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公开(公告)号:US4824224A
公开(公告)日:1989-04-25
申请号:US948251
申请日:1986-12-31
申请人: Kyohei Fukuda , Hiroki Yoshikawa , Shigeru Mori , Koji Hirata , Soichi Sakurai
发明人: Kyohei Fukuda , Hiroki Yoshikawa , Shigeru Mori , Koji Hirata , Soichi Sakurai
摘要: An improved lens system for a projection television is described. The lens system is designed to be used with a cathode ray tube having a face glass with an aspheric surface having phosphor elements mounted thereto. The aspheric surface of the face glass has its maximum radius at the optical axis and is of lesser radius outwardly thereof. From the screen, the lens system companies a first aspheric lens of relatively weak power, a second biconvex lens of relatively high positive power, a third aspheric lens of weak positive power and a fourth lens having a concave face on its screen sider and of relatively large negative power.
摘要翻译: 描述了用于投影电视的改进的透镜系统。 透镜系统设计成与具有带有安装有荧光体元件的非球面的面玻璃的阴极射线管一起使用。 面玻璃的非球面表面在光轴处具有最大半径,并且其外侧具有较小的半径。 从屏幕上看,透镜系统公司具有功率相对较弱的第一非球面透镜,具有相对高正功率的第二双凸透镜,弱正功率的第三非球面透镜和在屏幕上具有凹面的第四透镜,并且相对 大负功率
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公开(公告)号:US5029993A
公开(公告)日:1991-07-09
申请号:US417561
申请日:1989-10-05
申请人: Kyohei Fukuda , Soichi Sakurai , Koji Hirata , Shigeru Mori
发明人: Kyohei Fukuda , Soichi Sakurai , Koji Hirata , Shigeru Mori
摘要: An optical system of a projection television receiver for projecting pictures from a picture tube onto a screen, comprising a fluorescent face constituting the tube face of the receiver tube having a nonspherical shape in such a direction as to compensate the curve of the image face of the projected picture on the screen, and further comprising lenses arranged from the screen side to the tube face of the picture tube in the order of:(A) a first lens having relatively weak power (reciprocal of focal distance) and having a nonspherical shape at least at one face;(B) a second lens having relatively strong positive power;(C) a third lens having relatively weak power and having a nonspherical shape at least at one face; and(D) a fourth lens having relatively strong negative power and having a concave shape at the face of the screen side.
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公开(公告)号:US4884879A
公开(公告)日:1989-12-05
申请号:US911070
申请日:1986-09-24
申请人: Kyohei Fukuda , Soichi Sakurai , Koji Hirata , Shigeru Mori
发明人: Kyohei Fukuda , Soichi Sakurai , Koji Hirata , Shigeru Mori
摘要: An optical system of a projection television receiver for projecting pictures from a picture tube onto a screen, comprising a fluorescent face constituting the tube face of the receiver tube having a nonspherical shape in such a direction as to compensate the curve of the image face of the projected picture on the screen, and further comprising lenses arranged from the screen side to the tube face of the picture tube in the order of:(A) a first lens having relatively weak power (reciprocal of focal distance) and having a nonspherical shape at least at one face;(B) a second lens having relatively strong positive power;(C) a third lens having relatively weak power and having a nonspherical shape at least at one face; and(D) a fourth lens having relatively strong negative power and having a concave shape at the face of the screen side.
摘要翻译: 一种投影电视接收机的光学系统,用于将图像从显像管投影到屏幕上,包括构成接收管的管面的荧光面,其方向具有非球面形状,以补偿图像的图像面的曲线 并且还包括从屏幕侧到显像管的管面布置的透镜,其顺序为:(A)具有相对弱的功率(焦距的往复)并且具有非球面形状的第一透镜 最少在一个脸上 (B)具有相对较强正功率的第二透镜; (C)至少在一个面上具有较弱功率并具有非球形形状的第三透镜; 和(D)具有相对较强的负功率并且在屏幕侧的表面具有凹形形状的第四透镜。
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公开(公告)号:US4948237A
公开(公告)日:1990-08-14
申请号:US188482
申请日:1988-04-29
申请人: Koji Hirata , Kyohei Fukuda , Hiroki Yoshikawa , Shigeru Mori , Masayuki Muranaka , Isao Yoshizaki , Shigeru Inaoka , Hiroshi Jitsukata
发明人: Koji Hirata , Kyohei Fukuda , Hiroki Yoshikawa , Shigeru Mori , Masayuki Muranaka , Isao Yoshizaki , Shigeru Inaoka , Hiroshi Jitsukata
CPC分类号: G02B13/18
摘要: In a projection system wherein an optical system comprising a first lens for correcting a spherical aberration dependent on the aperture length, a second lens for enlargement and a third lens for correcting a field curvature, projects an image reproduced on a CRT having a curved phosphor surface, onto a screen, the third lens is spaced from the CRT so that the region of the phosphor surface which again totally reflects a light which has been totally reflected by a screen-side surface of the third lens is limited to the edge portion of an effective region of the phosphor surface.
摘要翻译: 在一种投影系统中,其中包括用于校正取决于孔径长度的球面像差的第一透镜的光学系统,用于放大的第二透镜和用于校正场曲率的第三透镜,投影在具有弯曲荧光粉表面的CRT上再现的图像 在屏幕上,第三透镜与CRT间隔开,使得再次完全反射已被第三透镜的屏幕侧表面完全反射的光的荧光体表面的区域被限制到第三透镜的边缘部分 荧光粉表面的有效区域。
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公开(公告)号:US5926153A
公开(公告)日:1999-07-20
申请号:US592177
申请日:1996-01-26
申请人: Tetsu Ohishi , Takahiko Yoshida , Hiroki Yoshikawa , Yutaka Matsuda , Hideo Tanide , Shigeru Mori , Atsuo Osawa , Koji Hirata
发明人: Tetsu Ohishi , Takahiko Yoshida , Hiroki Yoshikawa , Yutaka Matsuda , Hideo Tanide , Shigeru Mori , Atsuo Osawa , Koji Hirata
CPC分类号: G09B9/32
摘要: A multi-display apparatus includes a plurality of rear projection-type display devices each in which projection light from image sources is projected through projection lenses onto a rear projection surface of a rear projection screen to form a picture image on a front viewing surface of the rear projection screen, the plurality of rear projection-type display devices being combined together in contiguous relation to one another to form a large screen. An overall front viewing surface of the large screen is formed into a concave surface curved both in a horizontal visibility angle direction and a vertical visibility angle direction. A light-absorbing portion is formed on the front viewing surface of the rear projection screen, and the light-absorbing portion absorbs projection light which passes through one rear projection screen, and is incident as external light on another rear projection screen, thereby preventing a picture image from being degraded.
摘要翻译: 多显示装置包括多个后投影式显示装置,每个背投影型显示装置,其中来自图像源的投影光通过投影透镜投射到背投屏幕的后投影表面上,以在前投影屏幕的前视面上形成图像 背投影屏幕,多个后投影式显示装置彼此连续地组合在一起形成大屏幕。 大屏幕的整体前视面形成为在水平可视角度方向和垂直视角方向上均弯曲的凹面。 在后投影屏幕的前视面形成有吸光部,吸光部吸收通过一个背面投影用屏幕的投影光,作为外部光入射到另一个后投影屏上,从而防止 图片图像降级。
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公开(公告)号:US5103302A
公开(公告)日:1992-04-07
申请号:US466927
申请日:1990-01-18
申请人: Takahiko Yoshida , Hiroki Yoshikawa , Shigeru Mori , Koji Hirata , Tooru Numata , Isao Yoshizaki , Mitsuo Okimoto
发明人: Takahiko Yoshida , Hiroki Yoshikawa , Shigeru Mori , Koji Hirata , Tooru Numata , Isao Yoshizaki , Mitsuo Okimoto
IPC分类号: H04N9/31
CPC分类号: H04N9/31
摘要: A projection type image display device provided with three projecting lenses projecting light emitted by cathode-ray tubes of different colors, red, green and blue, on a screen while enlarging an image is disclosed, in which clapper plates are disposed preferably in front of the red and the blue image source and the clapper plates have different shapes so as to obtain an image without the fluctuation in the color on the whole surface of the screen, even in the case where the distance from the cathode-ray tubes to the screen is shortened in order to reduce the size of the display device.
摘要翻译: 公开了一种投影型图像显示装置,其具有三个投影透镜,用于在放大图像的同时在屏幕上投射由红色,绿色和蓝色不同颜色的阴极射线管发射的光,其中拍板最好设置在 红色和蓝色图像源和拍板具有不同的形状,以便在屏幕的整个表面上获得没有颜色波动的图像,即使在从阴极射线管到屏幕的距离为 缩短以减小显示装置的尺寸。
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公开(公告)号:US5659424A
公开(公告)日:1997-08-19
申请号:US241633
申请日:1994-05-12
申请人: Atsuo Osawa , Hiroki Yoshikawa , Shigeru Mori , Naoyuki Ogura
发明人: Atsuo Osawa , Hiroki Yoshikawa , Shigeru Mori , Naoyuki Ogura
摘要: An image display device which is compact on the whole and low in cost, and which uses a plurality of projection lens systems each of which is constituted by five lens groups including a first aspherical lens group, a second aspherical lens group, a third biconvex lens group, a fourth aspherical lens group and a fifth aspherical lens group which are arranged in this order successively from a screen side, the third lens group having refractive power of not lower than 70% of the total power of the projection lens system, the respective peripheral shapes of the first and second aspherical lens groups being set to have a predetermined relation, a low-dispersion high-index glass material being used for a convex lens of a green projection lens system, a high-dispersion high-index glass material being used for convex lenses of blue and red projection lens systems.
摘要翻译: 一种整体紧凑且成本低的图像显示装置,其使用多个投影透镜系统,每个投影透镜系统由包括第一非球面透镜组,第二非球面透镜组,第三双凸透镜的五个透镜组构成 组,第四非球面透镜组和第五非球面透镜组,其从屏幕侧依次排列,第三透镜组的折射力不小于投影透镜系统的总功率的70%,折射率不小于投影透镜系统的总功率的70% 第一非球面透镜组和第二非球面透镜组的周边形状被设定为具有预定关系,低分散高折射率玻璃材料用于绿色投影透镜系统的凸透镜,高分散高折射率玻璃材料为 用于蓝色和红色投影透镜系统的凸透镜。
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公开(公告)号:US6130786A
公开(公告)日:2000-10-10
申请号:US340141
申请日:1999-06-28
申请人: Atsuo Osawa , Hiroki Yoshikawa , Shigeru Mori , Naoyuki Ogura
发明人: Atsuo Osawa , Hiroki Yoshikawa , Shigeru Mori , Naoyuki Ogura
摘要: An image display device which is compact on the whole and low in cost, and which uses a plurality of projection lens systems each of which is constituted by five lens groups including a first aspherical lens group, a second aspherical lens group, a third biconvex lens group, a fourth aspherical lens group and a fifth aspherical lens group which are arranged in this order successively from a screen side, the third lens group having refractive power of not lower than 70% of the total power of the projection lens system, the respective peripheral shapes of the first and second aspherical lens groups being set to have a predetermined relation, a low-dispersion high-index glass material being used for a convex lens of a green projection lens system, a high-dispersion high-index glass material being used for convex lenses of blue and red projection lens systems.
摘要翻译: 一种整体紧凑且成本低的图像显示装置,其使用多个投影透镜系统,每个投影透镜系统由包括第一非球面透镜组,第二非球面透镜组,第三双凸透镜的五个透镜组构成 组,第四非球面透镜组和第五非球面透镜组,其从屏幕侧依次排列,第三透镜组的折射力不小于投影透镜系统的总功率的70%,折射率不小于投影透镜系统的总功率的70% 第一非球面透镜组和第二非球面透镜组的周边形状被设定为具有预定关系,低分散高折射率玻璃材料用于绿色投影透镜系统的凸透镜,高分散高折射率玻璃材料为 用于蓝色和红色投影透镜系统的凸透镜。
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公开(公告)号:US5808704A
公开(公告)日:1998-09-15
申请号:US367931
申请日:1995-01-03
申请人: Hiroki Yoshikawa , Takahiko Yoshida , Kiyoshi Wada , Shigeru Mori , Tetsu Ohishi , Toshimitsu Watanabe , Koji Suso , Yoshimasa Yokoyama , Akira Takahashi , Yasuhiko Komatsu , Yoshinori Matsumura , Kazunari Nakagawa , Kohsuke Ozeki , Maki Furui , Naoko Kubo , Tutomu Simada , Tohru Mori , Satoshi Ishizuka
发明人: Hiroki Yoshikawa , Takahiko Yoshida , Kiyoshi Wada , Shigeru Mori , Tetsu Ohishi , Toshimitsu Watanabe , Koji Suso , Yoshimasa Yokoyama , Akira Takahashi , Yasuhiko Komatsu , Yoshinori Matsumura , Kazunari Nakagawa , Kohsuke Ozeki , Maki Furui , Naoko Kubo , Tutomu Simada , Tohru Mori , Satoshi Ishizuka
CPC分类号: H04N9/3141 , G03B21/10 , G03B21/16 , H04N5/7408 , H04R5/02 , H04N5/642 , H04N7/0122
摘要: A rear projection type image display apparatus having an arrangement that a projection distance of a projection lens thereof is shortened and a density of mounting of parts relating to an optical system and an electric system is made higher. Furthermore, a width of a rear portion of a housing of the rear projection type image display apparatus is reduced rearwards at any position from the upper portion to the lower portion thereof, and the lower portion of a back cover is depressed inwards. Thus, a space required to install the rear projection type image display apparatus can be reduced, the rear surface of the apparatus can be disposed on a wall without any gap when the apparatus is installed along the wall, and the overall body of the apparatus can be received deep into a corner of walls when the apparatus is installed at the corner.
摘要翻译: 具有其投影透镜的投影距离缩短并且与光学系统和电气系统相关的部件的安装密度更高的背投型图像显示装置。 此外,背投影型图像显示装置的壳体的后部的宽度在从上部到下部的任何位置处向后减小,并且后盖的下部向内凹入。 因此,可以减少安装后投影型图像显示装置所需的空间,当装置沿壁安装时,可以将设备的后表面设置在没有任何间隙的壁上,并且装置的整体可以 当设备安装在角落时,深深地被收到墙壁的一角。
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公开(公告)号:US5933280A
公开(公告)日:1999-08-03
申请号:US844311
申请日:1997-04-10
申请人: Atsuo Osawa , Hiroki Yoshikawa , Shigeru Mori , Naoyuki Ogura
发明人: Atsuo Osawa , Hiroki Yoshikawa , Shigeru Mori , Naoyuki Ogura
摘要: An image display device which is compact on the whole and low in cost, and which uses a plurality of projection lens systems each of which is constituted by five lens groups including a first aspherical lens group, a second aspherical lens group, a third biconvex lens group, a fourth aspherical lens group and a fifth aspherical lens group which are arranged in this order successively from a screen side, the third lens group having refractive power of not lower than 70% of the total power of the projection lens system, the respective peripheral shapes of the first and second aspherical lens groups being set to have a predetermined relation, a low-dispersion high-index glass material being used for a convex lens of a green projection lens system, a high-dispersion high-index glass material being used for convex lenses of blue and red projection lens systems.
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