| 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 | 用于电子设备的附件控制器 | CN201610294735.9 | 2010-06-22 | CN105957761A | 2016-09-21 | C·D·普雷斯特; C·V·蒂勒; J·米诺 |
| 本发明公开了用于电子设备的附件控制器。实施例提供了用于电子设备的附件,诸如耳机。耳机可以配有按钮控制器配件,该按钮控制器配件则具有用户激励的按钮和麦克风。该麦克风可以通过在印刷电路板上安装麦克风变换器而形成。可以在该变换器上安装壳体,以形成用于该变换器的密封空腔。电路可以安装在印刷电路板的伸出麦克风壳体边缘的部分上。按钮控制器配件可以具有穹顶开关。所述穹顶开关可以具有包围穹顶开关部件并且为按钮控制器形成结构内件的壳体。所述穹顶开关壳体结构可以具有与按钮构件中的相应啮合特征配合的突出部或其他啮合特征。按钮构件可由用户按压以激励期望的穹顶开关。 | ||||||
| 2 | 薄膜开关 | CN201511019244.5 | 2015-12-30 | CN105655178A | 2016-06-08 | 邹伟民 |
| 本发明公开一种薄膜开关,包括上导电层、下导电层以及位于两者之间的绝缘层,该上导电层和下导电层中的其中一层包括导电线路层以及设于该导电线路层上的正极触发部和负极触发部,另一层包括第一基材以及设于该第一基材上、与正极触发部和负极触发部导通的导电体。本发明将正极触发部和负极触发部同时设置在上导电层或下导电层,并在相应的下导电层或上导电层设置具有导电功能的导电体,按压薄膜开关时,导电体与正极触发部和负极触发部同时接触,正负极导通,开关导通;与传统的薄膜开关相比,本发明只需在设置该正极触发部和负极触发部的一层设置导电线路层,工艺简单,生产效率高,同时,单层设置电路能够大幅降低生产成本。 | ||||||
| 3 | 用于电子设备的附件控制器 | CN201080040802.5 | 2010-06-22 | CN102498535B | 2016-03-23 | C·D·普雷斯特; C·V·蒂勒; J·米诺 |
| 提供了用于电子设备的附件,诸如耳机。耳机可以配有按钮控制器配件,该按钮控制器配件则具有用户激励的按钮和麦克风。该麦克风可以通过在印刷电路板上安装麦克风变换器而形成。可以在该变换器上安装壳体,以形成用于该变换器的密封空腔。电路可以安装在印刷电路板的伸出麦克风壳体边缘的部分上。按钮控制器配件可以具有穹顶开关。所述穹顶开关可以具有包围穹顶开关部件并且为按钮控制器形成结构内件的壳体。所述穹顶开关壳体结构可以具有与按钮构件中的相应啮合特征配合的突出部或其他啮合特征。按钮构件可由用户按压以激励期望的穹顶开关。 | ||||||
| 4 | 便携式终端 | CN201010167474.7 | 2010-04-19 | CN101866766B | 2013-11-06 | 郑在俊; 吴恩泽; 金容一 |
| 本发明公开了一种便携式终端,该便携式终端包括:第一导电件,其形成于板的一个表面上,并具有接触表面;第二导电件,其形成于所述第一导电件的外周,并有支承表面;以及金属圆顶,其由所述支承表面支承,并响应于键被按压而变形,从而接触所述接触表面,其中,所述接触表面位于比所述支承表面低的位置,以增大所述金属圆顶的变形冲程。 | ||||||
| 5 | 用于电子设备的附件控制器 | CN201080040802.5 | 2010-06-22 | CN102498535A | 2012-06-13 | C·D·普雷斯特; C·V·蒂勒; J·米诺 |
| 提供了用于电子设备的附件,诸如耳机。耳机可以配有按钮控制器配件,该按钮控制器配件则具有用户激励的按钮和麦克风。该麦克风可以通过在印刷电路板上安装麦克风变换器而形成。可以在该变换器上安装壳体,以形成用于该变换器的密封空腔。电路可以安装在印刷电路板的伸出麦克风壳体边缘的部分上。按钮控制器配件可以具有穹顶开关。所述穹顶开关可以具有包围穹顶开关部件并且为按钮控制器形成结构内件的壳体。所述穹顶开关壳体结构可以具有与按钮构件中的相应啮合特征配合的突出部或其他啮合特征。按钮构件可由用户按压以激励期望的穹顶开关。 | ||||||
| 6 | 便携式终端 | CN201010167474.7 | 2010-04-19 | CN101866766A | 2010-10-20 | 郑在俊; 吴恩泽; 金容一 |
| 本发明公开了一种便携式终端,该便携式终端包括:第一导电件,其形成于板的一个表面上,并具有接触表面;第二导电件,其形成于所述第一导电件的外周,并有支承表面;以及金属圆顶,其由所述支承表面支承,并响应于键被按压而变形,从而接触所述接触表面,其中,所述接触表面位于比所述支承表面低的位置,以增大所述金属圆顶的变形冲程。 | ||||||
| 7 | Overmolded key pad and a method of manufacturing | JP2010538065 | 2008-12-05 | JP5307830B2 | 2013-10-02 | マイケル ジェイ ウィッティグ; ジョン バーレラ |
| Described is a keypad and its method of manufacture. In one embodiment, a keypad is provided that includes a substrate having a plurality of donut-shaped recesses located at each site of a button for inputting user information, a plurality of cushions each filled with an incompressible fluid (e.g., water), a flex circuit layer, a plurality of metal membranes and an over-molded thermoplastic elastomer layer. During the over-molding of the thermoplastic elastomer layer, the plurality of cushions filled with an incompressible fluid prevents collapse of the space between the flex circuit layer and the plurality of metal membranes. After the layers of the keypad are assembled, the incompressible fluid is removed which leaves a space between the flex circuit layer and the plurality of metal membranes. | ||||||
| 8 | Display operation unit of the electronic apparatus | JP8816990 | 1990-04-04 | JP2820308B2 | 1998-11-05 | 隆明 川出 |
| 9 | Display operating part of electronic device | JP8816990 | 1990-04-04 | JPH03288496A | 1991-12-18 | KAWADE TAKAAKI |
| PURPOSE: To enable attachment of an electrical element to a display plate without requiring soldering and to realize easy assembly operation by holding each electrical element between each pressing member of the display plate and a frame and by carrying out electrical connection. CONSTITUTION: A disc-like brim part 15a is formed integrally to one end of a column part of an LED 15. The column part is inserted and set by insertion in an LED hole 1d of a display plate 1 from the side of a frame 3. The brim part 15a is held between two fixing clicks 1i, 1j provided to the rear 1g of the display plate and the rear 1g of the display plate 1; the LED 15 is fixed in this way. Meanwhile, an LED part 8 of the frame 3 is provided with a pair of LED pressing plates 8a, 8b which are cut and raised integrally. Each of pressing conductor parts 8e, 8f of each of pressing plates 8a, 8b is in contact with each of lead lines 15b, 15c of the LED 15 and presses in a direction from the frame 3 toward the display plate 1 thus carrying out electrical connection simultaneously. COPYRIGHT: (C)1991,JPO&Japio | ||||||
| 10 | Key input device | JP1018483 | 1983-01-24 | JPS59135536A | 1984-08-03 | KOMAKI SHIGEKI |
| PURPOSE: To reduce the load of key operation by forming slits at both sides of a key electrode and providing the pressure-sensitive conduction rubber under the electrode. CONSTITUTION: When a key symbol of a decorative panel 1 is pushed, a comb- tooth electrode of the corresponding flexible substrate 2 moves down to compress the pressure-sensitive conduction rubber 3 provided right under the electrode. Thus the rubber 3 conducts electrically, and the short-circuit is applied between the comb-tooth electrodes to obtain a key input signal. The key operation load is decided just by the flexibility of both panel 1 and substrate 2. The slits 2-2 are formed at both sides of a comb-tooth electrode 2-1 to facilitate bending of the substrate 2. This device further reduces the key operation load. COPYRIGHT: (C)1984,JPO&Japio | ||||||
| 11 | Force-distance controlled mechanical switch | US15401077 | 2017-01-08 | US10141146B2 | 2018-11-27 | Michael Sterns; Markus Leipold; Sebastian Sedlmeier; Markus Freudenreich; Matthias Freudenreich; Thomas Will |
| A switch comprises a first elastic element, an actuator-element mechanically coupled to a first side of the first elastic element, and a first switching conductor, mechanically coupled to a second side of the first elastic element. The switching conductor is configured for moving between a first conductor position and a second conductor position. The actuator-element is configured from moving between a first actuator-element position and a second actuator-element position separated by a predefined actuator-element lift, thereby moving the first side of the first elastic element. The first elastic element moreover is configured for converting a movement of the first side of the first elastic element by the predefined actuator-element lift into the movement of the second side of the first elastic element with a predefined elastic force. | ||||||
| 12 | Key and switch housing for keyboard assembly | US14867672 | 2015-09-28 | US10128061B2 | 2018-11-13 | Bradford J. Zercoe; Craig C. Leong; John M. Brock; Keith J. Hendren |
| A key and a switch housing for a keyboard assembly is disclosed. A switch housing for the keyboard assembly may include a body having a switch opening and a light source recess formed adjacent the switch opening. The switch opening may house or receive a dome switch for the keyboard assembly and the light source recess may house or receive a light source assembly configured to illuminate a keycap of the keyboard assembly. The switch housing also can include a top panel integrally formed and molded to a portion of the body. The top panel covers the switch opening formed in the body and the top panel is a light guide. | ||||||
| 13 | KEY STRUCTURE | US15848508 | 2017-12-20 | US20180182575A1 | 2018-06-28 | CHIEN-HSING CHIU |
| A key structure comprises a baseplate, a film circuit board, an elastic body and a keycap. The film circuit board includes a deformation region and a support region. The support region is disposed on the baseplate, and a deformation space is formed between the deformation region and the baseplate. The elastic body is disposed on the film circuit board. The keycap is disposed on the elastic body. | ||||||
| 14 | SWITCH FOR SWITCHING BETWEEN DIFFERENT HIGH FREQUENCY SIGNALS | US15401063 | 2017-01-08 | US20180144896A1 | 2018-05-24 | Michael STERNS; Markus LEIPOLD; Sebastian SEDLMEIER; Markus FREUDENREICH; Matthias FREUDENREICH; Thomas WILL |
| A high frequency switch is provided. The high frequency switch comprises a first high frequency connector, comprising a first inner conductor, integrally formed with a first strip conductor. Moreover, the high frequency switch comprises a second strip conductor arranged orthogonally in a first plane relative to the first strip conductor, a third strip conductor, arranged orthogonally in the first plane relative to the first strip conductor, a first switching conductor, having an orthogonally angled shape relative to the first plane, a second switching conductor, having an orthogonally angled shape relative to the first plane. A switching actuator is mechanically connected to the first switching conductor and to the second switching conductor adapted to move vertically relative to the first plane, to a first position and to a second position. | ||||||
| 15 | Accessory controller for electronic devices | US14507666 | 2014-10-06 | US09064653B2 | 2015-06-23 | Christopher D. Prest; Claudio V. Di Leo; Jahan C. Minoo |
| Accessories such as headsets for electronic devices are provided. A headset may be provided with a button controller assembly that has user-actuated buttons and a microphone. The microphone may be formed by mounting a microphone transducer on a printed circuit board. A housing may be mounted over the transducer to form a sealed cavity for the transducer. Circuitry may be mounted on portions of the printed circuit board that extend beyond the edges of the microphone housing. The button controller assembly may have dome switches. The dome switches may have a housing that encloses dome switch components and that forms a structural internal part for the button controller. The dome switch housing structure may have tabs or other engagement features that mate with corresponding engagement features in a button member. The button member may be pressed by a user to actuate a desired dome switch. | ||||||
| 16 | Dome switch structure for a portable terminal | US12696998 | 2010-01-29 | US08269124B2 | 2012-09-18 | Jae-Jun Jung; Eun-Taek Oh; Yong-Il Kim |
| Disclosed is a portable terminal, including, a first conductor formed on one surface of a board and having a contact surface, a second conductor formed at an outer periphery of the first conductor and having a support surface, and a metal dome supported by the support surface and transformed responsive to a key being pressed so as to contact the contact surface, wherein the contact surface is located at a position lower than the support surface so as to increase a transformation stroke of the metal dome. | ||||||
| 17 | ACCESSORY CONTROLLER FOR ELECTRONIC DEVICES | US12703172 | 2010-02-09 | US20110194710A1 | 2011-08-11 | Christopher D. Prest; Claudio Di Leo; Jahan Minoo |
| Accessories such as headsets for electronic devices are provided. A headset may be provided with a button controller assembly that has user-actuated buttons and a microphone. The microphone may be formed by mounting a microphone transducer on a printed circuit board. A housing may be mounted over the transducer to form a sealed cavity for the transducer. Circuitry may be mounted on portions of the printed circuit board that extend beyond the edges of the microphone housing. The button controller assembly may have dome switches. The dome switches may have a housing that encloses dome switch components and that forms a structural internal part for the button controller. The dome switch housing structure may have tabs or other engagement features that mate with corresponding engagement features in a button member. The button member may be pressed by a user to actuate a desired dome switch. | ||||||
| 18 | Keyboard printed circuit film and method of fabrication | US777165 | 1985-09-18 | US4658235A | 1987-04-14 | Jurgen Oelsch |
| A plurality of switching points are connected in groups to respective teral contact points via conductor strips on a keyboard printer circuit film. In order to achieve suppression of the coupling capacitances with simple means, decoupling resistor strips are printed between adjacent pairs of the conductor strips and are connected with the said conductor strips. The decoupling resistor strips consist of the same carbon resistor layer material as the terminal contact points. | ||||||
| 19 | Portable terminal | EP10000800.2 | 2010-01-27 | EP2244274B1 | 2016-09-21 | Jung, Jae-Jun; Oh, Eun-Taek; Kim, Yong-II |
| 20 | Keypad apparatus and method | EP10197362.6 | 2010-12-30 | EP2472544A1 | 2012-07-04 | Pegg, Albert Murray |
Keypad apparatus and methods are described herein. An example keypad includes a keypad support (306) having a first surface defining a cavity, and an electrical switch assembly coupled to the keypad support. The electrical switch includes a printed circuit board (322) having at least a portion repositioned relative to a second surface of the printed circuit board (322). The repositioned portion (328) is located in the cavity and the second surface is located on the first surface of the keypad support (306) when the printed circuit board (322) is coupled to the keypad support (306). The repositioned portion (328) is attached to the second surface of the printed circuit board (306). A dome switch (324) is aligned with the repositioned portion (328) of the printed circuit board (306) and is at least partially positioned in the cavity of the keypad support (306).
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