| 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 | 独立的键盘组件 | CN200510068569.2 | 2005-01-26 | CN1691233B | 2011-03-09 | F·公; C·D·克罗雷; 小J·加西亚 |
| 一种制造具有顶盖和底盖的独立的键盘模块的系统和方法。该顶盖和底盖通过一个沿着叠层完成的超模压工序密封和/或把许多键盘元件夹在中间。在顶盖和底盖之间组装的叠层包括一个饶曲件,一个电发光板,和一个在其上具有多个按键的硅树脂薄膜。 | ||||||
| 2 | 键帽及键盘装置 | CN201610037193.7 | 2016-01-20 | CN106992087A | 2017-07-28 | 梁小强; 石磊; 刘学磊 |
| 本发明提供一种键帽及键盘装置。键盘装置包含一底板、多个安装于底板的升降机构、以及多个键帽。所述多个键帽对应地安装于所述多个升降机构上并且相对于底板上下位移,而形成一按压行程。每一键帽包含一按压面、一相对于按压面的组装面、以及多个连接件。所述多个连接件设置于组装面上,用以连接于该升降机构,其中至少一个连接件的一侧突出一治具卡合部;当键帽欲进行喷漆时,键帽通过治具卡合部可拆卸地固定于一喷漆治具。本发明所提供的键帽,可拆卸地结合于喷漆治具,避免喷漆治具卡合于枢设连接件,并且经过插拔的过程,也不会影向键帽的连接结构的强度。 | ||||||
| 3 | 接合可压缩导电元件的无源用户输入附件及其方法 | CN201180026094.4 | 2011-04-19 | CN102906661B | 2016-08-03 | 约翰·亨利·克朗恩布尔; 罗杰·阿迪; 吉里·斯拉比 |
| 用户输入附件(201)被配置为选择性地附连到诸如移动电话的电子设备(100)。电子设备(100)包括可以配置为在电子设备(100)的一个或多个表面之间彼此分离是多个电极节点(205)。可以与多个电极节点(205)进行操作控制器(105)被配置为感测流过电极节点(205)的电流(或者跨电极节点(205)的电压)。感测到的电压或电流根据来自用户输入附件(201)的可压缩导电元件(207)朝着电极节点(205)的压力建立接合标志(771)。控制器(105)被配置为从接合标志(771)识别户输入附件(201),并且通过检测由于用户输入附件(201)的用户操纵而造成的每个电极节点(205)的电流或电压的变化而导致的接合标志(771)的改变来检测用户输入。 | ||||||
| 4 | 一种薄膜开关及其制造方法 | CN201410036203.6 | 2014-01-26 | CN103745859A | 2014-04-23 | 王宇; 邱泽安 |
| 本发明涉及一种薄膜开关及制造方法,包括上层薄膜、下层薄膜、中间的隔离层,隔离层设有与上导电点及下导电点位置相对应的孔洞,并通过涂布在其上下表面的胶水与所述的上层薄膜和下层薄膜相粘结,上或/和下表面的胶水为热熔胶。为了制备上述的薄膜开关,包括以下步骤:(a)在一选定的隔离层的上表面或/和下表面上除孔洞处之外涂布胶水;(b)将上层薄膜和下层薄膜上印有导电点和导电线路的一面分别贴合并通过胶水粘接在隔离层上,使导电点与孔洞的位置相对应。在隔离层上或/和下表面涂布胶水热熔胶,能够有效克服传统印刷工艺导致的气泡、透空、缺胶等缺陷,防止液体胶水失效,简化薄膜开关的生产工艺;提高了自动化程度,减少人力成本。 | ||||||
| 5 | 接合可压缩导电元件的无源用户输入附件及其方法 | CN201180026094.4 | 2011-04-19 | CN102906661A | 2013-01-30 | 约翰·亨利·克朗恩布尔; 罗杰·阿迪; 吉里·斯拉比 |
| 用户输入附件(201)被配置为选择性地附连到诸如移动电话的电子设备(100)。电子设备(100)包括可以配置为在电子设备(100)的一个或多个表面之间彼此分离是多个电极节点(205)。可以与多个电极节点(205)进行操作控制器(105)被配置为感测流过电极节点(205)的电流(或者跨电极节点(205)的电压)。感测到的电压或电流根据来自用户输入附件(201)的可压缩导电元件(207)朝着电极节点(205)的压力建立接合标志(771)。控制器(105)被配置为从接合标志(771)识别户输入附件(201),并且通过检测由于用户输入附件(201)的用户操纵而造成的每个电极节点(205)的电流或电压的变化而导致的接合标志(771)的改变来检测用户输入。 | ||||||
| 6 | 防刺探加密键盘 | CN201010261960.5 | 2010-08-20 | CN101937589B | 2012-10-03 | 张俊昆; 林朱龙; 何靖; 韩莹 |
| 本发明涉及一种加密键盘,特别是一种具有多方位防刺探检测保护系统的加密键盘。这种防刺探加密键盘,包括一按键面板及一主控板,该主控板上包括一实现自毁功能的控制电路,该控制电路由一防刺探保护机构固封在主控板背部,该防刺探保护机构与该控制电路电连接。该防刺探保护机构包括:一防窥盖,其具有一底面及沿该底面周缘垂直延伸的一侧壁,该侧壁与该底面形成一第一空腔;一硬质防刺探电路板,其套置在该第一空腔内,且由一底面和一四周环形侧壁形成第二空腔,该第二空腔底面设置至少一对防刺探电路的引出金手指;以及导电胶,其置于该第二空腔内,使硬质防刺探电路板上引出金手指与主控板的控制电路的引出金手指形成电连接。 | ||||||
| 7 | 防刺探加密键盘 | CN201010261960.5 | 2010-08-20 | CN101937589A | 2011-01-05 | 张俊昆; 林朱龙; 何靖; 韩莹 |
| 本发明涉及一种加密键盘,特别是一种具有多方位防刺探检测保护系统的加密键盘。这种防刺探加密键盘,包括一按键面板及一主控板,该主控板上包括一实现自毁功能的控制电路,该控制电路由一防刺探保护机构固封在主控板背部,该防刺探保护机构与该控制电路电连接。该防刺探保护机构包括:一防窥盖,其具有一底面及沿该底面周缘垂直延伸的一侧壁,该侧壁与该底面形成一第一空腔;一硬质防刺探电路板,其套置在该第一空腔内,且由一底面和一四周环形侧壁形成第二空腔,该第二空腔底面设置至少一对防刺探电路的引出金手指;以及导电胶,其置于该第二空腔内,使硬质防刺探电路板上引出金手指与主控板的控制电路的引出金手指形成电连接。 | ||||||
| 8 | 独立的键盘组件 | CN200510068569.2 | 2005-01-26 | CN1691233A | 2005-11-02 | F·公; C·D·克罗雷; 小J·加西亚 |
| 一种制造具有顶盖和底盖的独立的键盘模块的系统和方法。该顶盖和底盖通过一个沿着叠层完成的超模压工序密封和/或把许多键盘元件夹在中间。在顶盖和底盖之间组装的叠层包括一个饶曲件,一个电发光板,和一个在其上具有多个按键的硅树脂薄膜。 | ||||||
| 9 | Keyboard for electronic device | US15154768 | 2016-05-13 | US10083805B2 | 2018-09-25 | Eric A. Knopf; Matthew P. Casebolt; Craig C. Leong; Robert Y. Cao; Bradford J. Zercoe; Dinesh C. Mathew; Zheng Gao; Ryan P. Brooks; Paul X. Wang |
| An input mechanism is disclosed. The input mechanism includes a dome support structure defining an opening that extends through the dome support structure, a collapsible dome positioned in the opening and engaged with the dome support structure, and a cover member coupled to the dome support structure and covering the collapsible dome, thereby retaining the collapsible dome within the opening of the dome support structure. | ||||||
| 10 | Thin Keyboard Device | US15270245 | 2016-09-20 | US20180082803A1 | 2018-03-22 | Andrew E. Winter |
| A thin keyboard device is described herein. In one or more implementations, a keyboard device includes a plurality of keys, and a housing that includes a structural printed circuit board (PCB). The structural PCB includes, for each of the plurality of keys, a first conductive trace and a second conductive trace. The keyboard device further includes a key-switch mechanism for each of the plurality of keys. The key-switch mechanism includes a conductive material oriented towards the first conductive trace and the second conductive trace, and is configured to cause the conductive material to move downwards, when the key is depressed, to electrically connect the first conductive trace and the second conductive trace of the depressed key. | ||||||
| 11 | KEYCAP AND KEYBOARD APPARATUS | US15225616 | 2016-08-01 | US20170207040A1 | 2017-07-20 | XIAO-QIANG LIANG; LEI SHI; XUE-LEI LIU |
| The present disclosure provides a keycap and a keyboard apparatus. The keyboard apparatus includes a base plate, a plurality of lifting mechanisms mounted to the base plate, and a plurality of keycaps. The keycaps are correspondingly mounted to the lifting mechanisms and are movable up and down relative to the base plate to form a pressing stroke. Each of the keycaps comprises a pressing surface, an assembly surface opposite to the pressing surface, and a plurality of connectors. The connectors are disposed on the assembly surface to be connected to the lifting mechanism, wherein a jig engagement portion protrudes from one side of at least one of the connectors; when the keycap is to be painted, the keycap is removably fixed to a painting jig by the jig engagement portion. | ||||||
| 12 | KEYBOARD FOR ELECTRONIC DEVICE | US15154768 | 2016-05-13 | US20160351360A1 | 2016-12-01 | Eric A. Knopf; Matthew P. Casebolt; Craig C. Leong; Robert Y. Cao; Bradford J. Zercoe; Dinesh C. Mathew; Zheng Gao; Ryan P. Brooks; Paul X. Wang |
| An input mechanism is disclosed. The input mechanism includes a dome support structure defining an opening that extends through the dome support structure, a collapsible dome positioned in the opening and engaged with the dome support structure, and a cover member coupled to the dome support structure and covering the collapsible dome, thereby retaining the collapsible dome within the opening of the dome support structure. | ||||||
| 13 | Touch sensor panel with in-plane backup bypass connections | US14621788 | 2015-02-13 | US09223454B2 | 2015-12-29 | John J Gorsica; Dale F Bengtson; Michael F Olley |
| Touch sensor panels (104) have 2-D periodic arrangements of electrodes (304) connected together forming a plurality of horizontal and vertical logical lines (506, 514) for measuring X-Y coordinates of a user's touch. Electrodes forming the horizontal logical lines are interleaved with electrodes forming the vertical logical lines. Each of the vertical and horizontal logical lines includes multiple tracks (502, 504, 510, 512). The tracks of each logical line are cross connected by in-plane cross connects (314, 318) formed in the same layer by the same process that is used to form the electrodes. Diamond and square electrode embodiments are described. | ||||||
| 14 | Remote control | US10688531 | 2003-10-16 | US06968151B2 | 2005-11-22 | Peter M. Redford; Donald S. Stern |
| A remote control includes a base and an insert that is attached in a detachable manner to the base. The base includes a remote control circuit, a button coupled to operate the remote control circuit and a fastener capable of holding the insert. The insert includes a printed publication (such as a card, a sheet of paper or a booklet) containing at least one leaf having human-understandable content (such as text and/or graphics). To assemble the remote control, a user attaches the insert to the fastener, so that the human-understandable content is laid over the button. Thereafter, when the user operates the button (e.g. by touching the leaf), the base transmits a remote control signal that causes a host device to visually display information related to the human-understandable content at the touched location. A base in the form of a three ring binder gives the user an intuitive feel of simply touching human-understandable content on a leaf in the binder to view a display of information related to the content. In addition to the human-understandable content, the insert can carry a predetermined pattern that can be sensed by a sensor during mounting of the insert on the base. The base transmits, in the remote control signal, a number determined from the predetermined pattern thereby to indicate to the host device the insert currently in the base. | ||||||
| 15 | Keyboard type input device and portable information processor | US10019404 | 1999-12-08 | US06876354B1 | 2005-04-05 | Kazuhisa Terasaki; Takeshi Ohyama; Akihiro Yamada; Gontaro Kitazumi; Masanori Naritomi; Kenji Nakamura |
| A key-board type input mechanism suitable for inputting large quantity of data is provided to a portable information technology device having a pen-input type display device. A keyboard (33 or 35) of the present invention comprises a key top panel portion (12 or 17) on which a plurality of input key portions (12a or 18) that are pressed down when carrying out a key input are integrally formed, a coordinate position information generating portion (13) and contact portions (16 or 19) for changing loads generated by pressing each input key portion of the key top panel portion down into a vertical load, a load distribution portion (14 or 20) for distributing unnecessary loads other than the vertical load changed by the coordinate position information generating portion and the contact portions, by deformation under a pressure. The key top panel portion, coordinate position information generating portion, contact portion, and load distribution portion are layered. | ||||||
| 16 | Switching function properly-alterable switch unit, and vehicle mounted device control apparatus including the same switch unit | US09597605 | 2000-06-20 | US06426572B1 | 2002-07-30 | Satoshi Terashita; Satoshi Sakamoto |
| The present invention relates to a high-reliability vehicle mounted device control apparatus capable of making a decision about functions of switch units with a simple structure and at a high processing speed and a low cost. Each of the switch units comprises a circuit substrate having a required circuit pattern formed to include a plurality of pairs of short-circuiting possible land portions, and a switch mounted on the circuit substrate so that any one of the plurality of pairs of land portions are short-circuited selectively to set a switching function inherent to that switch unit. Any one selected from the switch units is mounted in one of the unit mounting sections, and the switch of that switch unit is turned on. A switch unit decision section constituting a control section detects the land portions short-circuited to automatically make a decision about the kind of a switching function of the mounted switch unit. | ||||||
| 17 | Modular keyboard for use in a computer system | US920997 | 1997-08-29 | US5865546A | 1999-02-02 | James Ganthier; John Landry |
| A computer system including a modular keyboard assembly allows input device modules to be inserted into the keyboard assembly. The modular keyboard assembly includes a plurality of recessed opening in which an input device module can be inserted. A connector on the input device module mates with a connector in the recessed opening, thereby providing electrical contact between the input device module and the keyboard assembly. Each input device module can be replaced by the user with a different input device module providing flexibility to the user as well as minimizing the amount of cabling that typically confronts the user. A controller in the keyboard assembly determines the types of input device modules coupled to the keyboard assembly. | ||||||
| 18 | Key input device | US581799 | 1984-02-21 | US4692740A | 1987-09-08 | Isamu Washizuka; Kiyoshi Kinugawa |
| A key input device to be attached to an electronic apparatus includes a keyboard having a plurality of key switches, and an exchangeable connector that is connectable to a body of the electronic apparatus for enabling the keyboard to be selected so that information is inputted into the electronic apparatus by the keyboard. | ||||||
| 19 | Input device using a resilient material | JP2005257242 | 2005-09-06 | JP4635788B2 | 2011-02-23 | 洋一 堀井; 理恵子 大塚; 剛史 星野 |
| A conventional mouse and keyboard poses great load on the user's finger and hands at key operation, and the material used for its surface is rigid. An input device which can reduce the load on the user's finger, and gives soft touch by avoiding abrupt change in downward pressure at key operation. The input device includes elastic material on the surface, a camera to image the back surface of a key when the key is pressed, an image processor which determines finger position from the image, and an output which generates a signal according to the finger position. By using this input device, the user can carry out operations similar to those achieved by a mouse and keyboard for a computer. | ||||||
| 20 | Keyboard device | JP7298399 | 1999-03-18 | JP3269482B2 | 2002-03-25 | 聡 小田村 |
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