M370240 五、新型說明: 【新型所屬之技術領域】 本創作係有關一種線纜連接器組件,尤指一種小型化的 線纜連接器與相應線纜之組件。 【先前技術】 按,微型線纜連接器廣泛應用於高頻通訊連接器領域, 並且要求與多導線的線纜相連接。美國專利第7,059,906號揭 示了一種小型線纜連接器,其可應用於筆記型電腦之類小型 電子設備設備領域。該線纜連接器高度較小,其包括一絕緣 本體、複數收容固定於絕緣本體内之導電端子,上下遮蔽殼 體及線纜組件。其中線纜組件由複數線纜及接地件構成,每 一線纜包括傳輸訊號部分與接地部分,前述接地件與線纜的 接地部分相焊接,線纜為粗細混合的線纜,其傳輸訊號部分 與端子相焊接,接地件安裝於絕緣本體之兩側臂之間且與上 遮蔽殼體相連,從而形成接地路徑。美國專利第7,059,906 號係為解決在此類小型電連接器與線纜組件連接時,遮蔽殼 體因來自線纜之外力,尤其是來自粗線纜之外力,而發生變 形,從而下遮蔽殼體上彎折出兩片L型彈片以與上遮蔽殼體 配合,藉此更好地固定線纜組件。然,此類結構對L型彈片 之位置設置有較高精確度要求,以使其能恰好穿過線纜間之 間隙而與上遮蔽殼體配合,同時上遮蔽殼體亦需要設置相應 之結構與其配合,如此就使工序複雜且成本提升許多。故而, 有必要設計一種改進之線纜連接器來解決前述問題。 【新型内容】 M370240 針對以上問題,本創作之目的在於提供一種線纜連接器 及其組件,其可與混合有粗細不同的線纜組件相連且結構簡 單。 為實現前述目的,本創作線纜連接器組件係包括一線纜 連接器和一線缆組件,其中線纜連接器具有一絕緣本體、收 容固定於絕緣本體内之複數導電端子及遮覆於絕緣本體上之 上、下遮蔽殼體,絕緣本體具有相對之沿前後方向排布之一 對接端和一與對接端相連之線纜連接端,線纜連接端一側具 有一用以收容線纜之收容空間,上、下遮蔽殼體遮覆在收容 空間上、下側,上、下遮蔽殼體中至少一個,在上下方向上 其遮覆收容空間的部分向外偏離其靠近絕緣本體對接端的部 分;前述線纜組件包括粗細混合之複數線纜和一將各線纜固 定於一起之縱長型金屬接地元件,線纜沿前後方向垂直穿過 接地元件,各線纜均包括絕緣外被、絕緣外被内之接地層及 接地層内之導電芯線;導電芯線係與導電端子相焊接,接地 元件與線纜之接地層電性連接,接地元件與線纜一起收容於 前述收容空間内,上、下遮蔽殼體中至少一個與前述接地元 件相接觸。 與先前技術相比,本創作線纜連接器組件具有如下功 效:本創作線纜連接器上、下遮蔽殼體中至少一個,在上下 方向上其遮覆收容空間的部分向外偏離其靠近絕緣本體對接 端的部分,即在上下方向上擴大了收容空間,藉此,更容易 將混合了粗型線纜的線纜組件收容於此收容空間内,同時上 下空間足夠也降低了上、下遮蔽殼體的因施加到線纜組件的 外力而發生變形的可能性;另,此種設置也不會改變線纜連 接器對接端的接口形狀,保證了線纜連接器與對接連接器對 M370240 接的可靠性;再者,如此設置,僅需要簡單改變上、下遮蔽 殼體中某一或者兩者的結構,使其遮覆收容空間的部分稍高 於其靠近絕緣本體對接端的部分即可,工序簡單,亦可在保 證使用效果的同時不致降低生產效率。 【實施方式】 如第1圖到第9圖所示,本創作線纜連接器組件包括一 線纜連接器1和一線纜組件2,其中線纜連接器1具有一絕 ' 緣本體10、收容固定於絕緣本體1〇内之複數導電端子14及 ©遮覆於絕緣本體上之上、下遮蔽殼體15、17 ;前述線纜組件 2包括粗細混合之複數線纜21、22和一將各個線纜固定於一 起之之縱長型金屬接地元件23,線鏡21、22沿前後方向蚕 直穿過前述接地元件23,接地元件23與線纜21、22的接地 層連接,線纜21、22與導電端子14相焊接,上遮蔽殼體15 與接地元件23機械電性接觸從而形成線纜21、22到上遮蔽 殼體15的接地路徑。以下將結合各圖示詳細說明各元件的結 構及相互間的配合關係。 • 如圖2所示,絕緣本體1 〇具有相對之沿前後方向排布之 一對接端12和一與對接端12相連之線境連接端13及位於連 . 接端13左右兩側之侧臂131,絕緣本體1〇凹設有複數自對 接端延伸到線纜連接端之複數導電端子收容槽121,其中導 電端子14分別固定於前述導電端子收容槽12ι内。線缆連接 端13及兩側臂ι31之間形成一用以收容線纜組件2之收容空 間130,該收容空間no在沿相對於絕緣本體1〇垂直與水準 兩方向向外開口。側臂131上設置向上突出之支撐部132用 以支撐上遮蔽殼體15。另,在兩側臂131之内侧設置有安裝 M370240 槽133 ’安裝槽133在沿相對於絕緣本體1〇垂直方向上向外 開口且與收容空間130相連通用以收容接地元件23。 同樣參見圖2’導電端子14沿前後方向延伸,收容固定 於絕緣本體10之收容槽121内,其包括與相應之對接連接器 (未圖示)的端子接觸之接觸部141、與絕緣本體1〇固定配 合之固定部141及與線纜相焊接之焊接部143。 參見圖1至圖4所示,安裝於絕緣本體10上側之上遮蔽 殼體15大體呈片狀’係由整體的金屬片衝壓而成。上遮蔽殼 體丨5包括靠近絕緣本體1〇對接端12 一側之對接部151及位 於線纜連接端13 —側之接地部153,接地部153遮蔽在收容 空間130上侧。接地部153高於對接部151,從圖4看,即 在上遮蔽殼體15上形成有一臺階,也就是說,在上下方向上 接地部153向外偏離對接部151。接地部153被側臂131之 支撐部132支撐。對接部151之徑向兩端設置有與對接連接 器之遮蔽殼體相配合之配合部152,配合部152上向上突設 有突起156用以與對接連接器相應之遮蔽殼體干涉配合,從 而對接時可達到更好的效果。在配合部152的側邊及接地部 153之徑向兩端均具有複數垂直向下之扣合部157,扣合部 上設置有開孔158用以與下《殼體17之相應結構配 合。另’接地部153上開設有複數長條形開槽154,每一開 槽上54内均具有至少—個彎折彈片155,該等彈片155延伸 入前述收容空間130内。 文裝於絕緣本體10下側之下遮蔽殼體I7與上遮蔽殼體 15 —樣大fig μ π 至片狀’係由整體的金屬片衝壓而成。其靠近絕 ^體1〇之線缓連接蠕13的部分,即其後端171 ’遮蔽在 空間130之卞知,π A <眼你 尸側。下遮蔽殼體17之後端171設置有複數彎折 M370240 部172,前述彎折部172自下遮蔽殼體17之後端Π1沿前述 前後方向向前彎折,延伸進入前述收容空間130内。彎折部 172上亦設置有長條形開槽I?4,開槽174内設置有彈片 175,從而使整片彎折部Π2異有會更好的彈性。下遮蔽殼體 17之徑向兩端具有複數向上蜜直延伸之扣合部177,該等扣 合部177上設置有突出向外之凸點176與上遮蔽殼體15之開 孔158相配合,從而上、下遮蔽殼體15、17達到良好地配合, 藉此,線纜連接器1與對接連接器及線纜組件2連接時可起 到更好的防電磁干擾(EMI)作用。 如圖5至圖9所示,線纜組件2包括粗細混合之複數線 纜21、22和一將各個線纜固定於一起之縱長型金屬接地元件 23 ’其中各根線纜2卜22沿前後方向垂直穿過接地元件23。 線纜21為細型同軸線纜,其包括絕緣外被211、絕緣外被211 内之接地層212及接地層内之導電芯線213,其中導電芯線 213外還包裹著—層絕緣體(未圖示)。線纜22為粗型線纜, 其同樣也包括絕緣外被221、絕緣外被221内之接地層222 及接地層内之導電芯線223。接地元件23具有上接地片231、 下接地片233和位於上、下接地片231、233之間的焊錫層 232。在組裝過程中,上、下接地片231、232上塗有焊錫, 將線鏡21、22之接地層置於上、下接地片231、232之間, 然後加熱將焊錫熱熔,從而將線纜固定於兩接地片231、232 之間,前述接地層212、222通過焊錫與上、下接地片231、 232電性連接。 線纜組件2自上方安裝入線纜連接端13周圍之收容空間 130内,其接地元件23之徑向兩端安裝入側臂131之安裝槽 133内,線纜之導電芯線213與導電端子14之焊接部143相 M370240 焊接。上、下遮蔽殼體15、17安裝到絕緣本體10上後,上 遮蔽殼體15之彈片155與上接地片231機械電性連接;下遮 蔽殼體17之彎折部172及彈片175與下接地片233機械電性 連接。當焊接有線纜組件2之線纜連接器1與相應之連接器 對接時,上、下遮蔽殼體15、17與相應的連接器之遮蔽壳体 接觸,從而形成線纜21、22的接地層212、222到上、下遮 蔽殼體15、17,上、下遮蔽15、17殼體到對接連接器之遮 蔽殼體的接地路挫·。 在本實施方式中上遮蔽殼體15之遮蔽收容空間130的接 地部153相對其靠近絕緣本體10對接端12之對接部151, 在上下方向上向外偏離,從而在上下方向上擴大了收容空間 130,這樣就容易將混合了粗型線纜之線纜組件2收容於收容 空間130内,同時因上下空間足夠也降低了上、下遮蔽殼體 的因施加到線纜組件2之外力而發生變形之可能性;另,此 種設置亦不會改變線纜連接器1對接端12之接口形狀,保證 了線纜連接器1與對接連接器對接的可靠性;此外,如此設 置,僅需要簡單改變上、下遮蔽殼體中某一或者兩者的結構, 使其遮覆收容空間的部分稍高於其靠近絕緣本體對接端的部 分即可,工序簡單,也可在保證使用效果的同時不致降低生 產效率。 為了在上下方向上擴大收容空間130,同時保證不會改變 線纜連接器1對接端12之接口形狀,顯然也可在上下方向上 將下遮蔽殼體17遮覆收容空間130的部分相對其靠近絕緣本 體對接端12的部分向外偏離,或者同時在上下方向上將上、 下15、17遮覆收容空間130的部分相對其靠近絕緣本體對接 M370240 端12的部分向外偏離。此種改變均為所屬技術領域中具有通 常知識者依前述實施方式所易于思及之改變。 综上前述,本創作確已符合新型專利之要件,爰依法提 出專利申請。惟,以上前述僅為本創作之較佳實施方式,自 不能以此限定本創作之權利範圍。舉凡所屬技術領域中具有 通常知識者爰依本創作之精神所作之等效修飾或變化,皆仍 涵蓋於後附之申請專利範圍内。 【圖式簡單說明】 第1圖係本創作一種線纜連接器組件之線纜連接器的立體示 意圖, 第2圖係第1圖所示之線纜連接器之立體分解圖; 第3圖係第1圖所示之線纜連接器的俯視圖; 第4圖係第1圖所示之線纜連接器右側視圖之2倍放大圖; 第5圖係第1圖所示之線纜連接器與線纜組件連接後之立體 不意圖, 第6圖係第5圖所示之線纜連接器與線纜組件連接後,另一 角度之立體示意圖,其中上遮蔽殼體未安裝到絕緣本體上, 以看到線纜與導電端子之連接; 第7圖係第6圖中VII部分的放大圖; 第8圖係第6圖所示之線纜連接器與線纜組件連接後之仰視 圖, 第9圖係第6圖所示之線纜連接器與線纜組件連接後沿第8 圖所示IX-IX線方向之刳視圖的2倍放大圖。 M370240M370240 V. New description: [New technical field] This is a cable connector assembly, especially a miniaturized cable connector and corresponding cable assembly. [Prior Art] Micro cable connectors are widely used in the field of high frequency communication connectors and are required to be connected to multi-conductor cables. U.S. Patent No. 7,059,906 discloses a small cable connector that can be used in the field of small electronic equipment such as notebook computers. The cable connector has a small height, and includes an insulating body, a plurality of conductive terminals fixed in the insulating body, upper and lower shielding shells and cable assemblies. The cable assembly is composed of a plurality of cables and a grounding component. Each cable includes a transmission signal portion and a grounding portion. The grounding member is soldered to the grounding portion of the cable, and the cable is a thick and thin cable, and the signal portion is transmitted. The terminal is soldered to the terminal, and the grounding member is mounted between the arms of the two sides of the insulating body and connected to the upper shielding case to form a grounding path. U.S. Patent No. 7,059,906 is to solve the problem that when the small electrical connector is connected to the cable assembly, the shielding case is deformed by a force from the cable, especially from the thick cable, thereby shielding the housing. Two L-shaped tabs are bent up to engage the upper shield housing, thereby better securing the cable assembly. However, such a structure has a higher accuracy requirement for the position of the L-shaped shrapnel so that it can fit through the gap between the cables to fit the upper shielding case, and the upper shielding housing also needs to be provided with a corresponding structure. Cooperating with this, the process is complicated and the cost is much improved. Therefore, it is necessary to design an improved cable connector to solve the aforementioned problems. [New Content] M370240 In response to the above problems, the purpose of this creation is to provide a cable connector and its components that can be connected to a cable assembly having a different thickness and a simple structure. The cable connector assembly includes a cable connector and a cable assembly, wherein the cable connector has an insulative housing, a plurality of conductive terminals received in the insulating body, and a cover on the insulative housing. The upper and lower shielding shells have a pair of opposite ends arranged in the front-rear direction and a cable connecting end connected to the mating end, and the cable connecting end side has a receiving space for receiving the cable The upper and lower shielding shells cover at least one of the upper and lower shielding shells on the upper and lower shielding shells, and the portion covering the receiving space in the up-and-down direction is outwardly offset from the portion adjacent to the mating end of the insulating body; The cable assembly includes a plurality of cables mixed in thickness and a lengthwise metal grounding member for fixing the cables together, and the cables pass vertically through the grounding member in the front-rear direction, and each of the cables includes an insulating outer cover and an insulating outer cover. a conductive core wire in the ground layer and the ground layer; the conductive core wire is soldered to the conductive terminal, the ground component is electrically connected to the ground layer of the cable, and the ground component is Together with the cable received in the receiving space, the upper and lower shield housing at least one contact with the ground element. Compared with the prior art, the present cable connector assembly has the following functions: at least one of the upper and lower shielding shells of the present cable connector, the portion covering the receiving space in the up and down direction is outwardly deviated from the insulation thereof. The portion of the main body butt end, that is, the accommodating space is enlarged in the up-and-down direction, thereby making it easier to accommodate the cable assembly in which the thick cable is mixed in the accommodating space, and the upper and lower spaces are sufficient to lower the upper and lower shielding shells. The possibility of deformation of the body due to the external force applied to the cable assembly; in addition, this arrangement does not change the shape of the interface of the cable connector butt end, ensuring reliable connection of the cable connector and the docking connector to the M370240. Moreover, in such a setting, it is only necessary to simply change the structure of one or both of the upper and lower shielding shells so that the portion covering the receiving space is slightly higher than the portion close to the butting end of the insulating body, and the process is simple. It can also guarantee the use effect without reducing the production efficiency. [Embodiment] As shown in FIGS. 1 to 9, the present cable connector assembly includes a cable connector 1 and a cable assembly 2, wherein the cable connector 1 has a permanent edge body 10, The plurality of conductive terminals 14 and the upper and lower shield housings 15 and 17 are fixed to the upper and lower shield housings 15 and 17; the cable assembly 2 includes a plurality of cables 21, 22 and a plurality of cables Each of the cables is fixed to the longitudinal metal grounding member 23, and the wire mirrors 21 and 22 are straightly passed through the aforementioned grounding member 23 in the front-rear direction, and the grounding member 23 is connected to the grounding layers of the cables 21 and 22, and the cable 21 is connected. 22 is soldered to the conductive terminal 14, and the upper shield case 15 is in mechanical electrical contact with the ground element 23 to form a ground path for the cables 21, 22 to the upper shield case 15. The structure of each element and the mutual cooperation relationship will be described in detail below with reference to the respective drawings. • As shown in FIG. 2, the insulative housing 1 has a pair of butt ends 12 arranged in the front-rear direction and a line connecting end 13 connected to the mating end 12 and side arms on the left and right sides of the connecting end 13 The plurality of conductive terminal receiving slots 121 extend from the mating end to the cable connecting end, wherein the conductive terminals 14 are respectively fixed in the conductive terminal receiving slots 12ι. A receiving space 130 for accommodating the cable assembly 2 is formed between the cable connecting end 13 and the two side arms ι 31. The receiving space no is open outward in a direction perpendicular to the horizontal direction relative to the insulating body 1 . The side arm 131 is provided with an upwardly projecting support portion 132 for supporting the upper shield case 15. Further, an inner side of the side arms 131 is provided with a mounting M370240 groove 133. The mounting groove 133 is open to the outside in a direction perpendicular to the insulating body 1A and is connected to the receiving space 130 to accommodate the grounding member 23. 2, the conductive terminal 14 extends in the front-rear direction, and is received and received in the receiving slot 121 of the insulative housing 10, and includes a contact portion 141 that contacts the terminal of the corresponding mating connector (not shown), and the insulative housing 1 The fixed portion 141 and the welded portion 143 welded to the cable are fixedly fitted. Referring to Figures 1 to 4, the shield housing 15 is generally formed in a sheet shape on the upper side of the insulative housing 10 and is stamped from a unitary metal sheet. The upper shielding case body 5 includes an abutting portion 151 on the side close to the mating end 12 of the insulative housing 1 and a ground portion 153 on the side of the cable connecting end 13. The grounding portion 153 is shielded on the upper side of the receiving space 130. The grounding portion 153 is higher than the abutting portion 151. As seen from Fig. 4, a step is formed on the upper shielding case 15, that is, the grounding portion 153 is outwardly offset from the abutting portion 151 in the up and down direction. The ground portion 153 is supported by the support portion 132 of the side arm 131. The two ends of the abutting portion 151 are provided with a matching portion 152 which cooperates with the shielding shell of the mating connector. The protrusion 156 is protruded upwardly from the mating portion 152 for interference fit with the corresponding shielding shell of the mating connector. Better results can be achieved when docking. The side of the engaging portion 152 and the radial ends of the grounding portion 153 each have a plurality of vertically downward engaging portions 157, and the engaging portions are provided with openings 158 for engaging with the corresponding structures of the lower casing 17. The plurality of elongated slots 154 are defined in the grounding portion 153. Each of the slots 54 has at least one bent elastic piece 155 extending into the receiving space 130. The cover is mounted on the lower side of the insulative housing 10, and the shield housing I7 and the upper shield housing 15 are formed by stamping a single piece of metal. It is close to the portion of the line of the body 1 that is connected to the creep 13, that is, the rear end 171 ' is obscured by the space 130, π A < eye to your corpse side. The rear end 171 of the lower shielding case 17 is provided with a plurality of bent M370240 portions 172. The bent portion 172 is bent forward in the front-rear direction from the lower shielding case 17 and extends into the accommodating space 130. The bent portion 172 is also provided with an elongated slot I?4 in which the elastic piece 175 is disposed, so that the entire bent portion Π2 is more elastic. The lower end of the lower shielding shell 17 has a plurality of fastening portions 177 extending upwardly. The fastening portions 177 are provided with protruding protrusions 176 corresponding to the openings 158 of the upper shielding shell 15 . Therefore, the upper and lower shielding shells 15, 17 are well fitted, whereby the cable connector 1 can be better protected against electromagnetic interference (EMI) when connected to the mating connector and the cable assembly 2. As shown in FIG. 5 to FIG. 9, the cable assembly 2 includes a plurality of thick and thin mixed cables 21, 22 and a lengthwise metal grounding member 23 for fixing the respective cables together, wherein each cable 2 The front-rear direction passes vertically through the grounding element 23. The cable 21 is a thin coaxial cable including an insulating outer cover 211, a ground layer 212 in the insulating outer cover 211, and a conductive core wire 213 in the ground layer. The conductive core wire 213 is also covered with a layer insulator (not shown). . The cable 22 is a thick cable, which also includes an insulating outer cover 221, a ground layer 222 in the insulating outer cover 221, and a conductive core wire 223 in the ground layer. The grounding element 23 has an upper grounding piece 231, a lower grounding piece 233, and a solder layer 232 between the upper and lower grounding pieces 231, 233. During the assembly process, the upper and lower grounding strips 231, 232 are coated with solder, and the grounding layers of the line mirrors 21, 22 are placed between the upper and lower grounding strips 231, 232, and then the solder is hot-melted to heat the cable. The grounding layers 212 and 222 are electrically connected to the upper and lower grounding plates 231 and 232 by soldering. The cable assembly 2 is mounted from the upper portion into the receiving space 130 around the cable connecting end 13. The radial ends of the grounding member 23 are mounted in the mounting groove 133 of the side arm 131. The conductive core wire 213 and the conductive terminal 14 of the cable are connected. The welded portion 143 is welded to the M370240. After the upper and lower shielding shells 15 and 17 are mounted on the insulative housing 10, the elastic piece 155 of the upper shielding housing 15 is mechanically electrically connected to the upper grounding piece 231; the bent portion 172 of the lower shielding housing 17 and the elastic piece 175 and the lower portion The grounding piece 233 is mechanically and electrically connected. When the cable connector 1 to which the cable assembly 2 is soldered is mated with the corresponding connector, the upper and lower shielding housings 15, 17 are in contact with the shielding housing of the corresponding connector, thereby forming the connection of the cables 21, 22. The ground layers 212, 222 are to the upper and lower shielding shells 15, 17, and the upper and lower shielding 15 and 17 casings are grounded to the shielding shell of the mating connector. In the present embodiment, the grounding portion 153 of the shielding receiving space 130 of the upper shielding case 15 is outwardly offset from the abutting portion 151 of the butting end 12 of the insulative housing 10, thereby expanding the receiving space in the up and down direction. 130, it is easy to accommodate the cable assembly 2 in which the thick cable is mixed in the accommodating space 130, and at the same time, the upper and lower shielding shells are reduced due to the force applied to the cable assembly 2 due to the upper and lower spaces. The possibility of deformation; in addition, this arrangement does not change the shape of the interface of the mating end 12 of the cable connector 1, and ensures the reliability of the mating of the cable connector 1 and the mating connector; in addition, the setting is simple. The structure of one or both of the upper and lower shielding shells is changed so that the portion covering the receiving space is slightly higher than the portion close to the mating end of the insulating body, the process is simple, and the effect of use can be ensured without being reduced. Productivity. In order to enlarge the accommodating space 130 in the up-and-down direction while ensuring that the interface shape of the mating end 12 of the cable connector 1 is not changed, it is obvious that the portion of the lower shielding case 17 covering the accommodating space 130 is also relatively close to the upper and lower directions. The portion of the insulative housing abutting end 12 is outwardly offset, or at the same time, the upper and lower portions of the upper and lower portions 15 and 17 covering the receiving space 130 are outwardly offset from the portion of the insulative housing abutting M370240 end 12 in the up and down direction. Such changes are subject to change by those of ordinary skill in the art in light of the foregoing embodiments. In summary, the creation has indeed met the requirements of the new patent and has filed a patent application in accordance with the law. However, the foregoing is only a preferred embodiment of the present invention, and it is not possible to limit the scope of the present invention. Equivalent modifications or variations made by those of ordinary skill in the art to the spirit of the present invention are still covered by the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS Fig. 1 is a perspective view showing a cable connector of a cable connector assembly, and Fig. 2 is an exploded perspective view of the cable connector shown in Fig. 1; 1 is a top view of the cable connector shown in Fig. 1; Fig. 4 is a 2x enlarged view of the right side view of the cable connector shown in Fig. 1; Fig. 5 is a cable connector shown in Fig. 1 The three-dimensional schematic diagram of the cable assembly after the cable assembly is connected, FIG. 6 is a perspective view of another angle after the cable connector shown in FIG. 5 is connected to the cable assembly, wherein the upper shielding shell is not mounted on the insulating body, To see the connection between the cable and the conductive terminal; Figure 7 is an enlarged view of the portion VII in Figure 6; Figure 8 is a bottom view of the cable connector shown in Figure 6 after being connected to the cable assembly, Figure 9 is a two-fold enlarged view of the IX-IX line in the IX-IX line shown in Figure 8 after the cable connector shown in Figure 6 is connected to the cable assembly. M370240
【主要元件符號說明】 線纜連接器 1 絕緣本體 10 對接端 12 端子收容槽 121 連接端 13 收容空間 130 側臂 131 安裝槽 132 導電端子 14 接觸部 141 固定部 142 焊接部 143 上遮蔽殼體 15 對接部 151 配合部 152 接地部 153 開槽 154 、 174 彈片 155 、 175 突起 156 扣合部 157、177 開孔 158 下遮蔽殼體 17 后端 171 彎折部 172 凸點 176 線纜組合 2 線纜 21 > 22 絕緣外被 211 > 221 接地層 212 > 222 導電芯線 213 ' 223 接地元件 23 上接地片 231 焊錫層 232 下接地片 233[Main component symbol description] Cable connector 1 Insulating body 10 Butt end 12 Terminal receiving groove 121 Connecting end 13 Housing space 130 Side arm 131 Mounting groove 132 Conducting terminal 14 Contact portion 141 Fixing portion 142 Weld portion 143 Upper shield case 15 Docking portion 151 Mating portion 152 Grounding portion 153 Slot 154, 174 Shrapnel 155, 175 Protruding 156 Knucking portion 157, 177 Opening 158 Lower shielding case 17 Rear end 171 Bending 172 Bump 176 Cable combination 2 Cable 21 > 22 Insulation outer cover 211 > 221 Ground layer 212 > 222 Conductive core wire 213 ' 223 Grounding element 23 Upper grounding piece 231 Solder layer 232 Lower grounding piece 233