1 |
具有多功能控制的电子装置 |
CN201180023220.0 |
2011-05-04 |
CN102884493A |
2013-01-16 |
W·德勒斯; R·加斯特拉姆; J·蒂尔 |
本发明涉及具有多功能控制的电子装置。通过利用单一控制部件(102)来提供对电子装置的多个功能的控制,该单一控制部件包括:在多个开关位置之间可调节的开关主体(312),从该开关主体起延伸的、具有侧表面(302b)部分和远端表面(302a)部分并且被配置用于在所述多个开关位置之间调节该开关主体的主致动器(302),以及通过该主致动器的侧表面处的激活力可操作的压力传感器(314)。第一功能可以在压力传感器的激活期间,响应于该主致动器的运动来控制。另外,第二功能可以在排除压力传感器的激活的情况下,响应于该控制部件的主致动器的运动来控制。而且,第三功能可以在排除主致动器的运动的情况下响应于压力传感器的激活达至少第一时段来控制。 |
2 |
具有多功能控制的电子装置 |
CN201180023220.0 |
2011-05-04 |
CN102884493B |
2016-01-27 |
W·德勒斯; R·加斯特拉姆; J·蒂尔 |
本发明涉及具有多功能控制的电子装置。通过利用单一控制部件(102)来提供对电子装置的多个功能的控制,该单一控制部件包括:在多个开关位置之间可调节的开关主体(312),从该开关主体起延伸的、具有侧表面(302b)部分和远端表面(302a)部分并且被配置用于在所述多个开关位置之间调节该开关主体的主致动器(302),以及通过该主致动器的侧表面处的激活力可操作的压力传感器(314)。第一功能可以在压力传感器的激活期间,响应于该主致动器的运动来控制。另外,第二功能可以在排除压力传感器的激活的情况下,响应于该控制部件的主致动器的运动来控制。而且,第三功能可以在排除主致动器的运动的情况下响应于压力传感器的激活达至少第一时段来控制。 |
3 |
触控板的按键控制装置 |
CN201210299220.X |
2012-08-21 |
CN103545125B |
2016-01-20 |
张芳达 |
本发明提供一种触控板的按键控制装置,该按键控制装置装设置于一笔记型电脑的一键盘壳体,并对应一触控板。按键控制装置包含一第一驱动件、一第二驱动件、一第一连杆及一第二连杆,当按压第一驱动件时,第一驱动件带动第一连杆,以开启触控板的按键功能;当按压第二驱动件时,第二驱动件带动第二连杆,并使第一驱动件带动第一连杆恢复原始位置,以关闭触控板的按键功能。本发明的按键控制装置可控制触控板的按键功能开启或关闭,又因隐藏于触控板下方而不影响电子装置外观。 |
4 |
钟表的按钮结构和具备该按钮结构的钟表 |
CN200710087686.2 |
2007-03-15 |
CN100511037C |
2009-07-08 |
小泽范明; 川原公和 |
本发明提供钟表的按钮结构以及具有该按钮结构的钟表,该按钮结构可以让使用者容易地在视觉上识别出它是可以进行2种输入的机构且操作性优异。按钮(6)具有第1按钮部件(62)和第2按钮部件(63)。突出状态的第1按钮部件具有从第2凹部(630)突出的部分,在突出状态的第2按钮部件上具有从第1凹部(610)突出的部分。在1级按压状态下,当使第1按钮部件向没入方向移动时,只有第1按钮部件向没入方向移动。在2级按压状态下,当使第1按钮部件向没入方向移动时,第1按钮部件与第2按钮部件一起向没入方向移动。从而,使用者可以容易地在视觉上识别出该按钮结构是可进行2种输入的结构,且可以提高操作性。 |
5 |
钟表的按钮结构和具备该按钮结构的钟表 |
CN200710087686.2 |
2007-03-15 |
CN101038480A |
2007-09-19 |
小泽范明; 川原公和 |
本发明提供钟表的按钮结构以及具有该按钮结构的钟表,该按钮结构可以让使用者容易地在视觉上识别出它是可以进行2种输入的机构且操作性优异。按钮(6)具有第1按钮部件(62)和第2按钮部件(63)。突出状态的第1按钮部件具有从第2凹部(630)突出的部分,在突出状态的第2按钮部件上具有从第1凹部(610)突出的部分。在1级按压状态下,当使第1按钮部件向没入方向移动时,只有第1按钮部件向没入方向移动。在2级按压状态下,当使第1按钮部件向没入方向移动时,第1按钮部件与第2按钮部件一起向没入方向移动。从而,使用者可以容易地在视觉上识别出该按钮结构是可进行2种输入的结构,且可以提高操作性。 |
6 |
往复式转换器 |
CN95121765.8 |
1995-12-30 |
CN1132390A |
1996-10-02 |
崔圣权 |
一种往复式转换器,包括一个电路板,一个主基座,在主基座内有一个的定子,一个可旋转地装在定子上的轴,一个托架被插在往复轴中,托架有一个引导孔,一个圆盖板,圆盖板装在托架上包括一圆盖开关,一个引导架装在圆盖板的上部,引导架与托架连接,并具有和圆盖开关对应的孔,一个往复式按钮与引导架连接,在往复式按钮上有接触装置;以便在通过引导架的孔后,压住圆盖板上的圆盖开关。 |
7 |
触控板的按键控制装置 |
CN201210299220.X |
2012-08-21 |
CN103545125A |
2014-01-29 |
张芳达 |
本发明提供一种触控板的按键控制装置,该按键控制装置装设置于一笔记型电脑的一键盘壳体,并对应一触控板。按键控制装置包含一第一驱动件、一第二驱动件、一第一连杆及一第二连杆,当按压第一驱动件时,第一驱动件带动第一连杆,以开启触控板的按键功能;当按压第二驱动件时,第二驱动件带动第二连杆,并使第一驱动件带动第一连杆恢复原始位置,以关闭触控板的按键功能。本发明的按键控制装置可控制触控板的按键功能开启或关闭,又因隐藏于触控板下方而不影响电子装置外观。 |
8 |
机动车辆的开关布置结构 |
CN200880004999.X |
2008-02-21 |
CN101636805B |
2012-11-14 |
M·伯金 |
本发明涉及一种用于机动车辆的开关布置结构,具有:至少一个拨动式或滑动式开关,所述拨动式或滑动式开关具有一开关壳和一开关杆,其中所述开关杆能够垂直于其轴向延伸方向翻转或滑移,一与开关杆的一个端部部分连接的操作钮,以及至少一个压力开关,其中,所述操作钮构成用于至少一个压力开关的壳体。 |
9 |
旋转式按压控制器 |
CN200780000581.7 |
2007-03-05 |
CN101326603B |
2011-12-07 |
丹尼尔·赫斯特曼; 努·源天 |
本发明涉及一种旋转式按压控制器,具有可绕旋转轴线(7)旋转的操作环(18),该操作环可旋转地设置在同轴地设置于操作环(18)内部的容纳圆筒(6)上。在此,所述容纳圆筒(6)在其一端设置有输入和/或显示区(14),并且所述操作环(18)和/或所述容纳圆筒(6)可轴向地相对于旋转轴线克服弹簧力从中性位置移动到操作开关件的开关位置中。所述输入和/或显示区(14)可围绕所述旋转轴线(7)旋转地设置。在所述操作环(18)上同轴地设置有旋转传感器环,该旋转传感器环同轴地靠近与所述容纳圆筒(6)固定连接的旋转传感器(17)地设置,其中,所述旋转传感器环对于所述旋转传感器(17)的相对位置是可检测的。 |
10 |
机动车辆的开关布置 |
CN200880004999.X |
2008-02-21 |
CN101636805A |
2010-01-27 |
M·伯金 |
本发明涉及一种用于机动车辆的开关布置,具有:至少一个拨动式或滑动式开关,所述拨动式或滑动式开关具有一开关壳和一开关杆,其中所述开关杆能够垂直于其轴向延伸方向翻转或滑移,一与开关杆的一个端部部分连接的操作钮,以及至少一个压力开关,其中,所述操作钮构成用于至少一个压力开关的壳体。 |
11 |
旋转/按压控制器 |
CN200780000581.7 |
2007-03-05 |
CN101326603A |
2008-12-17 |
丹尼尔·赫斯特曼; 努·源天 |
本发明涉及一种旋转/按压控制器,具有可绕旋转轴线(7)旋转的操作环(18),该操作环可旋转地设置在同轴地设置于操作环(18)内部的容纳圆筒(6)上。在此,所述容纳圆筒(6)在其一端设置有输入和/或显示区(14),并且所述操作环(18)和/或所述容纳圆筒(6)可轴向地相对于旋转轴线克服弹簧力从中性位置移动到操作开关件的开关位置中。所述输入和/或显示区(14)可围绕所述旋转轴线(7)旋转地设置。在所述操作环(18)上同轴地设置有旋转传感器环,该旋转传感器环同轴地靠近与所述容纳圆筒(6)固定连接的旋转传感器(17)地设置,其中,所述旋转传感器环对于所述旋转传感器(17)的相对位置是可检测的。 |
12 |
多機能制御による電子装置 |
JP2013510166 |
2011-05-04 |
JP5657781B2 |
2015-01-21 |
ドルリュウス,ウイレム; ジャストラム,ロバート; ティール,ジェイムス |
|
13 |
Rotation and press-type operating device |
JP2008516344 |
2007-03-05 |
JP2008544447A |
2008-12-04 |
ホストマン ダニエル; ヌグイェン ティエン ヌー |
本発明は、回転及び押圧式操作装置であって、回転軸線(7)を中心として回転可能な操作リング(18)を有しており、操作リングは、操作リング内に同軸に配置された受容シリンダーの周囲に回転可能に配置されている。 受容シリンダー(6)は受容シリンダーの端部に入力及び/又は表示領域(14)を備えており、操作リング(18)及び受容シリンダー(6)は回転軸線(7)に関して軸線方向で、ばね力に抗して中立位置から、スイッチ部材の作動のためのスイッチ位置へ移動させられるようになっている。 入力及び/又は表示領域(14)は回転軸線(7)を中心として回転可能に支承されている。 回転角発信器リングは操作リング(18)に同軸に配置されており、操作リングは受容シリンダー(6)に固定された回転角発信器(7)に対しても同軸に配置されており、回転角発信器と回転角発信器リングとの間の相対的な回転位置を検出するようになっている。 |
14 |
Switch with dialing device |
JP5097887 |
1987-03-04 |
JP2668212B2 |
1997-10-27 |
利一 小田; 留雄 田中 |
|
15 |
Keyboard |
US15619854 |
2017-06-12 |
US10134541B2 |
2018-11-20 |
Daisuke Taga |
A keyboard including: a key top; a slide member that is attached to the key top, slides up and down, and presses a contact via an elastic member; a non-slide member that is attached to the key top, and never moves up and down; supporters that support the slide member and the non-slide member, respectively; wherein the slide member is restrained by the key top in a first direction, and is movable in a second direction vertical to the first direction, and the non-slide member is arranged diagonally with the slide member, is movable in the first direction, and is restrained by the key top in the second direction. |
16 |
Switch device |
US14445886 |
2014-07-29 |
US09385711B2 |
2016-07-05 |
Seishi Sugiura |
A switch device includes a housing, a substrate, a single operation knob including an operation plate having operation indications provided thereon and moving in a direction toward and away from the substrate, a push switch fixed to the substrate, a plurality of touch electrodes to mounted on the substrate for sensing proximity of a finger and outputting a proximity signal, and a control circuit configured to output a command signal to an electrical circuit based on proximity signals from the respective touch electrodes when a press signal is input thereto. The sensing portions of the touch electrodes are disposed so as to form a space between the sensing portions and the operation plate when the operation knob is not depressed by a finger, and to come close to the operation plate when the operation knob is depressed by a finger. |
17 |
Key control device for click pad |
US13613116 |
2012-09-13 |
US09360950B2 |
2016-06-07 |
Fang-Ta Chang |
A key control device for a click pad is provided that includes a first driving member, a second driving member, a first connecting rod, and a second connecting rod. When the first driving member is pressed, it drives the first connecting rod for activating the key functions of the click pad. When the second driving member is pressed, it drives the second connecting rod and drives the first driving member to drive the first connecting rod to recover to the original position for shutting down the key functions of the click pad. The key control device controls the activation or shutdown of the key functions of the click pad. Because the key control device is hidden below a click pad of a notebook computer, the appearance of an electronic device is not effected. |
18 |
Electronic device with rotary knob multi-functional control |
US12777568 |
2010-05-11 |
US08532585B2 |
2013-09-10 |
Willem Deleus; Robert Jastram; James Teel |
Control of multiple functions of an electronic device is provided by using a single control element (102) including a switch body (312) adjustable between multiple switch positions, a primary actuator (302) with lateral (302b) and distal surface (302a) portions extending from the switch body and configured for adjusting the switch body between the switch positions, and a pressure sensor (314) operable via an activation force at the lateral surfaces of the primary actuator. A first function can be controlled responsive to motion of the primary actuator during an activation of the pressure sensor. Additionally, a second function can be controlled responsive to the motion of the primary actuator of the control element exclusive of the activation of the pressure sensor. Further, a third function can be controlled in responsive to activation of the pressure sensor for at least a first period of time exclusive of motion of the primary actuator. |
19 |
Button structure for a timepiece and a timepiece having this button structure |
US11711650 |
2007-02-28 |
US20070215442A1 |
2007-09-20 |
Noriaki Ozawa; Kimikazu Kawahara |
A timepiece button structure has a base having a first cavity, a first button member, a second button member having a second cavity part, first and second urging members, and first and second movement-limiting members. The second button member is disposed to protrude from and recede into the first cavity part with the second urging member urging the second button member in the direction protruding from the first cavity part and the second movement-limiting member limiting movement in the protrusion direction. The first button member is disposed to protrude from and recede into the second cavity part with the first urging member urging the first button member in the direction protruding from the second cavity part and the first movement-limiting member limiting movement in the protrusion direction. The first button member moves alone in the receding direction until the first button member contacts the second button member when the first button member is pushed against the urging force of the first urging member in the direction receding into the second cavity part, and the first and second button members move together in the receding direction when the first button member is pushed further against the urging force of the first and second urging members in the direction receding into the first cavity part after the first button member contacts the second button member. |
20 |
Enhanced key structure with combined keycap for a mobile computing device |
US11530380 |
2006-09-08 |
US07259339B1 |
2007-08-21 |
Mark Babella |
A key structure assembly is provided for a mobile computing device. The key structure assembly includes a keycap having at least a first segment and a second segment. A first actuation member extends inward into the housing from the first segment of the keycap, and a second actuation member extends inward from the second segment of the key cap. A substrate including a plurality of electrical connects, including a first electrical contact aligned underneath the first actuation member, and a second electrical contact aligned underneath the second actuation member. The keycap is moveable inward to direct either the first actuation member into contact with the first electrical contact, or the second actuation member into contact with the second electrical contact. One or more sections of material are positioned above the first electrical contact and the second electrical contact. The material for the one or more sections is formed from a material that deforms with inward movement of either the first segment or the second segment of the keycap. A layer formed by a thickness of the one or more sections of material extending over the first electrical contact and the second electrical contact is non-uniform in either dimension or amount of material. |