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    • 3. 发明授权
    • Transfer apparatus
    • 转运设备
    • US08957929B2
    • 2015-02-17
    • US14075243
    • 2013-11-08
    • Yohichi SakaiTetsuya NodaAkira TakeiTatsuya AsakawaDaisuke KaneoyaKota Hihara
    • Yohichi SakaiTetsuya NodaAkira TakeiTatsuya AsakawaDaisuke KaneoyaKota Hihara
    • B41J2/325B41F16/00
    • B41F16/00B41F16/0026B41F16/006B41J2/325B42D25/455B42D25/46
    • A transfer apparatus for heating a recording medium and a transfer film with a transfer member and a transfer platen transferring an image includes a transfer film transport member, a recording medium transport member, a peeling member peeling off the transfer film, a support member supporting the transfer surface of the recording medium, and a bracket. A recording medium contact point of the peeling member is set in the same position as a first tangent passing through a recording medium contact point of the transfer member and a contact of the recording medium of a transport member and a recording medium contact point of the support member is set in the same position as a second tangent passing through the recording medium contact point of the transfer member and the recording medium contact point of the peeling member or on the transfer platen side relative to the second tangent.
    • 用于加热记录介质的转印装置和具有转印部件的转印膜和转印图像的转印板包括转印膜传送部件,记录介质传送部件,剥离转印膜的剥离部件,支撑转印膜的支撑部件 记录介质的转印表面和支架。 剥离构件的记录介质接触点被设定在与通过传送构件的记录介质接触点的第一切线相同的位置,并且传送构件的记录介质与载体的记录介质接触点的接触 构件被设置在与转印构件的记录介质接触点和剥离构件的记录介质接触点相对于第二切线的转印台面上的第二切线相同的位置。
    • 4. 发明申请
    • TRANSFER APPARATUS AND TRANSFER METHOD
    • 传送装置和传送方法
    • US20140238252A1
    • 2014-08-28
    • US14185396
    • 2014-02-20
    • Yuichi AIHARATetsuya NODA
    • Yuichi AIHARATetsuya NODA
    • G03G15/00
    • G03G15/1695G03G2215/1676Y10T156/1705
    • To provide a transfer apparatus that uniforms peeling characteristics and peeling characteristics in transfer processing and that enables a stabilized transfer result to be obtained, in a transfer apparatus for nipping a transfer film 46 and recording medium K with a transfer roller 33 and transfer platen 31 to form an image on the recording medium, preheating treatment of the recording medium K is performed before transfer processing. At this point, by determining a preheating amount corresponding to the temperature of the recording medium K, it is possible to obtain a stabilized transfer result in response to a change in transfer conditions due to a change in environmental temperature and a change in the transfer surface. Particularly, in the case of performing backside transfer subsequently to frontside transfer, since the temperature of the recording medium K is high, a preheating amount in backside transfer is made smaller than in frontside transfer.
    • 为了提供一种在转印处理中均匀剥离特性和剥离特性并且能够获得稳定的转印结果的转印装置,在用转印膜46和记录介质K用转印辊33和转印板31夹持的转印装置中, 在记录介质上形成图像,在传送处理之前执行记录介质K的预热处理。 此时,通过确定对应于记录介质K的温度的预热量,可以响应于由于环境温度的变化和转印面的变化而导致的转印条件的变化而获得稳定的转印结果 。 特别是在后方传送的背面传送的情况下,由于记录介质K的温度高,所以背面传送中的预热量比前侧传送小。
    • 5. 发明授权
    • Joined optical member, image display apparatus, and head-mounted display
    • 连接的光学构件,图像显示装置和头戴式显示器
    • US07826113B2
    • 2010-11-02
    • US12055589
    • 2008-03-26
    • Tetsuya Noda
    • Tetsuya Noda
    • G03H1/00B29D11/00
    • G02B27/017G02B27/0172G02B2027/0174Y10S359/90
    • In a joined optical member, let the adhesion strength between a surface coating layer and an eyepiece prism be A1, the adhesion strength between the surface coating layer and a deflector prism be A2, the adhesion strength between the surface coating layer and adhesive be A3, and the adhesion strength between, at one end, the adhesive and, at the other, the eyepiece prism and the deflector prism be A4, then A1 (A2)>A3 and simultaneously A4>A3. This makes removal of superfluous adhesive on the surface coating layer easy, and prevents scratches on the exterior surfaces. Even after removal of superfluous adhesive, the surface coating layer remains on the exterior surfaces of the eyepiece prism and the deflector prism. This prevents scratches on the exterior surfaces in actual use, and prevents degradation of optical performance.
    • 在接合的光学构件中,使表面涂层和目镜之间的粘合强度为A1,表面涂层和偏光棱镜之间的粘合强度为A2,表面涂层和粘合剂之间的粘合强度为A3, 并且在一端,粘合剂和另一端之间的目镜棱镜和偏转棱镜的粘合强度为A4,然后是A1(A2)> A3,同时A4> A3。 这使得容易在表面涂层上除去多余的粘合剂,并且防止外表面上的划痕。 即使在去除多余的粘合剂之后,表面涂层也保留在目镜棱镜和偏转棱镜的外表面上。 这防止了实际使用中的外表面的刮伤,并且防止了光学性能的劣化。
    • 10. 发明申请
    • Image display apparatus and head mount display
    • 图像显示装置和头戴式显示器
    • US20060268421A1
    • 2006-11-30
    • US11440649
    • 2006-05-25
    • Yoshie ShimizuYasushi TanijiriTakeshi EndoTetsuya Noda
    • Yoshie ShimizuYasushi TanijiriTakeshi EndoTetsuya Noda
    • G02B27/14
    • G02B27/0172G02B5/30G02B5/32G02B27/0103G02B2027/0112G02B2027/0174G02B2027/0178G03H2001/2231
    • The light directed from a light source to a concave mirror and the light directed from a display device to an eyepiece optical system are intersected by each other in a layout. This allows the light source, the concave mirror, and the display device to be arranged in compactness adjacent to the eyepiece optical system without increasing the optical power of an illumination optical system. As the result, the apparatus can easily be minimized in the thickness or the overall size. A hologram optical element is provided where the relationship between the wavelength range Δλ1 at half of the diffraction efficiency of each of the three primary colors of the light in the hologram optical element and the wavelength range Δλ2 at half of the intensity of each of the three primary colors of the light emitted from the light source is defined by Δλ1
    • 从光源引导到凹面镜的光和从显示装置指向目镜光学系统的光在布局中彼此相交。 这允许光源,凹面镜和显示装置在与目镜光学系统相邻的紧凑状态下布置,而不增加照明光学系统的光功率。 结果,该装置可以容易地在厚度或整体尺寸上最小化。 提供了一种全息光学元件,其中全息光学元件中的光的三原色中的每一个的衍射效率的一半的波长范围Deltalλ1与三个光学元件中的每一个的强度的一半处的波长范围Deltalλ2之间的关系 从光源发出的光的原色由Deltalambda1定义。 因此,从光源发射的光的R,G和B颜色的每个的期望波长的分量可以通过全息光学元件的作用被衍射,然后被引导到观察者的瞳孔。 这允许在颜色再现区域中增加图像并且提高质量,而与时分模式下的显示装置无关。