1281295 九、發明說明: 【發明所屬之技術領域】 本發明是關於一種插座連接器的端子及其製造方法,尤 其是關於-《零插入力插座連接器的f電端子及其製造方 法。 σ 【先前技術】 如圖1所示,美國專利第6,824,414號公開一種零插入力的 插座連接器端子5,該插座連接器(未圖示)可連接一配合的 連接器(未圖示)至相應的電路板(未圖示)。該插座連接器的 端子5包含一與配合的連接器的插接腳接合的接合部%、一 將端子5固持於相應端子收容槽内的固持部51,及一將該端 子5固定至電路板上的安裝部52。該接合部5〇具有一自固持 部51 —體延伸的頸部5〇〇,自該頸部5〇〇另一端的兩側分別 垂直彎折延伸的後臂5(Η,自該二後臂5〇1分別收縮延伸的 接觸臂502。該兩後臂501間形成一寬闊的υ形導引空間 503,而該二接觸臂5〇2的自由端之間則形成一略小於插接 腳直徑的定位空間504。當配合連接器插至該插座連接器 時,配合連接器的插接腳首先插入導引空間5〇3,而後移動 至定位空間504推頂該對接觸臂502,藉由接觸臂5〇2彈性形 麦産生的作用力而為之穩固挾持,進而實現該配合連接器 與電路板之間的穩定電連接。 然而該插座連接器的端子5所能提供的足夠彈性作用力 疋以材料的極大浪費換取的。如圖2顯示該插座連接器端子 5未成形β在料帶上衝壓的形狀,顯然為形成合適的接合部 99578.doc 1281295 . * 5 Ο,製造一插座連接器端子5必須佔用A寬度料帶;而作為 插座連接器端子5主體的固持部5丨僅需要B寬度的料帶即 可。根據實際製造經驗,該A寬度約等於b的兩倍,即相當 於每生産一個該種插座連接器端子5,就要浪費同樣多的材 料。 為避免材料的過度浪費,降低生産成本,美國專利第 6,533,591號揭示另一種零插入力的插座連接器端子6。如圖 3所示,該插座連接器端子6亦包含一接合部6〇、固持部61, ® 及安裝部62。與前述插座連接器端子5不同的是,該端子6 的接合部60是從其頸部600與固持部61相接的相對端直接 衝壓一 U形部601,該U形部601的兩支腿602末端相向彎折 延伸一段,再延伸一直部603。如此,該U形部6〇1形成的空 間即為導引配合連接器的插接腳插入的導引空間,兩直 部6 0 3之間為夾持該插接腳的定位空間6 〇 5。 如圖4所示,由於該U形部601是在料帶7上直接衝壓形 φ 成,而非自頸部600兩側彎折延伸圍成U形。因此該端子6 的整體寬度相當,不會造成材料浪費。然而由於該直部6〇3 是在其厚度所在的平面70方向上與插接腳接觸,接觸面積 小;同時其變形是依靠材料本身的表面張力(即材料的延展 性),所能産生的彈性形變小。因而該類插座連接器端子^ 雖可以降低生産成本,然不能産生足夠的彈性作用力有效 夾持插接腳,難以提供穩定可靠的電連接。 鑒於前述兩種習知插座連接器端子,或存在生産成本 高,或彈性固持力不足、電連接不穩定的缺點,亟需對習 99578.doc 1281295 知插座連接器端子作進一步改進。 【發明内容】 本發明的目的就在於提供—種插座連接器端子及其製造 方法,該插座連接器端子及其製造方法不僅可降低生產成 本而且。亥插座連接器端子與插入的插接腳穩固接觸並有 效夾持,從而實現穩定的電連接。 為達到上述目的,本發明提供以下技術方案:—種插座 連接器端子,是用於零插入力結構的插座連接器,與一插 入的配合ϋ件的插接腳接觸。該插座連接器端子包含:一 本體、一自該本體-端垂直彎折的焊接部,及自該本體另 -端經至少二次料延伸的接合部。該接合部包含一自該 本體延伸的連接部、自該連接部兩端延伸的導引部,及自 導引部延伸的接觸部。 该至少二次彎折是指該連接部延伸導引部的兩端向與焊 ^延伸方向相反或相同的方向水平彎折9〇度,且接合部 : = 部與本體連接處向焊接部延伸方向‘彎折。該兩 I邛自連接部兩端掌心相向的向 ^ L起,即形成一開闊 p \插人的配合时的插接腳零插人力以的導引空 要觸⑷之間形成-的定位空間,該定位空間的宽 度小於插入的配合器件的插 、 抹雜、,门Μ 7置徑,而使該兩接觸部 亚口持該插接腳。該本體進一步包含一基部 部兩側凸伸的至少一固持部。 自基 本發明進一步揭示一種萝 法,豆肖人^ 上述插座連接器端子的方 沄其包含如下步驟·· 99578.doc 1281295 山在料帶上衝壓出該插座連接器端子的本體、自該本體一 故伸的卜接部,及自本體另-端延伸的u形部,該u形部 的橫部即接合部的連接部; 將該焊接部自本體大致垂直彎折90度; 將忒U形部的兩豎部中部彎折,形成各接合部的導引部及 位於^形部的豎部自由端的接合部的接觸部; 將該由U形部彎折成形的接合部自與該本體連接處經至 | 少二次彎折而定形的步驟。 具體地5兒’其是將該U形部的豎部中部彎折使其凸向焊接 一延伸方向’此時至少二次彎折包含:將連接部延伸各導 引邛的兩鳊部,向與焊接部延伸方向相反的方向水平彎折 約90度,及將接合部整體自連接部向焊接部延伸方向彎 折,從而使導引部與接觸部大致垂直於本體。 另外,可將該U形部的豎部中部彎折使其凸向於焊接部延 伸方向相反的方向,此時至少二次彎折 •伸各導引部的兩端部,向焊接部延伸方向水平=〇 度;及將接合部$體自連接部向焊接部延㈣向彎折,從 而使導引部與接觸部大致垂直於本體。 本發明的有益效果在^本發明的插座連接器端子的接 合部小於端子的整體寬度,不會造成浪費。同時該接合部 由本體經兩次彎折後,是以接合部的接觸部的延伸面魅 入的配合器件的插接腳,可提供足夠的彈性固持力。因而 本發明具有生産成本低,插座連接器端子電連接穩定的優 點0 99578.doc 1281295 【實施方式】 為便於更好的理解本發明,現結合一較佳實施例對本發 明作進一步說明。 如圖5所不’一根據本發明的插座連接器端子1是用於零 插入力結構的插座連接器8(如圖9所示),以連接各種晶片 (如,電腦中使用的CPU晶片;未圖示)或配合的連接器(未 圖示)與電路板(未圖示)之間的電連接。 該插座連接器端子1包含一本體2、一自該本體2 一端大致 垂直彎折的焊接部3,及自該本體2另一端兩次彎折而大致 垂直於本體2延伸的接合部4。焊接部3大致呈盤狀,是用於 將該插座連接器8焊接至相應的電路板。本體2是整個插座 連接器端子1的主體部分,包含一長方形的基部2〇,及自該 基部20的延伸平面方向兩側凸伸的若干固持部2ι,在本實 施例中各固持部21表現為形狀各異的凸片或凸刺。本體2 通過凸片或凸刺等固持部21與插座連接器8的端子收容槽 80的相應側壁緊密抵觸發生干涉,而進一步將端子i固持於 插座連接器8内。 接合部4用於與插入的晶片或配合連接器的相應插接腳 接觸,其依次延伸有一與本體2連接的連接部40、一對導引 部41,及一對接觸部42。該接合部4是自本體2經兩次彎折 而成’即:連接部40延伸各導引部41的兩端部伽,向與焊 接部3延伸方向相反的方向水平彎折約9〇度;且該接合部4 是整體自連接部40與本體2連接處向焊接部3延伸方向1彎折 (請參考圖7、8)。導引部41自連接部4〇相對向外響折延;, 99578.doc -10 - 1281295 I » 之間形成寬闊的導引空間43。接觸部42自各導引部41向内 側收縮延伸,之間形成狹窄的定位空間44。 當相應晶片的插接腳插入時,首先進入寬闊的導引空間 43,而不會與插座連接器端子丨的任何部位產生摩擦。接著 插接腳逐漸移動至定位空間44 ,推頂並接觸兩側的接觸部 42,藉由接觸部42彈性變形產生的作用力而被緊固夾持。 為便於更直觀的瞭解接合部4與本體2間的具體連接關 係,以下結合圖5、6、7、8對上述實施例的插座連接器端 1 子1的製造方法作進一步說明。 首先在料帶上衝壓出該插座連接器端子丨的雛形,包含位 於同一平面上的一本體2,自該本體2 一端延伸的u行部4,, 及自該本體2另一端延伸的焊接部3,將焊接部3自本體2向 一側大致f折90度,即為圖6中顯示的接合部4成形前的該 插座連接器端子1的結構,此時接合部4即是一與本體2一體 成形的U形部4,,U形部4,的橫部40,即接合部4的連接部4〇。 . 接下來,如圖7,先將該u形部4,的豎部41,中部彎折使其 凸向焊接部3延伸方向,形成各接合部4的導引部“及位於耵 形部4f的豎部4 Γ自由端的接觸部42。 接著,如圖8,將連接部40的兩端部4〇〇向與焊接部3延伸 方向相反的方向水平彎折約9〇度。此時兩導引部41呈掌心 相對拱起,如此,兩相對的導引部41之間形成一開闊的導 引二間43,而由導引部41收縮的前端延伸的兩接觸部“之 間則形成一小於插入的插接腳的直徑的定位空間料。此為 接合部4自本體的第一次彎折。 99578.doc 1281295 I · 最後’再返回圖5’自連接部40將接合部4整體向焊接部3 延伸方向彎折,從而使導引部41與接觸部42大致垂直於本 體2’即形成本發明的插座連接器端子i。此為接合部 體的第二次彎折。 本發明的插座連接器端子,其各部分的寬度相當,不存 在為照顧接合部長度增加彈性而浪費材料的問題。同時接 合部自本體經兩次.彎折而成’是以接觸部的延伸面(垂直於 帛觸部的厚度方向的面)接觸插接腳具有足夠的與插入的 插接腳接觸的接觸面積’及足夠大的彈性形變,從而可穩 固固持插接腳並有效接觸,保證了該插接腳與電路板間的 穩定電連接。 本發明的接合部的彎折(包括前期自身中部的彎折)結構 及方法並不限於上述實施例所揭示的内容,應包括不背離 本發明精神的各種替換。如,本發明的插座連接器端子結 構可以疋·在接合部的中部先彎凸向與焊接部延伸方向相 • 反方向的情況下,先自連接部延伸各導引部的兩端部,向 焊接部延伸方向水平彎折約9〇度,並整體自連接部與本體 連接處向烊接部延伸方向彎折。另外上述插座連接器端子 的製造方法的步驟亦可根據實際情況調整順序,如焊接部 可在最後彎折成形,只要保證最後成形的端子接合部與其 同向延伸即可。第一次與第二次彎折的先後亦可調換。 本發明的技術内容及技術特點已揭示如上,然而熟悉本 領域的技術人員仍可能基於本發明的教示及揭示而作種種 不背離本發明精神的替換及修飾。因此,本發明的保護範 99578.doc •12· 1281295 圍應不限於實施例所揭示的内容,而應包括 發明的替換及修飾,並為本專利巾請請求 ^;背離本 【圖式簡單說明】 。 圖1為一習知插座連接器端子的立體圖; 圖2為圖1中插座連接器端子未成形時的平面圖; 圖3是另一習知插座連接器端子的立體圖; 圖4是圖3中未成形的插座連接器端子在料帶上的平面 圖;BACKGROUND OF THE INVENTION 1. Field of the Invention This invention relates to a terminal for a receptacle connector and a method of manufacturing the same, and more particularly to a "f-electric terminal of a zero insertion force receptacle connector and a method of manufacturing the same. σ [Prior Art] As shown in Fig. 1, U.S. Patent No. 6,824,414 discloses a zero insertion force receptacle connector terminal 5, which can be connected to a mating connector (not shown) to Corresponding circuit board (not shown). The terminal 5 of the socket connector includes a joint portion 100 that engages with the mating connector of the mating connector, a retaining portion 51 that holds the terminal 5 in the corresponding terminal receiving groove, and a terminal 5 is fixed to the circuit board. Upper mounting portion 52. The joint portion 5 has a neck portion 5 extending from the body 51, and a rear arm 5 vertically bent from the opposite sides of the neck portion 5 (Η, from the rear arm 5〇1 respectively shrinks and extends the contact arm 502. A wide crotch-shaped guiding space 503 is formed between the two rear arms 501, and a diameter slightly smaller than the diameter of the pin is formed between the free ends of the two contact arms 5〇2. Positioning space 504. When the mating connector is inserted into the socket connector, the mating connector pin is first inserted into the guiding space 5〇3, and then moved to the positioning space 504 to push the pair of contact arms 502 by contact The force generated by the arm 5〇2 elastic shaped wheat is firmly held, thereby achieving a stable electrical connection between the mating connector and the circuit board. However, the socket connector 5 can provide sufficient elastic force. In exchange for the great waste of material. Figure 2 shows the shape of the socket connector terminal 5 unformed β stamped on the tape, apparently forming a suitable joint 95978.doc 1281295. * 5 Ο, making a socket connector Terminal 5 must occupy the A-width strip; The retaining portion 5 of the main body of the socket connector terminal 5 only needs a strip of B width. According to actual manufacturing experience, the A width is approximately equal to twice the b, which is equivalent to each of the socket connector terminals 5 being produced. In order to avoid excessive waste of materials and reduce production costs, another zero insertion force socket connector terminal 6 is disclosed in US Pat. No. 6,533,591. As shown in Fig. 3, the socket connector terminal 6 is also The joint portion 6A, the retaining portion 61, and the mounting portion 62 are included. Unlike the socket connector terminal 5, the joint portion 60 of the terminal 6 is an opposite end from the neck portion 600 and the retaining portion 61. A U-shaped portion 601 is directly stamped, and the ends of the two legs 602 of the U-shaped portion 601 are bent toward each other to extend a portion, and then extend the straight portion 603. Thus, the space formed by the U-shaped portion 6〇1 is a guiding mating connector. The guiding space into which the pin is inserted is between the two straight portions 60 3 is a positioning space 6 〇 5 for clamping the pin. As shown in FIG. 4, since the U-shaped portion 601 is on the tape 7 Directly stamped into φ, rather than bent and extended from the sides of the neck 600 U-shaped. Therefore, the overall width of the terminal 6 is equivalent, and no material waste is caused. However, since the straight portion 6〇3 is in contact with the plug-in foot in the direction of the plane 70 where the thickness is located, the contact area is small; Relying on the surface tension of the material itself (ie, the ductility of the material), the elastic deformation can be reduced. Therefore, the socket connector terminal can reduce the production cost, but can not generate sufficient elastic force to effectively clamp the pin. It is difficult to provide a stable and reliable electrical connection. In view of the above two conventional socket connector terminals, or the disadvantages of high production cost, insufficient elastic holding force, and unstable electrical connection, it is necessary to know the socket connection of 99578.doc 1281295 The terminal is further improved. SUMMARY OF THE INVENTION An object of the present invention is to provide a socket connector terminal and a method of manufacturing the same, which can not only reduce the production cost but also the manufacturing method. The socket connector terminals are firmly in contact with the inserted pins and are effectively clamped for stable electrical connection. In order to achieve the above object, the present invention provides the following technical solution: a socket connector terminal, which is a socket connector for a zero insertion force structure, which is in contact with a plug-in leg of an inserted mating member. The socket connector terminal includes: a body, a welded portion bent perpendicularly from the body end, and a joint extending from the other end of the body through at least a secondary material. The joint portion includes a connecting portion extending from the body, a guiding portion extending from both ends of the connecting portion, and a contact portion extending from the guiding portion. The at least two bending means that both ends of the connecting portion extending guide portion are bent horizontally by 9 degrees in a direction opposite or the same direction as the welding extending direction, and the engaging portion: = the portion connecting the portion to the body extends toward the welded portion The direction 'bends. The two I 邛 are formed from the opposite sides of the connecting body at the opposite ends of the connecting portion, that is, the positioning space formed by the insertion pin (4) formed by the insertion pin of the open plug is inserted. The width of the positioning space is smaller than the insertion, the smear, and the sill of the inserted mating device, so that the two contact portions hold the pin. The body further includes at least one retaining portion projecting from both sides of the base portion. Further, the basic invention further discloses a method of the above-mentioned socket connector terminal of the radish method, which comprises the following steps: 99578.doc 1281295 The body of the socket connector terminal is stamped on the tape, from the body a joint portion of the extension and a u-shaped portion extending from the other end of the body, the lateral portion of the u-shaped portion being the joint portion of the joint portion; the welded portion is bent substantially 90 degrees from the body; The middle portions of the two vertical portions are bent to form a guiding portion of each joint portion and a joint portion of the joint portion at the free end of the vertical portion of the ^-shaped portion; the joint portion bent by the U-shaped portion is connected to the body The process of passing to | less secondary bending and shaping. Specifically, the child is 'bending the middle portion of the vertical portion of the U-shaped portion so as to be convex toward the direction of the welding. The at least two bendings at this time include: extending the connecting portion to the two sides of each guiding raft, The direction perpendicular to the extending direction of the welded portion is bent horizontally by about 90 degrees, and the entire joint portion is bent from the connecting portion toward the extending direction of the welded portion, so that the guiding portion and the contact portion are substantially perpendicular to the body. In addition, the middle portion of the vertical portion of the U-shaped portion may be bent so as to be convex in a direction opposite to the direction in which the welded portion extends. At this time, at least two times of bending and extending the both end portions of each guiding portion and extending toward the welded portion Horizontal = twist; and the joint portion $ is bent from the joint portion to the welded portion (four) so that the guide portion and the contact portion are substantially perpendicular to the body. Advantageous Effects of Invention The joint portion of the socket connector terminal of the present invention is smaller than the overall width of the terminal without causing waste. At the same time, the joint portion is bent twice by the main body, and the insertion leg of the mating device which is enchanted by the extended surface of the contact portion of the joint portion can provide sufficient elastic holding force. Therefore, the present invention has the advantages of low production cost and stable electrical connection of the socket connector terminals. 0 99578.doc 1281295 [Embodiment] In order to facilitate a better understanding of the present invention, the present invention will be further described in conjunction with a preferred embodiment. As shown in Fig. 5, a socket connector terminal 1 according to the present invention is a socket connector 8 (shown in Fig. 9) for a zero insertion force structure to connect various wafers (e.g., CPU chips used in a computer; Not shown) or an electrical connection between a mating connector (not shown) and a circuit board (not shown). The socket connector terminal 1 includes a body 2, a welded portion 3 which is bent substantially perpendicularly from one end of the body 2, and a joint portion 4 which is bent twice from the other end of the body 2 and extends substantially perpendicular to the body 2. The welded portion 3 is substantially disk-shaped and is used to weld the receptacle connector 8 to a corresponding circuit board. The main body 2 is a main body portion of the entire socket connector terminal 1, and includes a rectangular base portion 2, and a plurality of holding portions 2ι protruding from both sides of the extending plane direction of the base portion 20. In this embodiment, the holding portions 21 are represented. For different shapes of tabs or spurs. The body 2 is further interfered with the corresponding side walls of the terminal receiving slots 80 of the receptacle connector 8 by the retaining portions 21 such as tabs or spurs, and the terminal i is further retained in the receptacle connector 8. The engaging portion 4 is for contacting the corresponding insertion pins of the inserted wafer or mating connector, which in turn has a connecting portion 40 connected to the body 2, a pair of guiding portions 41, and a pair of contact portions 42. The joint portion 4 is bent twice from the body 2, that is, the joint portion 40 extends at both end portions of each of the guide portions 41, and is bent horizontally about 9 degrees in a direction opposite to the direction in which the welded portion 3 extends. And the joint portion 4 is integrally bent from the joint portion of the joint portion 40 and the body 2 toward the extending direction 1 of the welded portion 3 (please refer to FIGS. 7 and 8). The guiding portion 41 is relatively flanked from the connecting portion 4 ;; a wide guiding space 43 is formed between 99578.doc -10 - 1281295 I ». The contact portion 42 is contracted and extended from the respective guide portions 41 to the inner side to form a narrow positioning space 44 therebetween. When the pin of the corresponding wafer is inserted, it first enters the wide guiding space 43 without causing friction with any portion of the socket connector terminal. Then, the insertion pins are gradually moved to the positioning space 44, and the contact portions 42 which are pushed up and contacted on both sides are fastened and clamped by the force generated by the elastic deformation of the contact portion 42. In order to facilitate a more intuitive understanding of the specific connection relationship between the joint portion 4 and the body 2, the manufacturing method of the socket connector end 1 of the above embodiment will be further described below with reference to Figs. 5, 6, 7, and 8. First, the prototype of the socket connector terminal 冲压 is punched out on the tape, and includes a body 2 on the same plane, a u-row portion 4 extending from one end of the body 2, and a welding portion extending from the other end of the body 2 3. The welded portion 3 is folded substantially 90 degrees from the main body 2 to one side, that is, the structure of the socket connector terminal 1 before the joint portion 4 shown in FIG. 6 is formed. At this time, the joint portion 4 is a body and a body. 2 The integrally formed U-shaped portion 4, the lateral portion 40 of the U-shaped portion 4, that is, the connecting portion 4 of the joint portion 4. Next, as shown in FIG. 7, the middle portion of the vertical portion 41 of the u-shaped portion 4 is first bent so as to be convex toward the extending direction of the welded portion 3, and the guiding portion of each joint portion 4 is formed "and the beak portion 4f". The vertical portion 4 Γ the free end contact portion 42. Next, as shown in Fig. 8, the two end portions 4 of the connecting portion 40 are horizontally bent by about 9 degrees in a direction opposite to the direction in which the welded portion 3 extends. The guiding portion 41 is arched relative to the palm, such that an open guiding portion 43 is formed between the opposite guiding portions 41, and the two contact portions extending from the front end of the guiding portion 41 are contracted. A positioning space that is smaller than the diameter of the inserted pin. This is the first bend of the joint 4 from the body. 99578.doc 1281295 I · Finally 'return to FIG. 5', the entire joint portion 4 is bent from the joint portion 40 in the direction in which the welded portion 3 extends, so that the guide portion 41 and the contact portion 42 are substantially perpendicular to the body 2'. Invented socket connector terminal i. This is the second bend of the joint body. The socket connector terminal of the present invention has the same width of each portion, and there is no problem that material is wasted to increase the elasticity of the joint portion length. At the same time, the joint portion is bent twice from the body. The contact surface of the contact portion (the surface perpendicular to the thickness direction of the contact portion) contacts the insertion leg with a sufficient contact area with the inserted insertion pin. 'And a large enough elastic deformation, so that the pin can be firmly held and effectively contacted, ensuring a stable electrical connection between the pin and the circuit board. The structure and method of the bending of the joint portion of the present invention (including the bending of the middle portion of the previous period itself) are not limited to those disclosed in the above embodiments, and various alternatives should be included without departing from the spirit of the invention. For example, in the socket connector terminal structure of the present invention, in the case where the middle portion of the joint portion is bent toward the direction opposite to the direction in which the welded portion extends, the both ends of each of the guide portions are extended from the joint portion, The extending direction of the welded portion is bent horizontally by about 9 degrees, and the whole joint is bent from the connecting portion and the body to the extending direction of the connecting portion. Further, the steps of the manufacturing method of the above-mentioned socket connector terminal may be adjusted according to actual conditions, for example, the welded portion may be bent at the final end as long as the final formed terminal joint portion is extended in the same direction. The first and second bends can also be reversed. The technical contents and technical features of the present invention have been disclosed as above, and those skilled in the art can still make various substitutions and modifications without departing from the spirit and scope of the invention. Therefore, the protection model of the present invention is not limited to the contents disclosed in the embodiments, but should include the replacement and modification of the invention, and requests for the patent towel ^; 】. 1 is a perspective view of a conventional receptacle connector terminal; FIG. 2 is a plan view of the socket connector terminal of FIG. 1 when unformed; FIG. 3 is a perspective view of another conventional receptacle connector terminal; FIG. a plan view of the formed receptacle connector terminal on the strip;
圖5是一根據本發明的插座連接器端子的立體圖; 圖6〜8是圖5中插座連接器端子的接合部具有未成形前 的立體圖; 圖9是一是用本發明的插座連接器端子的插座連接器的 立體囷。 【主要元件符號說明】Figure 5 is a perspective view of a socket connector terminal according to the present invention; Figures 6 to 8 are perspective views of the joint portion of the socket connector terminal of Figure 5 having an unformed front; Figure 9 is a socket connector terminal of the present invention. The stereo connector of the socket connector. [Main component symbol description]
1 插座連接器端子 3 焊接部 4’ U形部 6 端子 8 插座連接器 20 基部 40 連接部 42 接觸部 44 定位空間 2 本體 4 接合部 5 插座連接器端子 7 料帶 2 1 固持部 41 導引部 43 導引空間 40’ 橫部 99578.doc -13- 1281295 4Γ 豎部 50 接合部 5 1 固持部 52 安裝部 60 接合部 61 固持部 62 安裝部 70 平面 80 端子收容槽 400 兩端部 500 頸部 501 後臂 502 接觸臂 503 導引空間 504 定位空間 600 頸部 601 U形部 602 兩支腿 603 直部 604 導引空間 605 定位空間 99578.doc - 14 -1 socket connector terminal 3 soldering part 4' U-shaped part 6 terminal 8 socket connector 20 base 40 connection part 42 contact part 44 positioning space 2 body 4 joint part 5 socket connector terminal 7 tape 2 1 holding part 41 guiding Portion 43 Guide space 40' Transverse portion 99978.doc -13- 1281295 4Γ Vertical portion 50 Engagement portion 5 1 Retaining portion 52 Mounting portion 60 Engagement portion 61 Retaining portion 62 Mounting portion 70 Plane 80 Terminal receiving groove 400 Both ends 500 neck Section 501 Rear arm 502 Contact arm 503 Guide space 504 Positioning space 600 Neck 601 U-shaped part 602 Two legs 603 Straight part 604 Guide space 605 Positioning space 99578.doc - 14 -