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    • 2. 发明授权
    • Microscope apparatus having a modulation-region adjusting unit that moves a wavefront modulation region in response to pivoting of mirrors
    • 具有调制区域调整单元的显微镜装置,其响应于反射镜的枢轴移动波前调制区域
    • US08873123B2
    • 2014-10-28
    • US12930963
    • 2011-01-19
    • Yoshiaki Murayama
    • Yoshiaki Murayama
    • G02B26/10G02B21/00
    • G02B21/0032G02B21/0036G02B21/0072G02B26/101G02B26/105
    • Illuminating light is two-dimensionally scanned without changing the ability to focus illuminating light on a specimen. A microscope has a spatial light modulator for the wavefront of illuminating light from a light source; a scanner having two mirrors independently pivoted about two non-parallel axes; a relay optical system guiding the illuminating light, whose traveling direction has been changed by the scanner, to an objective optical system; and an adjusting unit that moves a wavefront modulation region of the modulator, in which an image is formed, in response to pivoting of the mirrors, such that an image at the pupil position of the objective optical system assuming that the mirrors are stopped is moved opposite to the direction of movement of the image relayed to the pupil position of the objective optical system assuming that the mirrors are pivoting while the image on the spatial light modulator is fixed.
    • 二维扫描照明光,而不改变将照明光聚焦在样本上的能力。 显微镜具有用于来自光源的照明光的波前的空间光调制器; 具有两个反射镜的扫描器独立地围绕两个不平行的轴线枢转; 将其行进方向由扫描仪改变的照明光引导到物镜光学系统的中继光学系统; 以及调整单元,其响应于反射镜的枢转移动形成有图像的调制器的波前调制区域,使得假定镜子停止的物镜光学系统的光瞳位置处的图像被移动 与中继到物镜光学系统的光瞳位置的图像的移动方向相反,假设在空间光调制器上的图像是固定的时候镜子正在枢转。
    • 3. 发明授权
    • Recording apparatus
    • 记录装置
    • US08506059B2
    • 2013-08-13
    • US12635982
    • 2009-12-11
    • Yuji HamasakiYoshiaki Murayama
    • Yuji HamasakiYoshiaki Murayama
    • B41J2/18
    • B41J2/175B41J2/18
    • An ink jet recording apparatus includes a recording head, an ink tank, and two ink routes. The recording head is mounted on a carriage moving along a recording surface of a recording medium and discharges ink and thereby performs recording on the recording medium. The ink tank is disposed inside the recording apparatus and stores ink to be supplied to the recording head. The two ink routes connect the ink tank and the recording head and are capable of circulating ink between the ink tank and the recording head. One of the ink routes is an ink supply path that supplies ink from the ink tank to the recording head, and the other ink route is an ink reflux path that returns ink from the head to the ink tank. The ink reflux path is capable of being fluidly connected to and disconnected from the recording head.
    • 一种喷墨记录装置,包括记录头,墨盒和两个油墨路线。 记录头安装在沿着记录介质的记录表面移动的托架上,并排出墨水,从而在记录介质上进行记录。 墨水容器设置在记录装置的内部并储存供给记录头的墨水。 两个墨水路线连接墨水盒和记录头,并且能够在墨水盒和记录头之间循环墨水。 油墨路径之一是将油墨从油墨罐供给到记录头的供墨路径,另一个油墨路径是将油墨从头部返回到油墨罐的墨水回流路径。 墨回流路径能够流体地连接到记录头和从记录头断开。
    • 7. 发明申请
    • MICROSCOPE APPARATUS
    • MICROSCOPE设备
    • US20120127552A1
    • 2012-05-24
    • US13297671
    • 2011-11-16
    • Yoshiaki MurayamaIkutoshi Fukushima
    • Yoshiaki MurayamaIkutoshi Fukushima
    • G02B26/10
    • G02B21/002G02B26/101
    • Illuminating light is two-dimensionally scanned without changing the ability to focus the illuminating light on a specimen. Provided is a microscope apparatus including a spatial light modulator that modulates the wavefront of illuminating light; a scanner that two-dimensionally scans the illuminating light by pivoting two mirrors; a relay optical system that relays an image in the scanner to a pupil position of an objective optical system; and a beam-shift mechanism that moves rays of the illuminating light between the modulator and the objective optical system in response to pivoting of the mirrors. The beam-shift mechanism moves the rays such that the image at the pupil position, when assuming that the mirrors are stationary, is moved in the direction opposite to the direction in which the image relayed to the pupil position by the relay optical system, when assuming that the mirrors are pivoted with the rays fixed, is moved.
    • 照明光二维扫描,而不改变将照明光聚焦在样本上的能力。 本发明提供一种显微镜装置,其包括调制照明光的波前的空间光调制器; 通过旋转两个反射镜二维地扫描照明光的扫描仪; 中继光学系统,其将扫描仪中的图像中继到物镜光学系统的光瞳位置; 以及光束移动机构,其响应于反射镜的枢转而在调制器和物镜光学系统之间移动照明光的光线。 光束移动机构使光线移动,使得当假定镜子静止时,瞳孔位置处的图像沿着与通过中继光学系统中继到瞳孔位置的图像的方向相反的方向移动,当 假设镜子被固定的光线枢转,被移动。
    • 9. 发明申请
    • INK JET PRINTING APPARATUS AND METHOD
    • 喷墨打印设备和方法
    • US20110134177A1
    • 2011-06-09
    • US12958805
    • 2010-12-02
    • Yuji KonnoYoshiaki Murayama
    • Yuji KonnoYoshiaki Murayama
    • B41J29/38
    • B41J2/2125B41J2/2132G06K15/107
    • Through the use of a mask with an appropriate pattern, depending on dot size or density, in an in jet printing apparatus, image defects caused by conveyance distance errors are suppressed. More concretely, at the masking unit A an interlaced mask pattern is used and a masking process is performed with respect to 2 pl dot data obtained from the dot pattern development unit 604. On the other hand, at the masking unit B a random mask pattern is used and masking is performed with respect to 5 pl dot data. Herewith it has become possible, at all gradations, to suppress the 2 image defects, density unevenness and graininess, caused by conveyance distance errors.
    • 通过使用具有适当图案的掩模,取决于点尺寸或密度,在喷墨打印设备中,抑制了由输送距离误差引起的图像缺陷。 更具体地说,在掩模单元A中,使用隔行扫描图案,并对从点图形显影单元604获得的2个点数据进行掩蔽处理。另一方面,在掩蔽单元B处,随机掩模图案 并且相对于5个点数据执行掩蔽。 由此,可以在所有的等级上抑制由输送距离误差引起的2个图像缺陷,浓度不均匀性和颗粒性。