| 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 | 触摸面板 | CN200710097120.8 | 2007-04-17 | CN101063922B | 2010-05-26 | 梨木智刚; 菅原英男 |
| 本发明提供一种使用在薄膜基材上设置有导电性薄膜的面板的触摸面板,所述导电性薄膜的耐久性优良,所述触摸面板具有第一面板和第二面板,所述第一面板具有透明的第一薄膜基材和设在该第一薄膜基材的单面的透明的第一导电性薄膜;所述第二面板具有透明的第二薄膜基材和设在该第二薄膜基材的单面的透明的第二导电性薄膜,第一面板和第二面板通过隔离件对置配置以使第一导电性薄膜和第二导电性薄膜对置,其特征在于,第一导电性薄膜的表面硬度为1GPa以上,弹性模量为5GPa以上,第二导电性薄膜的表面的中心线平均粗糙度(Ra)为0.3~1.0nm,并且,第二导电性薄膜的表面的中心线平均粗糙度(Ra)的值比第一导电性薄膜的表面的中心线平均粗糙度(Ra)的值小。 | ||||||
| 2 | 按键开关装置 | CN201210516730.8 | 2012-12-05 | CN103165316A | 2013-06-19 | 田村文雄; 米持健信 |
| 本发明提供一种即使减小按键行程也可以抑制操作按键时的触底感的按键开关装置。在构成导向机构(6)的外侧框(8)的跟前侧端部的面对膜片(3)的下表面设置突起(821),并且在键帽被按下时在底板(2)中与突起(821)相对的区域设置收容突起(821)的收容部(23),因此,即使在键帽(4)的离开中心的部分被按下时,突起(821)也不被膜片(3)下方的底板(2)反弹,膜片(3)缓冲突起(821)碰撞膜片(3)时的撞击。由此,即使减小按键行程也可以抑制操作按键时的触底感。 | ||||||
| 3 | 触摸屏开关 | CN02801996.2 | 2002-07-05 | CN1463459A | 2003-12-24 | 福井俊晴; 尾崎卓生; 师井宏 |
| 本发明的目的是提供一种可使用的操作区域广,因而,有效使用面积大的触摸屏开关,为了实现该目的,使用具有规定的弹性的材料,将形成了相对向的电极层的触摸板的上下衬底边维持规定的间隙值,边将二者粘贴而成。 | ||||||
| 4 | 按键结构总成 | CN201510843196.5 | 2015-11-26 | CN106803468A | 2017-06-06 | 陈翰霆 |
| 本发明涉及一种按键结构总成,为解决现有按键采用单体防水防尘设计的成本问题,其在按键的电路板上覆设背盖板金,背盖板金上设有浅凹槽,浅凹槽在电路板各键体的位置对应的设置设有孔槽,浅凹槽内部设有遮覆隔离孔槽的硅胶垫片,背盖板金顶面外周覆设防水垫片后将表面板金覆设于背盖板金顶面并栓锁固定,表面板金设有多个组设孔供组设各按键底座及按键。本发明在表面板金与背盖板金间的防水垫片与浅凹槽内的硅胶垫片,对按键与电路板的键体形成全面阻隔效果,在不影响按键压触键体的制控功能下,还具有绝对的防水防尘效果,避免水渍或灰尘由按键缝隙渗入而造成电路板故障,同时其整体的组制更为便利,可有效减低生产成本,具有产业利用价值。 | ||||||
| 5 | 按键开关装置 | CN201210516730.8 | 2012-12-05 | CN103165316B | 2016-08-17 | 田村文雄; 米持健信 |
| 本发明提供一种即使减小按键行程也可以抑制操作按键时的触底感的按键开关装置。在构成导向机构(6)的外侧框(8)的跟前侧端部的面对膜片(3)的下表面设置突起(821),并且在键帽被按下时在底板(2)中与突起(821)相对的区域设置收容突起(821)的收容部(23),因此,即使在键帽(4)的离开中心的部分被按下时,突起(821)也不被膜片(3)下方的底板(2)反弹,膜片(3)缓冲突起(821)碰撞膜片(3)时的撞击。由此,即使减小按键行程也可以抑制操作按键时的触底感。 | ||||||
| 6 | 特别用于机动车的电控制模块 | CN200780047821.9 | 2007-12-17 | CN101601003A | 2009-12-09 | 布鲁诺·马里; 锡德里克·查特雷恩 |
| 本发明涉及一种电控制模块,包括:-用于电路的基板(1),-第一电接触区(3;5),设置在基板(1)的侧面(2a)上,每个接触区(3;5)被连接到基板(1)的相关联电迹线(7;9),使得每个接触区(3;5)对应于基板上的一位置。根据本发明的模块还包括表面接触元件(23),该表面接触元件为连接到地线的金属栅格的形式,该元件(23)覆盖基板的包括所述接触区(3;5)的所述侧面(2a),以使得表面接触元件(23)上的压力把压力点处的接触区(3;5)连接到地线,由此可以确定压力点的位置。 | ||||||
| 7 | 触摸屏开关 | CN02801996.2 | 2002-07-05 | CN100495613C | 2009-06-03 | 福井俊晴; 尾崎卓生; 师井宏 |
| 本发明的目的是提供一种可使用的操作区域广、因而,有效使用面积大的触摸屏开关,为了实现该目的,使用具有规定的弹性的材料、将形成了相对向的电极层的触摸板的上下衬底边维持规定的间隙值,边将二者粘贴而成。 | ||||||
| 8 | 按键板 | CN200810135682.1 | 2008-07-09 | CN101345150A | 2009-01-14 | 新井史孝 |
| 本发明提供一种按键板,其具有作为操作按钮的多个键顶和薄膜状的基片,在所述基片上表面上设置有该键顶。对于覆盖按钮开关的薄膜状的按键板,在以小的按压负荷按压键顶时,不干涉相邻的键顶和撑片,不发生波动。还具有以覆盖基片(16)的下表面的方式层叠在基片(16)上的薄膜状的形状保持片(17),在该形状保持片(17)上的相邻的键顶(14)之间的间隔位置,具有绝缘缝(17a),所述绝缘缝(17a)用于隔断在按压键顶(14)时沿形状保持片(17)的面所产生的应力。为此,在按压操作时,键顶(14)不易凸出且不易发生摇晃。 | ||||||
| 9 | 触摸面板 | CN200710097120.8 | 2007-04-17 | CN101063922A | 2007-10-31 | 梨木智刚; 菅原英男 |
| 本发明提供一种使用在薄膜基材上设置有导电性薄膜的面板的触摸面板,所述导电性薄膜的耐久性优良,所述触摸面板具有第一面板和第二面板,所述第一面板具有透明的第一薄膜基材和设在该第一薄膜基材的单面的透明的第一导电性薄膜;所述第二面板具有透明的第二薄膜基材和设在该第二薄膜基材的单面的透明的第二导电性薄膜,第一面板和第二面板通过隔离件对置配置以使第一导电性薄膜和第二导电性薄膜对置,其特征在于,第一导电性薄膜的表面硬度为1GPa以上,弹性模量为5GPa以上,第二导电性薄膜的表面的中心线平均粗糙度(Ra)为0.3~1.0nm,并且,第二导电性薄膜的表面的中心线平均粗糙度(Ra)的值比第一导电性薄膜的表面的中心线平均粗糙度(Ra)的值小。 | ||||||
| 10 | 具有改善垫片设计的翼形开关元件 | CN200480003892.5 | 2004-02-12 | CN1748131A | 2006-03-15 | 沃纳·比克; 德里斯·查巴赫; 伊维斯·德科斯特; 罗伯特·奥莱特; 阿兰·舒马赫 |
| 翼形开关元件典型地包括借助垫片(10)以彼此间隔一定间距设置的第一承载翼和第二承载翼。所述垫片(10)包括至少一个限定开关元件有效面积的凹部(12)。至少两个电极和压敏材料层设置在开关元件的有效面积中位于所述第一和第二承载翼之间,采用这样的方式,即响应作用在开关元件有效面积上的压力,第一和第二承载翼靠弹性承载翼的反作用力压在一起,借助压敏材料在至少两个电极之间建立电触点。根据本发明,所述有效面积包括内部区域(14)和数个外部区域(18),所述内部区域具有基本凸起形状和所述外部区域从所述内部区域向外延伸。 | ||||||
| 11 | Key sheet | EP08012221.1 | 2008-07-07 | EP2015329A1 | 2009-01-14 | Arai, Fumitaka |
A thin-film-like key sheet covering pushbutton switches is equipped with a plurality of key tops constituting operating pushbuttons, and a film-like base sheet on an upper surface of which the key tops are placed, in which a depression load is small, and no interference with the adjacent key tops and a frame sheet occurs when depressing the key tops, thus avoiding undulating movement of those components. There is further provided a film-like shape maintaining sheet (17) covering a lower surface of a base sheet (16) and stacked on the base sheet (16), and the shape maintaining sheet (17) has, at dividing positions between the adjacent key tops (14), insulating slits (17a) insulating a stress generated along a surface of the shape maintaining sheet (17) when the key tops (14) are depressed. Thus, the key tops (14) do not easily rise or become shaky at a time of depressing operation.
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| 12 | Drucktastenanordnung in einer Leiterplatte | EP89810409.6 | 1989-06-01 | EP0347375A1 | 1989-12-20 | Limberger, Dieter |
Bei dieser Drucktastenanordnung wird der elektrische Kontakt durch eine Schnappescheibe (5) direkt auf den Leiterbahnen (6) einer Leiterplatte (1) erzeugt, wobei die Schnappscheibe (5) in einer Aussparung des Distanzstückes (2) gelagert ist und durch eine Abdeckfolie (3) geschützt wird. Zwecks Vermeidung von Ueberbeanspruchungen an der Abdeckfolie (3) und an der Schnappscheibe (5) wird das Distanzstück (2) als Leiterplatte von grösser 1 mm Dicke ausgeführt, um Raum für eine transparente Schutzkappe (4) zu schaffen, die einerseits die Schnappscheibe (5), die mit mindestens zwei vorstehenden Lappen (11) in Ausnehmungen (10) der Leiterplatte (1) verankert ist, vollständig überdeckt und die andererseits die Deformation der Abdeckfolie (3) und der Schnappscheibe (5) begrenzt. Durch Aussparungen (8) an der Schnappscheibe (5) und durch eine Ausnehmung (7) in der Leiterplatte (1) werden Schutzkappe (4) und Abdeckfolie (3) erleuchtet. |
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| 13 | Keyboard venting | EP88115128.6 | 1988-09-15 | EP0322515A2 | 1989-07-05 | Spreadbury, Brian G. |
A keyboard (10) (e.g. for a calculator) is described including a base member having a plurality of channels (14) or a chamber, circuitry defining a plurality of switches (17) in a pattern, and optionally a plurality of domes (24) in registry with the switch sites. When a dome is depressed or deflected downwardly, the air under the dome passes into a channel or a chamber where it is distributed away from the switch site. A vent aperture (14B) communicating between the channel or chamber and the atmosphere may also be included. Membrane switches can also be used in such a keyboard. |
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| 14 | KEYBOARD DEVICE | US14078705 | 2013-11-13 | US20150129406A1 | 2015-05-14 | Qing Zhang |
| A keyboard device includes a base seat, a circuit board including a plurality of switches, a press key membrane connected to a periphery of the base seat to forma sealed space to enclose the circuit board therein, and a plurality of resilient members. The press key membrane includes a plurality of protrusion units defining a plurality of press zones on the press key membrane. Each of the resilient members is disposed between the press key membrane and a respective one of the switches for deforming to close the respective one of the switches when a respective one of the press zones is pressed and for restoring to open the respective one of the switches when the respective one of the press zone is released. | ||||||
| 15 | KEY SWITCH DEVICE | US13711165 | 2012-12-11 | US20130146434A1 | 2013-06-13 | Fumio Tamura; Kenshin Yonemochi |
| One aspect provides a key switch device including: a base plate; a sheet laminated on the base plate; a key top disposed above the sheet; and an elastic dome that is disposed between the sheet and the key top and is configured to press the sheet in response to the key top being pressed down. Other aspects are described and claimed. | ||||||
| 16 | ELECTRIC CONTROL MODULE, PARTICULARLY FOR MOTOR VEHICLES | US12520064 | 2007-12-17 | US20100096247A1 | 2010-04-22 | Bruno Marie; Cedric Chartrain |
| The present invention relates to an electric control module comprising—a substrate (1) for electric circuits,—first electric contact pads (3; 5) provided on a side (2a) of the substrate (1), each contact pad (3; 5) being linked to an associated electric track (7; 9) of the substrate (1) so that each contact pad (3; 5) corresponds to a position on the substrate. The module according to the invention also comprises an surface contact element (23) in the form of a metallic grid connected to the ground, this element (23) covering the side (2a) of the substrate including the contact pads (3; 5) so that a pressure on the surface contact element (23) connects the contact pads (3; 5) at the pressure point to the ground, whereby it is possible to determine the position of the pressure point. | ||||||
| 17 | KEY SHEET | US12365301 | 2009-02-04 | US20090200148A1 | 2009-08-13 | Yoshifumi HONMATSU; Yasunori TAKEDA; Yutaka NAKANISHI |
| Provided is a key sheet allowing reliable sliding operation input through accurate coordinate position detection and depressing operation input of satisfactory depression operability through clear click feel. Fixation layers are formed at positions under depressing operation portions, and there are no fixation layers in portions around the depressing operation portions but gaps are formed. With this construction, it is possible to suppress a depression operation load to a low level at a time of depressing input operation, and, when contact switches with click feel are depressed, the click feel can be easily transmitted. Further, a surface sheet has movable contact portions which enter the gaps at a time of sliding input operation and which are displaced so as to be capable of coming into contact with a sensor sheet. With this construction, it is possible to sense, in a stable manner, capacitance at an in-plane position of a sliding operation surface of the sensor sheet. | ||||||
| 18 | Autoclavable Switch Assembly | US11747123 | 2007-05-10 | US07473860B2 | 2009-01-06 | Philip B. Sample |
| A device includes a printed circuit board having a first surface and a second surface. The printed circuit board defines an opening therethrough from the first surface to the second surface and a circuit formed on the first surface of the printed circuit board with no portion of the circuit intersecting the opening. The second surface of the printed circuit board at least partially bounds a first channel in fluid communication with the opening. A method of venting includes displacing air within a cavity of a switch by moving the air through one or more channels formed in a layer defining cut-outs in fluid communication with the cavity. The air is moved through an opening formed in a printed circuit board. The layer is positioned at a first side of the printed circuit board. In addition, the method includes moving the air through a venting channel positioned at a second, opposite side of the printed circuit board and into the surrounding environment. | ||||||
| 19 | Autoclavable Switch Assembly | US11747123 | 2007-05-10 | US20080276453A1 | 2008-11-13 | Philip B. Sample |
| A device includes a printed circuit board having a first surface and a second surface. The printed circuit board defines an opening therethrough from the first surface to the second surface and a circuit formed on the first surface of the printed circuit board with no portion of the circuit intersecting the opening. The second surface of the printed circuit board at least partially bounds a first channel in fluid communication with the opening. A method of venting includes displacing air within a cavity of a switch by moving the air through one or more channels formed in a layer defining cut-outs in fluid communication with the cavity. The air is moved through an opening formed in a printed circuit board. The layer is positioned at a first side of the printed circuit board. In addition, the method includes moving the air through a venting channel positioned at a second, opposite side of the printed circuit board and into the surrounding-environment. | ||||||
| 20 | Switch arrays and systems employing the same to enhance system reliability | US11757271 | 2007-06-01 | US07439465B2 | 2008-10-21 | Wayne Parkinson |
| An input system is delineated comprising an array of touch regions. At least one touch region is aligned with a sensing structure. The sensing structure comprises a first conductive region; a second conductive region aligned with the first conductive region, the second conductive region including a first conductive pattern forming a first switch terminal and a second conductive pattern forming a second switch terminal, the first conductive pattern separated by a space from the second conductive pattern; and a third conductive region between the first conductive region and the second conductive region, the third conductive region electrically coupling the first switch terminal to the second switch terminal to provide a first indication when the switch is open and a second indication when the switch is closed. Also delineated is a control panel including a plurality of such switches, as well as an appliance including such a control panel. | ||||||
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