| 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 | 故障电流限制器装置 | CN201380061454.3 | 2013-10-21 | CN104823257B | 2017-09-12 | D·根奇 |
| 用于低、中至高电压电网的故障电流限制器装置,其包括设置成对齐真空断续器(断路器单元)(2)的故障电流限制器单元(1),真空断续器有连接至下部电终端(4)的固定电接触件(3)和连接至上部电终端(6)的可移动电接触件(5),以便在故障电流检测器件检测到故障因而故障电流限制器单元(1)已限制电流后中断电流,其中故障电流限制器单元(1)包括可移动的电滑动接触部件(8),其电气地设置在真空断续器(断路器单元)(2)的上部电终端(6)和真空断续器(断路器单元)(2)的可移动电接触件(5)之间,并且能够在邻近上部电终端(6)的短路位置(A)和远离上部电终端(6)的远程位置(B)之间移动以向电流提供最大电阻。 | ||||||
| 2 | 按键结构及具有该按键结构的电子装置 | CN201010251934.4 | 2010-08-12 | CN102376480B | 2014-04-16 | 代斌 |
| 一种按键结构,其包括按键帽、固定支架及固定连接该按键帽与固定支架的固定件,该固定支架包括两个支撑部、固定部、与该支撑部和该固定部相连接的四个弹性部及两个连接部,每个连接部的两端分别通过该两个弹性部与该两个支撑部连接,以使该支撑部、该弹性部及该连接部共同形成一个框体,该固定部设于该框体中部并与该两个连接部相固接,该按键帽固定于该固定部上,该弹性部用于给该按键帽提供弹性回复力。上述按键结构的固定支架的弹性部可向该按键帽提供一个弹性回复力,无需另外设置弹性件及凸块,使该按键结构的体积较小,以利于电子装置薄型化设计。本发明还提供一种具有上述按键结构的电子装置。 | ||||||
| 3 | 开关装置 | CN201480061028.4 | 2014-11-11 | CN105745729A | 2016-07-06 | 南胜一 |
| 开关装置具备:壳体;可移动地收纳在壳体内的操作体;使操作体成为锁定状态的限动件;伴随着操作体的移动进行电接触或电分离的开关触点;配设于壳体的解除体;配设于壳体的保持弹簧。操作体具有凸轮部。限动件具有卡止部,伴随着操作体的移动,卡止部卡止于凸轮部,使操作体成为锁定状态。解除体具有向壳体的外方突出的工作部。保持弹簧对解除体向规定方向施力。在锁定状态下解除体与保持弹簧中的任一方按压限动件而使卡止部卡止保持于凸轮部。在凸轮部对卡止部进行卡止保持的状态下操作解除体的工作部时,解除体移动,解除体与保持弹簧中的任一方朝向与限动件分离的方向移动,卡止部与凸轮部分离。该开关装置的部件件数少且结构简单,可小型化。 | ||||||
| 4 | 高压电器开关分合传动装置 | CN201310140016.8 | 2013-04-22 | CN103219191B | 2015-04-01 | 羿庆海; 周晓默; 张哲; 李守业 |
| 本发明公开了高压电器开关分合传动装置,包括导电杆和用于驱动导电杆往复运动的开关驱动装置,所述的导电杆的外周壁包覆有绝缘层。本发明通过在两侧出线端子间,设计外包覆固体绝缘层的导电杆,绝缘导电杆一端与开断元件动触头直接连接,另一端与出线端子通过带有导向的滑动导电组件连接(也可采用导线相连的柔性连接),绝缘主轴绝缘拐臂旋转摆动带动导电杆直线往复运动,从而避免使用绝缘拉杆、导电夹、软连接等繁琐元件,触头压力弹簧可直接作用于外绝缘导电杆上,而且把绝缘部分直接做到导电杆的外部,这样不仅大大减少了生产成本,而且使整体的结构紧凑、简单化、小型化,拆卸维修更加方便。 | ||||||
| 5 | 高压电器开关新型分合传动装置 | CN201310140016.8 | 2013-04-22 | CN103219191A | 2013-07-24 | 羿庆海; 周晓默; 张哲; 李守业 |
| 本发明公开了高压电器开关新型分合传动装置,包括导电杆和用于驱动导电杆往复运动的开关驱动装置,所述的导电杆的外周壁包覆有绝缘层。本发明通过在两侧出线端子间,设计外包覆固体绝缘层的导电杆,绝缘导电杆一端与开断元件动触头直接连接,另一端与出线端子通过带有导向的滑动导电组件连接(也可采用导线相连的柔性连接),绝缘主轴绝缘拐臂旋转摆动带动导电杆直线往复运动,从而避免使用绝缘拉杆、导电夹、软连接等繁琐元件,触头压力弹簧可直接作用于外绝缘导电杆上,而且把绝缘部分直接做到导电杆的外部,这样不仅大大减少了生产成本,而且使整体的结构紧凑、简单化、小型化,拆卸维修更加方便。 | ||||||
| 6 | 静电继电器 | CN201010559699.7 | 2010-11-25 | CN102194612A | 2011-09-21 | 增田贵弘; 山本淳也 |
| 一种静电继电器,可动触点以及可动电极与基体基板平行地位移,其中,能够增大使可动电极离开固定电极时的分离力,并且使结构简单化,提高设计的自由度。在基体基板(32)上固设固定触点部(33)和固定电极部(35)。固定电极部(35)和可动电极部(36)构成使可动触点部(34)与可动电极部(36)一同位移的静电促动器。设于弹簧支承部(38、39)的可动弹簧(37a、37b)保持可动电极部(36)并使其可位移。在弹簧支承部(38)设置悬臂状的二次弹簧(84),在可动电极部(36)的前端面设置突起部(85)。二次弹簧(84)在可动触点部(34)以及可动电极部(36)位移后且可动触点部(34)的可动触点(56)与固定触点部(33)的固定触点(46a、46b)抵接之前与突起部(85)抵接,并且在抵接到突起部之前不变形。 | ||||||
| 7 | 键盘结构及其装配方法 | CN201610992119.0 | 2016-11-11 | CN106601527A | 2017-04-26 | 黄瑞益; 许建士 |
| 本发明关于一种键盘结构及其装配方法,该装配方法包括:提供底板、键帽与具有勾体的框架。键帽可进入框架中并受到勾体的限制,而在上死点与下死点之间进行上下运动,如此键帽就无法离开框架,故后续框架与底板的结合,不会再受到键帽的干涉,因而本发明可以让键盘的装配过程有效简化。 | ||||||
| 8 | 故障电流限制器装置 | CN201380061454.3 | 2013-10-21 | CN104823257A | 2015-08-05 | D·根奇 |
| 用于低、中至高电压电网的故障电流限制器装置,其包括设置成对齐真空断续器(断路器单元)(2)的故障电流限制器单元(1),真空断续器有连接至下部电终端(4)的固定电接触件(3)和连接至上部电终端(6)的可移动电接触件(5),以便在故障电流检测器件检测到故障因而故障电流限制器单元(1)已限制电流后中断电流,其中故障电流限制器单元(1)包括可移动的电滑动接触部件(8),其电气地设置在真空断续器(断路器单元)(2)的上部电终端(6)和真空断续器(断路器单元)(2)的可移动电接触件(5)之间,并且能够在邻近上部电终端(6)的短路位置(A)和远离上部电终端(6)的远程位置(B)之间移动以向电流提供最大电阻。 | ||||||
| 9 | 静电继电器 | CN201010559699.7 | 2010-11-25 | CN102194612B | 2013-11-06 | 增田贵弘; 山本淳也 |
| 一种静电继电器,可动触点以及可动电极与基体基板平行地位移,其中,能够增大使可动电极离开固定电极时的分离力,并且使结构简单化,提高设计的自由度。在基体基板(32)上固设固定触点部(33)和固定电极部(35)。固定电极部(35)和可动电极部(36)构成使可动触点部(34)与可动电极部(36)一同位移的静电促动器。设于弹簧支承部(38、39)的可动弹簧(37a、37b)保持可动电极部(36)并使其可位移。在弹簧支承部(38)设置悬臂状的二次弹簧(84),在可动电极部(36)的前端面设置突起部(85)。二次弹簧(84)在可动触点部(34)以及可动电极部(36)位移后且可动触点部(34)的可动触点(56)与固定触点部(33)的固定触点(46a、46b)抵接之前与突起部(85)抵接,并且在抵接到突起部之前不变形。 | ||||||
| 10 | 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。 | ||||||
| 11 | 按键结构及具有该按键结构的电子装置 | CN201010251934.4 | 2010-08-12 | CN102376480A | 2012-03-14 | 代斌 |
| 一种按键结构,其包括按键帽、固定支架及固定连接该按键帽与固定支架的固定件,该固定支架包括支撑部、固定部及与该支撑部和该固定部相连接的弹性部,该按键帽固定于该固定部上,该弹性部用于给该按键帽提供弹性回复力。上述按键结构的固定支架的弹性部可向该按键帽提供一个弹性回复力,无需另外设置弹性件及凸块,使该按键结构的体积较小,以利于电子装置薄型化设计。本发明还提供一种具有上述按键结构的电子装置。 | ||||||
| 12 | 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。 | ||||||
| 13 | SWITCHGEAR | US15753483 | 2015-11-16 | US20180247778A1 | 2018-08-30 | Masahiro FUJIOKA; Hitoshi SADAKUNI; Masato KAWAHIGASHI; Shinichiro NAKAUCHI |
| A switchgear includes a first contact capable of reciprocating along a motion axis, and a second contact. The second contact includes a facing unit movable in a first direction from the first contact toward the second contact when the facing unit is pushed in by the first contact, a spaced unit spaced from the axis and urged in a direction toward the axis, and a regulating unit coupled to the facing unit. The spaced unit abuts on the regulating unit to restrict movement of the spaced unit in the direction toward the axis as the facing unit is located in the second direction. The spaced unit is released from abutment on the regulating unit to move in the direction toward the axis into abutment on the first contact as the facing unit moves in the first direction. | ||||||
| 14 | CIRCUIT BREAKERS WITH SECONDARY DISPLACEMENT SPRINGS | US14452888 | 2014-08-06 | US20160042882A1 | 2016-02-11 | Nathan James Weister |
| Circuit breakers with a first bus energizing spring held in the housing that electrically connects the circuit board to an external electrical connection. The bus primary energizing spring is configured to deflect toward the circuit board with a first linear displacement. The circuit breakers also include a second bus energizing spring held in the housing that is configured to deflect toward the circuit board with a second linear displacement that supplements the first linear displacement. | ||||||
| 15 | NOVEL ON-OFF TRANSMISSION DEVICE FOR HIGH VOLTAGE ELECTRIC SWITCH | US14373317 | 2013-09-16 | US20150194275A1 | 2015-07-09 | Qinghai Yi; Xiaomo Zhou; Zhe Zhang; Shouye Li |
| The present invention provides a novel on-off transmission device for high voltage electric switch, comprising conducting rod and switch actuating device to actuate the reciprocating motion of the conducting rod, wherein an insulation layer is coated on the circumferential wall of the conducting rod. The present invention designs the conducting rod to be covered outside by a solid insulation layer, between the outlet terminals at both sides; one end of the insulated conducting rod is directly connected to the moving contact of the breaking element, while the other end thereof connected to the outlet terminal via a sliding conducting assembly with a slide (a flexible connection with conducting wire connected can also be used). An insulation main shaft and an insulation crank arm rotate and swing to actuate the linear reciprocating motion of the conducting rod, so that the use of redundant elements such as an insulated tension pole, a conducting clip and a flexible connection is avoided, and the contact compressing spring sheet is directly applied to the externally insulated conducting rod. Besides, the insulation portion is directly provided outside the conducting rod, which not only cuts down the cost of production, but also makes the overall structure compacted, simplified and miniaturized, and detachment and maintenance become more convenient. | ||||||
| 16 | Diaphragm pushbutton switch array for keyboards | US3707609D | 1971-10-27 | US3707609A | 1972-12-26 | DAPOT MARTIN H; BOULANGER HENRY J |
| A system employing a keyboard comprises a base mounting an array of key bodies each adapted to reciprocably move to cause actuation of electrical circuits. A diaphragm is employed as an electrical conductor moving into and out of engagement with underlying contacts upon actuation and deactuation of the key body. Bounding problems have been minimized while maintaining tactile feedback by locating a spring member between the key and its respective diaphragm providing increased motion differential and by providing elongate guiding surfaces which eliminate skew movement of the key. Several forms of keys and key mountings are shown embodying the elongated guideway including an elongated hub molded in the bezel plate and receiving a close fitting rod portion of the key, a separate tubular guide and close fitting plunger, and a key having tabs extending laterally therefrom, the tabs slidably received in grooves formed in the base. Another embodiment particularly useful where two or more circuits are to be actuated from the same key employs a second spring to maintain the diaphragm away from the underlying contacts until the key is depressed thereby precluding undesirable back circuits without the use of blocking diodes or the like.
|
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| 17 | Circuit breakers with secondary displacement springs | US14452888 | 2014-08-06 | US09613763B2 | 2017-04-04 | Nathan James Weister |
| Circuit breakers with a first bus energizing spring held in the housing that electrically connects the circuit board to an external electrical connection. The bus primary energizing spring is configured to deflect toward the circuit board with a first linear displacement. The circuit breakers also include a second bus energizing spring held in the housing that is configured to deflect toward the circuit board with a second linear displacement that supplements the first linear displacement. | ||||||
| 18 | On-off transmission device for high voltage electric switch | US14373317 | 2013-09-16 | US09437373B2 | 2016-09-06 | Qinghai Yi; Xiaomo Zhou; Zhe Zhang; Shouye Li |
| The present invention provides a novel on-off transmission device for high voltage electric switch, comprising conducting rod and switch actuating device to actuate the reciprocating motion of the conducting rod, wherein an insulation layer is coated on the circumferential wall of the conducting rod. An insulation main shaft and an insulation crank arm rotate and swing to actuate the linear reciprocating motion of the conducting rod, and the contact compressing spring sheet is directly applied to the externally insulated conducting rod. Besides, the insulation portion is directly provided outside the conducting rod, which not only cuts down the cost of production, but also makes the overall structure compacted, simplified and miniaturized, and detachment and maintenance become more convenient. | ||||||
| 19 | SWITCH DEVICE | US15023680 | 2014-11-11 | US20160233036A1 | 2016-08-11 | Katsuichi MINAMI |
| A switch device includes a housing, an operating body accommodated movably in the housing, a stopper to lock the operating body, a switch contact performing electrical connection and disconnection in response to the movement of the operating body, a releaser disposed in the housing, and a retainer spring disposed in the housing. The operating body includes a cam section. The stopper includes an engaging section which is engaged with the cam section upon a movement of the operating body as to lock the operating body. The releaser includes a working section projecting outward from the housing. The retainer spring urges the releaser in a predetermined direction. When the operating body is locked, one of the releaser and the retainer spring presses the stopper to engage the engaging section with the cam section and retain the engaging section at the cam section. While the engaging section is engaged with the cam section and retained with the cam section, an operation on the working section of the releaser causes the releaser to move, and causes one of the releaser and the retainer spring to move in a direction away from the stopper as to cause the engaging section to remove from the cam section. The switch device includes a small number of components with a simpler structure, and has a small size. | ||||||
| 20 | Keypad assembly and electronic device using the same | US12944924 | 2010-11-12 | US08481879B2 | 2013-07-09 | Bin Dai |
| A keypad assembly includes a keycap, fixing bracket, and a fixing member. The fixing member fixes the keypad to the fixing bracket. The fixing bracket includes two support portions, a fixing portion, and at least two resilient portions. The resilient portions interconnect the support portions and the fixing portions. The keycap fixes on the fixing portion. The resilient portions are capable of elastically deforming and generate elastic restoring force to the keycap. | ||||||
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