200843830 九、發明說明: 【發明所屬之技術領域】 本發明涉及-種適合各年齡層使㈣騎積 【先前技術】 & 關於益智積木裝置,本發明人已研發出數種,且能適用於 各年齡層使用,其能讓初學者由淺而難的循序漸進導方 習益智積木的平面排列、或是立體堆叠,達 = 果,相關的專利文獻如下列所示: 敬於系的效 專利文獻1 :中華民國專利公告第_25號「可分解式 立體金字塔及平面拼盤結構」,1992年8月丨丨日公主。" 專利文獻2 :中華民_彳公衫14舰號A「°可分解1 立體金字塔及平面拼盤結構」,_年9月21日公告式 專=文獻3 :中華民_公告第娜2號「° 多種組合形態之堆疊積木」,_年9月u曰公Α ^化成 專利文獻4:中華民國專利公告㈣漏號° 平面式排顺合觀柄可堆可由 木」,1996年9月丨日公告 〜之块形積 =文獻5 ·中華民國專利公告第57·號 以及與其搭配的遊戲裝置」 :積木 利公告號呢7,_,62卜 年2月2!曰“,美國專 專利文獻6.中華民國專利公娜㈣ 9〇與120度組合之造型積木」,她年⑴^ 專公告號US 6, 220, 919。 美國 【發明内容】 5 200843830 【所欲解決之問題點】 ^文獻1所賴批,四個,,積木與排舰搭配組合的積 〇裝置’前述_積木是分耻5個單讀域不同形狀的積 木0 ^利文獻2所述的是由,,七個,,積木與排列盤搭配組合的積 ^裝置’前述七個積木是分別由5個單元體組成不同形狀的積 木0 專利文獻3所述的是由,,九個”積木與排列盤搭配組合的積 木裝置’麵九個積木是分_ 3〜4解組料同形狀的 積木。 專利文獻4所賴是由,,十三個,,穌與排龍、四角形遊 戲基座搭驗合_核置,前針三個積木是分別由卜5個 單元體組成不同形狀的積木。 專利文獻5所述的是由,,十请,積木與排賴、三角形遊 戲基座搭敝合_木裝置,前針七個積木是分別由Μ個 單元體組成不同形狀的積木。 專利文獻6所述蚊由”十九個”積木與排賴、四角形遊 戲基座搭配組合雜核置’前述十九個積木是分別由卜6個 單元體組成不同形狀的積木。 由上述專利文獻卜6可知,其使用積木的總數量分別 「四個、七個、九個、十三個、十七個、十九個」並配合特二 的排列盤而排列出平面造型體或立體造型體,唯前案中,未场 以「八個」積木來排列出平面造型體或立體三面錐體,因此曰, 如何以八個積木來排列出平面造型體或立體三輯體,便成為 6 200843830 ^發明所欲解決關題之—。又,前述八個積木,應該由幾個 單兀體組成、且該組成什麼雜、又該如何決定各積木單元體 間的夾脑合關鮮?便成為本發财要解決的問題點。 其次,為了供上述八個積木排列出適宜的平面造型體,而 設計出-種不同以往的排賴,便成為本發明欲解決的問題之 二。 再者,為了供上述八個積木堆疊出適合的立體錐體,而設 計出一種不同以往的遊戲基座,該遊戲基座是三角形或四角 形’便成為本發明欲解決的問題之三。 還有,基於上述八個積木,若再追加不同形狀的積木而排 列出不同平面砂贼立财㈣,便絲本發騎欲解決的 問題之四。但是,應該追加幾個積木才適宜(例如追加四個)、 及該如何由幾個單元體來組成、且組成什麼形狀、要如何決定 單元體間的夾角配合關係等?便是本發明要解決的問題點。 另外’為上述八個及追加的積木能排列出適合的平面造型 體,而設計出一種不同以往的排列盤,便成為本發明欲解決的 問題之五。 ' 此外,為上述八個及追加的積木排列出適合的立體錐體, 而設計出一種不同以往的遊戲基座,該遊戲基座是三角形或四 角形,便成為本發明欲解決的問題之六。 【本發明的技術手段】 基於上述,本發明的主要目的在於提供一種以八個不同形 狀積木排列出平面組合或堆疊成三面錐體的積木裝置。 本發明次一目的在於提供一種搭配上述八個積木排列組 7 200843830 合出平面造型體的排列盤。 本發明再一目的在於提供一種搭配上述八個積木堆疊出 立體三面錐體的三角形遊戲基座。 i 本發明又一目的在於提供一種上述八個積木再追加四個 積木後’而以十二個積木共同排列出平面組合或堆疊成立體三 面錐體的積木裝置。 本發明另一目的在於提供一種搭配上述十二個積木排列 組合出平面造型體的排列盤。 本發明還一目的在於提供一種搭配上述十二個積木堆疊 出立體二面錐體的三角形遊戲基座。 基於上述目的,本發明八個或十二個積木的形狀、單元體 數目、及夾角配合關係是不同於前案專利文獻卜6,因此在不 同積木數量、不同形狀、不同單元體數目、及不同夾角配合關 係的狀態下,其排列組合方式就會不同,所以變化度、趣味度 也就會不同。 為解決上述問題點及達到本發明的目的,其技術手段是這 樣實現的,共有二個實施形態,其中,第一實施形態為一種具 有平面組合或堆疊成立體三面錐體的積木裝置,其特徵在於八 個積木裝置(10)是由八個分別以三至五個單元體的二維角度 (X軸、Y軸)組成不同形狀的積木(1A〜1H)所組合而成,各積木 形狀如下: 積木(1A),具有四個單元體(al〜a4),其形狀為第1至第3 單元體(al〜a3)垂直串連,第4單元體(a4)則水平連接在第3 單元體(a3)的侧邊; 200843830 積木⑽,具有五個單元體(bl〜b5),其雜為第i至第3 單元體(bl〜b3跑串連,第4與第5單元細、⑹也呈垂 f連,唯前述第4與第5單元體⑽、⑹是水平連接在前述 第1與第2單元體(bl〜b2)的側邊; 單元單元體(Cl〜C5) ’其形狀為第1至第4 第3單元 第5單·麻物在前述 6積木⑽,具有三個單顿_),其形狀為第1與第2 ^疋體⑻、必垂直串連,第3單元體⑽)則水平連接在前述 第1單元體〇)1)_邊; 一積木(1E) ’具有五個單元體(el e5),其形狀為第1與第2 早兀體(e卜e2)垂直串連,第3與第4單元體⑽、⑷垂直串 且第3 ΐ元體⑽水平連接在前述第2單元體⑽的左侧 ^而第5早讀(e5)水平連接在前述第*單元體⑽的左侧 邊, 積木(1F) ’具有四個單元體⑴〜⑷,其形狀為第i鱼第2 早猶f W2)垂対連,第3與第4單元體(f3、⑷也垂直 t連’且第3單元體⑽水平連接麵觀單顿⑵的侧 邊; 積木⑽’具有四個單元體(如4),其形狀為第i至第3 單元體⑷喊垂直串連’第4枝體⑽水平連接在前述第 2單元體(g2)的侧邊;及 一 積木⑽’具有五個單元體(hl〜h5),其形狀為第i至第3 單元體㈣3)垂直串連,第4單元體_水平連接在前述第 9 / 200843830 2單元體(h2)的左侧邊,而第5單元體(h5)水平連接在第2單 元體(h2)的右側邊。 根據上述的積木裝置,更包括一能供單元體以長七個、寬 五個排列組合的排列盤(30A) ’以供八個積木(1 a〜1H)置入後排 列出總數為三十五個的矩形平面體(5〇)。 根據上述的積木裝置,所述排列盤(30A)内的底面具有三 十五個排成矩形的定位凹槽(32),而八個積木(1A〜1H)的各個 單元體表面具有能嵌入於前述定位凹槽(32)内的定位凸塊 (11) 〇 根據上述的積木裝置,更包括一由每邊各五個、總數為十 五個三角定位凹槽(42)排列組合的三角形遊戲基座(4〇A),以 供八個積木(1A〜1H)置入後排列出高五層(61〜65)的立體三面 錐體(60)。 一 第-實施形悲,為-種具有平面組合或堆疊成立體三面錐 體的積木裝置,其特徵在於上述八個積核置⑽再追加四個 積木震置(1G,)後而制組合成為十二個積木裝置⑽,其 中,四個積木裝置(1〇,)是由四個以五或六個單元體的二維角 度«軸、Y軸)組成不同形狀的積木⑴〜1L)所組合而成,這四 個積木(II〜1L)形狀如下·· 積木(II),具有5個單元體(i W5),其形狀為第!至第 4早讀⑴〜⑷垂直串連,第5單元體⑽水平連接在前述 第1單元體(il)的側邊; 一 抑一積木⑽,具有5個單元體(則5),其形狀為第!至3 早讀(jl〜j3)垂直串連’第4與第5單元體(j4、j5)也垂直 200843830 ^連’且第4單壞j物嶋W 3軍元體⑽的侧 積木(1K),具有5個單元體(kl〜k5),其形狀為第i至第 3早讀(kl〜_直$連,第4單元體⑽水平連接在前述 弟2 =體⑽的左侧邊’而第5單元體⑽水平連接在前述 第1單元體(kl)的右側邊,·及 積木(1 L),具有6個單元體(11〜16),第1至第3單元體 αι〜ΐ3)垂直串連,第4與第5單元體(14、15)也垂直串連且 f平連接麵述第2與第3單元體(12〜⑶的左側邊,又第6 單元體(16)水平連接在祕第5單元體(15)的左侧邊。 根據上述的積木裝置,更包括—能供單元體以長八個、寬 七個排列組合的排列盤(30B),以供十二個積木(U~1L)置入後 排列出總數為五十六個的矩形平面體(7〇)。 根據上述的積木裝置,所述排列盤(3诎)内的底面具有五 十六個排成矩形的定位凹槽(32),而十二個積木(1A〜1L)的各 個單元體表面具有能後入於前述定位凹槽(32)内的定位凸塊 (11)。 根據上述的積木裝置,更包括一由每邊各六個、總數為二 Η個三角定位凹槽(42)排列組合的三角形遊戲基座(40Β), 以供十二個積木(1Α〜1L)置入後堆疊出高六層(81〜86)的立體 三面錐體(80) 〇 【作用及功效】 本發明具有平面組合或堆疊成立體三面錐體的積木裝 置’疋由八個不同形狀的積木(1Α〜1Η)分別藉由3〜5個單元體 11 200843830 連接而成,這八個不同形狀的積木(1A〜1H)能在平面上排列組 合成長七個、寬五個的矩形平面體(5〇),或在沙堆、軟性物質 (如軟土)上堆疊出每邊各五個、底層總數為十五個、高五層 (61〜65)的立體三面錐體(6〇);據此,能有平面轉立體或由立 體轉平面的遊戲效果;由於八個積木(1A〜1H)的單元數不同、 形狀不同、及不同的夾角配合關係,遂在腦力激盪下,能培養 出使用者的思考力、耐性、及對數字與形狀的敏銳觀察能力。 本發明的八個不同形狀的積木(1A〜1H)在追加四個不同形 狀的積木(II〜1L)後,成為十二個不同形狀的積木(1八〜比),其 能組合成長八個、寬七個的矩形平面體(7〇),或在沙堆、軟性 物質(如軟土)上堆疊出每邊六個、底層總數二十一個、高六層 (81〜86)的立體三面錐體(8〇);由於十二個積木(1A〜1L)的單元 數、形狀、夾角配合關係與上述八個積木(1A〜1H)不同,遂能 產生比上述遊戲難度更高的平面轉立體或由立體轉平面的遊 戲效果,增加了排列組合的多樣性及趣味度,有助於加強使用 者的空間邏輯思考能力、及耐性。 本發明八個積木(1A〜1H)或十二個積木(1A~1L)能在二個 不同面積的排列盤(30A、_内排列出不同面積的矩形平面體 (50、70),藉由二個排列盤(猶、細)能規範積木在有限範圍 内’排列出不同大顿矩形平面造型,明加伽者對形體配 對與空間邏輯的觀念。 本發明八_木(.11〇奸二_木(.11〇能在不同 面積的三角形遊齡座(働、備)内堆疊出不同層數的三 體⑽、8G),藉由二個不同的三角形遊戲基座(魏、娜)能穩 12 200843830 固積木使其不斷朝上堆疊,避免產生滑域舰,由於三角形 遊戲基座(概、備)的定位凹槽(42)是三鱗形,所以堆疊積 木時能考驗仙者對方向、肖歧位置的配合,顧立體三維 的觀念。再者,專利文獻5(專利公告第577344號)雖已提述三 角形遊戲基座,但它是每邊七個、總數二十八個三角定位凹槽 排列的遊麟座,·,與本㈣二個三肖輯祕座⑽Y 40B)比較,其每邊各五個、總數為十五個三角定位凹槽⑷)排 列的二角形遊戲基座(4GA),及每邊各六個、總數為二十一個 三角定位凹槽(42)排列的三角形遊戲基座(4〇B),在形狀、層 數、堆疊變化度、趣味度是不同的。 θ 本發明排列盤(30Α、30Β)内的矩形定位凹槽(32),能供各 積木各單元齡面的餘凸塊⑻嵌人,使各積木在置入拼盤 内後不會產生滑脫或異動,這對於積木在排列時是非常有助 :Si 的。 最後,特別強調的是本發明的八個積木(1A〜1JJ)或十二個 積木(1A〜1L),其積木形狀及單元體數目是不同於前案專利文 獻卜6,換言之,本發明中的積木形狀、單元體數目,即使會 有數個與刚案相同,卻不會全然相同。以專利文獻4(專利公 口號第285G7G號)為例,其揭示出十三個不同形狀的積木(卜 1 22) ’若本發明的十二個積木(1A〜1L)與其比較,則本新型 沒有專利文獻4的積木⑴、⑴)、⑽、(22),而專利文獻4 f沒有本新型_木(奶、⑽;(1K)、⑽,所以在積木數 篁不同、雜不同、單元體數目不同、夹角關係不同的情況下, 排列組δ的變化數、趣味度就不會相同,而且本發明所提述 13 200843830 堆疊出五層或六層三面錐體的實施例,在前案中都未曾揭露 的,故符合新穎及創造性要件。 【實施方式】 以下,即依據圖面所示的實施例詳細說明如後: 第一實施形態: 如圖1所示為本發明八個積木的立體示意圖;圖中揭示出 本新型積木裝置(10)是藉由八個不同形狀的積木(1A、1B、1C、 ID、IE、IF、1G、1H)所組成,八個積木分別以三至五個單元 體的二維角度(X轴、Y軸)組成,各積木形狀如下: 積木(1A),具有四個單元體(ai〜a4),其形狀為第1至第 3單元體(al〜a3)垂直串連,第4單元體(a4)則水平連接在第3 單元體(a3)的側邊;前述第4單元體(a4)與第2單元體(a2) 間的夾角Θ為90度。 積木(1B) ’具有五個單元體(bi〜b5),其形狀為第1至第 3單元體(bl〜b3)垂直串連,第4與第5單元體(b4、b5)也呈 垂直串連,唯前述第4與第5單元體(b4、b5)是水平連接在前 述第1與第2單元體(M〜b2)的侧邊;前述第3單元體(b3)與 第5單元體(b5)間的夾角Θ為90度。 積木(1C),具有五個單元體化丨〜⑸),其形狀為第1至第 4單元體(cl〜⑷垂直串連,第5單元體(⑹則水平連接在前 述第3單元體⑽的側邊;前述第4單元體(c4)與第5單元體 (c5)間的夾角0為90度。 積木(1D),具有三個單元體(dl〜d3),其形狀為第1與第 2單元體⑷、d2)垂直串連’第3單元體(d3)則水平連接在前 200843830 述第1單元體(bl)_邊;前述$ 2單塌(d2)與第3單元體 (d3)間的夾角0為9〇度。 積木(1E) ’具有五個單兀體(el〜e5),其形狀為第1與第 2單元細、e2)垂直串連’第3與第4單讀⑽、⑷垂直 串連且第3單το體(e3)水平連接在前述第2單元體(⑵的左 侧邊,而第5單元體⑹水平連接在前述f 4單爾⑷的左 侧邊;前述第丨單元體⑻與第3單元體㈣間的夾角Θ為 90度’第3單元體(e3)與第5單元體㈣間的夾角0也為9〇 度。 積木(1F) ’具有四個單元體(fl〜⑷,其形狀為第丨與第 2單元體(f W2)垂直串連’第3與第4單元體㈦、⑷也垂 直串連,且第3單70體(f3)水平連接在前述第2單元體(⑵ 的侧邊;前述第2單元體⑽與第4單元體⑽間的夾角0為 90度。 積木(1G),具有四個單元體(gl〜g4),其形狀為第丨至第 3單元體(gl~g3)垂直φ連,第4單猶(g4)水平連接在前述 第2單元體(g2)的側邊;前述第3單元體⑽與第4單元體⑽ 間的夾角(9為90度。以及 積木⑽’具有五個單元體(hl〜h5),其形狀為第i至第 3單元體(hi〜h柯直串連’ $ 4單捕⑽水平連接在前述 第2單元體⑽的左侧邊,而第5單元體⑽)水平連接在第2 單元體⑽的右侧邊;前述第丨單元體⑽與第彳單元體⑽ 間的夾角0為90度,前述第3單元體⑽與第5單元體⑽ 間的夾角0為90度。 15 200843830 上述八個積木(1A,的結構_如下表所示: 積木符號 積木 每個積 —單元f 數量 ———-- 木單元 總數 〜—-— Η ID -—~~-_ 3 1A、IF、1G -—---~-_ -----—. 4 U 12 IB、1C、IE、1H、 -~__ ---------- -—~—__1 4 —·~-— 合計8個 "—1——-—, 5 —_ ------ ----- 20 ----- 合計35個 如圖2所示本發明八個積木與拼盤搭配的立體示意圖圖 3為圖2八個積木與拼盤組合的立體示意胃,圖*為圖3的俯 視示意圖。圖中揭私個積木(1A,能搭配一供單元體以長 七個、寛五個排列組合的排列盤(3〇A),其供八個積木(ia〜ih) 置入後,排列出總數為三十五個的矩形平面體(5〇)。 上述排列盤(30A)内的底面具有三十五個排成矩形的定位 凹槽(32),而八個積木(1A〜1H)的各個單元體表面具有能嵌入 於前述定位凹槽(32)内的定位凸塊(11),在相互配合後能使各 積木(1A〜1H)在置入排列盤(30A)後’不會產生滑動或異動,因 此對於排列組合有極大助益’唯其並非必要實施構造,但不論 是否設置定位凹槽(32)與定位凸塊(11),其都應涵屬於本發明 的專利範圍内。 如圖5所示為本發明八個積木與三角形遊戲基座搭配的 立體示意圖,圖6所示為圖5八個積木與三角形遊戲基座組合 後的立體示意圖,圖7所不為圖6二角形遊戲基座與三面錐體 16 200843830 的層分解示意圖。上圖中揭示出八個積木(1A~1H)能搭配-由每邊各五個、總數為十五個三角定位凹槽(42 )排列組合的三 角形遊戲基座(40A) ’其可供八個積木(1A~1H)置入後,排列出 高五層(61〜65)的立體三面錐體(6〇)。 上述立體二面錐體(60)指的是第一層(61)為一個單元 體、第二層(62)為三個單元體、第三層⑽為六個單元體、第 四層(64)為十個單賴、第五層(65)為十五個單元體的三面錐 體。 第二實施形態: 再如圖8所和為本發明十二個積木裝置⑽的立體示意 圖,圖中揭示出上述八個積木裝置⑽追加了四個積木裝置 (1〇’)後組成為十二個積木裝置⑽,前述八個積木裝置⑽ 在圖1中揭示過’於此即不再贅述形狀、構造;而四個積木裝 置(10,)則是由四個不同形狀的積木0I〜1L)組成,其分別由五 或六個單元體的二維角度(X軸、丫軸)組成—體,其形狀如下: 積木⑴),具有5個單元體(11〜i5),其形狀為第1至第 4單,細〜⑷垂直串連,第5單元體(⑸水平連接在前述 第1皁讀(il)的侧邊,·前述第丨單元體⑻與第 間的夾角Θ為90度。 ; —積木⑼,具有5個單元體(jl〜j5),其形狀為第1至3 單兀體(jl〜j3)垂直串連,第4與第5單元體(j4、⑹也 =連二且第4單元體(⑷水平連接在前述第3單元體⑽的側 ,;別述第3單⑽與第5單元體⑻卿料 度0 200843830 積木(1 κ) ’具有5個單元體(kl~k5),其形狀為第i至第 3單元體(kl〜k3)垂直串連’第4單元體⑽水平連接在前述 第2單疋體⑽的左側邊’而第5單元體⑽水平連接在前述 第1單元體⑽的右侧邊;前述第5單元體⑽與第2單元體 ⑽間的夾角0為9G度’第4單元體⑽與第3單元體⑽ 間的夾角Θ為90度。以及 積木(1L),具有6個單元體(11〜16),第丨至第3單元體 (11〜13)垂直串連,第4與第5單元體(14、15)也垂直串連且 水平連接在前述第2與第3單元體(12〜13)的左侧邊,又第6 單f體(16)水平連接在前述第5單元體(15)的左侧邊;前述第 1單兀體(11)與第4單元體(14)間的夾角0為9〇度,第4單 元體(14)與第6單元體(16)間的夾角0為90度。 上述十二個積木裝置(20)是由十二個積木(1^1〇組成, 其結構關係如下表所示: 積木符號 —--—_ 積木 數量 每個積 木單元 體數目 單元體 總數 1D --------- 1 3 3 1A、IF、1G 3 4 12 1B、1C、1E、1H、11、1J、1K 7 5 35 1L —-—-. 1 6 6 -----〜〜—_. 合計 12個 合計56個 200843830 圖9所示為本發明十二個積木與拼盤搭配的立體示意 圖’圖10所示為圖9十二個積木與拼盤組合的立體示意圖, 圖11所示為圖1〇的俯視示意圖。圖中揭示出積木裝置(2〇), 疋由十二個積木(1A〜1L)組成,圖中揭示十二個積木(ία〜il) 能搭配一供單元體以長八個、宽七個排列組合的排列盤 (30B) ’其供十二個積木(ία〜1L)置入後,排列出總數為五十六 個的矩形平面體(70)。 上述排列盤(30B)内的底面具有五十六個排成矩形的定位 凹槽(32),而十二個積木(1A〜1L)的各個單元體表面具有能嵌 入於前述定位凹槽(32)内的定位凸塊(11),在相互配合後能使 各積木在置入排列盤後,不會產生滑動或異動。因此對於排列 組合有極大助益,唯其並非必要實施構造,但不論是否設置定 位凹槽(32)與定位凸塊(11),其都應涵屬於本發明的專利範圍 内。 如圖12所示為本發明十二個積木與三角形遊戲基座搭配 的立體示賴,圖13所示是圖12十二個積木與三角底盤組合 後的立體示賴,® 14所示為圖13三角底盤與三面錐體的: 層分解示意圖。圖中揭示出十二個積木(1ML)能搭配一由每 邊各六個、總數為二十-個三角定位凹槽⑷)排列組合的三角 職戲基座(娜),其可供十二個積木(1A~1L)置人後,排^出 间六層(81〜86)的立體三面錐體(8〇)。 上述立體三面錐體⑽)指的是第一層(81)為一個單元 體、第二層(82)為三個單元體、第三層(83)為六個單元體、第 四層⑽為十個單元體、第五層⑽為十五個單元體、第六層 200843830 (86)為二十一個單元體的立體三面錐體。 以上,是依據本發明圖式詳細說明,唯從事此項技藝業者 能在不超越本發明要旨的範圍内進行各種變更結合實施,因 此,舉凡利用與本發明有關結構的實施形態,只要在不超出本 發明要旨範圍内的各種等效變更實施例,皆應涵屬於本發明範 疇内。 200843830 【圖式簡單說明】 圖1 ··本發明第一實施形態之八個積木的立體示意圖。 圖2:為圖1之八個積木與排列盤搭配的立體示意圖。 圖3:為圖2八個積木與排列盤組合的立體示意圖。 圖4 :為圖3的俯視示意圖。 圖5:為圖1之八個積木與三角形遊戲基座搭配的立體示 意圖。 圖6:為圖5之八個積木與三角形遊戲基座組合後的立體 示意圖。 圖7:為圖6之三角形遊戲基座與立體三面錐體的各層分 解示意圖。 圖8:本發明第二實施形態之十二個積木的立體示意圖。 圖9 ··為圖8之十二個積木與排列盤搭配的立體示意圖。 圖10 ·為圖9十^一個積木與排列盤組合的立體示意圖。 圖11 :為圖10的俯視示意圖。 圖12 :為圖8之十二個積木與三角形遊戲基座搭配的立 體示意圖。 圖13:為圖12之十二個積木與三角形遊戲基座組合後的 立體示意圖。 圖14·為圖13之二角$遊戲基座與立體三面錐體的各層 分解示意圖。 【主要元件符號說明】 — 10 八個積木裝置 10, 四個積木裝置 21200843830 IX. OBJECTS OF THE INVENTION: TECHNICAL FIELD The present invention relates to a variety of age groups for (four) riding. [Prior Art] & About the puzzle building block device, the inventors have developed several kinds and can be applied. Used in all ages, it allows beginners to arrange the planar arrangement of the puzzle blocks in a shallow and difficult step by step, or to form a three-dimensional stack. The relevant patent documents are as follows: Dedicated patent documents 1 : Republic of China Patent Notice No. _25 "Decomposable Stereo Pyramid and Planar Assemble Structure", Princess of the next day of August 1992. " Patent Document 2: Chinese people _ 彳 衫 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 14 "° Stacking blocks of various combinations", _Yu, September, 曰 曰 Α 化 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利 专利Daily Announcement ~ Block Shape = Document 5 · Republic of China Patent Announcement No. 57· and its matching game device": Jack Muli Bulletin No. 7, _, 62 years of February 2! 曰 ", US patent documents 6. Republic of China Patent Gongna (4) 9〇 and 120 degree combination of modeling blocks, her year (1) ^ special announcement number US 6, 220, 919. United States [invention] 5 200843830 [The problem to be solved] ^Review 1 of the literature, four, the accumulation of building blocks and row ships 'the aforementioned _ building blocks are divided into five single reading domain different shapes The building block 0 is a product of the combination of seven, and seven, and the combination of the building block and the arranging disk. The seven blocks are composed of five unit bodies each having different shapes. Patent Document 3 It is stated that, by means of the nine "building blocks and the arranging discs combined with the building block device", the nine blocks are the _ 3~4 unpacking blocks of the same shape. Patent Document 4 relies on, and thirteen, , and the arrangement of the dragon and the quadrilateral game base _ nuclear, the three blocks of the front needle are composed of five units of different shapes of blocks. Patent Document 5 is based on, ten, building blocks It is combined with the arranging and triangular game base _ wood device, and the seven blocks of the front needle are respectively composed of a plurality of blocks of different shapes. The mosquitoes of the patent document 6 are composed of "nineteen" blocks and reliance, Quadrilateral game base with combination of miscellaneous cores The building blocks are blocks of different shapes composed of six unit bodies, respectively. As can be seen from the above-mentioned patent document, the total number of building blocks is "four, seven, nine, thirteen, seventeen, nineteen, respectively. In the previous case, the flat shape body or the three-dimensional three-sided cone was arranged in the "eight" blocks, so how to Eight blocks are arranged to form a plane shape body or a three-dimensional three-piece body, which becomes 6 200843830 ^Inventors want to solve the problem. In addition, the above eight building blocks should be composed of several single scorpions, and what kind of composition should be mixed, and how to determine the brain-binding between the building blocks? It has become a problem to be solved by this wealth. Secondly, in order to arrange the above-mentioned eight blocks to arrange a suitable flat shape body, and designing a different kind of conventional deficiencies, it is the second problem to be solved by the present invention. Furthermore, in order to stack a suitable solid cone for the above eight blocks, a different game base is designed, and the game base is triangular or quadrangular, which is the third problem to be solved by the present invention. In addition, based on the above-mentioned eight building blocks, if you add additional blocks of different shapes and list different plane sand thieves to make money (4), then the problem is solved by the hair. However, it is advisable to add a few bricks (for example, four additional), how to form a few unit bodies, what shape to form, and how to determine the angle matching relationship between the unit bodies. This is the problem to be solved by the present invention. In addition, it is the fifth problem to be solved by the present invention that the above eight and additional building blocks can be arranged in a suitable planar shape and a different arrangement of the conventional array is designed. In addition, a suitable stereoscopic cone is arranged for the above eight and additional building blocks, and a different game base is designed. The game base is triangular or quadrangular, which is the sixth problem to be solved by the present invention. [Technical Apparatus of the Invention] Based on the above, it is a primary object of the present invention to provide a building block device in which eight planes are combined in a plane or stacked in a three-sided pyramid. A second object of the present invention is to provide an array disk that incorporates the above-described eight block arrangement groups 7 200843830 to form a planar shaped body. It is still another object of the present invention to provide a triangular game base in which a three-dimensional three-sided cone is stacked with the eight blocks described above. Further, another object of the present invention is to provide a building block device in which the above-mentioned eight blocks are further added with four blocks, and the twelve blocks are used to collectively arrange the plane combination or the stacked body three-sided pyramid. Another object of the present invention is to provide an array disk in which a planar shaped body is combined with the twelve building blocks. Still another object of the present invention is to provide a triangular game base in which a three-dimensional dihedron is stacked with the twelve blocks. Based on the above object, the shape, the number of unit bodies, and the angle matching relationship of the eight or twelve building blocks of the present invention are different from the prior patent documents, so that the number of different building blocks, different shapes, different unit numbers, and different In the state of the angle matching relationship, the arrangement and combination manner will be different, so the degree of change and the degree of interest will be different. In order to solve the above problems and achieve the object of the present invention, the technical means are realized in this way, and there are two embodiments, wherein the first embodiment is a building block device having a planar combination or a stacked body three-sided cone, the characteristics thereof. The eight building block devices (10) are composed of eight blocks (1A to 1H) each having a two-dimensional angle (X-axis, Y-axis) of three to five unit bodies, and the shapes of the blocks are as follows: : Building block (1A), having four unit bodies (al~a4) whose shape is that the first to third unit bodies (al~a3) are vertically connected in series, and the fourth unit body (a4) is horizontally connected to the third unit Side of body (a3); 200843830 Building block (10), with five unit bodies (bl~b5), which are the i-th to third unit bodies (bl~b3 run in series, 4th and 5th units are fine, (6) Also, the fourth and fifth unit bodies (10) and (6) are horizontally connected to the side of the first and second unit bodies (b1 to b2); the unit unit body (Cl to C5) 'its shape For the first to fourth third units, the fifth one, the hemp, has three single sheets _) in the aforementioned six blocks (10), and the shape is the first and second ^ 疋 bodies (8), Vertically connected in series, the third unit body (10) is horizontally connected to the first unit body 〇)1)_ side; one building block (1E) ' has five unit bodies (el e5), and its shape is first and second The early corpus callosum (e eb e2) is vertically connected, the third and fourth unit bodies (10), (4) are vertical strings, and the third ΐ 体 body (10) is horizontally connected to the left side of the second unit body (10) and the fifth morning reading ( E5) horizontally connected to the left side of the first unit body (10), the building block (1F) 'has four unit bodies (1) to (4), the shape of which is the i-fish second, early and still w W2) coveted, the third and The fourth unit body (f3, (4) is also perpendicularly t-connected' and the third unit body (10) is horizontally connected to the side of the face unit (2); the building block (10)' has four unit bodies (such as 4), and the shape is the i-th to the 3 unit body (4) shouting vertical series 'the fourth branch (10) is horizontally connected to the side of the second unit body (g2); and one building block (10)' has five unit bodies (hl~h5), the shape of which is i 3rd unit body (4) 3) vertical series connection, 4th unit body_horizontal connection to the left side of the 9th / 200843830 2 unit body (h2), and the 5th unit body (h5) horizontally connected to the 2nd unit body The right side of (h2). According to the above-mentioned building block device, an array plate (30A) which can be combined with the unit body in a length of seven and a width of five is arranged for the eight blocks (1 a to 1H) to be placed and the total number is thirty. Five rectangular planes (5〇). According to the above-mentioned building block device, the bottom surface in the array disk (30A) has thirty-five rectangular positioning grooves (32), and the surface of each unit body of the eight building blocks (1A to 1H) can be embedded in The positioning protrusions (11) in the positioning groove (32) are further arranged according to the above-mentioned building block device, and further comprise a triangular game base arranged by a combination of five and a total of fifteen triangular positioning grooves (42) on each side. The seat (4〇A) is arranged for the eight blocks (1A to 1H) to be arranged to form a three-dimensional three-sided cone (60) of five layers (61 to 65). A first-implementation sorrow is a building block device having a planar combination or a stacked three-sided pyramid, characterized in that the above eight cores (10) are further added with four building blocks (1G,) and then combined into Twelve building block devices (10), wherein four building block devices (1〇,) are combined by four different sizes of building blocks (1) to 1L composed of two-dimensional angles «axis and Y-axis of five or six unit bodies". The four blocks (II~1L) are shaped as follows: · Building blocks (II), with 5 unit bodies (i W5), the shape is the first! Up to the 4th morning reading (1) to (4) vertical series connection, the 5th unit body (10) is horizontally connected to the side of the first unit body (il); and the building block (10) has 5 unit bodies (5), the shape thereof For the first! To 3 early reading (jl~j3) vertical series '4th and 5th unit (j4, j5) also vertical 200843830 ^ even 'and 4th single bad j object 3 W 3 military body (10) side blocks (1K ), having 5 unit bodies (k1 to k5) whose shape is the i-th to the third morning reading (kl~_ straight $ connected, and the fourth unit body (10) is horizontally connected to the left side of the aforementioned brother 2 = body (10)' The fifth unit body (10) is horizontally connected to the right side of the first unit body (k1), and the building block (1 L), and has six unit bodies (11 to 16), and the first to third unit bodies α1 to ΐ3. The vertical connection, the fourth and fifth unit bodies (14, 15) are also connected in series vertically, and f is connected to the second and third unit bodies (the left side of the second to third unit bodies (12 to (3), and the sixth unit body (16)) Horizontally connected to the left side of the fifth unit body (15). According to the above-mentioned building block device, it further includes an array disk (30B) capable of combining the unit body in eight lengths and seven widths for twelve After the building blocks (U~1L) are placed, a total of fifty-six rectangular planar bodies (7〇) are arranged. According to the above-mentioned building block device, the bottom surface in the array disk (3诎) has fifty-six rows. Rectangular positioning groove (32), and twelve blocks (1A~1L) The surface of each unit body has a positioning protrusion (11) which can be inserted into the positioning groove (32). According to the above-mentioned building block device, a plurality of triangular positioning recesses are provided for each of six sides. The groove (42) is arranged in a combined triangular game base (40Β) for stacking twelve blocks (1Α~1L) to form a three-dimensional three-sided cone (80) with a height of six layers (81~86). And the utility model of the present invention, the building block device having the planar combination or the stacking of the three-sided cones is formed by connecting three different shapes of building blocks (1Α~1Η) by 3~5 unit bodies 11 200843830, respectively. Building blocks of different shapes (1A~1H) can be arranged in a plane to form a rectangular body (5〇) of seven or five widths, or stacked on a sand, a soft material (such as soft soil). A three-dimensional three-sided cone (6〇) with a total of fifteen bottom layers and a height of five layers (61 to 65); accordingly, there can be a game effect of a plane-turning stereo or a three-dimensional plane; due to eight blocks (1A) ~1H) The number of units is different, the shape is different, and the angle is different. It can cultivate the user's thinking ability, patience, and sharp observation ability of numbers and shapes. The eight different shaped building blocks (1A~1H) of the present invention are added with four different shapes of building blocks (II~1L). It becomes twelve building blocks of different shapes (1-8 ratio), which can be combined into eight rectangular planes of seven widths (7 inches), or stacked on sand piles and soft materials (such as soft soil). Six sides on each side, twenty-one total number of bottom layers, six layers (81~86), three-dimensional three-sided cones (8〇); due to the number of elements, shapes and angles of twelve building blocks (1A~1L) Different from the above eight building blocks (1A~1H), 遂 can produce a plane-turning stereo or a three-dimensionally-turned game effect that is more difficult than the above-mentioned game, which increases the diversity and interest of the arrangement and helps to strengthen the use. The spatial logic thinking ability and patience. The eight building blocks (1A~1H) or the twelve building blocks (1A~1L) of the present invention can arrange rectangular plane bodies (50, 70) of different areas in two different arrays (30A, _). The two array disks (June, Fine) can standardize the blocks in a limited range of 'different large rectangular planes, and the concepts of the pairings and spatial logic of the Mingjiajia. The invention is eight woods. _ wood (.11〇 can stack different layers of three-body (10), 8G) in different areas of the triangle tour seat (働, 备), with two different triangle game pedestal (Wei, Na) can稳12 200843830 The solid blocks are stacked on top of each other to avoid the slippery ship. Since the positioning groove (42) of the triangular game base (general and preparatory) is three-square, the stacker can test the direction of the fairy, The cooperation of the position of Xiaoqi takes into account the concept of three-dimensional three-dimensional. Furthermore, although the triangular game base is mentioned in Patent Document 5 (Patent Publication No. 577344), it is a triangular positioning of seven on each side and a total of twenty-eight. The groove arrangement of the cypress seat, ·, compared with the (four) two three Xiao series secret seat (10) Y 40B), each side of each Five triangular game bases (4GA) arranged in a total of fifteen triangular positioning grooves (4), and six triangular game bases arranged on each side and a total of twenty-one triangular positioning grooves (42) Block (4〇B) is different in shape, number of layers, stacking change, and fun. θ The rectangular positioning groove (32) in the alignment disk (30Α, 30Β) of the present invention can be used for embedding the residual convex block (8) of each unit of each building block, so that the blocks do not slip when placed in the platter. Or change, this is very helpful for the building blocks in the arrangement: Si's. Finally, the eight building blocks (1A to 1JJ) or the twelve building blocks (1A to 1L) of the present invention are particularly emphasized, and the shape of the building blocks and the number of unit bodies are different from the prior patent documents. In other words, in the present invention. The shape of the building block and the number of unit cells, even if there are several identical to the original case, will not be completely the same. Taking Patent Document 4 (Patent Document No. 285G7G) as an example, it discloses thirteen blocks of different shapes (Bu 1 22) 'If the twelve blocks (1A to 1L) of the present invention are compared with this, the present invention There are no building blocks (1), (1), (10), and (22) of Patent Document 4, and Patent Document 4 f does not have the present type _ wood (milk, (10); (1K), (10), so the number of blocks is different, the difference is different, and the unit body In the case where the number is different and the angle relationship is different, the number of changes and the degree of interest of the array group δ are not the same, and the embodiment of the present invention 13 200843830 stacks five or six layers of three-sided cones, in the previous case It has not been disclosed in the prior art, so it meets the requirements of novelty and creativity. [Embodiment] The following is a detailed description of the following embodiments according to the drawings: First Embodiment: As shown in Fig. 1, the eight blocks of the present invention are shown. The three-dimensional schematic diagram shows that the new building block device (10) is composed of eight different shapes of building blocks (1A, 1B, 1C, ID, IE, IF, 1G, 1H), and the eight building blocks are respectively three to three. The two-dimensional angle of the five unit bodies (X-axis, Y-axis), each product The shape is as follows: a building block (1A) having four unit bodies (ai~a4) having a shape in which the first to third unit bodies (al to a3) are vertically connected in series, and the fourth unit body (a4) is horizontally connected in the first 3 the side of the unit body (a3); the angle Θ between the fourth unit body (a4) and the second unit body (a2) is 90 degrees. The building block (1B) 'has five unit bodies (bi to b5), The first to third unit bodies (b1, b3) are vertically connected in series, and the fourth and fifth unit bodies (b4, b5) are also vertically connected, except for the fourth and fifth unit bodies (b4, b5). It is horizontally connected to the side of the first and second unit bodies (M to b2), and the angle Θ between the third unit body (b3) and the fifth unit body (b5) is 90 degrees. Building blocks (1C) , having five unitized bodies 丨~(5)), the shape of which is the first to fourth unit bodies (cl~(4) are vertically connected, and the fifth unit body ((6) is horizontally connected to the side of the third unit body (10); The angle 0 between the fourth unit body (c4) and the fifth unit body (c5) is 90 degrees. The building block (1D) has three unit bodies (dl to d3) and has the shape of the first and second unit bodies. (4), d2) Vertically connected '3rd unit body (d3) is horizontally connected to the first unit of 200843830 (bl)_edge; the angle between the aforementioned $2 single collapse (d2) and the third unit body (d3) is 9 degrees. The building block (1E) 'has five single bodies (el~e5), the shape thereof The first and second units are thin and e2) are vertically connected. The third and fourth single readings (10) and (4) are vertically connected in series, and the third single τ obbody (e3) is horizontally connected to the second unit body ((2) on the left side. The fifth unit body (6) is horizontally connected to the left side of the f 4 unit (4); the angle Θ between the third unit unit (8) and the third unit body (4) is 90 degrees 'the third unit body (e3) and The angle 0 between the fifth unit body (four) is also 9 degrees. The building block (1F) 'has four unit bodies (fl~(4), the shape of which is the first unit and the second unit body (f W2) are vertically connected in series. 'The third and fourth unit bodies (seven) and (4) are also vertically connected, and 3 single 70 body (f3) is horizontally connected to the second unit body ((2) side; the angle between the second unit body (10) and the fourth unit body (10) is 90 degrees. Building blocks (1G), having four units a body (gl~g4) having a shape of a third to a third unit (gl~g3) perpendicularly φ, and a fourth unit (g4) horizontally connected to a side of the second unit (g2); 3 The angle between the unit body (10) and the fourth unit body (10) (9 is 90 degrees. And the building block (10)' has five unit bodies (hl~h5), and the shape is the i-th to the third unit body (hi~h straight) The tandem '$4 single catch (10) is horizontally connected to the left side of the second unit body (10), and the fifth unit body (10) is horizontally connected to the right side of the second unit body (10); the foregoing unit cell (10) and the The angle 0 between the unit cells (10) is 90 degrees, and the angle 0 between the third unit body (10) and the fifth unit body (10) is 90 degrees. 15 200843830 The above eight blocks (1A, structure _ as shown in the following table: Symbolic building blocks each product - Number of units f————-- Total number of wooden units~————— Η ID -—~~-_ 3 1A, IF, 1G -——---~-_ -----.. 4 U 12 IB, 1C , IE, 1H, -~__ ---------- -~~___1 4 —·~-— Total 8 "-1;--, 5 —_ ------ ----- 20 ----- Total 35 Figure 3 shows the three-dimensional schematic diagram of the eight blocks of the present invention and the platter. Figure 3 is a three-dimensional schematic stomach of the combination of the eight blocks and the platter of Figure 2. 3 is a schematic view of the top view. The figure reveals a block of furniture (1A, which can be matched with a unit array with a length of seven and a five-row array (3〇A) for eight blocks (ia~ih). After the entry, a total of thirty-five rectangular planar bodies (5 turns) are arranged. The bottom surface in the above-mentioned array disk (30A) has thirty-five rectangular positioning grooves (32) and eight blocks ( The surface of each unit body of 1A to 1H) has positioning projections (11) which can be embedded in the positioning recesses (32), and after the mutual cooperation, the building blocks (1A to 1H) can be placed in the alignment disc (30A). After 'no slip or change, so it is very helpful for the arrangement and combination', but it is not necessary Construction, but whether or not the positioning groove (32) and the positioning protrusion (11) are provided, it should be within the scope of the patent of the present invention. As shown in Fig. 5, the eight building blocks of the present invention are matched with the triangular game base. FIG. 6 is a perspective view showing the combination of the eight blocks of FIG. 5 and the triangular game base, and FIG. 7 is not a layer exploded view of the two-shaped game base and the three-sided cone 16 200843830 of FIG. The above figure reveals that eight building blocks (1A~1H) can be matched with a triangular game base (40A) that is arranged by a combination of five and a total of fifteen triangular positioning grooves (42) on each side. After the blocks (1A~1H) are placed, three-dimensional three-sided cones (6〇) with five layers (61~65) are arranged. The above-mentioned three-dimensional dihedron (60) refers to a first layer (61) being a unit body, a second layer (62) being three unit bodies, a third layer (10) being six unit bodies, and a fourth layer (64). ) is a three-sided cone with ten single-layers and a fifth layer (65) of fifteen unit bodies. Second Embodiment: FIG. 8 is a perspective view of a twelve building block device (10) according to the present invention. The figure shows that the eight building block devices (10) are added with four building block devices (1〇') and are composed of twelve. The building block device (10), the foregoing eight building block devices (10) are disclosed in Fig. 1 'the shape and structure are not described herein again; and the four building block devices (10,) are composed of four different shaped blocks 0I~1L) The composition is composed of a two-dimensional angle (X-axis, 丫-axis) of five or six unit bodies, and has the following shape: a building block (1)) having five unit bodies (11 to i5), the shape of which is the first To the fourth order, fine ~ (4) vertically connected, the fifth unit body ((5) is horizontally connected to the side of the first soap reading (il), and the angle Θ between the second unit (8) and the first unit is 90 degrees. ; - Building block (9), having 5 unit bodies (jl~j5), the shape of which is the first to third single corpus callosum (jl~j3) vertically connected, and the fourth and fifth unit bodies (j4, (6) also = two And the fourth unit body ((4) is horizontally connected to the side of the third unit body (10); the third unit (10) and the fifth unit body (8) are not described as the degree of material 0 200843830 building blocks (1 κ) There are five unit bodies (k1 to k5) having a shape in which the i-th to third unit bodies (k1 to k3) are vertically connected in series. The fourth unit body (10) is horizontally connected to the left side of the second unitary body (10). The fifth unit body (10) is horizontally connected to the right side of the first unit body (10), and the angle 0 between the fifth unit body (10) and the second unit body (10) is 9G degrees 'the fourth unit body (10) and the third unit body (10) The angle Θ between the two is 90 degrees, and the building block (1L) has 6 unit bodies (11 to 16), and the third to third unit bodies (11 to 13) are vertically connected in series, and the fourth and fifth unit bodies (14) And 15) are also vertically connected in series and horizontally connected to the left side of the second and third unit bodies (12 to 13), and the sixth single f body (16) is horizontally connected to the fifth unit body (15). The left side; the angle 0 between the first unitary body (11) and the fourth unit body (14) is 9 degrees, and the angle 0 between the fourth unit body (14) and the sixth unit body (16) is 90 degrees. The above twelve building block devices (20) are composed of twelve building blocks (1^1〇, the structural relationship is shown in the following table: Building block symbol -----__ number of building blocks per block unit body number unit Total 1D --------- 1 3 3 1A, I F, 1G 3 4 12 1B, 1C, 1E, 1H, 11, 1J, 1K 7 5 35 1L —---. 1 6 6 -----~~—_. Total 12 total 56 200843830 Figure 9 Figure 10 is a perspective view showing the combination of twelve blocks and a platter of the present invention. Figure 10 is a perspective view showing the combination of the twelve blocks and the platters of Figure 9. Figure 11 is a top plan view of Figure 1 。. The building block device (2〇) is composed of twelve building blocks (1A~1L). The figure shows that twelve building blocks (ία~il) can be combined with a unit body with a combination of eight lengths and seven widths. The disk (30B) 'is placed in a total of fifty-six rectangular planes (70) after the twelve blocks (ία~1L) are placed. The bottom surface in the alignment plate (30B) has fifty-six rectangular positioning grooves (32), and the surface of each unit body of the twelve blocks (1A to 1L) has a positioning recess (32). The positioning bumps (11) in the inner joint can make the blocks not slip or change after being placed in the array disc. Therefore, it is greatly helpful for the arrangement of the arrays, but it is not necessary to implement the structure, but whether or not the positioning grooves (32) and the positioning projections (11) are provided, it should be within the scope of the patent of the present invention. FIG. 12 is a perspective view of the twelve building blocks of the present invention and a triangular game base. FIG. 13 is a perspective view of the twelve blocks and the triangular chassis of FIG. 12, and the figure 14 is shown in FIG. 13 triangular chassis and three-sided cone: layer decomposition diagram. The figure reveals that twelve building blocks (1ML) can be matched with a triangular play base (Na), which is arranged by a total of six on each side and a total of twenty-three triangular positioning grooves (4). After the blocks (1A~1L) are placed, the three-dimensional three-sided cone (8〇) with six layers (81~86) is arranged. The above-mentioned three-dimensional three-sided pyramid (10) refers to a first layer (81) being a unit body, a second layer (82) being three unit bodies, a third layer (83) being six unit bodies, and a fourth layer (10) being Ten unit cells, the fifth layer (10) is fifteen unit cells, and the sixth layer 200843830 (86) is a three-dimensional three-sided cone of twenty-one unit bodies. The above is a detailed description of the present invention, and those skilled in the art can make various modifications and combinations without departing from the gist of the present invention. Therefore, as long as the embodiment using the structure related to the present invention is not exceeded, Various equivalent modified embodiments within the scope of the gist of the invention are intended to be within the scope of the invention. 200843830 [Simplified description of the drawings] Fig. 1 is a perspective view showing eight blocks of the first embodiment of the present invention. Figure 2: is a perspective view of the eight blocks of Figure 1 in combination with the alignment plate. Figure 3 is a perspective view showing the combination of the eight blocks of Figure 2 and the alignment plate. Figure 4 is a top plan view of Figure 3. Figure 5: is a perspective view of the eight blocks of Figure 1 in combination with a triangular game base. Fig. 6 is a perspective view showing the combination of the eight blocks of Fig. 5 and the triangular game base. Fig. 7 is a schematic view showing the layers of the triangular game base and the three-dimensional three-sided pyramid of Fig. 6. Figure 8 is a perspective view showing the twelve blocks of the second embodiment of the present invention. Fig. 9 is a three-dimensional schematic diagram of the twelve building blocks of Fig. 8 in combination with the array disk. Fig. 10 is a perspective view showing the combination of a building block and an array disk of Fig. 9. Figure 11 is a top plan view of Figure 10. Figure 12: A schematic view of the twelve blocks of Figure 8 in combination with a triangular game base. Figure 13 is a perspective view showing the combination of the twelve blocks of Figure 12 and the triangular game base. Figure 14 is an exploded perspective view of the layers of the two-corner $game base and the three-dimensional three-sided cone of Figure 13. [Main component symbol description] — 10 Eight building blocks 10, Four building blocks 21
I 200843830 20 十二個積木裝置 1A 〜1H 積木 11 〜1L 積木 11 定位凸塊 al 〜a4 單元體 bl 〜b5 單元體 cl 〜c5 單元體 dl 〜d3 單元體 el 〜e5 單元體 fl 〜f4 單元體 gl 〜g4 單元體 hi 〜h5 單元體 il 〜i5 單元體 jl 〜j5 單元體 kl 〜k5 單元體 11 〜16 單元體 30A 排列盤 30B 排列盤 32 平面定位凹槽 40A 三角形遊戲基座 40B 三角形遊戲基座 42 三角定位凹槽 50 矩形平面體 60 立體三面錐體 22 61 200843830 62 63 64 65 70 80 81 82 83 84 85 86 θ 第一層 第二層 第三層 第四層 第五層 矩形平面體 立體三面錐體 第一層 第二層 第三層 第四層 第五層 第六層 角度 23I 200843830 20 Twelve building blocks 1A ~ 1H Building blocks 11 ~ 1L Building blocks 11 Positioning lugs a ~ a4 Units bl ~ b5 Units cl ~ c5 Units dl ~ d3 Units el ~ e5 Units fl ~ f4 Units Gl ~ g4 unit body hi ~ h5 unit body il ~ i5 unit body jl ~ j5 unit body kl ~ k5 unit body 11 ~ 16 unit body 30A arrangement disk 30B arrangement disk 32 plane positioning groove 40A triangle game base 40B triangle game base Seat 42 Triangular positioning groove 50 Rectangular plane body 60 Three-dimensional three-sided cone 22 61 200843830 62 63 64 65 70 80 81 82 83 84 85 86 θ First layer Second layer Third layer Fourth layer Fifth layer Rectangular plane body Stereo Three-sided cone first layer second layer third layer fourth layer fifth layer sixth layer angle 23