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    • 21. 发明授权
    • Clutch control device
    • 离合器控制装置
    • US07967727B2
    • 2011-06-28
    • US12318200
    • 2008-12-23
    • Kiyoshi NagamiYoshio UmemuraMakoto HashizumeTakashi Kato
    • Kiyoshi NagamiYoshio UmemuraMakoto HashizumeTakashi Kato
    • B60W10/02
    • F16H61/143F16D48/066F16D2500/3024F16D2500/70406F16D2500/70426F16D2500/7061F16D2500/70631F16H2061/145Y10T477/78Y10T477/79
    • An oil pressure command value for slip-control of a lock-up clutch of a torque converter is calculated based on a feed-forward oil pressure value calculated by an FF value calculating unit and a feed-back oil pressure value calculated by a feedback value calculating unit. When the feedback oil pressure value is calculated, a deviation out-of-range determining unit determines whether a deviation between actual rotational speed difference and target rotational speed difference is outside of a predetermined range. If the deviation is outside of the predetermined range, a feedback value correcting unit calculates a correction value and corrects the feedback oil pressure value. Therefore, when the deviation is outside of the predetermined range, the actual rotational speed difference is brought into convergence with the target rotational speed difference with rapid response. When the deviation falls within the predetermined range, normal feedback control is adopted to assure stability without overshooting, even in a high engine speed, high engine torque state.
    • 基于由FF值计算单元计算的前馈油压值和由反馈值计算的反馈油压值,计算用于变矩器的锁止离合器的滑差控制的油压指令值 计算单位。 当计算出反馈油压值时,偏差超出范围确定单元确定实际转速差和目标转速差之间的偏差是否在预定范围之外。 如果偏差在预定范围之外,则反馈值校正单元计算校正值并校正反馈油压值。 因此,当偏差超出预定范围时,实际转速差与目标转速差快速响应。 当偏差落在预定范围内时,即使在高发动机转速,高发动机转矩状态下也采用正常反馈控制来确保稳定性而不会过冲。
    • 22. 发明申请
    • METHOD FOR CUTTING WITH GAS AND APPARATUS FOR CUTTING WITH GAS
    • 用于切割气体的方法和用于切割气体的装置
    • US20110146846A1
    • 2011-06-23
    • US13060843
    • 2009-08-19
    • Masayuki NagahoriHirotaka KamikiharaTakashi TakedaToyoyuki SatoYasuyuki YamamotoTakashi Kato
    • Masayuki NagahoriHirotaka KamikiharaTakashi TakedaToyoyuki SatoYasuyuki YamamotoTakashi Kato
    • B23K7/00B23K7/06
    • F23D14/42B23K7/008F23C2900/9901F23D14/32F23K5/007F23K2401/201F23K2900/05004F23N3/005F23N2037/08F23N2041/11
    • The object of the present invention is to provide a method for cutting with gas which uses a cutting tip including a preheating hole for forming a preheating flame with a fuel gas and an oxygen gas for preheating, and an oxygen gas hole for cutting a workpiece by injecting oxygen gas for cutting, and which can decrease an amount of hydrogen gas used by supply a fuel gas to the preheating hole, which is appropriate in both heating and cutting the workpiece, and an apparatus for cutting with gas, and the present invention provides an apparatus for cutting with gas (30) which supplies an oxygen gas, and a fuel gas to a cutting tip (20) including a preheating hole (23) and an oxygen gas hole for cutting (22), wherein the apparatus (30) includes a supply circuit for oxygen gas (50), a supply circuit for hydrogen gas (41), a supply circuit for hydrocarbon-based gas (45), and a gas supply control means (60), and the gas supply control means (60) can alter a ratio of the hydrogen gas and the hydrocarbon-based gas which are supplied to the preheating hole in a case of heating the workpiece and a case of cutting the workpiece.
    • 本发明的目的是提供一种使用包括用于形成预热火焰的预热孔的切割尖端的燃料气体和氧气用于预热的气体切割方法,以及用于切割工件的氧气孔 注入用于切割的氧气,并且通过在加热和切割工件时适合于预热孔中的燃料气体供给所使用的氢气量以及用气体切割的设备,本发明提供 一种用于向供给氧气的气体(30)进行切割的装置和向包括预热孔(23)和用于切割的氧气孔(22)的切割尖端(20)进行切割的燃料气体,其中,所述装置(30) 包括氧气供给回路(50),氢气供给回路(41),烃类气体供给回路(45)以及气体供给控制单元(60),气体供给控制单元 60)可以改变氢气和h的比例 在加热工件的情况下供给预热孔的基于碳基的气体和切割工件的情况。
    • 23. 发明授权
    • Semiconductor laser and optical integrated semiconductor device
    • 半导体激光器和光学集成半导体器件
    • US07949020B2
    • 2011-05-24
    • US12435562
    • 2009-05-05
    • Takashi Kato
    • Takashi Kato
    • H01S3/10
    • H01S5/06258B82Y20/00H01S5/0268H01S5/0425H01S5/1039H01S5/2224H01S5/227H01S5/3211H01S5/34306H01S5/4087
    • A tunable distributed feedback semiconductor laser includes a substrate; an optical waveguide structure disposed on a main surface of the substrate and including an active layer and a diffraction grating, the optical waveguide structure being divided into a first DFB portion, a wavelength-tuning region, and a second DFB portion in that order; a first electrode for injecting carriers into the active layer in the first DFB portion; a second electrode for injecting carriers into the active layer in the second DFB portion; and a third electrode for supplying a wavelength tuning signal to the wavelength-tuning region. The diffraction grating extends over the first DFB portion, the wavelength-tuning region, and the second DFB portion. An optical confinement factor of the wavelength-tuning region is smaller than that of the first and second DFB portions.
    • 可调谐分布反馈半导体激光器包括:基板; 光波导结构,其设置在所述基板的主表面上并且包括有源层和衍射光栅,所述光波导结构按顺序分为第一DFB部分,波长调谐区域和第二DFB部分; 用于将载体注入第一DFB部分中的有源层的第一电极; 用于将载体注入到第二DFB部分中的有源层中的第二电极; 以及用于向波长调谐区域提供波长调谐信号的第三电极。 衍射光栅在第一DFB部分,波长调谐区域和第二DFB部分上延伸。 波长调谐区域的光限制因子小于第一DFB部分和第二DFB部分的光限制因子。
    • 25. 发明授权
    • Method for driving liquid crystal light modulating device, and liquid crystal light modulating device
    • 驱动液晶光调制装置的方法和液晶光调制装置
    • US07859638B2
    • 2010-12-28
    • US11707939
    • 2007-02-20
    • Naoyuki HayashiTakashi Kato
    • Naoyuki HayashiTakashi Kato
    • C09K19/02C09K19/60
    • G02F1/13306G02F1/13718G02F2202/043
    • The present invention provides a driving method using a liquid crystal light modulating device including transparent electrodes which each have a horizontally alignment film; and a liquid crystal composition which contains at least a chiral dopant, a dichroic dye and a host liquid crystal. The transparent electrodes face each other to have a cell gap having a width of 10 μm or less therebetween. The liquid crystal composition is filled into the cell gap, and has a positive dielectric constant anisotropy. The driving method attains display-switching by (a) applying a higher voltage than a threshold voltage of the liquid crystal composition into the device so as to be transparent and colorless, (b) applying a lower voltage than a threshold voltage so as to be light-scattered white, or (c) applying no voltage so as to be colored.
    • 本发明提供一种使用具有各自具有水平取向膜的透明电极的液晶光调制装置的驱动方法, 以及含有至少手性掺杂剂,二色性染料和主液晶的液晶组合物。 透明电极彼此面对,具有宽度为10μm以下的单元间隙。 将液晶组合物填充到电池间隙中,并具有正介电常数各向异性。 驱动方法是通过(a)将比液晶组合物的阈值电压高的电压施加到器件中以透明和无色的方式实现显示切换,(b)施​​加比阈值电压低的电压,以便 散光白色,或(c)不施加电压使其着色。
    • 26. 发明授权
    • Sub-frame structure
    • 子框架结构
    • US07836999B2
    • 2010-11-23
    • US12218518
    • 2008-07-16
    • Takashi Kato
    • Takashi Kato
    • B62D21/02
    • B62D21/11B62D21/155
    • A sub-frame structure, which mounts a fuel cell thereon and is supported by a vehicle body, the sub-frame structure including: front and rear cross members which support front and rear ends of the fuel cell on upper surfaces thereof and extend in a vehicle width direction; an intermediate cross member that is provided between the front and rear cross members and extends in the vehicle width direction; and a pair of side members that connects the front and rear cross members and the intermediate cross member and extends along side surfaces of the fuel cell, wherein a space having a predetermined size is formed between (a) a portion of the intermediate cross member, which is provided between the pair of side members, and (b) a lower surface of the fuel cell.
    • 一种副框架结构,其在其上安装燃料电池并被车身支撑,所述副框架结构包括:前后横梁,其支撑在其上表面上的燃料电池的前端和后端,并在 车宽方向; 中间横梁,设置在所述前后横梁之间并沿车宽方向延伸; 以及一对侧部构件,其连接所述前后横梁和所述中间横梁,并且沿着所述燃料电池的侧表面延伸,其中在所述中间横梁的一部分之间形成具有预定尺寸的空间, 设置在一对侧构件之间,(b)燃料电池的下表面。
    • 28. 发明申请
    • ELECTRONIC KEYBOARD INSTRUMENT
    • 电子键盘仪表
    • US20100147132A1
    • 2010-06-17
    • US12640632
    • 2009-12-17
    • Akiko ShinjoHideki IshiharaTakashi KatoTakashi Fujita
    • Akiko ShinjoHideki IshiharaTakashi KatoTakashi Fujita
    • G10C3/06
    • G10H1/32
    • An electronic keyboard instrument in which the efficiency of sound emission is enhanced by preventing a soundboard portion having a large vibration amplitude from being hidden by a musical score plate to make sound emission of the soundboard to be hardly hindered by the musical score plate. A musical stand device is disposed rearward of a key-depression part of a keyboard and right above the soundboard, and has a musical score plate disposed close to and parallel to an upper surface of the soundboard when the musical score plate is in a fallen state. The soundboard is excited for sound production by transducers disposed on a lower surface of the soundboard. The transducers are disposed at positions where the transducers do not overlap, as viewed in plan, the musical score plate which is in the fallen state.
    • 一种电子键盘乐器,其中通过防止具有较大振动振幅的音板部分被音乐记号板隐藏而增强了声音发射的效率,使得音板的声音发射几乎不受音乐记录板的阻碍。 音乐台装置设置在键盘的按键部分的正后方的正上方,并且当乐谱板处于跌落状态时具有靠近并平行于音板上表面的乐谱板 。 通过放置在音板下表面的传感器,音板可以很好地发声。 换能器设置在换能器不重叠的位置,如在计划中所看到的处于坠落状态的乐谱。
    • 29. 发明授权
    • Projection optical system
    • 投影光学系统
    • US07714985B2
    • 2010-05-11
    • US11751139
    • 2007-05-21
    • Hiroyuki YuukiTakashi Kato
    • Hiroyuki YuukiTakashi Kato
    • G03B27/54G03B27/72G03B27/42
    • G02B17/0892G03F7/70225G03F7/70275G03F7/70941
    • At least one exemplary embodiment is directed to a projection optical system that projects an image of a pattern of a first object onto a second object includes a first image forming optical system, a second image forming optical system, and a light-shielding member. The first image forming optical system forms an intermediate image of the pattern, and includes a concave mirror and a reflecting mirror. The concave mirror has a reflecting surface opposing the second object. The reflecting mirror directs light from the first object to the concave mirror. The second image forming optical system forms an image of the intermediate image onto the second object, and includes a lens. The light-shielding member is disposed between the concave mirror and the lens.
    • 至少一个示例性实施例涉及将第一物体的图案的图像投影到第二物体上的投影光学系统,包括第一成像光学系统,第二成像光学系统和遮光构件。 第一成像光学系统形成图案的中间图像,并且包括凹面镜和反射镜。 凹面镜具有与第二物体相对的反射面。 反射镜将来自第一物体的光引导到凹面镜。 第二成像光学系统将中间图像的图像形成到第二物体上,并且包括透镜。 遮光构件设置在凹面镜和透镜之间。