| 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 | 触摸屏组件 | CN200680007448.X | 2006-03-06 | CN101138059A | 2008-03-05 | 西川和宏; 朝仓刚; 土田典明; 浜冈弘一 |
| 触摸屏(4)的上电极薄膜(1)的表面上具有:以其周边部分比触摸屏(4)向外伸展的状态粘贴的装饰片(5);在装饰片(5)上一体成形的、表面被装饰片(5)覆盖并且将触摸屏(4)的侧面围起来的触摸屏组件用壳体(6)。 | ||||||
| 2 | 触摸屏组件 | CN200680007448.X | 2006-03-06 | CN101138059B | 2014-01-29 | 西川和宏; 朝仓刚; 土田典明; 浜冈弘一 |
| 触摸屏(4)的上电极薄膜(1)的表面上具有:以其周边部分比触摸屏(4)向外伸展的状态粘贴的装饰片(5);在装饰片(5)上一体成形的、表面被装饰片(5)覆盖并且将触摸屏(4)的侧面围起来的触摸屏组件用壳体(6)。 | ||||||
| 3 | 小型电子仪器用侧压式按压开关 | CN201110005145.7 | 2011-01-06 | CN102270542A | 2011-12-07 | 吉田晴夫; 大石谅太郎 |
| 本发明提供一种可以以使小型便携式电子仪器的主基板位于侧压式按压开关的背面的高度方向中央位置的相对位置关系安装的小型电子仪器用侧压式按压开关。在固定于便携式小型电子仪器的外壳的侧面的做成平板状的模制壳的表面具有开关部,成对主基板连接片从模制壳的平行于平板状的厚度方向的周面突出,成对主基板连接片包括:从模制壳突出的纵向突出部;将其前端向模制壳背面侧倾斜地折弯的接触弹簧部;以及使接触弹簧部的前端向与其倾斜方向相反的方向弯曲的形状的接触部,接触弹簧部的前端延长至模制壳的背面的中央部分位置,接触部与便携式小型电子仪器内的主基板的表面的垫片部弹性接触。 | ||||||
| 4 | Side-push type push switch for compact electronic apparatus | JP2010126781 | 2010-06-02 | JP2011253719A | 2011-12-15 | YOSHIDA HARUO; OISHI RYOTARO |
| PROBLEM TO BE SOLVED: To provide a side-push type push switch for a compact electronic apparatus, capable of being mounted at a relative positional relationship with a main board of the compact electronic apparatus so as to be positioned at the center position in the height direction of the rear face of the side-push type push switch.SOLUTION: A switch part 11 is provided on a surface of a flat-plate shaped mold case 10 that is fixed on a lateral face of an exterior case 30 of a portable compact electronic apparatus; a pair of main board connection pieces 20 and 21 is protruded from a peripheral surface oriented to a thickness direction of the flat-plate shaped mold case 10; the pair of main board connection pieces 20 and 21 is comprised of a vertically directed protrusion part 25 protruded from the mold case 10, a contact spring part 26 whose tip is folded obliquely in a rear face side of the mold case 10, and a contact part 27 with a shape that the tip of the contact spring part 26 is curved in a direction reversed to an inclined direction of the tip thereof; and the tip of the contact spring part 26 is extended to a central part position of the rear face of the mold case 10 so that the contact part 27 is in elastic contact with a pad part on a surface of a main board 31 inside the portable compact electronic apparatus. | ||||||
| 5 | Touch panel unit | JP2007507099 | 2006-03-06 | JP4729560B2 | 2011-07-20 | 典明 土田; 剛 朝倉; 弘一 浜岡; 和宏 西川 |
| 6 | タッチパネルユニット | JP2007507099 | 2006-03-06 | JPWO2006095684A1 | 2008-08-14 | 西川 和宏; 和宏 西川; 朝倉 剛; 剛 朝倉; 典明 土田; 浜岡 弘一; 弘一 浜岡 |
| タッチパネル(4)の上部電極フィルム(1)の表面に、タッチパネル(4)より周囲が張り出すように貼り合わせられたデザインシート(5)と、デザインシート(5)に一体的に成形されて表面がデザインシート(5)で覆われかつタッチパネル(4)の側面を囲むタッチパネルユニット用筐体(6)とを備える。 | ||||||
| 7 | JPS5229576B1 - | JP4690571 | 1971-06-29 | JPS5229576B1 | 1977-08-03 | |
| 8 | Keypad apparatus for use with electronic devices and related methods | EP12184954.1 | 2012-09-19 | EP2711953A1 | 2014-03-26 | Los, Oleg |
A keypad apparatus and related methods are disclosed herein. An example keypad apparatus includes an electrical switch and a carrier composed of a plastic resin. The carrier has conductive traces printed thereon to couple the electrical switch to a circuit board via interference. |
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| 9 | INTERRUPTEUR ÉLECTRIQUE, DE TYPE NORMALEMENT FERMÉ, NOTAMMENT POUR DISPOSITIF PORTABLE DE COMMUNICATION | EP11726903.5 | 2011-05-26 | EP2577700A1 | 2013-04-10 | BOGET, Christophe |
| The switch (10) comprises a printed circuit (12), of generally plane shape, and comprising a first face bearing a first contact pad, a second face (12B), opposite the first, bearing a second contact pad (18), and a through-orifice (14) allowing access between the first face (12A) and the second face (12B). The switch (10) also includes a conductor (20), comprising a first part (22), which cooperates with the first contact pad (16), and a second part (24), which extends between a first end (24A), fixed to the first part (22), and a free second end (24B), passing through the orifice (14). The second part (24) is elastically deformable between a rest position, in which its second end (24B) cooperates with the second contact pad (18), and a stressed position, in which its second end (24B) is moved away from the second contact pad (18). | ||||||
| 10 | Key assembly | EP96306973.7 | 1996-09-25 | EP0766276A3 | 1998-04-29 | Riddiford, Martin Philip |
A key assembly comprising a base (5); a manually operable key (15) secured to, and mounted above the base by, a resilient key mat (26) having an upstanding wall (28). The key (15) is moveable against the resilience of the upstanding wall (28) towards the base (5). A guide assembly (19,20) extends between the base and the key to guide movement of the keys. A membrane (33) is supported on the base (5) and carries a pair of electrically insulated first contacts (35,36), each first contact of the pair being connected to a respective electrical track (37,38) supported on the membrane and extending to a connection location (39). A second contact (22) is provided on the underside of the key or the key mat and has a size and position such that movement of the key (15) towards the base (5) causes the second contact (32) to engage both first contacts (35,36) and thereby electrically connect the first contacts. |
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| 11 | Lateral press push switch for a compact electronic device | EP10252111.9 | 2010-12-14 | EP2395528A1 | 2011-12-14 | Yoshida, Haruo; Oishi, Ryotaro |
Problem: To provide a lateral press push switch for a compact electronic device that has the capability to install with a relative positional relationship that allows the main board of the compact electronic device to be positioned at a central position in the height direction of the rear surface of the lateral press push switch. Solution Means The present invention provides a switch component (11) on the front surface of molded case (10) made a flat plate shape and fixed to the side surface of exterior case (30) of a mobile compact electronic device, and arranging such that main board opposing connection piece (20 and 21) projects from the peripheral surface as facing the thickness direction of the flat plate shape of molded case (10), and main board opposing connection piece (20 and 21) is structured of vertically facing projection component (25) that projects from molded case (10), contact spring component (26) that has bent the leading end of vertically facing connection component (25) at an angle toward the molded case rear surface side, and connection component (27) of a shape that has curved the leading end of contact spring component (26) in the opposite direction of the previous incline direction. The leading end of contact spring component (26) can be extended to a central section position of the rear surface of molded case (10), such that connection component (27) makes elastic contact against the pad of the surface of main board (31) within the mobile compact electronic device.
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| 12 | Key assembly | EP96306973.7 | 1996-09-25 | EP0766276B1 | 2007-07-18 | Riddiford, Martin Philip |
| 13 | Key assembly | EP96306973.7 | 1996-09-25 | EP0766276A2 | 1997-04-02 | Riddiford, Martin Philip |
A key assembly comprising a base (5); a manually operable key (15) secured to, and mounted above the base by, a resilient key mat (26) having an upstanding wall (28). The key (15) is moveable against the resilience of the upstanding wall (28) towards the base (5). A guide assembly (19,20) extends between the base and the key to guide movement of the keys. A membrane (33) is supported on the base (5) and carries a pair of electrically insulated first contacts (35,36), each first contact of the pair being connected to a respective electrical track (37,38) supported on the membrane and extending to a connection location (39). A second contact (22) is provided on the underside of the key or the key mat and has a size and position such that movement of the key (15) towards the base (5) causes the second contact (32) to engage both first contacts (35,36) and thereby electrically connect the first contacts. |
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| 14 | SWITCH HAVING IMPROVED COVER | US14841551 | 2015-08-31 | US20160064159A1 | 2016-03-03 | YUSHO NAKASE; LIANG SUN |
| An electrical switch (120) includes an insulative housing (121), the operation part (150) disposed in the housing (121), and the metallic cover (160) enclosing the housing (121). The metallic cover (160) includes a front plate (161), a pair of side plates (164) extending rearwardly from two opposite lateral sides of the front plate (161). The side plate (164) include a main body (165) to cover the corresponding side wall (125) of the housing and an extension (167) extending beyond a rear face of the housing (121) and adapted to be soldered upon a printed circuit board (110) on which the housing (121) is seated. | ||||||
| 15 | 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. | ||||||
| 16 | Touch Panel Unit | US11885880 | 2006-03-06 | US20080136788A1 | 2008-06-12 | Kazuhiro Nishikawa; Takeshi Asakura; Noriaki Tsuchida; Koichi Hamaoka |
| There are provided a design sheet (5) attached to the surface of an upper electrode film (1) of a touch panel (4) such that the design sheet is protruded at its periphery from the touch panel (4) and a touch-panel-unit casing (6) which is integrally molded with the design sheet (5) such that the casing is covered at its surface with the design sheet (5) and surrounds the side surfaces of the touch panel (4). | ||||||
| 17 | Computer keyboard key device made from a rigid printed circuit board | US09764397 | 2001-01-19 | US06388219B2 | 2002-05-14 | Chien-Shih Hsu; Pin-Chien Liao |
| A key device for a computer keyboard has a rigid printed circuit board, a flexible printed circuit board, and a key structure. The rigid printed circuit board has two adjacent but unconnected conductive ends electrically connected to two wires respectively. The flexible printed circuit board, fixed over the rigid printed circuit board, has a conductive segment installed above the two conductive ends, and an isolation layer installed around the conductive segment to form a gap between the conductive segment and the two conductive ends. The key structure is moveably fixed on the flexible printed circuit board in an up and down manner. When the key structure is pushed downward, the bottom of the key structure will touch the conductive segment of the flexible printed circuit board, and the conductive segment will touch the two conductive ends of the rigid printed circuit board to electrically connect the two conductive ends and the two wires. | ||||||
| 18 | Key assembly | US723881 | 1996-09-23 | US5777281A | 1998-07-07 | Martin Philip Riddiford |
| A key assembly comprising a base; a manually operable key secured to, and mounted above the base by, a resilient key mat having an upstanding wall. The key is moveable against the resilience of the upstanding wall towards the base. A guide assembly extends between the base and the key to guide movement of the keys. A membrane is supported on the base and carries a pair of electrically insulated first contacts, each first contact of the pair being connected to a respective electrical track supported on the membrane and extending to a connection location. A second contact is provided on the underside of the key or the key mat and has a size and position such that movement of the key towards the base causes the second contact to engage both first contacts and thereby electrically connect the first contacts. | ||||||
| 19 | Membrane switch apparatus | US585773 | 1975-06-11 | US4034176A | 1977-07-05 | Willis August Larson |
| A membrane switch in which a membrane layer is supported in a spaced relation from at least one contact of one or more pairs of electrically conductive switch contacts. The contacts are mounted on an insulated substrate. The membrane surface adjacent the contacts has an electrically conductive bridging surface supported thereon such that depression of the membrane will bridge the contacts to complete a circuit. The membrane is mounted on the substrate and is held in a normally spaced relationship with the contacts by a plurality of projections formed on the membrane surface adjacent the substrate or one or more of the contact surfaces. The projections may be integrally formed by puncturing the membrane surface with a sharp object or projections may be formed by permanently deforming the membrane without rupturing the membrane itself. Additionally, the projections may be formed by applying individual spacer elements to the membrane surface. | ||||||
| 20 | Membrane keyboard apparatus | US564912 | 1975-04-03 | US3995126A | 1976-11-30 | Willis August Larson |
| Membrane keyboard apparatus is disclosed including an insulator having a conductive sheet thereon providing a plurality of first electrode members in the form of an array of apertures, and a plurality of second electrode members located concentrically within and spaced from the periphery of the apertures of the first electrodes to form an array of individual switching units. The height of the conductive sheet is greater than the height of the second electrode members whereby the level of the top surfaces of the plurality of first electrode members is vertically spaced above the level of the top surfaces of the second electrode members. A flexible, conductive member is disposed in a spaced relation above and adjacent to the level of the top surfaces of the pluralities of first and second electrode members. An identification member having an array of indicia corresponding to the array of individual switching units is disposed in a spaced relation above and adjacent to the flexible conductor. A threshold member is included in the form of an array of elastic bubble members corresponding to the array of individual switching units and including air escape means for the bubble members to avoid problems with trapped air. The bubble members are actuable by the touch which causes the selected bubble member to be deflected into the flexible conductive member to provide a conductive path between the associated first and second electrode members of the underlying switching units. | ||||||
