| 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 | 移动终端 | CN201010592101.4 | 2010-12-13 | CN102098370B | 2015-08-12 | 徐成永; 康允焕 |
| 本发明涉及一种移动终端,该移动终端包括:具有圆顶状形状的透光致动器;导电涂覆层,该导电涂覆层被形成为透光的并且形成在所述透光致动器的内表面处;透光基部,该透光基部具有形成在该透光基部上的第一透光电极图案和第二透光电极图案,该第一透光电极图案被设置成与所述透光致动器的边缘相接触,并且该第二透光电极图案被设置成在按压所述透光致动器时与所述透光致动器的中央部分相接触;以及显示单元,该显示单元设置在所述透光基部的下方,并且被设置成使得能够通过所述透光致动器、所述导电涂覆层以及所述透光基部而看到该显示单元上的视觉信息。 | ||||||
| 2 | 组合式触敏型数据输入装置 | CN87103331 | 1987-05-02 | CN87103331A | 1987-11-11 | 彼得·弗雷德里克·巴比; 杰克·拉塔·盖洛韦 |
| 本发明是与阴极射线管荧光屏配用的触敏型数据输入装置。该装置有一个松松支撑着一个结实明亮的衬底板的环形企口。温度膨胀系数与衬底板不同的后透明薄板元件松松地夹持在后衬底板上以防止因热膨胀不同而引起的变形。一个透明前元件与后透明薄板毗邻贴近配置,彼此相隔一段距离,它们各自的毗邻表面上有彼此正交配置的导电条。在往前元件上施力时,该各导电条就产生电气接触。一个两面涂敷有弹性粘合材料的垫片,防止污染物进入透明的前后元件之间的部位。 | ||||||
| 3 | 移动终端 | CN201010592101.4 | 2010-12-13 | CN102098370A | 2011-06-15 | 徐成永; 康允焕 |
| 本发明涉及一种移动终端,该移动终端包括:具有圆顶状形状的透光致动器;导电涂覆层,该导电涂覆层被形成为透光的并且形成在所述透光致动器的内表面处;透光基部,该透光基部具有形成在该透光基部上的第一透光电极图案和第二透光电极图案,该第一透光电极图案被设置成与所述透光致动器的边缘相接触,并且该第二透光电极图案被设置成在按压所述透光致动器时与所述透光致动器的中央部分相接触;以及显示单元,该显示单元设置在所述透光基部的下方,并且被设置成使得能够通过所述透光致动器、所述导电涂覆层以及所述透光基部而看到该显示单元上的视觉信息。 | ||||||
| 4 | 耐久性高的触摸屏 | CN02817434.8 | 2002-09-05 | CN1552015A | 2004-12-01 | 高畑和彦; 桥本孝夫; 西川和宏; 朝仓刚 |
| 上部电极板(1)具有特性为玻璃化温度在150℃以上厚度在0.15~0.8mm的光各向同性的耐热透明树脂片(8),上述耐热透明树脂片被直接或间接地全面贴合在1/4波片(9)上。 | ||||||
| 5 | KEYSWITCH | US15422443 | 2017-02-01 | US20170221653A1 | 2017-08-03 | Rui-Ming Liao; Chih-Chung Yen; Hung-Chieh Lo; Chia-Hung Liu |
| A keyswitch uses a combination of springs connected in serial for providing a return force to a keycap of the keyswitch. When the keycap moves toward a base of the keyswitch beyond a transition position, one of the springs stops continuously deforming. It leads to an increment of the elastic coefficient of the combination of springs and an increment of the elastic stored energy by the combination of springs. Therefore, during a pressing on the keycap, the keycap can provide a light force feedback and then a heavy force feedback to a user. Further, the keyswitch can use a switch with a lateral motion, which can reduce influence of a resilient force produced by the switch on the up and down movement of the keycap. The keyswitch also can use an elastic piece disposed beside the keycap, which can provide a tactile feedback to the user. | ||||||
| 6 | Active skin for conformable tactile interface | US12791230 | 2010-06-01 | US08915151B2 | 2014-12-23 | Hyouk-Ryeol Choi; Hyung-Pil Moon; Ja-Choon Koo; Se-Gon Roh |
| Disclosed is an active skin including: a tactile sensor substrate which includes a first film including a dielectric elastic material and formed with a plurality of sensing points, and a pair of first electrodes respectively formed on upper and lower sides of the sensing point; a tactile actuator substrate which includes a second film including a dielectric elastic material and formed with a plurality of actuating points, and a pair of second electrodes respectively formed on upper and lower sides of the actuating point; and an insulating layer which is interposed between the tactile sensor substrate and the tactile actuator substrate and couples the tactile sensor substrate and the tactile actuator substrate. With this, a tactile sensor and a tactile actuator are integrated, so that there is provided an interactive tactile interface to not only feel like a human's skin but also actively move like a muscle. | ||||||
| 7 | Touch panel having upper electrode plate including electrode, polarizing plate, quarter wave plate and heat-resistant transparent resin plate | US10488558 | 2002-09-05 | US07589798B2 | 2009-09-15 | Kazuhiko Takahata; Takao Hashimoto; Kazuhiro Nishikawa; Takeshi Asakura |
| An upper electrode plate has a 0.15 to 0.8 mm thick optically isotropic heat-resistant transparent resin plate having a glass transition temperature characteristic of not less than 150° C. The heat-resistant transparent resin plate is laminated directly or indirectly on a quarter wave plate all over their surfaces. | ||||||
| 8 | Touch screen assembly and display for an electronic device | US10610419 | 2003-06-30 | US20050007349A1 | 2005-01-13 | Bharat Vakil; James Tracy |
| A touch screen assembly includes a first outer layer (102) and a second outer layer (110) separated by a separator layer (118). The first and second outer layers are transparent, and the separator layer has openings (120) at button locations where buttons will be defined. On each of the outer layers is a layer of transparent conductor (104, 112). On the first outer layer the transparent conductor is in the form of a contiguous trace or path. The touch screen assembly is placed on a display element (203) and images displayed on the display element can be seen through the touch screen assembly. Images such as characters are displayed at button locations, and when a user presses on one of the images the conductive layers on the first and second outer layers of the touch screen assembly come into contact. | ||||||
| 9 | Membrane-type touch panel employing a photo-resist insulating grid anti-short means | US743991 | 1976-11-22 | US4066852A | 1978-01-03 | George Edward Zenk |
| A location sensitive touch panel for use on a rigid substrate. The substrate carries a first set of conductive strips. A resilient plastic membrane overlaying it carries a second set of conductive strips orthogonal to and spaced from the first set. Finger pressure can cause electrical contact between any one of the first set of strips and any one of the second set of strips. The substrate may be either flat or curved, with the membrane conforming to its contour. | ||||||
| 10 | Touch entry switch array | US3732389D | 1972-02-14 | US3732389A | 1973-05-08 | KAELIN G; PIATT D |
| A touch entry switch array comprising a layer of non-conductive material is sandwiched between two conductive layers. Orthogonally disposed conductors are arranged in a matrix and adapted to make electrical connection by deforming an upper resilient, transparent or translucent layer through respective apertures to establish electrical contact. Indicator means is provided to indicate through the apertures the actuation of the associated switch. In one form of the device, the orthogonal conductors are supported on the lower layer and the upper layer is constructed of transparent or translucent conductive material which may be deformed through the apertures to operate the associated switch. In another form of the invention, one set of conductors is supported on the upper layer to be deformed through the apertures to contact conductors on the lower layer.
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| 11 | Printed sensor | EP04254760.4 | 2004-08-06 | EP1512547A3 | 2006-10-11 | Devos, John A. |
A sensor/switching device configuration includes a substrate (14, 14', 214. 214', 314, 414, 914) and at least one element (16, 16', 216, 216', 316, 416, 912) imprinted on the substrate containing an electroconductive material, at least a portion of the imprinted element being visually indistinguishable from the substrate.
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| 12 | HIGH STRENGTH TOUCH PANEL AND METHOD OF MANUFACTURING THE SAME | EP98947797 | 1998-10-09 | EP1030333A4 | 2002-08-07 | HASHIMOTO TAKAO; KUSUDA YASUJI |
| A resistive film touch panel (8) wherein an upper electrode sheet (1) having an upper electrode (111) on one face of a flexible transparent film (9) and a hard coating layer (12) on the other face and a lower electrode sheet (2) having a lower electrode (121) confronting the upper electrode on one face of a glass substrate (10) are opposed to each other through a spacer (13) between the upper and lower electrodes and the upper and lower electrodes are bonded at their peripheries with an adhesive layer (3). The transparent film and the hard coating layer are fused at their edge portions, and a surface portion of the side edge face of the glass substrate is a compressive stress layer (10a). | ||||||
| 13 | MEMBRANE SWITCH | EP83902666.0 | 1983-07-28 | EP0116078A1 | 1984-08-22 | DOUGHTY, John, Irving |
| Commutateur à membrane (10) amélioré. Le commutateur (10) comprend une paire de contacts laminaires transparents (16, 18) entourant une plaque d'espacement (30) formée à l'intérieur de façon que les contacts (16, 18) puissent être engagés à l'emplacement de la fenêtre (36) par l'application de pression sur l'un des contacts (16, 18). L'engagement des contacts (16, 18) ferme un circuit afin d'effectuer une fonction voulue. Avec cette structure, est éliminé le problème de la méthode de contrejour sans distorsion des indices causée par le circuit d'encre conductrice d'argent de l'art antérieur. | ||||||
| 14 | Print sensor with confronting invisible conductive ink region | JP2004250042 | 2004-08-30 | JP2005085756A | 2005-03-31 | DEVOS JOHN A |
| PROBLEM TO BE SOLVED: To provide a sensor and a switch mechanism used for a print medium and others for expanding electronic functionality, using a small amount of resources and occupying small space. SOLUTION: In this sensor comprising a sensor/switch device provided with a base and at least one element including conductive material and attached to the base, the element is provided with at least one operating space configured with at least one from a conductive mode, an inductive mode and capacitive mode, and including at least one conductive material. This conductive material on the base is not visually recognized. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 15 | Push switch structure | JP14929599 | 1999-05-28 | JP2000311542A | 2000-11-07 | AMARI TAKESHI; FURUYA YOSHIYUKI |
| PROBLEM TO BE SOLVED: To protect a push switch from water and dust. SOLUTION: Elastic seal members 84 are fastened around key switch bodies 83 which are transparent to see a display 78. Or, the key switch bodies 83 are inserted in opening parts in an elastic seal member, and flange parts of the key switch bodies 83 are stuck fast to the elastic seal member and pressed by a cover. Housing recessed parts for momentary switches 99 are provided in the respective key switch bodies 83. The key switch bodies 83 are each provided with a transparent electrode, and the elastic seal members are stuck fast to a transparent electrode substrate disposed on a surface of the display. An integral structure 76 of the key switch bodies 83 with the elastic seal members is installed in a display case 77, which is installed on an assembly 96 of the display with a control substrate 79. The elastic seal members are stuck fast to the front side of housing parts 87 while the display is stuck fast to the back side thereof. The elastic seal members are each formed into a fan shape between the key switch bodies 83, and act as flexible parts by being bent. COPYRIGHT: (C)2000,JPO | ||||||
| 16 | Contact sensing data input unit for crt screen | JP10961387 | 1987-05-02 | JPS62271127A | 1987-11-25 | PIITAA FUREDERITSUKU BAABII; JIYATSUKU RATSUTAA GIYARAUEI |
| 17 | Panel switch | JP6778781 | 1981-05-06 | JPS57182829A | 1982-11-10 | HASEBE KOUJI; AKUTSU KAZUFUMI; MURAMOTO KAZUO |
| PURPOSE:To form a panel switch which is operated as a switch by the contact between transparent conductive films when a transparent glass plate is depressed, by providing spacers which hold and fix two, front and rear transparent glasses, to which transparent conductive films adhere, at a minute interval. CONSTITUTION:A transparent conductive film (nesa film) is stuck to one face of a thick transparent glass 8 to form back electrodes 10a-10c in a form of lines, and the nesa film is stuck to one face of a thin transparent glass plate 7 in a form of columns to form front electrodes 9a-9d. Spacers 11a and 11b are inserted between transparent glass plates 7 and 8 to hold the interval between them constant. Matrix contacts are constituted in this manner; and when a prescribed position of the thin transparent glass plate 7 is depressed, electrodes in corresponding positions of transparent glass plate 7 and 9 are brought into contact with each other, and the depressed position is detected electrically. Thus, the switch operation is possible without the degradation of the display quality in the rear even if this panel switch is mounted on the front of a CRT, and goods difficult to flaw and easy to clean are obtained because the transparent glass plate is used in the front. | ||||||
| 18 | Mobile terminal | EP10015011.9 | 2010-11-25 | EP2337049A1 | 2011-06-22 | Seo, Seongyoung; Kang, Yunhwan |
A mobile terminal includes: a light-transmissive actuator having a dome-like shape; a conductive coating layer formed to be light-transmissive and formed at an inner side of the actuator; a light-transmissive base including a first light-transmissive electrode pattern and a second light-transmissive electrode pattern formed thereon, the first light-transmissive electrode pattern being configured to contact with the edge of the actuator, and the second light-transmissive electrode pattern being configured to contact with the central portion of the actuator when the actuator is pressed; and a display unit disposed under the light-transmissive base and configured such that visual information is seen thereon through the actuator, the coated layer and the base.
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| 19 | UNITARY KEY PANEL | EP84902389.0 | 1984-05-24 | EP0151134B1 | 1990-11-22 | VILLALOBOS, Luis; HIRSCH, Steven, B.; HAUSER, Steven, G.; VON BUELOW, John |
| An environmentally protected keyboard display and input device which may be utilized in conjunction with a variety of digital control systems such as automated bank tellers or building security systems. The keyboard display and input device includes a unitary, transparent flexible keyboard (16) having thickened portions forming keys (36). The keyboard forms an environmental seal including a peripheral gasket to protect an underlying, transparent, pressure sensitive switching assembly (18), which, in turn, overlies a corresponding visual display (24) of alphanumeric characters which indicate the significance of the individual pressure sensitive switches and corresponding keys overlying each character. Pins (66, 68) are formed on the underside of the flexible keyboard (16), below each key (36), to focus and concentrate pressure exerted on each key to the corresponding presure sensitive switch below. An optical grid (22) is provided to restrict the viewing of the alphanumeric characters to the user of the device, to prevent compromising the data input. | ||||||
| 20 | MEMBRANE SWITCH. | EP83902666 | 1983-07-28 | EP0116078A4 | 1985-02-28 | DOUGHTY JOHN IRVING |
| An improved membrane switch (10). The switch (10) includes a pair of transparent, laminar contacts (16, 18) sandwiching a spacer (30) formed therein so that the contacts (16, 18) can be engaged at the location of the window (36) by the application of pressure to one of the contacts (16, 18). Engagement of the contacts (16, 18) closes a circuit to effect a desired function. With this structure, the problem of back lighting method without distortion of the indicia being caused by silver conductive ink circuit of the prior art is eliminated. | ||||||
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