| 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 | 具有电磁驱动的断路器单元 | CN201380080734.9 | 2013-10-25 | CN105706204A | 2016-06-22 | G.巴赫迈尔; A.格德克; D.伊玛莫维克; S.科塞 |
| 本发明涉及一种用于中断线路的机械断路器单元1。在此,断路器单元1包括接触布置和电磁驱动部件5,6。接触布置具有第一和第二静触头2,3以及被引导的动触头4。电磁驱动部件5,6被设计用于移动动触头4。断路器单元1可以采取第一和第二状态,其中,在第一状态下,在第一和第二静触头2,3之间不存在电连接,并且在第二状态下,动触头4将两个静触头2,3彼此电连接。通过移动动触头4,断路器单元1能够从第二状态转变到第一状态。本发明的特征在于,第二静触头3具有容纳动触头4的凹槽31,并且当断路器单元1处于第一状态时,动触头4至少部分地插入凹槽31中。 | ||||||
| 2 | 圆顶状弹簧及开关 | CN201210148754.2 | 2012-05-14 | CN102779676A | 2012-11-14 | 关口力; 稻本繁典; 荒内正彦 |
| 本发明提供圆顶状弹簧及开关。使圆顶状弹簧小型化,可靠地得到咔哒动作,并且在圆顶状弹簧的按下及其解除的反复动作中,能够减少圆顶状弹簧的外周边缘部与固定接点的磨损。圆顶状弹簧(2)是设在具有固定接点(4、5)的电路板(3)上,外周边缘部总是与固定接点(4、5)接触的圆顶状弹簧,具有至少一部分的中立面(2b)以8次以上的偶函数表示的形状。从外周边缘部向中心方向的作为第二位置的拐点的第二拐点的电路板(3)及中立面(2b)间的角度α、从上述外周边缘部向中心方向的作为第一位置的拐点的第一拐点的电路板(3)及中立面(2b)间的角度β、及上述外周边缘部的电路板(3)及中立面(2b)间的角度γ满足α<β且β>γ。 | ||||||
| 3 | 一种消抖的按键及其制备方法 | CN201410347066.8 | 2014-07-21 | CN104112616B | 2016-04-27 | 韩辉升; 王振兴; 丁阳; 张红梅; 东志豪; 施捷 |
| 本发明公开了一种消抖的按键及其制备方法,按键由橡胶基材和具有三层层状结构的金属触点构成。在金属触点的表面,以电镀或化学镀的方法镀有一层锡合金或铅合金。这样镀有锡合金或铅合金的金属触点,具有良好的抗触点抖动性能和耐电弧烧蚀性能,这种金属触点和橡胶进一步复合成型,制备消抖的橡胶按键。 | ||||||
| 4 | 圆顶状弹簧及开关 | CN201210148754.2 | 2012-05-14 | CN102779676B | 2015-09-23 | 关口力; 稻本繁典; 荒内正彦 |
| 本发明提供圆顶状弹簧及开关。使圆顶状弹簧小型化,可靠地得到咔哒动作,并且在圆顶状弹簧的按下及其解除的反复动作中,能够减少圆顶状弹簧的外周边缘部与固定接点的磨损。圆顶状弹簧(2)是设在具有固定接点(4、5)的电路板(3)上,外周边缘部总是与固定接点(4、5)接触的圆顶状弹簧,具有至少一部分的中立面(2b)以8次以上的偶函数表示的形状。从外周边缘部向中心方向的作为第二位置的拐点的第二拐点的电路板(3)及中立面(2b)间的角度α、从上述外周边缘部向中心方向的作为第一位置的拐点的第一拐点的电路板(3)及中立面(2b)间的角度β、及上述外周边缘部的电路板(3)及中立面(2b)间的角度γ满足α<β且β>γ。 | ||||||
| 5 | 一种消抖的按键及其制备方法 | CN201410347066.8 | 2014-07-21 | CN104112616A | 2014-10-22 | 韩辉升; 王振兴; 丁阳; 张红梅; 东志豪; 施捷 |
| 本发明公开了一种消抖的按键及其制备方法,按键由橡胶基材和具有三层层状结构的金属触点构成。在金属触点的表面,以电镀或化学镀的方法镀有一层锡合金或铅合金。这样镀有锡合金或铅合金的金属触点,具有良好的抗触点抖动性能和耐电弧烧蚀性能,这种金属触点和橡胶进一步复合成型,制备消抖的橡胶按键。 | ||||||
| 6 | 触点装置以及搭载有该触点装置的电磁继电器 | CN201380035632.5 | 2013-07-01 | CN104412353B | 2017-03-08 | 粉间克哉; 榎本英树; 池田阳司 |
| 触点装置(10)具备:触点块(3),其具有形成有固定触点(32)的多个固定端子(33)、形成有与固定触点(32)接触分离的可动触点(34)的可动触头(35);驱动块(2),其驱动可动触头(35)。通过在触点块(3)的周围配置永久磁铁(46),能够将触点彼此接触分离时所产生的电弧消弧。而且,将多个固定端子(33)中的至少一个固定端子外的区域固定触点(32)与可动触点(34)抵接。(33)形成为,在与其他固定端子(33)对置一侧以 | ||||||
| 7 | 发光键盘及其发光按键 | CN201610428789.X | 2016-06-16 | CN106024471A | 2016-10-12 | 陈志宏; 何信政 |
| 本发明关于一种发光键盘及其发光按键,发光按键包含具有透光区的键帽、底板、两端分别可活动地连接键帽及底板的升降机构、设置于底板上方或下方的复合功能膜片以及设置于复合功能膜片并以铜导线连接的光源。复合功能膜片包含具有第一导通点的挠性上电路层、具有孔洞的挠性间隔层及挠性下电路层。挠性下电路层具有第二铜导通点、第三铜导通点、分别连接第二铜导通点及第三铜导通点的第一铜导线及第二铜导线。光源位于键帽投影下方,提供光线照射透光区。当键帽被按压时,第一导通点穿过孔洞与第二铜导通点及第三铜导通点电性连接。本发明的发光按键的复合功能膜片能够同时提供触发功能及发光层功能,有利于按键的薄型化及提升键盘的亮度均匀性。 | ||||||
| 8 | 开关 | CN201410814862.8 | 2014-12-23 | CN104795258A | 2015-07-22 | 后藤崇志; 片桐和夫 |
| 本发明提供一种能够多次连续地使脉冲大电流通过的开关。所述开关具备:第一臂,其被支承为能够旋转;第一接点构件,其配置在所述第一臂的自由端侧;第二臂,其被支承为能够旋转;以及第二接点构件,其配置在所述第二臂的自由端侧,且与所述第一接点构件接触,在所述第一接点构件与所述第二接点构件接触之后,两个接点构件的接触位置伴随着所述第一臂以及所述第二臂的旋转动作而位移。 | ||||||
| 9 | 触点装置以及搭载有该触点装置的电磁继电器 | CN201380035632.5 | 2013-07-01 | CN104412353A | 2015-03-11 | 粉间克哉; 榎本英树; 池田阳司 |
| 触点装置(10)具备:触点块(3),其具有形成有固定触点(32)的多个固定端子(33)、形成有与固定触点(32)接触分离的可动触点(34)的可动触头(35);驱动块(2),其驱动可动触头(35)。通过在触点块(3)的周围配置永久磁铁(46),能够将触点彼此接触分离时所产生的电弧消弧。而且,将多个固定端子(33)中的至少一个固定端子(33)形成为,在与其他固定端子(33)对置一侧以外的区域固定触点(32)与可动触点(34)抵接。 | ||||||
| 10 | 疲劳性能优异的亚稳奥氏体不锈钢钢带的制造方法及该钢带 | CN200780035431.X | 2007-09-28 | CN101517101A | 2009-08-26 | 黑崎郁也 |
| 本发明提供适用于开关用金属弹片部件的具有优异疲劳性能的亚稳奥氏体不锈钢钢带,其适用于各种电子设备开关部分所使用部件等需要反复回弹性的部件。本发明涉及拉伸强度达到1200MPa以上的具有优异疲劳性能的亚稳奥氏体不锈钢钢带的制造方法,所述方法对平均晶粒粒径为5.0μm以下的材料进行最终冷轧,使制品厚度中的马氏体量为90%以下;优选对平均晶粒粒径为5.0μm以下的材料进行冷轧,再结晶退火以使平均晶粒粒径达到5.0μm以下,之后进行最终冷轧的制造方法;通过该方法制备的亚稳奥氏体不锈钢钢带、和由该不锈钢钢带形成的开关用金属弹片部件。 | ||||||
| 11 | パルス大電流スイッチ | JP2014006971 | 2014-01-17 | JP6301659B2 | 2018-03-28 | 後藤 崇志; 片桐 和夫 |
| 12 | Elektrische Schalteinrichtung | EP01107669.2 | 2001-03-28 | EP1160814A3 | 2004-11-17 | Spratte, Joachim; Reinhardt, Jörg |
Eine elektrische Schalteinrichtung hat auf einer Leiterplatte (1) eine elastische Schaltmatte (4) mit einem hutartigen, von der Leiterplatte (1) abgehobenen Schaltbereich (5), der an seiner inneren Stirnfläche (7) eine elektrisch leitende, bei Druck auf den Schaltbereich (5) gegen Leiterbahnen (2, 3) der Leiterplatte (1) bewegliche Schaltbrücke (8) hat. Diese Schaltbrücke (8) ist durch ein von der inneren Stirnfläche (7) gehaltenes Metallplättchen gebildet. |
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| 13 | Separating unit with electromagnetic drive | US15031879 | 2013-10-25 | US09653243B2 | 2017-05-16 | Georg Bachmaier; Andreas Goedecke; Denis Imamovic; Sylvio Kosse |
| A mechanical circuit breaker unit for interrupting a line includes a contact arrangement and an electromagnetic drive. The contact arrangement has first and second fixed contacts and a guided moving contact. The electromagnetic drive moves the moving contact. The separating unit can assume a first state and a second state. No electric connection exists between the first and second fixed contacts in the first state. The moving contact electrically connects the two fixed contacts to each other in the second state. The separating unit can be transferred from the second state into the first state by moving the moving contact. The second fixed contact has a recess for receiving the moving contact, and the moving contact engages at least partly into the recess when the separating unit is in the first state. | ||||||
| 14 | Separating unit with electromagnetic drive | US15031879 | 2013-10-25 | US20160268082A1 | 2016-09-15 | GEORG BACHMAIER; ANDREAS GOEDECKE; DENIS IMAMOVIC; SYLVIO KOSSE |
| A mechanical circuit breaker unit for interrupting a line includes a contact arrangement and an electromagnetic drive. The contact arrangement has first and second fixed contacts and a guided moving contact. The electromagnetic drive moves the moving contact. The separating unit can assume a first state and a second state. No electric connection exists between the first and second fixed contacts in the first state. The moving contact electrically connects the two fixed contacts to each other in the second state. The separating unit can be transferred from the second state into the first state by moving the moving contact. The second fixed contact has a recess for receiving the moving contact, and the moving contact engages at least partly into the recess when the separating unit is in the first state. | ||||||
| 15 | Dome-shaped spring and switch using the same | US13467294 | 2012-05-09 | US08957339B2 | 2015-02-17 | Chikara Sekiguchi; Shigenori Inamoto; Masahiko Aranai |
| Provided is a dome-shaped spring for placing on a substrate having stationary contacts, and a circumferential edge of the dome-shaped spring is continuously in contact with the stationary contacts. At least a part of a neutral plane has a shape defined by an even function of at least eighth-order. Angle α of the neutral plane of the dome-shaped spring to the substrate at a second inflection point that exists at a second-positioned inflection point from the circumferential edge, angle β of the neutral plane to the substrate at a first inflection point, and angle γ of the neutral plane at the circumferential edge of the dome-shaped spring to the substrate satisfy following inequalities of α β and β γ. | ||||||
| 16 | DOME-SHAPED SPRING AND SWITCH USING THE SAME | US13467294 | 2012-05-09 | US20120285812A1 | 2012-11-15 | Chikara SEKIGUCHI; Shigenori Inamoto; Masahiko Aranai |
| Provided is a dome-shaped spring for placing on a substrate having stationary contacts, and a circumferential edge of the dome-shaped spring is continuously in contact with the stationary contacts. At least a part of a neutral plane has a shape defined by an even function of at least eighth-order. Angle α of the neutral plane of the dome-shaped spring to the substrate at a second inflection point that exists at a second-positioned inflection point from the circumferential edge, angle β of the neutral plane to the substrate at a first inflection point, and angle γ of the neutral plane at the circumferential edge of the dome-shaped spring to the substrate satisfy following inequalities of α β and β γ. | ||||||
| 17 | Keyswitch structure | US299915 | 1999-04-28 | US6121564A | 2000-09-19 | Gear Huang |
| The present invention provides an improved keyswitch structure to overcome the shaking and friction problem in the conventional keyswitch. The improved keyswitch structure is characterized in that at least one guiding slit is formed on the outer wall of the frame, at least one guiding body is formed on the inner wall of the guiding groove and corresponding to the guiding slit; and two slim flanges are provided on each corner of the outer wall of the frame whereby the slim flanges are in contact with the four corners of the inner wall of the guiding stage and can move upward and downward smoothly. | ||||||
| 18 | Dome-like spring and switch | JP2011107861 | 2011-05-13 | JP2012238521A | 2012-12-06 | SEKIGUCHI TSUTOMU; INAMOTO SHIGENORI; ARAUCHI MASAHIKO |
| PROBLEM TO BE SOLVED: To reduce wear between the outer peripheral edge part of a dome-like spring and its fixed contact points in repeated operations of pressing down and releasing the dome-like spring, as well as to downsize the dome-like spring, and surely obtain a click action.SOLUTION: A dome-like spring 2 is arranged on a substrate 3 having fixed contact points 4, 5. The outer peripheral edge part of the dome-like spring 2 is always in contact with the fixed contact points 4, 5. At least a part of a neutral surface 2b has a shape expressed by an even function of the eighth order or more. An angle α between the substrate 3 and the neutral surface 2b at a second inflection point that is an inflection point at a second position from the outer peripheral edge part toward the center, an angle β between the substrate 3 and the neutral surface 2b at a first inflection point that is an inflection point at a first position from the outer peripheral edge part toward the center, and an angle γ between the substrate 3 and the neutral surface 2b at the outer peripheral edge part satisfy α<β and β>γ. | ||||||
| 19 | 疲労特性に優れた準安定オーステナイト系ステンレス鋼帯の製造方法及びその鋼帯 | JP2008537513 | 2007-09-28 | JPWO2008041638A1 | 2010-02-04 | 郁也 黒▲崎▼ |
| 各種電子機器のスイッチ部分に使用される部品等の繰返しのばね性が必要な部品に好適であり、スイッチ用メタルドーム部品に好適な疲労特性の優れた準安定オーステナイト系ステンレス鋼帯を提供する。平均結晶粒径が5.0μm以下である材料を最終冷間圧延し、製品厚でのマルテンサイト量90%以下とする、引張強さ1200MPa以上の疲労特性に優れた準安定オーステナイト系ステンレス鋼帯の製造方法であり、好ましくは平均結晶粒径が5.0μm以下である材料を冷間圧延し、平均結晶粒径が5.0μm以下となるように再結晶焼鈍した後に最終冷間圧延する製造方法、その方法で得られる準安定オーステナイト系ステンレス鋼帯、並びにそのステンレス鋼帯からなるスイッチ用メタルドーム部品。 | ||||||
| 20 | ELECTRICAL POWER TRANSFER SWITCH | US15135023 | 2016-04-21 | US20170309423A1 | 2017-10-26 | Keith Dirks; Matthew Moeller; Mathew McClelland |
| A modular transfer switch (22) and actuator (20) wherein multiple transfer switches are connectable in linear arrangement with the actuator such that the actuator controls the position of all of the transfer switches. Each of the transfer switches (22) includes a contact assembly (48) that converts over-rotation of the drive linkage (26) in the transfer switch to added pressure between the load contacts and the power contacts in the contact assembly. | ||||||
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