| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | Transparent conductive film, its production method and a touch panel having the same | JP2008000700 | 2008-01-07 | JP4667471B2 | 2011-04-13 | 智剛 梨木; 英男 菅原 |
| 142 | Transparent conductive film, method for production thereof and touch panel therewith | JP2008000700 | 2008-01-07 | JP2009076432A | 2009-04-09 | NASHIKI TOMOTAKE; SUGAWARA HIDEO |
| <P>PROBLEM TO BE SOLVED: To provide a transparent conductive film in which a transparent conductive layer is patterned and which looks good, and its manufacturing method. <P>SOLUTION: A transparent conductive film includes a transparent film substrate and a transparent conductive layer provided on one or both sides of the transparent film substrate with at least one undercoat layer therebetween, wherein the transparent conductive layer is patterned and a non-patterned portion having no transparent conductive layer has at least one undercoat layer. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 143 | Member and a method of manufacturing the same for a push button switch | JP2006156809 | 2006-06-06 | JP4146866B2 | 2008-09-10 | 正平 村上; 勝 相馬 |
| 144 | Touch sensing device and a method of manufacturing the same | JP53157696 | 1996-03-11 | JPH10505941A | 1998-06-09 | ナイジェル デヴィッド ヤング |
| (57)【要約】 タッチ検知装置は個別に動作可能な複数のタッチ検知素子(10)を具え、これらタッチ検知素子は互いに重なり合うと共に離間した第1及び第2の導電層(12,15)を有し、第2の導電層(15)はタッチ入力に応じて第1の導電層に向けて変位可能である。 このタッチ検知装置は支持部材上(14)上に薄膜多層構造体を形成することにより作られ、この薄膜多層構造体は第1及び第2の導電層とこれら導電層間に形成した絶縁層(16)とを有し、第2導電層(15)には予め定めた区域に開口が形成されている。 この構造体はエッチング処理され、前記開口を介して導電層間の絶縁材料が除去されてギャップ(19)が形成され、各区域の第2導電層は区域の周囲の絶縁層により第1の導電層(12)から離間するように支持される。 このタッチ検知装置は例えばキーボードとして用いられ、又は行及び列のマトリックス状に配置した多数のと共に図形タブレット又は表示オーバレイとして用いられ、針により動作する。 この装置は液晶表示パネルと一体化することができ、パネルの支持基板を支持部材(14)として用いることができる。 | ||||||
| 145 | Manufacture of touch switch | JP17406787 | 1987-07-13 | JPS6417340A | 1989-01-20 | YAMAGISHI HIDEHARU |
| PURPOSE:To improve the durability and cope with the fine patternization by uniformly coating optical setting resin on the surface of conductive patterns on at least one side of an insulating sheet, providing a spacer positive in layer, the resin is exposed and hardened, and the unexposed section is removed to form a spacer. CONSTITUTION:After conductive patterns 11 each made of a contact and a circuit pattern are formed on an insulating sheet 10, optical setting resin is uniformly coated on the surface, a spacer positive 14 in layer, the exposure and development (rinsing) are performed, and the lower pattern face with spacer patterns 15 is obtained. The upper pattern face formed with conductive pattern likewise is combined with the lower pattern to produce a touch switch. The durability (keying characteristic) is thereby improved, and the fine patternization can be coped with. | ||||||
| 146 | Manufacture of spacer member for touch switch | JP9930687 | 1987-04-22 | JPS63264830A | 1988-11-01 | YAMAGISHI HIDEHARU; TAGUCHI YUKIHISA; HIRANO RYUICHIRO |
| PURPOSE: To obtain a spacer which is excellent in its touch performance by using light hardenability resin as a spacer member for a touch switch and junctioning its peripheral overlap width part continuously with a spacer pattern. CONSTITUTION: A positive-film 11 with a spacer pattern is stuck on a cover film 10 coated with transparent light hardenability resin 12, and a base film 13 is superposed on a surface of the light hardenability resin. Ultraviolet rays UV are radiated from a side of the positive-film 11 so that the resin is hardened to form a spacer 1. The spacer 1 is provisionally fixed on a base film 13 side until membrane assembly working is started. A spacer with high touch endurability can be obtained accordingly. COPYRIGHT: (C)1988,JPO&Japio | ||||||
| 147 | Sheet type miniature electronic device | JP21215082 | 1982-12-03 | JPS59103163A | 1984-06-14 | SUGIYAMA KAZUHIRO; SHIMAZAKI TATSUO |
| PURPOSE: To absorb the recesses/projections and size variance of each electronic parts and at the same time to set upper and lower covers in parallel to each other with an even space, by providing an adhesive layer between the structure of electronic parts and the lower cover. CONSTITUTION: An electronic parts structure 1 is constitited by combining a wiring base board 11, an IC element 12, electronic parts 13, a display panel 14 and a solar battery. An upper cover 2 is obtained by laminating up and down an upper surface protecting sheet 18, a contact sheet 16, a spacer 17 and a frame body 19; while a lower cover 3 is obtained by laminating up and down a support sheet 20 (stainless sheet of 100μ thickness) and a lower surface protecting sheet 21 (transparent polyfilm of 25μ thickness). The cover 2 is adhered close to the upper side of the structure 1 with an adhesive layer 4 (insulated adhesive 22) is provided to the lower side of the structure 1. Then the cover 3 is adhered close to the lower side of the layer 4. Thus a sheet type matter is obtained with a small thickness as a whole. COPYRIGHT: (C)1984,JPO&Japio | ||||||
| 148 | JPS5843147Y2 - | JP17978578 | 1978-12-28 | JPS5843147Y2 | 1983-09-29 | |
| 149 | JPS5613290B2 - | JP11519175 | 1975-09-23 | JPS5613290B2 | 1981-03-27 | |
| 150 | JPS55100225U - | JP17978578 | 1978-12-28 | JPS55100225U | 1980-07-12 | |
| 151 | JPS557643B2 - | JP14461773 | 1973-12-27 | JPS557643B2 | 1980-02-27 | |
| 1430399 Retractive switches BOWMAR INSTRUMENT CORP 20 Dec 1973 [2 Jan 1973] 59172/73 Heading H1N A keyboard switch assembly comprises pushbuttons 22 each of which actuates a resilient, conductive switch device 14 from a rest position to a deflected position in which it interconnects co-planar conductors such as 30-3, 32, Fig. 5, carried by, for example by being printed on, an insulating board 12, at least one other conductor being provided on the board spaced from and co-planar with the first-mentioned conductors and extending under the switch device but having no electrical connection therewith in either of its positions. As shown, the switch device is a snap-acting dome of, for example, square, triangular or circular shape and formed with dimples or projections 64, 66 on its periphery and at the centre thereof respectively, which form contact portions for engaging the conductors. The switching devices are located in apertures 74 in an insulating sheet 16 superimposed on the board 12 and over which is laid a flexible insulating cover sheet 18. The assembly is completed by a cover member 20 which is apertured at 76 for retention and location of the push-buttons. The latter have X-shaped projections 78 which act through the sheet 18 on the switching devices. The conductors and parts thereof which are not engaged by a particular switching device may be covered with an insulating layer (56), Fig. 7 (not shown), and the contact portions of the conductors may be plated with gold on nickel. Fig. 11 shows a modification in which an insulating sheet 82 extends between the sheet 16 and board 12 and has apertures such as 86, 88 which expose the contact portions of the conductors for engagement by the dimples 64 |
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| 152 | Kaiheikisochi oyobi sonoseizohoho | JP11465875 | 1975-09-22 | JPS5160967A | 1976-05-27 | UENDERU SHII JONSON |
| A multiple switching apparatus comprising two spring-like switching members disposed in a tandem array with each integral with its metallic support base. The central area of each of the switching members is defined by a plurality of slots formed in the support base with the length and displacement of the slots defining the force-displacement characteristics of each switching member and, accordingly, of the tandem array. The top switching member moves downward until it produces a first switching function, with further movement of the top switching member effecting movement of the second switching member such that a second switching function is produced. | ||||||
| 153 | JPS50135570A - | JP3864475 | 1975-04-01 | JPS50135570A | 1975-10-27 | |
| 1501125 Retractive switches LITTON INDUSTRIES Inc 5 March 1975 [1 April 1974] 9223/75 Heading H1N A multiple switching assembly comprises a two-dimensional array of switches formed by respective pairs of co-operable contacts 98, 114, contact 114 being carried by a first printed circuit card 106 and contact 98 being carried by resilient zones of a second printed circuit card 92, the cards being separated by spacing means containing apertures aligned with the contacts, the spacing means comprising first and second insulating sheets 108, 96 laminated with respective ones of the cards to provide in each case a laminate in which the conductive lines 112, 136 connected to the contacts are embedded. Each switch comprises a push-button 62 pressed against a respective bulge 90 in a plastics sheet 88, each push-button having a removable outer shell covering a label (66, Fig. 1, not shown). Sheets 106, 92, 88 and the push-button are of a light-transmitting material, and card 106 is backed by an electroluminescent light panel 122 and a back-plate 128. The pusn-buttons, apertures and contact areas may be circular, square or rectangular. Either or both of the contacts of one or more switches may be divided into two halves 144, 146 to form a double switch. | ||||||
| 154 | JPS5072182A - | JP9432674 | 1974-08-19 | JPS5072182A | 1975-06-14 | |
| 155 | Multi-layer keycap | US15072201 | 2016-03-16 | US10043618B2 | 2018-08-07 | Zhaoyang Han; Chih-Wei Chen; Changliang Li; Lijuan Chang |
| Embodiments describing a method of forming a multi-layered keycap structure are disclosed herein. The method includes forming a first polymer layer on a second polymer layer, wherein the first polymer layer includes a first color and the second polymer layer includes a second color, and coupling the first polymer layer and second polymer layer to a substrate layer such that the first polymer layer is closer to the substrate than the second polymer layer. The method may further include forming a third polymer layer on the second polymer layer; and etching the multi-layered keycap structure to form an opening having a bottom surface that exposes at least one of the first or second color. | ||||||
| 156 | Precious metal switch contact component and its preparation method | US14896403 | 2014-09-15 | US10026564B2 | 2018-07-17 | Huisheng Han; Hongmei Zhang; Yang Ding; Zhihong Dong; Cheng Huang |
| This invention discloses a preparation method for precious metal switching contact components by means of plating masking, plating and etching processes. The plating masking process is performed by using a plating mask ink with or without a photo exposure machine. Plating of precious metals is performed by electroless plating or electro plating methods. Etching is carried out with etching solutions containing weak organic acids, weak inorganic acids or acidic buffering agents. Improvement of the etched surface gloss and prevention of the side etching are realized with the sulfur-contained compounds. The dust- and oil stain-resistances of the switch contacts are improved by increasing the etching depth. The switch contacts made by this invention are featured with the advantages of good reliability, good resistance to dust and oil stain, short contact bounce time, long service life, low cost of raw materials and so on. | ||||||
| 157 | PACKAGE MEMS SWITCH AND METHOD | US15633237 | 2017-06-26 | US20180138001A1 | 2018-05-17 | Qing Ma; Johanna M. Swan; Valluri Rao; Feras Eid |
| An electronic device and methods including a switch formed in a chip package are shown. An electronic device and methods including a switch formed in a polymer based dielectric are shown. Examples of switches shown include microelectromechanical system (MEMS) structures, such as cantilever switches and/or shunt switches. | ||||||
| 158 | Multi-Layer Keycap | US15072201 | 2016-03-16 | US20170271102A1 | 2017-09-21 | Zhaoyang Han; Chih-Wei Chen; Changliang Li; Lijuan Chang |
| Embodiments describing a method of forming a multi-layered keycap structure are disclosed herein. The method includes forming a first polymer layer on a second polymer layer, wherein the first polymer layer includes a first color and the second polymer layer includes a second color, and coupling the first polymer layer and second polymer layer to a substrate layer such that the first polymer layer is closer to the substrate than the second polymer layer. The method may further include forming a third polymer layer on the second polymer layer; and etching the multi-layered keycap structure to form an opening having a bottom surface that exposes at least one of the first or second color. | ||||||
| 159 | METHOD AND ASSEMBLY FOR USING SWITCHABLE BACKLIGHTING TO DISTINGUISH BETWEEN MULTI-FUNCTION KEYS | US14790874 | 2015-07-02 | US20170003754A1 | 2017-01-05 | Matthew Geary; Thomas Sluchak; Christopher Osborne |
| Systems, devices, and methods described herein provide an input device having keys operatively coupled with light devices that emit light out of the keys. The input device is associated with different modes of operation. The light devices emit the light out of the keys responsive to a selected mode of operation being a first mode of operation. The light devices stop emitting the light out of the keys responsive to the selected mode of operation being a different, second mode of operation. The light devices are activated to indicate the selected mode of operation. One or more processors perform first functions associated with the keys during the first mode of operation and perform different, second functions associated with the same keys during the second mode of operation. | ||||||
| 160 | Low-travel key mechanisms using butterfly hinges | US14499209 | 2014-09-28 | US09502193B2 | 2016-11-22 | James J. Niu; Keith J. Hendren; Craig C. Leong; Thomas W. Wilson, Jr.; John M. Brock |
| A key mechanism including one or more butterfly hinges. Each butterfly hinge may include a double wing design operative to move between a depressed position and non-depressed position. Hinged coupling mechanisms couple respective arms of the wings together. Additionally or alternatively, a key mechanism can include one or more half-butterfly hinges. Each half-butterfly hinge includes a double wing design operative to move between a depressed position and non-depressed position. A hinged coupling mechanism couples one set of corresponding arms of the wings together, while the other set of corresponding arms are not coupled together. | ||||||
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