TWM472337U - Electrical connector and electronic apparatus using the same - Google Patents
Electrical connector and electronic apparatus using the same Download PDFInfo
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Description
本創作係有關於一種電連接器及使用該電連接器之電子裝置,特別是關於一種電連接器之端子結構具有較佳的接觸彈性。The present invention relates to an electrical connector and an electronic device using the same, and in particular to a terminal structure of an electrical connector having better contact elasticity.
目前,通用串列匯流排(Universal Serial Bus,USB)的訊號傳輸標準已發展至USB 3.0,符合USB 3.0標準的電連接器除了可以選擇電性連接一USB 3.0的對接電連接器外,也可以選擇電性連接另一符合USB 1.0/2.0標準的對接電連接器以進行符合USB 1.0/2.0標準的訊號傳輸。為使此種USB 3.0電連接器相容於USB 3.0及USB 1.0/2.0的標準,此種USB 3.0電連接器具有多組端子結構,如至少包括一組用於傳輸USB 1.0/2.0訊號的端子,以及另一組用於傳輸USB 3.0訊號的端子。At present, the universal serial bus (USB) signal transmission standard has been developed to USB 3.0. In addition to the USB 3.0 standard, the electrical connector can be electrically connected to a USB 3.0 docking electrical connector. Select to electrically connect another docking electrical connector that complies with the USB 1.0/2.0 standard for signal transmission in accordance with the USB 1.0/2.0 standard. In order to make this USB 3.0 electrical connector compatible with USB 3.0 and USB 1.0/2.0 standards, this USB 3.0 electrical connector has multiple sets of terminal structures, such as at least one set of terminals for transmitting USB 1.0/2.0 signals. And another set of terminals for transmitting USB 3.0 signals.
一些習知USB 3.0電連接器如台灣專利M346198、M346941、M348358、M357776、M366783、M370859、M376015、M405081、200945689、201125228、201112540及美國專利US7972151、US7927145,其主要結構包括多組端子結構、用於承載上述多組端子結構的絶緣本體,以及用於包覆該絶緣本體之金屬遮蔽殼體,因為該絶緣本體本身係由多個分離的塑膠件構成,需要個別製造後再加以組合以將上述多組端子結構分層固持於該組合後的絶緣本體內;然而,此種複雜且尺寸較小的結構不僅需要使用多種不同模具來製造,也使組裝過程中的總組裝公差變大及難度變高, 使產品良率降低,導致較高的製造成本;其次,上述多組端子結構中之每一USB 3.0端子具有一接觸部,該接觸部之一表面係平貼或固定於該絶緣本體的對應槽道之壁面上,以致無法提供接觸彈性。如此,當一對接電連接器之對應端子插入該等習知USB 3.0電連接器內以壓觸該此接觸部之另一相對表面時,因為端子本身的結構缺乏彈力來緩衝,因此很容易直接撞擊或損傷到USB 3.0端子的結構。Some of the conventional USB 3.0 electrical connectors, such as Taiwanese patents M346198, M346941, M348358, M357776, M366783, M370859, M376015, M405081, 200945689, 201125228, 201112540, and US Pat. No. 7,972,151, US7,927,145, the main structure including a plurality of sets of terminal structures, An insulating body carrying the plurality of sets of terminal structures, and a metal shielding shell for covering the insulating body, since the insulating body itself is composed of a plurality of separate plastic parts, which need to be separately manufactured and then combined to The group terminal structure is layered and held in the combined insulating body; however, such a complicated and small-sized structure not only needs to be manufactured using a plurality of different molds, but also makes the total assembly tolerance in the assembly process large and difficult. , Lowering the yield of the product, resulting in higher manufacturing cost; secondly, each of the USB 3.0 terminals of the plurality of sets of terminal structures has a contact portion, and one surface of the contact portion is flat or fixed to the corresponding slot of the insulating body The wall of the road is such that contact elasticity cannot be provided. Thus, when the corresponding terminals of the pair of electrical connectors are inserted into the conventional USB 3.0 electrical connectors to press against the other opposite surface of the contact portion, since the structure of the terminal itself is lack of elastic force for buffering, it is easy to directly Impact or damage to the structure of the USB 3.0 terminal.
另有一些習知USB 3.0電連接器如台灣專利M329880、M329877、M359066、M366792、M379191、200910693及美國專利US7517253、US7625243、US7641519、US7736184、US7806704、US7806735、US7833065、US7837510、US7862346、US8002589、US8052477、US2010/0322566、US2011/0143599等揭示,雖然稍微簡化了絶緣本體的複雜結構,但其絶緣本體承載的USB 3.0端子之接觸部,同樣以其中一表面平貼或固定於該絶緣本體的對應槽道之壁面上,當對接電連接器之對應端子插入USB 3.0電連接器內以電性接觸該此接觸部之另一相對表面時,同樣很容易直接撞擊並損傷到USB 3.0端子的結構。There are also some conventional USB 3.0 electrical connectors such as Taiwan Patent Nos. M329880, M329877, M359066, M366792, M379191, 200910693, and US Pat. No. 7,517,253, US 7,252,243, US Pat. No. 7,641,519, US 7,736,184, US 7,870,704, US 7,807,345, US 7,833,065, US 7,837,510, US 7,862,346, US 8002589, US 8052477, US 2010 /0322566, US2011/0143599, etc. discloses that although the complicated structure of the insulating body is slightly simplified, the contact portion of the USB 3.0 terminal carried by the insulating body is also flatly attached or fixed to the corresponding channel of the insulating body. On the wall, when the corresponding terminal of the docking electrical connector is inserted into the USB 3.0 electrical connector to electrically contact the other opposite surface of the contact portion, it is also easy to directly impact and damage the structure of the USB 3.0 terminal.
為解決上述習知技術之問題,本創作之一目的在於提供一種電連接器,其不僅簡化絶緣本體結構,以減少模具使用數量來降低製造成本,並使每一端子結構皆形成一彈性接觸區及至少一彈性/固定支撐區,當一對接電連接器之對應端子電性壓觸此彈性接觸區時,該至少一彈性/固定支撐區可以提供較佳的接觸彈性,避免損傷端子結構。In order to solve the above problems of the prior art, an object of the present invention is to provide an electrical connector that not only simplifies the structure of the insulating body, but also reduces the manufacturing cost by reducing the number of molds used, and forms an elastic contact area for each terminal structure. And at least one elastic/fixed support region, the at least one elastic/fixed support region can provide better contact elasticity when the corresponding terminals of the pair of electrical connectors are electrically pressed against the elastic contact region, thereby avoiding damage to the terminal structure.
本創作之另一目的在於提供一種使用上述電連接器之電子裝置,以降低製造成本。Another object of the present invention is to provide an electronic device using the above electrical connector to reduce manufacturing costs.
為達成上述創作目的,本創作之一較佳實施例係提供一種電連接器,用於電性連接一對接電連接器。該電連接器之主要結構 包括:第一組端子、第二組端子、一絶緣本體及一定位部。In order to achieve the above-described creative purpose, a preferred embodiment of the present invention provides an electrical connector for electrically connecting a pair of electrical connectors. Main structure of the electrical connector The method includes: a first group of terminals, a second group of terminals, an insulative body, and a positioning portion.
該第一組端子包括一對第一差動訊號端子及一對第二差動訊號端子。該第二組端子包括一對第三差動訊號端子。上述第一組端子及第二組端子之每一端子皆具有一彈性接觸區、至少一彈性支撐區、至少一固持區及一焊腳區。於該第一組端子中,該彈性接觸區之兩相對側邊分別向外延伸以形成至少一翼片區,以及於該第一組端子中,該至少一彈性支撐區係連接該彈性接觸區且於連接該彈性接觸區之處形成至少一個彎折。The first set of terminals includes a pair of first differential signal terminals and a pair of second differential signal terminals. The second set of terminals includes a pair of third differential signal terminals. Each of the first group of terminals and the second group of terminals has an elastic contact region, at least one elastic support region, at least one holding region and a solder fillet region. In the first set of terminals, the opposite sides of the elastic contact region extend outwardly to form at least one fin region, and in the first group of terminals, the at least one elastic support region is connected to the elastic contact region and At least one bend is formed where the elastic contact zone is joined.
該絶緣本體,具有一座部及一對接部係從該座部向外延伸至一末端,並於該對接部上形成一對接面以對應該對接電連接器的連接,且該絶緣本體形成數個第一組端子槽道及數個第二組端子槽道以分別配置上述第一組端子及第二組端子,且該第一組端子槽道及第二組端子槽道皆延伸至該絶緣本體之座部及對接部,其中該第一組端子槽道係延伸貫穿該對接部之末端,且該第一組端子槽道的至少一內側壁形成至少一擋塊以對應該第一組端子之至少一翼片區。The insulative housing has a base portion and a pair of connecting portions extending outwardly from the seat portion to an end, and a pair of connecting surfaces are formed on the mating portion to correspond to the connection of the electrical connector, and the insulating body is formed into several The first group of terminal channels and the second group of terminal channels are respectively configured to respectively configure the first group of terminals and the second group of terminals, and the first group of terminal channels and the second group of terminal channels extend to the insulating body a seat portion and an abutting portion, wherein the first group of terminal channels extend through the end of the abutting portion, and at least one inner side wall of the first group of terminal channels forms at least one stopper to correspond to the first group of terminals At least one wing area.
當上述第一組端子及第二組端子分別配置於該第一組端子槽道及第二組端子槽道時,上述第一組端子及第二組端子之至少一固持區分別將該第一組端子及第二組端子固定於該絶緣本體之第一組端子槽道及第二組端子槽道中,該第一組端子的至少一彈性支撐區位於該第一組端子槽道內,且該第一組端子的彈性接觸區及第二組端子的彈性接觸區皆分布於該對接部的對接面上,其中該第一組端子的彈性接觸區的分布位置較第二組端子的彈性接觸區的分布位置接近該對接部的末端。When the first group of terminals and the second group of terminals are respectively disposed in the first group of terminal channels and the second group of terminal channels, at least one of the first group of terminals and the second group of terminals respectively The group terminal and the second group terminal are fixed in the first group of terminal channels and the second group of terminal channels of the insulative housing, and at least one elastic support region of the first group of terminals is located in the first group of terminal channels, and the The elastic contact regions of the first set of terminals and the elastic contact regions of the second set of terminals are all distributed on the mating faces of the abutting portions, wherein the elastic contact regions of the first set of terminals are disposed at a lower position than the elastic contact regions of the second set of terminals The distribution position is close to the end of the abutment.
當該電連接器的第一組端子的彈性接觸區接觸到該對接電連接器時,該第一組端子的至少一彈性支撐區提供該第一組端子的彈性接觸區需要的彈性,使該第一組端子的彈性接觸區彈性移動於該第一組端子槽道中,但該第一組端子槽道的至少一擋塊會阻 擋該第一組端子的彈性接觸區的至少一翼片區之移動,進而限制該第一組端子的彈性接觸區的向上或向下彈性移動距離。於本較佳實施例中,該第一組端子槽道的至少一擋塊包括一上擋塊及一下擋塊,該上擋塊用於阻擋該至少一翼片區在第一組端子槽道內的向上移動,進而限制該第一組端子的彈性接觸區的向上彈性移動距離,以及該下擋塊用於阻擋該至少一翼片區向下移動,進而限制該第一組端子的彈性接觸區的向下彈性移動距離。When the elastic contact area of the first set of terminals of the electrical connector contacts the mating electrical connector, at least one elastic support region of the first set of terminals provides elasticity required for the elastic contact region of the first set of terminals, such that The elastic contact regions of the first set of terminals are elastically moved in the first set of terminal channels, but at least one of the stops of the first set of terminal channels is blocked The movement of at least one of the fin regions of the first set of terminals, thereby limiting the upward or downward elastic movement distance of the resilient contact regions of the first set of terminals. In the preferred embodiment, at least one of the first set of terminal channels includes an upper stop and a lower stop for blocking the at least one wing region in the first set of terminal channels. Moving upward, thereby limiting an upward elastic moving distance of the elastic contact region of the first set of terminals, and the lower stop for blocking downward movement of the at least one fin region, thereby restricting downward movement of the elastic contact region of the first group of terminals Flexible movement distance.
該定位部係設於該絶緣本體之座部,且該第一組端子之焊腳區及該第二組端子之焊腳區皆延伸至該絶緣本體的座部之外並貫穿該定位部。The positioning portion is disposed on the seat portion of the insulative housing, and the solder leg region of the first group of terminals and the solder leg region of the second group of terminals extend beyond the seat portion of the insulative housing and penetrate the positioning portion.
根據本創作之另一較佳實施例之電連接器,該第一組端子還包括一彈片區,係從該彈性接觸區上作一彎折並朝該絶緣本體之對接面延伸,用於接觸該對接電連接器。According to another embodiment of the present invention, the first set of terminals further includes a spring region extending from the elastic contact region and extending toward the abutting surface of the insulating body for contact The docking electrical connector.
根據本創作之另一較佳實施例之電連接器,該第一組端子之至少一彎折係曝露於該絶緣本體之對接部的末端之外。In accordance with another embodiment of the present invention, the at least one bend of the first set of terminals is exposed beyond the end of the abutment of the insulative housing.
根據本創作之另一較佳實施例之電連接器,該第一組端子之至少一彈性支撐區包括一第一彈性支撐區及一第二彈性支撐區,該第二彈性支撐區係預先受壓及抵接於該第一組端子槽道之槽壁上,以及該至少一個彎折包括一第一彎折及一第二彎折,其中該第一彎折係形成於該第一彈性支撐區與該彈性接觸區之間的連接處,以及第二彎折形成於該第二彈性支撐區與該彈性接觸區之間的連接處。According to another embodiment of the present invention, the at least one elastic support region of the first set of terminals includes a first elastic support region and a second elastic support region, and the second elastic support region is pre-accepted Pressing and abutting against the groove wall of the first group of terminal channels, and the at least one bend includes a first bend and a second bend, wherein the first bend is formed on the first elastic support A junction between the region and the elastic contact region, and a second bend is formed at a junction between the second elastic support region and the elastic contact region.
根據本創作之另一較佳實施例之電連接器,該第一組端子之每一端子皆具有一彈性接觸區及至少一支撐區,該至少一支撐區之一部份係固定於該第一組端子槽道中,其中該第一組端子的彈性接觸區與該至少一支撐區之連接處形成至少一個彎折,藉使該第一組端子的彈性接觸區係以該彈性接觸區與至少一支撐區之連接處為支點作彈性移動於該第一組端子槽道中。該第一組端子的 每一彈性接觸區的兩相對側邊係分別向外延伸以形成至少一翼片區,以及該絶緣本體的每一第一組端子槽道的至少一內側壁形成至少一擋塊以對應該至少一翼片區。當該第一組端子容置於該對應第一組端子槽道時,該第一組端子槽道的至少一擋塊用於限制該第一組端子的至少一翼片區朝一垂直方向的移動,進而限制該第一組端子的彈性接觸區的向上或向下彈性移動距離,且該至少一擋塊還可用於限制該第一組端子的至少一支撐區朝一水平方向的移動。According to another embodiment of the present invention, each of the terminals of the first set of terminals has an elastic contact area and at least one support area, and one of the at least one support area is fixed to the first a set of terminal channels, wherein the connection between the elastic contact region of the first set of terminals and the at least one support region forms at least one bend, such that the elastic contact region of the first set of terminals is associated with the elastic contact region and at least The joint of a support zone is elastically moved in the first set of terminal channels for the fulcrum. The first set of terminals The two opposite side edges of each elastic contact region extend outwardly to form at least one fin region, and at least one inner sidewall of each first group of terminal channels of the insulating body forms at least one stopper to correspond to at least one fin region . At least one stop of the first set of terminal channels is configured to limit movement of at least one of the fin regions of the first set of terminals toward a vertical direction when the first set of terminals is received in the corresponding first set of terminal channels, and further The upward or downward elastic moving distance of the elastic contact region of the first group of terminals is restricted, and the at least one stopper is further configured to restrict movement of the at least one supporting region of the first group of terminals toward a horizontal direction.
根據本創作之另一較佳實施例之電連接器,具有至少一支撐區的第一組端子包括一彈片區係從該彈性接觸區上作一彎折並朝該對接面延伸,用於接觸一對接電連接器。In accordance with another embodiment of the present invention, the first set of terminals having at least one support region includes a resilient region that is bent from the resilient contact region and extends toward the mating surface for contact A pair of electrical connectors.
根據本創作之另一較佳實施例係提供一種電子裝置,其包括上述各實施例之電連接器。According to another preferred embodiment of the present invention, there is provided an electronic device comprising the electrical connector of each of the above embodiments.
根據本創作之電連接器及使用該電連接器之電子裝置,不僅簡化絶緣本體結構以減少模具使用數量來降低製造成本,而且該每一端子結構皆形成一彈性接觸區及至少一彈性/固定支撐區。當一對接電連接器之對應端子電性壓觸此彈性接觸區時,該至少一彈性/固定支撐區可以提供較佳的接觸彈性,避免損傷端子結構,可以藉由上述簡化的絶緣本體結構,不僅易於組裝,亦可提昇產品良率,進而降低製造成本。According to the electrical connector of the present invention and the electronic device using the same, the insulating body structure is simplified to reduce the number of molds used to reduce the manufacturing cost, and each of the terminal structures forms an elastic contact region and at least one elastic/fixed Support area. When the corresponding terminals of the pair of electrical connectors are electrically pressed against the elastic contact region, the at least one elastic/fixed support region can provide better contact elasticity to avoid damage to the terminal structure, and the simplified insulative body structure can be Not only is it easy to assemble, it also increases product yield and thus reduces manufacturing costs.
1,2,3,4,5,6,7,8‧‧‧電連接器1,2,3,4,5,6,7,8‧‧‧ electrical connectors
10‧‧‧遮蔽殼體10‧‧‧Shaded housing
12‧‧‧收容空間12‧‧‧ accommodating space
14‧‧‧卡勾14‧‧‧check
20‧‧‧絶緣本體20‧‧‧Insulating body
22‧‧‧座部22‧‧‧
24‧‧‧對接部24‧‧‧Docking Department
30‧‧‧第一組端子30‧‧‧First set of terminals
32‧‧‧第一差動訊號端子32‧‧‧First differential signal terminal
34‧‧‧第二差動訊號端子34‧‧‧Second differential signal terminal
36‧‧‧接地訊號端子36‧‧‧ Grounding signal terminal
40‧‧‧第二組端子40‧‧‧Second group terminal
42‧‧‧第三差動訊號端子42‧‧‧3rd differential signal terminal
44‧‧‧接地訊號端子44‧‧‧ Grounding signal terminal
46‧‧‧電源訊號端子46‧‧‧Power signal terminal
50‧‧‧定位部50‧‧‧ Positioning Department
52‧‧‧插孔52‧‧‧ jack
54‧‧‧卡塊54‧‧‧ card block
222‧‧‧凹陷部222‧‧‧Depression
224‧‧‧槽孔224‧‧‧ slots
240‧‧‧對接面240‧‧‧ docking
242‧‧‧第一組端子槽道242‧‧‧First set of terminal channels
244‧‧‧第二組端子槽道244‧‧‧Second group of terminal channels
246‧‧‧前末端246‧‧‧ front end
300,400‧‧‧彈性接觸區300,400‧‧‧elastic contact zone
302,402‧‧‧彈性支撐區302,402‧‧‧elastic support zone
304,404,406‧‧‧固持區304, 404, 406 ‧ ‧ holding area
306,408‧‧‧焊腳區306, 408‧‧‧ soldering foot area
302’‧‧‧第一彈性支撐區302'‧‧‧First elastic support zone
303’‧‧‧第二彈性支撐區303’‧‧‧Second elastic support zone
302’’‧‧‧固定支撐區302’’‧‧‧Fixed support area
403‧‧‧第一連接區403‧‧‧First connection area
405‧‧‧第二連接區405‧‧‧Second connection area
2221‧‧‧垂直向壁面2221‧‧‧Vertical wall
2223‧‧‧水平向壁面2223‧‧‧ horizontal wall
2422‧‧‧槽壁2422‧‧‧ slot wall
2461‧‧‧上擋塊2461‧‧‧Upper block
2463‧‧‧下擋塊2463‧‧‧ Lower stop
2465‧‧‧狹縫2465‧‧ s slit
3002‧‧‧翼片區3002‧‧‧wing area
3004‧‧‧彈片區3004‧‧‧Sheet area
3009,3022,3032‧‧‧彎折3009, 3022, 3032‧‧‧ bend
D1,D2,D3,D4‧‧‧彈性移動距離D1, D2, D3, D4‧‧‧ elastic moving distance
第1A圖係繪示依據本創作之第一較佳實施例之電連接器之立體爆炸圖。Figure 1A is a perspective exploded view of the electrical connector in accordance with the first preferred embodiment of the present invention.
第1B圖係繪示依據本創作之第一較佳實施例之電連接器之絶緣本體、第一組端子及第二組端子之立體組合圖。1B is a perspective assembled view of an insulative housing, a first set of terminals, and a second set of terminals of the electrical connector according to the first preferred embodiment of the present invention.
第1C圖係繪示依據第1B圖之組合後的絶緣本體之前視圖。Fig. 1C is a front view showing the insulating body according to the combination of Fig. 1B.
第1D圖係繪示依據第1C圖之A1-A1’剖面線之絶緣本體之剖視圖。Fig. 1D is a cross-sectional view showing the insulating body according to the line A1-A1' of Fig. 1C.
第2圖係繪示依據本創作之第二較佳實施例之組合後絶緣本體之剖視圖。Figure 2 is a cross-sectional view showing the assembled insulative housing in accordance with a second preferred embodiment of the present invention.
第3圖係繪示依據本創作之第三較佳實施例之組合後絶緣本體之剖視圖。Figure 3 is a cross-sectional view showing the assembled insulative housing in accordance with a third preferred embodiment of the present invention.
第4圖係繪示依據本創作之第四較佳實施例之組合後絶緣本體之剖視圖。Figure 4 is a cross-sectional view showing the assembled insulative housing in accordance with a fourth preferred embodiment of the present invention.
第5圖係繪示依據本創作之第五較佳實施例之組合後絶緣本體之剖視圖。Figure 5 is a cross-sectional view showing the assembled insulative housing in accordance with a fifth preferred embodiment of the present invention.
第6圖係繪示依據本創作之第六較佳實施例之組合後絶緣本體之剖視圖。Figure 6 is a cross-sectional view showing the assembled insulative housing in accordance with a sixth preferred embodiment of the present invention.
第7圖係繪示依據本創作之第七較佳實施例之組合後絶緣本體之剖視圖。Figure 7 is a cross-sectional view showing the assembled insulative housing in accordance with a seventh preferred embodiment of the present invention.
第8圖係繪示依據本創作之第八較佳實施例之組合後絶緣本體之剖視圖。Figure 8 is a cross-sectional view showing the assembled insulative housing in accordance with an eighth preferred embodiment of the present invention.
請先參考第1A圖,係顯示一種根據本創作之一第一較佳實施例之電連接器1,其符合USB 3.0訊號傳輸標準並用於電性連接一對接電連接器(未顯示)。該電連接器1之主要結構包括:一遮蔽殼體10、一絶緣本體20、第一組端子30、第二組端子40及一定位部50。Referring first to FIG. 1A, there is shown an electrical connector 1 according to a first preferred embodiment of the present invention which conforms to the USB 3.0 signal transmission standard and is used to electrically connect a pair of electrical connectors (not shown). The main structure of the electrical connector 1 includes a shielding housing 10, an insulative housing 20, a first set of terminals 30, a second set of terminals 40, and a positioning portion 50.
該遮蔽殼體10主要由四個壁面構成,且該四壁面中間形成一收容空間12用於容置該絶緣本體20於其內。該四個壁面中的左右兩側壁面分別形成一向內陷入之卡勾14。The shielding housing 10 is mainly composed of four wall surfaces, and a receiving space 12 is formed in the middle of the four wall surfaces for receiving the insulating body 20 therein. The left and right side wall faces of the four wall surfaces respectively form an inwardly trapped hook 14.
如第1A及1B圖所示,於本實施例中,該絶緣本體20整體是以塑膠材料成型方式產生的單件結構(unitary structure)且包括一座部22及一對接部24,其中該座部22下方形成一凹陷部222以容置上述定位部50,且該座部22之左右兩側分別形成一槽孔224,用於與該遮蔽殼體10之卡勾14對應卡固,以將該遮蔽殼體 10固定於該絶緣本體20上。該對接部24係從該座部22前方沿著一水平方向朝外延伸直至一前末端246,並於該對接部24上形成一對接面240以對應該對接電連接器的連接。該絶緣本體20還形成數個第一組端子槽道242及數個第二組端子槽道244以分別配置對應的第一組端子30及第二組端子40。該第一組端子槽道242係從該絶緣本體20之對接部24延伸至座部22並使該第一組端子槽道242沿著其延伸方向曝露於該對接部24下方及該座部22下方,其中該第一組端子槽道242之一端向前延伸貫穿該對接部24之前末端246,其另一相對端向後延伸,經由該座部22之凹陷部222之一垂直向壁面2221再向下貫穿凹陷部222之一水平向壁面2223。該第二組端子槽道244係從該絶緣本體20之對接部24上表面延伸至座部22之上表面且使該第二組端子槽道244沿著其延伸方向曝露於該對接部24的對接面240上方及座部22上方,接著該第二組端子槽道244向下延伸貫穿該座部22之凹陷部222之水平向壁面2223。請進一步參考第1A及第1C圖,每一第一組端子槽道242在鄰近該對接部24之前末端246處的兩相對內側壁上,沿著一垂直方向分別形成兩對上擋塊2461及下擋塊2463,且該每一對上擋塊2461及下擋塊2463之間的空間界定出一狹縫2465。As shown in FIGS. 1A and 1B, in the present embodiment, the insulating body 20 is integrally formed by a plastic material forming unitary structure and includes a portion 22 and a pair of joints 24, wherein the seat portion A recessed portion 222 is formed in the lower portion of the 22 to receive the positioning portion 50, and a slot 224 is formed in the left and right sides of the housing portion 22 for locking with the hook 14 of the shielding shell 10 to Shaded housing 10 is fixed to the insulating body 20. The abutting portion 24 extends outward from the front of the seat portion 22 in a horizontal direction up to a front end 246, and a pair of joint faces 240 are formed on the abutting portion 24 to correspond to the connection of the electrical connector. The insulative housing 20 further defines a plurality of first set of terminal channels 242 and a plurality of second set of terminal channels 244 to respectively configure corresponding first set of terminals 30 and second set of terminals 40. The first set of terminal channels 242 extend from the abutting portion 24 of the insulative housing 20 to the seat portion 22 and expose the first set of terminal channels 242 under the abutting portion 24 and the seat portion 22 along the extending direction thereof. In the lower part, one end of the first set of terminal channels 242 extends forwardly through the front end 246 of the abutting portion 24, and the other opposite end thereof extends rearward, and the one of the recessed portions 222 of the seat portion 22 is further directed to the wall surface 2221. One of the horizontally facing wall faces 2223 extends through one of the recesses 222. The second set of terminal channels 244 extend from the upper surface of the abutting portion 24 of the insulative housing 20 to the upper surface of the seat portion 22 and expose the second group of terminal slots 244 to the abutting portion 24 along the extending direction thereof. Above the abutting surface 240 and above the seat 22, the second set of terminal channels 244 extend downwardly through the horizontal wall 2223 of the recess 222 of the seat 22. Referring to FIGS. 1A and 1C, each of the first set of terminal channels 242 forms two pairs of upper blocks 2461 along a vertical direction on two opposite inner sidewalls adjacent to the front end 246 of the abutting portion 24, respectively. The lower block 2463, and the space between each pair of the upper block 2461 and the lower block 2463 defines a slit 2465.
如第1A及1C圖所示,該第一組端子30相容於USB 3.0標準並分成一對第一差動訊號端子32、一對第二差動訊號端子34及一接地訊號端子36,且該第一組端子30的每一端子32、34、36皆具有一彈性接觸區300、一彈性支撐區302、數個水平向的固持區304及一垂直向的焊腳區306,其中該彈性接觸區300之兩相對側邊分別向外延伸以形成兩翼片區3002,用於對應該第一組端子槽道242內的兩對上下擋塊2461、2463。因為該彈性支撐區302之前方係連接該彈性接觸區300且於連接該彈性接觸區300之處形成數個彎折3022(見第1D圖),該彈性支撐區302之後方係連接該 數個固持區304,藉此從該彈性支撐區302至彈性接觸區300之間構成的力學結構如同形成一可上下移動的彈力懸臂。於其他實施例中,該第一組端子30還包括從該彈性接觸區300向上沖壓出一彈片區(未顯示),使該彈片區與該彈性接觸區300連接處形成一彎折,且該彈片區係朝該絶緣本體20之對接面240延伸但未伸出對接面240之外,藉此可對該電連接器1插接時提供更高的接觸彈性。As shown in FIGS. 1A and 1C, the first set of terminals 30 is compatible with the USB 3.0 standard and is divided into a pair of first differential signal terminals 32, a pair of second differential signal terminals 34, and a ground signal terminal 36, and Each of the terminals 32, 34, 36 of the first set of terminals 30 has an elastic contact zone 300, an elastic support zone 302, a plurality of horizontal retaining zones 304 and a vertical solder fillet zone 306, wherein the elasticity The opposite sides of the contact zone 300 extend outwardly to form two fin regions 3002 for corresponding to the two pairs of upper and lower stops 2461, 2463 in the first set of terminal channels 242. Because the elastic support region 302 is connected to the elastic contact region 300 in the front and forms a plurality of bends 3022 (see FIG. 1D) when the elastic contact region 300 is connected, the elastic support region 302 is connected to the rear side. A plurality of retaining zones 304 whereby the mechanical structure formed between the resilient support zone 302 and the resilient contact zone 300 acts as a resilient cantilever that moves up and down. In other embodiments, the first set of terminals 30 further includes a spring region (not shown) punched upward from the elastic contact region 300 to form a bend between the elastic region and the elastic contact region 300, and the bend is formed. The shrapnel region extends beyond the mating face 240 of the insulative housing 20 but does not extend beyond the mating face 240, thereby providing higher contact flexibility when the electrical connector 1 is inserted.
如第1A及1B圖所示,該第二組端子40相容於USB 1.0/2.0標準並分成一對第三差動訊號端子42、一接地訊號端子44及一電源訊號端子46,且該第二組端子40的每一端子42、44、46皆具有一彈性接觸區400、一彈性支撐區402、一水平向的第一連接區403、數個垂直向的固持區404,406、一水平向的第二連接區405及一垂直向的焊腳區408。因為該彈性支撐區402之前方係連接該彈性接觸區400且該彈性支撐區402之後方經由該水平向連接區403連接至該數個固持區404,藉此從該彈性支撐區402至彈性接觸區400之間的結構形成一可上下移動的彈力懸臂。此外,從該固持區404經由第二連接區405及該固持區406至該焊腳區408共同構成一”ㄇ”字型結構,以置放於該座部22上方。As shown in FIGS. 1A and 1B, the second group of terminals 40 is compatible with the USB 1.0/2.0 standard and is divided into a pair of third differential signal terminals 42, a ground signal terminal 44, and a power signal terminal 46, and the first Each of the terminals 42, 44, 46 of the two sets of terminals 40 has an elastic contact zone 400, an elastic support zone 402, a horizontal first connection zone 403, a plurality of vertical retention zones 404, 406, and a horizontal orientation. The second connection region 405 and a vertical solder fillet region 408. Because the elastic support region 402 is connected to the elastic contact region 400 in the front and the elastic support region 402 is connected to the plurality of retention regions 404 via the horizontal connection region 403, thereby elastic contact from the elastic support region 402. The structure between the zones 400 forms an elastic cantilever that can be moved up and down. In addition, from the holding area 404 via the second connecting area 405 and the holding area 406 to the solder fillet area 408, a "ㄇ"-shaped structure is formed to be placed above the seat portion 22.
如第1C及第1D圖所示,當上述第一組端子30欲配置於該第一組端子槽道242中時,第一組端子30是從該絶緣本體20之前末端246向該絶緣本體20之後方裝入該數個第一組端子槽道242中,接著該第一組端子30之固持區304固定於該絶緣本體20下方之第一組端子槽道242內,使該第一組端子30的彈性支撐區302位於該第一組端子槽道242內,且該第一組端子30的彈性接觸區300之位置係分布於該對接部24的對接面240上且鄰近該前末端246。於本實施例中,該第一組端子30的彈性接觸區300是被收容於該第一組端子槽道242之狹縫2465中且彈性接觸區300兩側之翼片區3002抵接於上擋塊2461下方,且從彈性支撐區302 至彈性接觸區300如同形成一懸臂結構,因此該彈性接觸區300之兩翼片區3002被限制僅能彈性移動於該第一組端子槽道242的兩對上下擋塊2461、2463之間的狹縫2465中,即該第一組端子30的彈性接觸區300不會伸出該對接部24的對接面240之外。同時,第一組端子30之下表面沿著該第一組端子槽道242之延伸方向曝露於該座部22下方及該對接部24下方,且該焊腳區306係經由該座部22之凹陷部222之垂直向壁面2221延伸貫穿出該水平向壁面2223之外。As shown in FIGS. 1C and 1D, when the first set of terminals 30 are to be disposed in the first set of terminal channels 242, the first set of terminals 30 are from the front end 246 of the insulative housing 20 toward the insulative housing 20. Then, the first group of terminal channels 242 are inserted into the first group of terminal channels 242, and the first group of terminals 30 are fixed in the first group of terminal channels 242 below the insulative housing 20 to make the first group of terminals. The elastic support region 302 of the first set of terminals 30 is located on the abutting surface 240 of the abutting portion 24 and adjacent to the front end 246. In this embodiment, the elastic contact regions 300 of the first group of terminals 30 are received in the slits 2465 of the first group of terminal channels 242, and the tab regions 3002 on both sides of the elastic contact region 300 are in contact with the upper block. Below the block 2461, and from the elastic support zone 302 The elastic contact region 300 is formed as a cantilever structure, so that the two fin regions 3002 of the elastic contact region 300 are restricted to be elastically movable only to the slit between the two pairs of upper and lower stoppers 2461, 2463 of the first group of terminal channels 242. In 2465, the resilient contact zone 300 of the first set of terminals 30 does not extend beyond the mating face 240 of the abutment 24. At the same time, the lower surface of the first group of terminals 30 is exposed under the seat portion 22 and below the abutting portion 24 along the extending direction of the first group of terminal channels 242, and the solder leg region 306 is via the seat portion 22 The vertical portion 2221 of the recess 222 extends beyond the horizontal wall 2223.
如第1B及第1D圖所示,當上述第二組端子40配置於該第二組端子槽道244時,將第二組端子40從該絶緣本體20的對接面240上方及座部22上方裝入該數個第二組端子槽道244中,接著將該第二組端子40之數個垂直向固持區404及406分別插入並固定於該座部2前方及後方之垂直向的第二組端子槽道244中,並使得該第二組端子40的彈性接觸區400伸出該對接部24的對接面240之外,其中該第一組端子30的彈性接觸區300的分布位置較第二組端子40的彈性接觸區400的分布位置更接近該對接部24的前末端246。同時,第二組端子30之上表面沿著該第二組端子槽道244之延伸方向曝露於該座部22上方及該對接面240上方,且該焊腳區408係向下延伸貫穿該座部22之凹陷部222之水平向壁面2223之外。As shown in FIGS. 1B and 1D, when the second group of terminals 40 are disposed in the second group of terminal channels 244, the second group of terminals 40 are above the abutting surface 240 of the insulative housing 20 and above the seat portion 22. Inserting the plurality of second group of terminal channels 244, and then inserting and fixing the plurality of vertical holding regions 404 and 406 of the second group of terminals 40 respectively to the front and rear of the seat 2 The set of the terminal channel 244 is such that the elastic contact area 400 of the second set of terminals 40 extends beyond the abutting surface 240 of the abutting portion 24, wherein the elastic contact area 300 of the first set of terminals 30 is distributed. The elastic contact regions 400 of the two sets of terminals 40 are distributed closer to the front end 246 of the abutting portion 24. At the same time, the upper surface of the second set of terminals 30 is exposed above the seat portion 22 and above the mating surface 240 along the extending direction of the second set of terminal channels 244, and the solder fillet region 408 extends downwardly through the seat. The horizontal portion 2223 of the recessed portion 222 of the portion 22 is outside.
如第1A及1D圖所示,該定位部50為一板狀結構且其兩側形成一對卡塊54,用於卡設於該凹陷部222的水平向壁面2223之凹洞(未顯示)中,以將該定位部50裝設於該凹陷部222形成的空間內,且該定位部50上還形成數個插孔52以供該第一組端子30之焊腳區306及該第二組端子40之焊腳區408貫穿及定位。As shown in FIGS. 1A and 1D, the positioning portion 50 is a plate-like structure and has a pair of latches 54 formed on both sides thereof for engaging in the recesses of the horizontal wall surface 2223 of the recessed portion 222 (not shown). The positioning portion 50 is disposed in the space formed by the recessed portion 222, and the plurality of insertion holes 52 are formed on the positioning portion 50 for the solder fillet region 306 and the second portion of the first set of terminals 30. The solder leg region 408 of the group terminal 40 is penetrated and positioned.
如第1A及1D圖所示,當一符合USB 3.0標準之對接電連接器插入並電連接該電連接器1時,該USB 3.0對接電連接器的對應端子(未顯示)會壓觸到位於對接面240內的第一組端子30的彈 性接觸區300,正如前述彈性懸臂結構,該第一組端子30的彈性支撐區302會提供該第一組端子30的彈性接觸區300右側需要的彈性,使該第一組端子30的彈性接觸區300可以彈性移動於該第一組端子槽道232中。於本較佳實施例中,由於該第一組端子槽道242的上擋塊2461用於阻擋該翼片區3002在第一組端子槽道232內向上移動,進而限制該第一組端子30的彈性接觸區300的向上彈性移動距離,如一旦自該電連接器1拔除該USB 3.0對接電連接器,該第一組端子30的彈性接觸區300也不會因釋壓反彈而伸出對接面240之外;以及該下擋塊2463可以用於阻擋該翼片區3002向下移動,進而限制該第一組端子30的彈性接觸區300的向下彈性移動距離”D1”,因此一旦該USB 3.0對接電連接器之對應端子插入該電連接器1內而壓觸到該第一組端子30的彈性接觸區300時,該第一組端子30的彈性接觸區300也不會因過度受壓而損毀。As shown in FIGS. 1A and 1D, when a docking electrical connector conforming to the USB 3.0 standard is inserted and electrically connected to the electrical connector 1, the corresponding terminal (not shown) of the USB 3.0 docking electrical connector is pressed against The bomb of the first set of terminals 30 in the mating face 240 The contact area 300, as in the elastic cantilever structure described above, the elastic support region 302 of the first set of terminals 30 provides the required elasticity on the right side of the elastic contact region 300 of the first set of terminals 30 to elastically contact the first set of terminals 30. Zone 300 can be resiliently moved into the first set of terminal channels 232. In the preferred embodiment, the upper block 2461 of the first set of terminal channels 242 is configured to block the flap region 3002 from moving upward in the first set of terminal channels 232, thereby limiting the first set of terminals 30. The upward elastic moving distance of the elastic contact zone 300, such as once the USB 3.0 docking electrical connector is removed from the electrical connector 1, the elastic contact zone 300 of the first set of terminals 30 does not protrude out of the docking surface due to the rebound of the pressure relief. The lower block 2463 can be used to block the flap region 3002 from moving downward, thereby limiting the downward elastic movement distance "D1" of the elastic contact region 300 of the first set of terminals 30, so once the USB 3.0 When the corresponding terminal of the docking electrical connector is inserted into the electrical connector 1 and is pressed against the elastic contact region 300 of the first group of terminals 30, the elastic contact region 300 of the first group of terminals 30 is not excessively pressurized. Damaged.
需注意的是,如第1C及1D圖所示,當本創作之電連接器1未電連接任何對接電連接器時,由於該第一組端子30的彈性接觸區300是被收容於該第一組端子槽道242之狹縫2465中,因此該彈性接觸區300是抵接於上擋塊2461下方而不伸出對接面240之外,所以當一符合USB 2.0標準之對接電連接器插入以電連接該電連接器1之第二組端子40時,該符合USB 2.0標準之對接電連接器不會有撞擊到該第一組端子30的問題發生。It should be noted that, as shown in FIGS. 1C and 1D, when the electrical connector 1 of the present invention is not electrically connected to any of the mating electrical connectors, since the elastic contact region 300 of the first set of terminals 30 is received in the first The slot 2465 of the set of terminal channels 242 is such that the resilient contact region 300 abuts below the upper block 2461 without extending beyond the mating face 240, so when a USB 2.0 compliant docking electrical connector is inserted When the second set of terminals 40 of the electrical connector 1 are electrically connected, the problem of the USB 2.0 compliant docking electrical connector not hitting the first set of terminals 30 occurs.
請參考第2圖,係顯示一種根據本創作之一第二較佳實施例之電連接器2,其與前述第一較佳實施例之電連接器1不同之處在於:第二較佳實施例之電連接器2之第一組端子30的每一端子皆具有一彈性接觸區300、一第一彈性支撐區302’、一第二彈性支撐區303’、數個水平向的固持區304及一垂直向的焊腳區306。因為該第一彈性支撐區302’之前方係連接該彈性接觸區300且於連接該彈性接觸區300之處形成數個彎折3022,該第一彈性支 撐區302’之後方係連接該數個固持區304,而該第二彈性支撐區303’之前方係連接該彈性接觸區300且於連接該彈性接觸區300之處形成數個彎折3032,至少其中一彎折3032曝露於該絶緣本體20之對接部24的前末端246,而且除了該第一彈性支撐區302’會提供該彈性接觸區300右側所需之彈性外,因為該第二彈性支撐區303’之下方末端係預先受壓(Preloaded)及抵接於該第一組端子槽道242之一槽壁2422的壁面上,該第二彈性支撐區303’還可對該彈性接觸區300之左側提供彈力,藉此從該第一彈性支撐區302’、經由彈性接觸區300至第二彈性支撐區303’之間構成的力學結構如同形成一可上下移動的簡支樑,其撓度將比前述第一實施例更小,不易變形,這也使該第一組端子30的彈性接觸區300兩側可以更平穩地彈性移動於該第一組端子槽道242中。此外,如第2圖所示,第二較佳實施例之電連接器2之第一組端子槽道242貫穿絶緣本體20的凹陷部222及第一組端子槽道242下方形成槽壁2422之設計也與第一較佳實施例不同,這使得第二較佳實施例之電連接器2之第一組端子30可以直接從絶緣本體20後末端(相對於前末端246),亦即從凹陷部222之垂直向壁面2221上插入並設置於第一組端子槽道242內。至於其他部位及元件,因為皆與前述第一實施例相同,如包括該第一組端子20之彈性接觸區300之兩相對側也是分別向外延伸形成兩翼片區(未顯示)並介於該第一組端子槽道242的兩對上下擋塊2461,2463之間,在此不再累述。Referring to FIG. 2, there is shown an electrical connector 2 according to a second preferred embodiment of the present invention, which differs from the electrical connector 1 of the first preferred embodiment in that: a second preferred embodiment Each terminal of the first set of terminals 30 of the electrical connector 2 has an elastic contact zone 300, a first elastic support zone 302', a second elastic support zone 303', and a plurality of horizontally holding zones 304. And a vertical solder fillet area 306. Because the first elastic support region 302' is connected to the elastic contact region 300 in the front and the plurality of bends 3022 are formed at the elastic connection region 300, the first elastic branch The plurality of retaining regions 304 are connected to the rear of the retaining region 302 ′, and the elastic contact region 300 is connected to the second elastic supporting region 303 ′ and the plurality of bends 3032 are formed at the joint of the elastic contact region 300 . At least one of the bends 3032 is exposed to the front end 246 of the abutting portion 24 of the insulative housing 20, and in addition to the first elastic support region 302' providing the elasticity required for the right side of the elastic contact region 300, because of the second elasticity The lower end of the support region 303 ′ is preloaded and abuts against the wall surface of the groove wall 2422 of the first group of terminal channels 242 , and the second elastic support region 303 ′ can also be the elastic contact region The left side of the 300 provides an elastic force, whereby the mechanical structure formed between the first elastic support region 302' and the elastic contact region 300 to the second elastic support region 303' is like forming a simple supported beam that can move up and down, and the deflection thereof will be The foregoing first embodiment is smaller and less prone to deformation, which also allows the two sides of the elastic contact region 300 of the first group of terminals 30 to be more smoothly and elastically moved in the first group of terminal channels 242. In addition, as shown in FIG. 2, the first set of terminal channels 242 of the electrical connector 2 of the second preferred embodiment penetrates through the recessed portion 222 of the insulative housing 20 and below the first set of terminal slots 242 to form the slot wall 2422. The design is also different from the first preferred embodiment in that the first set of terminals 30 of the electrical connector 2 of the second preferred embodiment can be directly from the rear end of the insulative housing 20 (relative to the front end 246), i.e., from the recess. The portion 222 is inserted into the vertical wall surface 2221 and disposed in the first set of terminal channels 242. As for other parts and components, since they are the same as the foregoing first embodiment, the opposite sides of the elastic contact zone 300 including the first set of terminals 20 are also outwardly extended to form two wing regions (not shown) and interposed therebetween. A pair of upper and lower stops 2461, 2463 of a set of terminal channels 242 are not repeated here.
請再參考第3圖,係顯示一種根據本創作之一第三較佳實施例之電連接器3,其與前述第二較佳實施例之電連接器2不同之處在於:第三較佳實施例之第一組端子30還包括從該彈性接觸區300向上沖壓出一彈片區3004,使該彈片區3004與該彈性接觸區300之間的連接處形成一彎折3009,且該彈片區3004係朝該絶緣本體20之對接面240延伸但未伸出對接面240之外,藉此可擴大 彈性移動距離D2(即D2>D1),以對該電連接器3插接時提供更高的接觸彈性。Referring to FIG. 3, there is shown an electrical connector 3 according to a third preferred embodiment of the present invention, which is different from the electrical connector 2 of the second preferred embodiment in that: third preferred The first set of terminals 30 of the embodiment further includes punching a spring area 3004 upwardly from the elastic contact area 300 to form a bend 3009 between the spring area 3004 and the elastic contact area 300, and the spring area is formed. The 3004 extends toward the mating surface 240 of the insulative housing 20 but does not extend beyond the mating surface 240, thereby expanding The elastic movement distance D2 (ie, D2>D1) provides higher contact elasticity when the electrical connector 3 is inserted.
請參考第4圖,係顯示一種根據本創作之一第四較佳實施例之電連接器4,其與前述第一較佳實施例之電連接器1不同之處在於:第四較佳實施例之電連接器4之第一組端子30的每一端子皆具有一彈性接觸區300、一彈性支撐區302、數個水平向的固持區304及一垂直向的焊腳區306。因為該彈性支撐區302之前方係連接該彈性接觸區300且於連接該彈性接觸區300之處形成數個彎折3022,且至少其中一彎折3022曝露於該絶緣本體20之對接部24的前末端246,該彈性支撐區302之後方係連接該數個固持區304,該彈性接觸區300係利用其兩側的翼片區(未顯示)抵接於該第一組端子槽道242之上擋塊(未顯示)。於其他實施例中,該彈性接觸區300也可利用翼片區預先受壓於該第一組端子槽道242之上擋塊。藉由從該彈性支撐區302至彈性接觸區300之間構成的力學結構如同形成一可上下移動的彈性懸臂。至於其他部位及元件,因為皆與前述第一實施例相同,在此不再累述。Please refer to FIG. 4, which shows an electrical connector 4 according to a fourth preferred embodiment of the present invention, which is different from the electrical connector 1 of the first preferred embodiment in that: a fourth preferred embodiment Each terminal of the first set of terminals 30 of the electrical connector 4 has an elastic contact zone 300, an elastic support zone 302, a plurality of horizontal retention zones 304 and a vertical solder fillet zone 306. The elastic support region 302 is connected to the elastic contact region 300 in the front and is connected to the elastic contact region 300 to form a plurality of bends 3022, and at least one of the bends 3022 is exposed to the abutting portion 24 of the insulating body 20. The front end portion 246, the elastic support region 302 is connected to the plurality of holding regions 304, and the elastic contact region 300 abuts on the first group of terminal channels 242 by using wing regions (not shown) on both sides thereof. Stop (not shown). In other embodiments, the resilient contact region 300 can also be pre-stressed to the upper stop of the first set of terminal channels 242 by the tab region. The mechanical structure formed between the elastic support region 302 and the elastic contact region 300 is like forming an elastic cantilever that can move up and down. As for other parts and components, since they are the same as the foregoing first embodiment, they will not be described here.
請參考第5圖,係顯示一種根據本創作之一第五較佳實施例之電連接器5,其與前述第四較佳實施例之電連接器4不同之處在於:第五較佳實施例之電連接器5之第一組端子槽道242貫穿絶緣本體20的凹陷部222及第一組端子槽道242下方形成槽壁2422之設計與第四較佳實施例不同,使得第五較佳實施例之電連接器5之第一組端子30可以直接從絶緣本體20之凹陷部222之垂直向壁面2221插入並設置於第一組端子槽道242內。至於其他部位及元件,因為皆與前述第四實施例相同,在此不再累述。Please refer to FIG. 5, which shows an electrical connector 5 according to a fifth preferred embodiment of the present invention, which is different from the electrical connector 4 of the fourth preferred embodiment in that: a fifth preferred embodiment The design of the first group of terminal channels 242 of the electrical connector 5 through the recess 222 of the insulative housing 20 and the formation of the slot wall 2422 under the first set of terminal channels 242 is different from that of the fourth preferred embodiment, so that the fifth comparison is made. The first set of terminals 30 of the electrical connector 5 of the preferred embodiment can be directly inserted into the first set of terminal channels 242 from the vertical wall 2221 of the recess 222 of the insulative housing 20. As for other parts and components, since they are the same as the foregoing fourth embodiment, they will not be described again.
請再參考第6圖,係顯示一種根據本創作之一第六較佳實施例之電連接器6,其與前述第五較佳實施例之電連接器5不同之處在於:第六較佳實施例之第一組端子30還包括從該彈性接觸區300向上沖壓出一彈片區3004,使該彈片區3004與該彈性接觸區 300之間的連接處形成一彎折3009,且該彈片區3004係朝該絶緣本體20之對接面240延伸但未伸出對接面240之外,藉此可加大彈性移動距離D2(即D2>D1),對該電連接器6插接時提供更高的接觸彈性。Referring to FIG. 6, there is shown an electrical connector 6 according to a sixth preferred embodiment of the present invention, which is different from the electrical connector 5 of the fifth preferred embodiment in that: The first set of terminals 30 of the embodiment further includes punching a spring area 3004 upward from the elastic contact area 300, so that the spring area 3004 and the elastic contact area A bend 3009 is formed at the joint between the 300, and the elastic piece 3004 extends toward the abutting surface 240 of the insulating body 20 but does not extend beyond the abutting surface 240, thereby increasing the elastic moving distance D2 (ie, D2). >D1), providing higher contact elasticity when the electrical connector 6 is inserted.
請再參考第7圖,係顯示一種根據本創作之一第七較佳實施例之電連接器7,其與前述第一較佳實施例之電連接器1不同之處在於:第七較佳實施例之第一組端子30之每一端子皆具有一彈性接觸區300及一固定支撐區302’’,其中該固定支撐區302’’與固持區304接近正交連接,且該固定支撐區302’’亦與彈性接觸區300接近正交連接,且使該彈性接觸區300與該固定支撐區302’’之正交連接處形成至少一個彎折3022,且該至少一個彎折3022抵靠於第一組端子槽道242之下擋塊2463。當一對接電連接器電性連接該電連接器7而壓觸到第一組端子30的彈性接觸區300時,該彈性接觸區300會利用其與該固定支撐區302’’之間的連接處(即彎折3022)作為一轉動支點,於該第一組端子槽道242中彈性移動一特定距離D3。但因該第一組端子30的彈性接觸區300兩側之翼片區(未顯示)受制於該第一組端子槽道242之上下擋塊2461,2463之間,該上下擋塊2461,2463限制該第一組端子30的翼片區朝一垂直方向的移動,即限制該第一組端子30的彈性接觸區300的上下彈性移動距離D3,且該下擋塊2463同時限制該第一組端子30的固定支撐區302’’朝一水平方向的移動。Referring to FIG. 7, there is shown an electrical connector 7 according to a seventh preferred embodiment of the present invention, which is different from the electrical connector 1 of the first preferred embodiment in that: seventh preferred Each of the terminals of the first set of terminals 30 of the embodiment has an elastic contact zone 300 and a fixed support zone 302 ′′, wherein the fixed support zone 302 ′′ and the holding zone 304 are nearly orthogonally connected, and the fixed support zone 302'' is also in close orthogonal connection with the elastic contact zone 300, and at least one bend 3022 is formed at an orthogonal connection of the elastic contact zone 300 and the fixed support zone 302", and the at least one bend 3022 abuts The block 2463 is below the first set of terminal channels 242. When a pair of electrical connectors are electrically connected to the electrical connector 7 to press against the elastic contact region 300 of the first set of terminals 30, the resilient contact region 300 utilizes its connection with the fixed support region 302" The portion (ie, the bend 3022) is elastically moved in the first group of terminal channels 242 by a specific distance D3 as a pivot point. However, the fin regions (not shown) on both sides of the elastic contact region 300 of the first group of terminals 30 are constrained between the lower stops 2461, 2463 of the first group of terminal channels 242, and the upper and lower stops 2461, 2463 are limited. The movement of the fin regions of the first group of terminals 30 in a vertical direction, that is, the upper and lower elastic movement distances D3 of the elastic contact regions 300 of the first group of terminals 30 are restricted, and the lower block 2463 simultaneously limits the first group of terminals 30. The fixed support zone 302'' moves toward a horizontal direction.
請再參考第8圖,係顯示一種根據本創作之一第八較佳實施例之電連接器8,其與前述第七較佳實施例之電連接器7不同之處在於:第八較佳實施例之第一組端子30還包括從該彈性接觸區300向上沖壓出一彈片區3004,使該彈片區3004與該彈性接觸區300之間的連接處形成一彎折3009,且該彈片區3004係朝該絶緣本體20之對接面240延伸但未伸出對接面240之外,藉此可加大其彈性移動距離D4(即D4>D3),對該電連接器6插接時可以提供 更高的接觸彈性。Referring to FIG. 8, there is shown an electrical connector 8 according to an eighth preferred embodiment of the present invention, which is different from the electrical connector 7 of the seventh preferred embodiment in that: the eighth preferred The first set of terminals 30 of the embodiment further includes punching a spring area 3004 upwardly from the elastic contact area 300 to form a bend 3009 between the spring area 3004 and the elastic contact area 300, and the spring area is formed. The 3004 extends toward the mating surface 240 of the insulative housing 20 but does not extend beyond the mating surface 240, thereby increasing the elastic moving distance D4 (ie, D4>D3), which can be provided when the electrical connector 6 is inserted. Higher contact elasticity.
根據本創作之另一較佳實施例係提供一種電子裝置如筆記型電腦、平板電腦、手機、數位相機、可攜式儲存裝置等,皆其裝設上述各實施例之電連接器1、2、3、4、5、6、7及8。According to another preferred embodiment of the present invention, an electronic device such as a notebook computer, a tablet computer, a mobile phone, a digital camera, a portable storage device, and the like are provided, and the electrical connectors 1 and 2 of the above embodiments are installed. , 3, 4, 5, 6, 7, and 8.
此外,根據本創作之一第九較佳實施例係提供一種電連接器之組裝方法,為了方便理解,請配合參考第1A至1D圖之第一實施例之電連接器1,該組裝方法包括下列步驟:沿著由前往後之方向,將第一組端子30從該絶緣本體20之前末端246分別裝入數個第一組端子槽道242中,接著該第一組端子30之固持區304固定於該絶緣本體20下方之第一組端子槽道242內,使該第一組端子30的彈性支撐區302位於該第一組端子槽道242內,且該第一組端子30的彈性接觸區300之位置係分布於該對接部24的對接面240上且鄰近該前末端246。此時,該第一組端子30的彈性接觸區300被收容於該第一組端子槽道242之狹縫2465中且彈性接觸區300之兩翼片區3002介於上下擋塊2461,2463之間(如翼片區3002抵接於上擋塊2461下方),且從彈性支撐區302至彈性接觸區300之力學結構如同形成一懸臂樑結構,該彈性支撐區302會提供該彈性接觸區300右側所需之彈性,因此該彈性接觸區300之兩翼片區3002被限制僅能彈性移動於該第一組端子槽道242的兩對上下擋塊2461、2463之間的狹縫2465內,使該第一組端子30的彈性接觸區300不會伸出該對接部24的對接面240之外,且該焊腳區306係經由該座部22之凹陷部222之垂直向壁面2221延伸貫穿出該水平向壁面2223之外;沿著由上往下之方向,將第二組端子40從該絶緣本體20的對接面240上方及座部22上方裝入該絶緣本體20之數個第二組端子槽道244中,接著將該第二組端子40之數個垂直向固持區404及406分別插入並固定於該座部2前方及後方之垂直向第二組端子槽道244中,並使得該第二組端子40的彈性接觸區400伸出該 對接部24的對接面240之外,其中該第一組端子30的彈性接觸區300的分布位置較第二組端子40的彈性接觸區400的分布位置更接近該對接部24的前末端246(如第1B圖所示)。此時,第二組端子30之上表面沿著該第二組端子槽道244之延伸方向曝露於該座部22上方及該對接面240上方,且該焊腳區408係向下延伸貫穿該座部22之凹陷部222之水平向壁面2223之外;將該定位部50相對兩側之一對卡塊54卡設於該絶緣本體20下方的凹陷部222的水平向壁面2223兩側之凹洞(未顯示)中,以將該定位部50裝設於該凹陷部222形成的空間內,此時該定位部50之數個插孔52係供該第一組端子30之焊腳區306及該第二組端子40之焊腳區408貫穿及定位;以及將該絶緣本體20容置於該遮蔽殼體10之收容空間12內,且利用該遮蔽殼體10兩側壁面之卡勾14與該絶緣本體20之座部22左右兩側之槽孔224對應卡固,進而將該遮蔽殼體10套設於該絶緣本體20上。In addition, a ninth preferred embodiment of the present invention provides a method of assembling an electrical connector. For ease of understanding, please refer to the electrical connector 1 of the first embodiment of FIGS. 1A to 1D, the assembly method includes The following steps: loading the first set of terminals 30 from the front end 246 of the insulative housing 20 into the plurality of first set of terminal slots 242 along the direction of the rearward direction, and then holding the area 304 of the first set of terminals 30 The first group of terminal slots 30 are fixed in the first group of terminal channels 242, and the elastic support regions 302 of the first group of terminals 30 are located in the first group of terminal channels 242, and the first group of terminals 30 are in elastic contact. The location of zone 300 is distributed on abutting face 240 of the docking portion 24 adjacent to the front end 246. At this time, the elastic contact region 300 of the first group of terminals 30 is received in the slit 2465 of the first group of terminal channels 242 and the two wing regions 3002 of the elastic contact region 300 are interposed between the upper and lower stops 2461, 2463 ( If the blade region 3002 abuts the lower portion of the upper block 2461, and the mechanical structure from the elastic support region 302 to the elastic contact region 300 is like forming a cantilever beam structure, the elastic support region 302 provides the right side of the elastic contact region 300. Therefore, the two flap regions 3002 of the elastic contact region 300 are restricted to be elastically movable only in the slit 2465 between the two pairs of upper and lower stoppers 2461, 2463 of the first group of terminal channels 242, so that the first group The elastic contact region 300 of the terminal 30 does not extend beyond the abutting surface 240 of the abutting portion 24, and the leg region 306 extends through the vertical wall surface 2221 of the recess portion 222 of the seat portion 22 through the horizontal wall surface. In addition to 2223, a plurality of second sets of terminal channels 244 of the insulative housing 20 are mounted from above the mating face 240 of the insulative housing 20 and above the seat 22 in a direction from top to bottom. And then the plurality of vertical holding regions 404 of the second set of terminals 40 406 are inserted and fixed to the two vertical front and rear of the seat portion to the second set of terminals in the channel 244, so that the resilient contact area and the second set of terminals 40 of the 400 projects In addition to the abutting surface 240 of the abutting portion 24, the distribution position of the elastic contact region 300 of the first group of terminals 30 is closer to the front end portion 246 of the abutting portion 24 than the position of the elastic contact region 400 of the second group of terminals 40 ( As shown in Figure 1B). At this time, the upper surface of the second set of terminals 30 is exposed above the seat portion 22 and above the mating surface 240 along the extending direction of the second set of terminal channels 244, and the solder fillet region 408 extends downwardly through the The horizontal portion of the recessed portion 222 of the seat portion 22 is outside the wall surface 2223; one of the opposite sides of the positioning portion 50 is engaged with the latching block 54 on both sides of the horizontal wall surface 2223 of the recessed portion 222 below the insulative housing 20 In the hole (not shown), the positioning portion 50 is installed in the space formed by the recess portion 222. At this time, the plurality of insertion holes 52 of the positioning portion 50 are for the solder fillet region 306 of the first group of terminals 30. And the soldering leg region 408 of the second set of terminals 40 is penetrated and positioned; and the insulating body 20 is received in the receiving space 12 of the shielding shell 10, and the hooks 14 of the sidewall surfaces of the shielding shell 10 are utilized. The slot 224 of the left and right sides of the seat portion 22 of the insulative housing 20 is correspondingly locked, and the shielding housing 10 is sleeved on the insulative housing 20.
此外,根據本創作之第十較佳實施例係提供一種電連接器之組裝方法。為增進了解,請配合參閱第2圖之第二較佳實施例之電連接器2,第十較佳實施例之組裝方法不同於上述第九較佳實施例之處在於下列步驟:沿著由後往前之方向,將第一組端子30從該絶緣本體20之後末端,亦即凹陷部222之垂直向壁面2221之處(相對前末端246),將第一組端子30分別插入並設置於該第一組端子槽道242中,接著使該第一組端子30之固持區304固定於該絶緣本體20下方之第一組端子槽道242內,且該第一組端子30的彈性接觸區300之位置係分布於該對接部24的對接面240上且鄰近該前末端246。此時,該第一組端子30的彈性接觸區300被收容於該第一組端子槽道242之狹縫2465中且彈性接觸區300之兩翼片區(未顯示)介於第一組端子槽道242內的上下擋塊2461,2463之間,其 中彈性接觸區300與該第二彈性支撐區303’之間連接處形成的至少一彎折3032曝露於該絶緣本體20之對接部24的前末端246,而且除了該第一彈性支撐區302’會提供該彈性接觸區300右側所需之彈性外,因為該第二彈性支撐區303’之下方末端係預先受壓(Preloaded)及抵接於該第一組端子槽道242之槽壁2422的壁面上,所以還可以對該彈性接觸區300之左側提供彈力,藉此從該第一彈性支撐區302’、經由彈性接觸區300至第二彈性支撐區303’之間構成的力學結構如同形成一可上下移動的簡支樑,這使該第一組端子30的彈性接觸區300兩側可以更平穩地彈性移動於該第一組端子槽道242中。至於其他步驟,因為皆與前述第九實施例相同,在此不再累述。Further, a tenth preferred embodiment of the present invention provides a method of assembling an electrical connector. For the sake of understanding, please refer to the electrical connector 2 of the second preferred embodiment of FIG. 2. The assembly method of the tenth preferred embodiment is different from the above-described ninth preferred embodiment in the following steps: In the backward direction, the first set of terminals 30 are inserted and disposed from the rear end of the insulative housing 20, that is, the vertical portion of the recess 222 toward the wall surface 2221 (relative to the front end 246). In the first set of terminal channels 242, the holding area 304 of the first set of terminals 30 is fixed in the first set of terminal channels 242 below the insulative housing 20, and the elastic contact area of the first set of terminals 30 The position of 300 is distributed on the mating face 240 of the docking portion 24 adjacent to the front end 246. At this time, the elastic contact region 300 of the first group of terminals 30 is received in the slit 2465 of the first group of terminal channels 242 and the two wing regions (not shown) of the elastic contact region 300 are interposed between the first group of terminal channels. Between the upper and lower stops 2461, 2463 in 242, At least one bend 3032 formed at the junction between the middle elastic contact zone 300 and the second elastic support zone 303' is exposed to the front end 246 of the abutting portion 24 of the insulative housing 20, and in addition to the first elastic support zone 302' The lower end of the second elastic support region 303' is preloaded and abuts against the groove wall 2422 of the first set of terminal channels 242. On the wall surface, it is also possible to provide an elastic force to the left side of the elastic contact region 300, whereby the mechanical structure formed between the first elastic support region 302' and the elastic contact region 300 to the second elastic support region 303' is formed. A simple beam that can be moved up and down, which enables the two sides of the elastic contact region 300 of the first group of terminals 30 to be more smoothly and elastically moved in the first group of terminal channels 242. As for the other steps, since they are the same as the foregoing ninth embodiment, they will not be described again.
此外,根據本創作之一第十一較佳實施例係提供一種電連接器之組裝方法,為了方便理解,請配合參考第4圖之第四較佳實施例之電連接器4,第十一較佳實施例之組裝方法不同於上述第九較佳實施例之處在於下列步驟:當第一組端子30裝入數個第一組端子槽道242後,該彈性支撐區302與彈性接觸區300之連接處形成的至少一彎折3022係外露於絶緣本體20之前末端246並提供該彈性接觸區300左側所需之彈性。至於其他步驟,因為皆與前述第九實施例相同,在此不再累述。In addition, an eleventh preferred embodiment of the present invention provides a method of assembling an electrical connector. For ease of understanding, please refer to the electrical connector 4 of the fourth preferred embodiment of FIG. The assembly method of the preferred embodiment is different from the above-described ninth preferred embodiment in the following steps: after the first group of terminals 30 are loaded into the plurality of first group of terminal channels 242, the elastic support region 302 and the elastic contact region At least one bend 3022 formed at the junction of 300 is exposed to the front end 246 of the insulative housing 20 and provides the desired elasticity to the left of the resilient contact region 300. As for the other steps, since they are the same as the foregoing ninth embodiment, they will not be described again.
此外,根據本創作之一第十二較佳實施例係提供一種電連接器之組裝方法,為了方便理解,請配合參考第5圖之第五較佳實施例之電連接器5,該第十二較佳實施例之組裝方法不同於上述第十一較佳實施例之處在於下列步驟:沿著由後往前之方向,將第一組端子30從該絶緣本體20之後末端,亦即凹陷部222之垂直向壁面2221之處,將第一組端子30分別插入並設置於該第一組端子槽道242中。至於其他步驟,因為皆與前述第十一實施例相同,在此不再累述。In addition, according to a twelfth preferred embodiment of the present invention, a method of assembling an electrical connector is provided. For ease of understanding, please refer to the electrical connector 5 of the fifth preferred embodiment of FIG. The assembly method of the second preferred embodiment is different from the eleventh preferred embodiment described above in that the first group of terminals 30 are removed from the rear end of the insulative housing 20, that is, recessed, in a direction from the rear to the front. Where the portion 222 is perpendicular to the wall surface 2221, the first set of terminals 30 are respectively inserted and disposed in the first set of terminal channels 242. As for the other steps, since they are the same as the foregoing eleventh embodiment, they will not be described again here.
此外,根據本創作之第十三較佳實施例係提供一種電連接器之組裝方法。為增進了解,請配合參閱第7-8圖之第七及八實施例之電連接器7、8,第十三較佳實施例之組裝方法不同於上述第九較佳實施例之處在於下列步驟:當組裝該第一組端子30至該些第一組端子槽道242時,該固定支撐區302’’固定抵接於該第一組端子槽道之壁面上之下擋塊2463以形成一固定支撐區,並利用該固定支撐區302’’與第一組端子30的彈性接觸區300之一正交連接處如一彎折3022來形成一轉動支點,使該第一組端子30的彈性接觸區300可以彈性移動於該第一組端子槽道242中。至於其他步驟,因為皆與前述第九實施例相同,在此不再累述。Further, according to a thirteenth preferred embodiment of the present invention, a method of assembling an electrical connector is provided. For the sake of understanding, please refer to the electrical connectors 7, 8 of the seventh and eighth embodiments of FIGS. 7-8. The assembly method of the thirteenth preferred embodiment is different from the above-described ninth preferred embodiment in the following points. Step: when the first set of terminals 30 are assembled to the first set of terminal channels 242, the fixed support area 302'' is fixedly abutted against the lower surface of the first set of terminal channels by a stop 2463 to form A fixed support region is formed by using a fixed support region 302'' and an elastic joint region 300 of the first set of terminals 30, such as a bend 3022, to form a pivot point to make the first set of terminals 30 elastic. The contact zone 300 can be resiliently moved into the first set of terminal channels 242. As for the other steps, since they are the same as the foregoing ninth embodiment, they will not be described again.
綜上所述,本創作之電連接器及使用該電連接器之電子裝置,不僅簡化絶緣本體結構以減少模具使用數量來降低製造成本,而且該每一端子結構皆形成一彈性接觸區及至少一彈性/固定支撐區。當一對接電連接器之對應端子電性接觸此彈性接觸區時,該至少一彈性/固定支撐區可以提供較佳的接觸彈性,避免損傷端子結構;以及根據本創作之電連接器之組裝方法,係藉由上述簡化的絶緣本體結構,不僅易於組裝,亦可提昇產品良率,進而降低製造成本。In summary, the electrical connector of the present invention and the electronic device using the same not only simplify the structure of the insulating body to reduce the number of molds used, but also reduce the manufacturing cost, and each of the terminal structures forms an elastic contact area and at least An elastic/fixed support area. When the corresponding terminals of the pair of electrical connectors electrically contact the elastic contact region, the at least one elastic/fixed support region can provide better contact elasticity to avoid damage to the terminal structure; and the assembly method of the electrical connector according to the present invention By the above simplified insulating body structure, not only is it easy to assemble, but also the product yield can be improved, thereby reducing the manufacturing cost.
雖然本創作已用較佳實施例揭露如上,然其並非用以限定本創作,本創作所屬技術領域中具有通常知識者,在不脫離本創作之精神和範圍內,當可作各種之更動與潤飾,因此本創作之保護範圍當視後附之申請專利範圍所界定者為準。Although the present invention has been disclosed in the above preferred embodiments, it is not intended to limit the present invention, and those skilled in the art can make various changes without departing from the spirit and scope of the present invention. Retouching, therefore, the scope of protection of this creation is subject to the definition of the scope of the patent application attached.
1‧‧‧電連接器1‧‧‧Electrical connector
10‧‧‧遮蔽殼體10‧‧‧Shaded housing
12‧‧‧收容空間12‧‧‧ accommodating space
14‧‧‧卡勾14‧‧‧check
20‧‧‧絶緣本體20‧‧‧Insulating body
22‧‧‧座部22‧‧‧
24‧‧‧對接部24‧‧‧Docking Department
30‧‧‧第一組端子30‧‧‧First set of terminals
32‧‧‧第一差動訊號端子32‧‧‧First differential signal terminal
34‧‧‧第二差動訊號端子34‧‧‧Second differential signal terminal
36‧‧‧接地訊號端子36‧‧‧ Grounding signal terminal
40‧‧‧第二組端子40‧‧‧Second group terminal
42‧‧‧第三差動訊號端子42‧‧‧3rd differential signal terminal
44‧‧‧接地訊號端子44‧‧‧ Grounding signal terminal
46‧‧‧電源訊號端子46‧‧‧Power signal terminal
50‧‧‧定位部50‧‧‧ Positioning Department
52‧‧‧插孔52‧‧‧ jack
54‧‧‧卡塊54‧‧‧ card block
222‧‧‧凹陷部222‧‧‧Depression
224‧‧‧槽孔224‧‧‧ slots
240‧‧‧對接面240‧‧‧ docking
242‧‧‧第一組端子槽道242‧‧‧First set of terminal channels
244‧‧‧第二組端子槽道244‧‧‧Second group of terminal channels
246‧‧‧前末端246‧‧‧ front end
300,400‧‧‧彈性接觸區300,400‧‧‧elastic contact zone
302,402‧‧‧彈性支撐區302,402‧‧‧elastic support zone
304,404,406‧‧‧固持區304, 404, 406 ‧ ‧ holding area
306,408‧‧‧焊腳區306, 408‧‧‧ soldering foot area
403‧‧‧第一連接區403‧‧‧First connection area
405‧‧‧第二連接區405‧‧‧Second connection area
2221‧‧‧垂直向壁面2221‧‧‧Vertical wall
2223‧‧‧水平向壁面2223‧‧‧ horizontal wall
3002‧‧‧翼片區3002‧‧‧wing area
3022‧‧‧彎折3022‧‧‧Bend
Claims (15)
Priority Applications (1)
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TW102216189U TWM472337U (en) | 2013-08-28 | 2013-08-28 | Electrical connector and electronic apparatus using the same |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
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TW102216189U TWM472337U (en) | 2013-08-28 | 2013-08-28 | Electrical connector and electronic apparatus using the same |
Publications (1)
Publication Number | Publication Date |
---|---|
TWM472337U true TWM472337U (en) | 2014-02-11 |
Family
ID=50551842
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
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TW102216189U TWM472337U (en) | 2013-08-28 | 2013-08-28 | Electrical connector and electronic apparatus using the same |
Country Status (1)
Country | Link |
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TW (1) | TWM472337U (en) |
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2013
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Legal Events
Date | Code | Title | Description |
---|---|---|---|
MM4K | Annulment or lapse of a utility model due to non-payment of fees |