(b1)和第3单元(b3)位于第1单元(a1)和第4单元(c4)上方;再将积木D(14)利用第3单元(d3)位于第1单元(b1)右侧,第4单元(d4)和第1单元(d1)位于第3单元(b3)和第4单元(c4)右侧;再将积木F(16)利用第4单元(f4)位于第2单元(d2)上方、第3单元(f3)位于第3单元(e3)上方;最后放入积木G(17)利用第1单元(g1)和第2单元(g2)位于第2单元(c2)和第3单元(c3)上方、第4单元(g4)位于第2单元(f2)的右侧,堆栈至此已将7种积木A~G(11~17)置入底座(19)完成排列。
综上所述,本实用新型六角型积木具有许多不同组合方式,还能替换不同底座利用纵、横双向堆栈,进而衍生出不同的组合排列方式,甚至延伸积木种类以及单元数量,配合底座可容置的单元数量增减,变化出更具丰富多样的组合方式,使得本实用新型更能有效激发使用者在立体空间进行思考学习。

Claims (4)

  1. 一种六角型积木,其特征在于,主要由数种不同立体造型的积木组合而成,该积木是由1至数个单元所组成,各积木形状如下:积木A(11),其形状为第1单元(a1)与第2单元(a2)水平连接,于连接处的两侧分别连接第3单元(a3)与第4单元(a4);积木B(12),其形状为第1单元(b1)与第2单元(b2)水平连接,于下方连接第3单元(b3)与第4单元(b4);积木C(13),其形状为第1单元(c1)、第2单元(c2)和第3单元(c3)垂直连接,第4单元(c4)连接于第1单元(c1)一侧;积木D(14),其形状为第1单元(d1)与第2单元(d2)垂直连接,另第3单元(d3)与第4单元(d4)垂直连接后,连接于第1单元(d1)一侧;积木E(15),其形状为第1单元(e1)、第2单元(e2)和第3单元(e3)垂直连接后,第4单元(e4)连接于第2单元(e2)一侧;积木F(16),其形状为第1单元(f1)与第2单元(f2)垂直连接后,第3单元(f3)连接于第2单元(f2)一侧,第4单元(f4)连接于第1单元(f1)一侧;积木G(17),其形状为第2单元(g2)、第3单元(g3)和第4单元(g4)相互连接后,第1单元(g1)连接于第2单元(g2)上方。
  2. 如权利要求1所述的六角型积木,还包括有:一底座(18),设有一凹槽,该凹槽具有位置A~Z(182~188)能供7个单元摆放,让不同形状的7种积木(11~17)以纵向置入该底座形状,堆栈出每层7个单元高4层,共28个单元。
  3. 如权利要求1所述的六角型积木,还包括有:一底座(19),设有一凹槽,该凹槽能让7种积木(11~17)以横向置入该底座,堆栈出高3层,其各层数量为8、12、8个单元,共28个单元。
  4. 如权利要求3所述的六角型积木,该底座还包括有:多个平面A~J(C1~C10),其平面A(C1)与平面B(C2)、平面C(C3)与平面D(C4)、平面D(C4)与平面E(C5)、平面F(C6)与平面G(C7)、平面 I(C9)与平面J(C10)呈现120度夹角;而平面B(C2)与平面C(C3)、平面E(C5)与平面F(C6)、平面H(C8)与平面I(C9)则呈现240度夹角,通过多个平面(C1~C10)所形成120度及240度夹角,能让积木A~G(11~17)置入后保持稳固并易于拿取。
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