CN102074824B - 具有整体式壳体的磁性连接器 - Google Patents
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Abstract
本发明涉及具有整体式壳体的磁性连接器。电线包括具有改进外观的插头壳体,并在提供充分阻燃性的同时采用不燃卤素线缆。一个示例提供了一种电线,其包括具有大致整体式主体的线缆插头。另一示例提供了一种利用不含卤素材料形成的电线。为了提供足够的阻燃性,使用了应用多种材料而形成的应力消除构件。
Description
技术领域
本发明涉及具有整体式(unitary)壳体的磁性连接器。
背景技术
在过去数年,便携式电子装置越来越受到欢迎。膝上电脑及上网电脑、移动电话以及便携式媒体装置等已经广为普及,不久笔记本式运算装置以及平板式计算装置也将如此。
这些装置包括供电的电池。不巧的是,这些电池需要被再次充电。通常利用电线来进行上述再次充电,电线具有与便携装置上的连接器插座相匹配的连接器插件或线缆插头。可由从墙壁电源插座、车载充电插座或其他电源接收电力的电力变压器来供电。电力变压器将来自电源插座的电力转换为可用于对便携装置中的电池进行充电的功率电平。在一些情况下,这些电线也可在便携装置与第二电子装置之间传递信号。
连接器插件或线缆插头可包括插头壳体内的电路系统。通常利用电路系统周围装配在一起的数个零件来形成插头壳体。上述用于形成插头壳体而对零件进行的组装会导致壳体不能具有最佳的外观。
线缆可包括由绝缘层包围的导体。该导体可被用于传递电力供应,例如正电源电压。绝缘层还可被用于接地的金属编织层包围。编织物可由聚氯乙烯涂层覆盖。该涂层提供了阻燃性,以在电力变压器过热或着火时保护电子装置。但是,由于各种原因,考虑到保护环境,不希望使用诸如聚氯乙烯的材料。不巧的是,不含卤素(halogen-free)的线缆不能提供足够的阻燃性。
因此,需要改进的电线,其具有使得外观得以改进的插头壳体,并在提供足够阻燃性的同时采用了不含卤素的线缆。
发明内容
因此,本发明的实施例提供了电线,其包括具有改进外观的线缆插头壳体,并在提供足够阻燃性的同时采用了不含卤素的线缆。
本发明的具体实施例提供了一种电线组件,其包括线缆插头或连接器插件,其具有整体式(由单一零件制成)或大体上整体式的主体。该主体提供了改进的外观,更高的强度以及耐用性,并且易于以低成本进行制造。线缆插头可容纳电线并可提供用于电力传输的端子。该壳体可以大体上为整体式,换言之,可主要由单一材料件来制造该壳体。可利用诸如铝的金属来形成单一材料件。该单一材料件可替代地利用塑料、陶瓷或其他材料形成。该单一件可大致为圆柱形,或者其可具有其他形状,例如椭圆形、方形或其他形状或形状的组合。
端子或触点可以从线缆插头壳体伸出,并可由与电子装置上的连接器插座匹配的突起保护。在本发明的各种实施例中,突起是磁性元件,其被吸引至连接器插座中的第二磁性元件。这些磁性元件可以是磁体、吸引板或其他类型的磁性元件,例如电磁体。吸引板可利用铁磁材料形成。在本发明的具体实施例中,连接器插件突起可包括被吸引至位于连接器插座中的磁性元件的吸引板。
本发明的另一具体实施例提供了利用不含卤素材料形成的电线。为了提供足够的阻燃性,使用了利用多种材料形成的应力消除构件。该应力消除构件可提供线缆与壳体(例如,包围电力变压器的壳体)之间的接口。应力消除构件可包括利用刚性阻燃材料形成的第一内部部分。阻燃材料可以是聚碳酸酯、聚碳酸酯ABS(PC/ABS)混合物或其他合适的材料。应力消除构件可包括利用柔性材料形成的第二外部部分。该材料可以是热塑弹性体(TPE)、氟化乙丙烯(FEP)或其他合适材料。
本发明的各种实施例可包括这里描述的这些特征及其他特征中的一个或更多。可通过参考以下说明及附图来而本发明的特征及优点有更好的理解。
附图说明
图1示出了根据本发明的实施例的电线组件;
图2示出了根据本发明的实施例的线缆插头;
图3示出了根据本发明的实施例可用于形成线缆插头的部件;
图4示出了根据本发明的实施例的线缆插头的一部分的侧视图;
图5示出了根据本发明的实施例的应力消除构件的部分;而
图6示出了根据本发明的实施例的应力消除构件。
具体实施方式
图1示出了根据本发明的实施例的电线组件100。与其他附图类似,图1所示仅是示例性质,而不应对本发明的可行实施例或权利要求构成限制。
可以使用电线组件100来对诸如膝上电脑、上网本、笔记本电脑、平板电脑、媒体播放器、便携式媒体播放器、移动电话的电子装置或其他类型的电子装置供电。也可使用电线组件100来在上述装置之间传输信号。电线组件100可包括经由线缆150连接在一起的线缆插头105以及应力消除构件140。
线缆插头105可与兼容连接器插座(未示出)匹配。线缆插头105可包括壳体110、吸引板125以及应力消除构件115。壳体110也可是整体式或实质上整体式。该整体式结构可使线缆插头105具有改善的外观、提高的强度以及减小的制造成本。可利用诸如铝的金属、塑料、陶瓷或其他材料来形成壳体110。
吸引板125可形成在端子130周围。吸引板125可具有对称的两条轴线,由此允许线缆插头105在至少两个取向上与兼容连接器插座匹配。吸引板125可由金属、塑料、陶瓷或其他材料形成。例如,可利用铁磁性材料来制造吸引板。
防尘罩(未示出)可覆盖吸引板125的侧面以及端子130。可利用金属、塑料、陶瓷或其他材料来形成防尘罩。例如,其可由透明塑料形成。防尘罩可形成密封件,由此在运输电线组件100的情况下减少或消除进入壳体110的灰尘颗粒量。为了防止防尘罩松脱,可通过绳带、软线、钢丝或其他紧固方式来将防尘罩安装至电线组件100。
端子130也可被称为信号端子或销,可包括用于信号及供电的端子,例如电力端子及接地端子。线缆插头105可包括五个这样的端子,但在本发明的其他实施例中,也可采用其他数量的端子。例如,可采用三个端子。在本发明的其他实施例中,可采用一个或更多用于光纤线缆的端子。中心销可以是检测销,其检测线缆插头105已经与兼容连接器插座匹配。两个接地销可以位于检测销两侧。两个供电销可以布置在检测销两侧,位于检测销与接地销之间。可替代地,接地销可布置在供电销与检测销之间。端子可以是可缩回式,换言之,其例如可由弹簧偏压。
线缆插头105可包括应力消除构件115。应力消除构件115可由柔性材料形成。例如,其可由不含卤素的材料制成。在本发明的具体实施例中,其可利用热塑弹性体、氟化乙丙烯或其他合适的材料形成。
应力消除构件140及电缆152可形成引出端(pigtail),引出端可用于将电线组件100连接至电源。例如,引出端可容纳在包括电力变压器或其他电路系统的外壳内。例如,外壳可具有电力插脚或其他连接件,以从墙壁插座、车载电源插座或其他电源接收电力。壳体内的电路系统可将接收到的电力转换为适用于待充电电子装置的功率电平。电缆152可连接至这种电力转换电路系统,例如将AC电力转换为DC电力的电力变压器。可替代地,电缆152可连接至将第一DC电源转换为第DC电源的电力转换电路系统。壳体还可包括有线或无线数据通信装置以及其他电子电路。电缆152可包括用于这些电路的其他连接件。
应力消除构件140可包括内部部分145以及外部部分147。内部部分145可位于壳体(未示出)内,该壳体还可包括电力变压器或其他电子部件。外部部分147可位于该壳体之外。可利用诸如聚碳酸酯或聚碳酸酯ABS混合物的硬质塑料或其他合适的材料来形成内部部分145以具有阻燃性。可利用诸如热塑弹性体或氟化乙丙烯的更柔软材料或其他合适的材料来形成外部部分147。
应力消除构件140可在线缆150与壳体之间提供接口。应力消除构件140可允许线缆150相对于壳体弯曲或移动,使得线缆150不会过度磨损。应力消除构件115可类似地在其与线缆150的接口处保护线缆150。
线缆150可形成为具有由金属编织体包围的内部导体。该内部导体可用于传输电力,同时编织体可用于接地。在内部导体与编织体之间,以及编织体周围线缆外侧,可具有隔离层。线缆150可由不含卤素的材料制成。例如,可利用热塑弹性体、氟化乙丙烯或其他合适的材料来形成线缆150。线缆150可包括用于传输信号的其他导体,例如,由有线或无线数据通信装置或位于包括电力变压器或转换电路系统的壳体内的其他电子电路提供的导体。线缆150还可包括一个或更多光纤线缆。
此外,还希望提供一种线缆插头105,其拥有具有吸引力的外观,并且耐用及易于制造。因此,本发明的实施例提供了一种具有整体式或大体上整体式壳体的线缆插头105。以下附图中给出示例。
图2示出了根据本发明的实施例的线缆插头205。线缆插头205也可被称为连接器插件。线缆插头205可包括壳体210、吸引板225、端子230以及应力消除构件215。线缆250可安装至线缆插头205。吸引板225可保护端子230,并可被磁性地吸引至位于兼容连接器插座内的磁体。可以利用防尘罩(未示出)来在运输线缆组件时防止微粒杂质进入壳体210。壳体210还可包括发光二极管(LED)出口212。出口212可允许来自壳体210内的LED的光出射。在本发明的特定实施例中,发亮的LED可表明在线缆插头205与兼容插座(未示出)之间已经建立了电连接。
壳体210可以是整体式,但在本发明的其他实施例中,其也可为大体上整体式。在本示例中,壳体210是圆柱形,但在本发明的其他实施例中,壳体210也可具有其他形状。壳体210要拥有具有吸引力的外观,并且耐用且易于制造。壳体210可由金属、塑料或陶瓷制成,或可利用其他材料来形成。在本发明的具体实施例中,壳体210由铝制成。
吸引板225可具有两条对称轴线,由此允许线缆插头205在至少两个取向上与兼容连接器插座匹配。吸引板可以由金属制成,使得其被吸引至连接器插座内的磁体。这些磁体可具有相反的极性,使得起源于一个磁体中的磁场线穿过吸引板225并终止在第二个磁体中。例如可利用铁磁材料来形成吸引板225。在本发明的其他实施例中,可利用一个或更多诸如稀土磁体或电磁体的磁体来形成吸引板225。
可布置防尘罩(未示出)来覆盖吸引板225及端子230。可利用金属、塑料、陶瓷或其他材料来形成防尘罩。例如,可由透明塑料来制成防尘罩。该透明塑料可被着色以拥有使人愉快的外观。
端子230可以是pogo销或其他类型的端子。端子230可包括中心端子。该中心端子可以是检测销。可替代地,其可以是光纤连接件、信号销或其他类型的端子、信号端子或销。中心销两侧的两个端子230可传输正电力,但其也可替代地接地。两个外侧端子230可接地,但其也可替代地传输正电力。端子230通常为金属制成,使之导电。可利用黄铜、红铜或其他金属来形成端子230。
应力消除构件215可保护线缆250以防过度磨损,否则在线缆250相对于壳体210运动或弯曲时会在与壳体210的接口处产生磨损。可利用诸如热塑弹性体或氟化乙丙烯的柔性材料或其他合适的材料来形成应力消除构件215。
此外,希望线缆插头205强度高并易于制造。在以下附图中示出了根据本发明的实施例可用于构造线缆插头205的部件的示例。
图3示出了根据本发明的实施例可用于构造线缆插头305的部件。线缆插头305可包括壳体310、应力消除构件315、线缆350、卷曲环355、组件340、端子330及332、前侧板335、吸引板325、防尘罩320、电路板360、LED 365、导光管370以及隔光件380。
壳体310可包括LED出口312。LED出口312可以是实际的孔洞,或者其也可以是多个微小的穿孔。在本发明的具体实施例中,这些穿孔的尺寸可以是0.03mm的量级。在这种尺寸的情况下,除非光穿过,否则单个的穿孔是不可见的。此外,壳体310可以由诸如铝的金属、塑料或陶瓷制成,或可由其他材料制成。
应力消除构件315可容纳线缆350。应力消除构件315可以具有柔性,并在使用过程中在线缆350相对于壳体310运动时可防止壳体310磨损线缆350。应力消除构件315可由柔性材料制成,例如热塑弹性体、氟化乙丙烯或其他柔性材料。
线缆350穿过应力消除构件315。线缆350可包括用于提供正电力的中心导体。线缆350可包括其他导体、光纤线缆或其他信号或电力导通体。中心导体可受到绝缘,并被金属编织体包围。金属编织体可用于接地。金属编织体也可进一步受到绝缘。本发明的各种不同实施例均使用了不含卤素的涂层或护套,例如利用热塑弹性体或其他合适材料形成的涂层。
卷曲环355可使线缆350卷曲。卷曲环355可由金属或塑料形成,或利用其他材料形成。卷曲环355可防止线缆350因使用时产生的应力而开裂。卷曲环355还可消除应力。在本发明的各种不同实施例中,卷曲环355可机械地和(或)电气地连接至线缆350的金属编织体、组件340、端子345或电路板360的任意一者或全部。
组件340可在端子345处安装至线缆350。例如,线缆350的内部导体及编织体可在端子345处安装至组件340。端子345可位于组件340的一部分的两侧。组件340可利用绝缘材料形成,从而形成绝缘壳体。端子345可连接至组件340内部的导电引线,而该导电引线可传输电力及接地。组件340可大致由围绕这些导电引线形成的塑料制成。组件340还可包括金属片342,金属片可耦合至这些导电引线中一者(例如,接地的导电引线)或者是其延伸部。金属片342可接触壳体310,或极为接近壳体310。当壳体310由金属制成时,上述接触或极为接近的情况会提供从壳体310至地的放电路径。由此例如在使用者接触壳体310时可保护线缆插头405以避免静电放电(ESD)。
端子330及332可装配在组件340中的通道内。端子330可用于供电及接地。例如,内侧端子330可提供正电力,而外侧端子330可提供接地。通道可至少部分地由供电及接地的导电引线形成,使得在端子330被插入组件340中的通道内时形成至销的电力及接地连接。端子330可以是pogo销或其他类型的销。例如,其可以是导体壳体内部的金属销。弹簧或其他偏压机构可被布置在壳体内,使得销保持伸出状态直至线缆插头305与兼容连接器插座匹配。当发生上述匹配时,销可被推回或收回进入壳体310。端子332可以是直销,其在线缆插头305与兼容连接器插座匹配时被推入检测器电路,但在本发明的其他实施例中,端子332也可以是pogo销或其他受到弹性偏压的端子。
当观察到线缆插头305的端子部分时,前侧板335可被用于提供具有吸引力的外观。前侧板335可由塑料或其他材料制成,并可被形成为具有希望的颜色。例如,该颜色可与线缆350、壳体310或其他部件的颜色相配。
吸引板325可磁性地吸引至兼容连接器插座内的磁体。例如,磁场线可起源于兼容连接器插座内的第一磁体中,穿过吸引板325,并终止在兼容连接器插座内的第二磁体中。可利用铁磁金属或其他材料来形成吸引板325。在本发明的其他实施例中,可利用一个或更多磁体来形成吸引板325。
防尘罩320可在运输线缆组件过程中或在线缆插头305未被插入兼容连接器插座的其他时间覆盖吸引板325,由此为线缆插头305提供改进的外观。防尘罩320可由金属、塑料、陶瓷或其他材料制成。例如,防尘罩320可由透明塑料形成。防尘罩320也可减少或防止灰尘或其他微粒杂质通过壳体310与吸引板325之间的缝隙进入壳体310。为了帮助使用者避免防尘罩320遗失,可利用软线、绳带、钢丝或其他紧固方式将防尘罩320安装至线缆组件。
电路板360可装配在组件340周围。电路板360可以是印刷电路板,柔性电路板或其他合适的电路板。电路板360可包括可由接触检测销332激发的检测电路系统。端子330及332可以焊接至电路板360。电路板360可被粘合或以其他方式紧固至组件340。
LED 365可布置在电路板360上。LED 365可在接触检测销332被推动时发亮,由此表明线缆插头305经与兼容连接器插座匹配。
导光管370可对来自LED 365的光进行引导。导光管370可由透明材料制成。导光管可以被着色,由此可使由LED 365发出的光被有趣地或信息性地着色。导光管370可紧固至壳体310的内部。
隔光件380可被用于防止杂散光照亮出口312。否则例如防尘罩320与壳体310之间的光会照亮出口312,由此错误地表明线缆插头305与兼容连接器插座之间的电气连接。可利用泡沫或其他不透明材料来形成隔光件380。隔光件380可被紧固至导光管370、壳体310、电路板360、LED365或其他合适的位置。
在本发明的具体实施例中,在组装过程中,线缆350可被插入通过壳体310,使得电路板360出现在壳体310中由端子330使用的开口处。应力消除构件315及卷曲环355可被应用至线缆350。线缆350的中心导体及金属编织体可被焊接至端子345。端子330及332可被装配在组件340中的通道内。包括LED 365的电路板360可被焊接至端子330及332并被紧固至组件340。可以安装前侧板335及吸引板325。随着线缆350被拉动远离壳体310,该组件可通过壳体310中的开口进行装配。线缆350被拉动的程度取决于制造固定卡具。为了便于应力消除构件315通过壳体310,可以使用胶。此胶可在应力消除构件315穿过壳体310时提供润滑。当干燥以相对于壳体310将应力消除构件315及线缆350固定到位时,此胶还可以起粘合剂的作用。防尘罩320可被布置在吸引板325以及端子330及332上方。
在本发明的另一实施例中,在组件340及其连接部件通过壳体310中的开口被装配之后,安装前侧板335及吸引板325中一者或更多。线缆350可被插入通过壳体310,使得线缆350出现在壳体310中由端子330使用的开口处。应力消除构件315及卷曲环355可被应用至线缆350。线缆350的中心导体及金属编织体可被焊接至端子345。端子330及332可被装配在组件340中。包括LED 365的电路板360可被焊接至端子330及332,并被紧固至组件340。可以在此时安装前侧板335,或可以随后将其与吸引板325进行安装。或替代地,可以在此时安装前侧板335及吸引板325,或者可随后对两者进行安装。然后随着线缆350被拉动远离壳体310,该组件可通过壳体310中的开口进行装配。线缆350被拉动的程度取决于制造卡具。为了便于应力消除构件315通过壳体310,可以使用胶。此胶可在应力消除构件315穿过壳体310时提供润滑。当干燥以相对于壳体310将应力消除构件315及线缆350固定到位时,此胶还可以起粘合剂的作用。如果需要,则可以在此时安装吸引板325及前侧板335。防尘罩320可被布置在吸引板325以及端子330及332上方。
在本发明的另一实施例中,在装配过程中,线缆及连接部件可被装配在壳体310的端部内。应力消除构件315及卷曲环355可被应用至线缆350。线缆350的中心导体及金属编织体可被焊接至端子345。端子330及332可被装配在组件340中。包括LED 365的电路板360可被焊接至端子330及332并被紧固至组件340。端子330及332可以缩回,并且组件340及其连接部件装配在壳体310的端部内。可在插入之前或之后安装前侧板335及吸引板325。此外,在应力消除构件315被插入壳体310时,可以使用胶作为润滑剂。防尘罩320可被布置在吸引板325以及端子330及332上方。
此外,在装配过程中,可以将导光管370固定至壳体310。可以包括隔光件380以减少从出口312发出的杂散光的量。在附图中示出了该结构的示例。
图4示出了根据本发明的实施例的线缆插头405的一部分的侧视图。线缆插头405可包括具有开口或出口412的壳体410。当线缆插头405与兼容连接器插座(未示出)匹配时,可从出口412发出来自LED 465的光。具体而言,来自LED 465的光可由LED壳体467被导向导光管470。导光管470可导引光通过开口或出口412。隔光件480可防止壳体410内的杂散光发射通过出口412。例如,光会在壳体410与吸引板420之间渗出,从而看起来会错误地表明已经在线缆插头405与兼容连接器插座之间建立了连接。
可能会希望将第二导光管布置在出口412内。如果这样作,则还希望第二导光管与壳体410的表面齐平,从而减小或消除第二导光管与壳体410之间的任何脊或突起。
因此,在本发明的具体实施例中,使用粘合剂来在壳体410中的出口412内形成第二导光管。粘合剂可被布置在出口412内。该粘合剂可受到光固化。光可被施加至壳体410内部以使粘合剂固化。也可类似地将气流施加至壳体410内部,从而在其固化时将粘合剂推出出口412。然后可从壳体410外部擦去多余的粘合剂,由此使粘合剂的表面与壳体410的外部齐平。导光管470可被安装至由粘合剂形成的这些第二导光管。
此外,希望使用不含卤素材料来制造在这些电线组件中使用的电缆。卤素常常被使用,因为其提供了具有阻燃性的柔性线缆。不巧的是,用于不含卤素电缆的材料自身不具有阻燃性。此外,添加阻燃化学物质会导致不含卤素的线缆较脆,因此并不适用。因此,本发明的各种实施例均提供了具有阻燃性并且不含卤素的应力消除构件。附图中给出了示例。
图5示出了根据本发明的实施例的应力消除构件500的一部分。应力消除构件500包括内部部分510及外部部分520。电缆516穿过内部部分510。内部部分510可由单件材料形成或模制而成。该材料可以是硬质塑料,例如聚碳酸酯或聚碳酸酯ABS混合物,或其他合适的材料。由此可提供阻燃性,保护正在被充电的电子装置。
应力消除构件500的外部部分520可在额外的模制步骤中形成。这类模制方法可被称为两次注射(double-shot)工艺。线缆526穿过外部部分520。外部部分520可形成在内部部分510的突起或键512周围,以提供内部部分510与外部部分520之间的牢固配合。键512可具有突起,使得外部部分520不会相对于内部部分510旋转。外部部分520可由诸如热塑弹性性或氟化乙丙烯的柔性材料制成,或由其他合适的材料制成。外部部分520可在其与应力消除构件500及壳体的接口位于提供保护线缆526以防止过度磨损所需的柔性。
外部部分520可被布置在壳体中。该壳体可包围电力变压器或转换器,有线或无线的数据或通信电路系统,或其他类型的电子电路系统。可以使外部部分520的颜色与壳体或线缆的颜色相配。
在本发明的其他实施例中,可利用三步处理工艺来形成应力消除构件500。在这些实施例中,额外的步骤是覆盖线缆526及516的第一个模制步骤。后两个步骤提供了内部部分510及外部部分520的其他部分。在本发明的各种实施例中,线缆526及516均可以是一根线缆,或可以是多根线缆。
图6示出了根据本发明的实施例的应力消除构件600。应力消除构件600包括内部部分610及外部部分620。内部部分610可提供阻燃性,而外部部分620可提供柔性应力消除构件。由虚线所示的壳体的侧面可装配在缝隙或槽628中。此外,壳体可容纳变压器,数据通信电路系统及其他类型的电子电路系统。
已经为了示例及描述的目的对本发明进行了以上说明。并不意在使本发明受限于描述的具体形式,着眼于以上说明,可以进行各种改变及修改。选择并描述了这些实施例以最好地说明本发明的原理及其实际应用,由此使得本领域的技术人员能够最好地使用各种实施例中的发明,并根据构思出的实际应用来进行各种不同的改变。因此,应当理解的是,本发明意在涵盖所附权利要求范围内的全部改变示例及等同替代形式。
Claims (8)
1.一种线缆插头,包括:
应力消除构件,其允许线缆通过;
组件,其包括不导电的绝缘壳体以及电力导体和接地导体,所述组件还包括通道,这些通道连接至所述导体;
多个端子销,其位于所述组件中的通道内,并具有延伸超出所述组件的接触部分,使得可与兼容连接器插座中的相对端子实现接触;
电路板,其固定至所述组件及端子销;
发光二极管,其固定至所述电路板;
吸引板,其位于所述端子销的所述接触部分周围;以及
圆柱形整体式壳体,其由单一材料件制成并且具有用于线缆的第一开口和用于吸引板的第二开口,所述吸引板和圆柱形整体式壳体包围所述组件、多个端子销、电路板以及发光二极管。
2.根据权利要求1所述的线缆插头,其中,所述组件还包括从所述接地导体的端部形成的金属片。
3.根据权利要求1所述的线缆插头,其中,所述端子销包括弹簧偏置的销。
4.根据权利要求1所述的线缆插头,其中,所述端子销包括中心销、两个接地端子销以及两个电源端子销。
5.根据权利要求4所述的线缆插头,其中,所述电源端子销位于所述中心销的每一侧,并且所述接地端子销位于所述电源销远离所述中心销的每一侧。
6.根据权利要求1所述的线缆插头,还包括位于所述吸引板上方的防尘罩。
7.根据权利要求6所述的线缆插头,还包括位于所述线缆插头的前部与所述组件之间的前侧板。
8.根据权利要求1所述的线缆插头,还包括位于所述壳体内的出口孔,其中,所述出口孔填充有粘合剂。
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US8535088B2 (en) | 2013-09-17 |
CN103915709A (zh) | 2014-07-09 |
CN102074824A (zh) | 2011-05-25 |
BR112012009096A2 (pt) | 2016-05-03 |
US20160190732A1 (en) | 2016-06-30 |
WO2011049838A1 (en) | 2011-04-28 |
EP2486629A1 (en) | 2012-08-15 |
US9923301B2 (en) | 2018-03-20 |
KR20120134156A (ko) | 2012-12-11 |
US20110092081A1 (en) | 2011-04-21 |
KR101720148B1 (ko) | 2017-03-27 |
US20140179126A1 (en) | 2014-06-26 |
KR101428896B1 (ko) | 2014-08-08 |
US9281612B2 (en) | 2016-03-08 |
HK1158383A1 (zh) | 2012-07-13 |
CN201985281U (zh) | 2011-09-21 |
TW201140952A (en) | 2011-11-16 |
TW201320495A (zh) | 2013-05-16 |
CN103915709B (zh) | 2018-05-15 |
KR20120087953A (ko) | 2012-08-07 |
TWI454000B (zh) | 2014-09-21 |
TWI455413B (zh) | 2014-10-01 |
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