M436249 五、新型說明: 【新型所屬之技術領域】 本創作爲一種連接器’尤指一種低高度的SATA線纜 連接器。 【先前技術】 按’ Serial ΑΤΑ係一種用於存儲襞置(如硬碟、CD —R〇M、 DVD )與主機板間之尚速傳輸介面。因seriai atA之眾多優勢, 其已逐漸替代傳統的Parallel ΑΤΑ與Ultra ΑΤΑ介面。此外, 在電子產品輕薄短小的趨勢之下,連接器的高度也必須設計地 越來越小,進而有mini SATA等介面的出現。通常,傳統mini SATA線纜包括電源線纜及訊號線纜,其分別焊接於一與主機 板上之對接連接器配接的線纜連接器的焊接部。 然而,由於焊接部位於整個端子的最高點,所以當線纜焊 接於焊接部的表面時,_便會造成線賴接器的整體高度增 加’相當不利於輕薄短小的設計。 【新型内容】 本創作提供一種低高度以符合輕薄趨勢的纜線連接 器。 本創作提供-種線瘦連接器,不會因線纖的高度而增 加整體高度。 本創作提出-種線繞連接器,包括一絕緣本體、多個 訊號端子、多個電源端子以及多個線麗。絕緣本體具有〆 M436249M436249 V. New description: [New technical field] This creation is a kind of connector, especially a low-profile SATA cable connector. [Prior Art] Press ' Serial ' is a type of fast transmission interface between the storage device (such as hard disk, CD - R〇M, DVD) and the motherboard. Due to the many advantages of seriai atA, it has gradually replaced the traditional Parallel ΑΤΑ and Ultra ΑΤΑ interface. In addition, under the trend of thin and light electronic products, the height of the connector must also be designed to be smaller and smaller, and the interface such as mini SATA appears. Typically, a conventional mini SATA cable includes a power cable and a signal cable that are respectively soldered to a soldering portion of a cable connector that mates with a mating connector on the motherboard. However, since the welded portion is located at the highest point of the entire terminal, when the cable is welded to the surface of the welded portion, _ causes an increase in the overall height of the wire affixer, which is quite disadvantageous to a slim, short design. [New content] This creation provides a cable connector with a low height to meet the trend of thinness. This creation provides a kind of wire-thin connector that does not increase the overall height due to the height of the wire. The present invention proposes a wire wound connector comprising an insulative housing, a plurality of signal terminals, a plurality of power terminals, and a plurality of wires. Insulated body with 〆 M436249
舌板、多個端子孔、多個端子槽以及一延伸部。這些端子 孔沿舌板排列,這些端子孔分別與這些端子槽相連通。這 些訊號端子與這些電源端子分別配置於這些端子槽,且分 別具有一抵觸部、一止擋部以及一焊接部。這些抵觸部分 別設置於這些端子孔。止擋部具有一第一段、一第二段與 一第三段。第一段連接於第二段與抵觸部,第三段連接於 第二段與焊接部。第一段的延伸方向與第二段垂直,焊接 部的延伸方向、第二段的延伸方向與延伸部的延伸方向平 行。第三段位於延伸部的側壁,焊接部位於延伸部的一表 面。這些線纜分別接觸這些焊接部。 在本創作的一實施例中,線纜連接器更包括一接地 片,一體地連接部分的這些訊號端子的這些抵觸部一端。 在本創作的一實施例中,這些訊號端子與這些電源端 子分別具有一固持部,這些固持部插設於絕緣本體之延伸 部上。 在本創作的一實施例中,這些訊號端子與這些電源端 子分別具有一固持部,這些固持部插設於延伸部。 在本創作的一實施例中,線纜連接器更包括一金屬殼 體,包覆絕緣本體,沿焊接部的延伸方向突出於絕緣本體。 在本創作的一實施例中,線纜連接器更包括一金屬殼 體,包覆絕緣本體,其中絕緣本體沿焊接部的延伸方向突 出於金屬殼體。 5 M436249 基於上述,線纜連接器藉由階梯狀的設計,不使線纜 連接器的整體咼度増加。因此,更能符合現今電子產品輕 薄短小的趨勢。 【實施方式】 為使能更進一步瞭解本創作的特徵及技術内容,請參 閱以下有關本創作的詳細說明與附圖,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。 圖1為本創作一實施例之線纜連接器的立體示意圖。 請參考圖1,線遭連接器謂包括一絕緣本體110、多個 訊號端子130、多個電源端子刚以及多個線繞16〇。絕 緣本體110具有一舌板112、多個端子孔114、多個端子槽 116。在本實施例中,絕緣本體110可具有一容置空間U, 用以容置另-對插連接器50 (如圖5、圖6),而舌板112 突伸於容置㈣U中’且舌板112的高度㈣與絕緣本體 110周緣的高度齊平。 這些端子孔114與這些端子槽116沿舌板112排列。 這些端子孔114分別與這些端子槽116相連通,使這些訊 號端子130與這些電源端子14〇分別穿過並設置在這些端 子孔114側。在本實施例中,這些訊號端子13〇與這些 電源端子140較佳係分別組裝在絕緣本體110料些端子 才曰116中然而,在不同的實施例中,這些訊號端子13〇 與這些電源端子14()亦可以欲人式射出〇nsertm()lding) M436249 方式設置於絕緣本體110中。此外,訊號端子130的數量 例如為7個,電源端子140的數量例如為6個,線纜160 的數量例如為12個或以上,但皆不以此為限。 圖2為圖1之線纜連接器内部的立體示意圖。請參考 圖1與圖2,線纜連接器100更可包括一金屬殼體120與 一操作帶170。金屬殼體120包覆絕緣本體110。操作帶 170安裝至金屬殼體120且突出於金屬殼體120之外,以 φ 讓使用者藉由拉動操作帶170來讓線纜連接器100脫離對 插連接器。 在本實施例中,金屬殼體120側邊例如具有多個第一 卡合部122與多個彈片124,絕緣本體110具有分別對應 這些第一卡合部122的多個第二卡合部115。這些第一卡 合部122相對於絕緣本體110周圍,且分別卡合於絕緣本 體110的這些第二卡合部115。此外,這些彈片124分別 ^ 穿過絕緣本體110的多個開口 119,而暴露於容置空間U。 這些彈片124例如位於舌板112的相對兩側,以夾持對插 連接器,使得線纜連接器100與對插連接器50 (如圖5、 圖6)的組合更加穩固。但在另一未繪示的實施例中,亦 可不需設置金屬殼體120與操作帶170,同樣能達到傳遞 訊號的功能。 請參考圖3、圖4與圖5,這些訊號端子130與這些 電源端子140分別具有一抵觸部C、一止擋部R與一焊接 7 M436249 部〇。止擋部R-端連接抵觸部c,另一端連接焊接部〇。 抵觸部C設置於端子孔114,且這些線缓⑽分別接觸這 些焊接部0(如圖i所示)。在本實施例中,、絕緣本體㈣ 可具有一延伸部118,朝平行焊接部〇的方向延伸。這些 焊接部0位於延伸部118的—表面U8b。延伸部118從相 對於形成容置空間U的一侧面向焊接部〇的延伸方向延 伸。此外,在延伸部118上更形成另一容置空間Ui。延伸 部118與絕緣本體11〇兩側間形成一凹型結構,使得絕緣 本體m形成具有高度差的階梯狀。藉此,當這些㈣⑽ 接觸這些焊接部◦時,㈣⑽位於絕緣本體11G的高度 差範圍内,所以這些線纜160不會增加線纜連接器1〇〇整 體尚度。也就是說,線财接器i⑽藉由階梯狀的設計, 不使線纜連接器100的整體高度增加。 如圖3〜圖6,止擋部R具有一第一段T1、一第二段 T2與-第三段T3。第—段T1連接於第二段τ2與抵觸部 C,第三段Τ3連接於第二段丁2與焊接部〇。這些第三段 Τ3可位於延伸部118的側壁心。第—段τι的延伸方向 D1與第三段T2的延伸方向D2垂直,且焊接部〇的延伸 方向平行第二段T2的延伸方向。 在本實施例中,纜線連接器1〇〇更可具有一接地片 150。接地片150 —體地連接部分的這些訊號端子13〇的 抵觸部c-端。藉此,可不需人讀裝或焊接接地片15〇a tongue plate, a plurality of terminal holes, a plurality of terminal slots, and an extension. These terminal holes are arranged along the tongue plates, and these terminal holes are respectively connected to the terminal grooves. The signal terminals and the power terminals are respectively disposed in the terminal slots, and have an abutting portion, a stopper portion and a soldering portion, respectively. These conflicting parts are placed in these terminal holes. The stop portion has a first segment, a second segment and a third segment. The first segment is connected to the second segment and the abutting portion, and the third segment is connected to the second segment and the welded portion. The extending direction of the first segment is perpendicular to the second segment, and the extending direction of the welded portion and the extending direction of the second segment are parallel to the extending direction of the extending portion. The third section is located on the side wall of the extension and the weld is located on a surface of the extension. These cables are in contact with these welds, respectively. In an embodiment of the present invention, the cable connector further includes a grounding piece integrally connected to one end of the abutting portions of the signal terminals of the portion. In an embodiment of the present invention, the signal terminals and the power terminals each have a holding portion, and the holding portions are inserted on the extending portion of the insulating body. In an embodiment of the present invention, the signal terminals and the power terminals each have a holding portion, and the holding portions are inserted in the extending portion. In an embodiment of the present invention, the cable connector further includes a metal case covering the insulative housing and protruding from the insulative body along the extending direction of the soldering portion. In an embodiment of the present invention, the cable connector further includes a metal shell covering the insulative housing, wherein the insulative housing protrudes from the metal housing along the extending direction of the solder portion. 5 M436249 Based on the above, the cable connector is designed in a stepped manner so as not to increase the overall strength of the cable connector. Therefore, it is more in line with the trend of light and short electronic products. [Embodiment] In order to further understand the features and technical contents of the present creation, please refer to the following detailed description and drawings of the present invention. However, the drawings are only for reference and explanation, and are not intended to limit the creation. By. FIG. 1 is a perspective view of a cable connector according to an embodiment of the present invention. Referring to FIG. 1, the wire connector includes an insulative housing 110, a plurality of signal terminals 130, a plurality of power terminals, and a plurality of wires 16 〇. The insulating body 110 has a tongue 112, a plurality of terminal holes 114, and a plurality of terminal slots 116. In this embodiment, the insulative housing 110 can have an accommodating space U for accommodating the other-to-plug connector 50 (as shown in FIG. 5 and FIG. 6), and the tongue 112 protrudes from the accommodating (four) U. The height (four) of the tongue 112 is flush with the height of the periphery of the insulating body 110. These terminal holes 114 are aligned with the terminal slots 116 along the tongue 112. The terminal holes 114 are respectively communicated with the terminal slots 116, and the signal terminals 130 and the power terminals 14A are respectively passed through and disposed on the terminal holes 114 side. In the present embodiment, the signal terminals 13 and the power terminals 140 are preferably assembled in the insulative housing 110, however, in various embodiments, the signal terminals 13 and the power terminals are 14() can also be arranged in the insulative housing 110 in a manner that the human injection 〇nsertm()lding) M436249. Further, the number of the signal terminals 130 is, for example, seven, the number of the power terminals 140 is, for example, six, and the number of the cables 160 is, for example, twelve or more, but not limited thereto. 2 is a perspective view of the interior of the cable connector of FIG. 1. Referring to FIGS. 1 and 2, the cable connector 100 further includes a metal housing 120 and an operating strap 170. The metal housing 120 covers the insulative housing 110. The operating strap 170 is mounted to the metal housing 120 and protrudes beyond the metal housing 120 to allow the user to pull the cable connector 100 out of the mating connector by pulling the operating strap 170. In this embodiment, the metal housing 120 has a plurality of first engaging portions 122 and a plurality of elastic pieces 124. The insulating body 110 has a plurality of second engaging portions 115 corresponding to the first engaging portions 122, respectively. . The first engaging portions 122 are opposed to the periphery of the insulative housing 110 and are respectively engaged with the second engaging portions 115 of the insulating body 110. In addition, the elastic pieces 124 are respectively passed through the plurality of openings 119 of the insulative housing 110 to be exposed to the accommodation space U. These tabs 124 are located, for example, on opposite sides of the tongue 112 to clamp the mating connector such that the combination of the cable connector 100 and the mating connector 50 (Fig. 5, Fig. 6) is more robust. However, in another embodiment not shown, the metal housing 120 and the operation belt 170 are not required to be provided, and the function of transmitting signals can be achieved. Referring to FIG. 3, FIG. 4 and FIG. 5, the signal terminals 130 and the power terminals 140 respectively have an abutting portion C, a stopping portion R and a welding portion 7 M436249. The stopper portion R-end is connected to the abutting portion c, and the other end is connected to the welded portion 〇. The abutting portion C is disposed in the terminal hole 114, and the wires are gently (10) respectively contacted with the solder portions 0 (as shown in Fig. i). In this embodiment, the insulative housing (4) may have an extension portion 118 extending in the direction of the parallel weld portion 〇. These welds 0 are located on the surface U8b of the extension 118. The extending portion 118 extends from the side opposite to the side where the accommodating space U is formed toward the extending direction of the welded portion 。. In addition, another accommodating space Ui is formed on the extending portion 118. A concave structure is formed between the extending portion 118 and both sides of the insulating body 11 so that the insulating body m forms a stepped shape having a height difference. Thereby, when these (4) (10) contact these soldering portions, (4) (10) are located within the height difference of the insulating body 11G, so these cables 160 do not increase the overall length of the cable connector 1 . That is to say, the line connector i (10) does not increase the overall height of the cable connector 100 by the stepped design. As shown in FIGS. 3 to 6, the stopper portion R has a first segment T1, a second segment T2, and a third segment T3. The first segment T1 is connected to the second segment τ2 and the abutting portion C, and the third segment Τ3 is connected to the second segment D2 and the welded portion 〇. These third segments 3 can be located at the sidewall of the extension 118. The extending direction D1 of the first segment τι is perpendicular to the extending direction D2 of the third segment T2, and the extending direction of the welded portion 平行 is parallel to the extending direction of the second segment T2. In this embodiment, the cable connector 1 can further have a grounding strip 150. The grounding strip 150 is integrally connected to the abutting portion c-end of the signal terminals 13A of the portion. In this way, the grounding piece 15〇 can be read or welded.