| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 1 | 电子装置 | CN201380000763.X | 2013-06-28 | CN105027247A | 2015-11-04 | 布莱恩·蔡 |
| 根据一个实施例,一种电子装置包括:壳体、开关、按钮部件和支撑部。壳体具有开口。按钮部件包括操作部、摇摆轴和动作部。操作部通过开口被暴露。轴被联接到操作部并且能够枢轴转动。动作部被联接到轴上,被配置成面对开关并且绕轴枢轴转动,从而按压开关。支撑部被配置成支撑按钮部件,支撑部被配置成通过按钮部件的部分而被弹性变形并且回复按钮部件。 | ||||||
| 2 | 按键、具该按键的按键组件及便携式电子装置 | CN200910305982.4 | 2009-08-24 | CN101996785A | 2011-03-30 | 张羽 |
| 一种按键,该按键包括一主动件及一与该主动件一起旋转的的随动件,该随动件背向该主动件的表面设有一转动部,该随动件朝向该主动件的表面设有二触发部,所述触发部分别位于该转动部的两侧。本发明还提供一种应用所述按键的按键组件及便携式电子装置。 | ||||||
| 3 | 按钮开关装置 | CN200780032418.9 | 2007-08-21 | CN101512699B | 2011-01-12 | 境井贵行 |
| 本发明的按钮开关装置,通过按压体(84)对操作体(70)赋予由按键开关的操作力及橡胶体的复原力所提供的向上加压力,由按钮部(72)的按压操作,操作体(70)将按压体(84)的左、右片的后端部按下,以抵接于台阶部的两抵接片为支点,按上按压体(84)前端的动作片,使按键开关接通。此时,按压按钮部(72)时,对应于按压部位而切换操作体(70)的转动中心,使操作体(70)的按压部位与转动中心的距离与按压部位无关,保持为大致相同,操作负荷与按压部位无关而大致均匀。而且,通过改变与应该成为支点的两抵接片抵接的台阶部(88)的位置,能够任意可变地设定操作负荷。 | ||||||
| 4 | 按钮开关装置 | CN200780032418.9 | 2007-08-21 | CN101512699A | 2009-08-19 | 境井贵行 |
| 本发明的按钮开关装置,通过按压体(84)对操作体(70)赋予由按键开关的操作力及橡胶体的复原力所提供的向上加压力,由按钮部(72)的按压操作,操作体(70)将按压体(84)的左、右片的后端部按下,以抵接于台阶部的两抵接片为支点,按上按压体(84)前端的动作片,使按键开关接通。此时,按压按钮部(72)时,对应于按压部位而切换操作体(70)的转动中心,使操作体(70)的按压部位与转动中心的距离与按压部位无关,保持为大致相同,操作负荷与按压部位无关而大致均匀。而且,通过改变与应该成为支点的两抵接片抵接的台阶部(88)的位置,能够任意可变地设定操作负荷。 | ||||||
| 5 | ELECTRONIC APPARATUS | US14014013 | 2013-08-29 | US20140116868A1 | 2014-05-01 | Brian Tsai |
| According to one embodiment, an electronic apparatus includes a housing, a switch, a button member and a supporting portion. The housing has an opening. The button member includes an operating portion, a rocker shaft and an acting portion. The operating portion is exposed through the opening. The shaft is coupled to the operating portion and pivotable. The acting portion is coupled to the shaft, configured to face the switch and to pivot about the shaft, thereby pressing the switch. The supporting portion is configured to support the button member, the supporting portion being configured to be elastically deformed by part of the button member and to return the button member. | ||||||
| 6 | KEY BUTTON MECHANISM AND ELECTRONIC DEVICE USING THE SAME | US12764192 | 2010-04-21 | US20110043452A1 | 2011-02-24 | YU ZHANG |
| A key button structure for entering data in an electronic device comprises a first key element and a second key element. The second key element is retained to the first key element by a retaining mechanism. The second key element has a joint positioned at a side thereof opposite to the first key element and two actuators located at an opposite side thereof facing the first key element. The joint pivotably couples the second key element to a housing of the electronic device. | ||||||
| 7 | PORTABLE ELECTRONIC APPARATUS | US15212062 | 2016-07-15 | US20170017267A1 | 2017-01-19 | MASAHIRO KITAMURA; MITSUO HORIUCHI; EIJI SHINOHARA |
| An electronic device is disclosed. The electronic apparatus has a board plate provided in a position apart from the operating direction of push buttons for receiving depressing operations. Detection switches for detecting the depressing operations of the push buttons are provided on the lower surface side of the board plate, and the push buttons are provided adjacent to the side part of the board plate and includes a vertically-movable operation surface part for receiving depressing operations and a detection arm, which protrudes from one edge part of the operation surface part to the lower surface side of the board plate and presses the detection switches by moving in the opposite direction to the direction of the vertical movement of the operation surface part. | ||||||
| 8 | Key button mechanism and electronic device using the same | US12764192 | 2010-04-21 | US08299376B2 | 2012-10-30 | Yu Zhang |
| A key button structure for entering data in an electronic device comprises a first key element and a second key element. The second key element is retained to the first key element by a retaining mechanism. The second key element has a joint positioned at a side thereof opposite to the first key element and two actuators located at an opposite side thereof facing the first key element. The joint pivotably couples the second key element to a housing of the electronic device. | ||||||
| 9 | Keybar keyboard | US383921 | 1982-06-01 | US4440515A | 1984-04-03 | Ernie G. Nassimbene |
| A keyboard (61) includes plural keybar actuators (11) each including plural keys (19, 23, 27, 31) hingedly interconnected (25, 29, 33) and a sensing device (13). The keys of a keybar actuator are all actuated by a common finger (45) in touch typing and therefore are not jointly actuated. Depression of one key causes the keybar actuator (11) to pivot and the sensing device (13) indicates which key is depressed depending upon the amount of keybar actuator rotation. Alternate sensing devices include individual contact switches (79-81) associated with each key. | ||||||
| 10 | Keybar keyboard | EP83104292.4 | 1983-05-02 | EP0095585B1 | 1987-11-04 | Nassimbene, Ernie George |
| 11 | Electronic apparatus | US14014013 | 2013-08-29 | US09105425B2 | 2015-08-11 | Brian Tsai |
| According to one embodiment, an electronic apparatus includes a housing, a switch, a button member and a supporting portion. The housing has an opening. The button member includes an operating portion, a rocker shaft and an acting portion. The operating portion is exposed through the opening. The shaft is coupled to the operating portion and pivotable. The acting portion is coupled to the shaft, configured to face the switch and to pivot about the shaft, thereby pressing the switch. The supporting portion is configured to support the button member, the supporting portion being configured to be elastically deformed by part of the button member and to return the button member. | ||||||
| 12 | Push button switch device | US12310589 | 2007-08-21 | US07994447B2 | 2011-08-09 | Takayuki Sakai |
| Upward urging force by operation force of a tact switch and restoring force of a rubber body are applied to an operation body via a pressing body. Then, pressing operation of a push button section causes the operation body to press down the rear ends of left and right sections of the pressing body. This follows that, with both contact sections in contact with a step section functioning as the support points, an operation section on the front end of the pressing body is pressed up to turn on the tact switch. In this process, when the push button section is pressed, the center of rotation of the operation body is changed depending on which portion of the push button section is pressed, causing the distance between a pressed portion of the operation body and the center of the rotation are almost equal independent of which portion is pressed. As a result, the load to operate the push button section is substantially equalized independent of which portion of the operation body is pressed. Also, the load to operate the operation body can be changed as desired by changing the position of the step section which is to be in contact with both contact sections functioning as the support point for the pressing body. | ||||||
| 13 | PUSH BUTTON SWITCH DEVICE | US12310589 | 2007-08-21 | US20100224471A1 | 2010-09-09 | Takayuki Sakai |
| Upward urging force by operation force of a tact switch and restoring force of a rubber body are applied to an operation body via a pressing body. Then, pressing operation of a push button section causes the operation body to press down the rear ends of left and right sections of the pressing body. This follows that, with both contact sections in contact with a step section functioning as the support points, an operation section on the front end of the pressing body is pressed up to turn on the tact switch. In this process, when the push button section is pressed, the center of rotation of the operation body is changed depending on which portion of the push button section is pressed, causing the distance between a pressed portion of the operation body and the center of the rotation are almost equal independent of which portion is pressed. As a result, the load to operate the push button section is substantially equalized independent of which portion of the operation body is pressed. Also, the load to operate the operation body can be changed as desired by changing the position of the step section which is to be in contact with both contact sections functioning as the support point for the pressing body. | ||||||
| 14 | Electronic device keypad | US11325863 | 2006-01-05 | US20070151838A1 | 2007-07-05 | Louis J. Lundell; Patrick Cauwels |
| A keypad (102) for entering data in an electronic device (100) is disclosed. The keypad includes a thin circuit (202) with a first side (302) and a second side (304). The keypad also includes a user interface (204) located on the first side of the thin circuit. In addition, the keypad includes a dome array system (206) coupled to the second side of the thin circuit. | ||||||
| 15 | ELECTRONIC APPARATUS | EP16179116.5 | 2016-07-12 | EP3128393A3 | 2017-06-07 | Kitamura, Masahiro; Horiuchi, Mitsuo |
Provided is an electronic apparatus capable of reducing cost and the thickness of a chassis. The electronic apparatus 10 has a configuration where a board plate 32, which is an electronic board, is provided in a position apart from the operating direction of push buttons 24a to 24c for receiving depressing operations. In the electronic apparatus 10, detection switches 35a to 35c for detecting the depressing operations of the push buttons 24a to 24c are provided on the lower surface side of the board plate 32, and the push buttons 24a to 24c are provided adjacent to the side part of the board plate 32 and includes a vertically-movable operation surface part 50 for receiving depressing operations and a detection arm 52, which protrudes from one edge part of the operation surface part 50 to the lower surface side of the board plate 32 and presses the detection switches 35a to 35c by moving in the opposite direction to the direction of the vertical movement of the operation surface part 50.
|
||||||
| 16 | Keybar keyboard | EP83104292 | 1983-05-02 | EP0095585A3 | 1986-10-01 | Nassimbene, Ernie George |
A keyboard includes plural keybar actuatros (11) each including plural keys (19, 23, 27, 31) hingedly interconnected (25, 29, 33) and a sensing device (13). The keys of a keybar actuator are all actuated by a common finger (45) in touch typing and therefore are nto jointly actuated. Depression of one key causes the keybar actuator (11) to pivot and the sensing device (13) indicates which key is depressed depending upon the amount of keybar actuator rotation. Alternate sensing devices include individual contact switches associated with each key. |
||||||
| 17 | Electronic device | JP2012235577 | 2012-10-25 | JP2014086341A | 2014-05-12 | TSAI BRIAN |
| PROBLEM TO BE SOLVED: To provide an electronic device having an improved freedom of button and switch placement.SOLUTION: The electronic device pertaining to one aspect of embodiment comprises a casing, a switch, a button, and a support part. The switch is disposed inside the casing. The button has an operation part, a rotation axis, and an action part. The operation part is exposed from an opening in the casing. The rotation axis is connected inside the casing to the operation part, and is held on the casing in a way to be able to move rotatably. The action part is connected to the rotation axis and faces the switch, moving rotatably around the rotation axis to push the switch. The support part is provided inside the casing for holding the button so as to restrict rotary movement, and is elastically deformed by part of the button when the button moves rotatably around the rotation axis and causes the button to restore when a force acting on the operation part is removed. | ||||||
| 18 | Pushbutton switch device | JP2006231756 | 2006-08-29 | JP4965196B2 | 2012-07-04 | 貴行 境井 |
| 19 | Kiiboodo | JP4249083 | 1983-03-16 | JPH0231451B2 | 1990-07-13 | AANII JOOJI NATSUSHINBEN |
| 20 | ELECTRONIC APPARATUS | EP16179116.5 | 2016-07-12 | EP3128393B1 | 2018-07-04 | Kitamura, Masahiro; Horiuchi, Mitsuo |
| Provided is an electronic apparatus capable of reducing cost and the thickness of a chassis. The electronic apparatus 10 has a configuration where a board plate 32, which is an electronic board, is provided in a position apart from the operating direction of push buttons 24a to 24c for receiving depressing operations. In the electronic apparatus 10, detection switches 35a to 35c for detecting the depressing operations of the push buttons 24a to 24c are provided on the lower surface side of the board plate 32, and the push buttons 24a to 24c are provided adjacent to the side part of the board plate 32 and includes a vertically-movable operation surface part 50 for receiving depressing operations and a detection arm 52, which protrudes from one edge part of the operation surface part 50 to the lower surface side of the board plate 32 and presses the detection switches 35a to 35c by moving in the opposite direction to the direction of the vertical movement of the operation surface part 50. | ||||||
QQ群二维码
意见反馈
意见反馈