会员体验
专利管家(专利管理)
工作空间(专利管理)
风险监控(情报监控)
数据分析(专利分析)
侵权分析(诉讼无效)
联系我们
交流群
官方交流:
QQ群: 891211   
微信请扫码    >>>
现在联系顾问~
热词
    • 1. 发明授权
    • Failure diagnosis apparatus for temperature sensor
    • 温度传感器故障诊断装置
    • US06980904B2
    • 2005-12-27
    • US10998054
    • 2004-11-29
    • Eisaku GoshoToshinori Tsukamoto
    • Eisaku GoshoToshinori Tsukamoto
    • F02D45/00F02D41/00F02D41/04F02D41/06F02D41/22G01K15/00G06G7/70G06F19/00
    • G01K15/00F02D41/042F02D41/064F02D41/222F02D2200/023F02D2200/0414G01K2205/00Y02T10/40
    • A failure diagnosis apparatus for a temperature sensor which detects a temperature that changes depending on an operating condition of an internal combustion engine. Determining that the temperature sensor fails, if the execution condition of the failure determination is satisfied and a temperature difference between the maximum temperature and the minimum temperature detected by the temperature sensor in the determination period, is less than a failure determination threshold value, when the starting of the engine in the preceding engine operation cycle was a cold start. Alternatively, determining that the temperature sensor fails, if the execution condition is satisfied, the temperature difference between the maximum temperature and the minimum temperature is less than the failure determination threshold value, and an engine stop period in the preceding engine operation cycle is longer than a failure determination permission time period, when the starting of the engine in the preceding engine operation cycle was not a cold start.
    • 一种温度传感器的故障诊断装置,其检测根据内燃机的运转状态而变化的温度。 确定温度传感器故障,如果在确定期间满足故障判定的执行条件和由温度传感器检测到的最高温度与最低温度之间的温度差小于故障判定阈值,则 发动机在前一个发动机运行循环中的起动是一个冷启动。 或者,如果满足执行条件,则判定温度传感器发生故障,最高温度与最低温度之间的温度差小于故障判定阈值,前一个发动机运转周期内的发动机停止期间比 当前一个发动机运转循环中发动机起动不是冷启动时的故障判定允许时间段。
    • 2. 发明授权
    • Air-fuel ratio control system for internal combustion engines
    • 内燃机空燃比控制系统
    • US5941212A
    • 1999-08-24
    • US150208
    • 1998-09-09
    • Akira MurakamiSeiichi HosogaiShigeo HidaiEisaku Gosho
    • Akira MurakamiSeiichi HosogaiShigeo HidaiEisaku Gosho
    • F02D41/04F02D41/10F02D41/12F02D41/14
    • F02D41/1487F02D41/123F02D2200/0406F02D2200/0414F02D2200/501
    • An air-fuel ratio control system for an internal combustion engine includes an ECU which cuts off fuel supply to the engine at deceleration thereof, measures a fuel cut-off period over which the fuel cut-off means cuts off fuel supply to the engine, and enriches the air-fuel ratio of a mixture supplied to the engine to a degree dependent upon the measured fuel cut-off period, at the restart of fuel supply to the engine immediately after termination of cutting-off of fuel supply to the engine. When a second cutting-off of fuel supply to the engine is carried out within a predetermined time period after the restart of fuel supply to the engine immediately after termination of a first cutting-off of fuel supply to the engine, the ECU sets the degree of enriching the air-fuel ratio of the mixture supplied to the engine according to the sum of a first fuel cut-off period over which the first cutting-off of fuel supply to the engine lasted and a second fuel cut-off period over which the second cutting-off of fuel supply to the engine lasted.
    • 用于内燃机的空燃比控制系统包括:ECU,其在减速时切断对发动机的燃料供给,测量燃料切断期间燃料切断装置切断对发动机的燃料供给, 并且在停止向发动机的燃料供给终止之后立即将供给到发动机的混合物的空燃比丰富到取决于测量的燃料截止周期的程度。 当在首次切断向发动机的燃料供给终止之后,在重新开始向发动机供给燃料之后的预定时间段内进行向发动机的燃料供给的第二切断时,ECU设定程度 根据第一燃料切断期间和发动机持续时间的第一燃料供给停止的第一燃料切断期和第二燃料切断期间的总和,提供供给发动机的混合物的空燃比, 向发动机提供燃油的第二次切断持续。
    • 3. 发明授权
    • Exhaust gas purifying apparatus for internal combustion engine
    • 内燃机用废气净化装置
    • US08333061B2
    • 2012-12-18
    • US12239171
    • 2008-09-26
    • Daisuke SatoHidetaka MakiJun IidaEisaku GoshoHiroaki Nishino
    • Daisuke SatoHidetaka MakiJun IidaEisaku GoshoHiroaki Nishino
    • F01N3/00F02B27/04
    • F01N11/002F01N2550/04F01N2560/08Y02T10/47
    • An exhaust gas purifying apparatus for an internal combustion engine, including a particulate filter provided in an exhaust passage of the engine; a pressure difference sensor for detecting a pressure difference between upstream and downstream side pressures of the particulate filter; an upstream side passage, which connects the pressure difference sensor and an upstream side with respect to the particulate filter of the exhaust passage; and a downstream side passage, which connects the pressure difference sensor and a downstream side with respect to the particulate filter of the exhaust passage. An exhaust gas flow rate is calculated according to an operating condition of the engine. A characteristic of change in the pressure difference, which is detected by the pressure difference detector and corresponds to a change in the exhaust gas flow rate, is detected. An abnormality of the downstream side passage is determined based on the characteristic of change in the pressure difference.
    • 一种用于内燃机的废气净化装置,包括设置在发动机的排气通道中的颗粒过滤器; 用于检测微粒过滤器的上游侧压力和下游侧压力之间的压力差的压力差传感器; 上游侧通道,其连接压力差传感器和相对于排气通道的微粒过滤器的上游侧; 以及将压差传感器和下游侧相对于排气通路的微粒过滤器连接的下游侧通路。 根据发动机的运转状况来计算废气流量。 检测由压差检测器检测出的并对应于废气流量变化的压力差变化的特征。 基于压力差的变化的特性确定下游侧通路的异常。
    • 4. 发明申请
    • EXHAUST GAS PURIFYING APPARATUS FOR INTERNAL COMBUSTION ENGINE
    • 用于内燃机的排气净化装置
    • US20090084097A1
    • 2009-04-02
    • US12239171
    • 2008-09-26
    • Daisuke SATOHidetaka MAKIJun IIDAEisaku GOSHOHiroaki NISHINO
    • Daisuke SATOHidetaka MAKIJun IIDAEisaku GOSHOHiroaki NISHINO
    • F01N3/021F01N11/00
    • F01N11/002F01N2550/04F01N2560/08Y02T10/47
    • An exhaust gas purifying apparatus for an internal combustion engine, including a particulate filter provided in an exhaust passage of the engine; a pressure difference sensor for detecting a pressure difference between upstream and downstream side pressures of the particulate filter; an upstream side passage, which connects the pressure difference sensor and an upstream side with respect to the particulate filter of the exhaust passage; and a downstream side passage, which connects the pressure difference sensor and a downstream side with respect to the particulate filter of the exhaust passage. An exhaust gas flow rate is calculated according to an operating condition of the engine. A characteristic of change in the pressure difference, which is detected by the pressure difference detector and corresponds to a change in the exhaust gas flow rate, is detected. An abnormality of the downstream side passage is determined based on the characteristic of change in the pressure difference.
    • 一种用于内燃机的废气净化装置,包括设置在发动机的排气通道中的颗粒过滤器; 用于检测微粒过滤器的上游侧压力和下游侧压力之间的压力差的压力差传感器; 上游侧通道,其连接压力差传感器和相对于排气通道的微粒过滤器的上游侧; 以及将压差传感器和下游侧相对于排气通路的微粒过滤器连接的下游侧通路。 根据发动机的运转状况来计算废气流量。 检测由压差检测器检测出的并对应于废气流量变化的压力差变化的特征。 基于压力差的变化的特性确定下游侧通路的异常。
    • 5. 发明申请
    • FAILURE DIAGNOSIS APPARATUS FOR TEMPERATURE SENSOR
    • 故障诊断装置温度传感器
    • US20050137780A1
    • 2005-06-23
    • US10998054
    • 2004-11-29
    • Eisaku GoshoToshinori Tsukamoto
    • Eisaku GoshoToshinori Tsukamoto
    • F02D45/00F02D41/00F02D41/04F02D41/06F02D41/22G01K15/00G06G7/70
    • G01K15/00F02D41/042F02D41/064F02D41/222F02D2200/023F02D2200/0414G01K2205/00Y02T10/40
    • A failure diagnosis apparatus for a temperature sensor which detects a temperature that changes depending on an operating condition of an internal combustion engine. Determining that the temperature sensor fails, if the execution condition of the failure determination is satisfied and a temperature difference between the maximum temperature and the minimum temperature detected by the temperature sensor in the determination period, is less than a failure determination threshold value, when the starting of the engine in the preceding engine operation cycle was a cold start. Alternatively, determining that the temperature sensor fails, if the execution condition is satisfied, the temperature difference between the maximum temperature and the minimum temperature is less than the failure determination threshold value, and an engine stop period in the preceding engine operation cycle is longer than a failure determination permission time period, when the starting of the engine in the preceding engine operation cycle was not a cold start.
    • 一种温度传感器的故障诊断装置,其检测根据内燃机的运转状态而变化的温度。 确定温度传感器故障,如果在确定期间满足故障判定的执行条件和由温度传感器检测到的最高温度与最低温度之间的温度差小于故障判定阈值,则 发动机在前一个发动机运行循环中的起动是一个冷启动。 或者,如果满足执行条件,则判定温度传感器发生故障,最高温度与最低温度之间的温度差小于故障判定阈值,前一个发动机运转周期内的发动机停止期间比 当前一个发动机运转循环中发动机起动不是冷启动时的故障判定允许时间段。
    • 6. 发明授权
    • Failure diagnosis apparatus for evaporative fuel processing system
    • 蒸发燃料处理系统故障诊断装置
    • US06789523B2
    • 2004-09-14
    • US10246732
    • 2002-09-19
    • Hideyuki OkiEisaku GoshoTakashi Isobe
    • Hideyuki OkiEisaku GoshoTakashi Isobe
    • F02B7700
    • F02M25/0827F02D41/042F02D2200/0414F02D2200/0606
    • A failure diagnosis apparatus for diagnosing a failure in an evaporative fuel processing system is disclosed. The evaporative fuel processing system has a fuel tank, a canister containing an adsorbent for adsorbing evaporative fuel generated in the fuel tank, an air passage connected to the canister and communicating with the atmosphere, a first passage for connecting the canister and the fuel tank, a second passage for connecting the canister and an intake system of an internal combustion engine, a vent shut valve for opening and closing the air passage, and a purge control valve provided in the second passage. The purge control valve and the vent shut valve are closed when stoppage of the engine is detected and it is determined whether there is a leak in the evaporative fuel processing system according to the detected pressure in the evaporative fuel processing system during a predetermined determination time period after closing the purge control valve and the vent shut valve. The leak determination of the evaporative fuel processing system is inhibited when the difference between the gas layer temperature and the ambient temperature detected upon stoppage of the engine is less than or equal to a predetermined threshold.
    • 公开了一种用于诊断蒸发燃料处理系统中的故障的故障诊断装置。 蒸发燃料处理系统具有燃料箱,容纳用于吸附在燃料箱内产生的蒸发燃料的吸附剂的罐,与罐连通并连通的空气通路,连接罐和燃料箱的第一通路, 用于连接罐和内燃机的进气系统的第二通道,用于打开和关闭空气通道的排气关闭阀以及设置在第二通道中的清洗控制阀。 在检测到发动机停止时,清除控制阀和排气关闭阀关闭,并且在预定的确定时间段内确定蒸发燃料处理系统中是否根据检测到的压力在泄漏燃料处理系统中存在泄漏 关闭清洗控制阀和排气关闭阀后。 当发动机停止时检测到的气体层温度和环境温度之差小于或等于预定阈值时,蒸发燃料处理系统的泄漏确定被抑制。