| 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 | 按键结构 | CN201510166059.2 | 2015-04-09 | CN104766745A | 2015-07-08 | 许建士 |
| 本发明关于一种按键结构,按键结构包含底板、键帽、第一支架、第二支架及磁性件。底板具有磁性部。键帽设置于底板之上。第一支架及第二支架设置于底板与键帽之间,键帽经由第一支架及第二支架而能相对于底板上下移动。磁性件对应磁性部设置于底板与键帽之间,磁性件与磁性部之间产生吸引力,吸引力使磁性件接触并施力于第一支架及第二支架以驱使第一支架及第二支架将键帽远离底板移动。本发明中用于产生回复力的机构无需占据过大的空间即可作用,减少对支架于结构及作动上的限制;藉由磁性件及磁性部的材料以获得所需的吸引力,无需增加磁性件及磁性部的结构体积,维持按键结构的作动稳定度及结构强度。 | ||||||
| 2 | 手持式电子装置及提供增强的可用性和减小的尺寸的键盘以及相关方法 | CN200610088797.0 | 2006-02-22 | CN1862736A | 2006-11-15 | 詹森·T·格里芬; 史蒂文·亨利·法伊克 |
| 根据本发明的一种改进的手持式电子装置、键盘和方法满足这些和其他需要。具有改进的键盘的该改进的手持式电子装置通过成对地组织键提供增强的应用性和减小的尺寸,一对键被配置在支撑件上。一对键的每个键可单独地被驱动。键的驱动引起与键组关联的主导体电连接一对接触件并引起与键关联的副导体电连接另一对接触件。主导体为可压缩拱形件或触觉开关,所述可压缩拱形件或触觉开关可电连接一对接触件并提供特别的触觉反馈给用户。副导体是不同于压缩拱形件或触觉开关的导体。从而,任意键或任何一对键的驱动提供给用户一致的触觉反馈,即,来自单一拱形件的压缩;还公开了根据本发明的一种方法。 | ||||||
| 3 | 旋转型电气部件 | CN201510707624.1 | 2015-10-27 | CN105575709A | 2016-05-11 | 星直树; 川濑达章 |
| 本发明提供一种旋转型电气部件,伴随于对旋转构件的操作而能获得操作触感且在解除了操作之际能使旋转构件可靠地复原至初始状态。凸轮突起部(22d)设置在旋转构件(20),并具有:形成为圆弧状的堤坝部(22f)、和形成为宽度尺寸随着朝向前端侧而减小的楔部(22e)。一对弹簧片(32、33)被保持于固定构件(10),并且被设置为能夹持凸轮突起部(22d)而在凸轮突起部(22d)的内周侧及外周侧的周面滑动。在初始状态下,凸轮突起部(22d)与一对弹簧片(32、33)分离开,伴随于与复原构件(40)的作用力对抗的旋转构件(20)朝一个方向的旋转,凸轮突起部(22d)与一对弹簧片(32、33)相对地旋转移动而接触,进而一对弹簧片(32、33)从凸轮突起部(22d)的楔部(22e)向堤坝部(22f)滑动。 | ||||||
| 4 | 具有支撑功能的弹性元件及其按键与键盘 | CN201510434360.7 | 2015-07-22 | CN105118720A | 2015-12-02 | 简志鸿; 骆弘杰 |
| 本发明关于一种具有支撑功能的弹性元件、及其相关的按键与键盘。弹性元件设置在键帽与开关之间,可经由按压键帽以触发开关。弹性元件包含有本体部、触发部以及支撑部。本体部的中间形成内凹空间,且内凹空间的开口朝向键帽。触发部设置在本体部的底面,用来触发开关。支撑部设置于本体部的侧面。支撑部侧向承托本体部,在键帽未施压本体部时,使触发部悬空于开关的上方。本发明的具有支撑功能的弹性元件、及具有该弹性元件的相关按键及键盘能有效减少元件数量、节约制造成本、及提高组装速度与精确度。 | ||||||
| 5 | 一种按键及鼠标 | CN201510120071.X | 2015-03-18 | CN104681337A | 2015-06-03 | 黎柏松 |
| 本发明旨在提供一种工艺简单、生产成本低、行程可调、触感稳定、磨损率小、接触稳定性好、使用寿命长、手感好的按键以及鼠标。本发明所述位移监测机构设置在所述弹簧上并随所述弹簧的变形而在所述上限位装置和下限位装置之间限定的范围内移动,所述键顶产生伴有段落手感的运动,所述位移判断装置设置在所述位移监测机构的一侧,所述位移监测机构随着所述弹簧相对于所述位移判断装置来回移动,所述位移判断装置与外围的电路信号连接;本发明所述鼠标还包括主电路板、鼠标检测芯片和鼠标底盖,所述主电路板设置在所述鼠标底盖上,所述鼠标检测芯片设置在所述主电路板上,所述位移判断装置与所述主电路板信号连接。本发明可应用于操作设备领域。 | ||||||
| 6 | 手持式电子装置及提供增强的可用性和减小的尺寸的键盘以及相关方法 | CN200610088797.0 | 2006-02-22 | CN1862736B | 2012-02-08 | 詹森·T·格里芬; 史蒂文·亨利·法伊克 |
| 根据本发明的一种改进的手持式电子装置、键盘和方法满足这些和其他需要。具有改进的键盘的该改进的手持式电子装置通过成对地组织键提供增强的应用性和减小的尺寸,一对键被配置在支撑件上。一对键的每个键可单独地被驱动。键的驱动引起与键组关联的主导体电连接一对接触件并引起与键关联的副导体电连接另一对接触件。主导体为可压缩拱形件或触觉开关,所述可压缩拱形件或触觉开关可电连接一对接触件并提供特别的触觉反馈给用户。副导体是不同于压缩拱形件或触觉开关的导体。从而,任意键或任何一对键的驱动提供给用户一致的触觉反馈,即,来自单一拱形件的压缩。还公开了根据本发明的一种方法。 | ||||||
| 7 | Keyboard cover and electronic apparatus | US14644666 | 2015-03-11 | US10115543B2 | 2018-10-30 | Tomoko Katsuhara; Hiroto Kawaguchi; Akira Ebisui |
| There is provided a keyboard cover including a first sheet material having a surface including a plurality of key tops configured of roughened surfaces and a base configured of a smooth surface connecting a plurality of the key tops, a plurality of the key tops being projected from the base viewed from the surface; and a second sheet material covering a rear surface of the first sheet material and having concave parts corresponding to a plurality of the key tops viewed from the rear surface. Also provided is an electronic apparatus, including a keyboard body and the keyboard cover. | ||||||
| 8 | CAPACITIVE TOUCH FACEPLATE FOR A BLENDER | US15515888 | 2015-10-13 | US20170295997A1 | 2017-10-19 | David J. Kolar; Jack Warren Gee, II |
| Touch sensors form various controls for a touch controller of a blender. The controls are arranged on the touch controller such that a user holding the blender can operate the blender by articulating their thumbs. In one example, button controls for preset programs are arranged in an arcuate manner on one side of the touch controller, the curvature of the arcuate shape being open to the side of the blender. A button for a pulsating function may be located inside the curvature opening. Start and stop buttons may be located near the bottom in the middle of the touch controller. A vertical sliding speed control may be located on the side of the touch controller opposite the button controls. The touch controller may also have an LED or LCD screen. | ||||||
| 9 | INPUT TECHNOLOGIES | US14505024 | 2014-10-02 | US20150014137A1 | 2015-01-15 | William Bonnstauffer |
| A device is provided. The device includes a first T-shaped structure defined via a first leg and a first platform. The device further includes a key cap with an interior open chamber. The cap is mounted onto the first structure such that the chamber contains the first platform. The device also includes a second T-shaped structure defined via a second leg and a second platform. The first leg vertically moves within the second leg such that the cap travels between a depressed position and a pressed position. The cap is raised above the second platform in the depressed position. The cap is in contact with the second platform in the pressed position. | ||||||
| 10 | KEYSWITCH CONTROLLER | US13099364 | 2011-05-03 | US20120228105A1 | 2012-09-13 | Fu-Mei HSU; Ching-Hsiang YU; Shao-Hsiung CHANG |
| A keyswitch controller includes a housing, a circuit board, a keyswitch module, and a force feedback module. The housing includes a keyswitch hole. The circuit board is disposed in the housing and includes a switch. The keyswitch module disposed on the circuit board and passing out of the keyswitch hole is for turning on the switch by being pressed so as to generate a pressing signal. The force feedback module is coupled to the keyswitch module for vibrating according to the pressing signal. | ||||||
| 11 | Touch-Sensitive Display | US12789052 | 2010-05-27 | US20110291947A1 | 2011-12-01 | Nigel Patrick Pemberton-Pigott |
| An electronic device is described comprising a touch-sensitive display movable, relative to a base, between a first position and a second position. The electronic device includes a deflector that moves the touch-sensitive display at least laterally to the second position when the touch sensitive display is depressed. | ||||||
| 12 | Lever switch | US14505370 | 2014-10-02 | US09466445B2 | 2016-10-11 | Tsuyoshi Kikuchi |
| A lever switch has a base member, a first switch knob member, a first moderation mechanism, a substrate having a first contact member, and a first slider. The base member has a first supporting surface formed along an outer peripheral surface of a column centered on a rotational axis of the first switch knob member and a second supporting surface formed on one side across the rotational axis. The first switch knob member includes a first supported surface and a second supported surface, and the second supported surface is provided with a first cam portion. The first supported surface is rotatably supported on the first supporting surface, the second supported surface is rotatably supported on the second supporting surface, and the first slider is held on a side opposite to a side where the second supporting surface is provided across the rotational axis. | ||||||
| 13 | KEYBOARD WITH GEL CONTAINING CHAMBERS IN KEY CAP | US14715540 | 2015-05-18 | US20150255232A1 | 2015-09-10 | William Bonnstauffer |
| A device is provided. The device includes a first T-shaped structure defined via a first leg and a first platform. The device further includes a key cap with an interior open chamber. The cap is mounted onto the first structure such that the chamber contains the first platform. The device also includes a second T-shaped structure defined via a second leg and a second platform. The first leg vertically moves within the second leg such that the cap travels between a depressed position and a pressed position. The cap is raised above the second platform in the depressed position. The cap is in contact with the second platform in the pressed position. | ||||||
| 14 | DOUBLE PRE-LOADED DEFLECTION WEBS FOR KEYPAD | US13969127 | 2013-08-16 | US20150049025A1 | 2015-02-19 | Chao Chen |
| A keypad for an electronic device is provided and includes a substrate, a plurality of frets disposed with the substrate and a plurality of mechanical keys disposed with the substrate and arrayed in rows interleaved among the plurality of frets, at least one of the keys being deflectable toward a position at which a switch of a circuit is affected and a capacitive sensor layer disposed between the frets and the keys and the substrate to register movement of a capacitive element across the frets and the keys. | ||||||
| 15 | Keyswitch controller | US13099364 | 2011-05-03 | US08710381B2 | 2014-04-29 | Fu-Mei Hsu; Ching-Hsiang Yu; Shao-Hsiung Chang |
| A keyswitch controller includes a housing, a circuit board, a keyswitch module, and a force feedback module. The housing includes a keyswitch hole. The circuit board is disposed in the housing and includes a switch. The keyswitch module disposed on the circuit board and passing out of the keyswitch hole is for turning on the switch by being pressed so as to generate a pressing signal. The force feedback module is coupled to the keyswitch module for vibrating according to the pressing signal. | ||||||
| 16 | KEYBOARD MODULE AND ELECTRONIC APPARATUS | US12261063 | 2008-10-30 | US20090167690A1 | 2009-07-02 | Chih-Kuang Wang; Yien-Chun Kuo; Yun-Long Tan |
| A keyboard module suitable for being applied to an electronic apparatus is provided. The electronic apparatus includes a display unit and the keyboard module. The keyboard module is electrically connected to the display unit. The keyboard module includes a supporting structure, a membrane circuit sheet, and a vibrator. The supporting structure has a carrying surface. The membrane circuit sheet is disposed on the carrying surface of the supporting structure and has a plurality of triggers. The vibrator is connected to the supporting structure. | ||||||
| 17 | Panel switch | US588942 | 1990-09-27 | US5121091A | 1992-06-09 | Terumi Fujiyama |
| A panel switch according to the present invention has a switching unit comprising a plurality of switches which are not provided with individual click mechanisms and at least one click mechanism for the switching unit. Because the switching unit does not incorporate individual click mechanisms, the panel switch can be formed into a small size. In addition, by the integration of the provided click mechanism, the degree of freedom on the design of the panel switch is enlarged, and a small-sized panel switch which is excellent in switching feeling can be offered. | ||||||
| 18 | 電気機器用操作ユニット | JP2017503567 | 2015-07-10 | JP2017524189A | 2017-08-24 | フスト,ヴィンフリート; シュタインカンプ,ミヒャエル |
| 電気機器用操作ユニット、特に暖房システム、換気システム、及び/又は空調システム等の車両部品用操作ユニット(10)であって、作動方向(28)に押下げ可能な操作要素(16)と、操作要素(16)に機械的に結合された支持要素(24)であって、操作要素(16)が支持要素(24)上で操作方向(28)に移動可能なように弾性に支持される、支持要素(24)と備える。操作要素(10)はさらに操作要素(16)が押下げられるときに操作要素(16)の動きを検出し、及び/又は操作要素(16)に加えられた力を検出するセンサ(30)と、支持要素(24)とそれに結合される操作要素(16)を動かすアクチュエータ(36)と、センサ(30)及びアクチュエータ(36)に接続された評価/駆動ユニット(34)であって、センサ(30)が操作要素(16)が押下げられた結果及び/又は力が操作要素(16)へ加えられた結果としての操作要素(16)の動きを検出したときにアクチュエータ(36)を駆動する、評価/駆動ユニット(34)を備える。支持要素(24)は操作要素(16)の作動方向(28)に対して横断方向の1以上の移動方向(38)にアクチュエータ(36)によって動かされることができる。【選択図】図1 | ||||||
| 19 | レバースイッチ | JP2013212936 | 2013-10-10 | JP2015076326A | 2015-04-20 | 菊地 剛 |
| 【課題】小型化や要求のデザインに対応しやすいレバースイッチを提供する。 【解決手段】レバースイッチ100は、ベース部材1と、第1スイッチノブ部材2と、第1節度機構50と、第1接点部5aを有する基板5と、第1接点部5aに接離する第1摺動子6とを有し、ベース部材1は第1スイッチノブ部材2の回動軸を中心とした円柱の外周面に沿って形成された第1支持面1aと回動軸を挟んで一方側に第1支持面1aよりも大径の曲面に形成された第2支持面1bとを有し、第1節度機構50を支持し、第1スイッチノブ部材2は、第1被支持面と第2被支持面とを有し、第2被支持面に第1カム部を備え、第1支持面1aにて第1被支持面を、第2支持面1bにて第2被支持面をそれぞれ回動可能に支持され、回動軸を挟んで第2支持面1bの反対側に第1摺動子6を保持する、構成とした。 【選択図】図1 |
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| 20 | キースイッチコントローラ | JP2013118169 | 2013-06-04 | JP5696968B2 | 2015-04-08 | 徐 富美; 游 錦祥; 張 紹雄 |
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