M415480 五、新型說明: 【新型所屬之技術領域】 本創作是關於電連接器技術領域,尤其是指一種插槽連 接器。 【先前技術】M415480 V. New description: [New technical field] This creation is about the field of electrical connectors, especially a slot connector. [Prior Art]
插槽連接器是一種方便外部子板與主機板連接的器 具,具有即插即拔的功效。插槽連接器中,插口内容置有若 干端子,端子是通過逐-對應端子孔插入組裝,絲緣主體 上的端子孔内還需要設有相應的卡位元結構,以配合端子插 入卡固’防止端子退出;由於端子數目較多,端子孔排布較 為緊密’再加上卡位元結構的設計,以致端子孔的開模設計 相當難’製作成本高’結構性缺陷極易發生,導致產品不良 率高H端子是通過逐-對應端子孔插人組冑,組裝相 當不便’效率低’也難則呆證端子在插口内的平整性,導致 不同端子與子板的接觸幅度不一致,甚至出現個別沒有接通 的現象,影響子板插接使用。 【新型内容】 本創作的目的在於提供一種優化結構設計,方便加工 組裝的插槽連接器。 端子之間平 本創作再一目的是提供-種端子定位良好, 齊度高,插拔有力的插槽連接器。 為達到上述目的’本創作採用如下技術方案 3 δυ —種插槽連接ϋ,包括有絕m 干第二端子;絕緣主體Ρ1 μ有 子及若 有插槽,並於插槽上下側延伸Η 設有第-嵌接槽及第〈伸開 右干第一端子排列固定在第 U ㈣注模形成’接觸部及焊接腳露置在第 外;若干第二端子排列㈣在第二模組上,採用注模形成且 接觸部及焊接腳露置在第二模組外;該第—模㈣人第1 接槽内安裝,該第二模纟嵌山 " 山 、,甘入入弟—肷接槽内安裝,恰使第— 端子的接觸部和第-嫂; 第一螭子的接觸部露置在絕緣主體的插槽 内,用於電性連接外部插入的子板。 a 該第一模組的端部設有掛台,掛台嵌入掛接於第—嵌接 槽内側壁上的第一扣位上;第一嵌接槽的埠上設有剖切式烊 :疋位&帛_模組上的第—端子之焊接腳對應焊腳定位槽 容置定位。第一模組從上往下嵌入第一嵌接槽第_模組設 有内側台緣’内側台緣搭接在第一嵌接槽上的承載部上。 該第二模組的端部設有掛台,掛台嵌入掛接於第二嵌接 匕内側i上的第—扣位上;第二嵌接槽的埠上設有剖切式焊 腳疋位槽’第一杈組上的第二端子之焊接腳對應焊腳定位槽 容置定位。第二模組從下往上嵌入第二嵌接槽第二模組及 第二嵌接槽均呈1形,第二模組的側面以有加強連接的筋 條’筋條緊密接觸第二嵌接槽的内側面。 該絕緣主體的兩端還設有接駁位,接驳位活動連接有塔 塊,塔塊豎立安裝在接驳位上。絕緣主體的接驳位上設有插 M415480 扣孔,一豎直穿過塔塊的插銷插入插扣孔内固接而插銷上 端形成一彎頭,彎頭壓扣在塔塊的上端,接驳位的邊緣設有 上凸的包夾邊’包夹邊限制塔塊。 該塔塊上還設有橫向凸出的定位塊,定位塊平面式搭在 接i位上,一彈片豎直穿過定位塊後固定在絕緣主體上。 【實施方式】 以下結合附圖對本創作進一步說明: 參閱圖—' 五所示,系為本創作的較佳實施例示意圖, 本創作有關—種插槽連接器,其具體結毅:包括有絕緣主 體絕,·彖主體1開設有插槽J i,並於插槽i i上下側延伸 有第《接槽12及第二嵌接槽13。若干第一端子2排 歹〗固疋在第—杈組3上形成一整體,可採用注模形成,第 端子2的接觸部21及焊接腳22露置在第—模& 3外,接 觸部21做彈性彎折設計;若干第二端子4排列固定在第二 α 形成—整體,可採用注模形成,第二端子4的接 觸Ρ 41及焊接腳42露置在第二模組5外。該第一模組3嵌 上述的第-嵌接槽12内安裝,該第二模組5嵌入第二嵌 接槽内安驻 使第一端子2的接觸部21和第二端子4 、觸。Ρ 41露置在絕緣主體1的插槽11内,用於電性連接 夕卜部插入的子板。 連接 圖三、四所示,第— 嵌入掛接於第一嵌接槽 模組3的端部設有掛台31,掛台 12内側壁上的第一扣位m上; 5 31 第嵌接槽12的崞上設有剖切式焊腳定也槽⑵,第一模组 上的第—端子2之焊接腳22對應焊腳定位槽122容置定 位❶第—模組3從上往下嵌 弟敢接槽12’第一模組3設 内側台緣32,内側台緣32 俗接在第一嵌接槽12上的承載 邛123上,承載部123為 肷接槽12之一側邊的上頂端 面;掛台3i為第一模組3 吃— 神鲕凸出。又叶,第一模組3對應 t入t裝時,掛台31嵌入掛 受%弟嵌接槽12内側壁上的 第—扣位121上,遠釗狀#上从 違到防退卡接,㈣側台緣32搭接在第 —嵌接槽12上的承載部12 , 執。丨123上’由承载部123 ,給予定位支 牙’限制第一模組3嵌入深度The slot connector is a device that facilitates the connection of the external daughter board to the motherboard, with plug-and-play capability. In the socket connector, the socket is provided with a plurality of terminals, and the terminals are inserted and assembled through the corresponding-by-corresponding terminal holes, and the corresponding card-bit structure is also required in the terminal holes on the wire-edge body to fit the terminal insertion and fastening' Prevent the terminal from exiting; because the number of terminals is large, the terminal holes are arranged tightly together, plus the design of the card bit structure, so that the opening design of the terminal hole is quite difficult. The manufacturing cost is high. The structural defects are very easy to occur, resulting in products. The high defect rate H terminal is inserted into the group through the corresponding-by-corresponding terminal hole. The assembly is quite inconvenient. The 'inefficiency is low'. It is difficult to verify the flatness of the terminal in the socket, resulting in inconsistent contact amplitude between different terminals and the daughter board, and even individual occurrences. There is no connection, which affects the use of the daughter board. [New Content] The purpose of this creation is to provide a slot connector that is optimized for structural design and easy assembly. The purpose of the flat between the terminals is to provide a slot connector with good terminal positioning, high uniformity, and strong insertion and removal. In order to achieve the above objectives, the author uses the following technical solution. 3 δυ-type slot connection ϋ, including the second terminal with absolute m; the insulating body Ρ1 μ has sub-ports and if there are slots, and extends on the upper and lower sides of the slot The first-embedded slot and the first extension-right dry first terminal are arranged and fixed in the U (four) injection molding to form a contact portion and the soldering foot is exposed outside; a plurality of second terminal arrangements (four) are arranged on the second module, Formed by injection molding and the contact portion and the soldering foot are exposed outside the second module; the first mold (four) is installed in the first joint groove, and the second mold is embedded in the mountain. The socket is mounted such that the contact portion of the first terminal and the first contact portion are exposed in the slot of the insulating body for electrically connecting the externally inserted daughter board. a end of the first module is provided with a hanging platform, and the hanging platform is embedded in the first buckle on the inner side wall of the first engaging groove; the first engaging groove is provided with a cut-off type on the top: The soldering pins of the first terminal on the clamp & 帛 module are positioned corresponding to the solder tail positioning slots. The first module is embedded in the first engaging groove from the top to the bottom of the first engaging groove. The inner edge of the inner edge of the first module is overlapped on the carrying portion of the first engaging groove. The end of the second module is provided with a hanging platform, and the hanging platform is embedded in the first buckle position of the inner side of the second engaging weft; the second engaging groove is provided with a cut-off welding leg The soldering legs of the second terminals on the first slot group of the bit slot correspond to the solder socket positioning slots. The second module is embedded in the second engagement groove. The second module and the second engagement groove are both in a shape, and the side of the second module is tightly contacted with the ribs with the reinforced links. The inner side of the groove. The two ends of the insulating body are further provided with a connection position, and the connection position is movably connected with a tower block, and the tower block is erected and installed at the connection position. The connection position of the insulating body is provided with a M415480 buttonhole, and a pin inserted vertically through the tower block is inserted into the buckle hole to be fixed, and an upper end of the bolt forms an elbow, and the elbow is buckled at the upper end of the tower block, and the connection is made. The edge of the bit is provided with an upper convex edging edge. The tower block is further provided with a laterally protruding positioning block, and the positioning block is planarly placed on the i-position, and a spring piece is vertically passed through the positioning block and fixed on the insulating body. [Embodiment] The present invention will be further described below with reference to the accompanying drawings: Referring to the drawings - 'five', it is a schematic diagram of a preferred embodiment of the present invention, and the present invention relates to a slot connector, the specific knot: including insulation The main body 1 is provided with a slot J i, and the first and second engaging grooves 13 extend from the upper and lower sides of the slot ii. A plurality of first terminals 2 are formed on the first group 3 and formed integrally by injection molding. The contact portions 21 of the second terminal 2 and the soldering legs 22 are exposed outside the first mold & The portion 21 is elastically bent; the plurality of second terminals 4 are arranged and fixed in the second α-forming body, and can be formed by injection molding, and the contact Ρ 41 of the second terminal 4 and the soldering leg 42 are exposed outside the second module 5 . The first module 3 is mounted in the first engagement groove 12, and the second module 5 is embedded in the second insertion groove to seat the contact portion 21 and the second terminal 4 of the first terminal 2. The Ρ 41 is exposed in the slot 11 of the insulating body 1 for electrically connecting the daughter board into which the outer portion is inserted. Connected to the third and fourth connections, the first end of the first embedding slot module 3 is provided with a hanging platform 31, and the first buckle m on the inner side wall of the hanging platform 12; The boring of the groove 12 is provided with a cutting-type welding leg fixing groove (2), and the welding leg 22 of the first terminal 2 on the first module is positioned corresponding to the welding leg positioning groove 122. The module 3 is from top to bottom. The inner module edge 32 of the first module 3 is provided with an inner side edge 32, and the inner side edge 32 is connected to the load-carrying crucible 123 on the first engagement groove 12, and the carrying portion 123 is a side of the splicing groove 12. The upper top surface; the hanging table 3i is the first module 3 to eat - the god is protruding. In addition, when the first module 3 is corresponding to the t-loading, the hanging platform 31 is embedded in the first buckle 121 on the inner side wall of the %-matching groove 12, and the front-end shape is from the violation to the anti-backup card. (4) The side rim 32 overlaps the carrier portion 12 on the first engagement groove 12, and is executed.丨123 on 'by the carrying portion 123, giving positioning teeth' limits the depth of embedding of the first module 3
示瓜接槽12的四周壁還 ::組:,使第一模組3嵌入安裝穩固,不易鬆脫, 間早’ t裝谷易。第一模組3安裝後,第—端子2之焊 接腳22對應焊腳定位槽122容置定位,焊腳定位槽122且 有分搞和定位作用’保證焊接腳22整齊伸出 於焊接連接。 J 圖三、五所示’該第二模組5的端部設有掛台5ι,掛台 51嵌入掛接於第二嵌接槽13内側壁上的第二扣位⑶上: 第-t接槽13的埠上設有剖切式焊腳定位槽⑶第二模組 5上的第二端子4之焊接腳42對應焊腳定位们32容置定 :。第二模組5從下往上嵌入第二嵌接槽Η’第二模組$及 嵌接槽13均呈L形’第二模组5的側面上設有加強連 接的筋條52’筋條52緊密接觸第二嵌接槽"的内側面。掛 M415480 台51為第二模組5軸端凸出設計,第二模組5對應嵌入安 裝時,掛台51嵌入掛接於第二嵌接槽13内側壁上的第二扣 位131上,達到防退卡接,而第二模組5的一 L形邊嵌入定 位在第二嵌接槽13的相應L形邊上,達到定位支撐,限制 第一模組5嵌入深度,第二嵌接槽的四周壁還對第二模 組5限制,以及第二模組5的側面上的筋條52緊密接觸第 二嵌接槽13的内側面,使第二模組5嵌入安裝穩固,不易 鬆脫,結構簡單,安裝容易。第二模組5安裝後,第二端子 4之焊接腳42對應焊腳定位肖132容置定位,焊腳定位槽 U2具有分隔和定位作用,保證焊接腳42整齊伸出不變形, 利於焊接連接。 固―、二、三所示,絕緣主體i的兩端還設有接駁位Μ, 接驳位14活動連接有塔塊6,塔塊6豎立安裝在接驳位14 上。接駁位Η上設有插扣孔14卜一豎直穿過塔塊6的插銷 7插入插扣孔141内固接,而插銷7上端形成一彎頭71,彎 頭71壓扣在塔塊6的上端,給予塔塊6下壓力,而接驳位 14的邊緣設有上凸的包夾邊142,包夾邊142限制塔塊㈧ 由此達成塔塊6安裝連接絕緣主體丨。塔塊6 凸出Μ位塊Η,定位塊61平面式搭在接驳位u上有= 塊6下端站立更穩定’同時還有-彈片8賢直穿過定位塊61The surrounding wall of the melon joint groove 12 is also ::::, so that the first module 3 is embedded and installed stably, and is not easy to loose, and is easy to install. After the first module 3 is mounted, the soldering pins 22 of the first terminal 2 are positioned corresponding to the soldering leg positioning slots 122, and the soldering legs are positioned and positioned to ensure that the soldering legs 22 are neatly protruded from the soldering connection. As shown in FIG. 3 and FIG. 5, the end of the second module 5 is provided with a hanging platform 5, and the hanging platform 51 is embedded in the second buckle (3) attached to the inner side wall of the second engaging groove 13: The ferrule 13 is provided with a dicing solder tail positioning groove. (3) The soldering legs 42 of the second terminal 4 on the second module 5 are corresponding to the soldering pins 32. The second module 5 is embedded in the second engagement groove from the bottom to the top. The second module $ and the engagement groove 13 are both L-shaped. The side of the second module 5 is provided with ribs 52' The strip 52 is in close contact with the inner side of the second engagement groove ". The hanging M415480 is a second module 5, and the second module 5 is embedded and mounted. The hanging platform 51 is embedded in the second buckle 131 on the inner side wall of the second engaging groove 13. An anti-retraction card is achieved, and an L-shaped edge of the second module 5 is embedded on the corresponding L-shaped edge of the second engagement slot 13 to achieve positioning support, limiting the embedded depth of the first module 5, and the second engagement The surrounding wall of the slot is also limited to the second module 5, and the rib 52 on the side of the second module 5 closely contacts the inner side of the second engaging slot 13, so that the second module 5 is embedded and installed stably, and is not easy to loose. It is easy to install and easy to install. After the second module 5 is installed, the soldering legs 42 of the second terminal 4 are positioned corresponding to the soldering pins positioning shaft 132. The soldering leg positioning slots U2 have a separation and positioning function, ensuring that the soldering legs 42 are neatly extended without deformation, which is beneficial for soldering connections. . As shown in the solid-, second, and third, the two ends of the insulating body i are further provided with a connection position Μ, and the connection position 14 is movably connected with the tower block 6, and the tower block 6 is erected on the connection position 14. The connecting position is provided with a buckle hole 14 and a plug 7 vertically inserted through the tower block 6 is inserted into the buckle hole 141 for fixing, and the upper end of the bolt 7 forms an elbow 71, and the elbow 71 is pressed against the tower block. The upper end of the 6 is given a downward pressure on the tower block 6, and the edge of the joint 14 is provided with an upper convex rim 142, and the rim 142 limits the tower (8). Thus, the tower 6 is mounted to connect the insulating body 丨. The tower block 6 protrudes from the clamp block Η, and the positioning block 61 is flatly placed on the joint position u. = the lower end of the block 6 is more stable. At the same time, the elastic piece 8 passes straight through the positioning block 61.
後固疋在絕緣主贈1 L 體1上,加強塔塊6與絕緣主體丨連接。彈 片8上端向上延伸 、伸並在其上設有掛孔81,用於輔助子板插 7 M415480 入安裝時定位’可提升子板插接使用的性能。 與現有技術對比,本創作將端子固定在模組上,然後再 將模組和端子一起嵌裝到絕緣主體上,該結構具有如下有益 效果: 1 1、 以模組固定代替端子逐一固定,這樣絕緣主體上無 需逐個設計端子孔,優化絕緣主體上的結構,降低製作成 本,同時也達到方便加工、組裝的功效。 2、 端子事先固化在模組上,固定更容易,端子之間定 位穩固,平齊度高,可獲得更佳的插拔效果,提升產品的品 質。 。° 3、 結構簡單,科學合理,投資成本低,極大提升了產 品的組裝效率和品質。 本創作將端子固定在模組上,形成一整體,然後再將模 組和端子一起嵌裝到絕緣主體上,以模組固定代替端子逐一 固定,這樣絕緣主體上無需逐個設計端子孔,優化絕緣主體 上的結構,降低製作成本,同時也達到方便加工、組裝的功 效;端子之間定位穩固,平齊度高,可獲得更佳的插拔效果, 提升產品的品質。當然,以上圖示僅為本創作的較佳實施 例,並非以此限定本創作的實施範圍,對於模組的其它固定 方式,皆可認為是在本創作基礎上做的實施延伸,故,凡是 依照本創作之原理做等效變化或修飾,均應涵蓋於本創作的 保護範圍内。 〜480 【圏式簡單說明】 請參閱以下有關本創作一較佳實施例之詳細說明及其附 圖’將可進一步瞭解本創作之技術内容及其目的功效;有關 讀實施例之附圖為: 圖一為本創作的立體外形示意圖; 圖二為本創作的立體分解示意圖; 圖三為本創作内結構示意圖; ® 圖四本創作之第一模組與絕緣主體組裝示意圖:以及 圖五創作之第二模組與絕緣主體組裝示意圖。 【主要元件符號說明】 1 絕緣主體 11 插槽 12 第一嵌接槽 121 第一扣位 122 焊腳定位槽 123 承載部 13 第二嵌接槽 131 第二扣位 132 焊腳定位槽 14 接驳位 141 插扣孔 142 包夾邊 2 笫一端子 21 接觸部 22 焊接腳 3 第一模組 31 掛台 32 内側台緣 4 第二端子 41 接觸部 42 焊接腳 5 第二模組 51 掛台 52 筋條 9 M415480 6 塔塊 61 定位塊 7 插銷 71 彎頭 8 彈片 81 掛孔The rear solid is placed on the insulating main 1 L body 1, and the reinforcing tower 6 is connected to the insulating main body. The upper end of the elastic piece 8 extends upwardly and extends and is provided with a hanging hole 81 for assisting the sub-board insertion. The positioning of the M415480 into the installation can improve the performance of the sub-board insertion. Compared with the prior art, the present invention fixes the terminal on the module, and then inserts the module and the terminal together on the insulating body. The structure has the following beneficial effects: 1 1. Fix the module one by one instead of the terminal, so that There is no need to design the terminal holes one by one on the insulating body, optimize the structure on the insulating body, reduce the manufacturing cost, and at the same time achieve the convenience of processing and assembly. 2. The terminal is pre-cured on the module, the fixing is easier, the terminals are stable and the flatness is high, which can achieve better plugging and unplugging effect and improve the quality of the product. . ° 3, simple structure, scientific and reasonable, low investment costs, greatly improving the assembly efficiency and quality of the product. In this creation, the terminal is fixed on the module to form a whole body, and then the module and the terminal are embedded together on the insulating body, and the module is fixed and replaced one by one, so that the terminal body is not required to be designed one by one, and the insulation is optimized. The structure on the main body reduces the manufacturing cost and at the same time achieves the convenience of processing and assembly; the positioning between the terminals is stable and the level is high, and the better insertion and removal effect can be obtained, and the quality of the product is improved. Of course, the above illustrations are only preferred embodiments of the present invention, and are not intended to limit the scope of implementation of the present invention. For other fixed ways of the module, it can be considered as an implementation extension based on the present creation, so that Equivalent changes or modifications in accordance with the principles of this creation shall be covered by the scope of this creation. 〜 480 [Simplified Description of the 】] Please refer to the following detailed description of a preferred embodiment of the present invention and its accompanying drawings, which will further understand the technical contents of the present invention and its functions; the drawings of the read embodiments are as follows: Figure 1 is a schematic perspective view of the creation; Figure 2 is a three-dimensional exploded view of the creation; Figure 3 is a schematic diagram of the internal structure of the creation; ® Figure 4 is a schematic diagram of the assembly of the first module and the insulating body of the creation: The second module is assembled with the insulating body. [Main component symbol description] 1 Insulation body 11 Slot 12 First engagement groove 121 First buckle 122 Solder foot positioning groove 123 Bearing portion 13 Second engagement groove 131 Second buckle 132 Solder foot positioning groove 14 Connection Bit 141 Buckle hole 142 Clip side 2 笫 One terminal 21 Contact part 22 Soldering foot 3 First module 31 Hanging table 32 Inner rim 4 Second terminal 41 Contact part 42 Soldering foot 5 Second module 51 Hanging table 52 Rib 9 M415480 6 Tower 61 Positioning Block 7 Pin 71 Elbow 8 Shrapnel 81 Hanging Hole