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
    • 8. 发明授权
    • Unthrottled intake air control with partial delay for requested engine response performance
    • 无节制的进气控制,部分延迟要求发动机响应性能
    • US06513490B2
    • 2003-02-04
    • US09727787
    • 2000-12-04
    • Takao KawasakiMasahiro AraiHatsuo Nagaishi
    • Takao KawasakiMasahiro AraiHatsuo Nagaishi
    • F02D4100
    • F02D13/0234F01L9/04F01L2201/00F02D13/0203F02D13/0253F02D41/0002F02D41/083F02D43/00F02D45/00F02D2041/001F02D2041/002Y02T10/18Y02T10/42
    • A system and method for unthrottled intake air control for an internal combustion engine. The engine has at least one combustion chamber provided with electromagnetic intake means. The opening and closing times of the intake means are adjustable entirely independently from the crankshaft position to control intake air supplied to the combustion chamber. A control unit is used to implement instructions for determining a first portion of requested intake airflow, which first portion requests a first engine response performance, and instructions for determining a second portion of requested intake airflow, which second portion requests a second engine response performance. The control unit implements instructions for processing the first and second airflow portions to make contributions to the first and second engine response performances, respectively, instructions for determining an intake means activation command, and instructions for providing the intake means activation command to the intake means to provide an engine response performance combining the first engine response performance with the second engine response performance.
    • 一种用于内燃机的无节流进气调节的系统和方法。 发动机具有设置有电磁进气装置的至少一个燃烧室。 进气装置的打开和关闭时间可以完全独立于曲轴位置进行调节,以控制供给燃烧室的进气。 控制单元用于实现用于确定所请求的进气量的第一部分的指令,该第一部分请求第一发动机响应性能,以及用于确定所请求的进气流的第二部分的指令,该第二部分请求第二发动机响应性能。 控制单元执行用于处理第一和第二气流部分以分别对第一和第二发动机响应性能做出贡献的指令,分别用于确定进气装置启动命令的指令和用于将进气装置启动命令提供给进气装置的指令 提供将第一发动机响应性能与第二发动机响应性能相结合的发动机响应性能。
    • 10. 发明授权
    • Air/fuel ratio control apparatus
    • 空燃比控制装置
    • US5690086A
    • 1997-11-25
    • US716844
    • 1996-09-10
    • Akihiro KawanoHatsuo NagaishiYoshiaki Yoshioka
    • Akihiro KawanoHatsuo NagaishiYoshiaki Yoshioka
    • F02D41/00F02D41/14F02M25/08
    • F02D41/1483F02D41/0045F02D41/0042F02M25/08
    • An apparatus for use with an internal combustion engine having a fuel vapor trap from which fuel vapor is purged into the engine through a purge passage having a purge control valve provided therein. The purge control valve is controlled to permit fuel vapor purge through the purge passage based on the existing engine operating conditions. An air/fuel ratio feedback control correction factor is calculated to correct the air/fuel ratio within a predetermined range based on the air/fuel ratio of the mixture supplied to the engine. A gain value is calculated based on a deviation between the air/fuel ratio feedback correction factor calculated with the fuel vapor purge and the air/fuel ratio feedback correction factor calculated without the fuel vapor purge and a purge rate of the fuel vapor flow rate to the intake air flow rate. The calculated gain values are stored in a memory in respective memory locations addressable by different fuel vapor amounts. The calculated gain value is stored in the memory in a memory location corresponding to the sensed fuel vapor amount to update a gain value stored previously in the memory location. A gain value is read from the memory location corresponding to the fuel vapor amount. The amount of fuel supplied to the engine is controlled according to a target value calculated based on the read gain value and the engine operating conditions.
    • 一种与具有燃料蒸气阱的内燃机一起使用的装置,燃料蒸气通过具有设置在其中的清洗控制阀的吹扫通道从燃料蒸气排出到发动机中。 根据现有的发动机工作条件,控制清洗控制阀以允许通过吹扫通道的燃料蒸汽吹扫。 计算空气/燃料比反馈控制校正系数,以基于供给到发动机的混合物的空燃比来校正在预定范围内的空燃比。 基于由燃料蒸气吹扫计算出的空燃比反馈校正因子与没有燃料蒸气吹扫计算出的空燃比反馈校正因子和燃料蒸汽流量的吹扫率之间的偏差计算增益值 进气流量。 所计算的增益值被存储在可由不同燃料蒸汽量寻址的相应存储器位置的存储器中。 将计算出的增益值存储在与检测到的燃料蒸汽量对应的存储位置的存储器中,以更新先前存储在存储器位置中的增益值。 从对应于燃料蒸气量的存储位置读取增益值。 根据基于读取增益值和发动机工作条件计算的目标值来控制供给发动机的燃料量。