M438102 五、新型說明: 【新型所屬之技術領域】 本創作係關於一種理線結構,特別是一種應用於 薄片狀線材之理線結構° 【先前技術】 各類電子裝置,例如可攜式電腦、桌上型電腦等, 其内部係包含許多精密的各類電子零組件,而這些零組 件之間通常會透過傳输線或排線等線材形成電性連 接,以便提供資料傳輸成電源供應等使用。隨著電子裝 置之便攜性及輕薄化設計’裝置内可供各類零組件及相 關線材之設置或配置空間亦受到限制。一般線材多以圓 筒狀為主,在設置時通常直接將線材懸置於内部空間 中,當接線數量多時較佔空間且不易整理,為了因應此 狀況,開始設計出薄片狀之線材’因其線材本身較為扁 平,可直接固定於裝置之殼體表面。 目前針對薄片狀線材之固定方式多使用膠合方 式’例如直接對線材施以膠合材料(例如黏著劑或雙面 膠)以固定於裝置殼體内;但於線材被黏著固定後,若 想再次變更線材位置,可能因膠合材料之黏性太強,使 得線材於拆除拉扯過程中導致線材内部線路斷裂,而造 成訊號不良或短路;其後又必須對線材重新施以膠合材 3 M438102 料,徒增組裝上之困擾。即使採用可重複使用之膠合材 料,在黏合多次後也可能導致黏性降低而影響膠合固定 效果。 因此,如何能提供易於設置且能重覆使用的理線 結構,實為一值得研究之課題。 【新型内容】 本創作之主要目的係提供一種應用於薄片狀線材 之理線結構。 為達成上述之目的,本創作之理線結構包括片狀 本體,片狀本體包括溝槽及夾固部。溝槽係貫穿片狀本 體,溝槽包括起始端、終端及至少一彎折部;夾固部係 為連接起始端及終端之一虛擬直線與溝槽所包圍之區 域。藉由夾固部以虛擬直線為軸線朝第一方向翻轉,以 供夾固薄片狀線材。 在本創作之一實施例中,溝槽實質上為L形溝槽 或U形溝槽。 在本創作之一實施例中,片狀本體更包括子溝槽 及子夾固部。子溝槽係貫穿片狀本體且位於虛擬直線與 溝槽所包圍之區域内,子溝槽包括子溝槽起始端、子溝 槽終端及至少一子溝槽彎折部;子夾固部係為連接子溝 槽起始端及子溝槽終端之子虛擬直線與子溝槽所包圍 4 之子區域。藉由子夹固部以子虛擬直線為軸線朝相反於 第一方向之第二方向翻轉,以供夾固薄片狀線材。 在本創作之一實施例中,本創作之理線結構之片 狀本體包括溝槽mu部及第二夾固部。溝槽係貫 穿片狀本體之s形或倒s形溝槽,溝槽包括起始端、終 端、第一彎折部、第二彎折部、第三彎折部及第四彎折 部,第一夹固部係為連接起始端及第三彎折部之第一虛 擬直線與溝槽所包圍之第—區域;第二失固部係為連接 終端及第二彎折部之第二虛擬直線與溝槽所包圍之第 一區域,且第一虛擬直線與第二虛擬直線實質上平行。 藉由第一夾固部以第一虛擬直線為轴線朝第一方向翻 轉,且第二夾固部以第二虛擬直線為軸線朝相反於第一 方向之第二方向翻轉,以供夾固薄片狀線材。 在本創作之一實施例中,片狀本體更包括第一子 溝槽、第一子夹固部、第二子溝槽及第二子夾固部。第 一子溝槽係貫穿片狀本體且位於第一虛擬直線與溝槽 所包圍之第一區域内,第一子溝槽包括第一子溝槽起始 端、第一子溝槽終端及至少一第一子溝槽彎折部;第一 子夾固部係為連接第一子溝槽起始端及第一子溝槽終 端之第一子虛擬直線與第一子溝槽所包圍之第一子區 域。第二子溝槽係貫穿片狀本體且位於第二虛擬直線與 溝槽所包圍之第二區域内,第二子溝槽包括第二子溝槽 M438102 起始端、第二子溝槽終端及至少一第二子溝槽彎折部; 第二子夾固部係為連接第二子溝槽起始端及第二子溝 槽終端之第二子虛擬直線與第二子溝槽所包圍之第二 子區域。藉由第一子夾固部以第一子虛擬直線為軸線朝 第二方向翻轉,且第二子夾固部以第二子虛擬直線為軸 線朝第一方向翻轉,以供夾固薄片狀線材。 藉此設計,本創作之理線結構藉由配合溝槽設計 所形成之夾固部,用以夾固薄片狀線材,其片狀結構設 計不佔空間而較易設置於裝置内部之殼體,並可重複使 用,以達到較佳之理線功能。 由於本創作構造新穎,能提供產業上利用,且確 有增進功效,故依法申請新型專利。 【實施方式】 為了讓本創作之上述和其他目的、特徵和優點能 更明顯易懂,下文特舉出本創作之具體實施例,並配合 所附圖式,作詳細說明如下。 在下述各實施例中,本創作之理線結構係應用於 採用薄片狀線材之電子裝置上,例如電腦裝置、可攜式 電子裝置或其他類似裝置之殼體内部,以提供理線固定 之功能。以下係以電腦裝置為例加以說明,但本創作並 不以此為限。 6 M438102 以下請一併參考圖ία及圖1B。圖ία係本創作之 理線結構1之第一實施例之正面視圖;圖1Β係本創作 之理線結構1之第一實施例之背面視圖。 如圖1Α所示,本創作之理線結構1包括片狀本體 5,片狀本體5包括溝槽10及夾固部20。此片狀本體5 係為具有彈性之塑性材料所製成之一體成型結構,例如 使用聚酯薄膜(PC或PET材質)或類似材料等。溝槽 10係為貫穿片狀本體5之鏤空槽,而溝槽10之形狀構 造、長度會依據設計不同而改變。溝槽10包括起始端 11、終端12及至少一彎折部,在本實施例中,至少一 彎折部則包括第一彎折部13及第二彎折部14,使得溝 槽10係設計自起始端11開始延伸,在依序經過第一彎 折部13及第二彎折部14後,最後抵達終端12,因此 形成一 U形溝槽。其中各彎折部13、14為具有一角度 之轉向彎折結構。在以下本創作之各實施例中,各彎折 部係實質上採用一直角結構,較佳者為具圓角形式之直 角結構,但本創作不以此為限。 夾固部20可受到外力翻起以夾固薄片狀線材。自 溝槽10之起始端11至終端12能以一條虛擬直線S相 連接,而夾.固部20大致上為該虛擬直線S與溝槽10間 所包圍之區域。在本實施例中,第一彎折部13至起始 端11之距離(等同於第二彎折部14至終端12之距離) 7 M438102 係不小於所夾固之薄片狀線材之寬度,以便完全夾固住 薄片狀線材,且第一彎折部13至第二彎折部14之連線 係與該虛擬直線S實質上平行,但本創作不以此為限。 當使用者施力以撥動夾固部20時,夾固部20能以虛擬 直線S為軸線朝一第一方向翻轉,此處第一方向係為一 順時針方向或一逆時針方向。 如圖1B所示,本創作之理線結構1更包括至少一 黏合部80,係設置於片狀本體5之周邊,藉以黏合於 電子裝置殼體或其他待理線之裝置部位。此黏合部80 係可使用黏著劑、雙面膠或其他具有黏著性質之材料所 形成,在本實施例中,黏合部80係設置於片狀本體5 中實質上平行於虛擬直線S之二側周邊,亦可依設計僅 設置於片狀本體5之各個角落或設置於片狀本體5之所 有周邊,不以本實施例為限。 請參考圖1C係本創作之理線結構1之第一實施例 之使用狀態圖。 如圖1C所示,當夾固部20受到外力翻起後,夾 固部20與片狀本體5之其他部分係形成一夾固結構, 可供放置薄片狀線材220於二者之間;當外力消失後, 夾固部20依據自身材料之彈性恢復力朝相反於第一方 向之方向翻轉,以央固住薄片狀線材220。 此外,又如圖1A所示,片狀本體5更包括子溝槽 8 30及子夾固部40。子溝槽30亦為貫穿片狀本體5之鏤 空槽,且子溝槽30位於虛擬直線S與溝槽10所包圍之 該區域内。子溝槽30之形狀構造、長度亦會依據設計 不同而改變。子溝槽30包括子溝槽起始端31、子溝槽 終端32及至少一子溝槽彎折部,在本實施例中,至少 一子溝槽彎折部包括第一子溝槽彎折部33及第二子溝 槽彎折部34,使得子溝槽30係設計自子溝槽起始端31 開始延伸,在依序經過第一子溝槽彎折部33及第二子 溝槽彎折部34後,最後抵達子溝槽終端32,因此形成 一 U形溝槽。而溝槽10及子溝槽30設計為彼此形狀 構造相同、但尺寸不同且方向相反。 子夾固部40亦可受到外力翻起以夾固薄片狀線 材。自子溝槽起始端31至子溝槽終端32能以一條子虛 擬直線S1相連接,而子夾固部40大致上為該子虛擬直 線S1與子溝槽30所包圍之子區域。其中子虛擬直線 S1係與虛擬直線S實質上平行。在本實施例中,第一 子溝槽彎折部33至子溝槽起始端31之距離L1 (等同 於第二子溝槽彎折部34至子溝槽終端32之距離)不小 於所夾固之薄片狀線材之寬度,以便完全夾固住薄片狀 線材,但本創作不以此為限。 當使用者施力以撥動子夾固部40時,子夾固部40 亦能以子虛擬直線S1為轴線朝相反於第一方向之第二 M438102 方向翻轉(若第一方向為順時針方向,則第二方向為逆 時針方向;反之亦然),以供夾固薄片狀線材。 請參考圖1D係本創作之理線結構1之第一實施例 之另一使用狀態圖。 如圖id所示,子夾固部40可單獨使用以夾固薄 片狀線材220,或是配合前述夾固部20應用於同一線 · 材之反覆繞線或不同線材之交疊固定。如圖所示,在炎 固部20已夾固薄片狀線材220之狀態下,子夾固部40 φ 受到外力翻起後,子夾固部40可與剩餘片狀本體5之 其他部分係形成另一夾固結構,以供放置另一薄片狀線 材240於二者之間;當外力消失後,子夾固部40依據 自身材料之彈性恢復力朝第一方向翻轉,以夾固住薄片 狀線材240。因此,藉由子夾固部40配合前述夾固部 20之設置,可提供本創作之理線結構1之雙重線材夾 固功能,但本創作不以此為限。 籲 請一併參考圖2A及圖2B。圖2A係本創作之理線 結構la之第二實施例之結構示意圖。圖2B係本創作之 理線結構la之第二實施例之使用狀態圖。 如圖2A所示,在本實施例中,本創作之理線結構 la之片狀本體5a之溝槽10a僅包括一假彎折部13a, 亦即溝槽l〇a自起始端11a開始延伸,於經過彎折部13a 後,即抵達終端12a,因此形成一 L形溝槽。起始端11a 10 至彎折部13a之距離相等於終端12a至彎折部13a之距 離,並且二者皆大於薄片狀線材之寬度。 自溝槽10a之起始端11a至終端12a能以一條虛擬 直線S’相連接,而夾固部20a大致上為該虛擬直線S’ 與溝槽10a間所包圍之區域。當使用者施力以撥動夾固 部20a時,夾固部20a能以虛擬直線S’為軸線朝一第 一方向翻轉,此處第一方向係為一順時針方向或一逆時 針方向。 片狀本體5a更包括一轉向槽50a,轉向槽50a亦 為貫穿片狀本體5a之鏤空槽;此轉向槽50a具有實質 上平行於虚擬直線S’之一斜邊,且該斜邊之設置位置 係對應溝槽l〇a之位置,以供穿過轉向槽50a之薄片狀 線材係可沿著該斜邊翻折以形成一角度轉折。在本實施 例中,轉向槽50a係為一等腰直角三角形之鏤空槽,其 形成直角之二邊係不小於薄片狀線材之寬度,且該二邊 經延伸後可分別相交於溝槽l〇a之起始端11a及終端 12a,而形成一矩形,較佳者為正方形,但不以本實施 例為限。而該斜邊係相對於溝槽10a呈45度角,以提 供線材可執行實質上90度角之轉折功能。 如圖2B所示,當夹固部20a受到外力翻起後,夾 固部20a與片狀本體5之其他部分係形成一夾固結構, 薄片狀線材220可先自溝槽10a (起始端11a至彎折部 11 M438102 13a之一側)穿過央固部20a之下,接著自轉向槽50a 穿出,並藉由轉向槽50a之斜邊使得薄片狀線材220翻 折以形成90度之角度轉折;當外力消失後,夾固部20a 依據自身材料之彈性恢復力朝相反於第一方向之方向 翻轉,以達到針對薄片狀線材220之轉向夾固功能。 此外,又如圖2A所示,片狀本體5a更包括子溝 槽30a及子夾固部40a。子溝槽30a亦為貫穿片狀本體 5a之鏤空槽,且子溝槽30位於虛擬直線S’與溝槽10a 所包圍之該區域内,並對應於轉向槽50a之位置。在本 實施例中,子溝槽30a僅包括一個子溝槽彎折部33a, 子溝槽30係設計自子溝槽起始端31a開始延伸,於經 過子溝槽彎折部33a後,即抵達子溝槽終端32a而形成 一 L形溝槽。而溝槽10a及子溝槽30a設計為彼此形狀 構造相似、但尺寸不同且方向相異。 自子溝槽起始端3la至子溝槽終端32a能以一條子 虛擬直線S1’相連接,而子夾固部40a大致上為該子 虛擬直線S1’與子溝槽30a所包圍之子區域。如圖4 所示,在本實施例t,當使用者施力以撥動子夾固部 40a時,子夾固部40a亦能以子虛擬直線S1’為轴線朝 不同於第一方.向之第二方向翻轉,以供輔助夾固自轉向 槽50a伸出之薄片狀線材220,但本創作不以此為限。 因此,藉由子夾固部40a配合前述失固部20a之設置, 12 M438102 更月匕提供本創作之理線結構la之線材轉向及穩定爽固 功能。 請參考圖3A係本創作之理線結構比 例之結構示意圖。 本實施例係為前述第一實施例之變化形式,以提供 t有效之線材固定功能。如圖3A所示,在本實施例中, 本創作之理線結構lb之片狀本體5b包括溝槽_、第 • -夹固部20b及第二夹固部20c。其中溝槽1〇b亦為貫 穿片狀本體5之鏤空槽,其包括起始端Ub、終端nb、 第著折4 13b、第二彎折部隱、第三脊折部⑽及 第^折部16b。在本實施财,溝槽⑽係設計自起 始端Ub開始延伸,在依序經過第一彎折部、第二 彎折部14b、第三彎折部15b及第四f折部i6b後,最 _ 後抵達終端12b,因此形成一 S形或倒8形溝槽。 ^第夾固。卩大致上係為連接起始端1 η及第三 彎折部15b之第一虛擬直線S3與溝槽1%所包圍之第 *區域,第一夾固部20c大致上為連接終端及第二 彎折部14b之第二虛擬直線S4與溝槽1%所包園之第 二區域,且第一虛擬直線S3與第二虛擬直線^實質上 平行。在本實施例中,第一彎折部13b至起始端ub之 距離L(等同於第二f折部14b至第三彎折部说間以 及第四彎折部16b至終端12b之距離)係不小於所夾固 13 M438102 之薄片狀線材之寬度,以便完全夾固住薄片狀線材。藉 由第一夾固部2〇b以第一虛擬直線S3為軸線朝第一方 向翻轉,且第二夹固部20c以第二虛擬直線S4為軸線 朝相反於第一方向之第二方向翻轉,以供夾固薄片狀線 材。 請參考圖3B係本創作之理線結構lb之第三實施例 - 之使用狀態圖。 · 如圖3B所示,當第一夾固部20b及第二夾固部20c · 分別受到外力翻起後,第一夾固部20b及第二夾固部 20c將分別與片狀本體5b之其他部分係形成不同方向 夾固之結構,可供放置薄片狀線材220同時放置於其 中;當外力消失後,第一夾固部20b及第二夾固部20c 依據自身材料之彈性恢復力以交錯方式前後分別夾固 住薄片狀線材220,使得薄片狀線材220不易自本創作 之理線結構lb之夾固狀態下脫離,以提高線材夾固之籲 穩定性。 此外,又如圖3A所示,片狀本體5b更可包括第 一子溝槽30b、第一子夾固部40b、第二子溝槽30c及 第二子夾固部40c。第一子溝槽30b係貫穿片狀本體5b 且位於第一虛擬直線S3與溝槽10b所包圍之第一區域 内,第一子溝槽30b包括第一子溝槽起始端31b、第一 子溝槽終端32b及至少一第一子溝槽彎折部33b、34b, 14 M438102 在本實施例中,第一子溝槽3〇b係形成一 U形溝槽, 但本創作不以此為限。而溝槽i〇b及第一子溝槽3〇b設 計為彼此形狀構造相同、但尺寸不同且方向相反。第一 子夾固部40b係為連接第一子溝槽起始端31b及第一子 溝槽終端32b之第一子虛擬直線S5與第一子溝槽30b 所包圍之第一子區域。 第二子溝槽30c亦類似前述第一子溝槽30b,係貫 穿片狀本體5b且位於第二虛擬直線S6與溝槽10b所包 圍之第二區域内。第二子溝槽30c包括第二子溝槽起始 端31c、第二子溝槽終端32c及至少一第二子溝槽彎折 部33c、34c,在本實施例中,第二子溝槽30c係形成一 U形溝槽,但本創作不以此為限。第二子夾固部40c係 為連接第二子溝槽起始端31c及第二子溝槽終端32c之 第二子虛擬直線S6與第二子溝槽30c所包圍之第二子 區域。藉由第一子夾固部40b以第一子虛擬直線S5為 轴線朝第二方向翻轉,且第二子夾固部40c以第二子虛 擬直線S6為軸線朝第一方向翻轉,以供夾固薄片狀線 材。 當使用者施力以撥動第一子夾固部40b時,第一子 夾固部40b以第一子虛擬直線S5為轴線朝第二方向翻 轉;而當撥動第二子夾固部40c時,第二子夾固部40c 係以第二子虛擬直線S6為軸線朝第一方向翻轉,以供 15 M438102 夾固薄片狀線材。 請參考圖3C係本創作之理線結構lb之第三實施例 之另一使用狀態圖。 如圖3C所示,該些子夾固部40b、40c亦可配合前 述該些夾固部20b、20c,應用於同一線材之反覆繞線 或不同線材之交疊固定。如圖所示,在第一夾固部20b 及第二夹固部20c已夾固薄片狀線材220之狀態下,第 一子夹固部40b及第二子夹固部40c亦可藉由自身材料籲 之彈性恢復力夾固住薄片狀線材240。因此,藉由該些 子夾固部40b、40c配合前述該些夾固部20b、20c之設 置’可提供本創作之理線結構lb之雙重線材夾固功 能,但本創作不以此為限。 請參考圖4係本創作之理線結構ib之第三實施例 應用於電子裝置200内之使用狀態圖。如圖4所示’於 電子裝置200之殼體210中需要佈線之各位置,貼附設鲁 置本創作之理線結構lb,使得在利用薄片狀線材220 作為電子裝置200内之電子零組件間之電性連接傳輸 線時,可藉由本創作之理線結構lb夾固住薄片狀線材 220 ’令薄片狀線材220沿著殼體21〇内表面設置’達 到較佳之理線效果’並節省殼體21〇内部之使用空間。 應注意的是’上述諸多實施例僅係為了便於說明 而舉例而已,本創作所主張之權利範圍自應以申請專利 M438102 範圍所述為準,而非僅限於上述實施例。 【圖式簡單說明】 圖1A係本創作之理線結構之第一實施例之正面視圖。 圖1B係本創作之理線結構之第一實施例之背面視圖。 圖1C係本創作之理線結構之第一實施例之使用狀態 圖。 圖1D係本創作之理線結構之第一實施例之另一使用狀 態圖。 圖2A係本創作之理線結構之第二實施例之結構示意 圖。 圖2B係本創作之理線結構之第二實施例之使用狀態 圖。 圖3A係本創作之理線結構之第三實施例之結構示意 圖。 圖3B係本創作之理線結構之第三實施例之使用狀態 圖。 圖3C係本創作之理線結構之第三實施例之另一使用狀 態圖。 圖4係本創作之理線結構之第三實施例應用於電子農 置内之使用狀態圖。 17 M438102 【主要元件符號說明】 理線結構1、la、lb 片狀本體5、5a、5b 溝槽 10、10a、10b 起始端 11、11a、lib 終端 12、12a、12b 彎折部 13、14、13a、14a、13b、14b、15b、16b 夾固部20、20a 第一夾固部20b 第二子溝槽20c 子溝槽30、30a 第一子溝槽30b 第二子溝槽30c 子溝槽起始端31、31a 第一子溝槽起始端31b 第二子溝槽起始端31c 子溝槽終端32、32a 第一子溝槽終端32b 第二子溝槽終端32c 子溝槽彎折部33、34 . 第一子溝槽彎折部33b、34b 第二子溝槽彎折部33c、34c 18M438102 V. New description: [New technical field] This creation is about a cable management structure, especially a cable management structure for sheet-like wires. [Prior Art] Various electronic devices, such as portable computers, A desktop computer, etc., contains many sophisticated electronic components, and these components are usually electrically connected through wires such as transmission lines or cables to provide data transmission for power supply and the like. . With the portability and slim design of electronic devices, the installation or configuration space for various components and related wires in the device is also limited. Generally, the wire is mostly cylindrical, and the wire is usually suspended directly in the internal space during installation. When the number of wires is large, the space is occupied and it is difficult to organize. In order to meet this situation, the wire-shaped wire is designed to be designed. The wire itself is relatively flat and can be directly attached to the surface of the housing of the device. At present, the gluing method is often used for the fixing method of the sheet-like wire. For example, a glue material (for example, an adhesive or a double-sided tape) is directly applied to the wire to be fixed in the device casing; however, if the wire is adhered and fixed, if it is to be changed again The position of the wire may be too strong due to the adhesiveness of the glue material, which causes the wire inside the wire to break during the process of removal and pulling, resulting in poor signal or short circuit; then the wire must be re-applied with glue 3 M438102 material, increase Trouble with assembly. Even with reusable gluing materials, adhesion can be reduced after multiple passes, which can affect gluing. Therefore, how to provide a cable management structure that is easy to set up and can be reused is a subject worthy of study. [New content] The main purpose of this creation is to provide a cable structure for sheet-like wires. In order to achieve the above object, the creative structure of the present invention comprises a sheet-like body, and the sheet-like body comprises a groove and a clamping portion. The groove extends through the sheet body, and the groove includes a starting end, a terminal end and at least one bent portion; the clamping portion is a region surrounded by a virtual straight line and a groove connecting the starting end and the terminal end. The nip is turned in a first direction with the virtual straight line as an axis for clamping the sheet-like wire. In one embodiment of the present invention, the grooves are substantially L-shaped grooves or U-shaped grooves. In an embodiment of the present invention, the sheet-like body further includes a sub-groove and a sub-clamp. The sub-groove extends through the sheet-like body and is located in a region surrounded by the virtual straight line and the groove, the sub-groove includes a sub-groove starting end, a sub-groove terminal and at least one sub-groove bending portion; the sub-clamping portion A sub-region surrounded by a sub-trench start end and a sub-trench termination sub-virtual line and sub-trench. The sub-clamping portion is inverted by a sub-virtual straight line in a second direction opposite to the first direction for clamping the sheet-like wire. In an embodiment of the present invention, the sheet-like body of the creative structure of the present invention includes a groove mu portion and a second clamping portion. The groove extends through the s-shaped or inverted s-shaped groove of the sheet-shaped body, and the groove includes a starting end, a terminal end, a first bending portion, a second bending portion, a third bending portion and a fourth bending portion, a clamping portion is a first virtual straight line connecting the starting end and the third bending portion and a first region surrounded by the groove; the second lost solid portion is a second virtual straight line connecting the terminal end and the second bending portion a first region surrounded by the trench, and the first virtual straight line is substantially parallel to the second virtual straight line. The first clamping portion is turned in a first direction with the first virtual straight line as an axis, and the second clamping portion is inverted with the second virtual straight line as a second direction opposite to the first direction for clamping Sheet-shaped wire. In an embodiment of the present invention, the sheet body further includes a first sub-groove, a first sub-clamping portion, a second sub-groove, and a second sub-clamping portion. The first sub-groove extends through the sheet-like body and is located in a first region surrounded by the first virtual straight line and the trench, and the first sub-trench includes a first sub-groove starting end, a first sub-trench terminal, and at least one a first sub-groove bent portion; the first sub-clamping portion is a first sub-virtual line connecting the start end of the first sub-groove and the first sub-trench end and the first sub-cavity surrounded by the first sub-trench region. The second sub-groove extends through the sheet-like body and is located in a second region surrounded by the second virtual straight line and the trench, and the second sub-trench includes a second sub-trench M438102 starting end, a second sub-trending end, and at least a second sub-groove bent portion; the second sub-clamping portion is a second sub-virtual line connecting the second sub-groove start end and the second sub-trunk end and the second sub-trench surrounded by the second sub-groove Sub-area. The first sub-clamping portion is turned in a second direction with the first sub-virtual straight line as an axis, and the second sub-clamping portion is turned in a first direction with the second sub-virtual straight line as an axis for clamping the sheet-like wire . With this design, the creative structure of the present invention is used for clamping the sheet-like wire by the clamping portion formed by the groove design, and the sheet-like structure design is not easy to occupy the space, and is easily disposed in the casing inside the device. It can be reused for better line management. Due to the novel structure of this creation, it can provide industrial use, and it has improved efficiency. Therefore, it applies for a new type of patent according to law. [Embodiment] The above and other objects, features and advantages of the present invention will become more apparent and understood. In the following embodiments, the cable management structure of the present invention is applied to an electronic device using a sheet-like wire, such as a computer device, a portable electronic device or the like, to provide a function of fixing the wire. . The following is a description of a computer device, but this creation is not limited to this. 6 M438102 Please refer to Figure ία and Figure 1B together. Fig. 1 is a front view of the first embodiment of the structure 1 of the present invention; Fig. 1 is a rear view of the first embodiment of the structure 1 of the present invention. As shown in FIG. 1A, the cable structure 1 of the present invention includes a sheet-like body 5 including a groove 10 and a clamping portion 20. The sheet-like body 5 is a body-formed structure made of an elastic plastic material, for example, a polyester film (PC or PET material) or the like. The groove 10 is a hollow groove extending through the sheet-like body 5, and the shape and length of the groove 10 vary depending on the design. The trench 10 includes a starting end 11 , a terminal end 12 and at least one bent portion. In this embodiment, at least one bent portion includes a first bent portion 13 and a second bent portion 14 , so that the groove 10 is designed. Starting from the starting end 11, after sequentially passing through the first bent portion 13 and the second bent portion 14, it finally reaches the terminal 12, thus forming a U-shaped groove. Each of the bent portions 13, 14 is a turning and bending structure having an angle. In the following embodiments of the present invention, each of the bent portions is substantially a right-angled structure, preferably a right-angled structure having rounded corners, but the present invention is not limited thereto. The clip portion 20 can be turned up by an external force to sandwich the sheet-like wire. The initial end 11 of the trench 10 to the terminal 12 can be connected by a virtual straight line S, and the clip solid portion 20 is substantially the area surrounded by the virtual straight line S and the trench 10. In this embodiment, the distance from the first bent portion 13 to the starting end 11 (equivalent to the distance between the second bent portion 14 and the terminal end portion) 7 M438102 is not less than the width of the sandwiched sheet-like wire, so as to be completely The sheet-like wire is clamped, and the connection between the first bent portion 13 and the second bent portion 14 is substantially parallel to the virtual straight line S, but the present invention is not limited thereto. When the user applies a force to move the clamping portion 20, the clamping portion 20 can be inverted in a first direction with the virtual line S as an axis, where the first direction is a clockwise direction or a counterclockwise direction. As shown in FIG. 1B, the structure 1 of the present invention further includes at least one adhesive portion 80 disposed on the periphery of the sheet-like body 5 for bonding to the device housing of the electronic device or other device to be treated. The adhesive portion 80 can be formed by using an adhesive, a double-sided tape or other material having adhesive properties. In the embodiment, the adhesive portion 80 is disposed in the sheet-like body 5 substantially parallel to the two sides of the virtual straight line S. The periphery may be disposed only at each corner of the sheet-like body 5 or at all the periphery of the sheet-like body 5, and is not limited to this embodiment. Referring to Fig. 1C, a state of use of the first embodiment of the cable management structure 1 of the present invention is shown. As shown in FIG. 1C, when the clamping portion 20 is turned up by an external force, the clamping portion 20 and the other portions of the sheet-like body 5 form a clamping structure for placing the sheet-like wire 220 therebetween; After the external force disappears, the nip portion 20 is reversed in the direction opposite to the first direction according to the elastic restoring force of the material to fix the sheet-like wire 220 at the center. Further, as shown in FIG. 1A, the sheet-like body 5 further includes a sub-groove 8 30 and a sub-clamp 40. The sub-grooves 30 are also hollowed through the sheet-like body 5, and the sub-grooves 30 are located in the region surrounded by the virtual straight line S and the trench 10. The shape and length of the sub-grooves 30 also vary depending on the design. The sub-groove 30 includes a sub-groove starting end 31, a sub-groove terminal 32, and at least one sub-groove bent portion. In this embodiment, the at least one sub-groove bent portion includes a first sub-groove bent portion. 33 and the second sub-groove bending portion 34, such that the sub-groove 30 is designed to extend from the sub-groove starting end 31, and is sequentially bent through the first sub-groove bending portion 33 and the second sub-groove portion 33. After portion 34, it finally reaches sub-trunk terminal 32, thus forming a U-shaped groove. The trench 10 and the sub-grooves 30 are designed to have the same shape configuration but different sizes and opposite directions. The sub-clamp 40 can also be flipped by an external force to clamp the sheet-like wire. The sub-groove starting end 31 to the sub-groove terminal 32 can be connected by a sub-virtual line S1, and the sub-clamping portion 40 is substantially a sub-area surrounded by the sub-virtual line S1 and the sub-groove 30. The sub-virtual line S1 is substantially parallel to the virtual line S. In this embodiment, the distance L1 of the first sub-groove bent portion 33 to the sub-groove starting end 31 (equivalent to the distance between the second sub-groove bent portion 34 and the sub-groove terminal 32) is not less than The width of the sheet-like wire is fixed so as to completely clamp the sheet-like wire, but the creation is not limited thereto. When the user applies a force to move the sub-clamping portion 40, the sub-clamping portion 40 can also be inverted in the direction of the second M438102 opposite to the first direction with the sub-virtual line S1 as an axis (if the first direction is clockwise) In the direction, the second direction is counterclockwise; and vice versa) for clamping the sheet-like wire. Please refer to Fig. 1D for another use state diagram of the first embodiment of the cable management structure 1 of the present invention. As shown in Fig. id, the sub-clamping portion 40 can be used alone to clamp the thin wire-shaped wire 220, or can be applied to the reverse winding of the same wire or the overlapping of different wires with the aforementioned clamping portion 20. As shown in the figure, in a state where the stencil portion 20 has been clamped with the sheet-like wire 220, the sub-clamping portion 40 can be formed with the other portions of the remaining sheet-like body 5 after the sub-clamping portion 40 φ is turned up by the external force. Another clamping structure for placing another sheet-like wire 240 therebetween; when the external force disappears, the sub-clamping portion 40 is turned in the first direction according to the elastic restoring force of the material to clamp the sheet Wire 240. Therefore, the double wire clamping function of the wire structure 1 of the present invention can be provided by the sub-clamping portion 40 in cooperation with the arrangement of the aforementioned clamping portion 20, but the present invention is not limited thereto. Please refer to FIG. 2A and FIG. 2B together. Fig. 2A is a schematic view showing the structure of a second embodiment of the structure of the present invention. Fig. 2B is a view showing the state of use of the second embodiment of the thread structure la of the present invention. As shown in FIG. 2A, in the present embodiment, the groove 10a of the sheet-like body 5a of the present invention has only a false bent portion 13a, that is, the groove 10a extends from the starting end 11a. After passing through the bent portion 13a, the terminal 12a is reached, thereby forming an L-shaped groove. The distance from the starting end 11a 10 to the bent portion 13a is equal to the distance from the terminal end 12a to the bent portion 13a, and both are larger than the width of the sheet-like wire. The starting end 11a to the terminal end 12a of the groove 10a can be connected by a virtual straight line S', and the nip portion 20a is substantially the area surrounded by the virtual straight line S' and the groove 10a. When the user applies a force to move the nip 20a, the nip 20a can be inverted in a first direction with the virtual line S' as the axis, where the first direction is a clockwise direction or a counterclockwise direction. The sheet-like body 5a further includes a steering groove 50a, and the steering groove 50a is also a hollow groove extending through the sheet-like body 5a; the steering groove 50a has a bevel substantially parallel to one of the virtual straight lines S', and the oblique side is disposed. Corresponding to the position of the groove l〇a, the sheet-like wire through which the deflection groove 50a passes can be folded along the oblique side to form an angular turn. In this embodiment, the steering groove 50a is a hollow groove of an isosceles right triangle, and the two sides forming the right angle are not less than the width of the sheet-like wire, and the two sides are respectively extended to intersect the groove. The starting end 11a of a and the terminal 12a form a rectangle, preferably a square, but are not limited to this embodiment. The beveled edge is at an angle of 45 degrees with respect to the groove 10a to provide a substantially 90 degree turn function for the wire. As shown in FIG. 2B, after the clamping portion 20a is turned up by the external force, the clamping portion 20a and the other portions of the sheet-like body 5 form a clamping structure, and the sheet-like wire 220 can be first from the groove 10a (starting end 11a). To the side of the bent portion 11 M438102 13a) passes under the central solid portion 20a, then passes through the steering groove 50a, and the lamella of the steering groove 50a causes the sheet-like wire 220 to be folded to form an angle of 90 degrees. When the external force disappears, the clamping portion 20a is turned in a direction opposite to the first direction according to the elastic restoring force of the material to achieve the steering clamping function for the sheet-like wire 220. Further, as shown in Fig. 2A, the sheet-like body 5a further includes a sub-groove 30a and a sub-clamp 40a. The sub-groove 30a is also a hollow groove penetrating through the sheet-like body 5a, and the sub-groove 30 is located in the region surrounded by the virtual straight line S' and the groove 10a, and corresponds to the position of the steering groove 50a. In this embodiment, the sub-groove 30a includes only one sub-groove bent portion 33a, and the sub-groove 30 is designed to extend from the sub-groove starting end 31a, and then arrives after passing through the sub-groove bent portion 33a. The sub-groove terminal 32a forms an L-shaped groove. The trench 10a and the sub-grooves 30a are designed to be similar in shape to each other but different in size and in different directions. The sub-groove starting end 31a to the sub-groove terminal 32a can be connected by a sub-virtual line S1', and the sub-clamping portion 40a is substantially a sub-area surrounded by the sub-virtual line S1' and the sub-groove 30a. As shown in FIG. 4, in the embodiment t, when the user applies a force to move the sub-clamping portion 40a, the sub-clamping portion 40a can also be different from the first side with the sub-virtual straight line S1' as an axis. Turning in the second direction for auxiliary clamping of the sheet-like wire 220 extending from the steering groove 50a, but the present invention is not limited thereto. Therefore, by the sub-clamping portion 40a in cooperation with the arrangement of the aforementioned solid-defining portion 20a, the 12 M438102 further provides the wire turning and stable cooling function of the cable management structure la of the present invention. Please refer to FIG. 3A for a schematic diagram of the structure of the structure of the present invention. This embodiment is a variation of the foregoing first embodiment to provide an effective wire fixing function. As shown in Fig. 3A, in the present embodiment, the sheet-like body 5b of the present invention is provided with a groove_, a first clamping portion 20b and a second clamping portion 20c. The groove 1〇b is also a hollow groove extending through the sheet-like body 5, and includes a starting end Ub, a terminal end nb, a first folding portion 43b, a second bending portion hidden portion, a third ridge folding portion (10) and a second folding portion. 16b. In this implementation, the groove (10) is designed to extend from the starting end Ub, and after passing through the first bending portion, the second bending portion 14b, the third bending portion 15b, and the fourth f folding portion i6b in sequence, the most After reaching the terminal 12b, an S-shaped or inverted 8-shaped groove is formed. ^ The first clamp. The first clamping portion 20c is substantially the connection terminal and the second bending portion. The first clamping portion 20c is substantially connected to the first virtual line S3 connecting the starting end 1 η and the third bending portion 15b and the first region surrounded by the groove 1%. The second virtual straight line S4 of the folded portion 14b and the second region surrounded by the groove 1%, and the first virtual straight line S3 and the second virtual straight line ^ are substantially parallel. In the present embodiment, the distance L from the first bent portion 13b to the starting end ub (equivalent to the distance between the second f-folded portion 14b to the third bent portion and the fourth bent portion 16b to the terminal end 12b) is Not less than the width of the sheet-like wire of the clamped 13 M438102 to completely clamp the sheet-like wire. The first clamping portion 2〇b is inverted in the first direction with the first virtual straight line S3 as the axis, and the second clamping portion 20c is inverted with the second virtual straight line S4 as the axis in the second direction opposite to the first direction. For clamping the sheet-like wire. Please refer to FIG. 3B, which is a diagram showing the state of use of the third embodiment of the present invention. As shown in FIG. 3B, after the first clamping portion 20b and the second clamping portion 20c are respectively turned up by the external force, the first clamping portion 20b and the second clamping portion 20c will respectively be associated with the sheet-like body 5b. The other parts are formed in different directions, and the sheet-like wire 220 can be placed in the same position; when the external force disappears, the first clamping portion 20b and the second clamping portion 20c are staggered according to the elastic restoring force of the material. The sheet-like wire 220 is respectively clamped before and after the manner, so that the sheet-like wire 220 is not easily detached from the clamped state of the line structure lb of the present invention, so as to improve the stability of the wire clamping. In addition, as shown in FIG. 3A, the sheet-like body 5b may further include a first sub-groove 30b, a first sub-clamping portion 40b, a second sub-groove 30c, and a second sub-clamping portion 40c. The first sub-groove 30b extends through the sheet-like body 5b and is located in a first region surrounded by the first virtual straight line S3 and the trench 10b. The first sub-groove 30b includes a first sub-groove starting end 31b and a first sub-groove. The trench terminal 32b and the at least one first sub-groove bent portion 33b, 34b, 14 M438102. In this embodiment, the first sub-groove 3〇b forms a U-shaped trench, but this creation does not limit. The trench i 〇 b and the first sub-trench 3 〇 b are designed to have the same shape configuration but different sizes and opposite directions. The first sub-clamping portion 40b is a first sub-region surrounded by the first sub-glot start end 31b and the first sub-virtual line S5 of the first sub-groove terminal 32b and the first sub-groove 30b. The second sub-groove 30c is also similar to the first sub-groove 30b, and extends through the sheet-like body 5b and is located in the second region surrounded by the second virtual straight line S6 and the groove 10b. The second sub-groove 30c includes a second sub-groove starting end 31c, a second sub-groove terminal 32c, and at least one second sub-groove bent portion 33c, 34c. In this embodiment, the second sub-groove 30c A U-shaped groove is formed, but the creation is not limited thereto. The second sub-clamping portion 40c is a second sub-area surrounded by the second sub-virtual line S6 and the second sub-trench 30c connected to the second sub-groove start end 31c and the second sub-trunk end 32c. The first sub-fitting portion 40b is inverted in the second direction by the first sub-virtual line S5, and the second sub-clamping portion 40c is inverted in the first direction with the second sub-virtual line S6 as an axis. Clamp the sheet wire. When the user applies a force to move the first sub-clamping portion 40b, the first sub-clamping portion 40b is turned in the second direction with the first sub-virtual line S5 as an axis; and when the second sub-clamping portion is toggled At 40c, the second sub-clamping portion 40c is inverted in the first direction with the second sub-virtual line S6 as an axis for the 15 M438102 to clamp the sheet-like wire. Please refer to FIG. 3C, which is another use state diagram of the third embodiment of the cable management structure lb of the present invention. As shown in FIG. 3C, the sub-clamping portions 40b and 40c may be applied to the overlapping wires 20b and 20c of the same wire to be applied to the overlapping windings of the same wire or the overlapping and fixing of different wires. As shown in the figure, in a state where the first clamping portion 20b and the second clamping portion 20c have clamped the sheet-like wire 220, the first sub-clamping portion 40b and the second sub-clamping portion 40c may also be by themselves. The material appeals to the elastic restoring force to clamp the sheet-like wire 240. Therefore, by the arrangement of the sub-clamping portions 40b, 40c with the aforementioned clamping portions 20b, 20c, the double wire clamping function of the cable management structure lb of the present invention can be provided, but the creation is not limited thereto. . Referring to FIG. 4, a third embodiment of the cable management structure ib of the present invention is applied to a usage state diagram in the electronic device 200. As shown in FIG. 4, at each position in the housing 210 of the electronic device 200 where wiring is required, the management structure lb of the present invention is attached, so that the sheet-like wire 220 is used as the electronic component in the electronic device 200. When the transmission line is electrically connected, the sheet-like wire 220' can be clamped by the cable management structure lb of the present invention, so that the sheet-like wire 220 is disposed along the inner surface of the casing 21 to achieve a better line-effect and save the casing. 21 〇 internal use space. It is to be noted that the above-described embodiments are merely examples for the convenience of the description, and the scope of the claims is intended to be limited to the above embodiments. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1A is a front elevational view of a first embodiment of the structure of the present invention. Figure 1B is a rear elevational view of the first embodiment of the present invention. Fig. 1C is a view showing the state of use of the first embodiment of the structure of the present invention. Fig. 1D is another use state diagram of the first embodiment of the cable structure of the present invention. Fig. 2A is a schematic structural view showing a second embodiment of the management structure of the present invention. Fig. 2B is a view showing the state of use of the second embodiment of the management structure of the present invention. Fig. 3A is a schematic structural view showing a third embodiment of the management structure of the present invention. Fig. 3B is a view showing the state of use of the third embodiment of the management structure of the present invention. Fig. 3C is another view showing the use of the third embodiment of the structure of the present invention. Fig. 4 is a view showing the state of use of the third embodiment of the structure of the present invention applied to an electronic farm. 17 M438102 [Description of main component symbols] Cable structure 1, la, lb Chip body 5, 5a, 5b Grooves 10, 10a, 10b Starting end 11, 11a, lib Terminals 12, 12a, 12b Bending parts 13, 14 , 13a, 14a, 13b, 14b, 15b, 16b clamping portion 20, 20a first clamping portion 20b second sub-groove 20c sub-groove 30, 30a first sub-groove 30b second sub-groove 30c sub-groove Slot start end 31, 31a First sub-groove start end 31b Second sub-groove start end 31c Sub-groove termination 32, 32a First sub-trunk termination 32b Second sub-groove termination 32c Sub-groove bend 33 34. First sub-groove bent portions 33b, 34b Second sub-trunk bent portions 33c, 34c 18