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公开(公告)号:KR101724728B1
公开(公告)日:2017-04-10
申请号:KR1020110066995
申请日:2011-07-06
CPC classification number: Y02T10/7005 , Y02T10/7044 , Y02T90/168 , Y04S30/12
Abstract: 본발명은배터리온도제어를통합한전기자동차의난방시스템제어방법에관한것으로서, 특히본 발명에서는차량의난방시스템과배터리온도제어시스템의통합제어를구현함으로써, 전기자동차가최적의배터리충/방전효율을유지할수 있도록차량실내온도와배터리셀 온도를통합적으로제어할수 있는배터리온도제어를통합한전기자동차의난방시스템제어방법을제공하고자한다. 이를위해본 발명에서는 (a) 외부충전장치에의해차량배터리가충전되는동안사용자가단말기를조작하여차량에원격난방작동을요청하는단계와; (b) 차량의무선통신단말기가원격난방작동요청을수신하여제어부에전달하면제어부가배터리 SOC를체크하는단계와; (c) 배터리 SOC가기준 SOC 값이상이되는조건을만족하면실내난방부하를계산하고계산된실내난방부하로부터목표실내온도를결정하는단계와; (d) 이어실내온도가목표실내온도에도달및 유지되도록난방시스템을작동및 제어하는단계와; (e) 상기난방시스템의작동동안배터리온도관리시스템의작동을제어하여배터리온도를관리하는단계;를포함하는배터리온도제어를통합한전기자동차의난방시스템제어방법이개시된다. 그러므로, 본발명에따른배터리온도제어를통합한전기자동차의난방시스템제어방법에서는전기자동차의배터리충전효율및 운전초기방전효율을극대화시키는한편, 운전초기에난방시스템의전기부하를줄임으로써, 배터리의에너지축적밀도의한계를극복하면서배터리성능과는별개로전기자동차의항속거리를증대시킬수 있게된다.
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公开(公告)号:KR1020130063786A
公开(公告)日:2013-06-17
申请号:KR1020110130338
申请日:2011-12-07
CPC classification number: B60H1/3205 , B60H1/3208 , B60H2001/3266 , B60H2001/327
Abstract: PURPOSE: An air conditioning control device and a control method thereof are provided to prevent the unnecessary operation of a compressor when a vehicle is accelerated. CONSTITUTION: An air conditioning control device comprises an air conditioner(40), a sensor unit(10), and a control unit(20). The air conditioner includes a condenser, an evaporator(43), a compressor, a heater core(45), a temperature control door(47), and a blower(44). The heater core controls the temperature of air flowing into an indoor space of a vehicle. The sensor unit includes a sensor for counting the number of the rotation of an engine and a throttle position sensor for measuring the opened extent of a throttle. The control unit controls the operation of the air conditioner. When an acceleration condition of the vehicle is occurred, the control unit controls the operation of the compressor by controlling a flow of the air flowing inside the air conditioner. [Reference numerals] (10) Sensor unit; (11) Evaporator temperature sensor; (13) Heater core temperature sensor; (15) Discharge temperature sensor; (16) Cooling water temperature sensor; (17) Engine RPM sensor; (19) Throttle position sensor; (20) Controller; (30) Actuator; (40) Air conditioner; (41) Condenser; (42) Compressor; (43) Evaporator; (44) Blower; (45) Heater core; (46) Cooling water line; (47) Temperature control door; (48) Inside/outside air door; (49) Discharge door
Abstract translation: 目的:提供一种空调控制装置及其控制方法,以防止当车辆加速时压缩机的不必要的操作。 构成:空调控制装置包括空调(40),传感器单元(10)和控制单元(20)。 空调包括冷凝器,蒸发器(43),压缩机,加热器芯(45),温度控制门(47)和鼓风机(44)。 加热器芯控制流入车辆室内空气的温度。 传感器单元包括用于计算发动机的旋转次数的传感器和用于测量节气门的打开程度的节气门位置传感器。 控制单元控制空调的操作。 当发生车辆的加速状态时,控制单元通过控制在空调机内流动的空气的流动来控制压缩机的运转。 (附图标记)(10)传感器单元; (11)蒸发器温度传感器; (13)加热芯温度传感器; (15)放电温度传感器; (16)冷却水温度传感器; (17)发动机RPM传感器; (19)节气门位置传感器; (20)控制器; (30)执行器; (40)空调; (41)冷凝器; (42)压缩机; (43)蒸发器; (44)鼓风机; (45)加热芯; (46)冷却水管线; (47)温控门; (48)室内/室外空气门; (49)放电门
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公开(公告)号:KR1020130005537A
公开(公告)日:2013-01-16
申请号:KR1020110066995
申请日:2011-07-06
CPC classification number: Y02T10/7005 , Y02T10/7044 , Y02T90/168 , Y04S30/12 , B60H1/00278 , B60H1/00385 , B60H1/00392 , B60H1/00657 , B60H1/00735 , B60H1/00807 , B60H1/00878 , B60H1/143 , B60K11/00 , B60L11/18 , B60L11/187 , B60R11/02 , B60R16/00
Abstract: PURPOSE: A method for controlling the heating system of an electric vehicle is provided to increase a range with overcoming the limit of energy storage density in a battery. CONSTITUTION: A method for controlling the heating system of an electric vehicle comprises following steps. Users operate a terminal to require the operation of remote heating while a vehicle battery is charged. A radio communication terminal receives a signal for operating the remote heating and delivers the signal to a control unit. The control unit checks the state of charge in the battery. If the state of charge in the battery satisfies an existing SOC(state of charge) value, the indoor heating load is calculated. Target indoor temperature is determined based on the indoor heating load. A heating system is operated and controlled to reach the target indoor temperature. The temperature of the battery is managed by controlling a battery temperature management system. A standard SOC value is determined from map data on the basis of the amount of solar radiation information and outdoor temperature. [Reference numerals] (AA) Remote heating operation mode; (BB) Start; (CC) Satisfying SOC conditions?; (DD) Air-conditioner ON; (EE) Calculating an indoor heating load; (FF) Determining a target temperature; (GG) Operating a heating system; (HH) Operating a battery blower and a rear exhaust fan; (II) Operating time >= Maximum operating time; (JJ) Air-conditioning OFF; (KK) Reserved heating operation mode; (LL) Start; (MM) Reserving an operation timing(sTime)?; (NN) Current time=(sTime-1hr)?; (OO) Air-conditioner ON; (PP) Calculating an air-conditioning timing(considering SOC conditions); (QQ) Reaching the air-conditioning timing?; (RR) Satisfying the SOC conditions?; (SS) End
Abstract translation: 目的:提供一种用于控制电动车辆的加热系统的方法,以克服电池中的能量存储密度的极限来增加范围。 构成:一种用于控制电动车辆的加热系统的方法,包括以下步骤。 用户操作终端时,要求在车载电池充电时进行远程加热。 无线电通信终端接收用于操作远程加热的信号并将信号传送到控制单元。 控制单元检查电池中的充电状态。 如果电池中的充电状态满足现有的SOC(充电状态)值,则计算室内供暖负荷。 目标室内温度根据室内供暖负荷确定。 加热系统运行和控制达到目标室内温度。 通过控制电池温度管理系统来管理电池的温度。 基于太阳辐射信息量和室外温度的地图数据来确定标准SOC值。 (附图标记)(AA)远程加热运行模式; (BB)开始; (CC)满足SOC条件? (DD)空调ON; (EE)计算室内供暖负荷; (FF)确定目标温度; (GG)操作加热系统; (HH)操作电池鼓风机和后排风扇; (II)工作时间> =最大工作时间; (JJ)空调OFF; (KK)保温加热运行模式; (LL)开始; (MM)保留操作时间(sTime)? (NN)当前时间=(sTime-1hr)? (OO)空调ON; (PP)计算空调时间(考虑SOC条件); (QQ)达到空调时机? (RR)满足SOC条件? (SS)结束
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公开(公告)号:KR101786339B1
公开(公告)日:2017-10-19
申请号:KR1020160054001
申请日:2016-05-02
Applicant: 현대자동차주식회사 , 기아자동차주식회사 , 현대모비스 주식회사
IPC: B60Q1/076
Abstract: 본발명은차량용헤드램프모듈에관한것으로, DC모터(4)를사용하는저가의보급형헤드램프의구조에서로우빔모드의빔패턴을구현하고있는쉴드(1)가하이빔모드의빔패턴또는 ADB 모드의빔패턴의구현을위해회전할때에충격량을크게줄일수 있게됨으로써충격소음을크게줄일수 있게되고, 또한하이빔모드또는 ADB 모드상태에서로우빔모드의구현을위해쉴드(1)가초기상태로복귀할때에쉴드(1)의떨림현상을최대한줄일수 있도록된 것이다.
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公开(公告)号:KR101326842B1
公开(公告)日:2013-11-11
申请号:KR1020110130338
申请日:2011-12-07
CPC classification number: B60H1/3205 , B60H1/3208 , B60H2001/3266 , B60H2001/327
Abstract: 본 발명은 압축기 제어 장치 및 제어 방법을 개시한다. 본 발명의 실시예에 따른 차량의 실내의 온도를 조절하는 공조 장치의 압축기를 제어하는 장치에 있어서, 냉각 매체를 응축하여 액화시키는 응축기, 액화된 냉각 매체를 기화시키는 증발기, 냉각 매체를 압축시키는 압축기, 차량 실내로 유입되는 공기의 온도를 조절하는 히터코어, 상기 증발기와 상기 히터코어 사이에 제공되어 상기 증발기를 통과한 공기에 대한 상기 히터 코어의 흐름을 제어하는 온도 조절 도어, 그리고 상기 차량의 실내 또는 실외로부터 유입된 공기를 상기 증발기로 불어주는 송풍기를 포함하는 공조 장치와, 엔진의 회전수를 측정하는 엔진 회전수 센서, 그리고 스로틀 개도를 측정하는 스로틀 위치 센서를 포함하는 센서부 및 상기 공조 장치의 작동을 제어하는 제어기를 포함하되, 상기 제어기는 차량의 가속 조건이 발생하면, � ��기 공조 장치 내에 흐르는 공기의 풍량을 조절하여 압축기 작동량을 조절한다.
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Patent Agency Ranking
公开(公告)号:KR100410996B1
公开(公告)日:2004-03-26
申请号:KR1019970055691
申请日:1997-10-28
Applicant: 기아자동차주식회사
Inventor: 김상훈
IPC: B60K37/00
Abstract: PURPOSE: A video display unit on a front portion of a vehicle is provided to operate devices with eyes fixed ahead during traveling by inputting a signal with an image on the device on a glass installed to the front portion of a driving seat. CONSTITUTION: A temperature sensor is installed to a side of a driver's seat to sense pushes of an operating switch unit(50). An electronic control unit(60) is operated by an output signal of the operating switch unit. A light output unit(20) reflecting light to a light emitting diode of an instrument unit(30) is installed to display a subject image(40) to a front portion of a vehicle. Sensors(10) of infrared ray output signals after finding out a position of a finger. The electronic control unit senses a selecting position of the subject image on the front portion of the vehicle by using the signal of the sensor of the infrared ray. A performing unit(70) displays to confirm performance along the output signal of the electronic control unit.
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