| 序号 | 专利名 | 申请号 | 申请日 | 公开(公告)号 | 公开(公告)日 | 发明人 |
|---|---|---|---|---|---|---|
| 141 | 基于身份识别技术的个体发电系统 | CN201520685698.5 | 2015-09-07 | CN204904426U | 2015-12-23 | 汪震坤 |
| 本实用新型公开了基于身份识别技术的个体发电系统,包括多功能发电椅、电力传输设备、身份识别设备、小型发电机,所述多功能发电椅并列设置有发电跑步机,后端连接到所述电力传输设备和数据传输设备,所述电力传输设备和所述数据传输设备最终连接到国家电网公司,所述国家电网公司下级是电力用户和银行,所述银行的下级是个人银行卡,所述多功能发电椅下方设置有所述小型发电机,所述多功能发电椅侧面设计所述身份识别设备。有益效果在于:将人的生物能最终转化为电能,绝对的环境友好型;对个人而言,锻炼身体的同时可以制造财富,而且适用于各个年龄段;身份识别设备的设计可以实现系统的自动统计、自动处理、自动结账,完全智能化。 | ||||||
| 142 | 에너지 저장 시스템 통합 관리형 EMS 어그리게이터 시스템 | KR1020160138887 | 2016-10-25 | KR101776168B1 | 2017-09-07 | 이인응 |
| 본발명은분산된다양한소규모 ESS를중앙에서제어할수 있는시스템을구축하고, 국가에너지서비스산업(DR, FR, 전력망안정화등)에능동적으로참여할수 있는시스템간 상호운영성을제공함으로서 ESS의확산(경제성확보)에기여하고국가전력망운영의안정화(1초이내의응답속도)를지원하는것을목적으로하며, 통신망으로연결된 KPX 에뮬레이터, 액티브어그리게이터, ESS가구비된복수개의에너지유닛을포함하되, 상기액티브어그리게이터는 ESS 용도별 PMS 알고리즘및 제어규칙과, 스케쥴링, FR 반응(GF: 로컬동작, AGC: EMS 지령동작), 부하예측, 수요예측, 환경데이터연동, ESS의전력서비스사업참여용량산정, 경제성분석알고리즘을포함하는 EMS를구비하여, 분산된 ESS를통합제어하는것을특징으로하는에너지저장시스템통합관리형 EMS 어그리게이터시스템을개시한다. | ||||||
| 143 | 차량 위치 기반의 전력조류 해석 장치 및 방법 | KR1020140134608 | 2014-10-06 | KR1020160041182A | 2016-04-18 | 김형철; 신승권; 김진호; 정호성 |
| 본발명은차량의위치를측정하는차량위치측정부및 차량의위치와차량으로전력을공급하는변전소의위치를바탕으로차량과변전소간의거리를계산하고, 변전소와차량간의거리에따라선로의정전용량을선택적으로적용하여급전시스템을서로다른선로등가모델로모델링하는전력조류해석모듈을포함하는것을특징으로한다. | ||||||
| 144 | 복수의 로컬 전력 네트워크들에 대한 전력 공급의 집중화된 관리 | KR1020137024178 | 2012-03-16 | KR1020140005282A | 2014-01-14 | 마쏘우리로렌트; 케샤브스리니바산; 헤지니드히; 살로니디스더도로스 |
| 본 발명은 n≥2이고 1≤i≤n인 수 n의 로컬 에너지 네트워크들(DEN
i )에 대한 에너지 공급을 관리하기 위한 시스템에 관한 것이며, 각각의 로컬 에너지 네트워크(DEN
i )는 적어도 하나의 클라이언트 디바이스(DCL
DENi )를 포함한다.
상기 시스템은 각각의 네트워크(DEN i )에 연결된 스위칭 디바이스(COM DENi ), 에너지 저장 수단(PSD DENi ), 및 스위칭 디바이스들(COM DENi )을 통해 n 네트워크들(DEN i )에 에너지를 공급하기 위한 스테이션(SUB)을 포함하며, 스테이션(SUB)은 공급 시스템(PSO)으로부터 에너지를 수용하며: - 에너지 저장 수단(PSD DENi )이 상기 네트워크(DEN i )에 에너지를 공급하는 제1 모드; 또는 - 스테이션(SUB)이 상기 네트워크(DEN i ) 및 상기 에너지 저장 수단(PSD DENi )에 동시에 에너지를 공급하는 제2 모드; 를 결정하고, 이를 각각의 스위칭 디바이스(COM DENi )에 할당하도록 구성된다. |
||||||
| 145 | 에너지관리시스템의 에너지 제어 방법 | KR1020120016193 | 2012-02-17 | KR1020130094925A | 2013-08-27 | 이정인; 이일우 |
| PURPOSE: An energy control method of an energy management system is provided to implement accurate information about detailed calculation, by providing the control sequence method of equipments to a consumer. CONSTITUTION: The possibility of new renewable energy generation is judged (102). Real-time charge provided from a power company is acquired (103). The real-time charge is compared with the past real-time charge and is analyzed (104). Selective feeding state is controlled according to the analyzed real-time charge. When the real-time charge is smaller than electric charge, energy is stored in an electric vehicle charging station. [Reference numerals] (101) Measurement of an environment sensor; (102) Renewable energy is generated ?; (103) Real-time rate measurement; (104) Energy is supplied >; (105) Supply - demand > 0; (106) Reverse transmission to a power system; (107) Supply from a power system; (108) Measurement of a smart meter; (109) Transaction adjustment; (110) Operation evaluation; (111) ESS storage; (113) Electric vehicle charging station; (AA) Start; (BB) Finish | ||||||
| 146 | 그리드 집적 차량용 수집 서버 | KR1020127024278 | 2010-09-22 | KR1020130006453A | 2013-01-16 | 캠프턴윌릿 |
| 전기 그리드와 전기 차량 사이의 전력 플로우를 수집하는 방법, 시스템 및 장치가 공개된다. 전력 플로우를 수집하는 장치는 메모리, 및 메모리에 연결되어 복수의 전기 차량 장치(EVE)로부터 EVE 속성을 수신하고 EVE 속성에 기초하여 전체 이용 가능 용량을 예측하고 전체 이용가능 용량의 적어도 일부를 그리드에 급송하는 프로세서를 포함한다. 전력 플로우는 각 EVE로부터 EVE 조작 파라미터를 수신하고, 수신된 EVE 조작 파라미터를 수집하고, 수집된 EVE 조작 파라미터에 기초하여 전체 이용가능 용량을 예측하고, 전체 이용가능 용량의 적어도 일부를 그리드에 급송함으로써 수집될 수 있다.
|
||||||
| 147 | 전기 발전 자판기 | KR1020110036596 | 2011-04-20 | KR1020120118941A | 2012-10-30 | 박민철 |
| PURPOSE: An electric-generating vending machine is provided to compensate for the value of momentum and workforce as much as electricity generated by exercise. CONSTITUTION: An operating protrusion(43) goes up by the elasticity of a restoring spring(35). A latch gear(31) becomes free from a catcher(32) by the operation of a catcher magnet(33). A large chain gear(61) is rotated in an opposite direction by the loosing power of a complex flat spring(52). A release protrusion(55) is pressed to a screw groove(44) by the operation of a clutch release magnet(54). A moving clutch(56) is released by moving a screw(40). A generating clutch(75) is operated. The large chain gear rotates a small chain gear(62) at a high speed. A generator(80) generates electricity by the rotation of a first and a second transmission shafts(77,78). | ||||||
| 148 | 태양광 발전시스템 | KR1020100136478 | 2010-12-28 | KR1020120074595A | 2012-07-06 | 김응호; 이광수 |
| PURPOSE: A solar cell generating system is provided to easily transfer information in regard to a solar cell inverter to a user and to save an electric charge by operating the solar cell inverter with a smart grid method. CONSTITUTION: A smart meter(300) interactively communicates with a demand unit consuming electric power. A PV(Photovoltaic) inverter(30) changes DC electrical energy created in a PV module into AC electrical energy. A wire or wireless communications module transmits information in regard to the PV inverter. A control device(100) controls an active mode of the PV inverter. A terminal(200) is connected with the control device through a wireless communications network. The terminal provides the information in regard to the PV inverter to a user. | ||||||
| 149 | 전력 저장을 위한 장치 및 제어 방법 | KR1020090123389 | 2009-12-11 | KR101097259B1 | 2011-12-21 | 문정섭 |
| Provided are a power storage apparatus and a method of controlling the power storage apparatus. The power storage apparatus stores power supplied from a power generation system or a power grid. The power storage apparatus supplies stored power to a load during an electric failure, and supplies stored power to the power grid. The power storage apparatus includes at least one battery cell, a battery management unit coupled to the battery cell, a bi-directional converter coupled to the battery management unit, a bi-directional inverter coupled between the bi-directional converter and the power grid, and a central controller controlling the operations of the bi-directional converter, the bi-directional inverter, and the battery management unit. An uninterruptible power supply (UPS) function may be performed to stabilize the power storage system including the power storage apparatus. | ||||||
| 150 | 전기자동차 충방전 시스템, 충방전 장치, 충방전 방법 | KR1020100045123 | 2010-05-13 | KR1020110125542A | 2011-11-21 | 오정환; 박재성; 손동민 |
| PURPOSE: An electric vehicle charge and discharge system, charge and discharge apparatus, and method thereof are provided to save energy consumption costs by charging the battery of an electric vehicle when electricity costs are cheap. CONSTITUTION: A charge unit(24) charges the battery of an electric vehicle(15) when electricity costs in which are inputted through a first input unit(22) is a low price. A charge and discharge unit(25) charges the battery of the electric vehicle when electricity costs are lower than the inputted electricity cost. The charge and discharge unit discharges the battery when electricity costs in which are inputted by a second input unit(23) are higher than a standard price. | ||||||
| 151 | 저탄소녹색도시구현을 위한 자발적 탄소배출권 거래시스템 및 방안 | KR1020100006334 | 2010-01-25 | KR1020110086933A | 2011-08-02 | 김일겸; 전정훈 |
| PURPOSE: A system and method for transacting carbon discharging right are provided to calculated and authorize exact discharging amount and transact and calculated with transaction system. CONSTITUTION: A carbon discharge amount(or reducing amount) is transmitted through a real time sensing and USN. It is collected, analyzed, authorized and made as a DB through active carbon discharge right transaction system. Authentication issuing and needing amount is informed to the person. | ||||||
| 152 | 분산 전력 저장 장치의 방전을 스케줄링하고 디스패치 참여를 평준화하는 방법 및 시스템 | KR1020097025607 | 2008-05-09 | KR1020100040275A | 2010-04-19 | 하킴데이비드; 허그스티븐; 슈네켄도프에드워드; 카트라이트사라; 액셀로드자크; 지라드니콜라스; 자블리야루이스; 루이스칼알.; 골든브라이언; 반스미챌라; 코웨트알렉세이; 하얌스데이비드 |
| Disclosed is a computerized method for dispatching energy from distributed resources in a discharge event so that the energy stored in individual devices is levelized, or so that an operator request is met. Evaluation of event parameters may be deferred. The method may be utilized to dispatch energy from plug-in electric vehicles. Systems and methods to account for electricity dispatched to or from electric vehicles are disclosed. Systems and methods for incentivizing consumers to participate in a dispatch event or curtail energy use are disclosed. | ||||||
| 153 | 기회발전을 통한 분산형 전기발전 비용의 삭감 | KR1020077015431 | 2005-12-08 | KR1020070098843A | 2007-10-05 | 페레라아닐라산타마이클 |
| A new disposition of energy use and electricity cogeneration facilities at a customer's premises that enables even a small customer to choose one or more forms of primary energy from among available energy sources, so as to reduce the overall capital and operating costs of meeting own load requirements. Takes into consideration opportunities to save money by way of reducing own load and / or opportunities to earn money by exporting electricity to the mains grid whenever electricity market prices are high, and / or benefiting from payment for network support and ancillary services where such schemes apply. For operations requiring a high level of reliability, opportunity is provided to achieve a desired level of reliability for operations at the premises without recourse to extra cost of duplicate electricity supply connecting lines or expensive stand-by power generation facilities. | ||||||
| 154 | 전력 분배 시스템 | KR1020057021704 | 2004-05-13 | KR1020060022658A | 2006-03-10 | 보그너브자르네; 아빌트가아드소렌스티그; 안데르센젠스-오토라븐 |
| A local electricity distribution network (1) comprising a local transmission hub (13) and plurality of units (12a, 12b) arranged to selectively import and export electricity from and to the hub (13), the hub in turn being arranged to selectively import and export electricity from and to an external grid (20). The individual units (12a, 12b) decide if they are to export or import energy to or from the local transmission hub (13) based on information relating to the energy market received from the local hub. In the same way the local hub decides if it is to export or import energy to or from the external grid (20) based on energy market information received from the external grid. | ||||||
| 155 | 전력소비시스템, 정보 집합체 및 매체 | KR1020010044698 | 2001-07-25 | KR1020020009494A | 2002-02-01 | 나가미츠사치오; 마츠바야시시게아키; 마츠이마사루; 고다마히사시; 가와세미츠하루; 오이시노부히로 |
| PURPOSE: A power consumption system and method, an information assembly and medium are provided to make a user purchase a new energy saving-type home electronics item in order to replace an existing home electronics item the amount of power consumed is reduced and the fee paid to the power company becomes lower. CONSTITUTION: The power consumption system comprising a special price exclusive device which is set in advance so as to consume power at a special price, a power management device(4) for detecting that a user is utilizing the special price exclusive device(5) and for measuring the amount of power consumed by the special price exclusive device(5) in the case that the user has purchased and is utilizing the special price exclusive device(5), and a fee charging device for charging a fee for the measured amount of power consumed that makes an addition to the fee, wherein the entirety of, or a part of, the added fee is paid to the manufacturer that has sold the special price exclusive device(5). | ||||||
| 156 | エネルギー需要予測システム及びエネルギー需要予測方法 | JP2015211260 | 2015-10-27 | JP6408451B2 | 2018-10-17 | 内海 将人; 渡辺 徹; 池本 悠; 崎久保 羊子; 茂森 郁雄; 小川 広晃 |
| 157 | システムの制御方法およびシステム | JP2013531458 | 2012-08-29 | JP6403185B2 | 2018-10-10 | 小川 雅嗣; 田中 淳裕; 松田 雄馬; 矢野 雅文 |
| 158 | 取引管理システム、取引管理方法及びプログラム | JP2016183544 | 2016-09-20 | JP2018049399A | 2018-03-29 | 羽根田 里志; 曹 知恵子 |
| 【課題】 電力取引の利便性又は信頼性を向上させる。 【解決手段】 給電管理装置は、給電側の機器又は給電側のユーザの通信端末から、給電側を識別するための給電側識別情報を取得する給電側識別情報取得部と、受電側の機器又は受電側のユーザの通信端末から、受電側を識別するための受電側識別情報を取得する受電側識別情報取得部と、給電側の機器から供給された電力量又は受電側の機器に供給された電力量に関する給電情報を取得する給電情報取得部と、取引管理装置に対して、給電側識別情報、受電側識別情報及び給電情報を対応付けて送信する送信部とを有する。取引管理装置は、通信ネットワークを介して、送信部から取引情報を取得する取引情報取得部と、取引情報を格納する取引情報格納部とを有する。 【選択図】図1 |
||||||
| 159 | 電力管理装置、電力管理方法、プログラム | JP2013205075 | 2013-09-30 | JP6268633B2 | 2018-01-31 | 徳永 吉彦; 宮崎 靖一; 福田 尚弘; 栗山 博之; 大田 法正 |
| 160 | デマンドレスポンスシステムにおいて負荷削減を判断すること | JP2014530655 | 2012-09-14 | JP6236586B2 | 2017-11-29 | ナラヤン、アミット; ロックリン、スコット、クリストファー; アイアンガー、ガルド |
QQ群二维码
意见反馈
意见反馈