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    • 2. 发明授权
    • Multi-focus optical device
    • 多焦点光学装置
    • US5495096A
    • 1996-02-27
    • US948279
    • 1992-09-21
    • Shiro OgataHiroshi GotoYoshinori ItoKoichi Imanaka
    • Shiro OgataHiroshi GotoYoshinori ItoKoichi Imanaka
    • G06K7/10
    • G06K7/10811G06K2207/1013
    • A multi-focus optical sensing device for use in bar code scanners, photoelectric sensors and the like is disclosed. To extend the range of detection along the optical axis, without increasing the detection time, the focal point of the light beam is caused to move along the optical axis. A control and modulation circuit varies a current I.sub.f which drives an optical semiconductor serving as a light source. This changes the focal distance of a refraction lattice and so causes the focal position of the light beam emitted by light source to scan along the optical axis. This scan is repeated each time a polygonal mirror scans the light beam over the narrowest width 1/n (where n is an integer) of the bar code lines. A processing unit samples and processes the signal from a photodetector unit while the light beam is being scanned along the optical axis.
    • 公开了一种用于条形码扫描器,光电传感器等的多焦点光学感测装置。 为了延长沿光轴的检测范围,不增加检测时间,使光束的焦点沿着光轴移动。 控制和调制电路改变驱动用作光源的光半导体的电流If。 这改变了折射格子的焦距,因此导致由光源发射的光束的焦点位置沿着光轴扫描。 每次多角镜扫描条形码线的最窄宽度1 / n(其中n为整数)的光束时,重复该扫描。 当沿着光轴扫描光束时,处理单元对来自光电检测器单元的信号进行采样和处理。
    • 4. 发明授权
    • Fixed-amount discharge squeeze container
    • 定量卸料挤压容器
    • US08915403B2
    • 2014-12-23
    • US13515084
    • 2010-12-02
    • Shinichi InabaSusumu FujinamiHiroshi Goto
    • Shinichi InabaSusumu FujinamiHiroshi Goto
    • B65D37/00G01F11/08B65D1/32B65D1/02
    • B65D1/32B65D1/0223B65D2501/0036B65D2501/0081G01F11/082
    • A fixed-amount discharge squeeze container (10) which discharges a specific amount of content liquid from a discharge port by squeeze deformation of a container body (11) includes a squeeze-deformable plastic-made container body (11) and a squeeze operating portion (14) to perform squeeze operation is arranged at a barrel portion (13) of the container body (11). The squeeze operating portion (14) has a cross-sectional shape formed with a compression face portion (16) having a mountain-like section including a pair of inclined face portions (15) arranged along two faces intersecting obtusely and a compression support portion (18) having an arc-shaped section which is jointed integrally with foot parts (19b) of the compression face portion (16) respectively via an edge line portion (17). The compression face portion (16) is restricted so as not to be flipped into a valley-like shape after the inclined face portions (15) deforms until force to expand the distance between the bilateral foot parts (19b) vanishes.
    • 通过容器主体(11)的挤压变形从排出口排出特定量的内容液的固定排出挤压容器(10)包括可挤压变形的塑料制容器体(11)和挤压操作部 (14)设置在容器主体(11)的筒部(13)处。 挤压操作部分(14)具有横截面形状,其形成有具有山形部分的压缩面部分(16),该部分包括一对倾斜面部分(15),两个倾斜面部分沿着两个相互交叉的表面和压缩支承部分 18),其具有经由边缘线部分(17)分别与所述压缩面部分(16)的脚部(19b)整体接合的弧形部分。 压缩面部(16)被限制为在倾斜面部(15)变形之后不会翻转成谷状形状,直到两侧脚部(19b)之间的距离扩大的力消失。
    • 6. 发明授权
    • Image forming method, and image formed matter
    • 图像形成方法,图像形成物
    • US08814340B2
    • 2014-08-26
    • US13388074
    • 2010-08-10
    • Hiroshi Goto
    • Hiroshi Goto
    • B41J2/01B41M5/00B41J2/21B41M7/00C09D11/00
    • B41M5/0017B41J2/2107B41M7/0018C09D11/322C09D11/38C09D11/54Y10T428/24901
    • An image forming method including: applying a pre-treatment liquid onto a coating layer provided on at least one surface of a support of a recording medium, jetting an inkjet ink onto the coating layer, onto which the pre-treatment liquid has been applied, so as to form an image, and applying or jetting a post-treatment liquid onto the coating layer, onto which the inkjet ink has been jetted, so as to form a transparent protective layer on the coating layer, wherein the inkjet ink contains the water-dispersible colorant, a water-soluble organic solvent, a surfactant, a penetrant and water, and wherein an amount of pure water transferred into the recording medium, provided with the coating layer, measured at a contact time of 100 ms with a dynamic scanning liquid absorptometer is 1 ml/m2 to 10 ml/m2, and the pre-treatment liquid contains a water-soluble aliphatic organic acid.
    • 一种图像形成方法,包括:将预处理液体施加到设置在记录介质的支撑体的至少一个表面上的涂层上,将喷墨油墨喷射到涂覆有预处理液体的涂层上, 以便形成图像,并且将后处理液体施加或喷射到已经喷射了喷墨油墨的涂层上,以在涂层上形成透明保护层,其中喷墨油墨含有水 可分散着色剂,水溶性有机溶剂,表面活性剂,渗透剂和水,并且其中转移到记录介质中的设置有涂层的纯水量在100ms的接触时间下用动态扫描 液体吸收计为1ml / m 2至10ml / m 2,预处理液含有水溶性脂肪族有机酸。
    • 8. 发明申请
    • OXIDE SINTERED BODY AND SPUTTERING TARGET
    • 氧化物烧结体和溅射目标
    • US20130341183A1
    • 2013-12-26
    • US14002768
    • 2012-03-01
    • Hiroshi GotoYuki Iwasaki
    • Hiroshi GotoYuki Iwasaki
    • C23C14/34
    • C23C14/3414C04B35/453C04B35/457C04B2235/3217C04B2235/3244C04B2235/3251C04B2235/3284C04B2235/3286C04B2235/3293C23C14/08C23C14/086H01L21/02554H01L21/02565H01L21/02631
    • Provided are an oxide sintered body and a sputtering target that are ideal for the production of an oxide semiconductor film for a display device. The oxide sintered body and sputtering target that are provided have both high conductivity and high relative density, are capable of forming an oxide semiconductor film having a high carrier mobility, and in particular, have excellent direct-current discharge stability in that long-term, stable discharge is possible, even when used by the direct-current sputtering method. The oxide sintered body of the invention is an oxide sintered body obtained by mixing and sintering zinc oxide, tin oxide, and an oxide of at least one metal (M metal) selected from the group consisting of Al, Hf, Ni, Si, Ga, In, and Ta. When the in-plane specific resistance and the specific resistance in the direction of depth are approximated by Gaussian distribution, the distribution coefficient σ of the specific resistance is 0.02 or less.
    • 提供了一种氧化物烧结体和溅射靶,其对于制造用于显示装置的氧化物半导体膜是理想的。 所提供的氧化物烧结体和溅射靶都具有高导电性和高相对密度,能够形成具有高载流子迁移率的氧化物半导体膜,并且特别地,在长期内具有优异的直流放电稳定性, 即使通过直流溅射法使用也能够稳定地进行放电。 本发明的氧化物烧结体是通过将氧化锌,氧化锡和至少一种选自Al,Hf,Ni,Si,Ga的金属(M金属)的氧化物混合并烧结而得到的氧化物烧结体 ,In和Ta。 当面内电阻率和深度方向的电阻率由高斯分布近似时,电阻率的分布系数σ为0.02以下。