| 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 | 具有弯曲可变形接触元件的按钮开关 | CN201380037819.9 | 2013-07-18 | CN104584166A | 2015-04-29 | 弗莱明·德隆; 丹·拉森 |
| 本发明涉及按钮开关5,其包括弯曲的可变形接触元件4。按钮开关5包括至少一个第一末端点1、至少一个第二末端点2和至少一个第三末端点3。可变形接触元件4在第一状态和第二状态之间转换。在第一状态中,可变形接触元件4将至少一个第一末端点1和至少一个第二末端点2连接,而在至少一个第三末端点3和至少一个第一末端点1之间没有接触,并且在至少一个第三末端点3和至少一个第二末端点2之间也没有接触。在第二状态中,可变形接触元件4将至少一个第一末端点和至少一个第三末端点3连接,而至少一个第二末端点2和至少一个第一末端点1之间没有接触,至少一个第二末端点2和至少一个第三末端点3之间也没有接触。这意指按钮开关5设计为常闭和常开。 | ||||||
| 2 | 开关装置 | CN200910006051.4 | 2009-01-22 | CN101499388A | 2009-08-05 | 渡边僚志 |
| 本发明提供一种能够防止由按压接触用的可动接点部和其固定接点部之间的润滑脂产生接触不良的开关装置。开关装置具有:装置主体(1),其内置有按压接触用的固定接点部(11A~11C),且具有与按压接触用的固定接点部(11A~11C)一起形成开关电路的滑动接触用的固定接点部(21A~23A);以及保持在装置主体(1)上,且分别具有操作钮(30、60)的按压开关(3)和旋转开关(6),按压开关(3)具有与按压接触用的固定接点部(11A)对应的按压接触用的可动接点部(315),旋转开关(6)具有与滑动接触用的固定接点部(21A~23A)对应的滑动接触用的可动接点部(150A~150C)。 | ||||||
| 3 | 具有弯曲可变形接触元件的按钮开关 | CN201380037819.9 | 2013-07-18 | CN104584166B | 2017-10-20 | 弗莱明·德隆; 丹·拉森 |
| 本发明涉及按钮开关(5),其包括弯曲的可变形接触元件(4)。按钮开关(5)包括至少一个第一末端点(1)、至少一个第二末端点(2)和至少一个第三末端点(3)。可变形接触元件(4)在第一状态和第二状态之间转换。在第一状态中,可变形接触元件(4)将至少一个第一末端点(1)和至少一个第二末端点(2)连接,而在至少一个第三末端点(3)和至少一个第一末端点(1)之间没有接触,并且在至少一个第三末端点(3)和至少一个第二末端点(2)之间也没有接触。在第二状态中,可变形接触元件(4)将至少一个第一末端点和至少一个第三末端点(3)连接,而至少一个第二末端点(2)和至少一个第一末端点(1)之间没有接触,至少一个第二末端点(2)和至少一个第三末端点(3)之间也没有接触。这意指按钮开关(5)设计为常闭和常开。 | ||||||
| 4 | 开关装置 | CN200910006051.4 | 2009-01-22 | CN101499388B | 2012-04-25 | 渡边僚志 |
| 本发明提供一种能够防止由按压接触用的可动接点部和其固定接点部之间的润滑脂产生接触不良的开关装置。开关装置具有:装置主体(1),其内置有按压接触用的固定接点部(11A~11C),且具有与按压接触用的固定接点部(11A~11C)一起形成开关电路的滑动接触用的固定接点部(21A~23A);以及保持在装置主体(1)上,且分别具有操作钮(30、60)的按压开关(3)和旋转开关(6),按压开关(3)具有与按压接触用的固定接点部(11A)对应的按压接触用的可动接点部(315),旋转开关(6)具有与滑动接触用的固定接点部(21A~23A)对应的滑动接触用的可动接点部(150A~150C)。 | ||||||
| 5 | 触摸屏及利用了该触摸屏的可动接点体和开关 | CN200910001881.8 | 2009-01-14 | CN101488064B | 2011-06-15 | 立畠直树; 近久阳介; 田边功二 |
| 通过由透光性的导电性树脂形成在透光性的下基板的上面形成的多个带状下电极、和与该下电极隔着规定的间隔并沿着与下电极正交的方向形成的多个带状上电极,可以利用印刷等简易的方法形成上电极和下电极,由此,能够实现制作容易且廉价的触摸屏。 | ||||||
| 6 | 触摸屏及利用了该触摸屏的可动接点体和开关 | CN200910001881.8 | 2009-01-14 | CN101488064A | 2009-07-22 | 立畠直树; 近久阳介; 田边功二 |
| 通过由透光性的导电性树脂形成在透光性的下基板的上面形成的多个带状下电极、和与该下电极隔着规定的间隔并沿着与下电极正交的方向形成的多个带状上电极,可以利用印刷等简易的方法形成上电极和下电极,由此,能够实现制作容易且廉价的触摸屏。 | ||||||
| 7 | PUSH BUTTON SWITCH HAVING A CURVED DEFORMABLE CONTACT ELEMENT | EP13742584.9 | 2013-07-18 | EP2875516B1 | 2016-09-07 | DROMPH, Flemming; LARSEN, Dan |
| 8 | INTERRUPTEUR ÉLECTRIQUE, DE TYPE NORMALEMENT FERMÉ, NOTAMMENT POUR DISPOSITIF PORTABLE DE COMMUNICATION | EP11726903.5 | 2011-05-26 | EP2577700B1 | 2014-03-26 | BOGET, Christophe |
| 9 | 変形可能な曲面状接触要素を有する押しボタンスイッチ | JP2015521982 | 2013-07-18 | JP6267699B2 | 2018-01-24 | ドゥロンフ,フレミン; ラーセン,ダン |
| 10 | Switching equipment | JP2008017511 | 2008-01-29 | JP5128300B2 | 2013-01-23 | 僚志 渡辺 |
| 11 | Touching device | JP4565676 | 1976-04-23 | JPS5251827A | 1977-04-26 | JIYOSEFU JIEI IICHIYASU; SEODOORU ESU GURAAFU |
| 12 | SWITCH | US15941103 | 2018-03-30 | US20180301297A1 | 2018-10-18 | Hiroshi OHARA |
| A switch includes a housing including a bottom surface and a protrusion formed on the bottom surface, a board that is placed on the bottom surface of the housing and includes a fixed contact, the board and the protrusion being fitted together, a movable contact that is disposed to cover at least portions of the fixed contact and the protrusion and configured to be inverted, and an operation part that presses the movable contact toward the fixed contact. | ||||||
| 13 | Switch device | US12354595 | 2009-01-15 | US07943870B2 | 2011-05-17 | Ryoji Watanabe |
| A switch device, includes a device main body incorporating a fixed pressure contact portion and includes a fixed sliding contact portion that forms a circuit together with the fixed pressure contact portion, and at least one pair of switches supported on the device main body, each switch comprising an operating knob. One switch of the at least one pair of switches includes a pressure-operated switch includes a movable pressure contact portion corresponding to the fixed pressure contact portion, and another switch includes a slide-operated switch includes a movable sliding contact portion corresponding to the fixed sliding contact portion. | ||||||
| 14 | Printed circuit board tact switch | US10514469 | 2004-06-07 | US07183634B2 | 2007-02-27 | Soo Ho Lee |
| The present invention relates to a PCB-type tactile switch, which improves clicking operation and prevents operational errors, thus improving functionality and reliability of products including the tactile switch. The tactile switch of the present invention comprises an insulating member (100), an interval maintaining member (200), a lower pattern (300), a solder mask (400), a groove (500), a upper conducting coat (600), a lower conducting coat (610), a short circuit part of electricity (700), a metal dome (800), and a cover layer (900). | ||||||
| 15 | Printed circuit board tact switch | US10514469 | 2004-06-07 | US20060073341A1 | 2006-04-06 | Soo Lee |
| The present invention relates to a PCB-type tactile switch, which improves clicking operation and prevents operational errors, thus improving functionality and reliability of products including the tactile switch. The tactile switch of the present invention comprises an insulating member (100), an interval maintaining member (200), a lower pattern (300), a solder mask (400), a groove (500), a upper conducting coat (600), a lower conducting coat (610), a short circuit part of electricity (700), a metal dome (800), and a cover layer (900). | ||||||
| 16 | Structure of keyboard | US274697 | 1994-07-14 | US5517009A | 1996-05-14 | Fu-Li Yang |
| A keyboard for a computer includes a rubber pad having conductive rubber cones and a recessed portion, a key unit having keys respectively disposed above the rubber cones, an upper silver grating and a bottom silver grating and retained between a frame and the rubber pad and having projecting strips with respective electric contacts projecting into the recessed portion and in contact with a circuit board mounted within the recessed portion. | ||||||
| 17 | Two-layer membrane switch | US879666 | 1992-05-06 | US5438177A | 1995-08-01 | Mark W. Fagan |
| A two-layer membrane switch particularly suited for application as a keyswitch in low-profile keyboard applications, such as keyboards for notebook or laptop type personal computers. When used as a keyswitch, the switch comprises a first conductor layer including a conductive ink patterned as an electrical contact on a polyester dielectric film around an opening through the film. A second conductor layer, also includes a conductive ink patterned as an electrical contact on a polyester dielectric film. With the electrical contact of the second conductor layer located under the corresponding opening in the first conductor layer, a moveable, conductive elastomer switch closure is used to establish electrical contact between the electrical contact of the first conductor layer and the electrical contact of the second conductor layer through the opening in the first conductor. | ||||||
| 18 | Method of making pushbutton keyboard system | US716034 | 1976-08-20 | US4068369A | 1978-01-17 | Perry W. Kaminski |
| A keyboard system for an electronic pocket calculator or the like comprises a substrate board having a generally flat surface with a network of circuit paths thereon. The board is provided with switch contacts at a plurality of switching stations and terminals at a margin of the board for electrical interconnection to other electronic components (e.g., to the solid state logic components or the like on the motherboard of the calculator). Conductor paths and the network of circuit paths interconnect the contacts and the terminals. A dielectric layer is disposed on the substrate leaving the portions of the network of circuit paths exposed. A plurality of spaced electrically conductive inner contact portions are disposed on the substrate in electrical communication with certain ones of the exposed circuit paths and a plurality of outer contact portions are disposed on the top of the dielectric layer, an outer contact portion adjacent each inner contact portion, the top surface of the outer contact portion spaced from the substrate a greater distance than the top surface of the inner contact position is spaced from the substrate. A switch actuating electrically conductive disc is placed over each outer contact portion and is resiliently deformable between an initial position in which its outer margin is in contact with the outer contact portion and in which it is clear of the inner contact portion and an actuated position in which the outer margin of the disc remains in contact with the outer contact portion and in which one point of the disc is in contact with the inner contact portion thereby to complete a circuit between the inner and outer contact portions. A sheet of flexible insulative material is adhesively bonded to the keyboard and to the outer faces of the discs for securing the discs in position relative to their respective contact portions for permitting the discs to be deformed to their actuated positions and for sealing the discs to the board. | ||||||
| 19 | Pushbutton keyboard switch assembly with improved over center diaphragm contact | US3684842D | 1970-07-01 | US3684842A | 1972-08-15 | BOULANGER HENRY J |
| A selectively energizable keyboard system is disclosed including a plurality of selectively actuatable pushbutton members having exposed surfaces adapted to be symbolized in accordance with electronic functions generated by actuation of the pushbutton members, and having opposed surfaces adapted to transmit force in response to actuation. A plurality of conductive elements are supported in registration with the opposed surfaces of the pushbutton members, each having a dished surface of curvature when in an unactuated condition and adapted to be deflected into an over-center position in response to application of force by a pushbutton member. A conductive member having a plurality of contact areas in electrical contact with the conductive elements is arranged adjacent the set of conductive elements. In addition, a plurality of conductive paths are arranged at a surface of a support member facing the conductive member. Each of the conductive paths is adapted to be electrically connected to the conductive member through one of the conductive elements, when the conductive element is deflected into its over-center position.
|
||||||
| 20 | Electronic module for protecting a HVDC converter from current surges of energy discharges from a capacitor of the converter | US15104305 | 2013-12-17 | US10109444B2 | 2018-10-23 | Daniel Boehme |
| An electronic module for protecting power semiconductor devices of an HVDC converter against high current surges and damaging electrical discharges includes a capacitor, a short circuit device, a movable portion, a short circuit portion and a spring element. The short circuit device is connected in parallel with the capacitor and has first and second busbars. The movable portion is connected to the first busbar and the short circuit portion is connected to the second busbar. The spring element is arranged between the movable portion and the short circuit portion. When a short circuit current flows through the first busbar, an electromagnetic force between the busbars causes the first busbar to repel the second busbar and move towards the short circuit portion. The latter provides a short circuit path connecting the first busbar to the second busbar short circuiting the capacitor and bypassing the power semiconductor devices of the HVDC converter. | ||||||
QQ群二维码
意见反馈
意见反馈