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    • 1. 发明授权
    • Catalyst combustion device
    • 催化剂燃烧装置
    • US06394789B1
    • 2002-05-28
    • US09622129
    • 2000-09-25
    • Hidetaka YabuuchiToshinari MatsumotoShinichi NakajimaTomoaki Kitano
    • Hidetaka YabuuchiToshinari MatsumotoShinichi NakajimaTomoaki Kitano
    • F23D340
    • F23C13/00F23C13/02F23C2900/13001F23D14/18F23D14/28F23D2900/00001F23D2900/14481F23N2037/12
    • A catalytic combustion apparatus comprises a combustor 11, a fuel tank 12, a valve 13, and an ignition device 14. The combustor 11 further comprises a gas nozzle 16, an air intake/ejector 17, a mixing chamber 18, a firing chamber 19, an ignition plug 20, a combustion chamber 21, a catalyst for combustion 22 housed inside the combustion chamber 21, and an exhaust port 23. The mixing chamber 18 is made into a straight cylindrical passage, a cylindrical firing chamber 19 is provided in parallel to the mixing chamber 18 so that an opening 24 on the side of the firing chamber 19 communicates with the combustion chamber 21, a burner port 25 is disposed on the boundary between the mixing chamber 18 and the firing chamber 19, and the burner 25 is configured with a catalytic net 25a. With this configuration, a flame is formed on the upstream side of the catalyst for combustion 22, the catalyst for combustion 22 is heated by the heat of the flame to a catalytic combustion enabling temperature thus also effecting catalytic combustion on the catalytic net 25a. The flame spontaneously disappears, and the catalyst for combustion 22 commences catalytic combustion. As catalytic combustion can be effected without fail even when the combustion chamber 21 is configured into a low profile, the thickness of the catalytic body can be reduced without reducing the combustion characteristics, thereby enabling reduction in the height of the burner and providing a downsized and thin catalytic combustion apparatus.
    • 催化燃烧装置包括燃烧器11,燃料箱12,阀13和点火装置14.燃烧器11还包括气体喷嘴16,进气/喷射器17,混合室18,燃烧室19 ,火花塞20,燃烧室21,燃烧室21内的燃烧用催化剂22和排气口23.混合室18形成为直的圆筒状的通路,圆筒形的燃烧室19平行设置 到混合室18,使得在燃烧室19一侧的开口24与燃烧室21连通,在混合室18和燃烧室19之间的边界上设有燃烧口25,燃烧器25是 配置有催化网25a。 由此,在燃烧用催化剂22的上游侧形成有火焰,将燃烧用催化剂22通过火焰的热量加热至催化燃烧使能温度,从而也对催化剂网25a进行催化燃烧。 火焰自发消失,燃烧催化剂22开始催化燃烧。 即使当燃烧室21被构造成低轮廓时,即使催化燃烧也可以毫不费力地实现,可以在不降低燃烧特性的情况下降低催化剂体的厚度,从而能够降低燃烧器的高度并提供小型化和 薄催化燃烧装置。
    • 2. 发明授权
    • Heat transfer apparatus
    • 传热装置
    • US06335572B1
    • 2002-01-01
    • US09354568
    • 1999-07-16
    • Hiroshi UnoYutaka TakahashiShinichi NakajimaHidetaka YabuuchiTakaaki KusakaMasaru Kikukawa
    • Hiroshi UnoYutaka TakahashiShinichi NakajimaHidetaka YabuuchiTakaaki KusakaMasaru Kikukawa
    • H02P904
    • H01L35/30H01L35/00
    • A portable heat transfer apparatus including a combustion device, a thermoelectric convertor for receiving the heat of the combustion device at its high temperature side, transferring the heat from its low temperature side to a heat exchanger, and generating electric power depending on the temperature difference between the high temperature side and low temperature side. A heat medium forced circulating device is driven by the power generated from the thermoelectric converter for transferring heat medium to the heat exchanger. Also provided is a heat releasing device for circulating and releasing the heat medium exchanged of heat in the heat exchanger. Therefore, the heat exchanger can be heated through the thermoelectric converter while heating the thermoelectric converter with the combustion device, and by heating with the heat exchanger. The temperature difference between the high temperature side and low temperature side of the thermoelectric converter can be obtained rationally and sufficiently. Therefore, the apparatus is reduced in size and weight, and it is convenient for portable use.
    • 一种便携式传热装置,包括燃烧装置,用于在其高温侧接收燃烧装置的热量的热电转换器,将热量从低温侧转移到热交换器,并根据温度差产生电力 高温侧和低温侧。 热介质强制循环装置由热电转换器产生的电力驱动,用于将热介质传送到热交换器。 还提供了一种用于在热交换器中循环和释放热交换的热介质的放热装置。 因此,可以通过热电转换器加热热交换器,同时用燃烧装置加热热电转换器,并且通过用热交换器加热。 可以合理,充分地获得热电转换器的高温侧和低温侧之间的温差。 因此,该装置的尺寸和重量减小,便于便携式使用。
    • 4. 发明申请
    • MICROSCOPE SYSTEM
    • 微观系统
    • US20120293644A1
    • 2012-11-22
    • US13359164
    • 2012-01-26
    • Naoki FUKUTAKEHiroki YazawaShigeru NakayamaShinichi Nakajima
    • Naoki FUKUTAKEHiroki YazawaShigeru NakayamaShinichi Nakajima
    • H04N7/18
    • G02B21/14G02B21/365G02B21/367
    • A phase-contrast microscope system includes: an illumination optical system that illuminates a specimen with an illumination light from a light source; an imaging optical system that forms an image of the specimen from a light from the specimen; a first spatial modulation element that is disposed in a position of a pupil of the imaging optical system and changes an amplitude transmittance distribution of the light from the specimen; an image sensor that detects the image of the specimen by the imaging optical system and outputs a picture signal; a calculation section that calculates the amplitude transmittance distribution of the light from the specimen appropriate for observing the specimen on the basis of the output data detected by the image sensor and the amplitude transmittance distribution of the light from the specimen formed by the first spatial modulation element.
    • 相差显微镜系统包括:照明光学系统,其利用来自光源的照明光照射样本; 成像光学系统,其从来自所述样本的光形成所述样本的图像; 第一空间调制元件,其设置在成像光学系统的光瞳的位置,并且改变来自所述样本的光的透射率分布; 图像传感器,其通过所述成像光学系统检测所述检体的图像,并输出图像信号; 计算部,其根据由图像传感器检测的输出数据和来自第一空间调制元件形成的试样的光的振幅透射率分布,计算适合于观察样本的样本的光的透射率分布 。
    • 5. 发明申请
    • IMAGING APPARATUS AND PROGRAM
    • 成像设备和程序
    • US20120262562A1
    • 2012-10-18
    • US13363061
    • 2012-01-31
    • Naoki FUKUTAKEShinichi Nakajima
    • Naoki FUKUTAKEShinichi Nakajima
    • G06K9/46H04N7/18
    • G02B21/14G02B21/367
    • An imaging apparatus includes an imaging unit that images a test object, an analysis unit that outputs a feature amount of an image which is captured by the imaging unit, a storage unit that stores an evaluation function which has the image feature amount as a variable, for evaluation of the image, a selection unit that selects one image from two or more images including an image specified based on a value of the evaluation function, and a changing unit that changes the evaluation function based on the one image in a case where the one image selected by the selection unit is different from the specified image.
    • 一种成像装置,包括对被检体进行成像的成像单元,输出由摄像单元拍摄的图像的特征量的分析单元,存储具有图像特征量的评价函数作为变量的存储单元, 用于评估图像的选择单元,从包括基于评估函数的值指定的图像的两个或多个图像中选择一个图像的选择单元,以及在所述图像的情况下基于所述一个图像改变评估函数的改变单元 由选择单元选择的一个图像与指定的图像不同。
    • 7. 发明授权
    • Partition pattern match and integration method for alignment
    • 分区模式匹配和集成方法进行对齐
    • US07783113B2
    • 2010-08-24
    • US10961663
    • 2004-10-08
    • Seho OhShih-Jong J. LeeShinichi NakajimaYuji Kokumai
    • Seho OhShih-Jong J. LeeShinichi NakajimaYuji Kokumai
    • G06K9/62
    • G06K9/3216G06T7/001G06T2207/30148
    • A partition pattern template generation method for alignment receives a learning image and performs partition template generation using the learning image to generate a plurality of partition template result output. A partition template acceptance test is performed using the plurality of partition template results to generate partition templates or failure result.A partition template search method for alignment receives an alignment image and partition templates and performs a plurality of template search steps to generate a plurality of matching scores output. A partition integration method is performed using the plurality of matching scores to generate a partition template search result.A partition integration error self checking method receives a preliminary template search result position and a plurality of the matching scores. A matching score profile comparison is performed using the plurality of the matching scores and the expected matching score profile to generate the template search result.
    • 用于对准的分割图案模板生成方法接收学习图像,并使用学习图像来执行分割模板生成,以生成多个分割模板结果输出。 使用多个分区模板结果执行分区模板验收测试,以生成分区模板或故障结果。 用于对准的分割模板搜索方法接收对准图像和分割模板,并且执行多个模板搜索步骤以生成多个匹配分数输出。 使用多个匹配分数来执行分区集成方法以生成分区模板搜索结果。 分区整合错误自检方法接收初步模板搜索结果位置和多个匹配分数。 使用多个匹配分数和预期匹配分数分布来执行匹配分数分布比较,以生成模板搜索结果。
    • 9. 发明授权
    • Washing machine
    • 洗衣机
    • US06318133B1
    • 2001-11-20
    • US09677596
    • 2000-10-03
    • Kenji KoshigaShinichi NakajimaJunichi MorinakaShinichi MatsudaToshihiko UraKenichi AkasakaNorimasa Kondo
    • Kenji KoshigaShinichi NakajimaJunichi MorinakaShinichi MatsudaToshihiko UraKenichi AkasakaNorimasa Kondo
    • D06F3740
    • D06F37/40D06F37/304
    • A washing machine includes a washing shaft for rotating agitating blades disposed in a dewatering tank, and the washing shaft is disposed coaxially on a hollow dewatering shaft for rotating the dewatering tank. The washing shaft is connected to the output side of a reduction mechanism, and a washing side input shaft is connected to the input side of the reduction mechanism to rotate the washing shaft by decelerating the rotation of a drive motor. A rotor of the drive motor is coupled to the lower part of the washing side input shaft. Therefore, the rotating torque of the agitating blades can be increased without increasing the torque of the drive motor. In addition, if the laundry collides against the agitating blades, the eccentricity to the washing side input shaft is suppressed, thereby the increase of the washing capacity can be handled without increasing the size of the drive motor.
    • 洗衣机包括用于旋转设置在脱水罐中的搅拌叶片的洗涤轴,洗涤轴同轴地设置在中空脱水轴上,用于旋转脱水罐。 洗涤轴连接到减速机构的输出侧,洗涤侧输入轴连接到减速机构的输入侧,通过减速驱动电动机的旋转来使洗涤轴旋转。 驱动马达的转子联接到洗涤侧输入轴的下部。 因此,可以在不增加驱动电动机的转矩的情况下增加搅拌叶片的旋转扭矩。 此外,如果衣物与搅拌叶片碰撞,则抑制了对洗涤侧输入轴的偏心,从而可以在不增加驱动马达的尺寸的情况下处理洗涤能力的提高。
    • 10. 发明授权
    • Imaging apparatus and program
    • 成像设备和程序
    • US09529184B2
    • 2016-12-27
    • US13363061
    • 2012-01-31
    • Naoki FukutakeShinichi Nakajima
    • Naoki FukutakeShinichi Nakajima
    • G06K9/46G02B21/14G02B21/36
    • G02B21/14G02B21/367
    • An imaging apparatus includes an imaging unit that images a test object, an analysis unit that outputs a feature amount of an image which is captured by the imaging unit, a storage unit that stores an evaluation function which has the image feature amount as a variable, for evaluation of the image, a selection unit that selects one image from two or more images including an image specified based on a value of the evaluation function, and a changing unit that changes the evaluation function based on the one image in a case where the one image selected by the selection unit is different from the specified image.
    • 一种成像装置,包括对被检体进行成像的成像单元,输出由摄像单元拍摄的图像的特征量的分析单元,存储具有图像特征量的评价函数作为变量的存储单元, 用于评估图像的选择单元,从包括基于评估函数的值指定的图像的两个或多个图像中选择一个图像的选择单元,以及在所述图像的情况下基于所述一个图像改变评估函数的改变单元 由选择单元选择的一个图像与指定的图像不同。