五、新型說明: 【新型所屬之技術領域】 [0001] 本創作涉及一種電連接器,尤指一種電性連接晶片模組 與印刷電路板之電連接器。 【先前技術】 [0002] 目前廣泛用電連接器將晶片模組電性連接至印刷電路板 。美國專利第7044746號揭示了習知技術之一種電連接器 。該電連接器包括絕緣本體及收容於絕緣本體之導電端 子。惟,這種連接方式之導電端子一般係由片狀金屬材 料衝壓成型’加工複雜,成本較高。該導電端子經多次 壓縮或彎折後易發生塑性變形,彈性較差,造成電連接 器無法與晶片模組或印刷電路板之導電月有效接觸,影 響電連接器之正常導接性能。 [0003] 另’習知電連接器之導電端子皆係規則型之陣列排列, 相鄰端子間距在水平和豎直方向皆為固定,故在生產時 可達成端子排插等生產方式。惟當晶片模組尺寸越來越 小時’晶片模組之導電片有可能不等間距,新世代電連 接器導電端子之排列也不易遵守規則排列,此時端子排 插之量產技術將受到嚴重限制,造成生產效率下降,成 本大為提升。 [0004] 鑒於以上弊端,實有必要提供一種改良之電連接器,以 克服前述電連接器之缺陷和不足。 【新型内容】 [0005] 本創作之目的係提供一種結構簡單、組裝方便之電連接 表單编號A0101 第3頁/共12頁 M377741 器。 [0006] 為解決前述技術問題,本創作提供了 一種電連接器,用 以電性連接晶片模組和印刷電路板,其包括絕緣本體以 及複數收容於絕緣本體之彈性導電體,其中所述絕緣本 體包括基體和蓋體',所述彈性導電體無方向地設於基體 上,蓋體設於基體上方,所述彈性導電體夾置在蓋體和 基體之間且凸露出盖體和基體之上下表面以與晶片模組 和印刷電路板分別達成電性連接。 [0007] 與習知技術相比,本創作電連接器之彈性導電體無方向 性限制,故結構簡單,組裝方便,提升了電連接器之生 產效率。 【實施方式】 [0008] 下面結合附圖和具體實施例對本創作電連接器作造一步 詳細說明。 [0009] 請參閱第一圖至第四圖所示,其揭示了本創作電連接器1 之具體實施方式。該電連接1用以電性連接晶片模組2 和印刷電路板3。該電連接器1包括絕緣本體10以及複數 收容於絕緣本體10之彈性導電體11。 [0010] 請重點參閱第二圖所示,該絕緣本體10包括矩形板狀之 基體101以及設於基體101上方之蓋體102。基體101上設 有複數不規則排列之端子收容孔1010。該端子收容孔 1010貫穿基體101之上下表面,大致呈圓柱形結構。該端 子收容孔1010包括設於基體101中間位置且呈密集排列之 第一端子孔1011以及設於基體101兩側之呈稀疏排列之第 表單编號A0101 第4頁/共12頁 M377741 二端子孔1012。蓋體i〇2與基體ίο〗結構大致相同。蓋體 102對應基體1〇1之端子收容孔1()1〇也相應設有通孔1〇2〇 ,用以收容彈性導電體11。該通孔1020包括與第一端子 扎1 011對應設置之第一通孔1 〇 21以及和第二端子孔1 〇 i 2 對應設置之第二通孔1022。其中第一通孔1021設於蓋體 102之中間位置且呈密集排列,第二通孔1〇22設於蓋體 102之兩側位置且呈稀疏分佈。 [0011] 彈性導電體11為無方向性之彈性球體,其内埋設有導電 金屬線或者在表面包覆一層導電金屬線。彈性導電體U 也可為其他無方向性之形狀,如圓餅狀,組裝時,先將 彈性導電體11藉震動方式或利用治具吸取方式放入基體 101之端子收容孔1〇1〇中,然後將蓋體1〇2蓋設於基體 101上,由此彈性導電體u被夾置在基體101和蓋體1〇1 之間,此時彈性導電體Π之上下兩端分別凸伸出蓋體1〇2 之通孔1 020和基體1〇1之端子收容孔1〇1〇以和晶片模組2 和印刷電路板3分別形成電性接觸。 [0012] 本創作之彈性導電體11無方向性,故可利用震動方式或 治具吸取方式將該彈性導電體丨丨放入基體1〇1上,然後將 蓋體102蓋在上面,由於基體ι〇1之端子收容孔1〇1〇之底 部設有縮口,蓋體102之通孔1〇2〇之頂部設有縮口所以 彈性導電體11不會脫落,由此彈性導電體11便夾置於蓋 體102與基體101之間且凸伸出蓋體1〇2和基體1〇1之上下 表面由此形成電連接器1。因彈性導電體n無方向性限制 ,組裝時便不需準確定位,此時電連接器丨沒有了習知之 導電端子排列之方向及間距尺寸等限制問題,另簡化了 表單編號A0101 第5頁/共12頁 MJ77741 電連接器1之結構,提升了電連接器〗之生產效率。 [0013] 綜上所述,本創作符合新型專利要件,爰依法提出專利 申請。惟,以上所述者僅為本創作之較佳實施方式,本 創作之範圍並不以前述實施方式為限,舉凡熟習本案技 藝之人士援依本創作之精神所作之等效修飾或變化皆 應涵蓋於以下申請專利範圍内。 【圖式簡單說明】 [0014] 第一圖係本創作電連接器之立體組裝圖; [0015] 第二圖係本創作電連接器之部分立體分解圖; [0016] 第三圖係本創作電連接器之立體分解圖; [〇〇17]第四圖係本創作電連接器連接晶片模組及印刷電路板之 示意圖。 【主要元件符號說明】 電連接器 1 絕緣本體 10 基體 101 端子收容孔 1010 第一端子孔 1011 第二端子孔 1012 i 蓋體 102 通孔 1020 第—通孔 1021 第二通孔 1022 導電體 11 晶片模組 2 印刷電路板 — 3 第6頁/共12頁 表單編號A0101V. New Description: [New Technology Field] [0001] The present invention relates to an electrical connector, and more particularly to an electrical connector for electrically connecting a chip module to a printed circuit board. [Prior Art] [0002] The wafer module is currently electrically connected to a printed circuit board by an electrical connector. An electrical connector of the prior art is disclosed in U.S. Patent No. 7,044,746. The electrical connector includes an insulative housing and a conductive terminal received in the insulative housing. However, the conductive terminals of this type of connection are generally formed by sheet metal forming, which is complicated in processing and high in cost. The conductive terminal is susceptible to plastic deformation after being compressed or bent for a plurality of times, and the elasticity is poor, so that the electrical connector cannot effectively contact the conductive month of the chip module or the printed circuit board, thereby affecting the normal guiding performance of the electrical connector. [0003] The conductive terminals of the conventional electrical connectors are arranged in a regular array, and the adjacent terminal pitches are fixed in both horizontal and vertical directions, so that production methods such as terminal strips can be achieved during production. However, when the size of the chip module is getting smaller and smaller, the conductive sheets of the chip module may not be equally spaced, and the arrangement of the conductive terminals of the new generation electrical connectors is not easy to follow the regular arrangement. At this time, the mass production technology of the terminal strips will be seriously affected. Restrictions cause a decline in production efficiency and a significant increase in costs. In view of the above drawbacks, it is necessary to provide an improved electrical connector that overcomes the deficiencies and deficiencies of the aforementioned electrical connectors. [New Content] [0005] The purpose of this creation is to provide an electrical connection with a simple structure and easy assembly. Form No. A0101 Page 3 of 12 M377741. [0006] In order to solve the foregoing technical problems, the present invention provides an electrical connector for electrically connecting a chip module and a printed circuit board, comprising an insulative housing and a plurality of elastic conductors received in the insulative housing, wherein the insulation The body includes a base body and a cover body. The elastic conductive body is non-directionally disposed on the base body, and the cover body is disposed above the base body. The elastic conductive body is sandwiched between the cover body and the base body and protrudes from the cover body and the base body. The upper and lower surfaces are electrically connected to the chip module and the printed circuit board, respectively. Compared with the prior art, the elastic conductor of the present invention has no directional limitation, so the structure is simple, the assembly is convenient, and the production efficiency of the electrical connector is improved. [Embodiment] [0008] The present invention will be described in detail with reference to the accompanying drawings and specific embodiments. Referring to the first to fourth figures, a specific embodiment of the present electrical connector 1 is disclosed. The electrical connection 1 is used to electrically connect the chip module 2 and the printed circuit board 3. The electrical connector 1 includes an insulative housing 10 and a plurality of elastic conductors 11 housed in the insulative housing 10. [0010] Referring to the second figure, the insulative housing 10 includes a base plate 101 having a rectangular plate shape and a cover 102 disposed above the base body 101. The base body 101 is provided with a plurality of terminal receiving holes 1010 which are irregularly arranged. The terminal receiving hole 1010 extends through the upper surface of the upper surface of the base body 101 and has a substantially cylindrical structure. The terminal receiving hole 1010 includes a first terminal hole 1011 disposed at a middle position of the base body 101 and arranged in a dense arrangement, and a form number A0101 which is disposed on both sides of the base body 101. Page 4/12 pages M377741 Two terminal holes 1012. The cover i〇2 is substantially identical in structure to the base ίο. The cover body 102 corresponding to the terminal receiving hole 1 (1) of the base body 1〇1 is also provided with a through hole 1〇2〇 for receiving the elastic electric conductor 11. The through hole 1020 includes a first through hole 1 〇 21 corresponding to the first terminal 1 011 and a second through hole 1022 corresponding to the second terminal hole 1 〇 i 2 . The first through holes 1021 are disposed at a middle position of the cover body 102 and are arranged in a dense arrangement. The second through holes 1〇22 are disposed at two sides of the cover body 102 and are sparsely distributed. [0011] The elastic conductor 11 is a non-directional elastic sphere in which a conductive metal wire is embedded or a conductive metal wire is coated on the surface. The elastic conductor U can also be in the shape of a non-directional shape, such as a round cake. When assembling, the elastic conductor 11 is first placed in the terminal receiving hole 1〇1〇 of the base 101 by vibration or by means of a jig suction. Then, the cover body 1〇2 is covered on the base body 101, whereby the elastic conductive body u is sandwiched between the base body 101 and the cover body 1〇1, and the upper and lower ends of the elastic conductive body are respectively protruded. The through hole 1 020 of the cover 1 〇 2 and the terminal receiving hole 1 〇 1 基 of the base 1 〇 1 are in electrical contact with the wafer module 2 and the printed circuit board 3, respectively. [0012] The elastic conductor 11 of the present invention has no directionality, so the elastic conductive body can be placed on the base body 1〇1 by means of vibration or jig suction, and then the cover body 102 is covered thereon, due to the base body. The end of the terminal receiving hole of the ι〇1 is provided with a constriction, and the top of the through hole 1〇2〇 of the cover body 102 is provided with a constriction so that the elastic electric conductor 11 does not fall off, whereby the elastic electric conductor 11 is It is sandwiched between the cover body 102 and the base body 101 and protrudes from the cover body 1〇2 and the upper surface above the base body 1〇1 to thereby form the electrical connector 1. Since the elastic conductor n has no directional limitation, it does not need to be accurately positioned during assembly. At this time, the electrical connector has no limitation on the direction and spacing of the conventional conductive terminal arrangement, and the form number A0101 is simplified on page 5/ A total of 12 pages of MJ77741 electrical connector 1 structure, improving the production efficiency of the electrical connector. [0013] In summary, the creation complies with the new patent requirements, and the patent application is filed according to law. However, the above description is only a preferred embodiment of the present invention, and the scope of the present invention is not limited to the foregoing embodiments, and equivalent modifications or changes made by those who are familiar with the skill of the present invention in accordance with the spirit of the present invention should be It is covered by the following patent application. BRIEF DESCRIPTION OF THE DRAWINGS [0014] The first figure is a three-dimensional assembled view of the present electrical connector; [0015] The second figure is a partial exploded view of the present electrical connector; [0016] The third figure is the creation An exploded view of the electrical connector; [〇〇17] The fourth figure is a schematic diagram of the present invention for connecting the chip module and the printed circuit board. [Main component symbol description] Electrical connector 1 Insulating body 10 Base 101 Terminal receiving hole 1010 First terminal hole 1011 Second terminal hole 1012 i Cover body 102 Through hole 1020 First hole 1021 Second hole 1022 Conductor 11 Wafer Module 2 Printed Circuit Board — 3 Page 6 of 12 Form No. A0101