子分类:
- H01H2217/002: .从两侧驱动
- H01H2217/004: .较大的或不同的工作区
- H01H2217/006: .针对不同开关位置的不同感觉
- H01H2217/008: .避免无意中开关的预开度
- H01H2217/01: .偏离中心的驱动
- H01H2217/012: .同时考虑的两个键
- H01H2217/014: .有缺陷的
- H01H2217/016: .减压膜;分流层
- H01H2217/018: .开关位置的指示
- H01H2217/02: .行程外
- H01H2217/022: .不可操作的键盘部件
- H01H2217/024: .致动器剖面
- H01H2217/026: .光束操作
- H01H2217/028: .在不同或可变的倾斜面上,例如凸平面
- H01H2217/032: .选定方式的反馈,例如显示
- H01H2217/034: .支撑把手或臂
- H01H2217/036: .用于一种方式的多个小型多功能键
- H01H2217/038: .提示
- H01H2217/04: .控制装置或方式的模拟
- H01H2217/042: .较高的键端
- H01H2217/044: .重复性劳损考虑
- H01H2217/046: .通过小型致动器增强的图例空间
- H01H2217/048: .适于左手和右手操作的
| 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 | Vehicle switch device | US14811348 | 2015-07-28 | US09679715B2 | 2017-06-13 | Koji Mori; Mamoru Minamide |
| A vehicle switch device has a selection switch having an operation part that, when operated, selects at least one of a plurality of driving target vehicle components mounted on a vehicle, and an operation switch that is separately operable from the selection switch, and drives the selected driving target vehicle component when operated. The operation switch has a single holding operation knob that swings so as to have a front portion thereof pushed down or pulled up. The single holding operation knob is structured to allow a palm of a hand to be placed on an upper face thereof, and fingers of the hand other than a thumb to be placed on the front portion. The operation part is disposed on a side face of the holding operation knob. | ||||||
| 42 | TACTILE BUTTON DEVICE, TACTILE BUTTON ASSEMBLY AND SINGLE-USE PRODUCT | US14607454 | 2015-01-28 | US20160217946A1 | 2016-07-28 | Frank Maggiore |
| A tactile button device suitable to be sterilized is provided. The tactile button device comprises at least one receptacle that is adapted to be at least partly filled with a material and being configured such that the material filled into the receptacle is at least partly displaced when subjected to a pressure, at least one duct connected to the receptacle and allowing the pressure exerted to the material to be transmitted, a connector connected to the at least one duct and connectable to a detection device, such that the pressure on the material is transmitted to the detection device. | ||||||
| 43 | Force-sense imparting type multidirectional input device | US14153652 | 2014-01-13 | US09251976B2 | 2016-02-02 | Hironori Takeda |
| A force-sense imparting type multidirectional input device includes a base body including a receiving space, a slider movably disposed in the receiving space, an operating member integrated with the slider, a first driving member that includes a first engaging portion rotationally driven along the movement of the slider, a second driving member that includes a second engaging portion rotationally driven along the movement of the slider and a force-sense imparting unit that imparts a sense of force to an operator through the operating member. The slider is slidingly moved along the first virtual axis and swings about the first virtual axis in a direction orthogonal to the first virtual axis, the first engaging portion of the first driving member is rotationally driven with the sliding movement of the slider, and the second engaging portion of the second driving member is rotationally driven with the swing of the slider. | ||||||
| 44 | FORCE-SENSE IMPARTING TYPE MULTIDIRECTIONAL INPUT DEVICE | US14153652 | 2014-01-13 | US20150041291A1 | 2015-02-12 | Hironori Takeda |
| A force-sense imparting type multidirectional input device includes a base body including a receiving space, a slider movably disposed in the receiving space, an operating member integrated with the slider, a first driving member that includes a first engaging portion rotationally driven along the movement of the slider, a second driving member that includes a second engaging portion rotationally driven along the movement of the slider and a force-sense imparting unit that imparts a sense of force to an operator through the operating member. The slider is slidingly moved along the first virtual axis and swings about the first virtual axis in a direction orthogonal to the first virtual axis, the first engaging portion of the first driving member is rotationally driven with the sliding movement of the slider, and the second engaging portion of the second driving member is rotationally driven with the swing of the slider. | ||||||
| 45 | Customizable keyboard | US12468806 | 2009-05-19 | US08017879B2 | 2011-09-13 | Song-Ling Yang |
| A keyboard includes a panel and a number of input keys. The input keys are assembled on the panel. The panel includes at least one first positive contact, at least one first negative contact and at least one first signal contact disposed on the panel. Each input key of the number of input keys includes a second positive contact, a second negative contact, a second signal contact and a signal transmitter received therein. The second positive contact, the second negative contact and the second signal contact are configured for connecting to the at least one first positive contact, the at least one first negative contact and the at least one first signal contact respectively when the input key is assembled on the panel. The signal transmitter is configured for emitting a signal reflecting the function of the input key when the input key is pressed. | ||||||
| 46 | Multicolor transparent computer keyboard | US11779296 | 2007-07-18 | US07847204B2 | 2010-12-07 | Huo-Lu Tsai |
| A multicolor transparent computer keyboard for operating a computer in a dark environment includes transparent keypads each on a top including spaced transparent color layers occupying four corners and being different in color from each other, an opaque layer on the color layers and having portions overlapped with the color layers being removed, and characters printed on the opaque layer; bridges pivotably interconnecting the key caps and an underlying transparent frame plate; a PCB under the frame plate; and a luminescence panel under the PCB and including cells each below the key cap, each cell including regions of different colors and adapted to electrically activate to upward emit light which is adapted to show multi-color when passing a gap between the color layers and show a backlit color when passing one of the color layers. The backlit color of each color layer is different from that of another color layer. | ||||||
| 47 | RECONFIGURABLE TACTILE INTERFACE UTILIZING ACTIVE MATERIAL ACTUATION | US12371867 | 2009-02-16 | US20100207775A1 | 2010-08-19 | John K. Lenneman; Alan L. Browne; Nancy L. Johnson |
| A reconfigurable tactile human-machine interface adapted for facilitating selection and manipulation by a user, presenting a first geometric shape, orientation, position, or characteristic, and including at least one active material element configured to cause the interface to achieve a second geometric shape, orientation, position or otherwise characteristic when activated or deactivated, and preferably further including at least one sensor, and a controller communicatively coupled to the sensor and interface and configured to selectively cause the element to be activated upon receipt of sensory input. | ||||||
| 48 | METAL DOME SHEET HAVING PRESSING PROJECTION, PUSH BUTTON SWITCH, AND METHOD OF PRODUCING THE PUSH BUTTON SWITCH | US12532508 | 2008-04-17 | US20100108486A1 | 2010-05-06 | Minoru Yoshida |
| To provide a metal dome sheet 10 to which a metal dome 8 is attached. The metal dome 8 elastically deforms with a pressing operation of a key top 16, thereby to have electrical conduction with a contact 6 provided on a substrate 2, and restores from a deformed state when the pressing operation is released, thereby to release the conduction with the contact. The metal dome sheet 10 has an elastic pressing projection 12 which transmits pressing force applied from the key top 16 side to a top 8a of the metal dome 8. | ||||||
| 49 | Tactile Conforming Apparatus and Method for a Device | US12194372 | 2008-08-19 | US20090132093A1 | 2009-05-21 | Theodore R. Arneson; Thomas E. Gitzinger; William N. Robinson |
| A device (100, 2604) includes a controllable skin texture surface (2602), a sensor (2700), and control logic (200). The sensor senses a plurality of points of interest (2804, 2806) of a user surface (2800). The control logic controls a plurality of portions (2900) of the controllable skin texture surface to protrude at locations with respect to the plurality of points of interest in response to the sensor sensing the plurality of points of interest. In one example, the control logic periodically adjusts the plurality of portions protruding from the controllable skin texture surface in response to movement between the user surface and the controllable skin texture surface. | ||||||
| 50 | Graphical source identification display | US09339358 | 1999-06-23 | US06549190B1 | 2003-04-15 | Kevin D. Windrem |
| A graphical source ID display has a plurality of display regions aligned with respective columns of source selector buttons. Each display region has a bit-map representation, either iconic or textual, that identifies the source associated with that column. The display regions may further be backlit. The bit-map representation is entered into a display controller by an operator during setup, the display controller providing the bit-map representations to the appropriate display regions. | ||||||
| 51 | Transmission brake release switch mount | US257727 | 1999-03-02 | US6109576A | 2000-08-29 | Daniel David Szewczyk |
| My Transmission Brake Release Switch Mount allows a Drag Race Car Driver to place his thumb or finger on the brake release switch in the same position each race. The driver can do this without looking. This will improve the consistency of the driver's reaction time, resulting in more races won. | ||||||
| 52 | Multi-directional switch | US764514 | 1985-08-09 | US4687200A | 1987-08-18 | Ichiro Shirai |
| A four-directional switch which can be turned on and off in four directions, which comprises a base plate having a plurality of electrodes formed thereon, a key top having an indication showing predetermined four pressing directions in an identifiable manner, a support member constituting a fulcrum between the base plate and the key top, a plurality of conductive rubbers disposed opposing to the plurality of electrodes so as to be in electrical contact with corresponding ones of the electrodes, and a sustaining member having the plurality of conductive rubbers fixed thereto and having elastic force for sustaining the conductive rubbers so as not to be in contact with the electrodes when the key top is not pressed. | ||||||
| 53 | Metal dome sheet equipped with pressing protrusion, and push-button switch | JP2007108939 | 2007-04-18 | JP2008269864A | 2008-11-06 | YOSHIDA MINORU |
| <P>PROBLEM TO BE SOLVED: To provide a member for a push-button switch capable of accurately positioning a pressing protrusion and the top part of a metal dome. <P>SOLUTION: A metal dome sheet 10 is provided that is a sheet on which a metal dome 8 is mounted, which metal dome 8 is elastically deformed by pressing operation of a key top 16 to be electrically conducted to a contact 6 installed on a substrate 2, and is restored from a deformed state when the pressing operation is released to release the conduction between the metal dome 8 and the contact, and that is equipped with the pressing protrusion 12 having elasticity to transfer a pressing force added from the key top 16 side to the top part 8a of the metal dome 8. <P>COPYRIGHT: (C)2009,JPO&INPIT | ||||||
| 54 | Electronic apparatus | JP2003405161 | 2003-12-03 | JP2005167033A | 2005-06-23 | SUZUKI TATSUYA |
| PROBLEM TO BE SOLVED: To provide an ergonomically excellent electronic apparatus which can be operated without requiring a needless action for re-holding it. SOLUTION: This electronic apparatus comprises a grip 5 for gripping the electronic apparatus placed on an arbitrary object, and an operation part 2 which can be operated without re-holding the grip 5. The electronic apparatus is constituted so that it can be placed on an arbitrary object with turned-down one side face 1a, and the operation part 2 is provided on the one side face 1a so that it can not be operated by an arbitrary object. COPYRIGHT: (C)2005,JPO&NCIPI | ||||||
| 55 | Touch input detecting method and touch input detector | JP1202798 | 1998-01-06 | JPH11194863A | 1999-07-21 | SAITO NORIHIKO |
| PROBLEM TO BE SOLVED: To select many functions and data and to make obtainable satisfactory operability that easily utilizes many functions by replacing physical phenomenons that follow on trajectory and repeats touch inputs with scalar quantity information and vector quantity information and continuously adding or subtracting physical value. SOLUTION: A substrate 59 is provided on a hard plate K such as a metallic plate, pairs of contacts 60 are provided on the substrate 59 and movable contacts which are made from conductors 58 are provided on the bottom of a film-like sheet on whose top surface projections 56 are provided through spacers 54. A touch event is generated by pushing pressure from above or vertical pushing pressure by a finger and input items are controlled by sliding, etc., of the finger. Thus, it is possible to continuously operate and control plural input events by repeatedly taking in scalar and vector information (information that consists of time, distance, direction, speed, velocity, acceleration, etc., as elements) which is generated from a finger that follows and moves, touching contact detection sensors arranged on trajectory. | ||||||
| 56 | Electronic computer with keyboard | JP17953785 | 1985-08-16 | JPS61241861A | 1986-10-28 | BERUNTO GIYUTSUBE; GIYUNTERU HARUTOMAN; KURAUSU DEIITERU KURAUZE |
| 57 | Key input device | JP5013082 | 1982-03-30 | JPS58168134A | 1983-10-04 | MURAKAMI OSAMU |
| PURPOSE:To select correctly many small-sized keys for depressing, by bringing contacts on printed boards oppossing to each other and clipping an insulation sheet having plural number of holes for slidable contact into contact with each other via the holes. CONSTITUTION:The insulating sheet 6 having projections 9, 9' at both ends is provided with large- and small-sized holes for contacts in matrix, alternate arrangement of large- and small-sized holes longitudinally and arranged large- and small-sized holes laterally. This insulating sheet 6 is clipped with the 1st printed board 1 and the 2nd printed board(not shown). The 1st printed board 1 is arranged with large-sized key symbols 3a and small-sized key symbols 3b as shown in a figure, alternately in the longitudinal direction and with the symbols 3b between the symbols 3a laterally, and its back side has contacts. The 2nd printed board has contacts of the similar arrangement. The keys of the 3a and the 3b groups are depressed by sliding right or left the insulation sheet 9. Thus, the keys arranged in a narrow space are selected correctly for depressing. | ||||||
| 58 | 키 스위치 조립지그 | KR1020050057584 | 2005-06-30 | KR100832500B1 | 2008-05-27 | 니시노다케시; 나카무라슈지; 다케마에아키히코 |
| 본 발명은 키 스위치 장치에 있어서, 키 톱의 안정된 타건조작성을 확보하고, 한층 저배화되며, 타건조작 스트로크량의 증가를 실현하기 위한 것이다. 키 스위치 장치(10)는 지지판(12)과, 지지판의 윗쪽에 배치되는 키 톱(14)과, 서로 연동하여 키 톱을 지지판의 윗쪽에서 승강방향으로 안내지지하는 한 쌍의 링크부재(16)와, 키 톱의 승강동작에 대응하여 전기회로의 접점부를 개폐하는 스위치 기구(20)를 구비한다. 스위치 기구는 키 톱에 대응하는 위치에 접점부를 담지하고 지지판 위에 놓이는 멤브레인 스위치 시트(22)를 가진다. 각 링크부재는 지지판에 슬라이딩 가능하게 맞물리는 슬라이딩부(46)를 가지고, 멤브레인 스위치 시트는 각 링크부재의 슬라이딩부가 지지판과 맞물리는 영역에 관통구멍(56)을 가진다. 링크부재의 슬라이딩부는 멤브레인 스위치 시트의 관통구멍을 통과하여, 지지판에 슬라이딩 가능하게 놓인다. 키 스위치, 키 톱, 타건조작성 | ||||||
| 59 | 키 스위치 조립지그 | KR1020050057584 | 2005-06-30 | KR1020060048741A | 2006-05-18 | 니시노다케시; 나카무라슈지; 다케마에아키히코 |
| 본 발명은 키 스위치 장치에 있어서, 키 톱의 안정된 타건조작성을 확보하고, 한층 저배화되며, 타건조작 스트로크량의 증가를 실현하기 위한 것이다. 키 스위치 장치(10)는 지지판(12)과, 지지판의 윗쪽에 배치되는 키 톱(14)과, 서로 연동하여 키 톱을 지지판의 윗쪽에서 승강방향으로 안내지지하는 한 쌍의 링크부재(16)와, 키 톱의 승강동작에 대응하여 전기회로의 접점부를 개폐하는 스위치 기구(20)를 구비한다. 스위치 기구는 키 톱에 대응하는 위치에 접점부를 담지하고 지지판 위에 놓이는 멤브레인 스위치 시트(22)를 가진다. 각 링크부재는 지지판에 슬라이딩 가능하게 맞물리는 슬라이딩부(46)를 가지고, 멤브레인 스위치 시트는 각 링크부재의 슬라이딩부가 지지판과 맞물리는 영역에 관통구멍(56)을 가진다. 링크부재의 슬라이딩부는 멤브레인 스위치 시트의 관통구멍을 통과하여, 지지판에 슬라이딩 가능하게 놓인다. 키 스위치, 키 톱, 타건조작성 | ||||||
| 60 | TACTILE BUTTON DEVICE, TACTILE BUTTON ASSEMBLY AND SINGLE-USE PRODUCT | EP15812950.2 | 2015-11-25 | EP3198621A1 | 2017-08-02 | MAGGIORE, Frank |
| A tactile button device is provided and is suitable to be sterilized. The tactile button device has at least one receptacle that is adapted to be filled at least partly with a material and further is configured so that the material filled into the receptacle is displaced when subjected to a pressure. At least one duct is connected to the receptacle and allows the pressure exerted to the material to be transmitted. A connector is connected to the at least one duct and is connectable to a detection device so that the pressure on the material is transmitted to the detection device. | ||||||
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