| 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 | CONDUCTIVE ELASTOMERS AND METHODS FOR FABRICATING THE SAME | EP96943563.5 | 1996-12-03 | EP0912335B1 | 2003-04-09 | CROTZER, David, R.; GOODWIN, Jonathan, W.; MICHAUD, Arthur, G.; DEDONATO, David, A. |
| Several different types of electrically conductive elastomers are disclosed along with the methods for their fabrication. In one particular embodiment, a layered composition (10) is disclosed which comprises a substrate (12), a first layer (14), and a second layer (16). The substrate (12) is formed of a non-conductive elastic material and it has an outer surface. The first layer (14), which is formed with a non-conductive elastic material, is grafted to the outer surface of the substrate (12). The second layer (16), which is formed with a non-conductive elastic material (18) having a quantity of conductive flakes (20) interspersed therein, is grafted on an outer surface of the first layer (14). The second layer (16) can further be formed with a quantity of rounded or jagged conductive particles interspersed in the non-conductive elastic material (18) such that some of the conductive particles are present along an outer surface of the second layer. Alternatively, a quantity of rounded or jagged conductive particles may be embedded in an outer surface of the second layer (16). | ||||||
| 142 | Transmitter | EP99118287.4 | 1999-09-15 | EP1085310A1 | 2001-03-21 | Bernauer, Andreas; Brock, Hansjörg |
Es ist ein Transmitter vorgesehen, dessen Bedienung durch Umwelteinflüsse unbeeinträchtig ist, mit einem Meßaufnehmer (3), einer in einem Gehäuse (1) auf einer Leiterplatte (9) angeordneten Elektronik (11), einem von außerhalb des Gehäuses (1) bedienbaren Bedienelement (15) und einem Übertrager (19), der eine auf das Bedienelement (15) ausgeübte Kraft auf einen mit der Elektronik (11) verbundenen Schalter überträgt, wobei der Schalter eine Taste einer auf der Leiterplatte (9) angeordneten Folientastatur (23) ist. |
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| 143 | GRAFTED THERMOPLASTIC ELASTOMER BARRIER LAYER | EP97949654 | 1997-12-02 | EP0895486A4 | 2000-11-02 | CROTZER DAVID R; SILVA NEILL N |
| A thermoplastic elastomer barrier layer (14) is disclosed. The thermoplastic elastomer barrier layer (14) may be grafted to a substrate (12) for preventing contaminants from permeating through the substrate (12) or for preventing contaminants, which may permeate through the substrate (12), from permeating beyond the substrate (12). The thermoplastic elastomer barrier layer (14) is grafted to the substrate (12) by a thermal grafting process. | ||||||
| 144 | CONDUCTIVE ELASTOMERS AND METHODS FOR FABRICATING THE SAME | EP96943563.0 | 1996-12-03 | EP0912335A1 | 1999-05-06 | CROTZER, David, R.; GOODWIN, Jonathan, W.; MICHAUD, Arthur, G.; DEDONATO, David, A. |
| Several different types of electrically conductive elastomers are disclosed along with the methods for their fabrication. In one particular embodiment, a layered composition (10) is disclosed which comprises a substrate (12), a first layer (14), and a second layer (16). The substrate (12) is formed of a non-conductive elastic material and it has an outer surface. The first layer (14), which is formed with a non-conductive elastic material, is grafted to the outer surface of the substrate (12). The second layer (16), which is formed with a non-conductive elastic material (18) having a quantity of conductive flakes (20) interspersed therein, is grafted on an outer surface of the first layer (14). The second layer (16) can further be formed with a quantity of rounded or jagged conductive particles interspersed in the non-conductive elastic material (18) such that some of the conductive particles are present along an outer surface of the second layer. Alternatively, a quantity of rounded or jagged conductive particles may be embedded in an outer surface of the second layer (16). | ||||||
| 145 | Switch assembly | EP91301619.2 | 1991-02-27 | EP0444914A3 | 1992-05-27 | Demeo, Gregory B.; Molvar, Henry R.; Bergerson, David R. |
A switch assembly comprising a housing (11), a rigid operating member (17) mounted for movement relative to the housing (11) and accessible to an operator, electrical contact means (31, 32, 36) operable by movement of the operating member (17) from a rest position to an operative position relative to the housing (11), flexible seal means (19) between the operating member (17) and the electrical contact means (31, 32, 36) and capable of transmitting operative movement of the operating member to said contact means while preventing passage of moisture and other contaminants from the region of the operating member to the contact means, and, limit means (27) preventing movement of the operating member (17) relative to the contact means beyond the position at which the contact means is operated. The switch can include further operating members and associated contacts and limit means carried by the housing and if desired the assembly can incorporate a heater (38) for heating the operating member region of the assembly. |
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| 146 | UNITARY KEY PANEL. | EP84902389 | 1984-05-24 | EP0151134A4 | 1987-12-09 | 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. | ||||||
| 147 | UNITARY KEY PANEL | EP84902389.0 | 1984-05-24 | EP0151134A1 | 1985-08-14 | VILLALOBOS, Luis; HIRSCH, Steven, B.; HAUSER, Steven, G.; VON BUELOW, John |
| Un dispositif d'introduction et d'affichage à clavier protégé de l'environnement peut être utilisé en combinaison avec une variété de systèmes de commande numérique tels que des guichets de banque automatisés ou des systèmes de sécurité dans des bâtiments. Le dispositif d'introduction et d'affichage à clavier comprend un clavier monobloc, transparent et flexible (16) possédant des parties plus épaisses formant des touches (36). Le clavier forme un joint contre les effets de l'environnement, et comprend un joint d'étanchéité périphérique qui protège un assemblage sous-jacent de commutation sensible à la pression et transparent (18), lequel est placé à son tour au-dessus d'un affichage visuel correspondant (24) composé de caractères alphanumériques qui indiquent la signification des commutateurs individuels sensibles à la pression et des touches correspondantes sur chaque caractère. Des protubérances (66, 68) sont formées sur le côté inférieur du clavier flexible (16), au-dessous de chaque touche (36), pour focaliser et concentrer la pression exercée sur chaque touche sur le commutateur sensible à la pression correspondant situé au-dessous. Une grille optique (22) permet de limiter la vue des caractères alphanumériques de la part de l'utilisateur du dispositif, pour éviter de compromettre l'introduction des données. | ||||||
| 148 | 전자 접촉기의 보조 계전기 | KR1020160017462 | 2016-02-15 | KR1020170095687A | 2017-08-23 | 최관호 |
| 본발명은다수개의리드스위치를이용하여접점이외부에노출되지않은상태로보조계전기의통전상태를조절함으로써먼지나이 물질이접점부위에쉽게부착되는것을방지하는효과가있다. | ||||||
| 149 | 조명을 가진 방수 및 방진 스위칭 요소 | KR1020147015754 | 2012-10-11 | KR1020140101770A | 2014-08-20 | 라우파흐,대니; 크릭,칼-하인쯔 |
| 본 발명은 푸쉬 버튼의 선형 이동을 전기 스위칭 신호로 전환하기 위한, 조명을 가진, 방수 및 방진 스위칭 요소에 관한 것으로, 하우징과, 상기 하우징 내에서 두 단부 베어링 사이의 스트로크 경로를 따라 축방향으로 이동 가능한 캡을 포함하며, 상기 캡은 가요성 플라스틱 재료로 다중요소 사출 성형에 의해 형성되는 외부 실링을 위한 보호막이 제공되는, 스위칭 요소에 있어서, 상기 스위칭 요소는, 상기 하우징(9) 내에, 4개 이상의 접촉부(8)로서, 2개 이상은 동일한 윤곽을 갖도록 형성되고 플러그 영역에서의 선형 배치로부터 내부에서의 사각 배치로 재배치되는 네 개 이상의 접촉부(8), 압력 보상 요소(7), 하나 이상의 푸쉬 버튼과 둘 이상의 조명 요소가 배치되는 회로 기판(6), 복원 요소와 조명 실(seal)로서의 실리콘 패드(5), 가이드(4), 단부 정지부( 3), 일체로 몰딩된 보호막(12)을 가진 캡(2), 및 프레임(10)을 포함하는 것을 특징으로 한다.
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| 150 | 변조된 바이어스 전압을 갖는 버튼 | KR1020137008219 | 2011-08-24 | KR1020130054400A | 2013-05-24 | 피셔,조세프; 린치,스티븐,브라이언; 커티스,로버트,카스턴 |
| 전자 디바이스는 버튼들을 사용하여 사용자 입력을 수집할 수 있다. 시변 바이어스 전압을 각각의 버튼에 인가하는 버튼 상태 모니터링 회로들이 제공될 수 있다. 시변 바이어스 전압은 버튼의 상태가 모니터링되는 경우 0이 아닌 고정 레벨로 유지될 수 있고, 버튼의 상태가 중요하지 않아서 모니터링되지 않는 경우 0볼트의 레벨로 유지될 수 있다. 버튼이 모니터링되지 않는 경우의 버튼 사이의 바이어스 전압의 감소는 전자 디바이스가 습기에 노출되는 경우 덴드라이트 성장의 원치 않는 가속을 방지한다. 바이어스 전압은 제어 회로를 사용함으로써 펄스화될 수 있다. 제어 회로는 단자들 사이에 인가되는 일련의 구형파 펄스를 생성할 수 있다.
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| 151 | 키 스위치 구조 | KR1020080081311 | 2008-08-20 | KR101024229B1 | 2011-03-29 | 야마다시게루; 다카기야스시 |
| 과제 멤브레인 시트 내에 물 등이 침입하는 것을 방지함과 함께, 액체의 체류를 방지하는 키 스위치 구조를 제공한다. 해결 수단 멤브레인 시트 (116) 의 상부에 방수 시트 (118) 를 배치하고, 방수 시트 (118) 에 용착용 구멍 (118b) 을 형성한다. 또, 멤브레인 시트 (116) 에 투공 (透孔 ; 16g) 을 형성하고, 이 투공 (116g) 에 백 플레이트 (117) 의 돌출부 (117b) 를 삽입한다. 돌출부 (117b) 의 상부를 방수 시트 (118) 로 덮고, 홀더 (115) 로 용착하여 밀폐시킨다. 또, 홀더 (115) 에는 고인 물 등을 배출하기 위한 배수 홈 (115f) 을 형성한다. 키 스위치 구조, 멤브레인 시트 | ||||||
| 152 | 키 스위치 구조 | KR1020080081311 | 2008-08-20 | KR1020090055462A | 2009-06-02 | 야마다시게루; 다카기야스시 |
| A key switch structure is provided to prevent permeation of moisture into a membrane sheet by covering the top of the membrane sheet with a waterproof sheet. A key switch structure is composed of a waterproof sheet(118), a first fix member(115), and a second fixing member(117). The waterproof sheet is arranged on the membrane sheet(116), and a first fix member having a first protrusion is arranged on the waterproof sheet. A second fixing member having a second protrusion is arranged under the membrane sheet. The first protrusion is inserted into a hole of the waterproof sheet and a hole of the second protrusion. The second protrusion is inserted into the hole of the membrane sheet, and the waterproof sheet is adhered closely to the second protrusion. | ||||||
| 153 | TIME SWITCH OF CONTROLLABLE TIME ADJUSTMENT | EP14887691 | 2014-04-02 | EP3125263A4 | 2018-01-03 | HUA YAOWU |
| A time switch of controllable time adjustment, the time switch comprising a switch housing (10), a control circuit board (9) arranged inside the switch housing (10), an input terminal (6) and an output terminal (7) arranged on the bottom surface of the switch housing (10), a connecting piece (5) for connecting the input terminal (6) and the output terminal (7), a warped plate (2) connecting to the switch housing (10) by means of a rotating shaft, a first spring (4) provided between the warped plate (2) and the connecting piece (5). The warped plate (2) swaying about the rotating shaft drives the connecting piece (5) to sway. The swaying of the connecting piece (5) causes the input terminal (6) and the output terminal (7) to complete closing and opening. The control circuit board (9) is electrically connected to the output terminal (7). The time switch has a simple structure and a convenient installation, so it can be installed in various electric appliances needing to realize a timing function. The time switch has a simple structure and a convenient installation, so it can be installed in various electric appliances needing to realize a timing function. | ||||||
| 154 | TIME SWITCH OF CONTROLLABLE TIME ADJUSTMENT | EP14887691.5 | 2014-04-02 | EP3125263A1 | 2017-02-01 | HUA, Yaowu |
A time switch of controllable time adjustment, the time switch comprising a switch housing (10), a control circuit board (9) arranged inside the switch housing (10), an input terminal (6) and an output terminal (7) arranged on the bottom surface of the switch housing (10), a connecting piece (5) for connecting the input terminal (6) and the output terminal (7), a warped plate (2) connecting to the switch housing (10) by means of a rotating shaft, a first spring (4) provided between the warped plate (2) and the connecting piece (5). The warped plate (2) swaying about the rotating shaft drives the connecting piece (5) to sway. The swaying of the connecting piece (5) causes the input terminal (6) and the output terminal (7) to complete closing and opening. The control circuit board (9) is electrically connected to the output terminal (7). The time switch has a simple structure and a convenient installation, so it can be installed in various electric appliances needing to realize a timing function. The time switch has a simple structure and a convenient installation, so it can be installed in various electric appliances needing to realize a timing function. |
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| 155 | BELEUCHTETES, WASSER- UND STAUBDICHTES SCHALTELEMENT | EP12783858.9 | 2012-10-11 | EP2777056B8 | 2017-01-04 | RAUPACH, Danny; KRIEG, Karl-Heinz |
| 156 | BELEUCHTETES, WASSER- UND STAUBDICHTES SCHALTELEMENT | EP12783858.9 | 2012-10-11 | EP2777056B1 | 2016-11-09 | RAUPACH, Danny; KRIEG, Karl-Heinz |
| 157 | DEVICE FOR AN OUTDOOR SWITCHING APPARATUS | EP12865712 | 2012-01-19 | EP2805394A4 | 2015-08-19 | COUTURE PIERRE |
| 158 | DEVICE FOR AN OUTDOOR SWITCHING APPARATUS | EP12865712.9 | 2012-01-19 | EP2805394A1 | 2014-11-26 | COUTURE, Pierre |
| This invention concerns a device for an outdoor switching apparatus of an electrical power line, the switching apparatus being enclosed within a case. The device includes a wall made of electrically conductive material capable of blocking sun rays. The device also includes a fastening assembly for fastening the wall with respect to the case in a position for blocking, at least partially, sun rays from hitting the case during day time. The fastening assembly has at least one spacer made of insulating material for spacing the wall with respect to the case, thus delimiting an air gap between the wall and the case. The device also includes at least one electrical connector for electrically connecting the wall to circuitry of the switching apparatus, located inside the case, for powering and voltage monitoring. | ||||||
| 159 | Buttons with modulated bias voltages | EP11178118.3 | 2011-08-19 | EP2424118B1 | 2014-04-09 | Fisher, Joseph, Jr.; Lynch, Stephen Brian; Curtis, Robert Caston |
| 160 | KEY UNIT WITH SUPPORTING FRAME | EP05720851 | 2005-03-16 | EP1746616A4 | 2010-01-13 | IOHARA YUICHI |
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