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1. 发明授权

US08958973B2 Fuel injection control device for engine 有权
标题翻译：发动机燃油喷射控制装置
公开(公告)号：US08958973B2
公开(公告)日：2015-02-17
申请号：US13163912
申请日：2011-06-20
申请人： Hiroshi Katsurahara , Osamu Fukasawa , Tomoaki Nakano , Masahiro Yokoi , Kota Noguchi , Atsushi Koike
发明人： Hiroshi Katsurahara , Osamu Fukasawa , Tomoaki Nakano , Masahiro Yokoi , Kota Noguchi , Atsushi Koike
IPC分类号： F02B3/00 , F02D41/40 , F02D41/14
CPC分类号： F02D41/402 , F02D41/1454 , Y02T10/44
摘要： A fuel injection control device for an engine executes a split injection constructed by a fixed injection and a variable injection. A required injection amount of the fixed injection is set in a low range. A required injection amount of the variable injection is set in a high range. An injection amount in the high range is larger than that of the low range. The required injection amount of the variable injection is changed within the high range while the required injection amount of the fixed injection is fixed when a load of the engine is varied while the split injection is performed. An injection control characteristic is corrected based on an actual air-fuel ratio detected before the load is varied and an actual air-fuel ratio detected after the load is varied.
摘要翻译：用于发动机的燃料喷射控制装置执行由固定喷射和可变喷射构成的分流喷射。将固定喷射的所需喷射量设定在低范围内。将可变注入的所需注入量设定在高范围内。高范围内的喷射量大于低范围的喷射量。可变喷射的所需喷射量在高范围内变化，同时当执行分流喷射时发动机的负载变化时固定喷射的所需喷射量是固定的。基于在负载变化之前检测到的实际空燃比和负载变化后检测到的实际空燃比来校正喷射控制特性。

2. 发明申请

US20110320107A1 Fuel Injection Control Device for Engine 有权
标题翻译：发动机燃油喷射控制装置
公开(公告)号：US20110320107A1
公开(公告)日：2011-12-29
申请号：US13163912
申请日：2011-06-20
申请人： Hiroshi KATSURAHARA , Osamu Fukasawa , Tomoaki Nakano , Masahiro Yokoi , Kota Noguchi , Atsushi Koike
发明人： Hiroshi KATSURAHARA , Osamu Fukasawa , Tomoaki Nakano , Masahiro Yokoi , Kota Noguchi , Atsushi Koike
IPC分类号： F02D41/26
CPC分类号： F02D41/402 , F02D41/1454 , Y02T10/44
摘要： A fuel injection control device for an engine executes a split injection constructed by a fixed injection and a variable injection. A required injection amount of the fixed injection is set in a low range. A required injection amount of the variable injection is set in a high range. An injection amount in the high range is larger than that of the low range. The required injection amount of the variable injection is changed within the high range while the required injection amount of the fixed injection is fixed when a load of the engine is varied while the split injection is performed. An injection control characteristic is corrected based on an actual air-fuel ratio detected before the load is varied and an actual air-fuel ratio detected after the load is varied.
摘要翻译：用于发动机的燃料喷射控制装置执行由固定喷射和可变喷射构成的分流喷射。将固定喷射的所需喷射量设定在低范围内。将可变注入的所需注入量设定在高范围内。高范围内的喷射量大于低范围的喷射量。可变喷射的所需喷射量在高范围内变化，同时当执行分流喷射时发动机的负载变化时固定喷射的所需喷射量是固定的。基于在负载变化之前检测到的实际空燃比和负载变化后检测到的实际空燃比来校正喷射控制特性。

3. 发明申请

US20110102144A1 Information display system and management device 审中-公开
标题翻译：信息显示系统和管理装置
公开(公告)号：US20110102144A1
公开(公告)日：2011-05-05
申请号：US12925693
申请日：2010-10-27
申请人： Shigetaka Okina , Koichi Moriya , Yasuyuki Mitsuoka , Takeshi Uchiyama , Yuji Akaike , Osamu Fukasawa , Yoshihiko Ikeda
发明人： Shigetaka Okina , Koichi Moriya , Yasuyuki Mitsuoka , Takeshi Uchiyama , Yuji Akaike , Osamu Fukasawa , Yoshihiko Ikeda
IPC分类号： G06F7/02
CPC分类号： G06Q30/02
摘要： An ESL server (3) includes a management-device storage unit for storing information indicating a position at which a second electronic shelf label terminal (1) is installed, a management-device reception unit for receiving information transmitted from a transmission unit of a handy terminal (5), and a management-device control unit for identifying a position at which a first electronic shelf label terminal (1) is installed based on information for uniquely identifying the first electronic shelf label terminal (1), information for uniquely identifying the second electronic shelf label terminal (1), information indicating relative position between the position at which the second electronic shelf label terminal (1) is installed and the position at which the first electronic shelf label terminal (1) is installed, and the information indicating the position at which the second electronic shelf label terminal (1) is installed.
摘要翻译： ESL服务器（3）包括管理设备存储单元，用于存储指示安装有第二电子货架标签终端（1）的位置的信息;管理设备接收单元，用于接收从传送单元传送的信息终端（5），以及管理装置控制单元，用于基于用于唯一地识别第一电子货架标签终端（1）的信息来识别安装有第一电子货架标签终端（1）的位置，用于唯一地识别第二电子货架标签端子（1），指示安装第二电子货架标签端子（1）的位置与安装第一电子货架标签端子（1）的位置之间的相对位置的信息，以及指示第二电子货架标签端子（1）的安装位置。

4. 发明授权

US07565898B2 Controller for direct injection engine and controlling method 有权
标题翻译：直喷式发动机控制器及控制方法
公开(公告)号：US07565898B2
公开(公告)日：2009-07-28
申请号：US11492926
申请日：2006-07-26
申请人： Osamu Fukasawa
发明人： Osamu Fukasawa
IPC分类号： F02M57/02
CPC分类号： F02M63/0225 , F02D41/042 , F02D41/3845 , F02D2250/02 , F02D2250/31 , F02M59/366 , F02M65/003
摘要： An ECU feedback controls a discharge amount of a high-pressure pump in such a manner that a detected fuel pressure is consistent with a target fuel pressure. The ECU determines whether engine shut sown is imminent. When the ECU determines that engine shut down is imminent, the target fuel pressure is established lower than a normal fuel pressure. Since the engine is shut down in a condition where the fuel pressure is decreased, a fuel leakage from a fuel injector is unlikely.
摘要翻译： ECU反馈以检测到的燃料压力与目标燃料压力一致的方式控制高压泵的排出量。 ECU确定发动机关闭是否即将到来。当ECU确定发动机关闭即将到来时，目标燃料压力被建立为低于正常燃料压力。由于在燃料压力降低的情况下关闭发动机，因此不太可能从燃料喷射器泄漏燃料。

5. 发明授权

US07318415B2 Controller of in-cylinder injection engine 有权
标题翻译：缸内喷油发动机控制器
公开(公告)号：US07318415B2
公开(公告)日：2008-01-15
申请号：US11436692
申请日：2006-05-19
申请人： Osamu Fukasawa
发明人： Osamu Fukasawa
IPC分类号： F02D41/04 , F02D41/38
CPC分类号： F02D41/3845 , F02D41/062 , F02D2200/0604 , F02D2250/31
摘要： If a high-pressure pump discharges fuel in an injection waiting period from injection setting to injection start, fuel pressure to occur at injection start time is estimated and a fuel pressure correction coefficient is calculated based on the estimated fuel pressure. If there is no fuel discharge in the injection waiting period, the fuel pressure sensed at the injection setting is regarded as the fuel pressure of the injection start time, and the fuel pressure correction coefficient is calculated based on the sensed fuel pressure. A final injection period is calculated by correcting a basic injection period with the fuel pressure correction coefficient. Thus, fuel pressure correction of the injection period is performed accurately even if actual fuel pressure fluctuates due to the fuel discharge from the high-pressure pump during the injection waiting period.
摘要翻译：如果高压泵在从注射设定到注射开始的注射等待期间排出燃料，则估计在注射开始时间发生的燃料压力，并且基于估计的燃料压力计算燃料压力校正系数。如果在喷射等待期间没有燃料排出，则将在喷射设定下检测到的燃料压力视为喷射开始时间的燃料压力，并且基于检测到的燃料压力计算燃料压力校正系数。通过用燃料压力校正系数校正基本喷射周期来计算最终喷射周期。因此，即使实际的燃料压力由于在喷射等待期间从高压泵的燃料排出而波动，也能够准确地进行喷射期间的燃料压力校正。

6. 发明申请

US20060225695A1 Startup controller for in-cylinder injection internal combustion engine 有权
标题翻译：缸内喷油内燃机启动控制器
公开(公告)号：US20060225695A1
公开(公告)日：2006-10-12
申请号：US11397644
申请日：2006-04-05
申请人： Osamu Fukasawa
发明人： Osamu Fukasawa
IPC分类号： F02B5/00 , F02M51/00 , G06F19/00
CPC分类号： F02M63/0225 , F02D41/062 , F02D41/3845 , F02D2200/0604
摘要： A startup controller calculates a fuel pressure difference across a discharge stroke of a high-pressure pump at an end of an initial discharge after cranking is started. At the injection setting, the startup controller estimates a fuel pressure increment from an injection setting to an injection start based on the fuel pressure difference. The startup controller adds the fuel pressure increment to a fuel pressure sensed at the injection setting to estimate a fuel pressure at the injection start. The startup controller determines whether to perform or to prohibit the injection based on whether the estimated fuel pressure at the injection start is equal to or higher than an injection permission fuel pressure.
摘要翻译：启动控制器计算开始起动之后的初始排出结束时的高压泵的排出行程的燃料压力差。在喷射设定中，启动控制器基于燃料压力差估计从喷射设定到喷射开始的燃料压力增量。启动控制器将燃料压力增量添加到在喷射设置下感测的燃料压力，以估计喷射开始时的燃料压力。启动控制器基于喷射开始时的估计燃料压力是否等于或高于喷射允许燃料压力来确定是否执行或禁止喷射。

7. 发明授权

US5520160A Fuel evaporative gas and air-fuel ratio control system 失效
标题翻译：燃油蒸发气和空燃比控制系统
公开(公告)号：US5520160A
公开(公告)日：1996-05-28
申请号：US295394
申请日：1994-08-25
申请人： Hiroyuki Aota , Junya Morikawa , Osamu Fukasawa
发明人： Hiroyuki Aota , Junya Morikawa , Osamu Fukasawa
IPC分类号： F02D41/00 , F02D41/14
CPC分类号： F02D41/004 , F02D41/0032
摘要： A system for solving disturbances in the air-fuel ratio caused by a change in the normal correction factor, and permitting achievement of a highly accurate air-fuel ratio control. Fuel evaporative gas generated in a fuel tank is adsorbed in a canister, and then discharged into an intake pipe of an internal combustion engine. ECU calculates the fuel supply quantity to the internal combustion engine on the basis of the condition in which the internal combustion engine is operating, performs feedback control and learning control of an air-fuel ratio on the basis of a detection signal from an oxygen sensor, and corrects the fuel supply quantity by means of an air-fuel correction factor. ECU also controls fuel injection by an injector by decrement-correcting the fuel supply quantity in response to the quantity of discharged evaporative gas. Furthermore, ECU adjusts, upon decrement correction of the fuel supply quantity in response to the quantity of discharged evaporative gas, the quantity of the decrement correction so as to be proportional to the normal correction factor including the air-fuel ratio correction factor.
摘要翻译：一种用于解决由正常校正因子的变化引起的空燃比紊乱的系统，并且允许实现高精度的空燃比控制。在燃料箱中产生的燃料蒸发气体被吸附在罐中，然后排出到内燃机的进气管中。 ECU根据内燃机运转的条件，根据来自氧传感器的检测信号，对内燃机的燃料供给量进行计算，进行空燃比的反馈控制和学习控制，并通过空燃比校正因子校正燃料供给量。 ECU还通过根据排出的蒸发气体的量对燃料供给量进行递减校正来控制喷射器的燃料喷射。此外，ECU响应于排出的蒸发气体的量，根据包括空燃比校正系数的正常校正系数与递减校正系数成比例地减少燃料供给量的校正量来进行调整。

8. 发明授权

US07318421B2 Startup controller for in-cylinder injection internal combustion engine 有权
标题翻译：缸内喷油内燃机启动控制器
公开(公告)号：US07318421B2
公开(公告)日：2008-01-15
申请号：US11397644
申请日：2006-04-05
申请人： Osamu Fukasawa
发明人： Osamu Fukasawa
IPC分类号： F02D41/06 , F02D41/40 , F02M7/00
CPC分类号： F02M63/0225 , F02D41/062 , F02D41/3845 , F02D2200/0604
摘要： A startup controller calculates a fuel pressure difference across a discharge stroke of a high-pressure pump at an end of an initial discharge after cranking is started. At the injection setting, the startup controller estimates a fuel pressure increment from an injection setting to an injection start based on the fuel pressure difference. The startup controller adds the fuel pressure increment to a fuel pressure sensed at the injection setting to estimate a fuel pressure at the injection start. The startup controller determines whether to perform or to prohibit the injection based on whether the estimated fuel pressure at the injection start is equal to or higher than an injection permission fuel pressure.
摘要翻译：启动控制器计算开始起动之后的初始排出结束时的高压泵的排出行程的燃料压力差。在喷射设定中，启动控制器基于燃料压力差估计从喷射设定到喷射开始的燃料压力增量。启动控制器将燃料压力增量添加到在喷射设置下感测的燃料压力，以估计喷射开始时的燃料压力。启动控制器基于喷射开始时的估计燃料压力是否等于或高于喷射允许燃料压力来确定是否执行或禁止喷射。

9. 发明授权

US07222602B2 Fuel injection controller for in-cylinder injection engine 失效
标题翻译：缸内喷油发动机燃油喷射控制器
公开(公告)号：US07222602B2
公开(公告)日：2007-05-29
申请号：US11412208
申请日：2006-04-27
申请人： Osamu Fukasawa
发明人： Osamu Fukasawa
IPC分类号： F02B3/00 , F02B5/00
CPC分类号： F02D41/1498 , F02D35/021 , F02D35/023 , F02D41/003 , F02D41/006 , F02D41/0065 , F02D41/047 , F02D41/221 , F02D41/40 , F02D41/403 , F02D2041/001 , F02D2041/0015 , F02D2200/0602 , Y02T10/44
摘要： A fuel injection controller of an in-cylinder injection engine determines that a combustion state has deteriorated and executes a split injection for injecting fuel in split amounts into each cylinder in multiple injection events in a cycle of the cylinder if it is determined that a combustion fluctuation is greater than a predetermined determination value during operation of the engine. The fuel injection controller increases a ratio of an injection amount of the first injection event in the split injection and lengthens an injection interval between the injection events as the combustion fluctuation increases. Thus, a wet amount of the injected fuel is reduced to expedite atomization of the injected fuel and to homogenize an in-cylinder mixture gas. As a result, the combustion state is improved.
摘要翻译：缸内喷射发动机的燃料喷射控制器确定燃烧状态已经恶化，并且如果确定燃烧波动，则在气缸的循环中，在多个喷射事件中执行用于将燃料分批喷射到每个气缸中的分流喷射大于发动机运转期间的预定判定值。燃料喷射控制器增加分流喷射中的第一喷射事件的喷射量的比例，并随着燃烧波动的增加而延长喷射事件之间的喷射间隔。因此，喷射的燃料的湿量被减少以加速喷射的燃料的雾化并使气缸内的混合气体均化。结果，燃烧状态得到改善。

10. 发明申请

US20050165536A1 Diagnosis system for variable valve controller 有权
标题翻译：可变气门控制器诊断系统
公开(公告)号：US20050165536A1
公开(公告)日：2005-07-28
申请号：US11038413
申请日：2005-01-21
申请人： Osamu Fukasawa , Hideki Obayashi
发明人： Osamu Fukasawa , Hideki Obayashi
IPC分类号： F01L13/00 , F02D13/02 , F02D41/22 , F02D45/00 , F02P5/15 , F02P5/152 , G06F19/00
CPC分类号： F02D41/221 , F02D35/027 , F02D2041/001 , F02P5/1526 , Y02T10/46
摘要： A control mode of an intake valve lift controller is changed between a low-speed mode and a high-speed mode. Based on the control mode, an ignition timing is adjusted. When a knocking is detected by a knock sensor after the control mode is changed from the low-speed mode to the high-speed mode, it is determined that the intake valve lift controller has a malfunction in which the intake valve lift controller is stuck in the low-speed mode. When a combustion stability is lowered to a predetermined level after the control mode is changed from the high-speed mode to the low-speed mode, it is determined that the intake valve lift controller has a malfunction in which the intake valve lift controller is stuck in the high-speed mode.
摘要翻译：进气门升程控制器的控制模式在低速模式和高速模式之间变化。基于控制模式，调整点火正时。在控制模式从低速模式切换到高速模式之后，当爆震传感器检测到爆震时，确定进气门提升控制器具有进气门提升控制器被卡住的故障低速模式。在将控制模式从高速模式改变为低速模式之后，当燃烧稳定性降低到预定水平时，确定进气门升程控制器具有进气门升程控制器卡住的故障在高速模式下。

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