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    • 1. 发明专利
    • Engine cooling system
    • 发动机冷却系统
    • JP2006105106A
    • 2006-04-20
    • JP2004296746
    • 2004-10-08
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YAMAMOTO DAISUKETAKEUCHI KATSUNAOMURAKAMI HIROMICHIHANAI SHUICHISHINPO ZENICHIYOSHIKAWA SHIGETAKA
    • F01P7/16
    • PROBLEM TO BE SOLVED: To improve controllability of the cooling water temperature, by optimizing a conversion factor used for calculating a request radiator flow rate.
      SOLUTION: This cooling system has cooling water circulating passages 12 and 15 of an engine 1, a radiator 13 in its circulating passages 12 and 15, and a flow control valve 16 for adjusting a cooling water flow rate of the radiator 13. An electronic control device ECU 30 calculates a cooling loss calorific value taken to cooling water from the engine 1 on the basis of an operation state of the engine 1. The ECU 30 controls the flow control valve 16 on the basis of its request radiator flow rate, by calculating the request radiator flow rate in the radiator 13 on the basis of the conversion factor for converting the cooling loss calorific value, the target cooling water temperature, the radiator outlet water temperature and the cooling water temperature into a flow rate for setting the cooling water temperature to the target cooling water temperature. Here, the ECU 30 calculates the conversion factor used for the calculation on the basis of a temperature difference between the engine outlet water temperature and the radiator outlet water temperature.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:通过优化用于计算请求散热器流量的转换因子来提高冷却水温度的可控性。 解决方案:该冷却系统具有发动机1的冷却水循环通道12和15,其循环通道12和15中的散热器13,以及用于调节散热器13的冷却水流量的流量控制阀16。 电子控制装置ECU30基于发动机1的运转状态,计算出来自发动机1的冷却水的冷却损失发热量。ECU30根据其要求的散热器流量来控制流量控制阀16 通过基于用于将冷却损失热值,目标冷却水温度,散热器出口水温和冷却水温度转换为转换系数的转换系数来计算散热器13中的请求散热器流量,设定为 将冷却水温度降至目标冷却水温度。 这里,ECU30基于发动机出口水温和散热器出口水温度之间的温差来计算用于计算的转换系数。 版权所有(C)2006,JPO&NCIPI
    • 2. 发明专利
    • Engine cooling system
    • 发动机冷却系统
    • JP2006105104A
    • 2006-04-20
    • JP2004296704
    • 2004-10-08
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YAMAMOTO DAISUKETAKEUCHI KATSUNAOMURAKAMI HIROMICHIHANAI SHUICHISHINPO ZENICHIYOSHIKAWA SHIGETAKA
    • F01P7/16
    • PROBLEM TO BE SOLVED: To secure durability of a water pump, by restraining the occurrence of cavitation in the water pump.
      SOLUTION: This cooling system 10 has cooling water circulating passages 11 and 12 of an engine 1, a radiator 13 in its circulating passages 11 and 12, the water pump 14 for forcibly feeding cooling water by the cooling water circulating passages 11 and 12, and a flow control valve 16 for adjusting a cooling water flow rate of the radiator 13. An electronic control device ECU 30 controls the flow control valve 16 for fully closing so as to cut off a cooling water flow of the cooling water circulating passages 11 and 12 when warming up the engine 1. Here, the ECU 30 controls valve opening of the flow control valve 16 to the opening side a little from full closure for allowing the cooling water flow when an engine speed exceeds a predetermined reference engine speed (5,000 rpm) in a state of cutting off the cooling water flow in the cooling water circulating passages 11 and 12 when the flow control valve 16 is fully closed.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:通过抑制水泵中的空化现象,确保水泵的耐久性。 解决方案:该冷却系统10具有发动机1的冷却水循环通道11和12,循环通道11和12中的散热器13,用于通过冷却水循环通道11强制供给冷却水的水泵14和 12,以及用于调节散热器13的冷却水流量的流量控制阀16.电子控制装置ECU30控制流量控制阀16完全关闭,以切断冷却水循环通道的冷却水流 此时,ECU30控制阀30从开闭侧向开口侧开阀一点,从而在发动机转速超过规定的基准发动机转速时允许冷却水流动 当流量控制阀16完全关闭时,切断冷却水循环通道11和12中的冷却水流的状态。 版权所有(C)2006,JPO&NCIPI
    • 3. 发明专利
    • Engine cooling system
    • 发动机冷却系统
    • JP2006105093A
    • 2006-04-20
    • JP2004296488
    • 2004-10-08
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YAMAMOTO DAISUKETAKEUCHI KATSUNAOMURAKAMI HIROMICHISHINPO ZENICHIYOSHIKAWA SHIGETAKA
    • F01P7/16F01P3/20
    • PROBLEM TO BE SOLVED: To cope with viscosity reduction and pressure reduction in a working fluid, by restraining a temperature rise in the working fluid in an ancillary device without deteriorating fuel economy of an engine. SOLUTION: This cooling system has cooling water circulating passages 12 and 15 of the engine 1, a radiator 13 arranged in its circulating passages 12 and 15, and a flow control valve 16 for adjusting a cooling water flow rate in the radiator 13. An electronic control device ECU 30 controls the flow control valve 16 so that the cooling water temperature of the engine 1 becomes the target cooling water temperature. Here, the engine 1 is provided with a lubricating device 44 and an automatic transmission 45 including lubricating oil and a hydraulic fluid having thermal influence from the engine 1. An oil cooler circuit 35 is arranged in the circulating passages 12 and 15 so as to bypass the radiator 13 for cooling the lubricating oil and the hydraulic fluid. When the temperature of the lubricating oil and AFT exceeds the reference temperature, the ECU 30 changes the target cooling water temperature to the relatively low temperature. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:通过抑制辅助装置中的工作流体的温度升高来应对工作流体中的粘度降低和减压,而不会降低发动机的燃油经济性。 解决方案:该冷却系统具有发动机1的冷却水循环通道12和15,布置在其循环通道12和15中的散热器13和用于调节散热器13中的冷却水流量的流量控制阀16 电子控制装置ECU30控制流量控制阀16,使发动机1的冷却水温度成为目标冷却水温度。 这里,发动机1设置有润滑装置44和包括润滑油和来自发动机1的热影响的液压流体的自动变速器45.在循环通道12和15中布置油冷却器回路35,以便绕过 用于冷却润滑油和液压流体的散热器13。 当润滑油和AFT的温度超过参考温度时,ECU30将目标冷却水温度改变到相对低的温度。 版权所有(C)2006,JPO&NCIPI
    • 6. 发明专利
    • Cooling device for internal combustion engine
    • 内燃机用冷却装置
    • JP2003083064A
    • 2003-03-19
    • JP2001272998
    • 2001-09-10
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YOSHIKAWA SHIGETAKASHINPO ZENICHITAKAGI ISAOYAMAMOTO DAISUKEMURAKAMI HIROMICHI
    • F01P7/14F01P7/16
    • F01P7/167F01P2007/146F01P2025/30F01P2025/32F01P2025/36F01P2025/64
    • PROBLEM TO BE SOLVED: To provide a cooling device for an internal combustion engine capable of suppressing the reduction of controllability when controlling a temperature of cooling water to a target value during feedback control of a flow rate control valve.
      SOLUTION: During the feedback control of the flow rate control valve 7, lower limit guard is performed concerning a degree of opening of the valve 7. Consequently, the adjustment of degree of opening of the flow rate control valve 7 is not performed in an opening degree region in the vicinity of full closing where change of a water temperature at an engine exit becomes excessively great or little for change of degree of opening. Moreover, when the tendency of the water temperature at the engine exit is inverted between ascent tendency and descent tendency during the feedback control, a degree of opening of the flow rate control valve 7 is changed by a skip amount S so that water temperature at the engine exit approaches the target value.
      COPYRIGHT: (C)2003,JPO
    • 要解决的问题:提供一种用于在流量控制阀的反馈控制期间将冷却水的温度控制到目标值时能够抑制可控性降低的内燃机的冷却装置。 解决方案:在流量控制阀7的反馈控制期间,关于阀7的打开程度执行下限保护。因此,在开口中不执行调节流量控制阀7的打开程度 在发动机出口处的水温的变化变得过大或变小的开闭附近的全关闭附近的度区域。 此外,当在反馈控制期间在发动机出口处的水温度在上升趋势和下降趋势之间反转的趋势时,流量控制阀7的打开程度改变跳跃量S,使得在 发动机出口接近目标值。
    • 7. 发明专利
    • Engine cooling system
    • 发动机冷却系统
    • JP2006112233A
    • 2006-04-27
    • JP2004297287
    • 2004-10-12
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YAMAMOTO DAISUKETAKEUCHI KATSUNAOMURAKAMI HIROMICHIYOSHIKAWA SHIGETAKASHINPO ZENICHI
    • F01P7/16
    • PROBLEM TO BE SOLVED: To improve controllability of the cooling water temperature in engine transition operation, in a cooling system for controlling the cooling water temperature on the basis of a cooling loss calorific value calculated in response to an operation state of an engine. SOLUTION: An electronic control device ECU 30 controls a flow control valve 16 for setting the engine outlet water temperature TO to the target engine outlet water temperature Tt on the basis of the cooling loss calorific value QW of an engine body 2 calculated from the operation state of the engine 1. Here, ECU 30 sets a moderated engine speed NEsm and a moderated engine load LEsm by performing moderating control on an engine speed NE and an engine load LE used for calculating the cooling loss calorific value QW for reflecting a changing delay in an actual cooling loss calorific value to a change in the calculated cooling loss calorific value QW in control of the flow control valve 16 in the transition operation of the engine 1. COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提高发动机转换操作中的冷却水温度的控制性,基于根据发动机的运转状态计算的冷却损失发热量来控制冷却水温度的冷却系统 。 解决方案:电子控制装置ECU30根据发动机主体2的冷却损失发热量QW,将发动机出口水温TO设定为目标发动机出口水温Tt,控制流量控制阀16, 发动机1的运转状态。这里,ECU30通过对发动机转速NE的调节控制和用于计算冷却损失发热量QW的发动机负荷LE来设定调节后的发动机转速NEsm和调节后的发动机负荷LEsm, 在发动机1的过渡操作中控制流量控制阀16时,将实际的冷却损失热值的延迟改变为计算出的冷却损失发热量QW的变化。(C)2006,JPO&NCIPI
    • 9. 发明专利
    • Engine cooling system
    • 发动机冷却系统
    • JP2006112344A
    • 2006-04-27
    • JP2004301401
    • 2004-10-15
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YAMAMOTO DAISUKETAKEUCHI KATSUNAOMURAKAMI HIROMICHIYOSHIKAWA SHIGETAKASHINPO ZENICHI
    • F01P7/16
    • PROBLEM TO BE SOLVED: To improve controllability of the cooling water temperature, by heightening the target cooling water temperature without reducing knocking resistant performance of an engine, in a cooling system for controlling the cooling water temperature of the engine at the target cooling water temperature.
      SOLUTION: This cooling system has cooling water circulating passages 11 and 12 for circulating cooling water of the engine 1, a radiator 13 arranged in the cooling water circulating passages 11 and 12, and a flow control valve 16 for adjusting a cooling water flow rate passing through the radiator 13. An electronic control device ECU 30 controls the flow control valve 16 so that the cooling water temperature TO of the engine 1 becomes the target cooling water temperature Tt. Here, the ECU 30 sets the target cooling water temperature Tt in response to the intake temperature THIA, and actually, sets the target cooling water temperature Tt to the relatively high temperature when the intake temperature THIA is relatively low, and sets the target cooling water temperature Tt to the relatively low temperature when the intake temperature THIA is relatively high.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:为了提高冷却水温度的可控性,通过提高目标冷却水温度,而不降低发动机的耐爆击性能,在用于控制目标冷却时发动机的冷却水温度的冷却系统中 水温。 解决方案:该冷却系统具有用于使发动机1的冷却水循环的冷却水循环通道11和12,布置在冷却水循环通道11和12中的散热器13和用于调节冷却水的流量控制阀16 通过散热器13的流量。电子控制装置ECU30控制流量控制阀16,使得发动机1的冷却水温度TO成为目标冷却水温度Tt。 这里,ECU30根据进气温度THIA设定目标冷却水温度Tt,实际上,当进气温度THIA相对较低时,将目标冷却水温度Tt设定为相对高的温度,并将目标冷却水 当进气温度THIA相对较高时,温度Tt达到相对较低的温度。 版权所有(C)2006,JPO&NCIPI
    • 10. 发明专利
    • Engine cooling device
    • 发动机冷却装置
    • JP2006112234A
    • 2006-04-27
    • JP2004297296
    • 2004-10-12
    • Aisan Ind Co LtdToyota Motor Corpトヨタ自動車株式会社愛三工業株式会社
    • YAMAMOTO DAISUKETAKEUCHI KATSUNAOMURAKAMI HIROMICHIYOSHIKAWA SHIGETAKASHINPO ZENICHI
    • F02D45/00F01P7/16
    • PROBLEM TO BE SOLVED: To improve the controllability of a cooling water temperature in an engine by more exactly calculating the heat receiving and radiating amount in heat receiving and radiating circuits.
      SOLUTION: An electronic control unit (ECU) 30 calculates cooling loss heat amount Qw of an engine main body 2 based on the operation condition of the engine 1, calculates the receiving and radiating heat amount Qetc of the receiving and radiating circuits 31-35 based on an engine outlet water temperature TO, a water temperature T3 and a flow rate V3 in the confluent part, calculates a required radiator flow V2 in a radiator 13 based on the cooling loss heat amount Qw, the receiving and radiating heat amount Qetc, a target engine outlet water temperature Tt and a radiator outlet water temperature T2 in order to make the engine outlet water temperature TO be the target engine outlet water temperature Tt, and controls a flow control valve 16 based on the calculated result. At this moment, the ECU 30 calculates a delayed time t1 at the change in the confluent water temperature T3 for the change in the engine outlet water temperature TO, and calculates the engine outlet water temperature TO, used for the calculation of the receiving and radiating heat amount Qetc based on the delayed time t1, and when not delayed.
      COPYRIGHT: (C)2006,JPO&NCIPI
    • 要解决的问题:通过更精确地计算热接收和辐射电路中的热量接收和辐射量来提高发动机中冷却水温度的可控性。 解决方案:电子控制单元(ECU)30基于发动机1的运转状况计算发动机主体2的冷却损失热量Qw,计算接收和辐射电路31的接收和辐射热量Qetc -35,基于发动机出口水温TO,汇合部分的水温T3和流量V3,基于冷却损失热量Qw,散热量Qw,接收放热量 Qetc,目标发动机出口水温Tt和散热器出口水温T2,以使发动机出口水温度TO成为目标发动机出口水温Tt,并根据计算结果控制流量控制阀16。 此时,ECU30计算发动机出水温度TO的变化时的汇合水温T3的变化时的延迟时间t1,并计算用于计算接收和辐射的发动机出口水温度TO 热量Qetc基于延迟时间t1,何时不延迟。 版权所有(C)2006,JPO&NCIPI