公开(公告)号：KR101305614B1

公开(公告)日：2013-09-09

申请号：KR1020110079638

申请日：2011-08-10

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 이학성 ,  정상현 ,  송상록 ,  이재신 ,  공승기

IPC: B60W20/00 ,  B60W10/30

Abstract: 본 발명은 하이브리드 차량의 전동식오일펌프를 제어하는 오일펌프제어기 내부에 잔류하는 전기에너지를 차량의 시동키 오프시에 적절히 소진시킬 수 있도록 함으로써, 오일펌프제어기의 커넥터 분리나 결합 작업시에 발생할 수 있는 작업자의 감전 염려를 배제할 수 있도록 하여, 전기적 안전사고의 발생을 방지하도록 한다.

公开(公告)号：KR1020130068944A

公开(公告)日：2013-06-26

申请号：KR1020110136418

申请日：2011-12-16

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 안철민 ,  공승기

IPC: B60W20/00 ,  B60W10/24

Abstract: PURPOSE: A forced charging system of an electric vehicle and a method thereof are provided to lengthen the driving period of an electric vehicle and be helpful for fuel efficiency by checking the filling rate of the battery equipped in the electric vehicle to forcibly conduct IDLE charge in case when the filling rate of the battery is lower than that of the pre-set filling rate and the electric vehicle is in a stationary state at not only P/N shift but also D shift so that the charged capacity of the main battery is increased. CONSTITUTION: A forced charging system of an electric vehicle comprises an engine(200), HSG(210), a main motor(240), a battery(260), and a controller(250). The HSG connected to the engine performs function of a start motor and a generator. The main motor is connected by the engine and an engine clutch. The main motor is connected to the main motor, supplies driving current to the main motor, and is charged by regenerative current generated when the main motor is stopped. The controller charges battery using HSG and the main motor after requesting N shift to hybrid control unit(HCU) on the engine clutch when the battery is in low SOC domain. Transaxle control unit(TCU) is requested to transform into D shift after cancelling N shift request to hybrid control unit(HCU) and turning off the engine clutch when the excel is turned on or the brake is off during the charging. [Reference numerals] (200) Engine; (230) Transmission(A/T); (240) Main motor; (250) Controller; (260) Battery

Abstract translation: 目的：提供电动汽车的强制充电系统及其方法，以延长电动汽车的行驶时间，并通过检查装在电动车辆中的电池的充电率来有效地提高燃油效率，强制进行空运费 当电池的填充率低于预设填充率的情况下，并且电动车辆不仅在P / N偏移处于静止状态，而且还进行D偏移，使得主电池的充电容量增加 。 构成：电动车辆的强制充电系统包括发动机（200），HSG（210），主电动机（240），电池（260）和控制器（250）。 连接到发动机的HSG执行起动电动机和发电机的功能。 主电机由发动机和发动机离合器连接。 主电机与主电机连接，向主电机提供驱动电流，并在主电机停止时产生的再生电流充电。 当电池处于低SOC域时，控制器请求N转移到发动机离合器上的混合控制单元（HCU）后，使用HSG和主电机对电池充电。 要求变速器控制单元（TCU）在取消N档位要求之后变换为D档位，混合动力控制单元（HCU），并且在打开或者在充电期间制动器关闭时关闭发动机离合器。 （附图标记）（200）发动机; （230）传输（A / T）; （240）主电机; （250）控制器; （260）电池

公开(公告)号：KR1020130061899A

公开(公告)日：2013-06-12

申请号：KR1020110128209

申请日：2011-12-02

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 심동수 ,  최병훈 ,  공승기 ,  이재신

IPC: B60W20/50 ,  F01P11/16 ,  F01P11/14 ,  B60W50/14

CPC classification number: B60K28/10 ,  B60K2350/962 ,  F01P11/14 ,  F01P11/16 ,  F01P2031/20

Abstract: PURPOSE: A cooling water shortage detecting and warning device for a hybrid vehicle and a method thereof are provided to induce vehicle maintenance in early times and to prevent the vehicle from being abnormally driven by rapidly informing a driver of cooling water shortage. CONSTITUTION: A cooling water shortage detecting and warning device for a hybrid vehicle comprises a current measurement sensor, a controller, and a cluster warning lamp(13). The current measurement sensor measures the consumed current of a water pump(14). The controller receives a signal from the current measurement sensor and controls on or off of the cluster warning lamp. The cluster warning lamp is installed on a cooling water temperature dashboard of a cluster and informs a driver of cooling water shortage. [Reference numerals] (16) Radiator; (18) Inverter; (19) Reservoir; (AA) Cluster; (BB) CAN communication line; (CC) Cooling line; (DD) CAN line; (EE) Cooling water path

Abstract translation: 目的：提供一种用于混合动力车辆的冷却水不足检测和警告装置及其方法，以在早期引起车辆维修，并通过快速通知驾驶员冷却水不足而防止车辆异常驾驶。 构成：用于混合动力车辆的冷却水缺乏检测和警告装置包括电流测量传感器，控制器和集群警告灯（13）。 当前的测量传感器测量水泵（14）的消耗电流。 控制器从当前测量传感器接收信号并控制集群警告灯的打开或关闭。 集群警告灯安装在集群的冷却水温度仪表板上，并告知驾驶员冷却水不足。 （附图标记）（16）散热器; （18）逆变器; （19）水库; （AA）集群; （BB）CAN通信线路; （CC）冷却线; （DD）CAN线; （EE）冷却水路径

公开(公告)号：KR1020130051702A

公开(公告)日：2013-05-21

申请号：KR1020110117009

申请日：2011-11-10

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 정상현 ,  송상록 ,  이학성 ,  공승기

IPC: B60W10/02 ,  B60W50/02 ,  F16D48/06

Abstract: PURPOSE: A diagnosing method of an engine clutch pressure sensor for hybrid vehicles is provided to increase reliability on the protection of an engine and a driving system, and capability of a car by grasping troubles of the pressure sensor based on the output signal from the pressure sensor. CONSTITUTION: A diagnosing method of an engine clutch pressure sensor for hybrid vehicles comprises the following steps: a step of checking a gear to determine whether the gear position is parking shift(S100); a step of checking EOP(elctric-powered oil pump) to determine whether the EOP of the engine clutch is in the stationary state(S200); a step of checking the soaking to determine whether the soaking time is over the first time(S300); a step of checking a car speed to determine whether the car is in the stationary state(S400); and a step of determining a malfunction of the pressure sensor in case that the output signal is over a fixed standard by checking the output signal from the engine clutch pressure sensor when the gear position is parking shift(S610). The first time in the step of checking the soaking is 8 hours, and the output signal in the determining step of is output voltage. The diagnosing method also comprises a step of checking a voltage to determine whether the input voltage of the engine clutch pressure sensor is under a fixed voltage(S10). The determining step checks the output signal of the engine clutch sensor in case that the input voltage is under the fixed voltage. The diagnosing method also comprises a step of checking the communication to determine whether the CAN communication of a hybrid controlling part or an engine controlling part(S20). The determining step checks the output signal of the engine clutch pressure sensor in case that the CAN communication of the hybrid controlling part or the engine controlling part is normal. [Reference numerals] (AA) Start; (BB) End; (S10) Pressure voltage > 10V ?; (S100) Gear position = P gear ?; (S20) HUC/ECU CAN normal?; (S300) Soaking time > 8 hours ?; (S40) Is TM manipulation impossible?; (S400) Vehicle speed = 0 ?; (S500) Output voltage > 0.7V ?; (S610) Determine the malfunction of sensor offset; (S620) Store malfunction information; (S630) Stop correcting the sensor offset; (S640) Control limp home; (S650) Warning lamp

Abstract translation: 目的：提供一种用于混合动力车辆的发动机离合器压力传感器的诊断方法，以提高发动机和驱动系统的保护的可靠性，以及通过基于来自压力的输出信号来掌握压力传感器的故障的汽车的能力 传感器。 构成：用于混合动力车辆的发动机离合器压力传感器的诊断方法包括以下步骤：检查齿轮以确定档位是否为停车位移的步骤（S100）; 检查EOP（电动油泵）以确定发动机离合器的EOP是否处于静止状态的步骤（S200）; 检查浸泡以确定浸泡时间是否超过第一次的步骤（S300）; 检查轿厢速度以确定轿厢是否处于静止状态的步骤（S400）; 以及在齿轮位置为停车位移时通过检查来自发动机离合器压力传感器的输出信号，在输出信号为固定标准的情况下，确定压力传感器的故障的步骤（S610）。 在检查浸泡的步骤中第一次是8小时，并且确定步骤中的输出信号是输出电压。 诊断方法还包括检查电压以确定发动机离合器压力传感器的输入电压是否处于固定电压的步骤（S10）。 在输入电压低于固定电压的情况下，确定步骤检查发动机离合器传感器的输出信号。 诊断方法还包括检查通信以确定混合控制部分或发动机控制部分的CAN通信的步骤（S20）。 在混合控制部分或发动机控制部分的CAN通信正常的情况下，确定步骤检查发动机离合器压力传感器的输出信号。 （附图标记）（AA）开始; （BB）结束; （S10）压力电压> 10V？ （S100）档位= P档？ （S20）HUC / ECU CAN正常？ （S300）浸泡时间> 8小时？ （S40）TM操作不可能吗？ （S400）车速= 0？ （S500）输出电压> 0.7V？ （S610）确定传感器偏移的故障; （S620）存储故障信息; （S630）停止校正传感器偏移; （S640）控制跛脚回家; （S650）警示灯

公开(公告)号：KR101173049B1

公开(公告)日：2012-08-13

申请号：KR1020090119779

申请日：2009-12-04

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 이학성 ,  공승기 ,  이진숙 ,  이재신 ,  김연호 ,  김백유 ,  정상현 ,  김종현

IPC: F01M1/02 ,  F16N13/06 ,  F04D13/06 ,  F16H57/04

Abstract: 본 발명은 전동식 오일펌프에 관한 것으로서, 차량에서 변속기 및 클러치 등의 작동 유압을 형성하기 위한 전동식 오일펌프의 구동을 제어하는 장치 및 방법에 관한 것이다. 이러한 본 발명은 펌프의 구동을 제어함에 있어서 오일의 상태를 반영하기 위해 오일의 온도를 계측하여 사용하는 방식에서 탈피하여, 오일의 현 상태를 정확히 반영할 수 있으면서 정확한 펌프 제어를 수행할 수 있는 전동식 오일펌프의 구동 제어 장치 및 방법을 제공하는데 그 목적이 있다. 이를 위해, 온도센서가 아닌 점도센서를 통해 계측되는 오일의 실제 점도값을 사용하도록 구성됨으로써 오일의 현 상태를 정확히 반영한 펌프 제어를 수행하는 장치 및 방법이 개시된다.
하이브리드 차량, 전동식 오일펌프, 오일, ATF, 변속기, 점도센서

公开(公告)号：KR1020100104603A

公开(公告)日：2010-09-29

申请号：KR1020090023134

申请日：2009-03-18

Applicant: 기아자동차주식회사 ,  현대자동차주식회사

Inventor： 김경하 ,  신광섭 ,  정상현 ,  김종현 ,  김연호 ,  공승기

IPC: F02D41/06 ,  F02D41/04 ,  B60W20/00 ,  F02N11/08

CPC classification number: F02D41/064 ,  B60W10/06 ,  B60W10/08 ,  B60W20/00 ,  F02N11/08 ,  Y02T10/40

Abstract: PURPOSE: A cold start method of a hybrid vehicle is provided to realize the smooth and stable cold start of an engine, to save the cost consumed for manufacturing a vehicle and to enhance the vehicle mileage. CONSTITUTION: A cold start method of a hybrid vehicle comprises the next step. It is determined to recognize the type of the engine start whether the ATF(Automatic Transmission Fluid) temperature is below a first predetermined reference value (S10). If yes, an engine clutch is combined(S20). After the step of combining the clutch, a drive motor is driven to start the engine(S30). If the ATF temperature exceeds the first reference value, the ISG(Idle Stop and Go) is driven to start the engine(S40).

Abstract translation: 目的：提供一种混合动力车辆的冷启动方法，以实现发动机的平稳和稳定的冷启动，以节省制造车辆所消耗的成本并提高车辆里程。 构成：混合动力车辆的冷启动方法包括下一步骤。 确定是否识别出ATF（自动变速器油）温度是否低于第一预定参考值的发动机起动的类型（S10）。 如果是，则组合发动机离合器（S20）。 在组合离合器的步骤之后，驱动马达被驱动以启动发动机（S30）。 如果ATF温度超过第一参考值，则驱动ISG（空闲停止和停止）以启动发动机（S40）。

公开(公告)号：KR1020100064939A

公开(公告)日：2010-06-15

申请号：KR1020080123600

申请日：2008-12-05

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 공승기

IPC: B60W20/00 ,  B60W10/30

CPC classification number: F04B49/103

Abstract: PURPOSE: A fail safe controlling method of an oil pump controller for a hybrid vehicle is provided to control an oil pump driver(OPD) by directly connecting a controller for an automatic transmission and an oil pump controller(OPU) using a hard wire pin when a can of a pump controller is broken. CONSTITUTION: A fail safe controlling method of an oil pump controller of a hybrid vehicle comprises the following steps; deciding whether an oil pump system is off due to the malfunction of the oil pump controller and an electronic oil pump or a can communication line is off; deciding whether a hard wire is on or off when the can communication line is off; operating the motor of the electronic oil pump by directly connecting the controller of an automatic transmission and the oil pump controller using the hard wire; controlling a oil pump driver by adjusting the rotation number of the motor of the electronic oil pump; and making the motor of the electronic oil pump be off when the motor of the electronic oil pump is fail.

Abstract translation: 目的：提供一种用于混合动力车辆的油泵控制器的故障安全控制方法，通过使用硬线引脚直接连接用于自动变速器的控制器和油泵控制器（OPU）来控制油泵驱动器（OPD），当 一个罐头的泵控制器坏了。 构成：混合动力车辆的油泵控制器的故障安全控制方法包括以下步骤： 由于油泵控制器的故障和电子油泵或罐通信线是否关闭，决定油泵系统是否关闭; 当通信线路断开时，决定硬线是否开启或关闭; 通过直接连接自动变速器的控制器和使用硬线的油泵控制器来操作电动油泵的电动机; 通过调整电动油泵的电动机的转速来控制油泵驱动器; 并且当电子油泵的电动机发生故障时使电子油泵的电机关闭。

公开(公告)号：KR1020100062271A

公开(公告)日：2010-06-10

申请号：KR1020080120813

申请日：2008-12-01

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 공승기 ,  김경하 ,  신광섭 ,  정상현 ,  김종현 ,  김영철 ,  김연호 ,  김완수

IPC: B60W10/30 ,  B60W20/00 ,  F16H57/04

Abstract: PURPOSE: A method for controlling an electric oil pump of a hybrid vehicle is provided to prevent the fusion of a wire ring and a connector which are connected between an oil pump controller and the electric oil pump according to the reduction of a driving load of the electric oil pump. CONSTITUTION: A method for controlling an electric oil pump of a hybrid vehicle comprises: a trigger control step about the electric oil pump(30) of the hybrid vehicle; a step of controlling in multi-stages based on data which is obtained by mapping a driving RPM as a transmission oil temperature; and a step of controlling the driving RPM in two steps after a key start. A cool starting is decided when a detected transmission oil temperature is less than a standard value.

Abstract translation: 目的：提供一种用于控制混合动力车辆的电动油泵的方法，以防止连接在油泵控制器和电动油泵之间的线环和连接器的熔合， 电动油泵。 构成：控制混合动力车辆的电动油泵的方法，包括：关于混合动力车辆的电动油泵（30）的触发控制步骤; 基于通过将驱动RPM映射为变速器油温度而获得的数据，多级控制的步骤; 以及在键开始之后两步控制驱动RPM的步骤。 当检测到的变速箱油温度低于标准值时，决定冷启动。

公开(公告)号：KR101776426B1

公开(公告)日：2017-09-07

申请号：KR1020150175688

申请日：2015-12-10

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 김종현 ,  공승기 ,  이재신 ,  이학성 ,  김태호 ,  김연호

IPC: B60W10/02 ,  B60W10/04 ,  B60W10/08 ,  B60W10/30 ,  B60W10/113 ,  F16H61/688 ,  B60W20/50

CPC classification number: B60W20/40 ,  B60K6/387 ,  B60K6/442 ,  B60K6/48 ,  B60K6/547 ,  B60K2006/4825 ,  B60W10/02 ,  B60W10/113 ,  B60W20/50 ,  B60W2510/02 ,  B60W2510/0225 ,  B60W2560/00 ,  B60Y2200/92 ,  B60Y2300/42 ,  B60Y2400/406 ,  B60Y2400/412 ,  F16D48/066 ,  F16D2500/1026 ,  F16D2500/10412 ,  F16D2500/3024 ,  F16D2500/501 ,  Y02T10/6221 ,  Y02T10/6252 ,  Y10S903/914

Abstract: 본발명의엔진클러치제어안정화방법은엔진(200)과모터(200)를연결및 단락시키는엔진클러치(60)를갖춘엔진클러치시스템(1)이컨트롤러(10)에의한엔진클러치동작개시지령을받고, 상기엔진클러치시스템(1)의전동유압액추에이터의스트로크에따라검출된현재유압(P)이설정된한계유압(P)과비교되어오일누유없는정상유압과오일우유에의한비정상유압으로판단되고, 엔진클러치시스템(1)의 NC(Normally close)로동작하는건식엔진클러치(60)가엔진클러치제어구간에서클러치슬립및 클러치소손을발생하지않도록정상유압인경우에만조작함으로써차량(100)의 HEV 모드제어로직에대한안전성이확보되는특징을구현한다.

公开(公告)号：KR101734577B1

公开(公告)日：2017-05-11

申请号：KR1020110116564

申请日：2011-11-09

Applicant: 현대자동차주식회사 ,  기아자동차주식회사

Inventor： 심동수 ,  최병훈 ,  이재신 ,  공승기

IPC: B60K11/02 ,  B60L11/18 ,  F01P7/16 ,  B60K1/00

CPC classification number: Y02T10/7005

Abstract: 본발명은냉각계의열관리제어시전동워터펌프(7)에관련된진단인자(FF)를이용해자가진단로직을실행하고, 진단인자(FF)의체크결과에따라전동워터펌프(7)를일시정지함으로써전동워터펌프(7)의내구성악화를가져오는구동지속시간을보다줄일수 있고, 이로인한전동워터펌프(7)의내구성강화로예기치않은고장(Fail 또는 Error)을미리예방함으로써냉각계의신뢰성을높여전기자동차의상품성도크게높일수 있는특징을갖는다.

Abstract translation: 根据基于冷却热管理控制sijeondong水泵诊断因子（FF）的检查结果，本发明中，由电动水泵7使用自运行诊断逻辑，和诊断因子（FF）相关到暂停的7 能够进一步降低电动水泵7的耐久性，并且能够防止电动水泵7的耐久性，能够预先防止意外的故障或故障， 这样可以显着提高电动车辆的适销性。