^88991 九、發明說明: 【务明所屬之技術領域】 元体明'歩及—種插座連接ϋ,尤指-種用於連接電子 件至電路板的插座連接器。 【先前技術】 庫^著科予技術的進步,許多傳統的產品逐漸出現了對 應的電子取代產α , 機 、 ’如近年出現的數碼相。機、數碼攝像 的^步取代傳統的光學相機及傳統的攝像機而走進人們 路來^ Ϊ於數石馬相機、數碼攝像機採用的是使用晶片電 像^成貝料獲取和圖像處理,因此如何將採集資料的攝 德换ϋ处理貧料的電路完好地連接成了數碼相機、數碼攝 像機研發生產中 座Τ的—個課題。 姆/國專利申請公開第2GG4/_8868號揭示了—種將相 ^ . &板的插座連接器的方案。該插座連接器 匕括一相機、媪έ日 ., 、/’ 一絕緣殼體和若干導電端子。絕緣殼體 马中空四合式 帝山 體結構,其四周壁對稱地設有若干收容導 二山之收谷心。相機模組收容於絕緣殼體之空腔内。導 =子收谷於收容槽巾,並設有接觸部和焊接部延伸出絕 其中_部與相機模組對應的電性聯接部分聯接 ’:!:干接部焊接至電路板以完成相機模組與電路板之間的連 接另’美國外觀設計專利公告第D493427號揭示了 -種絕 緣忒體的構造特徵。該絕緣殼體為扁平結構,包括基座底 壁和豎直的四周壁。四周壁上豎直地設有若干收容槽,導 1288991 電端子收容於收容槽中。導電端子的接觸部從收容槽内向 絕緣殼體中空部彎折,並凸伸出收容槽。 上述插座連接器解決了將相機模組連接至電路板的問 題,然而由於該插座連接器中相機模組與導電端子在側面 接觸,在實際操作中,因相機模組對導電端子的直接按壓 ,容易引起導電端子位置上的偏移,從而可能導致相機模 組與導電端子不穩定的接觸,影響整個產品的正常工作, 因此必須設計一種新的插座連接器以滿足要求。 【發明内容】 本發明插座連接器的目的在於提供一種可穩固導通電 子元件的插座連接器。 本發明的目的是通過以下技術方案實現的:一種插座 連接器,用於收容電子元件,其包括一設有若干收容槽之 絕緣殼體、若干收容於絕緣殼體之收容槽之導電端子及與 絕緣殼體配合並扣持電子元件於絕緣殼體内之扣持元件, 其中導電端子設有固持部和第一、第二接觸部,固持部與 絕緣殼體配合以固定導電端子,第一、第二接觸部分別延 伸出絕緣殼體與對應部件接觸,所述絕緣殼體設有以第一 方向延伸之第一抵接壁和以第二方向延伸之第二抵接壁, 所述導電端子之固持部收容於所述第一抵接壁内,以固定 導電端子,導電端子之第二接觸部從所述第二抵接壁處向 上延伸出收容槽。 與現有技術相比,本發明其絕緣殼體設收容槽,收容 槽收容導電端子,其中收容槽形成有第一方向延伸之第一 1288991 抵接壁和第二方向延伸之第二抵接壁,且第一方向延伸之 第一抵接壁和第二方向延伸之第二抵接壁分別抵接電子元 件避免因移動過程中的晃動,而導致電子元件和導電端子 不穩定接觸,從而使電子元件穩固地收容於絕緣殼體内保 持和導電端子可靠的電性連接。同時,本發明元件設計簡 單,製作簡便,具有較高的工業利用價值。 【實施方式】 參閱第一圖及第二圖所示,本發明插座連接器100包括 若干導電端子1,設有若干收容槽25以收容導電端子1的絕 緣殼體2,收容於絕緣殼體2内的相機模組3和將相機模組3 扣持於絕緣殼體2内的扣持元件4。 參閱第二圖及第三圖所示,導電端子1包括第一接觸部 11,第二接觸部12及連接第一接觸部11和第二接觸部12的 固持部13。第一接觸部11水平延伸。固持部13從第一接觸 部11 一端豎直向上延伸再彎折向下形成S型曲線,並在其一 自由端水平地以與第一接觸部11延伸方向相反的方向延伸 形成第二接觸部12。導電端子1在其固持部13豎直延伸的部 分以非均勻側向延伸的方式形成干涉部131。 參閱第四圖所示,絕緣殼體2設有基部20和從基部20 向上延伸的豎直方向的第一抵接壁21、23、22和24。基部 20為扁平的中空四合式結構,第一抵接壁21、23、22和24 由基部20各邊的外側半邊向上延伸,並將各壁交接處(未 標示)除去使各壁彼此獨立分隔而形成。基部20各邊的内 侧半邊形成了水平方向的第二抵接壁26。絕緣殼體2的第一 1288991 抵接壁21和23之外侧壁上分別設有側向突出的凸塊211,凸 塊211外側緣向上延伸並與對應抵接壁21、23形成間隙(未 標示)。若干固持槽201分別設於各抵接壁交接的挖空處。 絕緣殼體2在第一抵接壁21、22、23和24上分別設有若干收 容槽25。收容槽25從第一抵接壁21、23、22和24的内部向 絕緣殼體2的中空部延伸並貫穿第二抵接壁26。收容槽25 設有第一方向上的豎直側壁251和第二方向上的水平側壁 252。基部20在其下表面對應第一抵接壁21、23、22和24 的位置形成凹部202。 相機模組3包括基座31和取像頭32。基座31設有上表面 311和下表面312,其中下表面312設有若干對應於導電端子 1的弟二接觸部12的導接部313。本實施例中的相機模組3 亦可為其他電子元件。 參閱第二圖及第四圖所示,扣持元件4包括獨立對稱的 兩部分,每一部分包括一平板41。平板41設有一對配合插 腳42,一對延伸部412,一對扣持臂43和一對抵接部41〇。 所述的一對抵接部410相互間隔地從平板41的上侧緣同侧 側向延伸,一對扣持臂43相隔並從所述平板41上在所述抵 接部410的外側處,以垂直於抵接部41〇延伸方向的方向向 上延伸。扣持部431從扣持臂43上部以與抵接部41〇延伸方 向相同的方向向前向下延伸,並在末端向後折回而形成。 所述一對配合插腳42分別從平板41的左右側緣以垂直於平 板41且同向於抵接部41〇延伸方向的方向延伸。配合插腳42 末端向下延伸形成插入部421,插入部421上設有倒刺422。 1288991 平板41的左右侧邊分別向下延伸形成延伸部412。平板41 下側緣的中間位置形成方形的缺口 411。扣持元件4的兩部 分鏡像對稱。 參閱第一圖、第四圖和第五圖所示,導電端子1對應地 收容於絕緣殼體1的收容槽25内。導電端子1的固持部13上 的干涉部131與收容槽25的豎直側壁251相抵接以固定導電 端子1。所述第一接觸部11從收容槽25内延伸出,並由絕緣 殼體2的基部20的凹部202處向外伸展(見第六圖)。第一 接觸部11用於焊接至電路板(未圖示)。第二接觸部13沿 著第二抵接壁26向上延伸出絕緣殼體2。相機模組3收容於 絕緣殼體2内,並置於基部20的内侧半邊上,其中相機模組 3的導接部313對應於導電端子1的第二接觸部13,實現相機 模組3與電路板電路的聯接。扣持元件4與絕緣殼體2配合, 其中配合插腳42對應地插入固持槽2〇1中,其倒刺422與固 持槽201内壁緊密抵接,以穩固固定扣持元件4。缺口4U 與絕緣殼體2的凸台211及凸台211和對應壁形成的間隙配 合,抵接部410分別抵接絕緣殼體2的第一抵接壁21、23的 頂面’扣持臂43的扣持部431抵扣在相機模組3基座31的上 表面311上。 本發明插座連接器100,其絕緣殼體2設有以豎直方向 延伸之弟一抵接壁21、22、23及24和以水平方向延伸之第 二抵接壁26,所述第二抵接壁26抵靠相機模組3以避免導電 端子1被按壓偏離原位,以致影響導電端子丨和相機模組3 之間導通。 1288991 綜上所述,本發明確已符合發明專利之要件,爰依法 提出專利申請。惟,以上所述僅為本發明之較佳實施方式, 自不能以此限定本發明之權利範圍。舉凡所屬技術領域中 具有通常知識者爰依本發明之精神所作之等效修飾變化, 皆仍涵蓋於後附之申請專利範圍内。 【圖式簡單說明】 第一圖係本發明插座連接器的立體組合圖。 第二圖係本發明插座連接器的分解圖。 第三圖係本發明插座連接器另一角度的分解圖。 第四圖係本發明插座連接器上的絕緣殼體的立體圖。 第五圖係本發明插座連接器的絕緣殼體和導電端子的立體 組合圖。 第六圖係本發明插座連接器沿第五圖的VI-VI方向的剖視 圖。 【主要元件符號】 插座連接器 100 導電端子 1 第一接觸部 11 第二接觸部 12 固持部 13 干涉部 131 絕緣殼體 2 基部 20 固持槽 201 凹部 202 第一抵接壁 21 、 23 、 22 > 24 凸塊 211 收容槽 25 豎直侧壁 251 水平側壁 252 第二抵接壁 26 相機模組 3 1288991 基座 31 取像頭 32 上表面 311 下表面 312 導接部 313 扣持元件 4 平板 41 卡持部 410 缺口 411 延伸部 412 配合插腳 42 插入部 421 倒刺 422 扣持臂 43 扣持部 431^88991 IX. Invention Description: [Technical field to which it belongs] Yuan Mingming's type of socket connection, especially the type of socket connector used to connect electronic components to circuit boards. [Prior Art] With the advancement of technology, many traditional products have gradually appeared to correspond to the electronic substitution of α, machine, and the digital phase that has appeared in recent years. The camera and digital camera replace the traditional optical camera and the traditional camera and enter the people's road. ^The digital camera and the digital camera use the chip image to obtain the image and image processing. How to connect the circuit of collecting data to the poorly processed circuit is a good task in the development and production of digital cameras and digital cameras. U.S. Patent Application Publication No. 2 GG4/_8868 discloses a solution for a socket connector for a phase plate. The socket connector includes a camera, a day, an electric housing, and a plurality of conductive terminals. Insulating shell Ma hollow four-in-one The structure of the mountain is symmetrically placed around the wall to accommodate the valley of the two mountains. The camera module is housed in a cavity of the insulative housing. The guide = sub-receiving in the receiving trough, and is provided with a contact portion and a welded portion extending out of the _ portion and the electrical connection portion corresponding to the camera module is connected ':!: the dry joint is welded to the circuit board to complete the camera mold The connection between the group and the circuit board is also described in the 'U.S. Design Patent Publication No. D493427. The insulative housing is a flat structure including a base bottom wall and a vertical peripheral wall. A plurality of receiving slots are vertically disposed on the surrounding wall, and the 1288991 electrical terminals are received in the receiving slots. The contact portion of the conductive terminal is bent from the inside of the receiving groove toward the hollow portion of the insulating case and protrudes from the receiving groove. The socket connector solves the problem of connecting the camera module to the circuit board. However, since the camera module and the conductive terminal are in side contact in the socket connector, in actual operation, due to the direct pressing of the camera module to the conductive terminal, It is easy to cause the position of the conductive terminal to be offset, which may cause unstable contact between the camera module and the conductive terminal, which affects the normal operation of the entire product. Therefore, a new socket connector must be designed to meet the requirements. SUMMARY OF THE INVENTION The purpose of the receptacle connector of the present invention is to provide a receptacle connector that can stabilize a conducting component. The object of the present invention is achieved by the following technical solutions: a socket connector for accommodating electronic components, comprising an insulating housing having a plurality of receiving slots, and a plurality of conductive terminals received in the receiving slots of the insulating housing and The insulating housing cooperates with and holds the latching component of the electronic component in the insulative housing, wherein the conductive terminal is provided with a retaining portion and first and second contact portions, and the retaining portion cooperates with the insulating housing to fix the conductive terminal, first, The second contact portions respectively extend from the insulating housing to be in contact with the corresponding component, the insulating housing is provided with a first abutting wall extending in a first direction and a second abutting wall extending in a second direction, the conductive terminal The holding portion is received in the first abutting wall to fix the conductive terminal, and the second contact portion of the conductive terminal extends upward from the second abutting wall to the receiving groove. Compared with the prior art, the insulative housing of the present invention is provided with a receiving slot, and the receiving slot receives the conductive terminal, wherein the receiving slot is formed with a first 1288991 abutting wall extending in a first direction and a second abutting wall extending in a second direction. And the first abutting wall extending in the first direction and the second abutting wall extending in the second direction respectively abut the electronic component to avoid swaying during the moving process, thereby causing the electronic component and the conductive terminal to be in unstable contact, thereby causing the electronic component It is firmly housed in the insulative housing to maintain a reliable electrical connection with the conductive terminals. At the same time, the components of the invention are simple in design, simple in manufacture, and have high industrial utilization value. [Embodiment] Referring to the first and second figures, the socket connector 100 of the present invention includes a plurality of conductive terminals 1 and a plurality of receiving slots 25 for receiving the insulating housing 2 of the conductive terminals 1 and received in the insulating housing 2 The camera module 3 and the holding component 4 for holding the camera module 3 in the insulating housing 2 . Referring to the second and third figures, the conductive terminal 1 includes a first contact portion 11, a second contact portion 12, and a holding portion 13 that connects the first contact portion 11 and the second contact portion 12. The first contact portion 11 extends horizontally. The holding portion 13 extends vertically upward from one end of the first contact portion 11 and is bent downward to form an S-shaped curve, and horizontally extends at a free end thereof in a direction opposite to the extending direction of the first contact portion 11 to form a second contact portion. 12. The conductive terminal 1 forms the interference portion 131 in such a manner that the portion in which the holding portion 13 extends vertically extends in a non-uniform lateral direction. Referring to the fourth figure, the insulating housing 2 is provided with a base portion 20 and first vertical abutting walls 21, 23, 22 and 24 extending upward from the base portion 20. The base 20 is a flat hollow quadruple structure, and the first abutment walls 21, 23, 22 and 24 extend upward from the outer half of each side of the base 20, and the intersections (not labeled) of the walls are removed to separate the walls from each other. And formed. The inner side half of each side of the base 20 forms a second abutting wall 26 in the horizontal direction. The outer side walls of the first 1288991 abutting walls 21 and 23 of the insulating housing 2 are respectively provided with laterally protruding bumps 211, and the outer edges of the protruding blocks 211 extend upward and form a gap with the corresponding abutting walls 21, 23 (not labeled) ). A plurality of holding grooves 201 are respectively disposed at the hollowed out portions where the abutting walls are delivered. The insulating housing 2 is provided with a plurality of receiving grooves 25 on the first abutting walls 21, 22, 23 and 24, respectively. The housing groove 25 extends from the inside of the first abutting walls 21, 23, 22 and 24 toward the hollow portion of the insulating housing 2 and penetrates the second abutting wall 26. The receiving groove 25 is provided with a vertical side wall 251 in the first direction and a horizontal side wall 252 in the second direction. The base portion 20 forms a recess 202 at a position where the lower surface thereof corresponds to the first abutting walls 21, 23, 22, and 24. The camera module 3 includes a base 31 and an image taking head 32. The base 31 is provided with an upper surface 311 and a lower surface 312, wherein the lower surface 312 is provided with a plurality of guiding portions 313 corresponding to the second contact portions 12 of the conductive terminals 1. The camera module 3 in this embodiment may also be other electronic components. Referring to the second and fourth figures, the retaining member 4 includes two portions that are independently symmetrical, each portion including a flat plate 41. The flat plate 41 is provided with a pair of engaging pins 42, a pair of extending portions 412, a pair of latching arms 43 and a pair of abutting portions 41A. The pair of abutting portions 410 extend laterally from the upper side edge of the flat plate 41 at the same side, and the pair of latching arms 43 are spaced apart from the flat plate 41 at the outer side of the abutting portion 410. It extends upward in a direction perpendicular to the extending direction of the abutting portion 41〇. The holding portion 431 is formed to extend forward and downward from the upper portion of the holding arm 43 in the same direction as the extending direction of the abutting portion 41, and is folded back at the end. The pair of engaging pins 42 extend from the left and right side edges of the flat plate 41 in a direction perpendicular to the flat plate 41 and in the direction in which the abutting portion 41 is extended. The end of the mating pin 42 extends downward to form an insertion portion 421, and the insertion portion 421 is provided with a barb 422. 1288991 The left and right sides of the flat plate 41 respectively extend downward to form an extension portion 412. A square notch 411 is formed at an intermediate position of the lower side edge of the flat plate 41. The two parts of the holding element 4 are mirror symmetrical. Referring to the first, fourth and fifth figures, the conductive terminals 1 are correspondingly received in the receiving grooves 25 of the insulating housing 1. The interference portion 131 on the holding portion 13 of the conductive terminal 1 abuts against the vertical side wall 251 of the receiving groove 25 to fix the conductive terminal 1. The first contact portion 11 extends from the receiving groove 25 and extends outwardly from the recess 202 of the base portion 20 of the insulating housing 2 (see Fig. 6). The first contact portion 11 is for soldering to a circuit board (not shown). The second contact portion 13 extends upwardly along the second abutment wall 26 out of the insulative housing 2. The camera module 3 is received in the insulative housing 2 and placed on the inner half of the base 20 . The guiding portion 313 of the camera module 3 corresponds to the second contact portion 13 of the conductive terminal 1 to implement the camera module 3 and the circuit. The connection of the board circuit. The latching member 4 is engaged with the insulative housing 2, wherein the mating pin 42 is correspondingly inserted into the retaining slot 2〇1, and the barb 422 is in close contact with the inner wall of the retaining slot 201 to securely fix the latching member 4. The notch 4U is engaged with the gap formed by the boss 211 and the boss 211 of the insulating housing 2 and the corresponding wall, and the abutting portion 410 abuts the top surface of the first abutting walls 21, 23 of the insulating housing 2, respectively. The latching portion 431 of the buckle 43 is buckled on the upper surface 311 of the base 31 of the camera module 3. In the socket connector 100 of the present invention, the insulating housing 2 is provided with a pair of abutting walls 21, 22, 23 and 24 extending in a vertical direction and a second abutting wall 26 extending in a horizontal direction, the second abutting The wall 26 abuts against the camera module 3 to prevent the conductive terminal 1 from being pressed away from the original position, thereby affecting the conduction between the conductive terminal 丨 and the camera module 3. 1288991 In summary, the present invention has indeed met the requirements of the invention patent, and has filed a patent application 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 thereto. Modifications of equivalent modifications made by those skilled in the art in the light of the present invention are still within the scope of the appended claims. BRIEF DESCRIPTION OF THE DRAWINGS The first figure is a perspective assembled view of the socket connector of the present invention. The second figure is an exploded view of the socket connector of the present invention. The third figure is an exploded view of another angle of the socket connector of the present invention. The fourth figure is a perspective view of an insulative housing on the receptacle connector of the present invention. Figure 5 is a perspective assembled view of the insulative housing and conductive terminals of the receptacle connector of the present invention. Figure 6 is a cross-sectional view of the socket connector of the present invention taken along line VI-VI of the fifth drawing. [Main component symbol] Receptacle connector 100 Conductive terminal 1 First contact portion 11 Second contact portion 12 Retaining portion 13 Interference portion 131 Insulating housing 2 Base portion 20 Holding groove 201 Concavity portion 202 First abutting wall 21, 23, 22 > 24 Bump 211 Storage groove 25 Vertical side wall 251 Horizontal side wall 252 Second abutment wall 26 Camera module 3 1288991 Base 31 Image pickup head 32 Upper surface 311 Lower surface 312 Guide portion 313 Clamping element 4 Plate 41 Holding portion 410 notch 411 extending portion 412 fitting pin 42 insertion portion 421 barb 422 holding arm 43 holding portion 431
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