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    • 2. 发明申请
    • ULTRASONOGRAPH
    • US20090204007A1
    • 2009-08-13
    • US12304272
    • 2006-06-12
    • Jun-ichi KatohMasao Itoh
    • Jun-ichi KatohMasao Itoh
    • A61B8/14
    • A61B8/14A61B5/02007A61B5/489A61B8/06A61B8/0858A61B8/13A61B8/4461A61B8/4483G01S15/894G01S15/8945
    • An ultrasonograph having a vascular diameter measurement means for taking an ultrasonic tomography image of a blood vessel and then measuring a vascular diameter based on the image, including: an ultrasonic probe 11 having an ultrasonic oscillator 11a for an ultrasonic beam scan, the oscillator being rotatable in the direction orthogonal to the ultrasonic beam's scan direction; a multi-section imaging means for tilting the oscillator 11a at predetermined intervals to perform an ultrasonic beam scan by the oscillator 11a at each position in order to take a tomography image of the blood vessel 50 at a plurality of sections; an imaging position determiner for comparing the results of the measurement of the vascular diameter based on each taken tomography image, and determining the position where an image presenting the largest vascular diameter has been taken as the largest vascular diameter imaging position; and a largest vascular diameter acquisition means for tilting the oscillator 11a to the position determined by the imaging position determiner. This saves the trouble of manually fixing the probe's displacement due to a rapid decompression in releasing the avascularization, which achieves a smooth % FMD measurement.
    • 一种具有血管直径测量装置的超声波检查装置,用于拍摄血管的超声波断层摄影图像,然后基于图像测量血管直径,包括:超声波探头11,其具有用于超声波束扫描的超声波振荡器11a,振荡器可旋转 在与超声波束的扫描方向正交的方向上; 多段成像装置,用于以预定间隔倾斜振荡器11a,以在每个位置由振荡器11a执行超声波束扫描,以便在多个部分拍摄血管50的断层图像; 成像位置确定器,用于比较基于每个采集的断层摄影图像的血管直径的测量结果,以及确定呈现最大血管直径的图像的位置作为最大的血管直径成像位置; 以及用于将振荡器11a倾斜到由成像位置确定器确定的位置的最大血管直径获取装置。 这节省了手动固定探头位移的麻烦,因为快速减压释放了血管重建,从而达到了平稳的FMD测量。
    • 4. 发明授权
    • Gas turbine combustor with premixing and diffusing fuel nozzles
    • 具有预混和扩散燃料喷嘴的燃气轮机燃烧器
    • US06070411A
    • 2000-06-06
    • US977671
    • 1997-11-24
    • Yasunori IwaiHiroaki OkamotoFukuo MaedaMasao Itoh
    • Yasunori IwaiHiroaki OkamotoFukuo MaedaMasao Itoh
    • F02C7/18F02C7/26F23C99/00F23D11/12F23D17/00F23D23/00F23R3/28F23R3/34F23R3/40F23R3/20
    • F23R3/34F23D17/00F23D23/00F23R3/286F23D2206/10F23D2209/20F23D2900/00018F23R2900/03343
    • A gas turbine combustor comprises: an outer casing; a combustor inner cylinder disposed inside the outer casing; a combustion chamber formed in the combustor inner cylinder; a pilot fuel injection unit disposed to a head side portion of the combustion chamber, the pilot fuel injection unit comprising a first premixing combustion nozzle unit, a diffusing combustion nozzle unit and a second premixing combustion nozzle unit, the first premixing combustion nozzle unit being arranged at a central portion of the head side portion of the combustion chamber, the diffusing combustion nozzle unit being arranged so as to coaxially surround an outside of the first premixing combustion nozzle unit and the second premixing combustion nozzle unit being arranged so as to coaxially surround an outside of the diffusing combustion nozzle unit, respectively; and a premixing combustion chamber disposed to an outlet side of the first premixing combustion nozzle unit so as to be communicated with the combustion chamber. There may be further disposed a main premixing fuel injection unit to an outside of the second premixing combustion nozzle unit.
    • 燃气轮机燃烧器包括:外壳; 设置在所述外壳内的燃烧器内筒; 形成在燃烧器内筒中的燃烧室; 一个引燃燃料喷射单元,设置在燃烧室的头侧部分,该引燃燃料喷射单元包括一个第一预混合燃烧喷嘴单元,一个扩散燃烧喷嘴单元和一个第二预混合燃烧喷嘴单元,第一预混合燃烧喷嘴单元布置 在燃烧室的头侧部分的中心部分处,扩散燃烧喷嘴单元被布置成同轴地围绕第一预混合燃烧喷嘴单元的外部并且第二预混合燃烧喷嘴单元被布置成同轴地围绕 分别在扩散燃烧喷嘴单元外部; 以及预混合燃烧室,其设置在第一预混合燃烧喷嘴单元的出口侧,以便与燃烧室连通。 还可以将主预混合燃料喷射单元设置到第二预混合燃烧喷嘴单元的外部。
    • 5. 发明授权
    • Optical deflector and adjusting method thereof
    • 光偏转器及其调节方法
    • US5963353A
    • 1999-10-05
    • US40844
    • 1998-03-18
    • Satoshi ShibuyaMasao ItohNaoji Kamimura
    • Satoshi ShibuyaMasao ItohNaoji Kamimura
    • G02B26/12G02B26/08
    • G02B26/121
    • In an assembling method of an optical deflection apparatus in which a polygonal mirror is fixed on an outer ring of a radial bearing and an optical scanning is conducted by a rotation of an inner ring of the radial bearing, the assembling method includes the steps of placing the polygonal mirror on the outer ring of the radial bearing wherein the polygonal mirror and the outer ring of the radial bearing have an engagement portion including an adhering portion with a gap having a distance between the polygonal mirror and the outer ring of the radial bearing; adjusting a tilt angle of the polygonal mirror with respect to the outer ring of the radial bearing; and filling an adhesive in the gap of the adhering portion under the adjusted condition, thereby integrally fixing the polygonal mirror and the outer ring of the radial bearing.
    • 在其中多面镜固定在径向轴承的外圈上并且通过径向轴承的内圈的旋转进行光学扫描的光学偏转装置的组装方法中,组装方法包括以下步骤: 所述径向轴承的外圈上的多面镜,其中所述多角镜和所述径向轴承的外圈具有接合部分,所述接合部分包括具有在所述多角镜和所述径向轴承的外圈之间具有间隔的间隙的粘附部分; 调节所述多面镜相对于所述径向轴承的外圈的倾斜角度; 并且在调节状态下在粘合部分的间隙中填充粘合剂,从而整体固定多角镜和径向轴承的外圈。