| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 薄型键盘 | CN200680004195.0 | 2006-02-07 | CN101116161B | 2012-03-28 | 釼持芳雄 |
| 本发明的目的在于,由于对便携式电话机的设计性的重视而有薄型化的趋势,因此,为响应该要求,使键盘部分极力薄型化。本发明提供一种薄型键盘(1),其具有:在表面或背面形成表示键的功能的字符、记号、图形等显示标记的金属制或树脂制的键顶(2);支承固定该键顶并由硅酮橡胶和各种弹性体等具有橡胶弹性的材料构成的键座(3);在所述键顶的背面通过印刷而形成的EL元件(8);以及印制电路板(5),该印制电路板(5)在表面配设有通过对所述键顶(2)进行按压而进行电路的闭合、关断的开关要素(4),并形成有与此开关要素相关的电路图案。 | ||||||
| 2 | 薄型键盘 | CN200680004195.0 | 2006-02-07 | CN101116161A | 2008-01-30 | 釼持芳雄 |
| 本发明的目的在于,由于对便携式电话机的设计性的重视而有薄型化的趋势,因此,为响应该要求,使键盘部分极力薄型化。本发明提供一种薄型键盘(1),其具有:在表面或背面形成表示键的功能的字符、记号、图形等显示标记的金属制或树脂制的键顶(2);支承固定该键顶并由硅酮橡胶和各种弹性体等具有橡胶弹性的材料构成的键座(3);在所述键顶的背面通过印刷而形成的EL元件(8);以及印制电路板(5),该印制电路板(5)在表面配设有通过对所述键顶(2)进行按压而进行电路的闭合、关断的开关要素(4),并形成有与此开关要素相关的电路图案。 | ||||||
| 3 | 按钮开关及其制造方法 | CN98109628.X | 1998-05-28 | CN1107328C | 2003-04-30 | 相见满夫 |
| 一种连接件(14)由一组以侧面看时的X形装配成的框体(15,16)组成以使它们可相互摆动。一底板件(13)设置成支承连接件(14)。至少连接件(14)和底板件(13)之一是一个设置在键顶件(17)和相对的开关件(12)之间的弹性件。通过弹性件获得一个回弹力使键顶件(17)和连接件(14)回复其原始位置。这样,可减少树脂零件的数目。可提供一种成本合理以及尺寸低或短的按钮开关。 | ||||||
| 4 | 具有由导电性炭黑路制造成的触头的装置和生产该触头方法 | CN02141899.3 | 2002-07-23 | CN1400856A | 2003-03-05 | H·法里宗; J·-M·格里尼 |
| 该装置具有一个印刷电路板(10)和由导电性炭黑路制造成的触头。该导电性炭黑路(52,44)利用沉积在该印刷电路板上的绝缘层(54,42)被设置在该印刷电路板上(10)。应用:用于移动电话的袖珍键盘的生产。 | ||||||
| 5 | 电子设备显示窗的带触摸输入功能的保护面板 | CN200780040952.4 | 2007-11-01 | CN101535932B | 2012-02-08 | 西川和宏; 甲斐义宏; 中村一登 |
| 可以抑制导线连接部的电气特性或外观品质的下降的电子设备显示窗的带触摸输入功能的保护面板,包括:可弯性的上部电极板与非可弯性的下部电极板互相将电极面置于内侧并设置规定的间隙相对配置、各电极板的外周部通过绝缘性的粘接层粘贴而成的触摸面板;具有透明窗部、粘贴在所述上部电极板的表面的装饰薄膜;以及通过插入设置在所述下部电极板的多个贯穿孔的各金属销、从所述电极板的电极端提取电信号的带销的导线,其特征是,在所述上部电极板及所述下部电极板的至少任意一个电极板的电极端,形成含有橡胶类粘合剂的导电性粘接剂层,作为注入所述各贯穿孔内的导电性粘接剂的基底。 | ||||||
| 6 | 触摸屏的导线连接方法 | CN200680001962.2 | 2006-01-16 | CN101103657B | 2010-09-15 | 西川和宏; 甲斐义宏; 中村一登 |
| 提供一种将导线连接在触摸屏上的触摸屏的导线连接方法,其特征在于,在下部电极板(3)上穿设与电极端数对应数量的贯通孔(9a~9d),使用具有销轴部(11b)和直径大于该销轴部的外径的圆板状头部(11a)的金属销(11),将该销轴部(11b)贯穿于导线(10)的连接侧端部的电路(10c)的对应于贯通孔(9a)形成的各金属销固定孔内,从而将销轴部(11b)立设于导线(10)的连接侧端部,将各销轴部(11b~14b)分别插入所述贯通孔(9a~9d)中,且插入下部电极板(3)内的销轴部与电极端(6c、7c、6d、7d)通过导电粘合剂(15)电性连接。 | ||||||
| 7 | 电子设备显示窗的带触摸输入功能的保护面板 | CN200780040952.4 | 2007-11-01 | CN101535932A | 2009-09-16 | 西川和宏; 甲斐义宏; 中村一登 |
| 可以抑制导线连接部的电气特性或外观品质的下降的电子设备显示窗的带触摸输入功能的保护面板,包括:可弯性的上部电极板与非可弯性的下部电极板互相将电极面置于内侧并设置规定的间隙相对配置、各电极板的外周部通过绝缘性的粘接层粘贴而成的触摸面板;具有透明窗部、粘贴在所述上部电极板的表面的装饰薄膜;以及通过插入设置在所述下部电极板的多个贯穿孔的各金属销、从所述电极板的电极端提取电信号的带销的导线,其特征是,在所述上部电极板及所述下部电极板的至少任意一个电极板的电极端,形成含有橡胶类粘合剂的导电性粘接剂层,作为注入所述各贯穿孔内的导电性粘接剂的基底。 | ||||||
| 8 | 按钮开关及其制造方法 | CN98109628.X | 1998-05-28 | CN1201244A | 1998-12-09 | 相见满夫 |
| 一种连接件(14)由一组以侧面看时的X形装配成的框体(15,16)组成以使它们可相互摆动。一底板件(13)设置成支承连接件(14)。至少连接件(14)和底板件(13)之一是一个设置在键顶件(17)和相对的开关件(12)之间的弹性件。通过弹性件获得一个回弹力使键顶件(17)和连接件(14)回复其原始位置。这样,可减少树脂零件的数目。可提供一种成本合理以及尺寸低或短的按钮开关。 | ||||||
| 9 | 输入装置及其输入装置用模块制品的制造方法 | CN200810125438.7 | 2008-06-13 | CN101324817B | 2011-12-14 | 立畠直树 |
| 本发明涉及一种输入装置,其含有具备固定触点的配线基板和配设在配线基板之上的模块制品。模块制品以一体化方式形成操作键部、可动触点、缓冲用部件和突起部。可动触点配设在操作键部的下方位置,通过来自操作键部的按压输入操作而可动。缓冲用部件是操作键部的下面和具有可动触点的可动触点保持部的上面之间在按压输入操作时能够收缩并在非操作状态下高度尺寸一致的部件。突起部按压可动触点的中心位置之上。本发明的输入装置通过可动触点和固定触点来构成开关部,通过来自操作键部的按压输入操作来使开关部动作。另外,操作键部也可以是通过由操作者手指的移动而产生的静电电容的变化来形成坐标输入的坐标输入操作部。 | ||||||
| 10 | 用于制造层状盖、层状保护层和层状电子设备的方法 | CN200680020993.2 | 2006-05-03 | CN101199249B | 2011-02-23 | R·瓦唐帕拉斯特; M·阿尔拉斯; S·O·邓福德; 藤井贵晴; J·莱诺南; J·努西艾南; J·I·朗塔拉; P·唐斯卡南; 山本哲也 |
| 提供了一种方法,该方法用于制造一种电子功能结构性组件,该组件适合将多个电子功能集成到层状盖、层和/或层状组件中,用于保护、支撑和/或形成完整的电子设备(诸如多媒体设备)。该方法包括层压布置有与多媒体设备通信的电子组件或电子功能层的多个结构性和/或保护性的层,从而形成支撑性和电子功能层、盖、保护层和/或电子设备。因此,所提供的制造方法允许在销售场所或其他定制场所向多媒体设备或的其他设备具有成本效益地增加薄且轻的功能性、保护性和/或装饰性的层。 | ||||||
| 11 | 输入装置及其输入装置用模块制品的制造方法 | CN200810125438.7 | 2008-06-13 | CN101324817A | 2008-12-17 | 立畠直树 |
| 本发明涉及一种输入装置,其含有具备固定触点的配线基板和配设在配线基板之上的模块制品。模块制品以一体化方式形成操作键部、可动触点、缓冲用部件和突起部。可动触点配设在操作键部的下方位置,通过来自操作键部的按压输入操作而可动。缓冲用部件是操作键部的下面和具有可动触点的可动触点保持部的上面之间在按压输入操作时能够收缩并在非操作状态下高度尺寸一致的部件。突起部按压可动触点的中心位置之上。本发明的输入装置通过可动触点和固定触点来构成开关部,通过来自操作键部的按压输入操作来使开关部动作。另外,操作键部也可以是通过由操作者手指的移动而产生的静电电容的变化来形成坐标输入的坐标输入操作部。 | ||||||
| 12 | 用于制造层状盖、层状保护层和层状电子设备的方法 | CN200680020993.2 | 2006-05-03 | CN101199249A | 2008-06-11 | R·瓦唐帕拉斯特; M·阿尔拉斯; S·O·邓福德; 藤井贵晴; J·莱诺南; J·努西艾南; J·I·朗塔拉; P·唐斯卡南; 山本哲也 |
| 提供了一种方法,该方法用于制造一种电子功能结构性组件,该组件适合将多个电子功能集成到层状盖、层和/或层状组件中,用于保护、支撑和/或形成完整的电子设备(诸如多媒体设备)。该方法包括层压布置有与多媒体设备通信的电子组件或电子功能层的多个结构性和/或保护性的层,从而形成支撑性和电子功能层、盖、保护层和/或电子设备。因此,所提供的制造方法允许在销售场所或其他定制场所向多媒体设备或的其他设备具有成本效益地增加薄且轻的功能性、保护性和/或装饰性的层。 | ||||||
| 13 | 触摸屏的导线连接方法 | CN200680001962.2 | 2006-01-16 | CN101103657A | 2008-01-09 | 西川和宏; 甲斐义宏; 中村一登 |
| 提供一种将导线连接在触摸屏上的触摸屏的导线连接方法,其特征在于,在下部电极板(3)上穿设与电极端数对应数量的贯通孔(9a~9d),使用具有销轴部(11b)和直径大于该销轴部的外径的圆板状头部(11a)的金属销(11),将该销轴部(11b)贯穿于导线(10)的连接侧端部的电路(10c)的对应于贯通孔(9a)形成的各金属销固定孔内,从而将销轴部(11b)立设于导线(10)的连接侧端部,将各销轴部(11b~14b)分别插入所述贯通孔(9a~9d)中,且插入下部电极板(3)内的销轴部与电极端(6c、7c、6d、7d)通过导电粘合剂(15)电性连接。 | ||||||
| 14 | 按钮开关 | CN01144841.5 | 2001-11-14 | CN1363942A | 2002-08-14 | 浅田信 |
| 一种按钮开关(1),由设置在基板(2)上的固定接点部(3)和可弹性变形的可动接点部(4)构成,所述可动接点部(4)与前述固定接点部(3)的表面对向配置,同时,相对于前述表面其中央部与其周边部具有较大间隔地形成穹顶状。在前述固定接点部(3)的中央区域的表面上,以在与该表面之间制成接触边缘部(30)的方式形成表面缺口部(5),在前述可动接点部(4)上形成向着前述表面缺口部凸出的凸起(6)。随着施加压力,前述可动接点部反抗自身的弹性力向前述固定接点部(3)方向位移,前述凸起(6)的区域与前述接触边缘部(30)接触,通过取消压力,前述可动接点部(4)利用弹性回复力进行复位,从而前述凸起(6)离开前述接触边缘部(30)。 | ||||||
| 15 | Touch input function-equipped protection panel for electronic device display window | US12446834 | 2007-11-01 | US08077264B2 | 2011-12-13 | Kazuhiro Nishikawa; Yoshihiro Kai; Kazuto Nakamura |
| A touch input function-equipped protection panel for an electronic device display window which can suppress deterioration of electric properties and appearance quality in a lead wire connection part, includes a touch panel having a flexible upper electrode plate and an inflexible lower electrode plate arranged face-to-face at a prescribed gap in a manner that the electrode surfaces are directed to inside and being formed by sticking the outer circumferential parts of the respective electrode plates with an insulating adhesive layer interposed therebetween; a decorative film having a transparent window part and stuck to the surface of the upper electrode plate; and a pin-equipped lead wire for extracting an electric signal from an electrode terminal of the electrode plate through respective metal pins inserted into a plurality of through holes formed on the lower electrode plate, wherein an elastomeric binder-containing conductive adhesive layer is formed on the electrode terminal of at least one of the upper electrode plate and the lower electrode plate as an underlayer of a conductive adhesive to be injected into the respective through holes. | ||||||
| 16 | Composite layer for an electronic device | US12354536 | 2009-01-15 | US07881068B2 | 2011-02-01 | Ramin Vatanparast; Mikko Aarras; Steven O. Dunford; Takaharu Fujii; Juhani Lainonen; Jaakko Nousiainen; Jukka I. Rantala; Pia Tanskanen; Tetsuya Yamamoto |
| Provided herein is a composite layer including an electronically functional structural component adapted to integrate a plurality of electronic functions into a laminate cover, layer, and/or laminate component, for protecting, supporting, and/or forming a complete electronic device (such as a multimedia device). The composite layer includes a plurality of structural and/or protective layers interspersed with electronically functional layers or electronic components in communication with the multimedia device to form a supportive and electronically functional layer, cover, protective layer, and/or electronic device. Thus, the composite layer provided allow for the cost-effective addition of thin and lightweight functional, protective, and/or decorative layers to a multimedia device or other electronic device at a sales location or other customization location. | ||||||
| 17 | Touch panel | US12058922 | 2008-03-31 | US07538288B1 | 2009-05-26 | Wei-Lung Huang |
| A touch panel has an upper conductive layer, a lower conductive layer, a substrate and multiple electrical connectors. The upper conductive layer has an upper film and two X-electrodes being formed adjacent to the upper film. The lower conductive layer has a lower film, two Y-electrodes and multiple through holes. The Y-electrodes are formed adjacent to the lower film and perpendicularly to the X-electrodes. Each through hole corresponds to an X or Y-electrode. The substrate has multiple wires and multiple mounting holes. Each wire is formed on a bottom of the substrate and aligned with the X or Y-electrode. The mounting holes are formed through the substrate and respectively aligned to the through holes. Each electrical connector is mounted through corresponding mounting and through holes and connects the wires and electrodes. Therefore the touch panel is easily produced with high-precision flatness. | ||||||
| 18 | INPUT DEVICE AND METHOD OF MANUFACTURING MODULE UNIT FOR INPUT DEVICE | US12106602 | 2008-04-21 | US20080309638A1 | 2008-12-18 | Naoki Tatehata |
| An input device comprises a wiring board having stationary contacts and a module unit placed on the wiring board. The module unit has a structure formed integrally with actuating key portions, movable contacts, cushioning members and protruding portions. The movable contacts are disposed under the actuating key portions, and actuated by a push-on operation of the actuating key portions. The cushioning members are disposed in a space between a lower surface of the actuating key portions and an upper surface of a movable contact retainer bearing the movable contacts to make the space shrinkable when subjected to the push-on operation whereas it maintains an uniform height when not subjected to the push-on operation. The protruding portions depress top center portions of the movable contacts. The input device includes switch elements, each comprising the movable contact and the stationary contact, and the switch element is actuated by the push-on operation on the actuating key portion. | ||||||
| 19 | Methods for manufacturing a tactile sensor using an electrically conductive elastomer | US10714262 | 2003-11-14 | US07066376B2 | 2006-06-27 | Irving S. Scher; Daniel Conrad Benson |
| The present invention provides methods for connecting electrically conductive elastomer to electronics that reduce cost and time for manufacturing a tactile sensor that includes an electrically conductive elastomer such as a conductive foam. The methods provide a good connection between the electrically conductive elastomer and the electrodes connected to the electronics, which provide for repeatable measurements. The methods can be used for all cases of electrically conductive elastomers and elastomers made to be conductive with the addition of conductive particles (such as carbon, silver, nickel, gold, etc.) including thermoplastic and some thermosetting elastomers. | ||||||
| 20 | Methods for manufacturing a tactile sensor using an electrically conductive elastomer | US09965160 | 2001-09-26 | US06871395B2 | 2005-03-29 | Irving S. Scher; Daniel Conrad Benson |
| The present invention provides methods for connecting electrically conductive elastomer to electronics that reduce cost and time for manufacturing a tactile sensor that includes an electrically conductive elastomer such as a conductive foam. The methods provide a good connection between the electrically conductive elastomer and the electrodes connected to the electronics, which provide for repeatable measurements. The methods can be used for all cases of electrically conductive elastomers and elastomers made to be conductive with the addition of conductive particles (such as carbon, silver, nickel, gold, etc.) including thermoplastic and some thermosetting elastomers. | ||||||
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