| 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 | 按键装置及电子设备 | CN201110373352.8 | 2011-11-22 | CN103138732A | 2013-06-05 | 刘一农 |
| 本发明实施例提供一种按键装置以及电子设备,其包括按键体,所述按键装置包括:触摸键,其设置于所述按键体上,所述触摸键被接触,使得电容式触摸传感器的电容发生改变;印刷电路板,其一侧设置所述触摸键,用于感应所述电容式触摸传感器的电容变化而产生控制信号;机械式弹片,其设置于所述印刷电路板的另一侧,所述机械式弹片在所述按键体被按下时受到挤压而产生电信号。通过本发明实施例,既可以节约空间,又可以为用户提供更好的用户体验。 | ||||||
| 2 | 电动车窗开关 | CN201210210470.1 | 2012-06-20 | CN102842450A | 2012-12-26 | 能势隆; 酒井学; 田中康英; 吉河英俊; 后藤彰; 中野志保; 西冈卓哉; 高桥智宏; 大和美文; 清水敬一; 北川大辅; 平野香介; 原正彦; 太田宏明 |
| 本发明提供一种电动车窗开关,将车窗锁定按钮设置在车窗操作旋钮的前方,提高了基板的设计自由度。电动车窗开关(100)在壳体(1)上将车窗锁定按钮(6)设置在车窗操作旋钮(2~5)的前方,在壳体内设置基板(8)、车窗操作开关机构(12~15)以及车窗锁定开关机构(16),使连接器(9)的端子(10)的一端从壳体突出,使端子的另一端与基板连接,车窗锁定开关机构具备2个板簧(26、27)和按压板簧(26)的操作件(23)及螺旋弹簧(25),2个板簧具有导电性。在各板簧(26、27)的一端(26a、27a)设置触点(26c、27c),使另一端在端子的另一端(10b)的附近与基板连接。 | ||||||
| 3 | 开关 | CN201410677459.5 | 2014-11-21 | CN104701114A | 2015-06-10 | 前田一志 |
| 本发明提供一种在动作特性上波动少且薄型的开关。该开关具有:电路基板(30),容纳在壳体内,且在该电路基板的表面和背面分别露出有固定触点部(31a~35a);按钮(40),能够往复移动地安装在所述壳体上,且具有能够与从所述电路基板(30)的表面露出的所述固定触点部(31a、32a)滑动接触的可动接触片(42);滑钮(60),能够往复移动地安装在所述壳体上,且具有能够与从所述电路基板(30)的背面露出的所述固定触点部(33a、34a、35a)滑动接触的可动接触片。 | ||||||
| 4 | 电动车窗开关 | CN201210210470.1 | 2012-06-20 | CN102842450B | 2015-01-14 | 能势隆; 酒井学; 田中康英; 吉河英俊; 后藤彰; 中野志保; 西冈卓哉; 高桥智宏; 大和美文; 清水敬一; 北川大辅; 平野香介; 原正彦; 太田宏明 |
| 本发明提供一种电动车窗开关,将车窗锁定按钮设置在车窗操作旋钮的前方,提高了基板的设计自由度。电动车窗开关(100)在壳体(1)上将车窗锁定按钮(6)设置在车窗操作旋钮(2~5)的前方,在壳体内设置基板(8)、车窗操作开关机构(12~15)以及车窗锁定开关机构(16),使连接器(9)的端子(10)的一端从壳体突出,使端子的另一端与基板连接,车窗锁定开关机构具备2个板簧(26、27)和按压板簧(26)的操作件(23)及螺旋弹簧(25),2个板簧具有导电性。在各板簧(26、27)的一端(26a、27a)设置触点(26c、27c),使另一端在端子的另一端(10b)的附近与基板连接。 | ||||||
| 5 | 電気スイッチ | JP2017180841 | 2017-09-21 | JP2018078097A | 2018-05-17 | ゲルハルト ファングマン |
| 【課題】改善された電気スイッチを提供する。 【解決手段】本発明は、スイッチハウジング内に位置固定に配置された回路基板を含む、電気器具用の電気スイッチに関し、回路基板は、その一方の表面に、接点システムの接点経路の他に、電位差計軌道の形をした接触面も含む。接点経路は、接点システムの滑り接点と相互作用し、電位差計軌道は、接点システムの追加の滑り接点と相互作用し、電気モータの毎分回転数又はトルクを設定し、プランジャの移動により、接点システムの滑り接点が関連する接点経路と接触し、スイッチのオン位置であるプランジャのこの位置で、回転の方向を変えるために用いる滑り接点は、既に同じ様式で回路基板上の関連する電位差計軌道に接触している。 【選択図】図1 |
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| 6 | 電気スイッチ | JP2017180839 | 2017-09-21 | JP2018075705A | 2018-05-17 | ゲルハルト ファングマン |
| 【課題】モータを有する電気機器で使用する電気スイッチを提供する。 【解決手段】電気スイッチは、スイッチハウジングと、スイッチハウジングから延びて、スイッチハウジング内に配置された接触システムの少なくとも1つの接点を、移動によってオフ位置からオン位置に切り換えるプランジャと、回路基板と、モータの回転方向を変えるための転換機器と、を備える。転換機器は、外部から操作される位置エンコーダを備え、位置エンコーダは、2つの接触舌片を介して接触アームに直接接続され、一方の接触舌片は、一方の導電路と相互作用して、位置エンコーダの1つの位置にモータの時計方向回転のための接点を作成し、及び/又は他方の接触舌片は、他方の導電路と相互作用して位置エンコーダの別の位置にモータの反時計方向回転のための接点を作成する。 【選択図】図1 |
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| 7 | Luminous keyboard | US15290225 | 2016-10-11 | US09905381B1 | 2018-02-27 | Chung-Yuan Chen |
| A luminous keyboard includes plural keys, a membrane switch circuit board and a light-emitting element. The membrane switch circuit board includes an upper wiring plate, a lower wiring plate, a conductor line pattern, a separation layer and an etched line pattern. The lower wiring plate includes a wiring plate opening. The conductor line pattern is arranged between the upper wiring plate and the lower wiring plate. The etched line pattern is arranged between the separation layer and the lower wiring plate. The etched line pattern is exposed through the wiring plate opening. The light-emitting element is electrically connected with the etched line pattern through the wiring plate opening in order to acquire electric power. Consequently, it is not necessary to install the illumination circuit board to provide the electric power to the light-emitting element. | ||||||
| 8 | LUMINOUS KEYBOARD | US15290225 | 2016-10-11 | US20180040439A1 | 2018-02-08 | Chung-Yuan Chen |
| A luminous keyboard includes plural keys, a membrane switch circuit board and a light-emitting element. The membrane switch circuit board includes an upper wiring plate, a lower wiring plate, a conductor line pattern, a separation layer and an etched line pattern. The lower wiring plate includes a wiring plate opening. The conductor line pattern is arranged between the upper wiring plate and the lower wiring plate. The etched line pattern is arranged between the separation layer and the lower wiring plate. The etched line pattern is exposed through the wiring plate opening. The light-emitting element is electrically connected with the etched line pattern through the wiring plate opening in order to acquire electric power. Consequently, it is not necessary to install the illumination circuit board to provide the electric power to the light-emitting element. | ||||||
| 9 | Electric control device | US12522618 | 2008-01-16 | US08106325B2 | 2012-01-31 | Patrice Laurent; Xavier Drouin |
| The invention relates to an touch-surface electric control device (1) comprising a touch-surface sensor (29), a printed circuit board (33), connection means (42) for the electric connection between the touch-surface sensor (29) and the printed circuit board (33), the connections means (42) and the touch-surface (29) being flexible and including a connection tab (67), the touch-surface sensor (29) and the printed circuit board (33) being provided on the opposite faces of a common substrate (31) provided between said sensor (29) and said board (33), characterized in that a side face of the common substrate (31) includes a guiding protrusion (44) for the connection tab (67). | ||||||
| 10 | ILLUMINATABLE KEYBOARD | US13016124 | 2011-01-28 | US20110193784A1 | 2011-08-11 | Karl-Heinz MÜLLER |
| A keyboard that can be illuminated comprises a key array and a base element. Key buttons of the key array are held in modules arranged on a side, facing away from either the base element or a printed circuit board that is provided for delivering signals. The printed circuit board is arranged above the base element in a place close to but at a distance away from the base statement and made at least partially light-transmitting. At least one light source for emitting light is arranged on the underside of the printed circuit board that faces the base element. At least one light-scattering elements, which projects from the base element toward the printed circuit board, is arranged on the side of the base element facing the printed circuit board. | ||||||
| 11 | Dome switch | US09995840 | 2001-11-29 | US06552289B2 | 2003-04-22 | Kenichiro Kawaguchi; Yasuyoshi Serizawa; Minoru Kubota |
| In a dome switch (21) including a surface sheet (22), a spacer sheet (23), an FPC (24) serving as a circuit member, and an adhesive sheet (25), an accommodating portion (34) for a chip component (38) mounted on a contact (37) side of the FPC (24) is formed in the spacer sheet (23). In addition, an embossed portion (28) for the chip component (38) is formed in the surface sheet (22), as required. | ||||||
| 12 | Circuit and its connecting structure assembly in motorcar door | US826420 | 1997-03-27 | US5846091A | 1998-12-08 | Masataka Nishijima; Keizo Nishitani; Akio Minami |
| A circuit and its connecting structure assembly provided in a motorcar door includes an inner unit being able to joint to a door panel, and an arm rest unit attached on the inner unit. The inner unit has an inner panel provided with a circuit, a plurality of auxiliary components connected to the circuit, and an integrated connector section. The arm rest unit includes a connector portion corresponding to the integrated connector section, a control circuit board connected to the connector portion and to a switch section for the auxiliary components, a circuit provided in the arm rest body and connected to the control circuit board, and an optional switch connected to the circuit. In the optional switches connected to the circuit provided in the arm rest unit, software replacement of the control circuit board can change the functions of the optional switches. | ||||||
| 13 | ELECTRIC SWITCH | US15711661 | 2017-09-21 | US20180082805A1 | 2018-03-22 | Gerhard FANGMANN |
| An electric switch used in an electric device having a motor is provided. The electric switch comprises a switch housing, a plunger extending from the switch housing and switching from an off position into an on position of at least one contact of a contact system arranged within the switch housing via a movement, a circuit board; and a changeover device for changing a direction of rotation of the motor. The changeover device comprises a position encoder operated from outside, the position encoder is directly connected to a contact arm via two contact tongues; one contact tongue interacts with one conducting path to create a contact for the clockwise rotation of the motor in one position of the position encoder, and/or the other contact tongue interacts with other conducting paths to create a contact for the counterclockwise rotation of the motor in another position of the position encoder. | ||||||
| 14 | TOUCH PAD INPUT DEVICE | US14443991 | 2013-11-15 | US20150286302A1 | 2015-10-08 | Youn Soo Kim |
| A touch pad input device includes a touch pad having a touch area formed on an upper surface thereof; a switch installed under the touch pad to generate a signal when a downward external force more than a reference value is applied; a restoring means configured to support elastically upward a lower surface of the touch pad; and a housing in which the touch pad, the switch and the restoring means are installed. Even when only one switch is installed under the touch pad, the switch can be stably operated when each area of the touch pad is pushed, and since the separate printed circuit board for transmitting the pushing signal of the switch is omitted, it is possible to provide a simple internal structure and to reduce a manufacturing cost, and all functions of a mouse and an arrow key can be performed. | ||||||
| 15 | Illuminatable keyboard | US13016124 | 2011-01-28 | US08830178B2 | 2014-09-09 | Karl-Heinz Muller |
| A keyboard that can be illuminated comprises a key array and a base element. Key buttons of the key array are held in modules arranged on a side, facing away from either the base element or a printed circuit board that is provided for delivering signals. The printed circuit board is arranged above the base element in a place close to but at a distance away from the base statement and made at least partially light-transmitting. At least one light source for emitting light is arranged on the underside of the printed circuit board that faces the base element. At least one light-scattering elements, which projects from the base element toward the printed circuit board, is arranged on the side of the base element facing the printed circuit board. | ||||||
| 16 | POWER WINDOW SWITCH | US13529272 | 2012-06-21 | US20120325636A1 | 2012-12-27 | Takashi Nose; Manabu Sakai; Yasuhide Tanaka; Hidetoshi Yoshikawa; Akira Goto; Shiho Nakano; Takuya Nishioka; Tomohiro Takahashi; Yoshifumi Ohwa; Keiichi Shimizu; Daisuke Kitagawa; Kosuke Hirano; Masahiko Hara; Hiroaki Ohta |
| A power window switch has a case, a substrate disposed in the case, a window operation knob disposed on the case, a window lock button disposed on a front side of the window operation knob on the case, a window operation switch mechanism disposed in the case and activated in accordance with an operation of the window operation knob, a window lock switch mechanism disposed in the case and activated in accordance with an operation of the window lock button, and a connector having a terminal with a first terminal end protruding from the case and a second terminal end connected to the substrate. The window lock switch mechanism includes two conductive plate springs, and a pressing unit for pressing the plate springs. | ||||||
| 17 | RESISTIVE SWITCH MATRIX | US12212732 | 2008-09-18 | US20100066567A1 | 2010-03-18 | Paul H. Dietz; Jonathan Westhues |
| Architecture for a keyboard that supports the n-key rollover feature, while being compatible with well established, high volume, inexpensive manufacturing techniques. The design is a matrix design that uses resistors at each key rather than diodes, and employs novel circuits which allow any combination of simultaneous key presses to be detected using this resistive matrix. The resistors can be screen printed on the flexible sheets in a manner similar to the conductors. A resistive keyboard matrix employs circuit techniques that eliminate phantom key presses. The resistors can be created by screen-printing carbon ink. Additionally, various implementations of the decoder circuits can be employed to provide the n-key rollover feature on flexible sheets for inexpensive production. | ||||||
| 18 | Push-button arrangement | US628689 | 1990-12-17 | US5194703A | 1993-03-16 | Reinhard Deeg |
| Push-button device includes a plurality of movably disposed keys and an elastic switching pad having a plurality of domes. Each dome is disposed adjacent to and is engagable by one of the plurality of keys and a dome contact disposed on each dome. A conductor foil having a plurality of contacts is provided, each conductor foil contact being arranged for contacting one of the dome contacts when one of the keys is moved. A printed circuit board having upper and lower faces is arranged near the contact foil. A spacer member disposed between the upper face of the printed circuit board and the conductor foil defines an electrical component receiving space, and there is a plurality of electrical components located on the upper face in the electrical component receiving space. | ||||||
| 19 | Method of mounting electronic parts onto single-sided printed wiring board | US267290 | 1988-11-04 | US4841633A | 1989-06-27 | Seiichi Kinugawa |
| Disclosed is a method of mounting electronic parts onto a single-sided printed wiring board, including the provision of a key contact pattern on the front surface of a substrate member having a plurality of through-holes; the provision of a conductive pattern covering these through-holes on the front surface of the substrate member; and the mounting of electronic parts in position relative to these through-holes from the rear surface of the substrate member. | ||||||
| 20 | タッチ・パッド入力装置 | JP2015542955 | 2013-11-15 | JP2015535117A | 2015-12-07 | ソ キム、ヨン |
| 本発明によるタッチ・パッド入力装置は、上面にタッチ領域を有するタッチ・パッド;上記のタッチ・パッドの下側に装着されて上記のタッチ・パッドに基準値以上の下向きの外力が印加される際に信号を発生させるスイッチ;上記のタッチ・パッド底面を上向きに弾性支持する復原手段;上記のタッチ・パッドと上記のスイッチと上記の復原手段が内側に実装されるハウジング;を含む。本発明によるタッチ・パッド入力装置を利用すれば、タッチ・パッドの下側に一つのスイッチだけを設置してもタッチ・パッドのそれぞれの部位を押した際に上記のスイッチが安定して動作することができ、スイッチの押し信号を伝達するための別のプリント回路基板が省略されるので、内部の構造の単純化および原価節減が可能になり、マウスが有するすべての機能と方向キーの機能をすべて具現することができるメリットがある。【選択図】図3 | ||||||
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