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    • 1. 发明专利
    • Temperature sensor element and temperature sensor
    • 温度传感器元件和温度传感器
    • JP2008309526A
    • 2008-12-25
    • JP2007155445
    • 2007-06-12
    • Nippon Soken IncToyota Motor Corpトヨタ自動車株式会社株式会社日本自動車部品総合研究所
    • SATO TAKAAKINAKASE YOSHIHIROIBUKI TAKUNAKAYAMA SHIGEKI
    • G01K7/02
    • PROBLEM TO BE SOLVED: To provide a temperature sensor element and a temperature sensor, each capable of preventing its mechanical strength from degrading, while maintaining its temperature-following capability against a change in temperature.
      SOLUTION: The temperature sensor element and the temperature sensor are characterized by comprising: a substrate 102d including a thick-wall part 102x having a prescribed thickness and a thin-wall part 102y thinner than the thick-wall part; an electric insulating film 102a formed on the substrate 102d; a first thermocouple film 102b formed on the electric insulating film 102a on the thick-wall part 102x; and a second thermocouple film 102c formed so as to traverse the upper surface of the electric insulating film 102a on the thin-wall part 102y.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种温度传感器元件和温度传感器,每个温度传感器元件和温度传感器能够防止其机械强度降低,同时保持其温度跟随能力抵抗温度变化。 解决方案:温度传感器元件和温度传感器的特征在于包括:衬底102d,其包括具有规定厚度的厚壁部分102x和比厚壁部分薄的薄壁部分102y; 形成在基板102d上的电绝缘膜102a; 形成在厚壁部102x上的电绝缘膜102a上的第一热电偶膜102b; 以及形成为在薄壁部102y上横越电绝缘膜102a的上表面的第二热电偶膜102c。 版权所有(C)2009,JPO&INPIT
    • 3. 发明专利
    • Injection control device for internal combustion engine
    • 用于内燃机的喷射控制装置
    • JP2008045452A
    • 2008-02-28
    • JP2006220074
    • 2006-08-11
    • Nippon Soken IncToyota Motor Corpトヨタ自動車株式会社株式会社日本自動車部品総合研究所
    • TAKAHASHI YUKIHIRONAKASE YOSHIHIROKATO YUICHIICHINOSE HIROKI
    • F02D41/06F02D45/00
    • PROBLEM TO BE SOLVED: To inhibit deterioration of environmental performance of an internal combustion engine caused by an excessive fuel injection quantity in start. SOLUTION: ECU 100 executes start injection control process to determine a fuel injection quantity of first cycle in starting in each cylinder of an engine 200. In the process, an intake stroke rotation speed R is estimated for each cylinder and a cylinder flow-in rate Crate_o which is a ratio of fuel flowing into a cylinder is determined for each cylinder, based on the intake stoke rotation speed R. Moreover, a base injection quantity Mbase is corrected based on the cylinder flow-in rate Crate_o to set a base cylinder flow-in quantity Cf evenly determined for each cylinder by cooling water temperature Tw and fuel properties Fp at a cylinder flow-in quantity Cf_o actually flowing in each cylinder. Consequently, the optimal fuel injection quantity M of the first cycle in starting is determined for each cylinder, and fuel equivalent to the fuel injection quantity M is injected to an intake air port 213 by an injector 214 in the first cycle in starting. COPYRIGHT: (C)2008,JPO&INPIT
    • 要解决的问题:为了抑制起动时由过多的燃料喷射量引起的内燃机的环境性能的劣化。 解决方案:ECU100执行启动喷射控制处理以确定在发动机200的每个气缸中启动时的第一循环的燃料喷射量。在该过程中,针对每个气缸和气缸流量估计进气冲程转速R 基于进气起动转速R,针对每个气缸确定作为流入气缸的燃料的比率的速率Crate_o。此外,基于气缸流入速率Crate_o来校正基准喷射量Mbase,以设定 基础气缸流入量Cf通过冷却水温度Tw和每个气缸中实际流动的气缸流入量Cf_o的燃料特性Fp均匀地确定每个气缸。 因此,对于每个气缸确定启动中的第一循环的最佳燃料喷射量M,并且在起动时,通过喷射器214将与燃料喷射量M相当的燃料喷射到第一循环中的喷射器214。 版权所有(C)2008,JPO&INPIT
    • 7. 发明专利
    • INTAKE FOREIGN SOUND REDUCING STRUCTURE
    • JPH11141420A
    • 1999-05-25
    • JP30703597
    • 1997-11-10
    • TOYOTA MOTOR CORPNIPPON SOKEN
    • MIYAJI YOSHIHIROOHARA YASUSHINAKASE YOSHIHIRO
    • F02M35/10F02D9/10F02M35/12F16L55/02
    • PROBLEM TO BE SOLVED: To reduce the foreign sound from an intake manifold surge tank by arranging a net in a part of an intake passage cross section in the downstream and vicinity of a throttle valve, and arranging a plurality of current straightening plates extending in the direction parallel to the intake passage axial core in a part of the remaining part. SOLUTION: This intake foreign sound reducing structure comprises a net 1 provided in a part of an intake passage cross section and a plurality of current straightening plates 7 provided in at least a part of the part having no net 1 of the intake passage cross section. The net 1 is provided in the part to which the flow carried through the clearance between the part brought down on the upstream side of a throttle valve 2 in opening and a passage wall 8 is collided, so that the turbulence of the flow can be reduced and the generation of the vibration of the passage wall 8 and generation of the foreign sound can be suppressed. Further by installing the current straightening plate 7, whereby the flow carried through the clearance between the part fallen on the downstream side in opening and the passage wall 8 is prevented from being dispersed in lateral direction when carried to the part of the current straightening plates 7, so that the turbulence of the flow is hardly caused.
    • 9. 发明专利
    • Internal combustion engine fuel supply device for alcohol blended fuel
    • 用于酒精混合燃料的内燃机燃油供应装置
    • JP2011001881A
    • 2011-01-06
    • JP2009145546
    • 2009-06-18
    • Nippon Soken IncToyota Motor Corpトヨタ自動車株式会社株式会社日本自動車部品総合研究所
    • SUZUKI KENRYONAKASE YOSHIHIROWADA KOJI
    • F02D19/08
    • PROBLEM TO BE SOLVED: To provide an internal combustion engine fuel supply device for alcohol blended fuel, capable of promoting vaporization of fuel without using a heater.SOLUTION: A water temperature sensor 65 for detecting an engine cooling water temperature and an alcohol concentration sensor 66 for detecting a concentration of alcohol contained in fuel to be supplied to a fuel injection valve 34 are connected to an electronic control device 100. The electronic control device 100 adjusts the pressure of the fuel to be supplied to the fuel injection valve 34 by controlling, based on the engine cooling water temperature and the alcohol concentration, a fuel pressure regulating valve 53 so that the fuel pressure is higher as the engine cooling water temperature is lower and also as the alcohol concentration is higher.
    • 要解决的问题:提供一种能够在不使用加热器的情况下促进燃料蒸发的醇混合燃料的内燃机燃料供给装置。解决方案:用于检测发动机冷却水温度的水温传感器65和醇浓度传感器66 用于检测供给到燃料喷射阀34的燃料中所含的醇的浓度被连接到电子控制装置100.电子控制装置100通过控制来调节供给到燃料喷射阀34的燃料的压力, 基于发动机冷却水温度和酒精浓度的燃料压力调节阀53,使得燃料压力随着发动机冷却水温度较低以及酒精浓度较高而较高。
    • 10. 发明专利
    • Liquid membrane thickness measurement device and controller for internal combustion engine
    • 液体厚度测量装置和内燃机控制器
    • JP2009103630A
    • 2009-05-14
    • JP2007277154
    • 2007-10-25
    • Nippon Soken IncToyota Motor Corpトヨタ自動車株式会社株式会社日本自動車部品総合研究所
    • TAKAHASHI YUKIHIRONAKASE YOSHIHIROICHINOSE HIROKIKATO YUICHI
    • G01B11/06F02D41/04F02D45/00
    • PROBLEM TO BE SOLVED: To provide a liquid membrane thickness measurement device, capable of measuring the thickness of liquid membrane with high accuracy, using the fluorescent phenomena of the liquid membrane capable of preferably being used for an internal combustion engine.
      SOLUTION: The liquid membrane thickness measurement device includes a light-emitting element for emitting ultraviolet light; a half mirror for transferring the ultraviolet light emitted from the light-emitting element and reflecting the light containing the fluorescent light from the liquid membrane side; an optical fiber for transferring the ultraviolet light passed through the half mirror, from the light-emitting element to the liquid membrane and transferring the light, including the fluorescent light emitted from the liquid membrane to the half mirror side; an ultraviolet light cut filter for only passing the fluorescent light from the light, including the fluorescent light reflected by the half mirror; and a light sensor for detecting the intensity of the fluorescent light of the liquid membrane, by receiving the fluorescent light that has passed through the ultraviolet light cut filter and also outputting the voltage value corresponding to the intensity of the fluorescent of the liquid membrane. Each of those constituent elements is accommodated in one cabinet. Thus, the liquid membrane thickness measurement device capable of calculating the thickness of the liquid membrane using the outputting voltage of the optical sensor can be obtained.
      COPYRIGHT: (C)2009,JPO&INPIT
    • 要解决的问题:提供一种能够以能够优选用于内燃机的液膜的荧光现象,高精度地测量液膜厚度的液膜测厚装置。 液体膜厚测量装置包括用于发射紫外光的发光元件; 用于转移从发光元件发射的紫外光并从液膜侧反射含有荧光的光的半反射镜; 将通过半反射镜的紫外线从发光元件转移到液膜并将包含从液膜发出的荧光的光传输到半反射镜的光纤; 紫外光截止滤光器,用于仅使来自光的荧光包含由半反射镜反射的荧光; 以及光传感器,用于通过接收穿过紫外线截止滤光器的荧光并且还输出与液膜的荧光强度对应的电压值来检测液膜的荧光强度。 这些构成元件中的每一个都容纳在一个机柜中。 因此,可以获得能够使用光学传感器的输出电压计算液膜的厚度的液膜厚度测量装置。 版权所有(C)2009,JPO&INPIT