TWI600214B - Electrical connector - Google Patents
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- TWI600214B TWI600214B TW106107370A TW106107370A TWI600214B TW I600214 B TWI600214 B TW I600214B TW 106107370 A TW106107370 A TW 106107370A TW 106107370 A TW106107370 A TW 106107370A TW I600214 B TWI600214 B TW I600214B
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Description
本揭露係關於一種電連接器,特別係關於一種具有橋接部的罩殼的電連接器。The present disclosure relates to an electrical connector, and more particularly to an electrical connector for a housing having a bridge.
圖1為一種習知的電連接器組件10的結構示意圖,其揭示於美國專利公開號US2016/0365654。參照圖1,電連接器組件10包括複數個電連接器12以及一電路板14。該等電連接器12設置於電路板14上。電連接器12具有一高度H1及一寬度W1,而高度H1的值遠大於寬度W1的值,使得電連接器12的重心相對較高。此外,電連接器12與電路板14的接觸面積與寬度W1正相關。由於寬度W1相對較小,因此該接觸面積相對小。由於電連接器12的重心相對較高以及因為電連接器12與電路板14的接觸面積相對較小,因此在將電連接器12透過一固定操作(例如,焊接操作)固定至電路板14以前,電連接器12容易晃動及相對無法穩定放置於電路板14上。 圖2為一種習知的電連接器組件20的結構示意圖,其揭示於美國專利專利號US9537239。參照圖2,電連接器組件20包括複數個卡緣連接器200、複數個夾持板220及一導引板240。該等卡緣連接器200將自身的固定部202分別嵌入夾持板220內的複數個凹槽222,藉此將該等卡緣連接器200連結在一起。然而,在製作該等凹槽222時,會產生無可避免的公差,使得該等凹槽222的實際尺寸可能大於或小於預定尺寸。如此一來,卡緣連接器200的固定部202可能無法穩固的嵌入在夾持板220的凹槽222內。因此,可靠度相對較低。除了卡緣連接器200的固定部202需對準夾持板220的凹槽222以外,卡緣連接器200的端子204亦需對準導引板240上的孔洞。然而,因為夾持板220的凹槽222的公差造成每兩相鄰的卡緣連接器200的間距不一,所以端子204的插接端的間距也不一,導致端子204的插接端無法對準孔洞,如此一來,在組裝上相對不容易。 圖3為一種習知的電連接器組件30的結構示意圖,其揭示於美國專利專利號US7993147。參照圖3,電連接器組件30包括一圍板300及一接觸模組310。圍板300包括卡緣插槽302及304。然而,兩卡緣插槽302及304之間具有一實體的面306,因此散熱相對較差。 此背景技術之討論章節僅為提供背景技術資料。於此背景技術之討論中的陳述並非承認於此章節中揭示之標的構成本揭露之先前技術,且此章節沒有任何部分可用於作為承認本申請案的任何部分,包括此背景技術章節,構成本揭露之先前技術。1 is a block diagram of a conventional electrical connector assembly 10, which is disclosed in U.S. Patent Publication No. US2016/0365654. Referring to FIG. 1, the electrical connector assembly 10 includes a plurality of electrical connectors 12 and a circuit board 14. The electrical connectors 12 are disposed on the circuit board 14. The electrical connector 12 has a height H1 and a width W1, and the value of the height H1 is much greater than the value of the width W1 such that the center of gravity of the electrical connector 12 is relatively high. Further, the contact area of the electrical connector 12 with the circuit board 14 is positively correlated with the width W1. Since the width W1 is relatively small, the contact area is relatively small. Since the center of gravity of the electrical connector 12 is relatively high and because the contact area of the electrical connector 12 with the circuit board 14 is relatively small, before the electrical connector 12 is secured to the circuit board 14 by a fixed operation (eg, a soldering operation) The electrical connector 12 is easily shaken and relatively unstable to be placed on the circuit board 14. 2 is a block diagram of a conventional electrical connector assembly 20, which is disclosed in U.S. Patent No. 5,953,239. Referring to FIG. 2, the electrical connector assembly 20 includes a plurality of card edge connectors 200, a plurality of clamping plates 220, and a guiding plate 240. The card edge connectors 200 respectively embed their own fixing portions 202 into a plurality of recesses 222 in the clamping plate 220, thereby joining the card edge connectors 200 together. However, in making the grooves 222, inevitable tolerances are created such that the actual dimensions of the grooves 222 may be larger or smaller than a predetermined size. As a result, the fixing portion 202 of the card edge connector 200 may not be firmly embedded in the recess 222 of the clamping plate 220. Therefore, the reliability is relatively low. The terminal 204 of the card edge connector 200 also needs to be aligned with the hole in the guide plate 240, except that the fixing portion 202 of the card edge connector 200 needs to be aligned with the recess 222 of the clamping plate 220. However, because the tolerance of the recess 222 of the clamping plate 220 causes the spacing of each two adjacent card edge connectors 200 to be different, the spacing of the plug ends of the terminals 204 is also different, resulting in the plug end of the terminal 204 being unpaired. Quasi-holes, as such, are relatively inconvenient to assemble. 3 is a block diagram of a conventional electrical connector assembly 30, which is disclosed in U.S. Patent No. 7,993,147. Referring to FIG. 3, the electrical connector assembly 30 includes a shroud 300 and a contact module 310. The panel 300 includes card edge slots 302 and 304. However, there is a solid face 306 between the two card edge slots 302 and 304, so the heat dissipation is relatively poor. This discussion of the background art is provided for background information only. The statements in the discussion of the background art are not an admission that the subject matter disclosed in this section is incorporated in the prior art, and no part of this section can be used as an acknowledgment of any part of the present application, including this background. Revealing prior art.
本揭露的實施例提供一種電連接器包括:一罩殼,包括:一第一框部,界定出一第一插槽;一第二框部,界定出一第二插槽;一橋接部,連接該第一框部及該第二框部,其中該橋接部與該第一框部及該第二框部共同界定出一氣流通道;一第一支撐部,位於該罩殼的一第一側;以及一第二支撐部,位於該罩殼的一第二側;以及一第一薄片組,組裝至該第一插槽;以及一第二薄片組,組裝至該第二插槽。 在本揭露的實施例中,該罩殼具有一安裝端及一對接端,該安裝端與該對接端彼此相對,其中該第一插槽及該第二插槽的每一者延伸至該罩殼的該安裝端及該對接端。 在本揭露的實施例中,該第一薄片組及該第二薄片組的每一者包括一第一薄片體及一第二薄片體,該第一薄片體及該第二薄片體的每一者包括一薄片殼,該薄片殼具有一安裝面及一對接面,其中該安裝面垂直該對接面。 在本揭露的實施例中,該第一薄片組及該第二薄片組的每一者以該薄片殼的該對接面從該罩殼的該安裝端分別組裝至該第一插槽及該第二插槽。 在本揭露的實施例中,該第一薄片體及該第二薄片體的每一者另包括多數端子,該等端子的每一者具有一安裝部及一對接部,其中該等端子的每一者的該安裝部位於該薄片殼的該安裝面,而該等端子的每一者的該對接部位於該薄片殼的該對接面並電性連接至一卡緣模組。 在本揭露的實施例中,該第一薄片組的該第一薄片體及該第二薄片體的該等端子的該對接部分別位於該第一插槽的兩側。 在本揭露的實施例中,該第一支撐部相較於該第二支撐部靠近該罩殼的該對接端,以及該第二支撐部相較於該第一支撐部靠近該罩殼的該安裝端。 在本揭露的實施例中,該第一支撐部及該第二支撐部的底面齊平於該第一框部及該第二框部的底面。 在本揭露的實施例中,該橋接部的底面齊平於該第一框部及該第二框部的底面。 在本揭露的實施例中,該橋接部與該第一框部及該第二框部於該橋接部的底面下方界定出另一氣流通道。 在本揭露的實施例中,該橋接部在沿著一卡緣模組***該第一插槽的插卡方向上具有拱形導流面。 在本揭露的實施例中,當該電連接器電性連接一卡緣模組及一電路板時,該卡緣模組的卡緣的延伸方向與該電路板的板緣的延伸方向彼此正交。 在本揭露的實施例中,該第一支撐部與該第二支撐部的每一者具有由該第一支撐部與該第二支撐部的每一者的底面往上伸入的一螺孔,其中獨立於該電連接器的一電路板上具有與該螺孔對應的一穿孔。 在本揭露的實施例中,該第一框部及該第二框部的每一者更包括一延伸部,該延伸部緊鄰罩殼的對接端,並且係從該第一框部及該第二框部各者的底面往下延伸而形成,其中該延伸部的底面低於該第一支撐部的底面及該第二支撐部的底面。 在本揭露的實施例中,電連接器與電路板的接觸面積正相關於電連接器的罩殼的一寬度。由於本揭露的電連接器的罩殼具有一橋接部,因此電連接器的罩殼的一寬度相對的大。故,在將本揭露的電連接器透過一固定操作(例如,焊接操作)固定至電路板以前,本揭露的電連接器相對不容易晃動及相對能穩定放置於電路板上。 相對地,在一些習知的電連接器中,電連接器與電路板的接觸面積本質上等同於電連接器的一框部的寬度。由於習知的電連接器的該框部的該寬度相對的小,因此在將習知的電連接器透過一固定操作(例如,焊接操作)固定至電路板以前,該習知的電連接器容易晃動及相對無法穩定放置於電路板上。 此外,由於本揭露的罩殼的第一支撐部相較於第二支撐部靠近罩殼的對接端以及第二支撐部相較於第一支撐部靠近罩殼的安裝端,因此第一電連接器的第一支撐部以及第二電連接器的第二支撐部能夠在第一卡緣模組的插卡方向上呈前後排列,使得第一電連接器的第一框部與第二電連接器的第二框部之間的距離相對小。據此,電連接器組件在垂直第一卡緣模組的插卡方向的面上佔據較小的面積。 此外,本揭露的罩殼的橋接部與第一框部及第二框部在橋接部上方共同界定出一氣流通道。據此,空氣能在第一框部及第二框部之間流動,使得本揭露的電連接器的散熱效果相對較好。 相對地,在一些習知的電連接器中,界定出用以接收第一卡緣模組的第一框部(類似為本揭露的第一框部)以及界定出用以接收第二卡緣模組的第二框部(類似為本揭露的第二框部)之間不存在一氣流通道。舉例來說,該習知的電連接器具有一連接的實體面用以連接第一框部及第二框部。由於該連接的實體面在結構上例如正交於風流動的方向,因此會阻擋風的流動。因此,該習知的電連接器的散熱效果較差。 此外,由於本揭露的罩殼可包括兩個框部或是三個框部,因此本揭露的罩殼能夠適用於具有各種數量的卡緣模組的電連接器。舉例來說,若電連接器需連接5個卡緣模組,僅需搭配一個具有兩個框部及一個橋接部的罩殼及一個具有三個框部及兩個橋接部的罩殼即可完成。因此,本揭露的罩殼的設計能夠使得電連接器的應用更為廣泛。 上文已相當廣泛地概述本揭露的技術特徵及優點,俾使下文的本揭露詳細描述得以獲得較佳瞭解。構成本揭露的申請專利範圍標的的其它技術特徵及優點將描述於下文。本揭露所屬技術領域中具有通常知識者應瞭解,可相當容易地利用下文揭示的概念與特定實施例可作為修改或設計其它結構或製程而實現與本揭露相同的目的。本揭露所屬技術領域中具有通常知識者亦應瞭解,這類等效建構無法脫離後附的申請專利範圍所界定的本揭露的精神和範圍。The embodiment of the present disclosure provides an electrical connector including: a cover, comprising: a first frame portion defining a first slot; a second frame portion defining a second slot; a bridge portion, Connecting the first frame portion and the second frame portion, wherein the bridge portion and the first frame portion and the second frame portion together define an air flow passage; and a first support portion located at a first portion of the cover And a second support portion on a second side of the casing; and a first set of sheets assembled to the first slot; and a second set of sheets assembled to the second slot. In an embodiment of the present disclosure, the cover has a mounting end and a pair of ends, the mounting end and the mating end are opposite to each other, wherein each of the first slot and the second slot extends to the cover The mounting end of the case and the butt end. In an embodiment of the present disclosure, each of the first sheet group and the second sheet group includes a first sheet and a second sheet, and each of the first sheet and the second sheet The utility model comprises a thin shell having a mounting surface and a pair of joints, wherein the mounting surface is perpendicular to the mating surface. In an embodiment of the present disclosure, each of the first sheet set and the second sheet set is assembled from the mounting end of the cover to the first slot and the first end of the cover Two slots. In an embodiment of the present disclosure, each of the first sheet and the second sheet further includes a plurality of terminals, each of the terminals having a mounting portion and a pair of contacts, wherein each of the terminals The mounting portion of one of the terminals is located on the mounting surface of the foil shell, and the abutting portion of each of the terminals is located at the mating surface of the foil shell and electrically connected to a card edge module. In the embodiment of the present disclosure, the abutting portions of the first sheet of the first sheet group and the terminals of the second sheet are respectively located at two sides of the first slot. In an embodiment of the present disclosure, the first support portion is closer to the butt end of the cover than the second support portion, and the second support portion is closer to the cover than the first support portion. Install side. In the embodiment of the present disclosure, the bottom surfaces of the first support portion and the second support portion are flush with the bottom surfaces of the first frame portion and the second frame portion. In the embodiment of the present disclosure, the bottom surface of the bridge portion is flush with the bottom surface of the first frame portion and the second frame portion. In the embodiment of the present disclosure, the bridge portion and the first frame portion and the second frame portion define another air flow passage below the bottom surface of the bridge portion. In an embodiment of the present disclosure, the bridge portion has an arcuate flow guiding surface in a card insertion direction along a card edge module inserted into the first slot. In the embodiment of the present disclosure, when the electrical connector is electrically connected to a card edge module and a circuit board, the extending direction of the card edge of the card edge module and the extending direction of the board edge of the circuit board are positive with each other. cross. In an embodiment of the present disclosure, each of the first support portion and the second support portion has a screw hole extending upward from a bottom surface of each of the first support portion and the second support portion. And a circuit board independent of the electrical connector has a through hole corresponding to the screw hole. In an embodiment of the present disclosure, each of the first frame portion and the second frame portion further includes an extension portion adjacent to the butted end of the cover and from the first frame portion and the first portion The bottom surface of each of the two frame portions is formed to extend downward, wherein the bottom surface of the extending portion is lower than the bottom surface of the first support portion and the bottom surface of the second support portion. In an embodiment of the present disclosure, the contact area of the electrical connector with the circuit board is positively related to a width of the housing of the electrical connector. Since the housing of the electrical connector of the present disclosure has a bridge portion, the width of the housing of the electrical connector is relatively large. Therefore, before the electrical connector of the present disclosure is fixed to the circuit board through a fixed operation (for example, a soldering operation), the electrical connector of the present disclosure is relatively less likely to be shaken and relatively stably placed on the circuit board. In contrast, in some conventional electrical connectors, the contact area of the electrical connector with the circuit board is substantially equivalent to the width of a frame of the electrical connector. Since the width of the frame portion of the conventional electrical connector is relatively small, the conventional electrical connector is fixed before the conventional electrical connector is fixed to the circuit board through a fixed operation (for example, a soldering operation). It is easy to shake and relatively unstable to be placed on the board. In addition, since the first support portion of the cover of the present disclosure is closer to the opposite end of the cover than the second support portion and the second support portion is closer to the mounting end of the cover than the first support portion, the first electrical connection The first support portion of the second electrical connector and the second support portion of the second electrical connector can be arranged in a front-rear direction in the card insertion direction of the first card edge module, such that the first frame portion of the first electrical connector is electrically connected to the second electrical connector The distance between the second frames of the device is relatively small. Accordingly, the electrical connector assembly occupies a smaller area on the face of the first card edge module in the card insertion direction. In addition, the bridge portion of the cover of the present disclosure and the first frame portion and the second frame portion together define an air flow passage above the bridge portion. Accordingly, air can flow between the first frame portion and the second frame portion, so that the heat dissipation effect of the electrical connector of the present disclosure is relatively good. In contrast, in some conventional electrical connectors, a first frame portion (similar to the first frame portion of the present disclosure) for receiving the first card edge module is defined and defined to receive the second card edge There is no air flow passage between the second frame of the module (similar to the second frame of the present disclosure). For example, the conventional electrical connector has a connected solid surface for connecting the first frame portion and the second frame portion. Since the solid face of the connection is structurally orthogonal, for example, to the direction of wind flow, it blocks the flow of wind. Therefore, the conventional electrical connector has a poor heat dissipation effect. In addition, since the cover of the present disclosure may include two frame portions or three frame portions, the cover of the present disclosure can be applied to an electrical connector having various numbers of card edge modules. For example, if the electrical connector needs to be connected with five card edge modules, only one cover with two frame portions and one bridge portion and one cover with three frame portions and two bridge portions can be used. carry out. Therefore, the design of the cover of the present disclosure enables the application of the electrical connector to be more extensive. The technical features and advantages of the present disclosure are summarized broadly, and the detailed description of the present disclosure will be better understood. Other technical features and advantages of the subject matter of the claims of the present disclosure will be described below. It will be appreciated by those of ordinary skill in the art that the present invention may be practiced otherwise. It is to be understood by those of ordinary skill in the art that this invention is not limited to the spirit and scope of the disclosure as defined by the appended claims.
以下揭示內容提供許多不同的實施例或範例,用於實施本申請案的不同特徵。元件與配置的特定範例的描述如下,以簡化本申請案的揭示內容。當然,這些僅為範例,並非用於限制本申請案。例如,以下描述在第二特徵上或上方形成第一特徵可包含形成直接接觸的第一與第二特徵的實施例,亦可包含在該第一與第二特徵之間形成其他特徵的實施例,因而該第一與第二特徵並非直接接觸。此外,本申請案可在不同範例中重複元件符號與/或字母。此重複係為了簡化與清楚的目的,而非支配不同實施例與/或所討論架構之間的關係。 再者,本申請案可使用空間對應語詞,例如「之下」、「低於」、「較低」、「高於」、「較高」等類似語詞的簡單說明,以描述圖式中一元件或特徵與另一元件或特徵的關係。空間對應語詞係用以包含除了圖式中描述的位向之外,裝置於使用或操作中的不同位向。裝置或可被定位(旋轉90度或是其他位向),並且可相應解釋本申請案使用的空間對應描述。可理解當一特徵係形成於另一特徵或基板上方時,可有其他特徵存在於其間。 圖4為根據本揭露一些實施例的一電連接器組件40的結構示意圖。參照圖4,電連接器組件40包括一電連接器42、一第一卡緣模組401、一第二卡緣模組403及一電路板460。第一卡緣模組401及第二卡緣模組403透過電連接器42電性連接至電路板460。當電連接器42電性連接第一卡緣模組401(及第二卡緣模組403)及電路板460時,第一卡緣模組401的卡緣的延伸方向與電路板460的板緣的延伸方向彼此正交。 電連接器42包括一罩殼400、一第一薄片組420及一第二薄片組440。罩殼400包括一第一框部402、一第二框部404及一第一支撐部406。第一支撐部406位於罩殼400的一第一側。 第一薄片組420,電性連接至電路板460,包括一第一薄片體422及一第二薄片體424。第二薄片組440,電性連接至電路板460,包括一第一薄片體442及一第二薄片體444。 圖5為根據本揭露一些實施例的一電連接器組件40的分解示意圖。參照圖5,罩殼400透過電路板460上的一第一穿孔462及一第二穿孔464與電路板460結合,其將詳細說明於圖6。此外,罩殼400的第一框部402界定出用以接收第一卡緣模組401的一第一插槽410,第一插槽410從罩殼400的一對接端408延伸至罩殼400的一安裝端412,對接端408與安裝端412彼此相對。此外,罩殼400的第二框部404界定出用以接收第二卡緣模組403的一第二插槽414,第二插槽414從罩殼400的對接端408延伸至安裝端412。 除此之外,第一薄片組420及第二薄片組440皆包括複數個端子425。端子425包括一安裝部423,安裝部423用以電性連接至電路板460。 圖6為根據本揭露一些實施例的圖5的電連接器42的結構示意圖。參照圖6,除了第一支撐部406、第一框部402、第二框部404以外,罩殼400另包括一橋接部417及一第二支撐部407。 橋接部417,位於第一框部402及第二框部404之間,用以連接第一框部402及第二框部404。橋接部417的結構更清楚地描繪於圖7。橋接部417具有一底面416。 第二支撐部407的功能及結構類似於第一支撐部406。第二支撐部407位於罩殼400的一第二側(第二側相對於第一側),並具有一由底面S2往上深入的螺孔411,螺孔411對應於,參回至圖5,電路板460上的第二穿孔464。據此,第二支撐部407可藉由一螺絲穿過電路板460上的第二穿孔464及進而穿過第二支撐部407的螺孔411固定在電路板460上。 類似地,第一支撐部406具有一由底面S1往上深入的螺孔409,螺孔409對應於,參回至圖5,電路板460上的第一穿孔462。據此,第一支撐部406可藉由一螺絲穿過電路板460上的第一穿孔462及進而穿過第一支撐部406的螺孔409固定在電路板460上。 此外,電連接器42另包括一第一固定件47及一第二固定件49。第一固定件47用以,藉由把第一薄片體422的固定部426及第二薄片體424的固定部428結合及固定的方式,將第一薄片體422及第二薄片體424組合為第一薄片組420。類似地,第二固定件49用以,藉由把第一薄片體442的固定部446及第二薄片體444的固定部448結合及固定的方式,將第一薄片體442及第二薄片體444組合為第二薄片組440。 圖7為根據本揭露一些實施例的圖6的電連接器42的分解示意圖。參照圖7,第一薄片組420將組裝至第一插槽410,第一薄片組420的第一薄片體422及第二薄片體424的端子425的對接部427將分別位於第一插槽410的兩側。類似地,第二薄片組440將組裝至第二插槽414,第二薄片組440的第一薄片體442及第二薄片體444的端子425的對接部427將分別位於第二插槽414的兩側。 圖8為根據本揭露一些實施例的圖7的罩殼400的底視圖。參照圖8,第一支撐部406相較於第二支撐部407靠近罩殼400的對接端408,以及第二支撐部407相較於第一支撐部406靠近罩殼400的安裝端412。據此,當一電連接器組件包括本揭露的兩個電連接器42時,能具有相對小的體積,其將詳細說明於圖9。此外,本揭露的電連接器42與電路板460的接觸面積正相關於一寬度490。由於寬度490相對的大,因此在電連接器42透過一固定操作(例如,焊接操作)固定至電路板460以前,電連接器42相對不容易晃動及相對能穩定放置於電路板460上。 相對的,在一些習知的電連接器中,電連接器與電路板的接觸面積本質上等同於一框部的寬度(例如,第一框部402的寬度492)。由於習知的電連接器的該框部的該寬度(例如寬度492)相對的小,因此在將習知的電連接器透過一固定操作(例如,焊接操作)固定至電路板以前,該習知的電連接器容易晃動及相對無法穩定放置於電路板上。 圖9為根據本揭露一些實施例的另一電連接器組件90的結構示意圖。參照圖9,電連接器組件90類似於圖4敘述的電連接器組件40,差別在於電連接器組件90包括兩個電連接器400。為了方便討論,兩個電連接器400分別命名為第一電連接器400A及第二電連接器400B。承如圖8的實施例所描述,由於第一支撐部406相較於第二支撐部407靠近罩殼400的對接端408以及第二支撐部407相較於第一支撐部406靠近罩殼400的安裝端412,因此第一電連接器400A的第一支撐部406以及第二電連接器400B的第二支撐部407能夠在第一卡緣模組401的插卡方向910上呈前後排列,使得第一電連接器400A的第二框部404與第二電連接器400B的第一框部402之間的距離D1相對小。據此,電連接器組件90在垂直第一卡緣模組401的插卡方向910的面上,佔據較小的面積。 圖10為根據本揭露一些實施例的圖7的罩殼400的前視圖。參照圖10,橋接部417與第一框部402及第二框部404在橋接部417上方共同界定出一氣流通道111。據此,因為有了橋接部417與第一框部402及第二框部404所界定出的氣流通道111,空氣能在第一框部402及第二框部404之間流動,使得本揭露的電連接器42的散熱效果相對較好。 在一些習知的電連接器中,界定出用以接收第一卡緣模組的第一插槽的第一框部(類似為本揭露的第一框部402)以及界定出用以接收第二卡緣模組的第二插槽的第二框部(類似為本揭露的第二框部404)不存在一氣流通道。舉例來說,該習知的電連接器具有一連接的實體面用以連接該第一框部及第二框部。由於該連接的實體面在結構上例如正交於風流動的方向,因此會阻擋風的流動。因此,該習知的電連接器的散熱效果較差。 此外,在本實施例中,第一框部402及第二框部404的每一者更包括一延伸部419。延伸部419緊鄰罩殼400的對接端408,並且係從第一框部402及第二框部404的底面往下延伸而形成。因為有了延伸部419,第一框部402及第二框部404的長度相對較長,使得第一框部402的延伸部419的底面413及第二框部404的延伸部419的底面415低於第一支撐部406的底面S1及第二支撐部407的底面S2。然而,本揭露不限定於此。由於第一框部402及第二框部404的長度相對較長,可使第一插槽410及第二插槽414的長度加長,在端子425的對接部427的間距固定的情況下,第一插槽410及第二插槽414能容納更多的端子。 圖11為根據本揭露一些實施例的圖7的罩殼400沿剖面線A-A’的剖面示意圖。參照圖11,承如圖7所述,橋接部417在沿著第一卡緣模組401***第一插槽410的插卡方向117上具有拱形導流面。因為有了拱形導流面,電連接器42的散熱效果相對較好。 圖12為根據本揭露一些實施例的另一罩殼1200的前視圖。參照圖12,罩殼1200類似於圖10所描述的罩殼400,差別在於罩殼1200包括兩個框部500。框部500類似於圖10所描述的第一框部402及第二框部404,差別在於框部500移除了圖10的第一框部402及第二框部404的延伸部419。據此,框部500的底部502齊平於第一支撐部406的底面S1及第二支撐部407的底面S2,也齊平於橋接部417的底面416。 圖13為根據本揭露一些實施例的另一罩殼1300的前視圖。參照圖13,罩殼1300類似於圖12所描述的罩殼1200,差別在於罩殼1300包括一橋接部602。橋接部602的底部606高於框部500的底部502。據此,橋接部602與兩框部500於橋接部602的底面下方界定出另一氣流通道131。由於圖13的罩殼1300界定出兩個氣流通道111及131,因此罩殼1300的散熱效果相對更好。 圖14為根據本揭露一些實施例的圖7的第一薄片組420的分解示意圖。參照圖14,如圖4所述,第一薄片組420包括第一薄片體422及第二薄片體424。此外,第一薄片組420與第二薄片組440具有相同的功能及結構,於此不在贅述。 圖15為根據本揭露一些實施例的圖7的第一薄片組420的進一部分解示意圖。參照圖15,第一薄片體422及第二薄片體424的每一者包括一薄片殼470。薄片殼470具有一安裝面474及一對接面472,其中安裝面474垂直對接面472。第一薄片組420以薄片殼470的對接面472從罩殼400的安裝端412組裝至第一插槽410。類似地,第二薄片組440的薄片殼470的對接面472從罩殼400的安裝端412分別組裝至第二插槽414。 此外,承如圖5的敘述,第一薄片組420包括複數個端子425。更詳細來說,第一薄片組420的第一薄片體422及第二薄片體424的每一者包括複數個端子425。如圖15所圖式說明,端子425的安裝部423將位於薄片殼470的安裝面474,而端子425的對接部427將位於薄片殼470的對接面472並電性連接至第一卡緣模組401。 圖16為根據本揭露一實施例的另一罩殼1600。參照圖16,罩殼1600類似於圖7描述的罩殼400,差別在於罩殼1600包括三個框部700、702、704,以及一第一橋接部701及一第二橋接部703。罩殼1600的功能與細部結構基本上類似於圖7的罩殼400,因此細節不在贅述。 由於本揭露的罩殼可包括兩個框部或是三個框部,因此本揭露的罩殼能夠適用於具有各種數量的卡緣模組的電連接器。舉例來說,若電連接器需連接5個卡緣模組,僅需搭配一個罩殼400及一個罩殼1600即可完成。因此,本揭露的罩殼的設計能夠使得電連接器的應用更為廣泛。 圖17為根據本揭露一些實施例的圖16的罩殼1600的底視圖。參照圖17,採用罩殼1600的電連接器與電路板的接觸面積正相關於罩殼1600的一寬度709。由於寬度709相對的大,因此在包括罩殼1600的電連接器透過一固定操作(例如,焊接操作)固定至電路板以前,包括罩殼1600的電連接器相對不容易晃動及相對能穩定放置於電路板上。 此外,由於本揭露的罩殼的第一支撐部相較於第二支撐部靠近罩殼的對接端以及第二支撐部相較於第一支撐部靠近罩殼的安裝端,因此第一電連接器的第一支撐部以及第二電連接器的第二支撐部能夠在第一卡緣模組的插卡方向上呈前後排列,使得第一電連接器的第一框部與第二電連接器的第二框部之間的距離相對小。據此,電連接器組件在垂直第一卡緣模組的插卡方向的方向上,佔據較小的面積。 此外,本揭露的罩殼的橋接部與第一框部及第二框部在橋接部上方共同界定出一氣流通道。據此,空氣能在第一框部及第二框部之間流動,使得本揭露的電連接器的散熱效果相對較好。 前述內容概述一些實施方式的特徵,因而熟知此技藝的人士可更加理解本申請案揭示內容的各方面。熟知此技藝的人士應理解可輕易使用本申請案揭示內容作為基礎,用於設計或修飾其他製程與結構而實現與本申請案所述的實施方式具有相同目的與/或達到相同優點。熟知此技藝的人士亦應理解此均等架構並不脫離本申請案揭示內容的精神與範圍,以及熟知此技藝的人士可進行各種變化、取代與替換,而不脫離本申請案揭示內容的精神與範圍。The following disclosure provides many different embodiments or examples for implementing different features of the present application. The specific examples of components and configurations are described below to simplify the disclosure of the present application. Of course, these are merely examples and are not intended to limit the application. For example, the following description describes an embodiment in which forming a first feature on or over a second feature can include forming first and second features of direct contact, and can also include embodiments for forming other features between the first and second features Thus, the first and second features are not in direct contact. Furthermore, the application may repeat the component symbols and/or letters in different examples. This repetition is for the purpose of simplicity and clarity, and is not intended to govern the relationship between the various embodiments and/or the structures discussed. Furthermore, this application may use spatially equivalent words, such as "lower", "lower", "lower", "higher", "higher" and the like, to describe one of the patterns. The relationship of an element or feature to another element or feature. Spatially corresponding words are used to encompass different orientations of the device in use or operation in addition to the orientations depicted in the drawings. The device may be positioned (rotated 90 degrees or other orientations) and the spatially corresponding description used in this application may be interpreted accordingly. It will be appreciated that when a feature is formed over another feature or substrate, other features may be present therebetween. 4 is a block diagram of an electrical connector assembly 40 in accordance with some embodiments of the present disclosure. Referring to FIG. 4 , the electrical connector assembly 40 includes an electrical connector 42 , a first card edge module 401 , a second card edge module 403 , and a circuit board 460 . The first card edge module 401 and the second card edge module 403 are electrically connected to the circuit board 460 through the electrical connector 42 . When the electrical connector 42 is electrically connected to the first card edge module 401 (and the second card edge module 403) and the circuit board 460, the extending direction of the card edge of the first card edge module 401 and the board of the circuit board 460 The extending directions of the edges are orthogonal to each other. The electrical connector 42 includes a housing 400, a first stack 420, and a second stack 440. The cover 400 includes a first frame portion 402, a second frame portion 404, and a first support portion 406. The first support portion 406 is located on a first side of the casing 400. The first sheet set 420 is electrically connected to the circuit board 460 and includes a first sheet body 422 and a second sheet body 424. The second sheet set 440 is electrically connected to the circuit board 460 and includes a first sheet body 442 and a second sheet body 444. FIG. 5 is an exploded schematic view of an electrical connector assembly 40 in accordance with some embodiments of the present disclosure. Referring to FIG. 5, the cover 400 is coupled to the circuit board 460 through a first through hole 462 and a second through hole 464 on the circuit board 460, which will be described in detail in FIG. In addition, the first frame portion 402 of the casing 400 defines a first slot 410 for receiving the first card edge module 401. The first slot 410 extends from the pair of ends 408 of the casing 400 to the casing 400. A mounting end 412, the mating end 408 and the mounting end 412 are opposite each other. In addition, the second frame portion 404 of the housing 400 defines a second slot 414 for receiving the second card edge module 403. The second slot 414 extends from the mating end 408 of the housing 400 to the mounting end 412. In addition, the first sheet set 420 and the second sheet set 440 each include a plurality of terminals 425. The terminal 425 includes a mounting portion 423 for electrically connecting to the circuit board 460. FIG. 6 is a block diagram of the electrical connector 42 of FIG. 5 in accordance with some embodiments of the present disclosure. Referring to FIG. 6 , in addition to the first support portion 406 , the first frame portion 402 , and the second frame portion 404 , the cover 400 further includes a bridge portion 417 and a second support portion 407 . The bridge portion 417 is located between the first frame portion 402 and the second frame portion 404 for connecting the first frame portion 402 and the second frame portion 404. The structure of the bridge 417 is more clearly depicted in FIG. The bridge 417 has a bottom surface 416. The function and structure of the second support portion 407 is similar to the first support portion 406. The second supporting portion 407 is located on a second side of the casing 400 (the second side is opposite to the first side) and has a screw hole 411 extending upward from the bottom surface S2. The screw hole 411 corresponds to and is returned to FIG. 5. a second via 464 on the circuit board 460. Accordingly, the second support portion 407 can be fixed to the circuit board 460 by a screw passing through the second through hole 464 on the circuit board 460 and further through the screw hole 411 of the second support portion 407. Similarly, the first support portion 406 has a screw hole 409 extending upward from the bottom surface S1. The screw hole 409 corresponds to the first through hole 462 on the circuit board 460. Accordingly, the first support portion 406 can be secured to the circuit board 460 by a screw passing through the first through hole 462 on the circuit board 460 and through the screw hole 409 of the first support portion 406. In addition, the electrical connector 42 further includes a first fixing member 47 and a second fixing member 49. The first fixing member 47 is configured to combine the first sheet 422 and the second sheet 424 by combining and fixing the fixing portion 426 of the first sheet 422 and the fixing portion 428 of the second sheet 424. The first sheet set 420. Similarly, the second fixing member 49 is configured to sandwich the first sheet 442 and the second sheet by bonding and fixing the fixing portion 446 of the first sheet 442 and the fixing portion 448 of the second sheet 444. The 444 is combined into a second sheet set 440. FIG. 7 is an exploded schematic view of the electrical connector 42 of FIG. 6 in accordance with some embodiments of the present disclosure. Referring to FIG. 7, the first sheet set 420 will be assembled to the first slot 410, and the mating portions 427 of the first sheet 422 of the first sheet set 420 and the terminals 425 of the second sheet 424 will be located in the first slot 410, respectively. On both sides. Similarly, the second sheet set 440 will be assembled to the second slot 414, and the first sheet 442 of the second sheet set 440 and the abutment portion 427 of the terminal 425 of the second sheet 444 will be located in the second slot 414, respectively. On both sides. FIG. 8 is a bottom plan view of the housing 400 of FIG. 7 in accordance with some embodiments of the present disclosure. Referring to FIG. 8 , the first support portion 406 is closer to the butted end 408 of the casing 400 than the second support portion 407 , and the second support portion 407 is closer to the mounting end 412 of the casing 400 than the first support portion 406 . Accordingly, when an electrical connector assembly includes the two electrical connectors 42 disclosed herein, it can have a relatively small volume, which will be described in detail in FIG. Moreover, the contact area of the electrical connector 42 of the present disclosure with the circuit board 460 is positively related to a width 490. Because the width 490 is relatively large, the electrical connector 42 is relatively less susceptible to sloshing and relatively stable to placement on the circuit board 460 before the electrical connector 42 is secured to the circuit board 460 by a fixed operation (eg, a soldering operation). In contrast, in some conventional electrical connectors, the contact area of the electrical connector with the circuit board is substantially equivalent to the width of a frame (eg, the width 492 of the first frame portion 402). Since the width (e.g., width 492) of the frame portion of the conventional electrical connector is relatively small, the conventional electrical connector is fixed to the circuit board through a fixed operation (e.g., soldering operation). The known electrical connector is easy to shake and relatively unstable to be placed on the circuit board. FIG. 9 is a block diagram of another electrical connector assembly 90 in accordance with some embodiments of the present disclosure. Referring to Figure 9, the electrical connector assembly 90 is similar to the electrical connector assembly 40 illustrated in Figure 4, with the difference that the electrical connector assembly 90 includes two electrical connectors 400. For ease of discussion, the two electrical connectors 400 are named first electrical connector 400A and second electrical connector 400B, respectively. As described in the embodiment of FIG. 8 , since the first supporting portion 406 is closer to the butting end 408 of the casing 400 and the second supporting portion 407 than the second supporting portion 407, the casing 400 is closer to the casing 400 than the first supporting portion 406. The mounting end 412 of the first electrical connector 400A and the second supporting portion 407 of the second electrical connector 400B can be arranged in the card insertion direction 910 of the first card edge module 401. The distance D1 between the second frame portion 404 of the first electrical connector 400A and the first frame portion 402 of the second electrical connector 400B is made relatively small. Accordingly, the electrical connector assembly 90 occupies a small area on the face of the first card edge module 401 in the card insertion direction 910. FIG. 10 is a front elevational view of the housing 400 of FIG. 7 in accordance with some embodiments of the present disclosure. Referring to FIG. 10 , the bridge portion 417 and the first frame portion 402 and the second frame portion 404 jointly define an air flow passage 111 above the bridge portion 417 . Accordingly, since the air passages 111 defined by the bridge portion 417 and the first frame portion 402 and the second frame portion 404 are provided, air can flow between the first frame portion 402 and the second frame portion 404, so that the disclosure The heat dissipation effect of the electrical connector 42 is relatively good. In some conventional electrical connectors, a first frame portion (similar to the first frame portion 402 of the present disclosure) for receiving a first slot of the first card edge module is defined and defined for receiving The second frame of the second slot of the second card edge module (similar to the second frame portion 404 of the present disclosure) does not have an air flow passage. For example, the conventional electrical connector has a connected solid surface for connecting the first frame portion and the second frame portion. Since the solid face of the connection is structurally orthogonal, for example, to the direction of wind flow, it blocks the flow of wind. Therefore, the conventional electrical connector has a poor heat dissipation effect. In addition, in the embodiment, each of the first frame portion 402 and the second frame portion 404 further includes an extension portion 419. The extension portion 419 is adjacent to the butted end 408 of the casing 400 and is formed to extend downward from the bottom surface of the first frame portion 402 and the second frame portion 404. Because of the extension portion 419, the lengths of the first frame portion 402 and the second frame portion 404 are relatively long, such that the bottom surface 413 of the extension portion 419 of the first frame portion 402 and the bottom surface 415 of the extension portion 419 of the second frame portion 404 It is lower than the bottom surface S1 of the first support portion 406 and the bottom surface S2 of the second support portion 407. However, the disclosure is not limited thereto. Since the lengths of the first frame portion 402 and the second frame portion 404 are relatively long, the lengths of the first slot 410 and the second slot 414 can be lengthened, and in the case where the pitch of the abutting portion 427 of the terminal 425 is fixed, One slot 410 and second slot 414 can accommodate more terminals. Figure 11 is a cross-sectional view of the casing 400 of Figure 7 taken along section line A-A', in accordance with some embodiments of the present disclosure. Referring to FIG. 11, as shown in FIG. 7, the bridge portion 417 has an arcuate flow guiding surface in a card insertion direction 117 inserted along the first card edge module 401 into the first slot 410. Because of the arched flow guiding surface, the heat dissipation effect of the electrical connector 42 is relatively good. FIG. 12 is a front elevational view of another housing 1200 in accordance with some embodiments of the present disclosure. Referring to Figure 12, the casing 1200 is similar to the casing 400 depicted in Figure 10, with the difference that the casing 1200 includes two frame portions 500. The frame portion 500 is similar to the first frame portion 402 and the second frame portion 404 described in FIG. 10, with the difference that the frame portion 500 removes the first frame portion 402 of FIG. 10 and the extension portion 419 of the second frame portion 404. Accordingly, the bottom portion 502 of the frame portion 500 is flush with the bottom surface S1 of the first support portion 406 and the bottom surface S2 of the second support portion 407, and is also flush with the bottom surface 416 of the bridge portion 417. FIG. 13 is a front elevational view of another housing 1300 in accordance with some embodiments of the present disclosure. Referring to Figure 13, the casing 1300 is similar to the casing 1200 depicted in Figure 12, with the difference that the casing 1300 includes a bridge 602. The bottom 606 of the bridge 602 is higher than the bottom 502 of the frame 500. Accordingly, the bridge portion 602 and the two frame portions 500 define another air flow passage 131 below the bottom surface of the bridge portion 602. Since the casing 1300 of FIG. 13 defines two air flow passages 111 and 131, the heat dissipation effect of the casing 1300 is relatively better. 14 is an exploded schematic view of the first sheet set 420 of FIG. 7 in accordance with some embodiments of the present disclosure. Referring to FIG. 14, as shown in FIG. 4, the first sheet set 420 includes a first sheet 422 and a second sheet 424. In addition, the first sheet group 420 and the second sheet group 440 have the same functions and structures, and are not described herein. 15 is a schematic diagram of a portion of the first sheet set 420 of FIG. 7 in accordance with some embodiments of the present disclosure. Referring to FIG. 15, each of the first sheet 422 and the second sheet 424 includes a sheet shell 470. The foil shell 470 has a mounting surface 474 and a pair of junction surfaces 472, wherein the mounting surface 474 is perpendicular to the abutting surface 472. The first stack 420 is assembled from the mounting end 412 of the cover 400 to the first slot 410 with the mating face 472 of the foil shell 470. Similarly, the mating faces 472 of the foil shells 470 of the second stack 440 are assembled from the mounting ends 412 of the casing 400 to the second slots 414, respectively. Further, as illustrated in FIG. 5, the first sheet set 420 includes a plurality of terminals 425. In more detail, each of the first sheet 422 and the second sheet 424 of the first sheet set 420 includes a plurality of terminals 425. As illustrated in Fig. 15, the mounting portion 423 of the terminal 425 will be located at the mounting surface 474 of the foil housing 470, and the abutting portion 427 of the terminal 425 will be located at the abutting surface 472 of the foil housing 470 and electrically connected to the first card edge die. Group 401. FIG. 16 illustrates another housing 1600 in accordance with an embodiment of the present disclosure. Referring to Figure 16, the casing 1600 is similar to the casing 400 depicted in Figure 7, with the difference that the casing 1600 includes three frame portions 700, 702, 704, and a first bridge portion 701 and a second bridge portion 703. The function and detail of the casing 1600 is substantially similar to the casing 400 of Figure 7, and therefore details are not described herein. Since the cover of the present disclosure can include two frame portions or three frame portions, the cover of the present disclosure can be applied to an electrical connector having various numbers of card edge modules. For example, if the electrical connector needs to be connected to five card edge modules, only one housing 400 and one housing 1600 need to be completed. Therefore, the design of the cover of the present disclosure enables the application of the electrical connector to be more extensive. 17 is a bottom view of the housing 1600 of FIG. 16 in accordance with some embodiments of the present disclosure. Referring to Figure 17, the contact area of the electrical connector with the housing 1600 to the board is positively related to a width 709 of the housing 1600. Since the width 709 is relatively large, the electrical connector including the housing 1600 is relatively less susceptible to sloshing and relatively stable placement before the electrical connector including the housing 1600 is secured to the circuit board by a fixed operation (eg, soldering operation). On the board. In addition, since the first support portion of the cover of the present disclosure is closer to the opposite end of the cover than the second support portion and the second support portion is closer to the mounting end of the cover than the first support portion, the first electrical connection The first support portion of the second electrical connector and the second support portion of the second electrical connector can be arranged in a front-rear direction in the card insertion direction of the first card edge module, such that the first frame portion of the first electrical connector is electrically connected to the second electrical connector The distance between the second frames of the device is relatively small. Accordingly, the electrical connector assembly occupies a smaller area in the direction perpendicular to the card insertion direction of the first card edge module. In addition, the bridge portion of the cover of the present disclosure and the first frame portion and the second frame portion together define an air flow passage above the bridge portion. Accordingly, air can flow between the first frame portion and the second frame portion, so that the heat dissipation effect of the electrical connector of the present disclosure is relatively good. The foregoing is a summary of the features of the embodiments, and those skilled in the art can understand the various aspects of the disclosure. Those skilled in the art will appreciate that the disclosure of the present application can be readily utilized as a basis for designing or modifying other processes and structures to achieve the same objectives and/or the same advantages as the embodiments described herein. It should be understood by those skilled in the art that the present invention is not limited to the spirit and scope of the present disclosure, and that various changes, substitutions and substitutions can be made by those skilled in the art without departing from the spirit of the disclosure. range.
10‧‧‧電連接器組件
12‧‧‧電連接器
14‧‧‧電路板
H1‧‧‧高度
W1‧‧‧寬度
20‧‧‧電連接器組件
200‧‧‧卡緣連接器
202‧‧‧固定部
204‧‧‧端子
220‧‧‧夾持板
222‧‧‧凹槽
240‧‧‧導引板
30‧‧‧電連接器組件
300‧‧‧圍板
302‧‧‧卡緣插槽
304‧‧‧卡緣插槽
306‧‧‧面
310‧‧‧接觸模組
40‧‧‧電連接器組件
401‧‧‧第一卡緣模組
403‧‧‧第二卡緣模組
402‧‧‧第一框部
404‧‧‧第二框部
406‧‧‧第一支撐部
407‧‧‧第二支撐部
409‧‧‧螺孔
411‧‧‧螺孔
420‧‧‧第一薄片組
422‧‧‧第一薄片體
424‧‧‧第二薄片體
440‧‧‧第二薄片組
442‧‧‧第一薄片體
444‧‧‧第二薄片體
408‧‧‧對接端
410‧‧‧第一插槽
412‧‧‧安裝端
414‧‧‧第二插槽
416‧‧‧底面
417‧‧‧橋接部
413‧‧‧底面
415‧‧‧底面
425‧‧‧端子
423‧‧‧安裝部
427‧‧‧對接部
426‧‧‧固定部
428‧‧‧固定部
446‧‧‧固定部
448‧‧‧固定部
42‧‧‧電連接器
460‧‧‧電路板
462‧‧‧第一穿孔
464‧‧‧第二穿孔
47‧‧‧第一固定件
49‧‧‧第二固定件
490‧‧‧寬度
492‧‧‧寬度
D1‧‧‧ 距離
400A‧‧‧第一電連接器
400B‧‧‧第二電連接器
910‧‧‧插卡方向
S1‧‧‧底面
S2‧‧‧底面
111‧‧‧氣流通道
117‧‧‧插卡方向
1200‧‧‧罩殼
500‧‧‧框部
502‧‧‧底部
1300‧‧‧罩殼
602‧‧‧橋接部
606‧‧‧底面
131‧‧‧氣流通道
470‧‧‧薄片殼
472‧‧‧對接面
474‧‧‧安裝面
1600‧‧‧罩殼
700‧‧‧框部
702‧‧‧框部
704‧‧‧框部
701‧‧‧第一橋接部
703‧‧‧第二橋接部
709‧‧‧寬度
711‧‧‧寬度
419‧‧‧延伸部
400‧‧‧罩殼10‧‧‧Electrical connector assembly
12‧‧‧Electrical connector
14‧‧‧ boards
H1‧‧‧ Height
W1‧‧‧Width
20‧‧‧Electrical connector assembly
200‧‧‧ card edge connector
202‧‧‧Fixed Department
204‧‧‧terminal
220‧‧‧ clamping plate
222‧‧‧ Groove
240‧‧‧Guide board
30‧‧‧Electrical connector assembly
300‧‧‧
302‧‧‧ card edge slot
304‧‧‧ card edge slot
306‧‧‧ Face
310‧‧‧Contact Module
40‧‧‧Electrical connector assembly
401‧‧‧ first card edge module
403‧‧‧Second card edge module
402‧‧‧ first frame
404‧‧‧ second frame
406‧‧‧First support
407‧‧‧second support
409‧‧‧ screw holes
411‧‧‧ screw hole
420‧‧‧First sheet group
422‧‧‧First sheet
424‧‧‧Second sheet
440‧‧‧Second slice
442‧‧‧First sheet
444‧‧‧Second sheet
408‧‧‧ docking end
410‧‧‧first slot
412‧‧‧Installation end
414‧‧‧second slot
416‧‧‧ bottom
417‧‧‧Bridge
413‧‧‧ bottom
415‧‧‧ bottom
425‧‧‧ terminals
423‧‧‧Installation Department
427‧‧‧Docking Department
426‧‧‧ Fixed Department
428‧‧‧Fixed Department
446‧‧‧ fixed department
448‧‧‧ Fixed Department
42‧‧‧Electrical connector
460‧‧‧ circuit board
462‧‧‧First perforation
464‧‧‧Second perforation
47‧‧‧First fixture
49‧‧‧Second fixture
490‧‧‧Width
492‧‧‧Width
D1‧‧‧ Distance
400A‧‧‧First electrical connector
400B‧‧‧Second electrical connector
910‧‧‧Card direction
S1‧‧‧ bottom
S2‧‧‧ bottom
111‧‧‧Air passage
117‧‧‧Card direction
1200‧‧‧Shell
500‧‧‧ Frame Department
502‧‧‧ bottom
1300‧‧‧Shell
602‧‧‧Bridge
606‧‧‧ bottom
131‧‧‧Air passage
470‧‧‧Sheet shell
472‧‧‧ docking
474‧‧‧Installation surface
1600‧‧‧ hood
700‧‧‧ Frame Department
702‧‧‧ Frame Department
704‧‧‧ Frame Department
701‧‧‧First Bridge
703‧‧‧Second Bridge
709‧‧‧Width
711‧‧‧Width
419‧‧‧Extension
400‧‧‧Shell
由以下詳細說明與附隨圖式得以最佳瞭解本申請案揭示內容的各方面。注意,根據產業的標準實施方式,各種特徵並非依比例繪示。實際上,為了清楚討論,可任意增大或縮小各種特徵的尺寸。 圖1為一種習知的電連接器組件的結構示意圖。 圖2為一種習知的電連接器組件的結構示意圖。 圖3為一種習知的電連接器組件的結構示意圖。 圖4為根據本揭露一些實施例的一電連接器組件的結構示意圖。 圖5為根據本揭露一些實施例的一電連接器組件的分解示意圖。 圖6為根據本揭露一些實施例的圖5的電連接器的結構示意圖。 圖7為根據本揭露一些實施例的圖6的電連接器的分解示意圖。 圖8為根據本揭露一些實施例的圖7的罩殼的底視圖。 圖9為根據本揭露一些實施例的另一電連接器組件的結構示意圖。 圖10為根據本揭露一些實施例的圖7的罩殼的前視圖。 圖11為根據本揭露一些實施例的圖7的罩殼沿剖面線A-A’的剖面示意圖。 圖12為根據本揭露一些實施例的另一罩殼的前視圖。 圖13為根據本揭露一些實施例的另一罩殼的前視圖。 圖14為根據本揭露一些實施例的圖7的第一薄片組的分解示意圖。 圖15為根據本揭露一些實施例的圖7的第一薄片組的進一部分解示意圖。 圖16為根據本揭露一實施例的另一罩殼。 圖17為根據本揭露一些實施例的圖6的罩殼的底視圖。The aspects of the disclosure of the present application are best understood from the following detailed description and the accompanying drawings. Note that various features are not drawn to scale in accordance with standard implementations of the industry. In fact, the dimensions of the various features may be arbitrarily increased or decreased for clarity of discussion. 1 is a schematic structural view of a conventional electrical connector assembly. 2 is a schematic view showing the structure of a conventional electrical connector assembly. 3 is a schematic view showing the structure of a conventional electrical connector assembly. 4 is a block diagram of an electrical connector assembly in accordance with some embodiments of the present disclosure. FIG. 5 is an exploded schematic view of an electrical connector assembly in accordance with some embodiments of the present disclosure. 6 is a block diagram of the electrical connector of FIG. 5 in accordance with some embodiments of the present disclosure. 7 is an exploded schematic view of the electrical connector of FIG. 6 in accordance with some embodiments of the present disclosure. 8 is a bottom view of the casing of FIG. 7 in accordance with some embodiments of the present disclosure. 9 is a block diagram of another electrical connector assembly in accordance with some embodiments of the present disclosure. 10 is a front elevational view of the housing of FIG. 7 in accordance with some embodiments of the present disclosure. Figure 11 is a cross-sectional view of the casing of Figure 7 taken along section line A-A', in accordance with some embodiments of the present disclosure. 12 is a front elevational view of another housing in accordance with some embodiments of the present disclosure. 13 is a front elevational view of another housing in accordance with some embodiments of the present disclosure. 14 is an exploded perspective view of the first sheet set of FIG. 7 in accordance with some embodiments of the present disclosure. 15 is a schematic diagram of a portion of the first sheet set of FIG. 7 in accordance with some embodiments of the present disclosure. 16 is another housing in accordance with an embodiment of the present disclosure. 17 is a bottom view of the casing of FIG. 6 in accordance with some embodiments of the present disclosure.
42‧‧‧電連接器 42‧‧‧Electrical connector
400‧‧‧罩殼 400‧‧‧Shell
402‧‧‧第一框部 402‧‧‧ first frame
404‧‧‧第二框部 404‧‧‧ second frame
406‧‧‧第一支撐部 406‧‧‧First support
409‧‧‧螺孔 409‧‧‧ screw holes
407‧‧‧第二支撐部 407‧‧‧second support
411‧‧‧螺孔 411‧‧‧ screw hole
408‧‧‧對接端 408‧‧‧ docking end
412‧‧‧安裝端 412‧‧‧Installation end
416‧‧‧底面 416‧‧‧ bottom
417‧‧‧橋接部 417‧‧‧Bridge
420‧‧‧第一薄片組 420‧‧‧First sheet group
422‧‧‧第一薄片體 422‧‧‧First sheet
424‧‧‧第二薄片體 424‧‧‧Second sheet
440‧‧‧第二薄片組 440‧‧‧Second slice
442‧‧‧第一薄片體 442‧‧‧First sheet
444‧‧‧第二薄片體 444‧‧‧Second sheet
47‧‧‧第一固定件 47‧‧‧First fixture
49‧‧‧第二固定件 49‧‧‧Second fixture
426‧‧‧固定部 426‧‧‧ Fixed Department
428‧‧‧固定部 428‧‧‧Fixed Department
446‧‧‧固定部 446‧‧‧ fixed department
448‧‧‧固定部 448‧‧‧ Fixed Department
423‧‧‧安裝部 423‧‧‧Installation Department
425‧‧‧端子 425‧‧‧ terminals
427‧‧‧對接部 427‧‧‧Docking Department
Claims (14)
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106107370A TWI600214B (en) | 2017-03-07 | 2017-03-07 | Electrical connector |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| TW106107370A TWI600214B (en) | 2017-03-07 | 2017-03-07 | Electrical connector |
Publications (2)
| Publication Number | Publication Date |
|---|---|
| TWI600214B true TWI600214B (en) | 2017-09-21 |
| TW201834317A TW201834317A (en) | 2018-09-16 |
Family
ID=60719460
Family Applications (1)
| Application Number | Title | Priority Date | Filing Date |
|---|---|---|---|
| TW106107370A TWI600214B (en) | 2017-03-07 | 2017-03-07 | Electrical connector |
Country Status (1)
| Country | Link |
|---|---|
| TW (1) | TWI600214B (en) |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI833302B (en) * | 2022-07-27 | 2024-02-21 | 緯創資通股份有限公司 | Connector assembly and electronic device including the same |
Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5511985A (en) * | 1994-06-16 | 1996-04-30 | Burndy Corporation | Angled card edge connector |
| US6814619B1 (en) * | 2003-06-26 | 2004-11-09 | Teradyne, Inc. | High speed, high density electrical connector and connector assembly |
| US20100210123A1 (en) * | 2009-02-16 | 2010-08-19 | Tyco Electronics Corporation | Card edge module connector assembly |
| US20160365654A1 (en) * | 2015-06-11 | 2016-12-15 | Lenovo Enterprise Solutions (Singapore) Pte. Ltd. | Orthogonal card edge connector |
| US9537239B1 (en) * | 2015-08-25 | 2017-01-03 | Amphenol Commercial Products (ChengDu) Co. LTD | Orthogonal type backplane connector and combination type card-plugged connector |
-
2017
- 2017-03-07 TW TW106107370A patent/TWI600214B/en active
Patent Citations (5)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| US5511985A (en) * | 1994-06-16 | 1996-04-30 | Burndy Corporation | Angled card edge connector |
| US6814619B1 (en) * | 2003-06-26 | 2004-11-09 | Teradyne, Inc. | High speed, high density electrical connector and connector assembly |
| US20100210123A1 (en) * | 2009-02-16 | 2010-08-19 | Tyco Electronics Corporation | Card edge module connector assembly |
| US20160365654A1 (en) * | 2015-06-11 | 2016-12-15 | Lenovo Enterprise Solutions (Singapore) Pte. Ltd. | Orthogonal card edge connector |
| US9537239B1 (en) * | 2015-08-25 | 2017-01-03 | Amphenol Commercial Products (ChengDu) Co. LTD | Orthogonal type backplane connector and combination type card-plugged connector |
Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| TWI833302B (en) * | 2022-07-27 | 2024-02-21 | 緯創資通股份有限公司 | Connector assembly and electronic device including the same |
Also Published As
| Publication number | Publication date |
|---|---|
| TW201834317A (en) | 2018-09-16 |
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