五、新型說明: 【新型所屬之技術領域】 本創作是有關於一種具有排線之連接器裝置,特 別是有關於一種具有捲繞排線結構之連接器裝置。 【先前技術】 按,軟性扁平線纜(Flexible Flat Cable),簡 稱為軟性排線或FFC,是一種用PET絕緣材料和極 薄的鍍錫扁平銅線透過高科技自動化設備生產線壓 合而成的數據線纜。軟性排線為一種訊號傳輪用元 件,本身具有可任意撓曲、高訊號傳輸能力等優點, 因此被廣泛的應用在許多電子產品中,該軟性排線 係與電連接器搭配使用,以將訊號由一端傳遞至另 外一端,達到訊號傳遞之目的。 一般來說,軟性排線的結構均為三層結構,由 上而下依序為:絕緣層、導線層、絕緣層的排列方 式,每一導線相互分離設置,並部份外露於軟性排 線兩端以形成導接點,當軟性排線連接於兩系統間 時,軟性排線任意一端上的導接點與其中一系統電 性接觸,而每一導接點所接收到的訊號會傳遞至軟 性排線另一端上所相對應之導接點上,且向另一^ 統傳遞,以達到兩系統間訊號傳遞的目的。 >、 然而,一般軟性排線結構内之導線層係由複數 2平行排列之鍍錫扁平銅線所組成,所以其所佔之 知、向寬度是需要有一定適當的距離大小,如此當軟 性排線要安裝進人小尺寸的管狀空間時,因為無法 將軟性排線之橫向寬度適當的加以彎折縮小尺寸, 所以時常會產生無法順利將軟性排線塞人小尺寸之 管狀空間的問題。 【新型内容】 ★習知之軟性排線的橫向寬度是需要有一定的距 離大小,因為無法將軟性排線的橫向寬度適當的加 Μ折縮小尺寸’所以時常會產生無法順利將軟性 排線塞入小尺寸之管狀空間的問題。 不剧作提供—種具有排線之連接H裝置,包括 線tu一連接器以及一第二連接器,其中排 ,,匕括體線路層以及包覆導體線路層之—絕緣 層,絕緣層設有複數條分條切割區,且排線包括一 2部、-捲繞部與-後端部,捲繞部位於前端部 ”後端部之間’且前端部係可相對於後端部扭轉以 =捲繞部’第一連接器組裝於排線之前端部,第 一連接器組裝於排線之後端部。 M379203 • ㈣來捲繞排線以形成具有捲繞結構的排線,由於 捲繞結構會使得排線的橫向寬度順利地彎折縮小, 如此即可解決習知軟性排線無法順利將其塞入小尺 寸之管狀空間的問題。 【實施方式】 «月參閱第-圖至第七圖’本創作係提供一種且 • 有排線之連接器裝置丨,其包括一排線2、一第一連 接器3以及一第二連接器4 ’其中排線2包括一導 體線路層24以及包覆該導體線路層24之一絕緣層 20,且該絕緣層20設有複數條分條切割區28,且 排線2係可區分為一前端部2卜一捲繞部23與一 後端部25,捲繞部23位於前端部21與後端部25 之間,且前端部21係可相對於後端部託扭轉以形 成此捲繞部23。第-連接器3組裝於排線2之前端 齡部21,第二連接器4組裝於排線2之後端部25,此 - 捲繞部23的橫向寬度大小因為捲繞縮小尺寸的緣 故,所以比前端部21與後端部25的寬度大小都要 來得小,因此可以順利將此捲繞部23塞入小尺寸之 管狀空間(未繪示)内。 在本實施例中,在排線2之絕緣層2〇上更設有 一金屬遮蔽層(未繪示),此金屬遮蔽層係為一導電 鋁箔,然不限於此,網印銀漿等其它可防止電磁波 5 干擾(EMI )的金屬遮蔽層都可以使用。另外,在排 線2之前端部21相對於其後端部25扭轉以形成此 捲繞部23後,更可以設有—包裹辅材5包圍捲嘵邱 23,以使捲繞部23所形成的捲繞結構更為穩固了在 本實施例中,此包裹輔材5係為一導電㈣然不 限於此,該包裹輔材5亦可為一醋酸布或是磁環。 ^在本實施例中,第一連接器3與第二連接器4 係皆為相同結構且適用於低壓差分信號(Lv此)之 連接器 '然*限於此,第一連接器3與第二連接器 4兩者可以彼此為不同結構之連接器接頭,或亦可 =皆為不適用於低壓差分信號傳輸之連接器Y在本 貫施例中,第—連接器3包括下殼體⑽、絕緣本體 ^合層34、電路板32以及上殼體36,電路板 衫層34固定於絕緣本體3〇上,下殼體38 體^“邑緣本體30之下’上殼體36組裳於絕緣本 f 30以及電路板32之上。值得一 f 另一種選擇的結構只剩下 ,、邑緣本體30、結合層34以及上殼體36,可 ==的導體242來取代電路板⑽作為第一 略下殼體38的設計,亦即本創 了以$ 第-i卓垃〜s 丨不別作之第一連接器3與 二還可有其他選擇性的結構,並不限 本實&财所㈣的詳細結構。 M379203 本Ij作之排線2在未加以捲繞彎折時如第六圖 ”第七圖所不’此排線2包括-導體線路層24以及 :絕緣層20’其中導體線路層24設有平行排列之 複數條導體242,該些導體242之間設有複數條導 體絕緣間距244與分條絕緣間距246,每-導體絕 ‘緣間距244之寬度P係、小於每-分條絕緣間距246 之寬度D。一絕緣層20包覆該導體線路層24,其中 ·· 肖絕緣層20設有複數條分條切割區28,且每一錢 切割區28的位置係對應於導體線路層24之每-分條 絕緣間距246。特別說明的是,為了避免圖形複雜 ^致圖示不清楚,本創作之排線2在捲繞彎折後(如 第圖至第二圖所示)之分條切割區28的數目並不 等於排線2在未加以捲繞f折前(如第六圖與第七 圖所示)之分條切割區28之數目,以使得捲繞彎折 後之排線2上的分條切割區28能夠清楚顯現出來。 • 在本實施例中,此絕緣層20包括一下絕緣層22 以及一上絕緣層26,其中導體線路層24設置於下 絕緣層22上,上絕緣層26設置於下絕緣層22上, 且覆蓋於該導體線路;! 24,上絕緣㉟26設有複數 條分條切割區28 ’每一分條切割區28係為一鏤空 部,且此分條切割區2 8係位於分條絕緣間距2 4 6之 上,此分條切割區28向下垂直延伸貫穿分條絕緣間 距246以及下絕緣層22 ,以使排線結構2上具有貫 穿下絕緣層22、導體線路層24與上絕緣層%之鏤 7 在實施彎折捲繞時 小有很大的幫助。 空部’此鏤空部係對於此排線2 對縮小排線2橫向寬度的尺寸大 έ在本實施例中,分條絕緣間距246係為偶數行 絕緣間距’導體絕緣,244係為奇數行絕緣間 距’且導體絕緣間距244與分條絕緣間距246係彼 此呈交錯排列,另-種說法亦可稱為成對排列,然 =限於此,其他的排列組合方式亦可以使用。位^ 刀條絕緣間距246之上的分條切割區28,其長度小 於絕緣層20 t長度L的大小,且其寬度小於分條絕 緣間距246之寬度D的大小,此分條切割區28是為 了可以能夠更方便地捲繞此排線2而設置。因為本 創作係採用低壓差分信號(LVDS)之訊號傳輸方式, 所以此排線2之複數條導體242係以成對分條的排 列方式較佳,亦即兩條導體242為一組成對的方式 排列,之後再設置分條切割區28於各組之間的分條 絕緣間距246之上,此種成對分條的方式較易控制 捲繞後之特性阻抗,故在本實施例中,每一條導體 絕緣間距244與每一條分條絕緣間距246之間係呈 交錯排列的方式設置。 導體線路層24之複數條導體242包含有複數條 訊號線以及接地線。由於分條絕緣間距246之寬度 D的大何以枝刀#㈣彳分條來形成分條切割^ 28於分條絕緣間距246上,而不致於產生切割不良 而導致導體242損壞的情況,可藉以提高排線2之 生產良率。值得一提的是,在本實施例中,此分條 絕緣間距246之寬度D係為一種固定寬度大小,然 不限於此,此分條絕緣間距246之寬度D可以有兩 種以上的寬度大小選擇,只要這些種類之分條絕緣 ,距246的寬度大小皆大於此導體絕緣間距⑽之 寬度大小即可。 /,·示上所述,本創作之具有排線之連接器裝置, 錢利用刀片在排線上切割分條以形成分條切割 區再利用此分條切割區辅助排線來進行彎折捲 凡X开/成具有捲繞結構的排線,如此可達到缩小 2之橫向寬度大小的目的,藉以解決習知軟性二 線無法順利將其塞人小尺寸之管狀空間的問題。另 條導體之間的不等間距的設計,可以讓出 二;i間大小提供給刀片切割分條來形成分條切 =題?避免產生切割不良所導致之生產良率下降 =、,,田忒明為針對本創作一 惟該實施例並非用以二= 精神下所:3匕未脫離本創作所揭示之技藝 本創作所涵蓋之相㈣中。^更$應包含於 【圖式簡單說明】 第一圖係本創作之具有排線之連接器裝置的立體示意圖。 第二圖係本_之财聽之連接妓置的俯視示意圖。 第三圖係第-圖之具有排線之連接器裝置的立體分解示意 圖。 第四圖係第-®之具有排線之連接器錢之第—連接器的立 體示意圖。 第五圖係第四圖之第-連接㈣立體分解示意圖。 第六圖剌三圖之具有鱗之連接器妓之麟的立體示意 圖。 ^ 第七圖係第六@之排線在另—方向的部份放大示意圖。 【主要元件符號說明】 1 具有排線之連接器裝置 2 排線 20 絕緣層 21 前端部 22 下絕緣層 23 捲繞部 24導體線路層 242導體 244導體絕緣間距 246分條絕緣間距 25 後端部 M379203 上絕緣層 分條切割區 第一連接器 絕緣本體 電路板 結合層 上殼體 下殼體 第二連接器 包裹輔材 11V. New description: [New technical field] The present invention relates to a connector device having a cable, and in particular to a connector device having a wound wire structure. [Prior Art] According to the flexible flat cable (Flexible Flat Cable), referred to as flexible cable or FFC, it is a kind of PET insulation material and very thin tinned flat copper wire which is pressed through the high-tech automation equipment production line. Data cable. The flexible cable is a component for signal transmission, which has the advantages of arbitrary deflection and high signal transmission capability. Therefore, it is widely used in many electronic products. The flexible cable is used with an electrical connector to The signal is transmitted from one end to the other to achieve the purpose of signal transmission. Generally speaking, the structure of the flexible cable is a three-layer structure, and the order of the insulation layer, the wire layer and the insulation layer is sequentially arranged from top to bottom, and each wire is separated from each other and partially exposed to the flexible cable. The two ends form a guiding point. When the flexible cable is connected between the two systems, the guiding point on either end of the flexible cable is in electrical contact with one of the systems, and the signal received by each guiding point is transmitted. To the corresponding guiding point on the other end of the flexible cable, and to the other system to achieve the purpose of signal transmission between the two systems. > However, in general, the wire layer in the flexible cable structure is composed of a plurality of tinned flat copper wires arranged in parallel, so that the known width and the width of the wire need to have a proper distance, so that when soft When the cable is to be installed in a small tubular space, since the lateral width of the flexible cable cannot be appropriately folded and reduced, a problem that the flexible cable cannot be smoothly inserted into a small tubular space is often caused. [New content] ★The horizontal width of the soft cable is a certain distance, because the horizontal width of the flexible cable cannot be properly reduced and reduced. Therefore, it is often impossible to smoothly insert the flexible cable into the cable. The problem of small size tubular space. Provided not to provide a connection H device having a cable, comprising a wire tu-connector and a second connector, wherein the row, the armor circuit layer and the covered conductor circuit layer-insulation layer, the insulation layer There are a plurality of strip cutting zones, and the wire comprises a 2 part, a winding part and a rear end part, the winding part is located between the rear end portions of the front end portion and the front end portion is twistable relative to the rear end portion The first connector is assembled at the end before the wire, and the first connector is assembled at the end after the wire. M379203 • (4) to wind the wire to form a wire with a winding structure, due to the roll The winding structure can smoothly bend and reduce the lateral width of the cable, so that the problem that the conventional flexible cable cannot be smoothly inserted into the tubular space of a small size can be solved. [Embodiment] «Monthly refer to the first to the first The present invention provides a connector device for a cable, comprising a row of wires 2, a first connector 3 and a second connector 4', wherein the cable 2 comprises a conductor circuit layer 24. And covering an insulating layer 20 of the conductor wiring layer 24, and The insulating layer 20 is provided with a plurality of strip cutting regions 28, and the cable 2 can be divided into a front end portion 2, a winding portion 23 and a rear end portion 25, and the winding portion 23 is located at the front end portion 21 and the rear end portion 25, and the front end portion 21 is twistable with respect to the rear end portion to form the winding portion 23. The first connector 3 is assembled to the front end portion 21 before the wire 2, and the second connector 4 is assembled to the wire After the end portion 25, the width of the lateral width of the winding portion 23 is smaller than the width of the front end portion 21 and the rear end portion 25, so that the winding portion can be smoothly formed. 23 is inserted into a small-sized tubular space (not shown). In this embodiment, a metal shielding layer (not shown) is further disposed on the insulating layer 2 of the cable 2, and the metal shielding layer is a The conductive aluminum foil is not limited thereto, and other metal shielding layers such as screen printing silver paste which can prevent electromagnetic wave interference (EMI) can be used. Further, the end portion 21 is twisted with respect to the rear end portion 25 before the wiring 2 to form After the winding portion 23, a wrapping auxiliary member 5 may be further disposed to surround the winding frame 23 so that the winding portion 23 is formed. The winding structure is more stable. In this embodiment, the wrapping material 5 is electrically conductive (four), but the wrapping material 5 may also be an acetate cloth or a magnetic ring. In the first connector 3 and the second connector 4, the connectors of the same structure and suitable for the low-voltage differential signal (Lv) are limited to the first connector 3 and the second connector 4. The connector connector can be a different structure from each other, or can also be a connector Y that is not suitable for low-voltage differential signal transmission. In the present embodiment, the first connector 3 includes a lower case (10) and an insulating body. 34, the circuit board 32 and the upper casing 36, the circuit board layer 34 is fixed on the insulative body 3〇, the lower casing 38 body ^ "below the flange body 30" upper casing 36 group is in the insulation of the f 30 and Above the circuit board 32. It is worthwhile to choose a structure that is only left, the flange body 30, the bonding layer 34 and the upper casing 36, and the conductor 242 of the == can replace the circuit board (10) as the design of the first lower casing 38. That is, the creation of the first connector 3 and the second connector with the first -3 卓 〜 s 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 还可 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一 第一M379203 The wire 2 of the present Ij is not wound and bent as shown in the sixth figure "the seventh figure does not". The wire 2 includes a conductor layer 24 and an insulating layer 20' in which the conductor layer 24 is provided in parallel. Arranging a plurality of conductors 242, a plurality of conductor insulation spacings 244 and strip insulation spacings 246 are disposed between the conductors 242, and a width P of each conductor spacing 244 is less than a per-strip insulation spacing 246 Width D. An insulating layer 20 covers the conductor wiring layer 24, wherein the swash insulating layer 20 is provided with a plurality of strip cutting regions 28, and the position of each of the dicing regions 28 corresponds to each of the conductor wiring layers 24. - Strip insulation spacing 246. In particular, in order to avoid the complexity of the graphics, the illustration is unclear, and the strip 2 of the present creation is after the winding and bending (as shown in the first to second figures) The number of 28 is not equal to the number of the strip cutting areas 28 of the line 2 before the unfolding of the f-fold (as shown in the sixth and seventh figures) so as to be wound on the line 2 after the bending The slit cutting zone 28 can be clearly seen. • In the present embodiment, the insulating layer 20 includes a The layer 22 and an upper insulating layer 26, wherein the conductor circuit layer 24 is disposed on the lower insulating layer 22, the upper insulating layer 26 is disposed on the lower insulating layer 22, and covers the conductor line; 24, the upper insulating layer 3526 is provided with a plurality The strip cutting area 28' each strip cutting area 28 is a hollow portion, and the strip cutting area 28 is located above the strip insulation spacing 246, and the strip cutting area 28 extends vertically downward. The slit insulation pitch 246 and the lower insulation layer 22 are penetrated so that the wire structure 2 has a thickness 7 through the lower insulation layer 22, the conductor circuit layer 24 and the upper insulation layer, which is small when performing bending and winding. Help. The empty part 'this hollow part is larger for the size of the horizontal line 2 of the reduced line 2 for this cable 2, in this embodiment, the strip insulation spacing 246 is an even row insulation pitch 'conductor insulation, 244 is an odd number The row insulation pitch 'and the conductor insulation pitch 244 and the stripe insulation pitch 246 are staggered with each other, and the other arguments may also be referred to as a pair arrangement. However, other combinations and combinations may also be used. Strip cutting zone 2 above strip insulation spacing 246 8. The length is smaller than the length L of the insulating layer 20 t, and the width thereof is smaller than the width D of the strip insulation spacing 246. The strip cutting area 28 is provided for the purpose of being able to more easily wind the cable 2 Because the present invention uses a low-voltage differential signaling (LVDS) signal transmission method, the plurality of conductors 242 of the cable 2 are preferably arranged in pairs, that is, the two conductors 242 are a pair. In the embodiment, the strip cutting area 28 is disposed above the strip insulation spacing 246 between the groups. The paired striping method is easier to control the characteristic impedance after winding, so in this embodiment, Each of the conductor insulation spacings 244 is disposed in a staggered arrangement between each of the strip insulation spacings 246. The plurality of conductors 242 of the conductor track layer 24 include a plurality of signal lines and ground lines. Since the width D of the strip insulation spacing 246 is greater than the branching of the stripping tool #(4), the strip cutting is formed on the strip insulating pitch 246 without causing damage to the conductor 242 due to poor cutting. Improve the production yield of the cable 2. It should be noted that, in this embodiment, the width D of the strip insulation spacing 246 is a fixed width. However, the width D of the strip insulation spacing 246 may have more than two widths. Alternatively, as long as the strips of these types are insulated, the width of the distance 246 is greater than the width of the conductor insulation (10). /,·In the above description, the connector device with the cable is arranged, the money is cut by the blade on the wire to form a slit cutting zone, and the slit cutting zone is used to make the bending line X is opened/wired with a winding structure, so that the purpose of reducing the lateral width of 2 can be achieved, thereby solving the problem that the conventional soft second wire cannot smoothly enclose a small-sized tubular space. The design of the unequal spacing between the other conductors allows for the second; the size of the i is provided to the blade to cut the strips to form a slit cut = question? Avoiding the decline in production yield caused by poor cutting =,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,,, In phase (4). ^More $ should be included in [Simple Description of the Drawings] The first figure is a three-dimensional schematic diagram of the connector device with the cable. The second picture is a top view of the connection device of the _. The third figure is a perspective exploded view of the connector device having the cable of the first figure. The fourth picture is a schematic view of the connector of the connector of the -® with the cable. The fifth figure is a three-dimensional exploded view of the first-connection (four) of the fourth figure. Fig. 3 is a perspective view of the scaly connector of the scale. ^ The seventh picture is a partial enlarged view of the sixth @之线 in the other direction. [Main component symbol description] 1 Connector device with cable 2 Cable 20 Insulation layer 21 Front end portion 22 Lower insulation layer 23 Winding portion 24 Conductor layer 242 Conductor 244 Conductor insulation pitch 246 Strip insulation pitch 25 Rear end M379203 Upper insulation layer Slitting cutting area First connector Insulation body Circuit board Bonding layer Upper case Lower case Second connector Wrapping auxiliary material 11