子分类:
- H01H13/02: .零部件(适用于具有与不同触点组相关的多个操作部件,如键盘的入H01H13/70)
- H01H13/50: .具有单一操作构件的
- H01H13/68: .具有两个操作部件,一个用于触点开启,一个用于同一组触点闭合的(单个的操作部件从开关外壳两侧面凸出,以便在其相对端交替按动的入H01H15/22)
- H01H13/70: .具有与不同触点组相关的多个操作部件,如键盘(专门使用与特殊应用的键盘,见相关小类或组,如B41J, G06F3/023, H04L17/00, H04M1/00;专门适用于电动机械钟表的多开关入G04C3/005;多个相互独立的开关组装在一起的入H02B)
| 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 | 触键以及用于其生产和使用的方法 | CN201510571928.X | 2015-09-09 | CN105404413A | 2016-03-16 | M·A·马尔斯; D·E·罗伊 |
| 公开了触键以及用于其生产和使用的方法。触键可以包括基底;导电层,其布置在基底的至少一个区域上;多孔层,其布置在导电层的至少一部分上;绝缘层,其布置在基底围绕导电层和多孔层的区域上以形成井状部,该井状部具有由绝缘层限定的侧壁以及至少部分地由多孔层限定的底部表面;电活性聚合物组合物,其布置在井状部中;以及柔性层,其在面对电活性聚合物组合物的表面的至少一部分上具有导电涂层,柔性层覆盖井状部以及绝缘层的围绕井状部的至少一部分。当触键被按压时,电场被激活,从而使得电活性聚合物组合物朝向柔性层移动,以提供触觉反馈。 | ||||||
| 2 | 电气开关装置和用于控制包含这样一个装置的仪器的设备 | CN201310757248.8 | 2013-12-19 | CN103887092A | 2014-06-25 | J-C·维兰 |
| 本发明提出一种装置,其包括加固件(18);带有触觉效应的电气开关(42);力传输元件(50),其与带有触觉效应(42)的电气开关配合;永磁体(72),其作用于连接到力传输元件(50)的磁盘(62)上从而减慢力传输元件的移动;以及带有被控制电源的电磁体(72),当通电时,其生成抵消永磁体(72)磁场的磁场。 | ||||||
| 3 | 对电介质的改进 | CN201180014452.X | 2011-03-16 | CN102870178A | 2013-01-09 | R·J·林赫; M·A·布朗; A·S·多诺万; M·斯维尔斯通 |
| 一种用于电容器的电介质材料(14),所述电介质材料包括第一材料和第二材料,所述第一材料是聚合物并且所述第二材料包含颗粒。所述颗粒分散在所述聚合物中,并被选择为具有比所述聚合物的相对介电系数更高的相对介电系数,其特征在于,所述颗粒的直径在纳米范围并且所述颗粒被在几何形态上控制以遵循预定形状。 | ||||||
| 4 | 一种键盘开关 | CN201510509245.1 | 2015-08-19 | CN105185635B | 2017-11-14 | 吴福喜 |
| 本发明提供了一种键盘开关,包括底座、安装于底座上的电阻式压力传感器、设置在底座内的可压于电阻式压力传感器上的弹簧、压住弹簧并与底座滑动配合的按钮、压住按钮并与底座相适配的上盖,电阻式压力传感器包括两个端子及弹性敏感元件,弹性敏感元件内具有阻值可与施于弹性敏感元件上的压力成正比关系的电阻应变片,电阻应变片向外延伸两根引线,两个端子一端分别与两根述引线连接,两个端子的另一端均与PCB板连接。本发明一方面避免了键盘开关因触点变形、氧化而接触不良,提高了键盘开关的使用寿命;另一方面可实现键盘开关电流线性的输入输出,只需使用很小的力,便能导通按键开关,提高了按键开关的灵敏度和通用性。 | ||||||
| 5 | 带按键的触摸面板 | CN201680007960.8 | 2016-02-02 | CN107209576A | 2017-09-26 | 森安隆義 |
| 提供一种在维持操作性的同时抑制设计性的下降的技术。固定构件配置于触摸面板的操作面侧,覆盖板配置于固定构件的操作面侧。另外,在覆盖板设置有覆盖板贯通孔,在固定构件设置有比覆盖板贯通孔大的固定构件贯通孔。按键部配置于覆盖板贯通孔内。按键部包括开关部、按下部,该开关部包括基部和开关面部。基部在固定构件贯通孔内配置于覆盖板与触摸面板之间,开关面部从基部的内侧缘部向覆盖板贯通孔内突出。按下部从开关面部的与触摸面板侧相反的一侧固定于开关面部。 | ||||||
| 6 | 对电介质的改进 | CN201180014452.X | 2011-03-16 | CN102870178B | 2016-09-14 | R·J·林赫; M·A·布朗; A·S·多诺万; M·斯维尔斯通 |
| 一种用于电容器的电介质材料(14),所述电介质材料包括第一材料和第二材料,所述第一材料是聚合物并且所述第二材料包含颗粒。所述颗粒分散在所述聚合物中,并被选择为具有比所述聚合物的相对介电系数更高的相对介电系数,其特征在于,所述颗粒的直径在纳米范围并且所述颗粒被在几何形态上控制以遵循预定形状。 | ||||||
| 7 | 字符输入方法、装置及系统 | CN201510777567.4 | 2015-11-13 | CN105425981A | 2016-03-23 | 王柯; 刘健全; 王乐 |
| 本公开是关于一种字符输入方法、装置及系统,属于电子技术应用领域。该方法包括:接收用户输入的第一字符;确定与第一字符关联的第二字符组,第二字符组中包括至少一个第二字符;查询字符与按键标识的对应关系,得到每个第二字符对应的目标按键标识;控制目标按键标识指示的目标按键对应的按键灯发出预设颜色的光线,预设颜色的光线用于提示用户进行字符输入。本公开解决了相关技术中输入效率较低且容易出现误输入的问题,达到了提高输入效率和避免误输入的效果。本公开用于输入提示。 | ||||||
| 8 | 一种键盘开关 | CN201510509245.1 | 2015-08-19 | CN105185635A | 2015-12-23 | 吴福喜 |
| 本发明提供了一种键盘开关,包括底座、安装于底座上的电阻式压力传感器、设置在底座内的可压于电阻式压力传感器上的弹簧、压住弹簧并与底座滑动配合的按钮、压住按钮并与底座相适配的上盖,电阻式压力传感器包括两个端子及弹性敏感元件,弹性敏感元件内具有阻值可与施于弹性敏感元件上的压力成正比关系的电阻应变片,电阻应变片向外延伸两根引线,两个端子一端分别与两根述引线连接,两个端子的另一端均与PCB板连接。本发明一方面避免了键盘开关因触点变形、氧化而接触不良,提高了键盘开关的使用寿命;另一方面可实现键盘开关电流线性的输入输出,只需使用很小的力,便能导通按键开关,提高了按键开关的灵敏度和通用性。 | ||||||
| 9 | 触发开关 | CN201410382231.3 | 2014-08-06 | CN104347286A | 2015-02-11 | 稻垣功; 记野一平 |
| 本发明提供一种具有高的防尘性、防水性的触发开关,该触发开关具备:具有以密闭状态配置开关机构而成的开关室的箱体、被滑动自由地插嵌于形成在该箱体的一端侧的轴孔,且被向前方弹压的与该开关机构连结的插棒、和卡合卡定在该插棒的前端,用于开关的操作的触发器而成,其中,具备消除伴随着该开关机构在开关室内移动而产生的开关室内的空气压迫作用的空气压稳定机构。空气压稳定机构在该插棒上具备从面临该开关室的后端开口通到前端开口的连通孔,在该触发器的插棒卡合部形成与该连通孔相通,且将来自该连通孔的空气释放的排出口而构成。 | ||||||
| 10 | ELECTRONIC DEVICE INCLUDING COMPONENT MOUNTING STRUCTURE THROUGH BENDED DISPLAY | US15852951 | 2017-12-22 | US20180183912A1 | 2018-06-28 | Jin-Ho LIM; Yong-Hwa KIM; Sangyong EOM; Song Hee JUNG; Gyun HEO; Dong-II Son; Byounguk Yoon |
| An electronic device and its operating method are provided. The electronic device includes a housing including a first surface, a second surface facing the first surface in a spaced apart manner, and a lateral surface surrounding a space between the first surface and the second surface, a display mounted to the housing and including a flat area substantially corresponding to the first surface and a bending area extended from the flat area in a direction of the lateral surface, a filler disposed between the housing and the bending area of the display, at least one electronic component which is installed to the filler and of which one part is exposed to the outside by penetrating at least one region of the bending area of the display, a detection circuit disposed inside the housing and electrically connected to the electronic component to detect an operation of the electronic component, and at least one processor operatively coupled to the detection circuit and the display to provide control to perform a corresponding function of the electronic device on the basis of a provided detection signal. | ||||||
| 11 | Keyplate system for an input device | US15145186 | 2016-05-03 | US09939927B2 | 2018-04-10 | Kevin Forde; Davin O'Mahony; Niall White; Frederic Fortin; Christian Castellaro; Fabrice Sauterel |
| An input device including a housing and a depressible key plate disposed thereon. The key plate includes a front user-accessible portion, a pivot support portion, and a rear portion. A shaft is disposed in the pivot support portion, where the key plate rotates with respect to the shaft. A force sensor is disposed in the housing and in contact with a bottom surface of the front portion of the key plate, and activates in response to receiving a predetermined force by the bottom surface of the front portion of the key plate. The depressible key plate depresses in response to receiving a predetermined depression force on the top surface. A biasing mechanism is disposed in the housing and in contact with the bottom surface of the rear portion of the key plate to provide an upward force tuned to be substantially equal to the predetermined depression force. | ||||||
| 12 | INPUT DEVICE AND ELECTRONIC DEVICE IN WHICH SAME IS USED | US15546174 | 2015-12-04 | US20180018023A1 | 2018-01-18 | TAKAYA NAKAMURA; NAOYUKI TAKAGI |
| An input device includes a touch panel incorporating a switch electrode region, and an actuator. The switch electrode region includes a switch electrode and a ground electrode disposed side by side with the switch electrode. The actuator includes a push button having an operation surface, an elastic body, a conductor, and a facing surface. The conductor faces the switch electrode region and is separated from the switch and ground electrodes. The conductor moves in line with a press put on the push button such that a capacitance value between the conductor and each of the switch and ground electrodes changes in response to a distance between the conductor and the switch electrode. | ||||||
| 13 | Hidden electrical contacts | US15069125 | 2016-03-14 | US09780474B2 | 2017-10-03 | Brian S. Tryon; Alexander W. Williams |
| Electrical contacts are described. An electrical contact can be formed on an exterior surface of a housing of an electronic device and can be cosmetically similar to the exterior surface. For example, the electrical contact can include a conductive plug inserted through an opening in a wall of the housing. A metallic coating can be applied to an outward-facing end of the conductive plug and fill up an outer portion of the opening until the metallic coating is about flush with the exterior surface of the housing. Properties of the metallic coating can be selected to closely match a color and a texture of the housing. | ||||||
| 14 | Switch assembly and method of using same | US14054968 | 2013-10-16 | US09679712B2 | 2017-06-13 | Tanios Elias Nohra; Isaac D. Kirbawy |
| A switch assembly and method of using same comprises a switch assembly for operating a power take off unit on a lawn tractor, the switch assembly further includes a housing supporting a selectively locatable activation knob facilitated by an actuation assembly and an internal switch arrangement coupled to a printed circuit board within the housing. The internal switch arrangement comprises a microcontroller and switch for determining the relative position of the selectively locatable activation knob and provides a digital output signal for enabling or disabling a power take off unit based on the digital output signal. | ||||||
| 15 | CONCEALED APPARATUS FOR COMMUNICATING WITH AN ELECTRONIC DEVICE | US15017417 | 2016-02-05 | US20170093085A1 | 2017-03-30 | Tyler S. Bushnell; David I. Nazzaro; Benjamin J. Kallman |
| An electronic device has a concealed external electrical connector that may be activated by a pin of a mating connector. When the pin applies a force to an electrically conductive and flexible region of an exterior housing of an electronic device the electrically conductive region deflects inwards coupling to a contact within the electronic device. A bi-directional communications path is then established from the pin of the connector, through the conductive portion of the housing, to the contact and to circuitry within the housing of the electronic device. | ||||||
| 16 | HIDDEN ELECTRICAL CONTACTS | US15069125 | 2016-03-14 | US20170093070A1 | 2017-03-30 | Brian S. Tryon; Alexander W. Williams |
| Electrical contacts are described. An electrical contact can be formed on an exterior surface of a housing of an electronic device and can be cosmetically similar to the exterior surface. For example, the electrical contact can include a conductive plug inserted through an opening in a wall of the housing. A metallic coating can be applied to an outward-facing end of the conductive plug and fill up an outer portion of the opening until the metallic coating is about flush with the exterior surface of the housing. Properties of the metallic coating can be selected to closely match a color and a texture of the housing. | ||||||
| 17 | TACTILE KEYS AND METHODS FOR THEIR PRODUCTION AND USE | US14482958 | 2014-09-10 | US20160070349A1 | 2016-03-10 | Michael Alan Marrs; Douglas E. Loy |
| Disclosed are tactile keys and methods for their production and use. The tactile key may include a substrate; a conductive layer disposed on at least one region of the substrate; a porous layer disposed on at least a portion of the conductive layer; an insulating layer disposed on regions of the substrate that surround the conductive layer and the porous layer to form a well, the well having sidewalls defined by the insulating layer, and a bottom surface at least partially defined by the porous layer; an electroactive polymer composition disposed in the well; and a flexible layer having a conductive coating on at least a portion of a surface facing the electroactive polymer composition, the flexible layer covering the well and at least a portion of the insulating layer surrounding the well. When the tactile key is depressed, an electric field is activated causing the electroactive polymer composition to move towards the flexible layer to provide a tactile feedback. | ||||||
| 18 | Dielectrics | US13634607 | 2011-03-16 | US09159493B2 | 2015-10-13 | Richard James Lynch; Matthew Adrian Brown; Adele Sarah Donovan; Michelle Silverstone |
| A dielectric material (14) for a capacitor comprising a first material and a second material, the first material being a polymer and the second material comprising particles. The particles are dispersed within the polymer, and are selected to have a relative permittivity higher than that of the polymer, characterized in that the diameter of the particles is in the nanometer range and the particles are geometrically controlled to a predetermined shape. | ||||||
| 19 | ELECTRICAL SWITCH ARRANGEMENT AND DEVICE FOR CONTROLLING AN APPARATUS COMPRISING SUCH AN ARRANGEMENT | US14134098 | 2013-12-19 | US20140167890A1 | 2014-06-19 | Jean-Christophe Villain |
| An electrical switch arrangement for controlling an electronic apparatus. The arrangement includes a reinforcement member, an electrical switch with tactile effect, a force transmission member which cooperates with the electrical switch with tactile effect, a permanent magnet which acts on a magnetic disc linked to the force transmission member to slow down the displacements of the force transmission member, and an electromagnet with controlled electrical power supply. When powered, the electromagnet produces a magnetic field which cancels the magnetic field of the permanent magnet. | ||||||
| 20 | Irreversible arrangement for interrupting the functioning of an apparatus controlled by an electronic system | US866983 | 1992-04-10 | US5272292A | 1993-12-21 | Christophe Aubert |
| The present invention concerns an irreversible arrangement for interrupting the functioning of an apparatus controlled by an electronic system. The purpose of such invention is to provide an arrangement which can be easily manipulated by an inexperienced user and which permits him to interrupt the functioning of the apparatus immediately and definitely. This purpose is attained with the help of of an irreversible arrangement for interrupting the functioning of an apparatus (1) controlled by an electronic system (15), characterized in that it comprises at least one interruption element (17) movable between a rest position allowing the functioning of said apparatus (1) and an interruption position in which it brings about the irreversible interruption of the functioning of said apparatus (1) by breaking an essential element of said electronic system (15) such essential element being necessary for the functioning of the apparatus (1). This arrangement is more specifically intended for medical apparatus. | ||||||
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