| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 181 | 두 가닥의 배선을 이용하여 전력 공급과 신호의 송수신이 가능한 원격 제어 시스템 및 이를 이용한 자동문 제어 스위치 | KR1020130081224 | 2013-07-10 | KR1020150007162A | 2015-01-20 | 신진철 |
| 본 발명은 두 가닥의 배선으로 연결된 피제어기기와 원격 제어기를 포함하는 원격 제어 시스템에 관한 것으로서, 피제어기기는, 제1 전압의 직류를 펄스 형태로 변환하여 전력 펄스를 생성하여 출력하는 전력 펄스 발생기; 배선을 통해 원격 제어기로부터 수신되는 제2 전압의 신호 펄스를 입력하는 레벨 제한 입력기; 및 전력 펄스 발생기에 전력 펄스의 생성 신호를 인가하고, 레벨 제한 입력기로 입력되는 신호 펄스를 읽어들이며, 피제어기기의 동작을 제어하는 제1 마이크로프로세서;를 구비하고, 원격 제어기는, 피제어기기의 동작을 제어하기 위한 적어도 2 개 이상의 스위치들; 배선을 통해 공급되는 제1 전압의 전력 펄스를 제2 전압의 직류로 변환하는 전력 변환기; 제2 전압의 신호 펄스를 생성하여 배선으로 출력하는 신호 펄스 발생기; 및 전력 변환기로부터 제2 전압의 직류를 전원으로서 입력 받아 동작하며, 스위치들로부터의 입력 신호에 따라 미리 정해진 형태의 신호 펄스를 생성하도록 신호 펄스 발생기에 신호 펄스의 생성 신호를 인가하는 제2 마이크로프로세서;를 구비하여, 상기 전력 펄스가 ON인 기간 동안 피제어기기로부터 원격 제어기로 전원이 공급되고, 전력 펄스가 OFF인 기간 동안 원격 제어기로부터의 신호 펄스가 피제어기기로 입력된다.
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| 182 | 구내에서의 그룹별 또는 모든 조명이나 가전기기를 스위칭 온-오프하기 위한 방법 및 장치 | KR1020120028161 | 2012-03-20 | KR1020130026968A | 2013-03-14 | 엘버바움,데이비드 |
| PURPOSE: A method and a device for switching on and off a group or all lighting devices or home appliances of premises are provided to offer the efficiency and convenience of a remote switching through a wireless or optical guide controlled SPDT(Single Pole Dual Throw) relay connected to one or multiple switches. CONSTITUTION: Two traveler lines(T1,T2) connect a state sensor(15) and a current sensor(16) with a SPDT switch(1). The current sensor is continuously connected to a load through a contact with an SPDT relay(18). The SPDT switch remotely switches home appliance with a DPDT(Dual Pole Dual Throw) relay(19). A power supply(17) supplies rectified DC voltage to a CPU(11). The CPU controls the SPDT relay and setting selectors(24-1~24-n). | ||||||
| 183 | 비디오 인터폰 또는 쇼핑 단말기로부터 AC로 구동되는 전기기기를 동작시키기 위한 방법 및 장치 | KR1020107007060 | 2008-10-07 | KR1020100081306A | 2010-07-14 | 엘버바움데이비드 |
| A method for adding and connecting a remotely operated SPDT relay-to an electric power circuit of an AC appliance connected to a manually actuated electrical SPDT switch for integrating said AC appliance into an home automation network, each said relay and said SPDT switch includes a pole terminal and dual traveler terminals and said relay is similar to a shape and a size of an AC switch fit for installation into a standard electrical box. | ||||||
| 184 | 지-웨이브 스마트 메쉬 네트워크 조명 제어 장치 및 조명스위치 | KR1020080034112 | 2008-04-14 | KR1020090108813A | 2009-10-19 | 김용호 |
| PURPOSE: A light control or a light switch of a z-wave smart mesh network is provided to have a self reproduction routing and a resistance against a conventional wireless module frequency by forming a smart mesh network with low costs and low power consumption. CONSTITUTION: A light control or a light switch of a z-wave smart mesh network is composed of a memory, an input/output part, a CPU, and an antenna. The memory stores an operation program suitable for the configuration of the smart mesh network and each control device. The input/output part is connected to an external device, and the CPU performs a calculation. A module with a Z-Wave is applied to a lighting apparatus(201) and a lighting switch(202). | ||||||
| 185 | 회로 차단기 장치 | KR1020077003242 | 2005-08-02 | KR1020070040391A | 2007-04-16 | 나우만,미하엘; 미클리스,마르쿠스; 메클러,페터; 그로쓰,파트릭 |
| 본 발명은 다수의 안전용 스위치들(LS n ), 특히 라인 안전용 스위치들을 포함하는 안전용 스위치 시스템에 관한 것으로, 상기 안전용 스위치들은 라인들(L nm )을 통해 전력 분배 시스템(EN)의 시스템 구성요소(SK n )에 연결되고 제어 노브(BE n )를 구비한다. 상기 제어 노브는 작동 패널(BF)을 관통하고 각 안전용 스위치(LS n )를 트리거링하기 위해 상기 작동 패널(BF)의 전면(FS)으로부터 작동될 수 있다. 진단 및/또는 매개변수화 데이터(D DP )를 교환하기 위한 커플링 엘리먼트(KE n )는 하나 또는 모든 안전용 스위치들(LS n )과 연관되고 또한 작동 패널(BF)의 전면(FS)으로부터 접근될 수 있다. | ||||||
| 186 | 기기의 복귀장치에 있어서의 동작 표시장치 | KR2019860018161 | 1986-11-21 | KR2019900006136Y1 | 1990-07-06 | 사코유지 |
| 내용 없음. | ||||||
| 187 | SWITCH DEVICE | US16078090 | 2017-02-22 | US20190050007A1 | 2019-02-14 | William Muirhead; Friedrich Von Der Luehe |
| Disclosed is a switch device that includes or is formed by a switchgear. Two sensors of the switchgear monitor two measured values and a switch of the switchgear is switched depending on these measured values. The adjustable thresholds for the measured values are displayed on a digital display integrated in the switchgear or arranged on an external input device. Both thresholds are adjusted digitally via the input device. The input device can be a commercially available smartphone with an app or a laptop. | ||||||
| 188 | Switching device for a radio pushbutton, radio pushbutton, and method for producing a switching signal of a switching device | US14897955 | 2014-05-12 | US09922782B2 | 2018-03-20 | Eduard Ruff |
| The current embodiments provide a switch device for a wireless pushbutton, wherein the switch device comprising an energy conversion mechanism, a signal output mechanism, an actuation device, and a plurality of encoding contacts. The actuation device may be configured to establish contact with at least one of the plurality of encoding contacts when a first quantity of an actuation force is applied for generating an encoded signal. The actuation device may be configured to activate the energy conversion mechanism to generate energy when a second quantity of an actuation force greater than the first quantity is applied to the activation device. The signal output mechanism may be configured to transmit a wireless output signal using the encoded signal when the energy conversion mechanism is activated. | ||||||
| 189 | Articulated arm coordinate measurement machine having a rotary switch | US14708672 | 2015-05-11 | US09903701B2 | 2018-02-27 | Yu Gong |
| A rotary switch device such as that used on the probe end of an articulated arm coordinate measurement machine is provided. The rotary switch having a housing with an axis of rotation. A first actuator is coupled to the housing. A first switch is coupled to the first actuator, the first actuator being configured to selectively close the first switch. A first electrical circuit is provided. A first antenna circuit is electrically coupled the first switch to the first electrical circuit, wherein the first electrical circuit and first antenna circuit cooperate to modulate an operating field when the first switch is closed. A reader circuit is arranged fixed relative to the axis of rotation, the reader circuit including a transmitter configured to emit the operating field and a receiver configured to detect the modulated operating field. | ||||||
| 190 | PV Stop Potential Voltage and Hazard Stop System | US15786117 | 2017-10-17 | US20180039234A1 | 2018-02-08 | Chuck McCune; Maxim K. Rice; Scott Richard Wilson |
| A system to interrupt the line or supply side power or charged system of any building, appliance, process, and the like, so as to render the system without charge or current output outside of the junction box/enclosure or equipment load supply connection so that emergency first responders or solar/any technician, authorized personnel in any field, system maintenance crew may avoid electrocution, chemical or machine/appliance hazard in the presence of fire, explosion, structural failure/compromise, moisture, flammables, caustics, hazmat, water stream, mist, fogging, physical damage or servicing of the system. The system can be engaged for any anticipated disaster such as fire, hurricane, tornado, earthquake, flood, and the like. | ||||||
| 191 | SWITCH | US15497900 | 2017-04-26 | US20170317263A1 | 2017-11-02 | Tadashi Sugimoto; Satoshi Matsuda; Masatoshi Endou |
| The present invention provides a switch which allows a communication module to be made waterproof while maintaining a switch function. A wireless switch device which functions as a rocker switch includes a cover member and an elastic waterproof member both of which seal an opening of a casing member in a state in which a wireless switch module is housed in the casing member. The wireless switch device further includes a seesaw-shaped member which is arranged on an outer side of the cover member and the waterproof member which outer side is opposite to a side on which the wireless switch module is sealed with the cover member and the waterproof member. | ||||||
| 192 | Button-type car ignition system | US14428378 | 2013-09-23 | US09702331B2 | 2017-07-11 | Sung Won Lim |
| The present invention relates to a button-type car ignition system. The present invention includes: a housing the upper and lower portions of which are open; an upper plate coupled with an upper end of the housing; a moving button disposed inside the housing; a cover coupled with the lower portion of the housing; a printed circuit board disposed inside the housing; a key pad pressurized by the moving button; a light guide member that guides light generated by the light-emitting diode to the moving button; and an antenna coil that transmits and receives a wireless signal to and from an ignition key. According to the present invention, no additional components are required to install the antenna coil, and thus the number of components can be reduced, the number of assembly steps is reduced, and productivity is improved. | ||||||
| 193 | A SWITCHING DEVICE FOR A MV ELECTRIC POWER DISTRIBUTION NETWORK | US15320664 | 2015-04-22 | US20170194111A1 | 2017-07-06 | Leandro Vacirca; Angelo Cleber; Luciano Di Maìo |
| The invention relates to a switching device for a MV electric power distribution network. The switching device comprises electric contacts, which are electrically connectable to a conductor of said electric power distribution network, and a control unit. The switching device comprises signalling means emitting visible light externally to said switching device, said signalling means being controlled by said control unit. | ||||||
| 194 | RFID tag based state monitoring of contactors | US14722937 | 2015-05-27 | US09418808B2 | 2016-08-16 | Andrew James Blackwood; John F. Pflieger |
| A motor starter or contactor having a radio frequency identification (RFID) tag incorporated therein for accurate determination of the position of contacts in the motor starter/contactor is disclosed. The motor starter/contactor includes separable contacts comprising a fixed contact structure and a movable contact structure having a closed position and an open position. An electromagnet is also included in the motor starter/contactor that is arranged to translate the movable contact structure between the closed position and the open position. An RFID tag is positioned on or adjacent the separable contacts to indicate the position of the movable contact structure in the motor starter/contactor. | ||||||
| 195 | Compact connection system for mains switchgear | US14351583 | 2012-10-17 | US09413103B2 | 2016-08-09 | Carles Pons Gonzalez |
| An easy-to-assemble compact connection system can be connected to a mains via connection to different switchgear devices, such as a residual-current or thermomagnetic circuit breaker, switches, contact breakers, overvoltage protectors or similar devices, in order to collect or inject signals available on the mains, such as collecting current or voltage signals from the mains or collecting or injecting other signals or parameters. The compact connection system can be connected to both switchgear devices already installed in a switchboard and to new units. | ||||||
| 196 | RFID TAG BASED STATE MONITORING OF CONTACTORS | US14722937 | 2015-05-27 | US20160189898A1 | 2016-06-30 | Andrew James Blackwood; John F. Pflieger |
| A motor starter or contactor having a radio frequency identification (RFID) tag incorporated therein for accurate determination of the position of contacts in the motor starter/contactor is disclosed. The motor starter/contactor includes separable contacts comprising a fixed contact structure and a movable contact structure having a closed position and an open position. An electromagnet is also included in the motor starter/contactor that is arranged to translate the movable contact structure between the closed position and the open position. An RFID tag is positioned on or adjacent the separable contacts to indicate the position of the movable contact structure in the motor starter/contactor. | ||||||
| 197 | Switching Device for a Radio Pushbutton, Radio Pushbutton, and Method for Producing a Switching Signal of a Switching Device | US14897955 | 2014-05-12 | US20160148764A1 | 2016-05-26 | Eduard Ruff |
| The current embodiments provide a switch device for a wireless pushbutton, wherein the switch device comprising an energy conversion mechanism, a signal output mechanism, an actuation device, and a plurality of encoding contacts. The actuation device may be configured to establish contact with at least one of the plurality of encoding contacts when a first quantity of an actuation force is applied for generating an encoded signal. The actuation device may be configured to activate the energy conversion mechanism to generate energy when a second quantity of an actuation force greater than the first quantity is applied to the activation device. The signal output mechanism may be configured to transmit a wireless output signal using the encoded signal when the energy conversion mechanism is activated. | ||||||
| 198 | ELECTRICAL ENCLOSURE OPERATING MECHANISM HOUSING AN EXTERNAL ANTENNA | US14534544 | 2014-11-06 | US20160135313A1 | 2016-05-12 | Alan FREEMAN |
| An operating mechanism is provided for an electrical enclosure. The operating mechanism includes a switch operator, and a housing to house the switch operator. The switch operator includes a portion which extends through one of one or more holes in the electrical enclosure, and can be manipulated by an external handle to operate an electrical switching device, such as a circuit breaker, that is housed in the electrical enclosure. The housing includes a cavity to house and protect an external antenna or other electrical device, which is connectable to an electrical cable that extends from the cavity into an interior of the electrical enclosure via the hole(s). The electrical cable can be connected to a monitoring system inside of the electrical enclosure. The housing is mountable onto an exterior surface of a wall of the electrical enclosure to cover the hole(s). | ||||||
| 199 | Energy harvesting device | US14365762 | 2012-12-14 | US09306431B2 | 2016-04-05 | Bozena Erdmann; Adrianus Johannes Josephus Van Der Horst; Arthur Robert Van Es; Bas Willibrord De Wit; Armand Michel Marie Lelkens; Ludovicus Marinus Gerardus Maria Tolhuizen |
| The present invention relates to a very simple and robust wireless batteryless device (100) for harvesting energy. The actuation upon button pressure/release results in a rotation of a first member (1) around its central axis (11) leading to a move of an element (3), which is loosely fixed at the first member (1) from a pivot point (14), and a rotation around the central axis (11) of the second member (2) to which a generator axis of an energy harvester is coupled, the rotation axis of the generator being coincident with the central axis (11). Upon full pressure/release, the element (3) is forced to rotate around the pivot point (14), allowing a vertically raised pin (22) of the second member (2) to disengage a recessed area (31, 32) at each end of a slot (30) of the element (3) and the second member (2) to rotate to its rest position. | ||||||
| 200 | PV STAX - MULTI-FUNCTION JUNCTION MF/J SYSTEM | US14829589 | 2015-08-18 | US20160073533A1 | 2016-03-10 | Chuck McCune |
| A system to provide a multi-function connection capability to contain and provide for stacking, mounting self-registering Multi-Function Junction (MF/J) boxes that contain a multiplicity of control electronics and can be stacked, removed, replaced, and/or upgraded with a minimal of steps or connection processes in order to simplify methods and conserve on or add value, capabilities to materials and electrical/mechanical equipment. The system can be engaged or utilized by any EMS/First Responder/Service Technician, authorized personnel in any field, Contractor, manufacturer, BOS integrator and any assembler of systems that require a multiplicity of interfacing devices to be in proximity, connection or contact to each other. | ||||||
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