M419-200 五、新型說明: 【新型所屬之技術領域】 [0001] 本創作係有關一種纜線結構,尤指一種纜線配置結構。 【先前技術】 [0002] 由於科技的進步和資訊網路的蓬勃發展,已使人們的生 活作息產生了相當幅度的改變,其中在網路方面大部份 皆需要透過纜線結構或光纖來進行連接和訊號傳遞,是 以纜線結構的設計良莠,將直接影響到訊號的傳輸速度 和傳輸品質,本創作人基於前述理由對纜線結構進行如 本案的創新改良。 [0003] 習知纜線結構,主要包括有電力線、接地線和訊號線, 電力線和訊號線間以併攏貼靠方式結合後,再以一絕緣 層用射出方式予以包覆成型,且電力線、接地線和訊號 線之線體間又以收編成束方式來組合,並藉助一連接器 來供前述電力線、接地線和訊號線的一端來插接;如此 ,以組合成一瘦線結構。 [0004] 然而,習知纜線結構,其電力線、接地線和訊號線是以 併攏貼靠方式結合,由於訊號線是屬於高頻率的電氣訊 號,將影響到其它各種低頻的電氣訊號的傳輸。另由於 各訊號線並不是以規則方式被佈設,各訊號線的電氣訊 號將產生相互干擾的情況,而影響到電氣訊號的傳輸品 質。 【新型内容】 [0005] 本創作之一目的,在於提供一種纜線配置結構,其係藉 表單編號A0101 第3頁/共16頁 M419200 由各訊號端子的分隔配置,可在不相互干擾的情況下進 '‘ ’‘行訊號的傳輸。 ' [0006] 為了達成上述之目的,本創作提供一種纜線配置結構, 包括一連接器、複數電力線、一接地線及二訊號線,該 連接器具有一座體,在該座體内部分隔有相鄰接的多數 端子容槽;每一該電力線包含一電力芯線及電連接該電 力芯線的一電力端子,各該電力端子分別插接在該端子 容槽内;該接地線包含一接地芯線及電連接該接地芯線 的一接地端子,該接地端子亦插接在該端子容槽内;每 一該訊號線包含一訊號芯線及電連接該訊號芯線的一訊 號端子,該二訊號端子係以不相鄰方式分別插接在該端 子容槽内。 [0007] 本創作還具有以下功效,其利用接地端子佈設在二訊號 端子之間,以使此二訊號端子更具有良好的隔絕屏蔽效 果。其藉由電力線、接地線及訊號線的獨立包覆製作, 可有效的防止彼此間的頻率差異所產生干擾情況,進而 提昇此纜線配置結構的傳輸品質。 【實施方式】 [0008] 有關本創作之詳細說明及技術内容,配合圖式說明如下 ,然而所附圖式僅提供參考與說明用,並非用來對本創 作加以限制者。 [0009] 請參閱第一及二圖所示,本創作係提供一種纜線配置結 構,本實施例主要包括一連接器10、四條電力線20、一 條接地線30及二條訊號線40。 表單编號A0101 第4頁/共16頁 [0010] 連接器10為以塑膠等絕緣材料所製成,其具有_中空圓 筒幵i庳釋11和連接在圓筒形座體11端部的一旋紐12所組 成,在座體11内部具有多數的隔板13,以分隔形成有相 互鄰接的多數端子容槽。本實施例的端子容槽個數為七 ,但不以此種型態為限;此等端子容槽14主要包含在中 間位置的一第一槽孔141及以第一槽孔141為中心且依序 環形排列的第二至七槽孔142、143、144、145、U6、 147 « [0011] 每一電力線20包含一電力芯線21及電連接電力芯線21的 一電力端子22 ’電力:¾線21可為一銅線,電力端子22則 可如本實施例的一公接頭,各電力端子22分別插接在前 述的端子容槽14的第二槽孔142、第四槽孔144、第五槽 孔145及第七槽孔147中。另在各電力芯線21的外表面包 覆有一絕緣層23,此絕緣層23可為聚乙烯(pe)、聚氯乙 烯(PVC)、聚丙烯(PP)或耐燃聚乙烯(FRPE)所構成》此 外,四條電力線20中有二條火線和二條地線,此二條火 線亦分別被二條地線所分隔而不相鄰;本實施例的二條 火線的電力端子22分別為位在第二槽孔142和第五槽孔 145中,二條地線的電力端子22則分別為位在第四槽孔 144和第七槽孔147中。 [0012] 接地線30包含一接地芯線31及電連接接地芯線31的一接 地端子32 ’接地芯線31可為一銅線,接地端子32則可如 本實施例的一公接頭’接地端子32插接在前述的端子容 槽14的第一槽孔141中。另在接地芯線31的外表面包覆有 一絕緣層3 3,此絕緣層3 3亦可為聚乙稀、聚氣乙稀、聚 表單编號Α0101 第5頁/共16頁 M419200 丙烯或耐燃聚乙烯所構成。 [0013] 每一訊號線40包含一訊號芯線41及電連接訊號芯線41的 一訊號端子42,訊號芯線41可為一銅線,訊號端子42則 可如本實施例的一公接頭,其中的一訊號端子42插接在 前述的端子容槽14的第三槽孔143中,另一訊號端子42則 插接在前述的端子容槽14的第六槽孔146中,此二訊號端 子42係以不相鄰方式配設。另在訊號芯線41的外表面包 覆有一絕緣層43,此絕緣層43同理可為聚乙烯、聚氣乙 烯、聚丙烯或耐燃聚乙烯(FRPE)所構成。 [觀4] 請參閱第三圖所示,本創作的纜線配置結構除了可為上 述實施例外’其各電力端子22分別插接在前述的端子容 槽14的第一槽孔141、第二槽孔142 '第三槽孔143、第 四槽孔144中。接地端子32插接在前述的端子容槽14的第 六槽孔146中。其中的一訊號端子42插接在前述的端子容 槽14的第五槽孔145中,另一訊號端子42則插接在前述的 端子容槽14的第七槽孔147中,此二訊號端子42係以不相 鄰方式配設。本實施例的二條火線的電力端子22分別為 位在第二槽孔142和第四槽孔144中,二條地線的電力端 子22則分別為位在第一槽孔141和第三槽孔143中。 [0015] 請參閱第四及五圖所示,本創作的纜線配置結構除了可 為上述實施例外,其亦可為與上述連接器1〇連接的一對 接連接器10 ’,此缆線配置結構與前述實施例的主要區別 在於:其各電力端子22’為與前述各電力端子22相互插接 導通的一母接頭;接地端子32’亦為與前述接地端子32相 互插接導通的一母接頭;同理,訊號端子42,亦為與前述 表單编號A0101 第6頁/共16頁 訊號端子42相互插接導通的一母接頭。且各電力端子22’ 、接地端子32’.和訊號端子42’.與前述各槽孔的配設方式 則與前述實施例相同。 [0016] 請參閱第六圖所示,本創作的纜線配置結構使用時,以 連接器10對正於對接連接器10’做插接,並令各電力端子 22、22’、各接地端子32、32’和各訊號端子42、42’相 互插接,繼之以旋鈕12旋入對接連接器10’的螺紋段而結 合,在對其進行通電後即可令前述的各端子電性導通。 [0017] 綜上所述,本創作之纜線配置結構,確可達到預期之使 用目的,而解決習知之缺失,又因極具新穎性及進步性 ,完全符合新型專利申請要件,爰依專利法提出申請, 敬請詳查並賜准本案專利,以保障創作人之權利。 【圖式簡單說明】 [0018] 第一圖係本創作之纜線配置結構組合外觀圖。 [0019] 第二圖係本創作之纜線配置結構組合剖視圖。 [0020] 第三圖係本創作之另一實施例組合剖視圖。 [0021] 第四圖係本創作之又一實施例組合外觀圖。 [0022] 第五圖係本創作之又一實施例組合剖視圖。 [0023] 第六圖係本創作之纜線配置結構使用狀態圖。 【主要元件符號說明】 [0024] <本創作> [0025] 10…連接器 表單編號A0101 第7頁/共16頁 M419200 [0026] 10’…對接連接器 [0027] 11…座體 [0028] 1 2…旋紐 [0029] 13…隔板 [0030] 141…第一槽孔 [0031] 142…第二槽孔 [0032] 14 3…第三槽孔 [0033] 144…第四槽孔 [0034] 145…第五槽孔 [0035] 146…第六槽孔 [0036] 147…第七槽孔 [0037] 20…電力線 [0038] 21···電力芯線 [0039] 22、22’…電力端子 [0040] 23…絕緣層 [0041] 30…接地線 [0042] 31…接地芯線 [0043] 32、32’…接地端子 [0044] 33…絕緣層 [0045] 40…訊號線 表單編號A0101 第8頁/共16頁 M419200 [0046] 41…訊號芯線 [0047] 42、42’…訊號端子 [0048] 43···絕缘層M419-200 V. New description: [New technical field] [0001] This creation is about a cable structure, especially a cable configuration. [Prior Art] [0002] Due to the advancement of technology and the rapid development of information networks, people's life and work have undergone considerable changes. Most of the network needs to be carried out through cable structures or optical fibers. Connection and signal transmission are based on the design of the cable structure, which will directly affect the transmission speed and transmission quality of the signal. The creator has made innovative innovations in the cable structure based on the above reasons. [0003] The conventional cable structure mainly includes a power line, a ground line, and a signal line. The power line and the signal line are combined in a close-fitting manner, and then an insulating layer is overmolded by an injection method, and the power line and the ground are grounded. The lines of the line and the signal line are combined in a bundled manner, and a connector is used to connect one end of the power line, the ground line and the signal line; thus, to form a thin wire structure. [0004] However, in the conventional cable structure, the power line, the ground line, and the signal line are combined in a close-to-close manner. Since the signal line is a high-frequency electrical signal, it will affect the transmission of other various low-frequency electrical signals. In addition, since the signal lines are not arranged in a regular manner, the electrical signals of the various signal lines will interfere with each other and affect the transmission quality of the electrical signals. [New Content] [0005] One of the purposes of this creation is to provide a cable configuration structure, which is separated from each signal terminal by form number A0101, page 3/16, M419200, without mutual interference. The transmission of the ''signal''. [0006] In order to achieve the above object, the present invention provides a cable arrangement structure including a connector, a plurality of power lines, a ground line and two signal lines, the connector having a body with a phase separated inside the body a plurality of adjacent terminal receptacles; each of the power lines includes a power core wire and a power terminal electrically connected to the power core wire, wherein the power terminals are respectively inserted into the terminal receptacle; the ground wire includes a ground core wire and electricity a grounding terminal connected to the grounding core, the grounding terminal is also inserted into the terminal receiving slot; each of the signal wires includes a signal core wire and a signal terminal electrically connected to the signal core wire, and the two signal terminals are not in phase The adjacent modes are respectively inserted into the slot of the terminal. [0007] The present invention also has the following effects: the grounding terminal is disposed between the two signal terminals, so that the two signal terminals have better isolation shielding effect. It is fabricated by independent coating of power lines, grounding lines and signal lines, which can effectively prevent interference caused by frequency differences between them, thereby improving the transmission quality of the cable configuration structure. DETAILED DESCRIPTION OF THE PREFERRED EMBODIMENTS [0008] The detailed description and technical contents of the present invention are described below with reference to the drawings, but the drawings are only for reference and description, and are not intended to limit the creation. [0009] Please refer to the first and second figures. The present invention provides a cable configuration. The present embodiment mainly includes a connector 10, four power lines 20, a ground line 30, and two signal lines 40. Form No. A0101 Page 4 of 16 [0010] The connector 10 is made of an insulating material such as plastic, which has a hollow cylinder and a connection to the end of the cylindrical body 11. A knob 12 is formed, and a plurality of partition plates 13 are formed inside the seat body 11 to form a plurality of terminal receptacles adjacent to each other. The number of the terminal receptacles in the embodiment is seven, but is not limited to this type; the terminal receptacles 14 mainly include a first slot 141 at the intermediate position and centered on the first slot 141. Second to seventh slots 142, 143, 144, 145, U6, 147 sequentially arranged in a ring pattern [0011] Each power line 20 includes a power core 21 and a power terminal 22 electrically connected to the power core 21 'electricity: 3⁄4 The wire 21 can be a copper wire, and the power terminal 22 can be a male connector of the embodiment. The power terminals 22 are respectively inserted into the second slot 142 and the fourth slot 144 of the terminal receptacle 14 . The five slots 145 and the seventh slot 147 are in the middle. In addition, an outer surface of each power core wire 21 is covered with an insulating layer 23, which may be made of polyethylene (PE), polyvinyl chloride (PVC), polypropylene (PP) or flame resistant polyethylene (FRPE). In addition, the two power lines 20 have two live lines and two ground lines, and the two live lines are also separated by two ground lines and are not adjacent to each other; the power terminals 22 of the two live lines of the embodiment are located in the second slot 142 and In the fifth slot 145, the power terminals 22 of the two ground wires are located in the fourth slot 144 and the seventh slot 147, respectively. [0012] The grounding wire 30 includes a grounding wire 31 and a grounding terminal 32 electrically connected to the grounding wire 31. The grounding wire 31 can be a copper wire, and the grounding terminal 32 can be inserted into the grounding terminal 32 of the male connector of the embodiment. Connected to the first slot 141 of the aforementioned terminal receptacle 14. In addition, an outer surface of the grounding core wire 31 is covered with an insulating layer 3 3 , which may also be polyethylene, polyethylene, poly form number Α 0101, page 5 / total 16 pages M419200 propylene or flame resistant polymerization Made up of ethylene. [0013] Each signal line 40 includes a signal core wire 41 and a signal terminal 42 electrically connected to the signal core wire 41. The signal core wire 41 can be a copper wire, and the signal terminal 42 can be a male connector according to the embodiment. The signal terminal 42 is inserted into the third slot 143 of the terminal slot 14 , and the other signal terminal 42 is inserted into the sixth slot 146 of the terminal slot 14 . The two terminals 42 are connected. It is arranged in a non-adjacent manner. Further, the outer surface of the signal core wire 41 is covered with an insulating layer 43, which may be made of polyethylene, polyethylene, polypropylene or flame resistant polyethylene (FRPE). [View 4] Referring to the third figure, the cable arrangement of the present invention may be the first slot 141 and the second of the terminal receptacles 14 respectively. The slot 142' is in the third slot 143 and the fourth slot 144. The ground terminal 32 is inserted into the sixth slot 146 of the aforementioned terminal receptacle 14. One of the signal terminals 42 is inserted into the fifth slot 145 of the terminal slot 14 , and the other signal terminal 42 is inserted into the seventh slot 147 of the terminal slot 14 , the two signal terminals The 42 series are arranged in a non-adjacent manner. The power terminals 22 of the two live wires of the present embodiment are located in the second slot 142 and the fourth slot 144, respectively, and the power terminals 22 of the two ground wires are located in the first slot 141 and the third slot 143, respectively. in. [0015] Please refer to the fourth and fifth figures. In addition to the above-mentioned implementation, the cable configuration of the present invention may also be a pair of connectors 10' connected to the connector 1A. The main difference between the structure and the foregoing embodiment is that each of the power terminals 22' is a female connector that is electrically connected to the power terminals 22; the ground terminal 32' is also a female plugged into the ground terminal 32. Similarly, the signal terminal 42 is also a female connector that is electrically connected to the signal terminal 42 of the form number A0101 and the 16th page. Further, the arrangement of each of the power terminals 22', the grounding terminals 32'., and the signal terminals 42'. and the aforementioned slots is the same as that of the foregoing embodiment. [0016] Referring to the sixth figure, when the cable configuration structure of the present invention is used, the connector 10 is connected to the mating connector 10', and the power terminals 22, 22' and the ground terminals are respectively connected. 32, 32' and each of the signal terminals 42, 42' are inserted into each other, and then the knob 12 is screwed into the threaded section of the mating connector 10', and after the power is applied, the aforementioned terminals can be electrically connected. . [0017] In summary, the cable configuration structure of the present invention can achieve the intended use purpose, and solve the lack of conventional knowledge, and because of the novelty and the progressiveness, fully meet the requirements of the new patent application, and convert the patent. To file an application, please check and grant the patent in this case to protect the rights of the creator. [Simple Description of the Drawings] [0018] The first figure is a combined appearance of the cable configuration structure of the present creation. [0019] The second drawing is a sectional view of a cable arrangement structure of the present invention. [0020] The third drawing is a combined cross-sectional view of another embodiment of the present creation. [0021] The fourth figure is a combined appearance of another embodiment of the present creation. [0022] The fifth drawing is a combined sectional view of still another embodiment of the present creation. [0023] The sixth figure is a usage state diagram of the cable configuration structure of the present creation. [Description of Main Component Symbols] [0024] <This Creation> [0025] 10... Connector Form No. A0101 Page 7 of 16 M419200 [0026] 10'...Docking Connector [0027] 11... Seat [ 0028] 1 2... knob [0029] 13... partition [0030] 141... first slot [0031] 142... second slot [0032] 14 3... third slot [0033] 144... fourth slot Hole [0034] 145... Fifth slot [0035] 146... Sixth slot [0036] 147... Seventh slot [0037] 20... Power line [0038] 21···Power core [0039] 22, 22' ...power terminal [0040] 23...insulation layer [0041] 30...grounding wire [0042] 31...grounding core wire [0043] 32,32'...grounding terminal [0044] 33...insulation layer [0045] 40...signal line form number A0101 Page 8 of 16 M419200 [0046] 41... Signal Core [0047] 42, 42'... Signal Terminal [0048] 43···Insulation
表單編號A0101 第9頁/共16頁Form No. A0101 Page 9 of 16