M316515 八、新型說明: 【新型所屬之技術領域】 本創作涉及-種電連接器,尤指-種電性連接晶片模組至印刷電路板之電 連接器。 【先前技術】 與本創作相關之LGA型電連接器如中國大陸專利公告第2674686號所揭 露,可電性連接晶片模組至印刷電路板,其包括絕緣本體、容設於絕緣本體中 籲之複數導電端子。絕緣本體大致呈矩形狀,其設有複數收容導電端子之端子收 谷槽^電知子係一體成型,其包括固持於端子收容槽中之基部、自基部向上 延伸與晶片模組電性連接之接觸部,以及自基部向下延伸與印刷電路板電性連 接之焊接部。將絕緣本體置於印刷電路板上以實現導電端子與_電路板之電 —性連接,再將晶片模組置於絕緣本體上表面以實現晶片模組與導電端子之電性 連接,彳之而貫現晶片模組與印刷電路板之電性連接。 惟,此種結構之電連接器至少存在以下缺點··導電端子雖然導電率較高, 春但在安裝晶片模組時,導電端子會朝向一侧傾斜,容易産生位移,且導電端子 形狀複雜’佔用空間大,不能密集排列,還容易與鄰近之導電端子産生較高之 電感效應,不利於高頻信號之傳輸。 鑒於此’實有必要提供一種改進之電連接器,以克服上述電連接器之缺陷。 【新型内容】 本創作之目的在於提供一種新型之電連接器,其導電端子結構簡單,且能 實現晶片模組與印刷電路板之間電性或信號之快速傳輸。 爲解决上述技術問題,本創作提供了一種可電性連接晶片模組至印刷電路 M316515 板之包連接為’其包括設有端子收容槽之絕緣本體、容設於絕緣本體端子收容 槽中之複科電端子,其中,導電端子包括置於端子收容槽上端之第一導電端 子置於端子收谷槽下端之第二導電端子,以及連接第一導電端子和第二導電 端子之彈性件。 相對於與本創作相關之技術,本創作電連接·構簡單,能有效減低電感 放應也可在集排列,更能符合高頻線路之需求,實現晶片模組與印刷電路板 之間電性或信號之快速傳輸。 【貫施方式】 睛參第一圖至第四圖所示,本創作電連接器丨,可電性連接晶片模組(未 圖不)與印刷電路板(未圖示),其包括絕緣本體2及容設於絕緣本體2中之 複數導電端子4。 絕緣本體2大致呈矩形平板狀構造,其設有可承接晶片模組之上表面和安 裝於印刷電路板上之下表面,貫穿絕緣本體2之上、下表面設有複數收容導電 端子4之端子收容槽20。端子收容槽2〇呈兩截式方孔設置,其包括位於其上 鲁方之第一端子收容槽201和位於其下方之第二端子收容槽2〇2。 導電端子4包括置於第一端子收容槽2〇1中之第一導電端子41和置於第 一鈿子收谷槽202中之第二導電端子42,以及連接第一導電端子41和第二導 電端子42之彈性件43。第一導電端子41、第二導電端子42及彈性件43均爲 金屬,其也可根據實際需要設置爲其他材質。 第一導電端子41大致呈劍狀,其設有主體部41〇和自主體部41〇向兩側 延伸之作動部411,以及自主體部410朝下延伸之插入部412。主體部410上端 設有與晶片模組電性連接且呈三角形狀之接觸部413。主體部41〇之寬度大於 6 M316515 插入部412之寬度。作動部411下端設有易於插入第二導電端子42之斜面4ΐι〇。. 第二導電端子42包括基部420和自基部420兩側向上延伸之導引部421, 以及連接兩個導引部421之連接部422。基部、導引部421和連接部似 共同組成一個收容彈性件:之收容槽424。導引部421自上而下設有收容導引 槽4210以收谷第一導電端子41之作動部411,作動部411可於導引槽中 /月動’且^引槽4210與豎直方向呈一定夾角a設置以實現作動部411與第二導 電端子42導引部421之緊密連接。導引槽伽上端設有控制作動部4ιι滑動 _範圍之固持部423。導引部421兩侧設有複數將第二導電端子42固定於第二端 子收合才曰201中之凸塊幻11。基部420向下延伸設有將導電端子4安裝於印刷 電路板之焊接部425,焊接部425大致呈平板狀。 • 彈性件43爲彈簧,其與第一導電端子41之插入部412爲干涉配合以實現 第一導電端子與彈性件43之間之連接。 組裝時,將彈性件43組設於第二導電端子42之收容槽424巾,將第一導 電端子4i順著斜面襲插入第二導電端子42中,此時,第一導端子41之作 籲動部411置於第二導電端子42之導引槽伽中且可於導引槽伽中滑動,其 插入部412置於彈性件43中。將導電端子4自絕緣本體2下表面插入絕緣本 體2中,第-導電端子4i和第二導電端子42分別收容於第一端子收容槽2〇1 和第二端子收容槽2〇2中。將電連接器〗通過第二導電端子42之焊接部奶 焊接於印刷電路板上以實現印刷魏板與導電端子4之電性連接。將晶片模組 置於第導電端子41上端,第-導電端子41受力會向下移動,通過作動部4ιι 與導引部421實現第-導電端子41與第二導電端子幻之間穩固之電性連接, 從而實現晶片模組與印刷電路板之間之電性連接。當不受力時,彈性件43恢 7 M316515 復原狀且將第導電端子41彈回,達到初始位置,故而形成了可壓縮之電 連接器卜此種導電端子4結構簡單,佔用空間小,能夠密集排列,不容易與 鄰近之導電端子產生較高之電感效應,且利於高頻信號之傳輸。 綜上所述,本創作符合新型專利要件,爱依法提出專利申請。惟,以上所 述者僅為摘狀雛實_,摘狀細並砂上關躲,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。 φ 【圖式簡單說明】 第一圖係本創作電連接器中導電端子之立體分解圖; 第二圖係第一圖所示導電端子之立體組合圖; 第二圖係本創作電連接器之立體組合圖示,其中導電端子未完全列出; 第四圖係第三圖所示電連接器之剖視圖。 【主要元件符號説明】M316515 VIII. New Description: [New Technology Field] This creation involves an electrical connector, especially an electrical connector that electrically connects the chip module to the printed circuit board. [Prior Art] The LGA type electrical connector related to the present invention is disclosed in Chinese Patent Publication No. 2674686, which can electrically connect the chip module to the printed circuit board, and includes an insulating body and is accommodated in the insulating body. Multiple conductive terminals. The insulative housing has a substantially rectangular shape, and is provided with a plurality of terminal receiving grooves for receiving the conductive terminals, and is integrally formed, and includes a base portion held in the terminal receiving groove and extending upward from the base portion to electrically connect with the chip module. And a soldering portion extending downward from the base and electrically connected to the printed circuit board. The insulating body is placed on the printed circuit board to realize the electrical connection between the conductive terminal and the _ circuit board, and then the chip module is placed on the upper surface of the insulating body to realize the electrical connection between the chip module and the conductive terminal. The electrical connection between the chip module and the printed circuit board is completed. However, the electrical connector of such a structure has at least the following disadvantages: · Although the conductive terminal has a high electrical conductivity, in the spring, when the wafer module is mounted, the conductive terminal is inclined toward one side, which is prone to displacement, and the shape of the conductive terminal is complicated. The occupied space is large, can not be densely arranged, and is easy to generate a high inductance effect with the adjacent conductive terminals, which is not conducive to the transmission of high frequency signals. In view of this, it is necessary to provide an improved electrical connector to overcome the above-described drawbacks of the electrical connector. [New content] The purpose of this creation is to provide a new type of electrical connector, which has a simple conductive terminal structure and can realize rapid transmission of electrical or signal between the chip module and the printed circuit board. In order to solve the above technical problem, the present invention provides a package for electrically connecting a chip module to a printed circuit M316515. The package is connected to an insulating body provided with a terminal receiving groove, and is accommodated in the terminal receiving groove of the insulating body. The electrical terminal includes a second conductive terminal disposed at an upper end of the terminal receiving groove and a second conductive terminal disposed at a lower end of the terminal receiving groove, and an elastic member connecting the first conductive terminal and the second conductive terminal. Compared with the technology related to this creation, the author has a simple electrical connection and structure, which can effectively reduce the inductance and the arrangement, and can better meet the requirements of high-frequency lines, and realize the electrical connection between the chip module and the printed circuit board. Or a fast transmission of the signal. [Cross-application method] As shown in the first to fourth figures, the present invention is electrically connected to a chip module (not shown) and a printed circuit board (not shown), which includes an insulative body. 2 and a plurality of conductive terminals 4 accommodated in the insulative housing 2. The insulative housing 2 has a substantially rectangular flat plate structure, and is provided with a top surface of the chip module and a lower surface of the printed circuit board. The upper surface of the insulative housing 2 and the lower surface are provided with a plurality of terminals for receiving the conductive terminals 4 The receiving slot 20 is provided. The terminal receiving groove 2 is provided in a two-section square hole, and includes a first terminal receiving groove 201 on the upper side thereof and a second terminal receiving groove 2〇2 located below the terminal. The conductive terminal 4 includes a first conductive terminal 41 disposed in the first terminal receiving groove 2〇1 and a second conductive terminal 42 disposed in the first die-receiving groove 202, and a first conductive terminal 41 and a second connection The elastic member 43 of the conductive terminal 42. The first conductive terminal 41, the second conductive terminal 42 and the elastic member 43 are all metal, and may be provided as other materials according to actual needs. The first conductive terminal 41 is substantially in the shape of a sword, and is provided with a main body portion 41A and an operating portion 411 extending from both sides of the main body portion 41, and an insertion portion 412 extending downward from the main body portion 410. The upper end of the main body portion 410 is provided with a contact portion 413 which is electrically connected to the wafer module and has a triangular shape. The width of the body portion 41 is greater than the width of the 6 M316515 insertion portion 412. The lower end of the actuating portion 411 is provided with a slope 4ΐι〇 which is easy to be inserted into the second conductive terminal 42. The second conductive terminal 42 includes a base portion 420 and a guiding portion 421 extending upward from both sides of the base portion 420, and a connecting portion 422 connecting the two guiding portions 421. The base portion, the guiding portion 421 and the connecting portion seem to collectively constitute a receiving elastic member: a receiving groove 424. The guiding portion 421 is provided with a receiving guiding groove 4210 from the top to the bottom to receive the operating portion 411 of the first conductive terminal 41. The actuating portion 411 can be moved in the guiding groove/the groove 4210 and the vertical direction. It is disposed at a certain angle a to achieve a tight connection between the actuating portion 411 and the guiding portion 421 of the second conductive terminal 42. The upper end of the guiding groove is provided with a holding portion 423 for controlling the sliding portion _ range of the operating portion 4 . Both sides of the guiding portion 421 are provided with a plurality of bumps 11 for fixing the second conductive terminal 42 to the second terminal. The base portion 420 extends downwardly from a solder portion 425 for mounting the conductive terminal 4 to the printed circuit board, and the solder portion 425 has a substantially flat shape. • The resilient member 43 is a spring that interferes with the insertion portion 412 of the first conductive terminal 41 to effect a connection between the first conductive terminal and the resilient member 43. During assembly, the elastic member 43 is disposed in the receiving groove 424 of the second conductive terminal 42 to insert the first conductive terminal 4i into the second conductive terminal 42 along the oblique surface. At this time, the first conductive terminal 41 is called The moving portion 411 is placed in the guiding groove of the second conductive terminal 42 and is slidable in the guiding groove, and the insertion portion 412 is placed in the elastic member 43. The conductive terminal 4 is inserted into the insulating body 2 from the lower surface of the insulative housing 2, and the first conductive terminal 4i and the second conductive terminal 42 are respectively received in the first terminal receiving groove 2〇1 and the second terminal receiving groove 2〇2. The electrical connector is soldered to the printed circuit board through the soldering portion of the second conductive terminal 42 to electrically connect the printed board to the conductive terminal 4. The wafer module is placed on the upper end of the first conductive terminal 41, and the first conductive terminal 41 is forced to move downward, and the first conductive terminal 41 and the second conductive terminal are stabilized by the operating portion 4 and the guiding portion 421. The connection is made to realize the electrical connection between the chip module and the printed circuit board. When the force is not applied, the elastic member 43 recovers the shape of the M316515 and rebounds the first conductive terminal 41 to the initial position, thereby forming a compressible electrical connector. The conductive terminal 4 has a simple structure and a small space. Densely arranged, it is not easy to produce a high inductance effect with adjacent conductive terminals, and facilitate the transmission of high frequency signals. In summary, this creation is in line with the new patent requirements, and loves to file patent applications according to law. However, the above-mentioned ones are only for the sake of picking up the _, and the picking is fine and the sand is closed. The equivalent modifications or changes made by those who are familiar with the skill of the present invention in accordance with the spirit of this creation should be covered in the following patent application scope. Inside. Φ [Simple diagram of the diagram] The first diagram is an exploded view of the conductive terminals in the present electrical connector; the second diagram is a three-dimensional combination diagram of the conductive terminals shown in the first figure; the second diagram is the electrical connector of the present invention A three-dimensional combination diagram in which the conductive terminals are not completely listed; the fourth figure is a cross-sectional view of the electrical connector shown in the third figure. [Main component symbol description]
電連接器 1 絕緣本體 2 端子收容槽 20 第一端子收容槽 201 第二端子收容槽 202 導電端子 4 第一導電端子 41 主體部 410 作動部 411 斜面 4110 插入部 412 接觸部 413 第二導電端子 42 基部 420 導引部 421 導引槽 4210 連接部 422 固持部 423 收容槽 424 焊接部 425 彈性件 43 8Electrical connector 1 Insulation body 2 Terminal receiving slot 20 First terminal receiving slot 201 Second terminal receiving slot 202 Conductive terminal 4 First conductive terminal 41 Main body portion 410 Actuating portion 411 Bevel 4110 Inserting portion 412 Contact portion 413 Second conductive terminal 42 Base portion 420 guiding portion 421 guiding groove 4210 connecting portion 422 holding portion 423 receiving groove 424 welding portion 425 elastic member 43 8