| 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 | 一种采用多簧回弹式高灵敏度计算机用按键 | CN201610969295.2 | 2016-11-06 | CN106571258A | 2017-04-19 | 胡平 |
| 本发明公开了一种采用多簧回弹式高灵敏度计算机用按键,包括主板本体和按键接触本体,所述第一弹簧缓冲装置包括转轴、扭转弹簧、齿轮、限位板、限位杆、铰链、承力杆、弹簧片,所述转轴位于相互对应的弧形连接块之间,所述齿轮在靠近铰链顶端处对称连接有固定脚,承力杆在远离T型按键的一端与铰链的末端铰接,所述承力杆的中部通过弹簧片固定连接T型按键,所述第二弹簧缓冲装置包括转动杆、套管、六角滑腔、挡板、六角滑块、复位弹簧、第一磁铁、第二磁铁,总的来说,本发明能够很好的提高计算机按键的回弹力度和灵敏度,使用者在使用时能够具有更好的使用体验,具有较为广泛的应用前景。 | ||||||
| 2 | 可提供轻触感的按键结构 | CN201510846207.5 | 2015-11-27 | CN105355492A | 2016-02-24 | 陈基煌 |
| 本发明关于一种按键结构,包含底板、电路板、壳件、柱塞件、第一弹性件及第二弹性件,电路板设置于底板上且具有开关,壳件安装于底板上,柱塞件可活动地设置于壳件内且可相对底板靠近或远离,第一弹性件设置于底板与柱塞件之间且用以驱动柱塞件远离底板,第二弹性件安装于柱塞件且可随柱塞件相对底板靠近或远离,第二弹性件具有对应开关的第二弹性件下端部。其中,当柱塞件相对底板靠近至触发位置时,第二弹性件下端部触发开关。本发明利用按键结构的固定脚与组装槽之间的旋转配合以增加按键结构组装时的便利性;还利用第二弹性件的第二弹性件下端部撞击电路板的开关,以达到输入的同时回馈使用者轻触感。 | ||||||
| 3 | 用于机动车辆的转向柱开关系统的复位装置和机动车辆 | CN201280070078.X | 2012-11-29 | CN104185573B | 2017-12-22 | R.利普福特; M.哈希; K.西蒙尼斯 |
| 本发明涉及一种用于机动车辆的转向柱开关系统(1)的复位装置(6),具有触发元件(10),转向柱开关系统(1)的致动杆(2)可借助所述触发元件从致动位置移动至初始位置;中间件(22),其上安装有触发元件(10),以绕枢转轴线(35)在不操作位置和所述致动杆(2)可进入初始位置的触发位置之间可枢转,其中,中间件上(22)上的触发元件(10)还被安装为可在垂直于枢转轴线(35)的滑动方向(28)上移位;弹簧元件(27),以用于产生弹簧力,所述弹簧力平行于滑动方向(28)作用,并且触发元件(10)通过弹簧力以预压的方式布置在中间件(22)上;和转换安全系统(32),具有至少一个转换弹簧(33、34),在转换情况下,所述弹簧允许中间件(22)相对于致动杆(2)的移动,其中所述至少一个转换弹簧(33、34)和弹簧元件(27)在垂直于滑动方向(28)的方向上邻近彼此布置。 | ||||||
| 4 | 按键紧凑构件 | CN201380049447.1 | 2013-07-18 | CN104685596B | 2017-11-14 | 米夏埃尔·鲍曼 |
| 本发明涉及一种按键紧凑构件,具有:带有基体(9)的操作头(2),在该基体上布置有至少一个引导突出部(10);和套管(11),在该套管中,在弹簧元件(13)之上布置有闭锁滑块(12)。本发明的特征在于,引导突出部(10)啮合到闭锁滑块(12)中,使得闭锁滑块(12)在弹簧压力下定位在套管(11)中。 | ||||||
| 5 | 用于机动车辆的转向柱开关系统的复位装置和机动车辆 | CN201280070078.X | 2012-11-29 | CN104185573A | 2014-12-03 | R.利普福特; M.哈希; K.西蒙尼斯 |
| 本发明涉及一种用于机动车辆的转向柱开关系统(1)的复位装置(6),具有触发元件(10),转向柱开关系统(1)的致动杆(2)可借助所述触发元件从致动位置移动至初始位置;中间件(22),其上安装有触发元件(10),以绕枢转轴线(35)在不操作位置和所述致动杆(2)可进入初始位置的触发位置之间可枢转,其中,中间件上(22)上的触发元件(10)还被安装为可在垂直于枢转轴线(35)的滑动方向(28)上移位;弹簧元件(27),以用于产生弹簧力,所述弹簧力平行于滑动方向(28)作用,并且触发元件(10)通过弹簧力以预压的方式布置在中间件(22)上;和转换安全系统(32),具有至少一个转换弹簧(33、34),在转换情况下,所述弹簧允许中间件(22)相对于致动杆(2)的移动,其中所述至少一个转换弹簧(33、34)和弹簧元件(27)在垂直于滑动方向(28)的方向上邻近彼此布置。 | ||||||
| 6 | 开关及其制造方法 | CN201510542744.0 | 2015-08-28 | CN106486311A | 2017-03-08 | 赵克龙; 胡玉军; T·蒂 |
| 提供了一种开关和制造该开关的方法。在一个实施例中,开关包括按钮;位于该按钮下面的薄膜;位于按钮与薄膜之间的第一弹性构件和第二弹性构件。薄膜在被第二弹性构件在第一方向上形变到预定义的程度时被激活。第一弹性构件可操作为响应于在第一方向上施加在按钮上的力而被形变,并且防止第二弹性构件与薄膜接触,直到该力的大小超过阈值。开关提供了快速反应又耐用的输入机构,并且允许平滑的敲击体验。也提供了键盘。 | ||||||
| 7 | 开关装置 | CN201510664837.0 | 2015-09-10 | CN105405697A | 2016-03-16 | 星直树 |
| 提供一种开关装置,该装置能够可靠地进行伴随可动触点和固定触点的滑动的触点的切换。在按压操作体(50)时,通过操作体(50)而操作导体板(30)转动。其转动力经由两根拉力螺旋弹簧(41、42)赋予到切换可动部(20)的独立导体板(23)上,使切换可动部(20)转动。在切换可动部(20)设有可动触点(24、25、26),通过切换可动部(20)的转动动作,可动触点(24、25、26)在滑动部(17a、17b、17c)滑动,触点被切换。由于使用两根拉力螺旋弹簧(41、42),因此,切换可动部(20)的动作稳定且通电通路的可靠性提高。 | ||||||
| 8 | 按键紧凑构件 | CN201380049447.1 | 2013-07-18 | CN104685596A | 2015-06-03 | 米夏埃尔·鲍曼 |
| 本发明涉及一种按键紧凑构件,具有:带有基体(9)的操作头(2),在该基体上布置有至少一个引导突出部(10);和套管(11),在该套管中,在弹簧元件(13)之上布置有闭锁滑块(12)。本发明的特征在于,引导突出部(10)啮合到闭锁滑块(12)中,使得闭锁滑块(12)在弹簧压力下定位在套管(11)中。 | ||||||
| 9 | 用于电气开关的转子 | CN201410434107.7 | 2014-08-29 | CN104425138A | 2015-03-18 | P.比邓基维奇; J-U.达尔; E.戴伊利茨 |
| 公开了一种用于电气开关的转子,该转子包括一转子壳体和一以能够旋转的方式支承的触桥,所述触桥具有两个活动触点,其中通过所述转子的旋转,所述两个活动触点能够与电气开关的两个固定触点共同作用,用于闭合或者断开电路,其中以能够旋转的方式支承的触桥在其闭合位置中能沿着与所述触桥的方向垂直的方向运动地支承在所述转子壳体中。 | ||||||
| 10 | 高温热熔断装置 | CN200910211606.9 | 2009-08-05 | CN101685733A | 2010-03-31 | 佩里·肯特; 特鲁翁格·古延 |
| 本发明提供了具有高温热感粒的高温热熔断装置,所述高温热感粒具有大于或等于约240℃的转变温度并包括至少一种有机化合物。所述热感粒设置在以高温密封物密封的外壳中,所述高温密封物在直到至少转变温度时提供基本上的密封。高温TCO还具有电流断路组件,所述电流断路组件在对应于低于所述转变温度的操作温度的第一操作条件下建立电连续性,并且在操作温度超过转变温度时断开电连续性。本发明还提供了制造这种高温热熔断装置的方法。 | ||||||
| 11 | JPS59181527U - | JP7533683 | 1983-05-21 | JPS59181527U | 1984-12-04 | |
| 12 | 自動車のステアリングコラムスイッチシステムのリセットデバイスおよび自動車 | JP2014547815 | 2012-11-29 | JP2015508354A | 2015-03-19 | ライナー、リッペルト; マルティン、ハッシュ; カール、シモニス |
| 本発明は、自動車のステアリングコラムスイッチシステム(1)のリセットデバイス(6)であって、ステアリングコラムスイッチシステム(1)の作動レバー(2)を作動位置から始動位置へもたらすことができるトリガ要素(10)と、非動作位置と、作動レバー(2)が初期位置にもたらされ得るトリガ位置との間で枢軸(35)の周りを旋回可能なようにトリガ要素(10)が取り付けられる中間部品(22)であって、トリガ要素(10)は、枢軸(35)に対して垂直な摺動方向(28)に変位可能なように中間部品(22)に取り付けられる、中間部品(22)と、摺動方向(28)に対して平行に作用し、トリガ要素(10)が予め押圧されて中間部品(22)に配置されるばね力を生成するためのばね要素(27)と、移行時に、作動レバー(2)に対して中間部品(22)を移動させることができる少なくとも1つの移行ばね(33、34)を有する移行保護システム(32)とを備え、少なくとも1つの移行ばね(33、34)およびばね要素(27)は、摺動方向(28)に対して垂直方向に互いに隣接して配置されているリセットデバイス(6)に関する。 | ||||||
| 13 | keyboard | JP340088 | 1988-01-11 | JP2761210B2 | 1998-06-04 | 孝夫 松林; 和敏 林; 洋 長谷川 |
| 14 | High temperature thermal cutoff device | EP09167298.0 | 2009-08-05 | EP2151846A2 | 2010-02-10 | Kent, Perry; Nguyen, Truong |
The present disclosure provides high temperature thermal cutoff devices having a high-temperature thermal pellet with a transition temperature of greater than or equal to about 240°C and comprising at least one organic compound. The pellet is disposed in a housing, which is sealed with a high-temperature seal that provides substantial sealing up to at least the transition temperature. The high-temperature TCO also has a current interruption assembly, which establishes electrical continuity in a first operating condition corresponding to an operating temperature of less than said transition temperature and discontinues electrical continuity when the operating temperature exceeds the transition temperature. Methods of making such high-temperature thermal cut off devices are also provided.
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| 15 | CIRCUIT BREAKER ENERGY STORAGE OPERATING MECHANISM | US15750220 | 2016-08-02 | US20180226206A1 | 2018-08-09 | Binhua PAN; Jisheng SUN |
| An energy storage operation mechanism for a circuit breaker comprises a side plate assembly, a connecting rod assembly, a cam assembly, an energy storage assembly, a rotating shaft assembly and a control assembly. A rotatable driving shaft is mounted in the side plate assembly. The connecting rod assembly and the cam assembly are mounted on the driving shaft. The energy storage assembly and the rotating shaft assembly are mounted at one side of the driving shaft, and the control assembly is mounted at the other side of the driving shaft. The connecting rod assembly is connected with the rotating shaft assembly. The cam assembly can be in contact and connection with the energy storage assembly to push the energy storage assembly to store energy. The control assembly can be connected with the connecting rod assembly and the cam assembly in a latching manner. The energy storage operation mechanism for the circuit breaker, which is provided by the present invention, is compact in structure and high in reliability. | ||||||
| 16 | Key Switch, Key Unit and Computer Keyboard | US15463188 | 2017-03-20 | US20170301488A1 | 2017-10-19 | Wenyu ZHANG |
| A key switch includes an operating body, a fixing rack, a first metal spring, an elastic body and a thin film switch layer, wherein the operating body comprises a lead post, the fixing rack comprises a lead tube, the lead post is matched with the lead tube to position the elastic body, one end of the elastic body is connected with the lead post, the other opposite end of the elastic body contacts or is spaced from the surface of the thin film switch layer, and the thin film switch layer is arranged outside the fixing rack. And the present invention also provides a key unit and a computer keyboard using the same. | ||||||
| 17 | Output-switch control system for AC-DC power supply | US14656092 | 2015-03-12 | US09748055B2 | 2017-08-29 | Mu-Chun Lin |
| An output-switch control system for an AC-DC power supply includes a push-button switch that has two triggers. The triggers correspond to different contacts of a detecting circuit, respectively. When the push-button switch is pressed to make the triggers and the contacts turn into a close-circuit state form an open-circuit state, the detecting circuit outputs a power-source-on signal, and when the push-button switch is pressed again, and either of the triggers and the contact turn into the close-circuit state form the open-circuit state, the detecting circuit outputs a power-source-off signal immediately. With the dual-transition signal certification at the contacts, safe output-switch control can be achieved, so as to provide a user with operational safety. | ||||||
| 18 | Pushbutton compact component | US14409274 | 2013-07-18 | US09412534B2 | 2016-08-09 | Michael Baumann |
| A pushbutton compact component is shown, including an actuating button having a basic body, on which at least one guide projection is arranged, and a sleeve, in which a locking slide is arranged by way of a spring element. In an embodiment, the guide projection engages the locking slide such that the locking slide is positioned in the sleeve under spring pressure. | ||||||
| 19 | PUSHBUTTON COMPACT COMPONENT | US14409274 | 2013-07-18 | US20150170852A1 | 2015-06-18 | Michael Baumann |
| A pushbutton compact component is disclosed, including an actuating button having a basic body, on which at least one guide projection is arranged, and a sleeve, in which a locking slide is arranged by way of a spring element. In an embodiment, the guide projection engages the locking slide such that the locking slide is positioned in the sleeve under spring pressure. | ||||||
| 20 | HIGH TEMPERATURE MATERIAL COMPOSITIONS FOR HIGH TEMPERATURE THERMAL CUTOFF DEVICES | US14593768 | 2015-01-09 | US20150162153A1 | 2015-06-11 | Perry Kent; Truong Nguyen |
| The present disclosure provides a high-temperature thermal pellet composition that maintains structural rigidity up to a transition temperature of about 240° C. The composition comprises at least one organic compound (e.g., triptycene or 1-aminoanthroquinone). The pellet can be disposed in a housing of a thermally-actuated, current cutoff device, such as a high-temperature thermal cutoff device (HTTCO). Also provided are material systems, which include the pellet composition and a high-temperature seal that provides substantial sealing up to at least the transition temperature. Methods of making such high-temperature pellet compositions and incorporating them into a thermally-actuated, current cutoff device are also provided. | ||||||
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