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    • 5. 发明授权
    • Fuel injection system
    • 燃油喷射系统
    • US06367452B1
    • 2002-04-09
    • US09594731
    • 2000-06-16
    • Nobuhiko ShimaTadashi Nonomura
    • Nobuhiko ShimaTadashi Nonomura
    • F02M4100
    • F02D41/3845F02D2041/2027F02D2250/31F02M59/34F02M63/0225
    • A common rail fuel injection system for controlling the opening area of the fuel metering valve inserted in the fuel supply passage for supplying the fuel to the fuel injection pump to control, to a target pressure, fuel pressure in the common rail which holds the fuel delivered from the fuel injection pump. In the steady-state operation, the solenoid current is controlled by duty control at control frequency preset with an importance placed on the control stability. After determining the transient of control from the amount of change in the target common rail pressure which is a target of control, the control frequency is changed to a lower low frequency for a specific time until the common rail pressure reaches the target pressure. As a result, the valve body moves fast, thereby gaining a high control response despite of unsteady behavior of the valve body of the metering valve.
    • 一种共轨燃料喷射系统,用于控制插入到燃料供给通道中的燃料计量阀的开口面积,以将燃料供给到燃料喷射泵,以将目标压力控制在保持输送的燃料的共轨中的燃料压力 从燃油喷射泵。 在稳态运行中,螺线管电流由预设控制频率的占空比控制,重点在于控制稳定性。 根据作为控制对象的目标共轨压力的变化量确定控制瞬变,将控制频率变更为较低的低频直到共轨压力达到目标压力。 结果,阀体快速移动,从而获得高的控制响应,尽管计量阀的阀体不稳定。
    • 6. 发明授权
    • Fuel injection system for internal combustion engine
    • 内燃机燃油喷射系统
    • US06311674B1
    • 2001-11-06
    • US09291181
    • 1999-04-14
    • Toshihiko IgashiraShigeiku EnomotoTadaaki MakinoYutaka MiyamotoYasuhiro HoriuchiNobuhiko Shima
    • Toshihiko IgashiraShigeiku EnomotoTadaaki MakinoYutaka MiyamotoYasuhiro HoriuchiNobuhiko Shima
    • F02M4100
    • F02D41/3845F02D41/408F02D2041/2027F02M59/34F02M63/0017F02M63/004F02M63/0225Y02T10/44
    • A fuel injection apparatus for an internal combustion engine is provided which is designed to control a fuel discharge from a fuel injection pump by regulating the quantity of fuel sucked into the fuel injection pump. The fuel injection pump is driven in synchronism with rotation of the engine to pressurize and supply the fuel to an accumulator chamber from which the fuel is injected into cylinders of the engine. The solenoid valve moves a valve member linearly to open and close a fluid path leading to the fuel injection pump. The controller actuates the solenoid valve in one of a first control mode when the engine speed is low and a second control mode when the engine speed is high. In the first control mode, a valve on-duration in which the solenoid valve is turned on to open the fluid path through the valve member and an area of the fluid path opened by the valve member are both controlled. In the second control mode, only the opened area of the fluid path is controlled. This achieves fine adjustment of quantity of fuel discharged from the fuel injection pump over a wide range of engine speeds.
    • 提供了一种用于内燃机的燃料喷射装置,其被设计成通过调节吸入燃料喷射泵的燃料量来控制来自燃料喷射泵的燃料排放。 燃料喷射泵与发动机的旋转同步地驱动,以将燃料加压和供给到蓄能室,燃料从该腔室喷射到发动机的气缸中。 电磁阀线性地移动阀构件以打开和关闭通向燃料喷射泵的流体路径。 当发动机转速低时,控制器以第一控制模式中的一个启动电磁阀,当发动机转速高时,控制器启动第二控制模式。 在第一控制模式中,控制电磁阀打开以打开通过阀构件的流体路径的阀持续时间和由阀构件打开的流体路径的区域。 在第二控制模式中,仅控制流体路径的打开区域。 这实现了在大范围的发动机转速下从燃料喷射泵排出的燃料量的微调。
    • 7. 发明授权
    • Tool with tool body and protective layer system
    • 工具与工具体和保护层系统
    • US06844069B2
    • 2005-01-18
    • US09964601
    • 2001-09-28
    • Hans BraendleNobuhiko Shima
    • Hans BraendleNobuhiko Shima
    • B23C5/16B23C5/10C23C14/00C23C14/06C23C14/54C23C30/00B32B9/00B32B9/04
    • C23C14/0021C23C14/0641C23C30/005Y10T428/30
    • There is proposed a tool with a tool body and a wear resistant layer system, which layer system comprises at least one layer of MeX. Me comprises titanium and aluminum and X is nitrogen or carbon. The tool has a tool body of high speed steel (HSS) or of cemented carbide, but it is not a solid carbide end mill and not a solid carbide ball nose mill. In the MeX layer the quotient QI as defined by the ratio of the diffraction intensity I(200) to I(111) assigned respectively to the (200) and (111) plains in the X ray diffraction of the material using θ-2θ method is selected to be ≧1. Further, the I(200) is at least twenty times larger than the intensity average noise value, both measured with a well-defined equipment and setting thereof.
    • 提出了一种具有工具主体和耐磨层系统的工具,该层系统包括至少一层MeX。 Me包含钛和铝,X是氮或碳。 该工具具有高速钢(HSS)或硬质合金的工具主体,但它不是整体硬质合金立铣刀而不是整体硬质合金球头铣刀。 在MeX层中,使用θ-2θ方法在材料的X射线衍射中分别分配给(200)和(111)平原的衍射强度I(200)与I(111)的比率所定义的商QI 被选为> = 1。 此外,I(200)比强度平均噪声值大至少二十倍,两者均用明确的设备及其设置来测量。
    • 10. 发明授权
    • Engine control apparatus
    • 发动机控制装置
    • US08919314B2
    • 2014-12-30
    • US13239861
    • 2011-09-22
    • Tatsuya SaitoNobuhiko ShimaTetsuo Morita
    • Tatsuya SaitoNobuhiko ShimaTetsuo Morita
    • F02N11/08
    • F02N11/0822F02N2200/0801F02N2200/102Y02T10/48
    • An engine control apparatus is configured to perform engine automatic stop to automatically stop an engine when predetermined engine stop conditions are satisfied and automatically restart the engine when predetermined engine restart conditions are satisfied. The stop conditions including that a vehicle speed decreases below a predetermined stop permission speed. The engine control apparatus includes a variation amount detection means for detecting a variation amount of a brake operation being performed by the vehicle driver during a deceleration period from when the vehicle has started to decelerate to when the vehicle speed has decreased below the stop permission speed, and a stop determination means for determining whether the engine automatic stop should be performed when the engine stop conditions are satisfied based on the variation amount detected by the variation amount detection means.
    • 发动机控制装置被配置为执行发动机自动停止以在满足预定的发动机停止条件时自动停止发动机,并且当满足预定的发动机重起状态时自动重启发动机。 包括车速降低到预定的停止允许速度以下的停止条件。 发动机控制装置包括:变化量检测装置,用于在从车辆开始减速到当车速降低到停止许可速度以下的减速期间中检测由驾驶员执行的制动操作的变化量; 以及停止确定装置,用于基于由变化量检测装置检测到的变化量来确定是否在满足发动机停止条件时执行发动机自动停止。