| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 41 | 차량탑재기기 제어장치 | KR1020000075898 | 2000-12-13 | KR100388595B1 | 2003-06-25 | 미츠즈카가츠야 |
| 본 발명의 목적은 간단한 작업으로 스위치유닛을 새로 부착할 수 있는 차량탑재기기 제어장치를 제공하는 것이다. 이를 위하여 본 발명에서는 각 유닛장착부(3a 내지 3g)에 제어스위치(2)(SW-A 내지 SW-G)와 키톱(6a 내지 6g)으로 이루어지는 스위치유닛을 장착한다. 각 스위치유닛의 종별은 각 키톱(6a 내지 6g)의 선단부에 형성된 스위치구동부(9a 내지 9g)의 형상의 상위를 유닛장착부(3a 내지 3g)측에서 검출함으로써 행한다. 또 각 유닛장착부(3a 내지 3g)에 키톱(6a 내지 6g)의 유무를 검출하기 위한 검출스위치(10a 내지 10g)를 설정하고, 제어부에서 상기 검출스위치(10a 내지 10g)로부터의 검출스위치신호를 검출함으로써 키톱(6a 내지 6g)의 유무를 판정하고, 유닛장착부(3a 내지 3g)에서 키톱(6a 내지 6g) 중 어느 하나가 제거되었다고 판정된 경우에는 제어부가 적어도 제거된 키톱에 대응하는 제어기능을 정지상태로 전환한다. | ||||||
| 42 | 압축가능한 도전성 소자들을 체결하는 패시브 사용자 입력 부착부들 및 그를 위한 방법 | KR1020127030875 | 2011-04-19 | KR1020130021390A | 2013-03-05 | 크라헨벌,존,헨리; 에디,로저; 슬래비,지리 |
| 사용자 입력 부착부(201)는 모바일 전화기와 같은 전자 디바이스(100)에 선택적으로 부착하도록 구성된다. 전자 디바이스(100)는 복수의 전극 노드들(205)을 포함하고, 이들은 전자 디바이스(100)의 하나 이상의 표면들에 걸쳐 서로로부터 분리되게 구성될 수 있다. 복수의 전극 노드들(205)과 동작가능한 컨트롤러(105)는 전극 노드들(205)을 통해 흐르는 전류(또는 그 양단의 전압)를 감지하도록 구성된다. 감지된 전압 또는 전류는 사용자 입력 부착부(201), 및 포함되는 경우에 하나 이상의 돌출부들(206)로부터 전극 노드들(205)에 대한 압축가능한 도전성 소자들(207)로부터의 압력에 좌우되어, 체결 시그너쳐(771)를 확립한다. 컨트롤러(105)는 체결 시그너쳐(771)로부터 사용자 입력 부착부(201)를 식별하고, 사용자 입력 부착부(201)의 사용자 조작에 의해 유발되는 전극 노드들(205)의 각각의 전류(770) 또는 그 양단 전압의 변동들로 인한 체결 시그너쳐(771)로부터의 변경을 검출함으로써 사용자 입력을 검출하도록 구성된다. | ||||||
| 43 | 차량탑재기기 제어장치 | KR1020000075898 | 2000-12-13 | KR1020010062375A | 2001-07-07 | 미츠즈카가츠야 |
| PURPOSE: A control device for apparatus mounted on a vehicle is provided to be capable of changing a switch unit through simple work. CONSTITUTION: The switch unit, composed of the control unit switch(2)(SW-A to SW-G) and the key tops(6a-6g), is mounted on respective unit mounting portions(3a-3g). Classifying of each switch units is conducted through detection on the side of the unit mount portions(3a-3g), the difference in the shapes of each switch operating portions(9a-9g) formed on the head of each key tops(6a-6g). To respective unit mounting portions(3a-3g), the detecting switches(10a-10g) is aligned so as to detect the existence of the key tops(6a-6g). At the control portion, the existence of the key tops(6a-6g) is determined through detecting the signal from the detection switches(10a-10g). When it is determined at the unit mount portions(3a-3g) that one of key tops(6a-6g) is removed, the control function is arranged to close the corresponding key top of which control portion is at least switched to halt condition. | ||||||
| 44 | Thin Keyboard Device | US16101212 | 2018-08-10 | US20180350536A1 | 2018-12-06 | Andrew E. Winter |
| A thin keyboard device is described herein. In one or more implementations, a keyboard device includes a plurality of keys, and a housing that includes a structural printed circuit board (PCB). The structural PCB includes, for each of the plurality of keys, a first conductive trace and a second conductive trace. The keyboard device further includes a key-switch mechanism for each of the plurality of keys. The key-switch mechanism includes a conductive material oriented towards the first conductive trace and the second conductive trace, and is configured to cause the conductive material to move downwards, when the key is depressed, to electrically connect the first conductive trace and the second conductive trace of the depressed key. | ||||||
| 45 | Membrane switch and method of manufacturing the same | US15025682 | 2014-03-07 | US10002726B2 | 2018-06-19 | Yu Wang; Zean Qiu |
| A membrane switch and a method of manufacturing the same, includes upper and lower membranes printed with upper and lower conductive dots and an isolation layer between them, holes being opened in the isolation layer corresponding to the dots, the isolation layer is bonded with the upper and lower membranes respectively via the glue coated on the upper surface and the lower surface thereof; and the glue may employ hot melt glue. This method of manufacturing the membrane switch includes a coating the upper surface and/or lower surface of the isolation layer exclusive of the positions of the holes with glue; bonding and adhering the sides of the upper membrane and the lower membrane printed with the conductive dots and respectively to the upper surface and the lower surface of the isolation layer via glue, making the positions of the conductive dots and the holes corresponding to each other. | ||||||
| 46 | Slim-type keyboard | US15257709 | 2016-09-06 | US09852854B1 | 2017-12-26 | Yi-Chen Wang |
| A slim-type keyboard includes a first flexible layer, a pressed frame and a circuit board assembly. The first flexible layer includes plural pressed regions. The pressed frame includes plural cantilever strips. The circuit board assembly includes plural dome switches. The plural cantilever strips are covered by the first flexible layer. The pressed regions are aligned with the cantilever strips and the dome switches, respectively. When one of the pressed regions is pressed, the cantilever strip is pushed down to trigger the corresponding dome switch. Each cantilever strip includes a U-shaped groove and a suspension end. The U-shaped groove opens to the suspension end. Consequently, the tactile feel of pressing the cantilever strip is improved. | ||||||
| 47 | KEYBOARD FOR ELECTRONIC DEVICE | US15269790 | 2016-09-19 | US20170011869A1 | 2017-01-12 | Eric A. Knopf; Matthew P. Casebolt; Craig C. Leong; Robert Y. Cao; Bradford J. Zercoe; Dinesh C. Mathew; Zheng Gao; Ryan P. Brooks; Paul X. Wang; Bruce E. Berg |
| An input mechanism is disclosed. The input mechanism includes a dome support structure defining an opening that extends through the dome support structure, a collapsible dome positioned in the opening and engaged with the dome support structure, and a cover member coupled to the dome support structure and covering the collapsible dome, thereby retaining the collapsible dome within the opening of the dome support structure. | ||||||
| 48 | A MEMBRANE SWITCH AND METHOD OF MANUFACTURING THE SAME | US15025682 | 2014-03-07 | US20160240333A1 | 2016-08-18 | Yu WANG; Zean QIU |
| A membrane switch and a method of manufacturing the same, includes upper and lower membranes printed with upper and lower conductive dots and an isolation layer between them, holes being opened in the isolation layer corresponding to the dots, the isolation layer is bonded with the upper and lower membranes respectively via the glue coated on the upper surface and the lower surface thereof; and the glue may employ hot melt glue. This method of manufacturing the membrane switch includes a coating the upper surface and/or lower surface of the isolation layer exclusive of the positions of the holes with glue; bonding and adhering the sides of the upper membrane and the lower membrane printed with the conductive dots and respectively to the upper surface and the lower surface of the isolation layer via glue, making the positions of the conductive dots and the holes corresponding to each other. | ||||||
| 49 | Anti-spying encrypted keyboard | US13810397 | 2011-07-22 | US09191207B2 | 2015-11-17 | Junkun Zhang; Zhulong Lin; Jing He; Ying Han |
| Disclosed is an anti-spying encrypted keyboard, particularly an anti-spying encrypted keyboard having an anti-spying detection protective system in multiple aspects. The anti-spying encrypted keyboard comprises a key panel and a main control board. The main control board includes a control circuit with self-destruct function. The control circuit is fixedly sealed on the back of the main control board by an anti-spying protective mechanism. The anti-spying protection mechanism is electrically connected with the control circuit. The anti-spying protection mechanism comprises: an anti-spying cover (31) having a bottom surface (311) and a side wall (312) extending perpendicularly along the edge thereof, the side wall (312) together with the bottom surface (311) forming a first cavity (313); a rigid anti-spying circuit board (32) being placed inside the first cavity (313), and a second cavity (326) being formed by a bottom side and a side wall with the circular edge, the bottom side of the second cavity (326) is provided with at least one pair of connecting fingers (3252) for the anti-spying circuit (32); and a conductive adhesive (34) placed inside the second cavity (326) to make the connecting fingers (3252) on the rigid anti-spy circuit board (32) and the connecting fingers (3252) on the control circuit of the main control board connect electrically. | ||||||
| 50 | TOUCH SENSOR PANEL WITH IN-PLANE BACKUP BYPASS CONNECTIONS | US14621788 | 2015-02-13 | US20150177886A1 | 2015-06-25 | John J Gorsica; Dale F Bengtson; Michael F Olley |
| Touch sensor panels (104) have 2-D periodic arrangements of electrodes (304) connected together forming a plurality of horizontal and vertical logical lines (506, 514) for measuring X-Y coordinates of a user's touch. Electrodes forming the horizontal logical lines are interleaved with electrodes forming the vertical logical lines. Each of the vertical and horizontal logical lines includes multiple tracks (502, 504, 510, 512). The tracks of each logical line are cross connected by in-plane cross connects (314, 318) formed in the same layer by the same process that is used to form the electrodes. Diamond and square electrode embodiments are described. | ||||||
| 51 | Touch sensor panel with in-plane backup bypass connections | US13564859 | 2012-08-02 | US08988387B2 | 2015-03-24 | John J Gorsica; Dale F Bengtson; Michael F Olley |
| Touch sensor panels (104) have 2-D periodic arrangements of electrodes (304) connected together forming a plurality of horizontal and vertical logical lines (506, 514) for measuring X-Y coordinates of a user's touch. Electrodes forming the horizontal logical lines are interleaved with electrodes forming the vertical logical lines. Each of the vertical and horizontal logical lines includes multiple tracks (502, 504, 510, 512). The tracks of each logical line are cross connected by in-plane cross connects (314, 318) formed in the same layer by the same process that is used to form the electrodes. Diamond and square electrode embodiments are described. | ||||||
| 52 | Plastic-shell-encased circuit breaker having automatic locking function | US13982716 | 2012-01-17 | US20140367232A1 | 2014-12-18 | Jiasheng Wan |
| A plastic-shell-encased circuit breaker having an automatic locking function comprises a plastic-shell-encased circuit breaker body, a user input unit for inputting a lock code or an unlock code; an authentication processing unit for receiving the lock code or the unlock code from the user input unit, and for outputting a control signal after authentication; a locking action unit for receiving the control signal from the authentication processing unit, and for enabling the plastic-shell-encased circuit breaker body to produce a self-locking or unlocking action. Utilization of the plastic-shell-encased circuit breaker having the automatic locking function is capable of preventing the circuit breaker from being switched on without careful consideration, so as to ensure security of operators. | ||||||
| 53 | ANTI-SPYING ENCRYPTED KEYBOARD | US13810397 | 2011-07-22 | US20130142327A1 | 2013-06-06 | Junkun Zhang; Zhulong Lin; Jing He; Ying Han |
| Disclosed is an anti-spying encrypted keyboard, particularly an anti-spying encrypted keyboard having an anti-spying detection protective system in multiple aspects. The anti-spying encrypted keyboard comprises a key panel and a main control board. The main control board includes a control circuit with self-destruct function. The control circuit is fixedly sealed on the back of the main control board by an anti-spying protective mechanism. The anti-spying protection mechanism is electrically connected with the control circuit. The anti-spying protection mechanism comprises: an anti-spying cover (31) having a bottom surface (311) and a side wall (312) extending perpendicularly along the edge thereof, the side wall (312) together with the bottom surface (311) forming a first cavity (313); a rigid anti-spying circuit board (32) being placed inside the first cavity (313), and a second cavity (326) being formed by a bottom side and a side wall with the circular edge, the bottom side of the second cavity (326) is provided with at least one pair of connecting fingers (3252) for the anti-spying circuit (32); and a conductive adhesive (34) placed inside the second cavity (326) to make the connecting fingers (3252) on the rigid anti-spy circuit board (32) and the connecting fingers (3252) on the control circuit of the main control board connect electrically. | ||||||
| 54 | Passive user input attachment engaging compressible conductive elements and method for using the same | US12786922 | 2010-05-25 | US08451104B2 | 2013-05-28 | John Henry Krahenbuhl; Roger Ady; Jiri Slaby |
| A user input attachment (201) is configured to selectively attach to an electronic device (100) such as a mobile telephone. The electronic device (100) includes a plurality of electrode nodes (205), which can be configured separately from each other across one or more surfaces of the electronic device (100). A controller (105), which is operable with the plurality of electrode nodes (205), is configured to sense current flowing through (or voltage across) the electrode nodes (205). The sensed voltage or current establishes an engagement signature (771) dependent upon pressure from compressible conductive elements (207) against electrode nodes (205) from the user input attachment (201), and where included, one or more protuberances (206). The controller (105) is configured to identify the user input attachment (201) from the engagement signature (771), and to detect user input by detecting changes from the engagement signature (771) due to variations in the current (770) in, or voltage across, each of the electrode nodes (205) caused by user manipulation of the user input attachment (201). | ||||||
| 55 | Passive User Input Attachment Engaging Compressible Conductive Elements and Method for Using the Same | US12786922 | 2010-05-25 | US20110291820A1 | 2011-12-01 | John Henry Krahenbuhl; Roger Ady; Jiri Slaby |
| A user input attachment (201) is configured to selectively attach to an electronic device (100) such as a mobile telephone. The electronic device (100) includes a plurality of electrode nodes (205), which can be configured separately from each other across one or more surfaces of the electronic device (100). A controller (105), which is operable with the plurality of electrode nodes (205), is configured to sense current flowing through (or voltage across) the electrode nodes (205). The sensed voltage or current establishes an engagement signature (771) dependent upon pressure from compressible conductive elements (207) against electrode nodes (205) from the user input attachment (201), and where included, one or more protuberances (206). The controller (105) is configured to identify the user input attachment (201) from the engagement signature (771), and to detect user input by detecting changes from the engagement signature (771) due to variations in the current (770) in, or voltage across, each of the electrode nodes (205) caused by user manipulation of the user input attachment (201). | ||||||
| 56 | KEYBOARD | US12610382 | 2009-11-02 | US20110073449A1 | 2011-03-31 | HUNG YEN; TE-HUA LEE; MAN-ZHONG WANG; SHI-PEI ZHANG |
| A keyboard includes a keypad portion, a base board, an illuminating device, and a circuit board. The keypad portion is mounted to the base board. The illuminating device is electrically connected to the circuit board and is further fixed to the base board surrounding the keypad portion. The circuit board is configured to supply the illuminating device with power. When powering the illuminating device, the keyboard can be used in a dark environment. | ||||||
| 57 | Input device using elastic material | US11483159 | 2006-07-10 | US07479903B2 | 2009-01-20 | Rieko Otsuka; Takeshi Hoshino; Youichi Horii |
| A conventional mouse and keyboard poses great load on the user's finger and hands at key operation, and the material used for its surface is rigid. An input device which can reduce the load on the user's finger, and gives soft touch by avoiding abrupt change in downward pressure at key operation. The input device includes elastic material on the surface, a camera to image the back surface of a key when the key is pressed, an image processor which determines finger position from the image, and an output which generates a signal according to the finger position. By using this input device, the user can carry out operations similar to those achieved by a mouse and keyboard for a computer. | ||||||
| 58 | Input device using elastic material | US11483159 | 2006-07-10 | US20070051591A1 | 2007-03-08 | Rieko Otsuka; Takeshi Hoshino; Youichi Horii |
| A conventional mouse and keyboard poses great load on the user's finger and hands at key operation, and the material used for its surface is rigid. An input device which can reduce the load on the user's finger, and gives soft touch by avoiding abrupt change in downward pressure at key operation. The input device includes elastic material on the surface, a camera to image the back surface of a key when the key is pressed, an image processor which determines finger position from the image, and an output which generates a signal according to the finger position. By using this input device, the user can carry out operations similar to those achieved by a mouse and keyboard for a computer. | ||||||
| 59 | Communication terminal having exchangeable parts | US09678962 | 2000-10-04 | US07092519B1 | 2006-08-15 | Christian Lindholm |
| A communication terminal has a user interface having a keypad and display means, said key pad is included in a releasable housing part assembly, a processor controlling the terminal in dependence of the operation of the user interface, and identification means included in said housing part assembly for identifying the housing part assembly. The processor controls the display means in dependence of the identified housing part assembly. | ||||||
| 60 | Insert for use with a remote control base | US11188617 | 2005-07-25 | US20050255435A1 | 2005-11-17 | Peter Redford; Donald Stern |
| A remote control includes a base and an insert that is attached in a detachable manner to the base. The base includes a remote control circuit, a button coupled to operate the remote control circuit and a fastener capable of holding the insert. The insert includes a printed publication (such as a card, a sheet of paper or a booklet) containing at least one leaf having human-understandable content (such as text and/or graphics). To assemble the remote control, a user attaches the insert to the fastener, so that the human-understandable content is laid over the button. Thereafter, when the user operates the button (e.g. by touching the leaf), the base transmits a remote control signal that causes a host device to visually display information related to the human-understandable content at the touched location. A base in the form of a three ring binder gives the user an intuitive feel of simply touching human-understandable content on a leaf in the binder to view a display of information related to the content. In addition to the human-understandable content, the insert can carry a predetermined pattern that can be sensed by a sensor during mounting of the insert on the base. The base transmits, in the remote control signal, a number determined from the predetermined pattern thereby to indicate to the host device the insert currently in the base. | ||||||
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