子分类:
| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 21 | 开关设备以及控制它的方法 | CN201410495698.9 | 2014-09-25 | CN104516291A | 2015-04-15 | S.K.孙; 弗曼.阿迪安斯亚; 刘耀龙 |
| 提供了一种开关设备以及控制该开关设备的方法,该开关设备包含:开关模块,其被配置成进行电路的开关;处理器模块,其被配置成控制该开关模块;以及与该处理器模块耦合的通信模块,该通信模块被配置成实现该处理器模块与外部设备之间的通信,其中该通信模块被配置成使用近场通信信号与外部设备通信。 | ||||||
| 22 | 一种电表漏电保护器 | CN201410596604.7 | 2014-10-29 | CN104319194A | 2015-01-28 | 徐初功; 江向前 |
| 本发明公开了一种电表漏电保护器,包括漏电保护器本体,漏电保护器本体上设置有电表,电表包括电源板、主板和显示板,电源板右端面设有电源板卡槽,所述主板左端面对准电源板卡槽位置一体设置有主板第一卡接块;主板右端面设有主板第二卡接块,显示板左端面对准主板第二卡接块设置有显示板卡槽;电表嵌入式安装在漏电保护器本体一侧,且漏电保护器本体上固定设置有脉冲指示灯,反向指示灯和电源指示灯,所述脉冲指示灯,反向指示灯和电源指示灯均与电表内的部件电连接。上述技术方案,将漏电保护器与电表集成在一起,这样设计结构紧凑,省去了原有外部复杂的连接导线,另外无需安装其它表箱和额外的接线,安装方便,体积小,安装成本低。 | ||||||
| 23 | 可自动配置继电器 | CN201210403015.3 | 2012-10-22 | CN103065870A | 2013-04-24 | 连志勇; 刘耀龙 |
| 本发明提供了可自动配置继电器以及自动配置继电器的方法。该继电器包含:与受监控源耦合的输入采样模块,该采样模块被配置成检测受监控源的参数的第一值;以及配置成根据检测的第一值来设置工作条件的处理模块。 | ||||||
| 24 | 一种智能磁保持微型断路器 | CN201110442213.6 | 2011-12-26 | CN102522274A | 2012-06-27 | 刘镇阳 |
| 本发明公开了一种智能磁保持微型断路器,包括壳体、磁保持继电器、驱动电路,驱动电路接受控制信号后驱动磁保持继电器动作;磁保持继电器包括动簧组合、静簧组合、拨杆、推动片、磁钢组合,还设有中央处理器、通信芯片、计量模块。计量模块,用于计量功率、电压、电流数据并发送给中央处理器。本发明突破了传统的微型断路器设计理念,将磁保持继电器与中央处理器、电流互感器、计量芯片和通信芯片组合到微型断路器的壳体中,使微型断路器具备保护、计量、控制和通信功能。 | ||||||
| 25 | Electrical switching device | JP2009206541 | 2009-09-08 | JP5448660B2 | 2014-03-19 | ウィリアム・ジェームズ・プレマーラニ; キャスリーン・アン・オブライエン; オーウェン・ジャニス・シェレンツ |
| 26 | Breaker of the working method and apparatus | JP2000531856 | 1999-02-05 | JP2004500680A | 2004-01-08 | エッテ、ベルント; シュスト、ペーター; パンケ、アンドレアス; レハーク、ハンス |
| 本発明は、短絡時に遅れなくトリップされる遮断器(1)の作動方法及び装置に関する。 本発明の基本原理は、接触子(17,18)が閉成する際に震動によって遮断器(1)内にいずれにしても存在する電磁石(6,14,21)のコイルに誘導される電圧が検出されて評価されることに基づいている。 検出された減衰するパルス状交流電圧は減衰する直流電圧に変換され、マイクロコントローラを通してアナログ/デジタル変換器チャネルで評価される。 トリップ装置が遮断器(1)内に生じた電流の流れによって作動され、同時に短絡電流を検知した場合、誘導された電圧又はそれから導出された直流電圧が存在する際にはトリップ装置が直ちに再びトリップされ、もしくは誘導された電圧ないしは直流電圧信号が存在しないならば予め定められた遅れを持ってトリップされる。 | ||||||
| 27 | Protection of micro-electromechanical switch connected in series and parallel | JP2009206541 | 2009-09-08 | JP2010067608A | 2010-03-25 | PREMERLANI WILLIAM JAMES; O'BRIEN KATHLEEN ANN; SCHELENZ OWEN JANNIS |
| <P>PROBLEM TO BE SOLVED: To provide an electrical switching device wherein protection of switching arrays are improved. <P>SOLUTION: This electrical switching device includes a plurality of switch sets coupled in series. Each switch set includes a plurality of switches coupled in parallel. A control circuit is coupled to a plurality of the switch sets, and configured to control opening and closing of the switches. One or more intermediate diodes couples each point between each pair of the switch sets to the control circuit. In another embodiment, an electrical switching system also includes a voltage discharge circuit, and this voltage discharge circuit is formed to discharge a voltage at the contact of a switching circuit. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 28 | Two pole changeover switch | JP16092185 | 1985-07-19 | JPS6222329A | 1987-01-30 | AOI TATSUO; KIYONO YASUHIRO; HONDA SUEAKI |
| 29 | JPS5721235B2 - | JP10172676 | 1976-08-27 | JPS5721235B2 | 1982-05-06 | |
| 30 | System and method for managing the power supply to the circuit breaker control device | JP2009094514 | 2009-04-09 | JP5400450B2 | 2014-01-29 | ナタニエル・バルボーサ・ヴィセンテ; ブライアン・パトリック・レンハート,ジュニア; スティーブン・ジェイムズ・ウエスト; トッド・グリーンウッド; スリーニヴァスル・アール・デヴァラパリ; ズバイル・ハミード |
| 31 | System and method for managing power supply to circuit breaker controller | JP2009094514 | 2009-04-09 | JP2009259242A | 2009-11-05 | VICENTE NATANIEL BARBOSA; LENHART JR BRIAN PATRICK; WEST STEPHEN JAMES; GREENWOOD TODD; DEVARAPALLI SREENIVASULU R; HAMEED ZUBAIR |
| <P>PROBLEM TO BE SOLVED: To disclose a system 34 for controlling power within a circuit breaker trip unit 16. <P>SOLUTION: The system 34, which is operably connected to the trip unit 16, includes: a user interface 26 having a plurality of input keys 28 and 30; a power regulator 20 which is operably connected to the user interface 26, battery power supply 24, and external power supply 22; and a power control circuit 36. The power control circuit 36 is constructed to be automatically and electrically connected with the battery power supply 24 and power regulator 20 to respond to activation of either of the plurality of input keys 28 and 30 when there is no electrical connection between the external power supply 22 and power regulator 20. <P>COPYRIGHT: (C)2010,JPO&INPIT | ||||||
| 32 | Method of protecting isolated low voltage wire network section and device for executing same method | JP24363983 | 1983-12-23 | JPS59171426A | 1984-09-27 | FURIIDORITSUHI FUROINTO |
| 33 | JPS5712491B2 - | JP4855575 | 1975-04-21 | JPS5712491B2 | 1982-03-11 | |
| 34 | Electric receptacle | JP10172676 | 1976-08-27 | JPS5228692A | 1977-03-03 | GOPARU JIERANBUHAI BIRANI; JIYON JIYOSEFU MISENSHITSUKU; ROI ORIBAA UIRII |
| 35 | JPS50146879A - | JP4855575 | 1975-04-21 | JPS50146879A | 1975-11-25 | |
| 36 | ROTARY ACTUATION DEVICE | US15007770 | 2016-01-27 | US20170211669A1 | 2017-07-27 | Gerardo Rodríguez Nájera; Carlos Baltazar Castro Maciel; Sergio David Esquivel Álvarez |
| This disclosure relates to various embodiments of rotary actuation devices that may be utilized in a variety of applications. In one embodiment, a rotary actuation device is configured to transition between a first position and a second position in response to each of a manual adjustment, an activation of an electrical actuator, and a force generated by a deck device. The rotary actuation device may be at least one deck device configured to exert a force in response to a condition. The force may cause the rotary actuation device to transition between the first position and the second position. The rotary actuation device may further include an electrical actuator configured to generate a motion upon activation. A rotary latch mechanism coupled to the electrical actuator and may cause the rotary actuation device to transition from the first position to the second position. | ||||||
| 37 | INTELLIGENT WIRELESS AND WIRED CONTROL OF DEVICES | US15016891 | 2016-02-05 | US20160231721A1 | 2016-08-11 | Ramasamy Lakshmanan; Chandrasekhar Esakkimuthu Poorna |
| A system is provided in which a microcontroller is connected to a household unit, which is controlled by the microcontroller. The microcontroller is connected to wireless unit, so that the household unit may be controlled wirelessly (e.g. from a smart phone, tablet computer, laptop, and/or personal computer). In an embodiment, the household unit is a circuit breaker or a bank of circuit breakers that protect various devices in the house from faults in the power lines. In an embodiment, the household unit includes a switch, such as a solenoid for turning off an electrical appliance. In an embodiment, the household unit has various settings that may be set remotely, via sending wireless signals to the microcontroller. | ||||||
| 38 | Event communication apparatus for protection relay | US14465087 | 2014-08-21 | US09411705B2 | 2016-08-09 | Byung Joon Jeon |
| Disclosed is an event communication apparatus for a protection relay, which effectively simplifies an event determination operation by a main processing module and a communication module, thereby enhancing updating. The event communication apparatus for the protection relay includes a shared memory configured to store and provide data needed to share, a main processing module configured to, whenever an event occurs, update previous event data to a status information of the event and a status occurrence time information as new event data, and write the updated event data into the shared memory, and a communication module configured to periodically read status information from the shared memory, compare the read status information with pre-stored previous status information to determine whether there is a status change, determine occurrence of a new event when there is the status change, and transmit corresponding event data to an supervisory monitor immediately when the new event occurs. | ||||||
| 39 | ELECTRICAL CONTACT APPARATUS, ASSEMBLIES, AND METHODS OF OPERATION | US15072915 | 2016-03-17 | US20160196944A1 | 2016-07-07 | Bogdan Ionescu; Peter Willard Hammond; Richard H. Osman |
| An electrical contact apparatus is disclosed. The contact apparatus has first contact member having a first contact, a movable contact member received adjacent to the first contact member, the movable contact member having an opposing contact positioned adjacent the first contact, and an armature operable to produce an electromagnetic closing force to cause the movable contact member to remain closed upon application of current through the first contact member, movable contact member. Contact assemblies and methods of operating the contact apparatus are disclosed, as are other aspects. | ||||||
| 40 | Modular Overload Relay Assembly With A Modular Communication And Human Interface Module | US14076745 | 2013-11-11 | US20150135016A1 | 2015-05-14 | William T. Glaser; Theron Kotze; James J. Flood; Leonid Yerukhimov; Eric Waydick |
| Methods and systems for communicating information from a first modular electronic device to a second modular electronic device. The first modular electronic device transmitting a first serial data frame over a two-wire communication protocol. The first serial data frame containing status information, a heartbeat challenge and a frame check character. The second modular electronic device able to receive the first serial data frame, validate the data and display status information on a local human interface. The second electronic device able to respond to the first electronic device by transmitting a second serial data frame. The second serial data frame containing a heartbeat response and a frame check character response. The first modular electronic device having the ability to place a modular electronic overload system in a safe state if communication is lost between the first modular electronic device and the second modular electronic device. | ||||||
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