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    • 1. 发明授权
    • Record disk and method for producing the same with constant width groove
    • 记录磁盘及其制造方法,具有恒定宽度的凹槽
    • US4152726A
    • 1979-05-01
    • US710098
    • 1976-07-30
    • Chiaki KojimaYuzuru YanagisawaTakashi OtobeHiroshi Ohki
    • Chiaki KojimaYuzuru YanagisawaTakashi OtobeHiroshi Ohki
    • G11B3/00G11B3/70G11B3/72G11B7/007G11B7/128G11B7/26G11B23/00H04N5/76G11B7/00
    • G11B7/128G11B23/0057G11B3/702G11B3/72G11B7/007G11B7/261
    • In a record disk having a spiral groove in a surface thereof with the depth of the groove varying along the latter for representing recorded information, such as video signals; the groove has an inverted bell-shaped cross-section which is symmetrical about the median of the groove with each of the opposite side surfaces of the groove, at any location therealong, being defined approximately by the equationd.sub.x =d.sub.o .multidot.exp [-(x/w).sup.2 ]in which d.sub.o is the depth of the groove at the median thereof, w is the distance from the median of the groove to the point at the side surface of the groove where the depth is d.sub.o /e (e being the base of the natural logarithm), and d.sub.x is the depth of the groove at the respective side surface at a distance x from the median. The foregoing record disk is conveniently molded in correspondence with an original recording disk produced by directing a laser light beam which has a Gaussian energy distribution thereacross against a layer of positive type photo-resist material on the original recording disk while the latter and the light beam are moved relative to each other for scanning a spiral track of constant pitch on the original recording disk and while the intensity of the laser light beam is modulated by the information signals to be recorded, and then developing the layer of photo-resist material.
    • 在具有在其表面上具有螺旋槽的记录盘中,凹槽的深度沿着该槽的深度变化,用于表示诸如视频信号的记录信息; 凹槽具有倒置的钟形横截面,其关于凹槽的中间对称,凹槽的每个相对的侧表面在其任何位置处,大致由方程式DX = DOxEXP [ - (X / W)2]在中间的深处,W在距离中心的距离到距离深度为E / E的地面的边缘的距离(E为基准) 的自然对数),而DX是距离媒体的距离X的相对侧表面上的深度。 上述记录盘与通过将具有高斯能量分布的激光束对准原始记录盘上的正型光致抗蚀剂材料层而产生的原始记录盘相适应地模制,而后者和光束 相对于彼此移动,用于扫描原始记录盘上的恒定螺距的螺旋轨迹,同时激光束的强度被待记录的信息信号调制,然后显影该光致抗蚀材料层。
    • 2. 发明授权
    • Linear method of optically recording a video or other signal
    • 光学记录视频或其他信号的线性方法
    • US4150398A
    • 1979-04-17
    • US648006
    • 1976-01-12
    • Chiaki KojimaHiroshi OhkiYuzuru Yanagisawa
    • Chiaki KojimaHiroshi OhkiYuzuru Yanagisawa
    • G11B7/24G11B7/0045G11B7/125G11B7/128G11B7/26G11B23/00H04N5/76
    • G11B7/128G11B23/0057G11B7/0045G11B7/261Y10S430/146
    • In optically producing a reproducible recording of video or other signals, the intensity of at least one laser light beam is modulated by the signals to be recorded while such light beam scans a substantially flat surface on a photo-sensitive recording medium which is photo-reacted to a degree varying substantially linearly in correspondence with the intensity of the light impinging thereon over a predetermined range of light intensities, and the intensity of the light beam and the degree of modulation thereof by the signals are selected to maintain the maximum and minimum intensities of the modulated light beam within such predetermined range so as to form simultaneously on the record medium a tracking path portion and a recorded signal portion which is unified with the latter. The photo-sensitive record medium is desirably constituted by a positive photo-resist so that, upon development thereof, the tracking path portion is obtained in the form of a groove having the recorded signal portion defined by irregularities at the bottom of such groove. The positive photo-resist or other photo-sensitive material may be conveniently applied as a layer on a base plate or disc which is rotated while the light beam and disc are moved relative to each other in a radial direction of the disc so that the groove or other tracking path portion forms a spiral.
    • 在光学地产生视频或其他信号的可再现记录时,至少一个激光束的强度被待记录的信号调制,而这样的光束扫描光敏记录介质上基本上平坦的表面,光敏记录介质被光反应 在一定程度的光强度下对应于入射到其上的光的强度基本线性地变化的程度,并且选择光束的强度及其信号的调制程度以保持最大和最小强度 调制光束在该预定范围内,以便在记录介质上同时形成跟踪路径部分和与后者统一的记录信号部分。 感光记录介质理想地由正光致抗蚀剂构成,使得在显影时,获得具有记录信号部分的槽的形式的跟踪路径部分,该记录信号部分由凹槽底部的凹凸限定。 正光敏抗蚀剂或其它感光材料可以方便地作为层在基板或盘上施加,所述基板或盘在光盘和盘在盘的径向方向上相对于彼此移动而旋转,使得凹槽 或其他跟踪路径部分形成螺旋。
    • 3. 发明授权
    • Method for granulation and granulator
    • 制粒造粒机的方法
    • US06203730B1
    • 2001-03-20
    • US09141992
    • 1998-08-28
    • Tetsuzo HondaKimikazu KidoYuzuru YanagisawaHidetsugu Fujii
    • Tetsuzo HondaKimikazu KidoYuzuru YanagisawaHidetsugu Fujii
    • B29B910
    • C05G3/0058B01J2/16C05C9/005
    • There is disclosed an improved, energy-saving granulation method, wherein use is made of a granulator (1) having a bottom floor (9) of a granulation section whose bottom is a perforated plate, an upper air feed pipe (23) for feeding air for fluidization to the bottom floor of the granulation section, a lower air feed pipe (2), air feed pipes (3, 4, 5) branched from the lower air feed pipe for jetting air into the granulation section, and jetting nozzles (6, 7, 8) provided at the centers of the air outlets for jetting a molten raw material; which involves the steps of jetting a molten raw material from the jetting nozzles to approximately spherical nuclei in the granulation section, which have been fed after the particle diameter has been caused to be an average particle diameter of 0.4 to 3.0 mm, to form granules. There is also disclosed an improved granulator.
    • 公开了一种改进的节能造粒方法,其中使用造粒机(1),其具有底部是多孔板的造粒部分的底部底部(9),用于进给的上部空气供给管(23) 用于流态化到造粒部底底的空气,下部空气供给管(2),从下部空气供给管分支用于将空气喷射到造粒部的空气供给管(3,4,5)和喷射喷嘴 6,7,8)设置在空气出口的中心,用于喷射熔融原料; 其包括将熔融原料从喷射喷嘴喷射到造粒部中的近似球形核,在粒径达到0.4〜3.0mm的平均粒径之后进料,形成颗粒。 还公开了一种改进的造粒机。
    • 8. 发明授权
    • Image projection system
    • 图像投影系统
    • US4385316A
    • 1983-05-24
    • US217418
    • 1980-12-17
    • Yuzuru Yanagisawa
    • Yuzuru Yanagisawa
    • H04N5/74H04N13/00H04N9/54
    • H04N13/0409H04N13/0404H04N5/7408
    • An image projection system includes a cathode ray tube for generating light corresponding to an image; a projecting lens disposed in front of the cathode ray tube for focusing and projecting the light from the cathode ray tube, and having an optical axis; a beam splitter disposed in front of the projecting lens, the beam splitter being inclined with respect to the optical axis of the projecting lens for reflecting the light from the cathode ray tube in a first direction perpendicular to the optical axis of the projecting lens; and a reflecting mirror disposed adjacent the beam splitter for reflecting the light reflected from the beam splitter in a second direction which is opposite to the first direction so as to project the light from the cathode ray tube to a viewer through the beam splitter.
    • 图像投影系统包括用于产生对应于图像的光的阴极射线管; 投影透镜,设置在阴极射线管的前方,用于聚焦和投影来自阴极射线管的光,并具有光轴; 设置在投影透镜的前面的分束器,分束器相对于投影透镜的光轴倾斜,用于在垂直于投影透镜的光轴的第一方向上反射来自阴极射线管的光; 以及邻近分束器设置的反射镜,用于沿与第一方向相反的第二方向反射从分束器反射的光,以便通过分束器将来自阴极射线管的光投射到观察者。
    • 9. 发明授权
    • Indicator display tube
    • 指示器显示管
    • US3979623A
    • 1976-09-07
    • US365334
    • 1973-06-04
    • Yuzuru YanagisawaAkio OhgoshiAkira NakayamaShoichi Muramoto
    • Yuzuru YanagisawaAkio OhgoshiAkira NakayamaShoichi Muramoto
    • H01J17/49H01J61/68
    • H01J17/491
    • An indicator display tube in which indicator electrode units, each consisting of anode and cathode segments, lie in the same plane and in which all of the cathode segments are simultaneously energized and the anode electrodes are energized on a time sequential basis in such a manner that only the indicator electrode unit having its anode electrodes energized will glow at a particular time. The cathode segments of each indicator unit are connected in parallel which substantially reduces the number of leads to the display tube over conventional indicators which require a separate lead for energizing each of the cathode segments. The indicator display tube has means for preventing accidental discharge of adjacent indicator electrode units which would produce erroneous message displays.
    • 指示器显示管,其中每个包括阳极和阴极段的指示器电极单元位于同一平面中,并且所有阴极段同时被通电,并且阳极电极按时间顺序地通电,使得 只有其阳极电极通电的指示电极单元将在特定时间发光。 每个指示器单元的阴极段并联连接,这大大减少了与常规指示器相比显示管的引线数量,这些指示器需要用于激励每个阴极段的单独引线。 指示显示管具有用于防止相邻指示器电极单元意外放电的装置,这将产生错误的信息显示。