| 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 | Membrane type circuit having improved tail | US559656 | 1983-12-09 | US4561709A | 1985-12-31 | Kazutoyo Fukukura |
| Membrane type circuit comprises an insulating support having terminal sites thereon and circuit conductors extending between and among the terminal sites. A tail extends from the support and the conductors extend onto the tail and have output terminals on the tail. The tail is folded so that the output terminals on each side of the fold line are against each other and are connected to each other. Each pair of conductors which extends from two opposed output terminals are therefore a dual conductor. This arrangement simplifies circuit design and avoids the need for crossovers in many circumstances. | ||||||
| 142 | Membrane switch having integral switch tail insulator | US527042 | 1983-08-29 | US4493952A | 1985-01-15 | Richard H. Kaleida |
| Membrane switch assembly comprises a substrate, a flexible membrane, and a separator between the substrate and the membrane. The substrate has circuit conductors thereon and has an integral tail onto which the conductors extend. The separator is a flexible film and has an integral tail insulator which extends over the surface of the tail in insulating relationship to the conductors on the tail. The tail insulator has an opening adjacent to its end through which the tail extends so that the end portions of the conductors are exposed and can be connected to external circuitry. In alternative embodiments, the tail insulator may extend from the membrane or from an additional layer or covering panel which is positioned in covering relationship to the membrane. Also, the tail may extend from the membrane in which case the tail insulator can extend from either the separator or the substrate. | ||||||
| 143 | Membrane switch having improved switch tail | US527595 | 1983-08-29 | US4484039A | 1984-11-20 | Edward R. Salie |
| Membrane switch assembly comprises a substrate, a membrane, and a separator between the opposed surfaces of the substrate and membrane. Opposed switch electrodes are provided on the opposed surfaces and circuit conductors are provided which extend between and among the electrodes. The assembly has a composite tail made up of a substrate tail section and a membrane tail section. The two tail sections are co-extensive and parallel. Substrate leads extend from the substrate onto the substrate tail section and membrane leads extend from the membrane onto the membrane tail section, the leads being parallel and offset from each other. Portions of the substrate tail section extend through slots in the membrane tail section and portions of the membrane tail section extend through slots in the substrate tail section. | ||||||
| 144 | Membrane touch panel having improved conductor construction | US445694 | 1982-12-01 | US4484038A | 1984-11-20 | William E. Dorman; Gary Brown |
| A flexible membrane touch panel switch having contacts comprised of a first set of thin conductive metal film strips formed on a first layer, and of a second set of thin conductive metal film strips orthogonal to the first set and formed on a second layer, the second layer being spaced apart from and selectively movable into contact with the first layer, the panel further having silver conductive leads formed on each of the layers, each lead being integrally affixed at one end to, in electrical contact with, and extending from one of the strips for connection to external circuitry. | ||||||
| 145 | Capacitance switch | US377264 | 1982-05-11 | US4373124A | 1983-02-08 | Norman J. Frame |
| A capacitance-type switch in which an integral capacitance spacer layer element extends over and is severally movable toward and away from separate contact elements of separate switches. | ||||||
| 146 | Capacitance switch | US311915 | 1981-10-16 | US4373122A | 1983-02-08 | Norman J. Frame |
| A capacitance switch in which a capacitance spacing element is bent around an end of a spacer centrally relieved for strain relief. | ||||||
| 147 | Method of fabricating capacitive touch switch panel | US106294 | 1979-12-21 | US4293987A | 1981-10-13 | Tom L. Gottbreht; Glen C. Shepherd |
| An improved technique for the manufacture of capacitive touch switch panel assemblies, utilized to control appliances and the like, provides simplified construction and manufacture. The technique involves the formation of conductive touch pads on one major surface of a dielectric panel and the formation of pairs of spaced-apart conductive pads and conductive lead members to the conductive pads on a separate flexible synthetic resin sheet. The synthetic resin is bonded to the opposite major surface of the dielectric panel with each pair of conductive pads on the synthetic resin sheet in registry with a corresponding touch pad on the one major surface of the dielectric panel. The synthetic resin sheet includes a portion having a conductive lead pattern formed thereon which is not bonded to the dielectric panel; this portion serves as a flexible connector for connection of the touch panel to a circuit board or the like. In one embodiment, the conductive lead pattern includes an interconnection pattern for circuit elements such as integrated circuits or display elements mounted on the synthetic resin sheet or the dielectric panel. The conductive lead pattern on the synthetic resin sheet may be a single-layer or a multi-layer pattern and the conductor may be formed from a single material or different materials having predetermined resistive characteristics whereby external resistors to the capacitive touch switches and/or circuit elements may be eliminated from the circuit. | ||||||
| 148 | Liquid crystal display calculator construction | US725928 | 1976-09-23 | US4104727A | 1978-08-01 | Isamu Washizuka; Shintaro Hashimoto; Masaru Kakumae; Yuuichi Sato; Isao Fujisawa; Yukihiro Inoue; Sadakatsu Hashimoto; Yoshio Takeda; Mitsuo Ishii; Yoshitomo Kitanishi |
| In an electronic calculator essentially comprising a multidigit display, a keyboard and a data processor unit, a multidigit liquid crystal display is deposited together with integral key actuators of the keyboard on a flexible circuit film which carries electrical conductor leaves in a desired pattern. The conductor leaves to be in contact with terminals of the liquid crystal display are formed to extend in the direction of length of the liquid crystal display to thereby establish room for a battery compartment. | ||||||
| 149 | Collated cable matrix switch | US32715273 | 1973-01-26 | US3886335A | 1975-05-27 | HENDRICKS JOHN E |
| In a matrix of switches disposed in rows and columns, a plurality of first discrete conductors are deposited on the surface of a first backing member to extend in a first direction and a plurality of second discrete conductors are deposited on the surface of a second backing member to extend in a second direction. Dielectric spacing means is disposed between the first and second backing members to maintain the first and second conductors in a normally spaced relationship. The spacing means defines a plurality of openings each extending between an associated pair of the first and second conductors which define one of the switches. By pressing the associated pair of conductors into relative engagement through the associated opening in the spacing means, a signal on the associated first conductor is switched to the associated second conductor. The second conductors can extend through a pair of the switches and can be bisected therebetween to increase the number of discrete switches in the matrix without increasing the number of conductors. A bar clamp provides an interface between the switches in the matrix and the electronics associated with the controlled operations. A method for making the matrix of switches includes the steps of providing a spool for each of the backing members, the conductors, and the spacing means, and guiding the conductors and the spacing means in a spaced relationship onto the backing member. This process can be performed at high speed with inexpensive materials to significantly reduce the cost of manufacturing the matrix of switches.
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| 150 | Modular touch sensitive indicating panels with touch and light transmissive overlay cover membrane containing visible printed indicia | US3777222D | 1972-05-12 | US3777222A | 1973-12-04 | HARRIS T |
| Presently described touch sensitive indicating panels have thin but durably constructed plastic overlay membranes serving to: (a) transmit touch actuation pressure to underlying elastic diaphragm switch contacts arrayed at selected points of a pre-dimensioned grid; (b) transmit rear projection light indications received through spaces between switch grid conductors from suitably positioned light sources; (c) transmit alphanumeric light indications from suitably located arrays of light sources; (d) allow viewing of fixed information behind panels through suitably located areas; (e) display permanent indicia of artwork and nomenclature designating touch sensing and rear projection sites and functions; and (f) complete a housing enclosure. Panels for various host systems (e.g. computers, peripheral terminals, etc.) are assembled in various shapes and function types from a limited inventory of modular touch switches and control circuits. In the switch modules crossed grids of spaced conductors, which are prefabricated on transparent flexible support films, have pairs of spaced parallel contact segments subject to flexure into contact at positions offset from the grid intersections. The grids have predetermined dimensions of intersection spacing and the offset contact pairs have specific design features for enhanced integrity and reliability of contact operation. Modular sensing circuits perform the functions of: scanning contacts of the panel switch modules for touch closure conditions; representing locations of closure conditions at predetermined locations; providing audible feedback (beep tone) of contact sensing, and translating sensed contact conditions into panel light indications and/or electrical control functions. Various arrangements are described for producing complex control and indicating effects based upon combinational sensing of particular contact sequences.
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| 151 | 전자 기기 | KR1020110115769 | 2011-11-08 | KR101263123B1 | 2013-05-15 | 사꾸라이도모노리; 다까하시지로; 고바야시지까라 |
| 키플렉시블케이블의접힘부의압압에의한키 러버의박리발생을억제한다. 키러버(172)는, 메탈돔(132)에대향하는면 형상부(172b)와, 면형상부(172b)를부동지지하는지지부(172a)와, 면형상부(172b)의메탈돔(132) 측의면의메탈돔(132)에대응하는위치에형성된누름부재(172c)를갖는다. 키플렉시블기판(140)의단부에서면 형상부(172b)을지지하는지지부(172a)에는표시측 케이스(110)의측면방향으로연신하는걸림갈고리(172e)가설치된다. 걸림갈고리(172e)에는키 플렉시블케이블(148)의접힘부(148a)와접촉하는접촉부(172f)와, 접촉부(172f)의반대면에표시측 케이스(110)의측면에형성된돌기(110a)와계지가능한걸림부(172g)가형성된다. | ||||||
| 152 | 자체 내장형 키패드 조립체 | KR1020050022575 | 2005-03-18 | KR101175373B1 | 2012-08-20 | 공프랭크; 클로울리커트디.; 가르시아,조셉쥬니어 |
| 상부커버와하부커버를구비한자체내장형키패드모듈을제조하기위한시스템및 방법이제공된다. 상부커버와하부커버는스택주위에실행되는오버몰딩(overmolding) 절차를통해키패드소자스택을캡슐화하고및/또는이 스택사이에놓인다. 상부커버와하부커버사이에서패킹된스택은탄력성부재, 전자발광패널, 및복수의키를구비한실리콘막을포함한다. | ||||||
| 153 | 인쇄 가능한 극성 스위치 | KR1020127008875 | 2010-09-20 | KR1020120079087A | 2012-07-11 | 무스토넨,테로 |
| 전원으로부터 기구로 전류의 방향을 변경하기 위한 스위치 조립체는 - 적어도 4개의 배선으로서, 배선 중 2개는 전원과 접속 가능하고, 나머지 배선은 기구와 접속 가능한 것인 적어도 4개의 배선과, - 버튼의 일 표면 상에 제1 전도성 패턴을 포함하는 제1 버튼과, - 버튼의 일 표면 상에 제2 전도성 패턴을 포함하는 제2 버튼을 포함하고, - 모든 배선은 기판의 표면 상에 고정되고 어떠한 배선도 서로 직접 접속되지는 않고, - 전도성 패턴들이 배열되는 버튼의 표면은 배선이 배열되어 있는 상기 기판의 표면에 대면하고, - 버튼은 기판 상에 고정되고, - 버튼 상의 전도성 패턴 및 기판의 표면 상의 상기 배선은 (i) 버튼 상의 상기 전도성 패턴이 버튼이 눌러지지 않은 상태에서 상기 배선과 접촉하지 않고, (ii) 일 버튼은 눌러진 상태에서 전도성 패턴에 의해, 2개의 배선 중 제1 배선을 나머지 배선 중 하나의 배선과, 그리고 2개의 배선 중 제2 배선을 나머지 배선 중 다른 배선과 동시에 접속하여 스위치 조립체를 통한 제1 전류 경로를 가능하게 하고, (iii) 다른 버튼은 눌러진 상태에서 전도성 패턴에 의해, 2개의 배선 중 제1 배선을 나머지 배선 중 하나의 배선과, 그리고 2개의 배선 중 제2 배선을 나머지 배선 중 다른 배선과 접속하여 제1 전류 경로와는 상이한 스위치 조립체를 통한 제2 전류 경로를 가능하게 하는 방식으로 상기 버튼이 상기 기판 상에 배치되는 방식으로 배열되고, 또한 전도성 패턴은 폴리머 및 상기 폴리머 내에 분산된 전도성 재료를 포함하는 조성물(CO) 및/또는 공액 폴리머를 포함한다. | ||||||
| 154 | 정보 입력 장치 | KR1020100007335 | 2010-01-27 | KR1020100109359A | 2010-10-08 | 아리하라타케시; 에도카츠미 |
| PURPOSE: An information input apparatus operated by an operation plate is provided to turn on/off an external circuit by driving a push button. CONSTITUTION: A push button(50) is assembled through an operation hole of an operation plate(45). The first, second, and third installation units are folded through first and second connection units. A sensor sheet is elastically compacted by the pressure of the operation plate. An output signal is outputted by the change of the electrostatic capacity of a sensor sheet. A dome-type driving contact point is operated through an operation hole of the third installation unit. | ||||||
| 155 | 차량용 공조기의 조작장치 | KR1019960047041 | 1996-10-21 | KR100457452B1 | 2005-01-25 | 이시구로가즈요시; 아키타도시키 |
| An operation device for a vehicle, capable of being used in a vehicle air conditioner system. The operation device has front panels that have a light transmissive portion, and a flexible printed circuit board shaped to correspond to the arrangement of the front panels. The flexible printed circuit board includes a plurality of light emitting elements at positions respectively corresponding to the positions of the front panels. There are switching means, disposed at the rear of the printed circuit and arranged so that these switching means are operated in response to the operation of the front panels. The rear portion of the front panel can be moved together with light emitting elements in response to the operation of the front panel. | ||||||
| 156 | 자동판매기용 접촉식 선택 판넬 | KR1019840007597 | 1984-12-01 | KR1019850004829A | 1985-07-27 | 헤르만케네스듀크; 에디웨인킹; 돈스코트섬머빌 |
| 내용없음 | ||||||
| 157 | Electronics | JP2010251226 | 2010-11-09 | JP5520784B2 | 2014-06-11 | 智則 櫻井; 次郎 高橋; 主税 小林 |
| 158 | Electronic device | JP2010251226 | 2010-11-09 | JP2012104344A | 2012-05-31 | SAKURAI TOMONORI; TAKAHASHI JIRO; KOBAYASHI CHIKARA |
| PROBLEM TO BE SOLVED: To prevent detachment of a key rubber due to pressing by a folded portion of a key flexible cable.SOLUTION: A key rubber 172 comprises: a planar portion 172b which faces a metal dome 132; a support portion 172a which floatingly supports the planar portion 172b; and a pressing element 172c which is formed at a position corresponding to the metal dome 132 on a face of the planar portion 172b on the metal dome 132 side. The support portion 172a which supports the planar portion 172b at an end of a key flexible substrate 140 is provided with a locking claw 172e extending toward a lateral face of a display-side housing 110. The locking claw 172e is provided with a contact portion 172f which comes into contact with a folded portion 148a of a key flexible cable 148, and a locking portion 172g which is formed on a surface opposite to the contact portion 172f and is engageable with a protrusion 110a formed on the lateral face of the display-side housing 110. | ||||||
| 159 | Information input device | JP2009086269 | 2009-03-31 | JP2010238029A | 2010-10-21 | ARIHARA TAKESHI; EDO KATSUMI |
| <P>PROBLEM TO BE SOLVED: To provide a multifunctional and miniaturizable information input device which can be operated not only by an operation plate but also driving a dome-shaped movable contact by a push button. <P>SOLUTION: In the information input device, a flexible printed board 10 is configured by continuously extending first, second and third installation units 11, 12, 13 through first and second coupling units 14, 15 and an operation plate 45 is pushably installed on an upper surface of the third installation unit 13 through a sensor sheet 42. Further, a push button 50 is pushably assembled through an operation hole 46 formed in the operation plate 45. Then, a dome-shaped movable contact is installed on the second installation unit 12, and the first, second and third installation units 11, 12, 13 are folded and integrated like bellows through the first and second coupling units 14, 15. When the operation plate 45 assembled on the third installation unit 13 is pushed down to elastically compress the sensor sheet 42, the electrostatic capacity of the sensor sheet 42 is changed and an output signal is output. When the push button 50 is pushed down, the dome-shaped movable contact installed on the second installation unit 12 is driven through the operation hole 46 formed on the third installation unit 13. <P>COPYRIGHT: (C)2011,JPO&INPIT | ||||||
| 160 | Equipment operation panel | JP51079899 | 1998-07-31 | JP3843461B2 | 2006-11-08 | 通孝 大蔵; 知範 宮島 |
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