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    • 1. 发明授权
      KR101207936B1 전력 가격에 반응하여 전력 사용량을 조정하는 전기 기기 및 방법 有权
    • 전력 가격에 반응하여 전력 사용량을 조정하는 전기 기기 및 방법
    • 调整电力消费的方法和装置作为对电价的响应
    • KR101207936B1
    • 2012-12-05
    • KR1020110064194
    • 2011-06-30
    • 주식회사 케이디파워서울대학교산학협력단
    • 박기주이동준윤용태진영규최태섭박건우
    • H02J13/00G06Q50/06
    • PURPOSE: An electric device and method for controlling power consumption corresponding to electric power costs are provided to control power consumption by using an intelligent electric device. CONSTITUTION: A power consumption parameter generator(110) generates a power usage parameter message transmitted from electric device properties information and power usage schedule information to a power consumption controller(150). A power usage schedule generator(130) generates a new power usage schedule by changing an existing power usage schedule according to electric power costs. An electric device properties information generator(120) changes the electric device properties information according to the new power usage schedule. A transceiver(140) transmits the power usage parameter message to the power consumption controller. The receiver receives the electric power costs from the power consumption controller. [Reference numerals] (111) Message generator; (112) Power usage schedule database; (113) Electric device properties database; (120) Electric device properties information generator; (130) Power usage schedule generator; (140) Transceiver; (150) Power consumption controller; (AA) Electric power costs
    • 目的:提供一种用于控制与电力成本相对应的功耗的电气装置和方法,以通过使用智能电气装置来控制功率消耗。 构成:功耗参数发生器(110)生成从电气设备属性信息和电力使用进度信息发送到功耗控制器(150)的电力使用参数消息。 电力使用计划生成器(130)通过根据电力成本改变现有的电力使用进度来生成新的电力使用计划。 电气设备属性信息发生器(120)根据新的电力使用进度来改变电气设备属性信息。 收发器(140)将功率使用参数消息发送到功率消耗控制器。 接收机从功耗控制器接收电力成本。 (附图标记)(111)消息发生器; (112)电力使用计划数据库; (113)电气设备属性数据库; (120)电气设备属性信息发生器; (130)电力使用计划生成器; (140)收发器 (150)功耗控制器; (AA)电力成本
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 3. 发明授权
      KR101209024B1 전력 가격을 이용한 전력 사용량 제어 장치 및 방법 有权
    • 전력 가격을 이용한 전력 사용량 제어 장치 및 방법
    • 使用电价控制电力消耗量的方法和装置
    • KR101209024B1
    • 2012-12-06
    • KR1020110064195
    • 2011-06-30
    • 주식회사 케이디파워서울대학교산학협력단
    • 박기주이동준윤용태진영규최태섭박건우
    • H02J13/00G06Q50/06
    • PURPOSE: An apparatus and method for controlling power quantity using power rates are provided to improve the stability of a power network by generating a power rate to reach a power target based on the feature of an electric device. CONSTITUTION: A power quantity parameter generating unit(120) extracts and stores the feature information and power quantity schedule information of an electric device(110) and includes a message analysis module(121), an electric device feature database(123), and a power quantity schedule database(122). A power target setting unit(130) sets a power target of each electric device. A power rate generating unit(140) generates a power rate to reach a power target. A transceiver(150) transmits the power rate to each electric device. [Reference numerals] (110) Electric device 1-N; (121) Message analysis module; (122) Power quantity schedule database; (123) Electric device feature database; (130) Power quantity target setting unit; (140) Power rate generating unit; (150) Transceiver; (AA) Power rate
    • 目的:提供一种使用功率速率控制功率量的装置和方法,以通过基于电气设备的特征产生达到功率目标的功率来提高电网的稳定性。 构成:功率量参数生成单元(120)提取并存储电气设备(110)的特征信息和电力计划信息,并且包括消息分析模块(121),电气设备特征数据库(123)和 电力计划数据库(122)。 功率目标设定单元(130)设定各电气设备的功率目标。 功率发生单元(140)产生达到功率目标的功率。 收发器(150)将功率速率传输到每个电气设备。 (附图标记)(110)电气设备1-N; (121)消息分析模块; (122)电量计划数据库; (123)电器特征数据库; (130)电力目标设定单位; (140)功率发生单元; (150)收发器; (AA)功率
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 4. 发明授权
      KR101151677B1 수배전반 시스템의 품질지수를 예측하는 장치 및 방법 有权
    • 수배전반 시스템의 품질지수를 예측하는 장치 및 방법
    • 功率分配面板系统故障与分级状态预测方法与装置
    • KR101151677B1
    • 2012-08-07
    • KR1020100139657
    • 2010-12-30
    • 주식회사 케이디파워서울대학교산학협력단
    • 박기주이동준윤용태진영규최태섭
    • H02J3/00G06Q50/00H02J13/00
    • PURPOSE: An apparatus and method for estimating a quality index of a distribution system are provided to construct an optimum artificial neural network model by directly using data measured in the distribution system to improve the accuracy of an artificial neural network model. CONSTITUTION: A distribution system(110) provides electricity to a building. A measurement data input unit(130) provides the measurement data of the distribution system to the input of an artificial neural circuit network. A measurement data memory(140) stores the measurement data of a prior timing to calculate differential data. A differential data generating unit(150) subtracts the measurement data of the prior timing from the measurement data of a current timing and provides a subtracted result to the input of the artificial neural network. An estimation data generating unit(160) calculates an estimation value of an environmental element of the distribution system and provides the estimation value to the input of the artificial neural network.
    • 目的:提出一种用于估计分布系统质量指标的装置和方法,通过直接使用分布系统中测量的数据构建最佳人工神经网络模型,提高人工神经网络模型的准确性。 规定:配电系统(110)为建筑物提供电力。 测量数据输入单元(130)将分配系统的测量数据提供给人造神经电路网络的输入。 测量数据存储器(140)存储用于计算差分数据的先前定时的测量数据。 差分数据生成单元(150)从当前定时的测量数据中减去先前定时的测量数据,并将减法结果提供给人造神经网络的输入。 估计数据生成单元(160)计算分配系统的环境要素的估计值,并将估计值提供给人造神经网络的输入。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 8. 发明授权
      KR101350878B1 부유식 수력발전장치 有权
    • 부유식 수력발전장치
    • FLOAT型液压发电机
    • KR101350878B1
    • 2014-01-16
    • KR1020120098102
    • 2012-09-05
    • 주식회사 케이디파워박기주
    • 박기주구윤서이동준박현수
    • F03B17/06F03B17/02F03B7/00
    • Y02E10/223Y02E10/28F03B17/062F03B7/00F03B11/08F03B15/14F03B17/02F05B2220/32Y02E10/20
    • The present invention relates to a float type waterpower generation apparatus which is able to produce electricity stably and efficiently by supplying a fixed flow quantity to a water wheel and evenly generating the rotary power of the water wheel. The float type waterpower generation apparatus includes: a first main body which includes a first front part, a first connection part which is positioned in the rear side from the first front part, and a first rear part which is positioned in the rear side from the first connection part; a second main body which includes a second front part which is positioned to be separated at a fixed interval to face the first front part and has a water flow inlet part with a second front part, a second connection part which is positioned in the rear side from the second front part and is connected to the first connection part to be able to rotate, and a second rear part which is positioned in the rear side from the second connection part; a buoyancy member which is included in the first main body and the second main body and floats the first main body and the second main body on the water surface by buoyancy; a base part which connects the lower part of the first main body and the lower part of the second main body; at least one water flow discharge part which is installed in a connection part between the first connection part and the second connection part and discharges water flowing in the water flow inlet part; a water wheel which is installed in the rear side of the connection part and the rear side of the second connection part and has multiple blades which rotate by the water flow; a power generation part which generates electricity by the rotary power of the water wheel; and a water flow control part which changes the interval of the water flow inlet part between the first front part and the second front part depending on the level of the water flow.
    • 本发明涉及一种能够通过向水轮提供固定流量并均匀地产生水轮的旋转动力而稳定有效地产生电力的浮子式水力发电装置。 浮子式水力发电装置包括:第一主体,包括第一前部,位于第一前部的后侧的第一连接部和位于后侧的第一后部, 第一连接部分; 第二主体,其包括第二前部,其被定位成以固定的间隔与第一前部相对分离,并且具有带有第二前部的水流入口部,位于后侧的第二连接部 从第二前部连接并连接到能够旋转的第一连接部,以及与第二连接部位于后侧的第二后部; 包括在第一主体和第二主体中的浮力构件,并且通过浮力将第一主体和第二主体浮在水面上; 基部,其连接第一主体的下部和第二主体的下部; 至少一个水流排放部分,其安装在所述第一连接部分和所述第二连接部分之间的连接部分中,并且排放在所述水流入口部分中流动的水; 安装在连接部的后侧和第二连接部的后侧的水轮,具有由水流旋转的多个叶片; 通过水轮的旋转动力发电的发电部; 以及水流控制部,其根据水流的水平改变第一前部和第二前部之间的水流入口部的间隔。
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
    • 9. 发明授权
      KR101303840B1 아크 플래시 감지 및 차단을 위한 아크플래시 에너지 산출 방법 有权
    • 아크 플래시 감지 및 차단을 위한 아크플래시 에너지 산출 방법
    • ARC闪电检测和切割的闪电能量计算方法
    • KR101303840B1
    • 2013-09-04
    • KR1020130080648
    • 2013-07-10
    • 주식회사 케이디파워
    • 박기주이동준박건우
    • G01R31/12G01R31/02H02H3/00
    • PURPOSE: A method for calculating arc flash energy for sensing and blocking arc flash is provided to easily and accurately calculate arc flash energy variable according to a variable and then warn and prevent disasters according to arc flash energy and arch energy distance, thereby safely protecting an electric element and a user from arc flash. CONSTITUTION: A method for calculating arc flash energy for sensing and blocking arc flash comprises the following steps. A set value including at least one among a panel type, a grounding, a three-phase short circuit current, a working distance, a conductor gap, a system voltage, and an equipment type is input in a computing unit in order to sense arc flash (S30). The computing unit calculates arc fault current by using the set value (S40). A protective relay or a circuit breaker that are connected to a conductor or a power element calculates the time required for operating to remove the arching (S50). The computing unit calculates arc accident energy by using the fault current and the set value (S60). The computing unit calculates the protection range by using the set value, the fault current, and the arc accident energy (S70). The set value, which includes at least one among a panel type, a grounding, a three-phase short circuit current, a working distance, a conductor gap, a system voltage, and an equipment type of the power circuit including the conductor or the power element, is input in the computing unit. The calculating the protection range further includes the following steps: calculating arc accident energy for each distance by using the set value, the fault current, and the arc accident energy by the computing unit; and calculating the protection boundary distance by the set value, the fault current, the arc accident energy, and the arc accident energy for each distance. In a case where the system voltage is above 15 KV and below 15 KV, the arc accident energy or the protection range is calculated by using different calculating expressions. [Reference numerals] (AA) Start; (BB) End; (S10) Document survey; (S20) Determine an operation mode of a power system; (S30) Setting input; (S40) Calculate arc fault current; (S50) Calculate arc duration time; (S60) Calculate arc accident energy; (S70) Calculate a protection range
    • 目的:提供一种用于计算用于感测和阻挡电弧闪光的电弧闪光能量的方法,以根据变量轻松准确地计算电弧闪光能量变量,然后根据电弧闪光能量和拱能量距离警告和防止灾害,从而安全地保护 电气元件和电弧闪光灯的用户。 构成:用于计算用于感测和阻挡电弧闪光的电弧闪光能量的方法包括以下步骤。 在计算单元中输入包括面板类型,接地,三相短路电流,工作距离,导体间隙,系统电压和设备类型中的至少一个的设定值,以便感测电弧 闪光(S30)。 计算单元通过使用设定值来计算电弧故障电流(S40)。 连接到导体或功率元件的保护继电器或断路器计算操作去除拱形所需的时间(S50)。 计算单元通过使用故障电流和设定值来计算电弧事故能量(S60)。 计算单元通过使用设定值,故障电流和电弧事故能量来计算保护范围(S70)。 该设定值包括面板类型,接地,三相短路电流,工作距离,导体间隙,系统电压以及包括导体或电源的电源电路的设备类型中的至少一个 功率元件,被输入到计算单元中。 计算保护范围进一步包括以下步骤:通过计算单位使用设定值,故障电流和电弧事故能量,计算每个距离的电弧事故能量; 并根据设定值,故障电流,电弧事故能量和每个距离的电弧事故能量计算保护边界距离。 在系统电压高于15KV且小于15KV的情况下,通过使用不同的计算式来计算电弧事故能量或保护范围。 (附图标记)(AA)开始; (BB)结束; (S10)文件调查; (S20)确定电力系统的运行模式; (S30)设定输入; (S40)计算电弧故障电流; (S50)计算电弧持续时间; (S60)计算电弧事故能量; (S70)计算保护范围
    • 基本信息 添加关注 加入工作空间 PDF全文 PDF下载 全文下载 相似专利 双屏查看 权利要求书 说明书全文 Espacenet 法律信息 同族专利 专利引用
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