| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 81 | WATERPROOF KEY STRUCTURE AND WATERPROOF MOBILE PHONE UTILIZING SAME | EP14898536 | 2014-07-26 | EP3174079A4 | 2018-04-11 | MA JIDONG; CHEN DONGMING |
| A waterproof key structure, comprising a shell (1), a key (2), and an elastic part (3), wherein the elastic part and the shell are assembled together in a pasting manner, the key is movably assembled to the shell and matched with the elastic part. The elastic part comprises a tubular structure (31) provided with an elastic wall (33) thereon, the elastic wall is of an arched structure, and the elastic wall convexly projects towards a direction in the tubular structure to form the elastic part. Since the elastic wall of the arched structure stretches to have deformation under pressure, an assembly relation of the elastic part and other parts is not affected, so that the elastic part cannot be separated from the shell due to the paste slippage, and water resistance between the key and the shell is guaranteed. | ||||||
| 82 | El-combined sheet switch | EP99105110.3 | 1999-03-25 | EP1039493B1 | 2006-09-13 | Yamazaki, Hiroshi; Hirose, Koji c/o SEIKO Precision Inc. |
| 83 | Betätigungsvorrichtung bzw. Schalter für elektronische Kleinstgeräte | EP03003391.4 | 2003-02-14 | EP1316980A1 | 2003-06-04 | Wagner, Josef |
Ein Betätigungsorgan bzw. eine Betätigungsvorrichtung (1) für elektrische bzw. elektronische Kleinstgeräte weist mindestens zwei Schaltkontakte (5, 7) auf, welche über eine wenigstens einen der Kontakte überspannende Membran (13) auf Druck auf die Membran miteinander verbindbar sind, um einen Schaltvorgang auszulösen. Bei der vorgeschlagenen Betätigungsvorrichtung ist mindestens einer der Kontakte (5) in der Randzone der Membran angeordnet und mit diesem über ein elektrisch leitendes Polymer (17) mit einer Leiterbahn (15) verbunden, welche an der den Kontakten zugewandten Innenseite der Membran angeordnet ist. Die Membran mit der Leiterbahn überspannt den anderen Kontakt (7) derart, dass bei Nichtbetätigung der Vorrichtung die Membran bzw. die Leiterbahn vom anderen Kontakt beabstandet ist. Auf Druck ist die Membran derart zum anderen Kontakt hin auslenkbar, dass die Leiterbahn den anderen Kontakt berührt und somit eine Verbindung zwischen den beiden Kontakten (5, 7) hergestellt wird. |
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| 84 | GLASTASTATUR, SOWIE VERFAHREN ZUR HERSTELLUNG EINER GLASTASTATUR | EP99907620.1 | 1999-03-10 | EP1062674B1 | 2002-08-14 | PLATZ, Karl-Otto |
| The invention concerns a glass keyboard comprising a surface (4) consisting of a flexible thin glass pane (2) and at least a base material glass pane (6), whereof the surfaces facing each other have each an electroconductive layer (8, 10). Said tiered-up electroconductive layers (8, 10) are maintained at some distance from each other by a spacer (12). Said electroconductive layers (8, 10) come into contact when pressure is applied to the flexible thin glass pane (8), in the substantially localized pressure load zone. Said glass keyboard is characterised in that the electroconductive layers (8, 10) located on the thin glass pane (2) and on the base material glass pane (6) are linked to strip conductors (62, 66) projecting on the keyboard (4) lateral surface edge, a flexible flat multiple cable (64, 68) is connected, via contacts (74, 75) to the strip conductors (62, 66) of the elctroconductive layers (8, 10), and the flat multiple cable (64, 68) is arranged, with the contacts (74, 75), between the thin glass pane (2) and the base material glass pane (6). | ||||||
| 85 | 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). | ||||||
| 86 | GLASTASTATUR, SOWIE VERFAHREN ZUR HERSTELLUNG EINER GLASTASTATUR | EP99907620.1 | 1999-03-10 | EP1062674A1 | 2000-12-27 | PLATZ, Karl-Otto |
| The invention concerns a glass keyboard comprising a surface (4) consisting of a flexible thin glass pane (2) and at least a base material glass pane (6), whereof the surfaces facing each other have each an electroconductive layer (8, 10). Said tiered-up electroconductive layers (8, 10) are maintained at some distance from each other by a spacer (12). Said electroconductive layers (8, 10) come into contact when pressure is applied to the flexible thin glass pane (8), in the substantially localized pressure load zone. Said glass keyboard is characterised in that the electroconductive layers (8, 10) located on the thin glass pane (2) and on the base material glass pane (6) are linked to strip conductors (62, 66) projecting on the keyboard (4) lateral surface edge, a flexible flat multiple cable (64, 68) is connected, via contacts (74, 75) to the strip conductors (62, 66) of the elctroconductive layers (8, 10), and the flat multiple cable (64, 68) is arranged, with the contacts (74, 75), between the thin glass pane (2) and the base material glass pane (6). | ||||||
| 87 | El-combined sheet switch | EP99105110.3 | 1999-03-25 | EP1039493A1 | 2000-09-27 | Yamazaki, Hiroshi; Hirose, Koji c/o SEIKO Precision Inc. |
In an EL-combined sheet switch, electromagnetic waves are blocked, and appliances with the sheet switch are prevented from malfunctioning. A circuit board 1 having a driving circuit mounted on its back surface and having a switch pattern la formed on its front surface is combined with a contact sheet 3 having a counter electrode 4 on its back surface in such a manner that the counter electrode 4 faces the switch pattern la to construct a switch mechanism. To the front surface of the contact sheet 3, attached is an EL sheet 7, and a shield layer 5 is provided between the contact sheet 3 and the EL sheet 7. In the EL-combined sheet switch with that constitution, the electromagnetic noise from the EL sheet 7 is blocked by the shield layer 5. The shield layer 5 is connected with a ground electrode 1b formed on the circuit board 1. |
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| 88 | Low cost electronic apparatus construction method | EP83303591.8 | 1983-06-22 | EP0100144B1 | 1993-12-22 | Fiorella, Charles M.; Chrobak, Michael J.; Evans, Doyle R. |
| 89 | A keyboard for an electronic apparatus | EP90309322.7 | 1983-06-22 | EP0408401A1 | 1991-01-16 | Fiorella, Charles M.; Chrobak, Michael J.; Evans, Doyle R. |
The present invention is a low cost electronic apparatus construction method which may be employed for hand held calculators, electronic learning aids and electronic games. The primary electrical circuit interconnection pattern of the electronic apparatus is printed upon a part of the case of the apparatus (11) which must be nonconducting. This printed circuit pattern (12) together with the constuction of the back case (11) includes connection portions (21, 22 and 23) for electrical connection to the major components of the apparatus which may include an integrated circuit (15), a display device (16) and an electrical power source (17). The primary circuit pattern printed on the back case includes a plurality of interleaved comb key switch positions (17). The keyboard is constructed employing a plurality of keys aligned in registration with the key switch portions (26), each key having a shorting bar (104) for causing electrical connection across the key switch portion when the key is depressed. The top case (13) of the apparatus has an aperture for viewing the display device and a plurality of apertures for the keys. The keyboard may alternatively be constructed of a flexible membrane (12) in which pressure on a key switch position (163) causes electrical contact with a conductive ink (153) disposed in a depression (152) in the case (150) of the apparatus. In an alternative embodiment, the top case also includes an aperture enabling light to shine on a photovoltic power cell (19) employed to generate the electric power needed to operate the apparatus. |
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| 90 | Input device | EP90305803.0 | 1990-05-29 | EP0400953A2 | 1990-12-05 | Hinata, Shoji; Ono, Yohichi; Wakabayashi, Satoshi |
An input device has a pair of opposed transparent substrates (1, 2), and transparent electrodes (3, 4) on the inner surfaces of the substrates. The electrode (3) on one of the substrates (1) is conductively connected to the electrode (4) on the other of the substrates (2) by way of a conductive adhesive agent layer (9). A conductive synthetic resin thin film layer (11) softer than the conductive adhesive agent layer is interposed between the respective electrode on at least one of the substrates and the conductive adhesive agent layer. |
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| 91 | Elektrische Tastatur für Schalter o. dgl | EP85905769.7 | 1985-11-07 | EP0201572B1 | 1990-03-07 | NEUMANN-HENNEBERG, Wolf |
| An electric component is proposed, such as a keyboard, in which, to simplify production, a common keyboard element is used as a lower part of the casing for individual switches or individual keys and simultaneously as a conductor plate. For this, recesses (12) are provided in the keyboard element (11) to receive the individual switches (13), while on the lower side (16) conductor paths are applied by the silk-screen process. | ||||||
| 92 | Depressible contactless key for generating electric signals in an electronic keyboard | EP78300393.2 | 1978-09-18 | EP0001882A1 | 1979-05-16 | Varesio, Franco, Dr. |
An elastomeric material conductive under pressure is suitable for use in a keyboard. When not compressed the material is insulating. When a key (21) is depressed, the pressure renders the material (11) conductive and completes a circuit (14, 11, 16, 17. 15). In order to prolong the life of the material when it is repeatedly compressed, a magnetic field is used during polymerization of an elastomer in which magnetic powder is dispersed. The material becomes piezoconductive in a preferred direction parallel to the applied field. |
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| 93 | 押ボタンスイッチおよび押ボタンスイッチ用粘着テープ | JP2011198453 | 2011-09-12 | JP5727335B2 | 2015-06-03 | 木上 裕貴; 橘 俊光 |
| 94 | Sheet switch provided with el | JP3481098 | 1998-02-17 | JPH11232956A | 1999-08-27 | YAMAZAKI HIROSHI; HIROSE KOJI |
| PROBLEM TO BE SOLVED: To prevent mis-operation of an apparatus comprising a sheet switch provided with an EL by shielding electromagnetic waves in the sheet switch. SOLUTION: This switch is constituted of a switch pattern 1a in the front face of a circuit substrate 1, on whose rear face a drive circuit is mounted and an opposed electrode 4 formed in a contact sheet 3 to be brought into contact with the switch pattern 1a. An EL sheet 7 is stuck to the front face of the contact sheet 3, and a shield layer 5 is formed between the contact sheet 3 and the EL sheet 7 so as to shield electromagnetic wave noise emitted by the EL sheet 7. The shield layer 5 is connected with a grounding electrode 1b formed in the circuit substrate 1. COPYRIGHT: (C)1999,JPO | ||||||
| 95 | JPH0452575B2 - | JP13970783 | 1983-07-30 | JPH0452575B2 | 1992-08-24 | OOSAWA HIROSHI; KURASHIMA ISAO; KAWAI YOSHIO |
| In a keyswitch structure, a number of recesses are formed in a lower case, and a projection with a flat top surface is formed inside each of the recesses. The recesses communicate with each other by means of grooves formed on the lower case, and fixed contacts are provided on the projections. A pattern is formed on the under surface of a flexible substrate put on the lower case so that movable contacts, included in the pattern, face the fixed contacts. An elastic sheet with a number of buttons is put on the flexible substrate, and the flexible substrate and the elastic sheet are fixedly held between an upper case and the lower case. When any of the buttons of the elastic sheet is pushed, the elastic sheet and the flexible substrate are elastically deformed to bring the movable contacts into contact with the fixed contacts. | ||||||
| 96 | Touch panel | JP11307390 | 1990-04-28 | JPH0412421A | 1992-01-17 | FUKUCHI TOSHIO; KASAI NOBUHIRO |
| PURPOSE:To prevent the occurrence of the defective electric continuity state during manufacture by inserting conducting grains between a connecting terminal connected to contacts on a flexible board and an anisotropic conducting adhesive layer. CONSTITUTION:A connecting terminal connected to contacts on a flexible board 34 and a connecting terminal of a wiring board for external connection are connected via resin layers 35, 36 serving as an anisotropic conducting adhesive layer. Conducting grains are inserted between the contacts on the flexible board 34 and the anisotropic conducting adhesive layer. Even if cracks are generated or an open circuit occurs by the pressurization or heating when the flexible board 34 is stuck to another electrode 31, carbon grains of a carbon paste layer 38 infiltrate into the generated cracks or open circuit position to fill them, the electrical continuity of the other electrode 31 is maintained, and the electrical connection between the other electrode 31 and the flexible wiring board 34 is satisfactorily maintained. | ||||||
| 97 | JPS6362014B2 - | JP3327382 | 1982-03-03 | JPS6362014B2 | 1988-12-01 | |
| PURPOSE:To obtain a sheet-like small-sized electronic apparatus which is convenient for carrying, by laminating upper and lower sheets, and upper and lower face sheets, having toughness, so that they are made to closely adhere onto the upper side and the lower side of an electronic parts constitution body, and supporting the electronic parts constitution body by surrounding it by a frame. CONSTITUTION:A titled electronic apparatus is provided with an electronic parts constitution body 11 to which an integrated circuit element 26 for executing the operation by a switch part 51 which is turned on and off by an external operation, a display element 34 for executing the display by a signal of the element 26, and a solar battery 43 for driving them, etc. are connected, and on the upper and lower parts of the constitution body 11, an upper sheet 13 and a lower sheet 15 which have toughness, respectively are made to closely adhere and are laminated. The sheet 13 has a hole part 56 opposed to the switch part, and hole parts 57, 58 opposed to the element 34 and the battery 43, respectively. On the upper part of the sheet 13, an upper face sheet having toughness, which has an operating part 50 for operating the switch through the hole part 50, and a display window 53 is made to closely adhere and is laminated. On the lower part of the sheet 15, a lower face sheet 14 having toughness is made to closely adhere and is laminated, and between the sheets 13, 15, a supporting frame 16 supports the constitution body by suprrounding it, of which a sheet-like electronic apparatus is constituted. | ||||||
| 98 | JPS6259824B2 - | JP3327282 | 1982-03-03 | JPS6259824B2 | 1987-12-12 | HARA KAZUYA; TAKEUCHI EIICHI |
| 99 | Electronic appliance | JP22674884 | 1984-10-30 | JPS61105897A | 1986-05-23 | MURAKAMI OSAMU |
| 100 | Multifunctioning switch with ncap liquid crystal | JP12791085 | 1985-06-12 | JPS6183595A | 1986-04-28 | JIEIMUZU ERU FUAAGASON; CHIYAARUZU DABURIYUU MAKUROKUR |
