M398709 五、新型說明: 【新型所屬之技術領域】 本創作涉及-種電連接器組合,尤指一種電性連接晶片模組與印刷電 路板之電連接器組合。 【先前技術】 . 目别廣’乏用電連接益组合將晶片模組電性連接至印刷電路板。與本創 作相關之習知技術可參照美國專利第5975916號所揭示之一種板對板公母 鲁酉己對連接器元件。該電連接器組合包括用以連接印刷電路板之母端連接器 以及與母端連接器插接配合之用以連接晶片模組之公端連接器。母端連接 器包括平板狀之插座基體以及收容於插座基體之第一端子。該第一導電端 子具有第一彈性接觸部。公端連接器具有插頭基體以及容設在插頭基體與 第一導電端子對接之第二導電端子。該第二導電端子具有第二彈性接觸 邛。§板對板公母配對連接器元件作電氣連接時,需先將母端連接器焊接到 印刷電路板上,然後將公端連接器插入母端連接器,再將晶片模組組設在 公端連接器上,該公端連接器之第二導電端子之第二彈性接觸部與母端連 鲁接器之第一導電端子之第一彈性接觸部緊密結合在一起,以此實現晶片模 組和印刷電路板之間之電性連接。 惟,前述板對板公母配對連接器元件至少需要公端連接器與母端連接 裔兩個連接器之插接配合才能實現晶片模組和印刷電路板之間之電性連接 故該板對板公母配對連接器元件之結構複雜,組裝過程較為繁瑣,導致生 產成本較高。 鑒於以上弊端,實有必要提供一種改良之電連接器組合,以克服 剷述電連接器組合之缺陷和不足。 【新型内容】 本創作之目的係提供一種結構簡單,組裝方便之電連接器組合。 4 M398709 _決前述技術問題,本_提供了—種電連接器組合,用以電性連 接晶片模組和_電路板,其包括:絕緣本體以及複倾容於絕緣本體之 端子’其情述電連接器組合還包括組設於絕緣本體關之固持 該固持件包括橫向之第-固持壁、縱向之垂直於第一固持壁之第二固持 2、與第-固雜平行相對之第三嗎壁錢與第二_鮮行相對之第 四固持壁,細持件之至少-個固持壁上設有複數焊接片,以將晶片模組 - 組接到絕緣本體上方。 • 與習知技術相比,本創作電連接器組合藉組設在絕緣本體周側之固持 春件代替傳統之公端連接器,由此簡化了電連接器組合之結構,組裝較為簡 便’從而降低了製造成本。 s 【實施方式】 下面結合附圖和具體實施例對本創作電連接器作進一步詳細說明。 ^請參閱第-圖至第五圖所示,其揭示了本創作電連接器組合匕具體實 施方式。該電連接器組合i用以電性連接晶片模组2和印刷電路板(未圖 不)。該電連接器組合1包括絕緣本體1〇、複數收容於絕緣本體1〇之導電端 子11以及固持在絕緣本體10周側之金屬固持件12。 sf重點參縣二®所示’該絕緣本體10包括矩形板狀之基體1G1。該基 體1〇1具有橫向之第-側壁_、與第一側壁顧垂直之呈縱向之第二側壁 1〇12:與第-側壁平行相對且與第二側壁1()12連接之第三側壁刪以 及與第二側壁1012平行相對且連接第—側壁1〇11和第三側壁1〇13之第四側 壁1014。該基體1()1具有用以承接晶片模組2之接觸面⑴I〗以及和接觸面 1015平行相對之安裝面1016。該基體⑼上設有複數呈兩排規則排列之端子 收容槽102。該端子收容槽102貫穿基體1〇1之接觸面1〇15和安裝則㈣大 致呈矩形形結構。該基體101之第一側壁1011和第三側壁1013之外側對稱設 有禝數突伸之定位部103。該突伸之定位部103高於基體101之接觸面.。 該基體1G1還進-步在每—定位㈣3之兩側對稱設有複數突伸之定位塊 5 M398709 104。另該基體iG1在第二側㈣12和第四側壁刪之外側表面分別設有突 伸之定位塊104。 導電端子11大致呈S型,其包括呈倒置u翻持部咖及由該固持部 112向前延伸大致呈中心開口朝上之傾斜之u形接觸部113。該接觸部⑴設 有傾斜向上延伸之彈性接觸臂叫。該彈性接觸臂114之末端設有與晶片模 組2電性連接之孤形接觸端115。該弧形接觸端115進一步向斜下方傾斜延 *伸。該倒置之娜固持部112之外側臂之中間位置兩側突伸設有干涉倒刺 -116,以將導電端子11固持於絕緣本體10之端子收容槽102中。該倒置之⑽ •固持部112之外側臂之自由末端設有導接部11卜該導接部m自U型固持部 112之外側臂之自由末端水平向外延伸且突伸出絕緣本伽之安裝面 1016 ’以與印刷電路板(未圖示)導接。 請重點參閱第二圖和第三圖所示,該固持件12大致為一矩形金屬框 體’其設有中心開口125,用以收容絕緣本體10。該中心開口m由固持件 12之橫向之第-固持壁12卜縱向之垂直於第—固持壁⑵之第二固持壁 122、與第-畴壁⑵平行姉之第三固持勤加及與第二畴壁⑵平 行相對之第四固持壁124圍設形成。固持件12之第一固持壁121、第二固持 齡.壁122、第三固持壁123以及第四固持壁12娜應絕緣本體1〇之定位塊刚分 別設有扣持部⑶。該扣持部126分別由第—固持壁i2i、第二固持壁122、 第三固持壁m以及第四固持壁⑶之底端先向内朝向中心開口 125凸伸铁 後再朝外傾斜延伸’以和絕緣本體10之定位塊104干涉配合以將絕緣本體10 固持到固持件i2之中心開口以中。該扣持部以設有弧形之抵接面腕, 由此便於細_2組設到絕緣本義_。_件12之第1持壁⑵、 弟二固細22、第三固持壁m以及第四固持壁124之頂端還分別對稱設有 二平向外凸伸之焊接片127 ’用以將固持件12焊接到晶片模組2之底部。該 焊接片127兩兩為一組且呈間隔設置。 組裝時,先將複數導電端子η組設到絕緣她〇之端子收容獅a中, 6 M398709 然後將固持件12從絕緣本體10上方向下組入,該固持件12之扣持部126藉弧 形之抵接面1261順利滑過絕緣本體1〇之定位塊1〇4,然後扣持到定位塊1〇4 之下方,由此絕緣本體便被穩固組設於固持件12之中心開口丨25中;請重 點參閲第四圖和第五圖所示,接著便可將晶片模組2藉固持件12之焊接片 127而焊接固(到電連接H組合1上(請參閱第四圖和第五圖所示),最後將 組設有晶片模組2之電連接器組合1放置到印刷電路板(未圖示)上,由此 便了霄現阳片換組2和印刷電路板(未圖示)之間之電性連接。 本創作之電連接器組合1藉組設在絕緣本體1〇周側之固持件12而代替 習知之公端連接H,減簡化了電連接驗合之結構,組驗顧便 而降低了製造成本。另,該金屬之_件12在電連接器組合匕 : 可提供遮罩作用,減少電磁預。 作過長中 综上所述’本創作符合新型專利要件,纽法提出專利申許 上所述者僅為本創作之較佳實施方式,本創作之範圍並不以’以 :限比:凡熟習織藝之人士援依本創作之精神所作之等二 化,s應涵蓋於以下申請專利範圍内。 飾或交 【圖式簡單說明】 第一圖係本創作電連接器組合之立體組裝圖; 第二圖係本創作電連接器組合之立體分解圖; 第三圓係第-騎示電連接驗合沿职^線之剖視圖. 5四圖係本_電連接驗合與晶片额之正通合示 【主要組合與晶片模一合示意圖: 電連接器組合 基體 第二側壁 第四側壁 101 1012 1014 絕緣本體 第一側壁 第三側壁 接觸面 10 1011 1013 1015 7 安裝面 1016 端子收容槽 定位部 103 定位塊 導電端子 11 導接部 固持部 112 接觸部 彈性接觸臂 114 接觸端 倒刺 116 固持件 第一固持壁 121 第二固持壁 第三固持壁 123 第四固持壁 中心開口 125 扣持部 抵接面 1261 焊接片 晶片模組 2M398709 V. New Description: [New Technology Field] This creation involves a combination of electrical connectors, especially an electrical connector combination of an electrically connected chip module and a printed circuit board. [Prior Art] . The multi-use power connection combination electrically connects the chip module to the printed circuit board. A conventional technique relating to the present invention can be found in a pair of board-to-board male and female entanglement connector elements disclosed in U.S. Patent No. 5,759,916. The electrical connector assembly includes a female connector for connecting to the printed circuit board and a male connector for mating with the female connector for connecting the wafer module. The female connector includes a flat socket base and a first terminal received in the socket base. The first conductive terminal has a first resilient contact. The male connector has a plug base and a second conductive terminal that is received between the plug base and the first conductive terminal. The second conductive terminal has a second resilient contact 邛. § When the board-to-board male and female mating connector components are electrically connected, the female end connector is first soldered to the printed circuit board, then the male end connector is inserted into the female end connector, and then the chip module is set in the public On the end connector, the second elastic contact portion of the second conductive terminal of the male connector is tightly coupled with the first elastic contact portion of the first conductive terminal of the female end connector, thereby implementing the chip module Electrical connection to the printed circuit board. However, the board-to-board male-female mating connector component requires at least a plug-in connection between the male connector and the female connector to achieve electrical connection between the chip module and the printed circuit board. The structure of the male and female mating connector components is complicated, and the assembly process is cumbersome, resulting in high production cost. In view of the above drawbacks, it is necessary to provide an improved combination of electrical connectors to overcome the deficiencies and deficiencies of the electrical connector assembly. [New Content] The purpose of this creation is to provide a combination of electrical connectors that are simple in structure and easy to assemble. 4 M398709 _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ _ The electrical connector assembly further includes a third member that is disposed on the insulating body and that holds the holder including the lateral first-holding wall, the longitudinal direction perpendicular to the first holding wall, and the third parallel with the first-solid parallel The wall of the wall and the second retaining wall opposite to the second row, the at least one holding wall of the holding member is provided with a plurality of soldering pieces to connect the chip module to the upper portion of the insulating body. • Compared with the prior art, the present invention combines the holding of the spring member on the peripheral side of the insulating body to replace the conventional male connector, thereby simplifying the structure of the electrical connector assembly and making assembly easier. Reduced manufacturing costs. [Embodiment] The present invention will be further described in detail below with reference to the accompanying drawings and specific embodiments. ^ Please refer to the figures - to fifth figures, which disclose the specific embodiment of the present electrical connector assembly. The electrical connector assembly i is used to electrically connect the chip module 2 and the printed circuit board (not shown). The electrical connector assembly 1 includes an insulative housing 1 , a plurality of conductive terminals 11 received in the insulative housing 1 , and a metal holder 12 held on the circumferential side of the insulative housing 10 . The sf is mainly referred to as the "Shenzhen II". The insulating body 10 includes a rectangular plate-shaped base 1G1. The base body 101 has a lateral side wall _, a second side wall 1 〇 12 perpendicular to the first side wall: a third side wall parallel to the first side wall and connected to the second side wall 1 () 12 And a fourth side wall 1014 parallel to the second side wall 1012 and connected to the first side wall 1〇11 and the third side wall 1〇13. The base 1()1 has a contact surface (1) for receiving the wafer module 2 and a mounting surface 1016 parallel to the contact surface 1015. The base body (9) is provided with a plurality of terminal receiving grooves 102 arranged in two rows. The terminal receiving groove 102 penetrates the contact surface 1〇15 of the base body 1〇1 and the mounting (4) has a substantially rectangular structure. The first side wall 1011 of the base body 101 and the outer side of the third side wall 1013 are symmetrically provided with a positioning portion 103 with a number of protrusions. The protruding positioning portion 103 is higher than the contact surface of the base 101. The base body 1G1 is further stepwise provided with a plurality of protruding positioning blocks 5 M398709 104 symmetrically on each side of the positioning (four) 3. Further, the base body iG1 is provided with a protruding positioning block 104 on the outer side surfaces of the second side (four) 12 and the fourth side wall, respectively. The conductive terminal 11 is substantially S-shaped and includes a U-shaped contact portion 113 which is an inverted u-clip portion and which is inclined forwardly from the holding portion 112 and has a substantially central opening upward. The contact portion (1) is provided with an elastic contact arm that extends obliquely upward. The end of the resilient contact arm 114 is provided with an orphan contact end 115 electrically connected to the die set 2. The curved contact end 115 is further inclined obliquely downward. An interference barb-116 is protruded from both sides of the intermediate position of the outer arm of the inverted Na holding portion 112 to hold the conductive terminal 11 in the terminal receiving groove 102 of the insulative housing 10. The inverted end (10) of the outer side arm of the holding portion 112 is provided with a guiding portion 11 which extends horizontally outward from the free end of the outer arm of the U-shaped holding portion 112 and protrudes from the insulating gamma Mounting surface 1016' is in communication with a printed circuit board (not shown). Referring to the second and third figures, the holding member 12 is substantially a rectangular metal frame, which is provided with a central opening 125 for receiving the insulative housing 10. The central opening m is defined by the transversely-fixed wall 12 of the retaining member 12, the second retaining wall 122 perpendicular to the first retaining wall (2), and the third retaining portion parallel to the first-domain wall (2). The second domain wall (2) is formed in parallel with the fourth holding wall 124. The first retaining wall 121, the second retaining wall 122, the third retaining wall 123, and the fourth retaining wall 12 of the retaining member 12 are each provided with a retaining portion (3). The fastening portion 126 is respectively protruded from the bottom end of the first holding wall i2i, the second holding wall 122, the third holding wall m, and the fourth holding wall (3) toward the center opening 125, and then extends obliquely outward. The interference block is engaged with the positioning block 104 of the insulative housing 10 to hold the insulative housing 10 to the central opening of the holder i2. The holding portion is provided with an arc-shaped abutting surface wrist, thereby facilitating the assembly of the thin layer _2 to the original meaning of the insulation. The first holding wall (2) of the member 12, the second fixing wall 22, the third holding wall m and the fourth holding wall 124 are respectively symmetrically provided with two flat outwardly protruding soldering pieces 127' for holding the holding member 12 Soldered to the bottom of the wafer module 2. The soldering pieces 127 are arranged in groups of two and at intervals. During assembly, the plurality of conductive terminals η are first assembled into the terminal huss of the insulating hustle, 6 M398709, and then the holding member 12 is assembled from above the insulating body 10, and the holding portion 126 of the holding member 12 is bent by the arc. The abutting surface 1261 smoothly slides over the positioning block 1〇4 of the insulating body 1〇, and then is fastened under the positioning block 1〇4, whereby the insulating body is stably assembled to the central opening 25 of the holding member 12. Referring to the fourth and fifth figures, the wafer module 2 can then be soldered by the solder tab 127 of the holder 12 (to the electrical connection H combination 1 (see the fourth figure and In the fifth figure, finally, the electrical connector assembly 1 in which the wafer module 2 is provided is placed on a printed circuit board (not shown), thereby replacing the positive film exchange group 2 and the printed circuit board ( The electrical connector assembly 1 of the present invention replaces the conventional male terminal connection H by the holding member 12 disposed on the circumferential side of the insulating body 1 to simplify the electrical connection verification. The structure and the group inspection reduce the manufacturing cost. In addition, the metal component 12 is in the electrical connector assembly: For the role of masking, reduce the electromagnetic pre-production. In the long-term summary of the above-mentioned 'this creation meets the new patent requirements, the New Zealand patent application is only the preferred implementation of this creation, the scope of this creation and Do not use 'by: limit ratio: those who are familiar with the weaving art to assist in the spirit of this creation, s should be covered in the scope of the following patent application. Decoration or exchange [simplified description] The first picture is The three-dimensional assembly diagram of the combination of the electrical connector is created; the second diagram is the exploded view of the combination of the original electrical connector; the third circular system is the cross-sectional view of the first-line riding connection. The electrical connection is combined with the wafer amount. [The main combination is combined with the wafer mold: the second side wall of the second side wall of the electrical connector assembly base body 101 1012 1014 The first side wall of the insulating body The third side wall contact surface 10 1011 1013 1015 7 Mounting surface 1016 terminal receiving groove positioning portion 103 positioning block conductive terminal 11 guiding portion holding portion 112 contact portion elastic contact arm 114 contact end barb 116 holding member first holding wall 121 second holding wall third holding Wall 123 Fourth retaining wall Center opening 125 Buckle abutment surface 1261 Solder pad Chip module 2