코일드 코일 단백질 및 그의 용도
    1.
    发明授权
    코일드 코일 단백질 및 그의 용도 有权
    卷曲螺旋蛋白及其用途

    公开(公告)号:KR101798747B1

    公开(公告)日:2017-11-17

    申请号:KR1020160011506

    申请日:2016-01-29

    Abstract: 본발명은코일드코일단백질및 이를이용한새로운형태의항체에관한것으로, 미니항체유도프로브의지지체로서이용될수 있는코일드코일단백질을디자인하고이를항체엔지니어링을통해제조함으로써, 항체와유사한특성을갖는새로운형태의항체단백질을제공할수 있다.

    Abstract translation: 本发明中,通过制造通过卷曲螺旋蛋白和涉及一种新类型的抗体使用相同的迷你抗体感应卷曲螺旋蛋白质的设计,以及可以使用的作为支撑探针的该抗体工程,具有类似性质的作为抗体 可以提供新型的抗体蛋白质。

    정삼투막 베셀 내 실시간 막오염 감시 장치 및 방법
    2.
    发明授权
    정삼투막 베셀 내 실시간 막오염 감시 장치 및 방법 有权
    一种在前期的OSMOSIS膜容器中的实时装配监测的组装方法

    公开(公告)号:KR101560524B1

    公开(公告)日:2015-10-15

    申请号:KR1020150031157

    申请日:2015-03-05

    CPC classification number: B01D61/00 B01D65/10 B01D61/002

    Abstract: 본발명은수처리기술분야에관한것으로, 보다상세하게는정삼투막처리장치에서의정삼투막베셀의막오염정도를실시간으로감지하기위한감시장치및 그방법을제공한다. 이를위하여, 본발명은정삼투막베셀을모사하여 FO 처리함으로써처리수와농축수로구분하는 FO 처리모사부를포함하며, 이는실제 FO 처리부의엘리먼트들을모사하는세 개의셀로이루어지고, 유입수저장부의수위에따라세 개의셀 중어느하나로유입수가유입된다.

    Abstract translation: 本发明涉及一种水处理技术,更具体地涉及一种用于在正向渗透膜处理装置中实时监测正向渗透膜容器的膜污染水平的装配和方法。 本发明包括正向渗透(FO)处理模拟单元,其通过模拟正向渗透膜容器并执行FO处理将水区分为处理水和浓缩水,其中三个单元模拟FO处理单元中的元素,并且引发水 根据储水箱的水位进入三个电池之一。

    코일드 코일 단백질 및 그의 용도
    3.
    发明公开
    코일드 코일 단백질 및 그의 용도 有权
    卷线圈蛋白及其用途

    公开(公告)号:KR1020160095625A

    公开(公告)日:2016-08-11

    申请号:KR1020160011506

    申请日:2016-01-29

    Abstract: 본발명은코일드코일단백질및 이를이용한새로운형태의항체에관한것으로, 미니항체유도프로브의지지체로서이용될수 있는코일드코일단백질을디자인하고이를항체엔지니어링을통해제조함으로써, 항체와유사한특성을갖는새로운형태의항체단백질을제공할수 있다.

    Abstract translation: 本发明涉及卷曲螺旋蛋白和使用其的新型抗体。 根据本发明,卷线圈蛋白可以被设计为用作微型抗体诱导型探针的载体,并且通过抗体工程制造。 因此,可以提供具有与抗体相似的特征的新型抗体蛋白质。

    직류 전원 장치
    6.
    发明公开
    직류 전원 장치 审中-实审
    直流电源设备

    公开(公告)号:KR1020130090253A

    公开(公告)日:2013-08-13

    申请号:KR1020120011427

    申请日:2012-02-03

    CPC classification number: G05F5/00 H02H11/002

    Abstract: PURPOSE: A DC power supply is provided to increase the stability and efficiency of an electric device having a DC power input unit and to obtain excellent reliability for the electric device. CONSTITUTION: A DC power supply includes an input part (110) receiving external DC power; a plurality of polarity correction parts correcting the polarity of the external DC power; a plurality of switch parts each of which is installed to correspond to each polarity correction part; a detection part (140) detecting the current flow of the polarity correction parts; and a control part detecting the polarity correction parts, in which the current of the DC power flows, based on the detected signal transferred from the detection part and enabling the current of the DC power to flow through the switching part by turning on the switch part corresponding to the detected polarity correction part.

    Abstract translation: 目的:提供直流电源,以提高具有直流电源输入单元的电气设备的稳定性和效率,并为电气设备获得优异的可靠性。 构成:直流电源包括接收外部直流电力的输入部分(110); 多个极性校正部,校正外部直流电力的极性; 多个开关部件,每个开关部件安装成对应于每个极性校正部件; 检测所述极性校正部的电流的检测部(140); 以及控制部,其基于从检测部传递的检测信号检测直流电流的极性校正部,并且通过接通开关部,使直流电流的电流流过切换部 对应于检测到的极性校正部分。

    직류 전원 장치
    7.
    发明授权

    公开(公告)号:KR101861728B1

    公开(公告)日:2018-05-30

    申请号:KR1020120011427

    申请日:2012-02-03

    CPC classification number: G05F5/00 H02H11/002

    Abstract: 본발명은외부의직류전원을입력받는입력부; 외부의직류전원의극성을정정하는복수의극성정정부; 복수의극성정정부와각각대응하여설치되는복수의스위치부; 복수의극성정정부의전류흐름을검출하는검출부; 검출부로부터전송된검출신호에기초하여직류전원의전류가흐르는극성정정부를판단하고, 판단된극성정정부에대응되는스위치부를온 제어하여직류전원의전류가온 제어된스위치부를통해흐르도록하는제어부를포함한다. 본발명은제1, 2 단자에연결된직류전원의극성에따라전류의경로를변경함으로써제1, 2 단자에정해진극성이아닌다른극성의직류전원이인가되어도정상극성의직류전원을부하에인가할수 있다. 이에따라직류전원을입력으로하는전기기기의안정성과효율성을높일수 있고또한전기기기의신뢰성을확보할수 있다. 또한외부의직류전원을부하에인가시 다이오드를통해직류전원을인가한후 스위치부를온 구동시켜스위치부를통해직류전원을인가함으로써다이오드의전압강하에의한손실및 다이오드의내부저항에의한손실을줄 일수 있다. 이에따라전기기기의전력손실을줄 일수 있다.

    친환경 차량의 충전장치 및 방법
    8.
    发明公开
    친환경 차량의 충전장치 및 방법 有权
    绿色汽车充电系统及其方法

    公开(公告)号:KR1020130065408A

    公开(公告)日:2013-06-19

    申请号:KR1020110132254

    申请日:2011-12-09

    Abstract: PURPOSE: A charging apparatus for environmentally-friendly vehicles, and a charging method thereof are provided to charge a battery with regular electricity supplied through a plug-in using an internal power net without installing an extra charger. CONSTITUTION: A charging method comprises the following steps: a charging controller(200) judges whether an access of a charging plug is detected in a standby mode(S101)(S102); entering a charging mode(S104) when an access of a charging plug is detected; detecting an input voltage(Vin) of a regular electricity(300) and a battery(106) voltage(Vbatt)(S104); determining whether the input voltage exceeds the battery voltage(S105); if the input voltage exceeds the battery voltage, providing only a bypass function to the input voltage by controlling a first inverter(103) and a second inverter(104) into an off mode(S106); making the inputted input voltage to a preset voltage(S107) and providing to the battery(106) as a charging voltage(S113); in the step of S105, if the input voltage does not exceed the battery voltage, determining whether the phase of the input voltage has a positive value(S108); if the input voltage has a positive value, converting the input voltage to DC voltage by switching the first inverter, and executing a boost function(S109,S111); in the step of S108, the input voltage does not have a positive value, converting the input voltage to DC voltage by switching the second inverter, and executing the boost function(S110,S111); controlling an electricity switching element(S1) to be always on(S112); and charging the battery by supplying the boosted voltage to the battery(S113). [Reference numerals] (AA) Start; (BB,DD,FF,HH) No; (CC,EE,GG,II) Yes; (JJ) End; (S101) Standby mode; (S102) Charging plug connected?; (S103) Charging mode; (S104) Pressure voltage/ battery voltage; (S106) First and second inverter off; (S107) Voltage converter switching control; (S109) First inverter control; (S110) Second inverter control; (S111) Boost function; (S112) Electricity switching element to be on; (S113) Battery charging; (S114) Charging completed?; (S115) Charging completed

    Abstract translation: 目的:提供一种环保车辆的充电装置及其充电方法,其中,在不安装额外充电器的情况下,使用内部电力网对通过插电供应的常规电力进行充电。 充电方法包括以下步骤:充电控制器(200)判断在待机模式下是否检测到充电插头的存取(S101)(S102); 当检测到充电插头的存取时,进入充电模式(S104) 检测常规电力(300)和电池(106)电压(Vbatt)的输入电压(Vin)(S104); 确定输入电压是否超过电池电压(S105); 如果输入电压超过电池电压,则通过将第一逆变器(103)和第二逆变器(104)控制为关闭模式(S106),仅向输入电压提供旁路功能; 使输入的输入电压为预设电压(S107),并将其提供给电池(106)作为充电电压(S113); 在S105的步骤中,如果输入电压不超过电池电压,则判断输入电压的相位是否为正值(S108)。 如果输入电压为正值,则通过切换第一反相器将输入电压转换为直流电压,并执行升压功能(S109,S111); 在S108的步骤中,输入电压不具有正值,通过切换第二反相器将输入电压转换成直流电压,并执行升压功能(S110,S111)。 控制电开关元件(S1)始终导通(S112); 并通过向电池供给升压电压来对电池进行充电(S113)。 (附图标记)(AA)开始; (BB,DD,FF,HH)否; (CC,EE,GG,II)是的; (JJ)结束; (S101)待机模式; (S102)充电插头连接? (S103)充电模式; (S104)压力电压/电池电压; (S106)第一和第二逆变器关闭; (S107)电压转换器切换控制; (S109)第一变频器控制; (S110)第二变频器控制; (S111)升压功能; (S112)电开关元件接通; (S113)电池充电; (S114)充电完成? (S115)充电完成

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