公开(公告)号：USRE41503E1

公开(公告)日：2010-08-17

申请号：US11437004

申请日：2006-05-18

申请人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita ,  Yasuko Nishimura ,  Syunsuke Nishimura ,  Emi Kawahara

发明人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita ,  Yasuko Nishimura ,  Syunsuke Nishimura ,  Emi Kawahara

IPC分类号： C30B29/16 ,  C30B23/00

CPC分类号： C23C16/404 ,  C23C16/403 ,  H01J9/02 ,  H01J11/12 ,  H01J11/38 ,  H01J11/40 ,  H01J11/50 ,  H01J2211/38 ,  H01J2211/40 ,  H01J2211/50 ,  Y10T117/1004 ,  Y10T117/1008

摘要： The first object of the present invention is to provide a PDP with improved panel brightness which is achieved by improving the efficiency in conversion from discharge energy to visible rays. The second object of the present invention is to provide a PDP with improved panel life which is achieved by improving the protecting layer protecting the dielectrics glass layer. To achieve the first object, the present invention sets the amount of xenon in the discharge gas to the range of 10% by volume to less than 100% by volume, and sets the charging pressure for the discharge gas to the range of 500 to 760 Torr which is higher than conventional charging pressures. With such construction, the panel brightness increases. Also, to achieve the second object, the present invention has, on the surface of the dielectric glass layer, a protecting layer consisting of an alkaline earth oxide with (100)-face or (110)-face orientation. The protecting layer, which may be formed by using thermal Chemical Vapor Deposition (CVD) method, plasma enhanced CVD method, or a vapor deposition method with irradiation of ion or electron beam, will have a high sputtering resistance and effectively protect the dielectrics glass layer. Such a protecting layer contributes to the improvement of the panel life.

摘要翻译： 本发明的第一个目的是提供一种具有改进的面板亮度的PDP，其通过提高从放电能量到可见光的转换的效率来实现。 本发明的第二个目的是提供一种具有改善面板寿命的PDP，其通过改进保护电介质玻璃层的保护层来实现。 为了实现第一个目的，本发明将放电气体中的氙的量设定为10体积％至小于100体积％的范围，并将放电气体的充电压力设定在500至760的范围内 高于常规充气压力的Torr。 通过这样的结构，面板亮度增加。 此外，为了实现第二个目的，本发明在电介质玻璃层的表面上具有由具有（100）面或（110）面取向的碱土金属氧化物构成的保护层。 可以通过使用热化学气相沉积（CVD）法，等离子体增强CVD法或通过离子或电子束照射的气相沉积法形成的保护层将具有高溅射电阻并且有效地保护电介质玻璃层 。 这样的保护层有助于提高面板寿命。

公开(公告)号：US5993543A

公开(公告)日：1999-11-30

申请号：US890577

申请日：1997-07-09

申请人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

发明人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

IPC分类号： C23C16/40 ,  C30B23/00 ,  C30B29/16 ,  H01J9/02 ,  H01J9/20 ,  H01J9/24 ,  H01J9/38 ,  H01J11/12 ,  H01J11/14 ,  H01J11/22 ,  H01J11/24 ,  H01J11/26 ,  H01J11/28 ,  H01J11/34 ,  H01J11/36 ,  H01J11/38 ,  H01J11/40 ,  H01J11/42 ,  H01J11/44 ,  H01J11/48 ,  H01J11/50

CPC分类号： C23C16/404 ,  C23C16/403 ,  H01J11/12 ,  H01J11/38 ,  H01J11/40 ,  H01J11/50 ,  H01J9/02 ,  H01J2211/38 ,  H01J2211/40 ,  H01J2211/50 ,  Y10T117/1004 ,  Y10T117/1008

摘要： The first object of the present invention is to provide a PDP with improved panel brightness which is achieved by improving the efficiency in conversion from discharge energy to visible rays. The second object of the present invention is to provide a PDP with improved panel life which is achieved by improving the protecting layer protecting the dielectrics glass layer. To achieve the first object, the present invention sets the amount of xenon in the discharge gas to the range of 10% by volume to less than 100% by volume, and sets the charging pressure for the discharge gas to the range of 500 to 760 Torr which is higher than conventional charging pressures. With such construction, the panel brightness increases. Also, to achieve the second object, the present invention has, on the surface of the dielectric glass layer, a protecting layer consisting of an alkaline earth oxide with (100)-face or (110)-face orientation. The protecting layer, which may be formed by using thermal Chemical Vapor Deposition (CVD) method, plasma enhanced CVD method, or a vapor deposition method with irradiation of ion or electron beam, will have a high sputtering resistance and effectively protect the dielectrics glass layer. Such a protecting layer contributes to the improvement of the panel life.

公开(公告)号：USRE40871E1

公开(公告)日：2009-08-18

申请号：US09997536

申请日：2001-11-29

申请人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

发明人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

IPC分类号： C30B29/16

CPC分类号： C23C16/404 ,  C23C16/403 ,  H01J9/02 ,  H01J11/12 ,  H01J11/38 ,  H01J11/40 ,  H01J11/50 ,  H01J2211/38 ,  H01J2211/40 ,  H01J2211/50 ,  Y10T117/1004 ,  Y10T117/1008

摘要： The first object of the present invention is to provide a PDP with improved panel brightness which is achieved by improving the efficiency in conversion from discharge energy to visible rays. The second object of the present invention is to provide a PDP with improved panel life which is achieved by improving the protecting layer protecting the dielectrics glass layer. To achieve the first object, the present invention sets the amount of xenon in the discharge gas to the range of 10% by volume to less than 100% by volume, and sets the charging pressure for the discharge gas to the range of 500 to 760 Torr which is higher than conventional charging pressures. With such construction, the panel brightness increases. Also, to achieve the second object, the present invention has, on the surface of the dielectric glass layer, a protecting layer consisting of an alkaline earth oxide with (100)-face or (110)-face orientation. The protecting layer, which may be formed by using thermal Chemical Vapor Deposition (CVD) method, plasma enhanced CVD method, or a vapor deposition method with irradiation of ion or electron beam, will have a high sputtering resistance and effectively protect the dielectrics glass layer. Such a protecting layer contributes to the improvement of the panel life.

摘要翻译： 本发明的第一个目的是提供一种具有改进的面板亮度的PDP，其通过提高从放电能量到可见光的转换的效率来实现。 本发明的第二个目的是提供一种具有改善面板寿命的PDP，其通过改进保护电介质玻璃层的保护层来实现。 为了实现第一个目的，本发明将放电气体中的氙的量设定为10体积％至小于100体积％的范围，并将放电气体的充电压力设定在500至760的范围内 高于常规充气压力的Torr。 通过这样的结构，面板亮度增加。 此外，为了实现第二个目的，本发明在电介质玻璃层的表面上具有由具有（100）面或（110）面取向的碱土金属氧化物构成的保护层。 可以通过使用热化学气相沉积（CVD）法，等离子体增强CVD法或通过离子或电子束照射的气相沉积法形成的保护层将具有高溅射电阻并且有效地保护电介质玻璃层 。 这样的保护层有助于提高面板寿命。

公开(公告)号：USRE40647E1

公开(公告)日：2009-03-10

申请号：US09997988

申请日：2001-11-29

申请人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

发明人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

IPC分类号： C30B29/16 ,  C30B23/00

CPC分类号： C23C16/404 ,  C23C16/403 ,  H01J9/02 ,  H01J11/12 ,  H01J11/38 ,  H01J11/40 ,  H01J11/50 ,  H01J2211/38 ,  H01J2211/40 ,  H01J2211/50 ,  Y10T117/1004 ,  Y10T117/1008

摘要： The first object of the present invention is to provide a PDP with improved panel brightness which is achieved by improving the efficiency in conversion from discharge energy to visible rays. The second object of the present invention is to provide a PDP with improved panel life which is achieved by improving the protecting layer protecting the dielectrics glass layer. To achieve the first object, the present invention sets the amount of xenon in the discharge gas to the range of 10% by volume to less than 100% by volume, and sets the charging pressure for the discharge gas to the range of 500 to 760 Torr which is higher than conventional charging pressures. With such construction, the panel brightness increases. Also, to achieve the second object, the present invention has, on the surface of the dielectric glass layer, a protecting layer consisting of an alkaline earth oxide with (100)-face or (110)-face orientation. The protecting layer, which may be formed by using thermal Chemical Vapor Deposition (CVD) method, plasma enhanced CVD method, or a vapor deposition method with irradiation of ion or electron beam, will have a high sputtering resistance and effectively protect the dielectrics glass layer. Such a protecting layer contributes to the improvement of the panel life.

公开(公告)号：US5770921A

公开(公告)日：1998-06-23

申请号：US766030

申请日：1996-12-16

申请人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

发明人： Masaki Aoki ,  Hideo Torii ,  Eiji Fujii ,  Mitsuhiro Ohtani ,  Takashi Inami ,  Hiroyuki Kawamura ,  Hiroyoshi Tanaka ,  Ryuichi Murai ,  Yasuhisa Ishikura ,  Yutaka Nishimura ,  Katsuyoshi Yamashita

IPC分类号： C23C16/40 ,  C30B23/00 ,  C30B29/16 ,  H01J9/02 ,  H01J9/20 ,  H01J9/24 ,  H01J9/38 ,  H01J11/12 ,  H01J11/14 ,  H01J11/22 ,  H01J11/24 ,  H01J11/26 ,  H01J11/28 ,  H01J11/34 ,  H01J11/36 ,  H01J11/38 ,  H01J11/40 ,  H01J11/42 ,  H01J11/44 ,  H01J11/48 ,  H01J11/50 ,  H01J17/00 ,  H01J61/00

CPC分类号： C23C16/404 ,  C23C16/403 ,  H01J11/12 ,  H01J11/38 ,  H01J11/40 ,  H01J11/50 ,  H01J9/02 ,  H01J2211/38 ,  H01J2211/40 ,  H01J2211/50 ,  Y10T117/1004 ,  Y10T117/1008

摘要： The first object of the present invention is to provide a PDP with improved panel brightness which is achieved by improving the efficiency in conversion from discharge energy to visible rays. The second object of the present invention is to provide a PDP with improved panel life which is achieved by improving the protecting layer protecting the dielectrics glass layer. To achieve the first object, the present invention sets the amount of xenon in the discharge gas to the range of 10% by volume to less than 100% by volume, and sets the charging pressure for the discharge gas to the range of 500 to 760Torr which is higher than conventional charging pressures. With such construction, the panel brightness increases. Also, to achieve the second object, the present invention has, on the surface of the dielectrics glass layer, a protecting layer consisting of an alkaline earth oxide with (100)-face or (110)-face orientation. The protecting layer, which may be formed by using thermal Chemical Vapor Deposition (CVD) method, plasma enhanced CVD method, or a vapor deposition method with irradiation of ion or electron beam, will have a high sputtering resistance and effectively protect the dielectrics glass layer. Such a protecting layer contributes to the improvement of the panel life.

摘要翻译： 本发明的第一个目的是提供一种具有改进的面板亮度的PDP，其通过提高从放电能量到可见光的转换的效率来实现。 本发明的第二个目的是提供一种具有改善面板寿命的PDP，其通过改进保护电介质玻璃层的保护层来实现。 为了实现第一个目的，本发明将放电气体中的氙的量设定为10体积％至小于100体积％的范围，并将放电气体的充电压力设定在500〜760Torr的范围内 这高于常规的充气压力。 通过这样的结构，面板亮度增加。 此外，为了实现第二目的，本发明在电介质玻璃层的表面上具有由具有（100）面或（110）面取向的碱土金属氧化物构成的保护层。 可以通过使用热化学气相沉积（CVD）法，等离子体增强CVD法或通过离子或电子束照射的气相沉积法形成的保护层将具有高溅射电阻并且有效地保护电介质玻璃层 。 这样的保护层有助于提高面板寿命。

公开(公告)号：US06439943B1

公开(公告)日：2002-08-27

申请号：US09309428

申请日：1999-05-11

申请人： Masaki Aoki ,  Yasuhisa Ishikura ,  Katsuyoshi Yamashita ,  Shinya Fujiwara ,  Yasuyuki Akata

发明人： Masaki Aoki ,  Yasuhisa Ishikura ,  Katsuyoshi Yamashita ,  Shinya Fujiwara ,  Yasuyuki Akata

IPC分类号： H01J924

CPC分类号： H01J11/12 ,  H01J9/02 ,  H01J11/38

摘要： The object of the present invention is to provide a high-intensity, reliable plasma display panel even when the cell structure is fine by resolving the problems such as a low visible light transmittance and low voltage endurance of a dielectric glass layer. The object is realized by forming the dielectric glass layer in the manner given below. A glass paste including a glass powder is applied on the front glass substrate or the back glass substrate, according to a screen printing method, a die coating method, a spray coating method, a spin coating method, or a blade coating method, on each of which electrodes have been formed, and the glass powder in the applied glass paste is fired. The average particle diameter of the glass powder is 0.1 to 1.5 &mgr;m and the maximum particle diameter is equal to or smaller than three times the average particle diameter.

摘要翻译： 本发明的目的在于提供高强度，可靠的等离子体显示面板，即使通过解决诸如电介质玻璃层的低可见光透射率和低电压耐久性等问题，细胞结构细小。 该目的通过以下述方式形成电介质玻璃层来实现。 根据丝网印刷法，模涂法，喷涂法，旋涂法或刮刀涂布法，在前玻璃基板或背玻璃基板上涂布玻璃粉末， 其中已经形成了电极，并且将所施加的玻璃糊料中的玻璃粉末烧制。 玻璃粉末的平均粒径为0.1〜1.5μm，最大粒径为平均粒径的3倍以下。

公开(公告)号：US5451835A

公开(公告)日：1995-09-19

申请号：US194332

申请日：1994-02-08

申请人： Fumio Yamazaki ,  Yutaka Nishimura ,  Kinzo Nonomura ,  Yasuhisa Ishikura

发明人： Fumio Yamazaki ,  Yutaka Nishimura ,  Kinzo Nonomura ,  Yasuhisa Ishikura

IPC分类号： H01J29/18 ,  H01J29/28

CPC分类号： H01J29/28 ,  H01J29/185

摘要： An electron beam display device which has high contrast and excellent image quality, by eliminating halation due to re-collision of the electrons in the fluorescent element area. The electron beam display device includes a face glass on which an image is formed, a cathode for emitting electron beams, a fluorescent element layer on the face glass and facing the cathode, with which layer electron beams collide to emit light for forming an image on the face glass, an aluminum layer as anode on the fluorescent element layer, and a carbon layer on the aluminum layer, having a thickness sufficient to prevent electrons, reflected in the aluminum anode layer by collision of electron beams with the aluminum anode layer, from coming back into the face glass.

摘要翻译： 一种电子束显示装置，其通过消除由于荧光元件区域中的电子的再次碰撞而引起的晕差，具有高对比度和优异的图像质量。 电子束显示装置包括形成图像的面玻璃，用于发射电子束的阴极，面玻璃上的面对阴极的荧光元件层，层电子束与其发射发光以形成图像 面玻璃，荧光元件层上的铝层作为阳极，以及铝层上的碳层，其具有足以防止电子通过电子束与铝阳极层碰撞而反射在铝阳极层中的电子的厚度 回到脸玻璃。

公开(公告)号：US5751102A

公开(公告)日：1998-05-12

申请号：US885838

申请日：1997-06-30

申请人： Takaaki Tanaka ,  Masahide Yamauchi ,  Yasuhisa Ishikura ,  Masaki Aoki

发明人： Takaaki Tanaka ,  Masahide Yamauchi ,  Yasuhisa Ishikura ,  Masaki Aoki

IPC分类号： H01J29/18

CPC分类号： H01J29/185

摘要： The present invention concerns a cathode ray display tube in which the layers of a scattered electrons suppressing material are formed on the surface of a metal back layer on a phosphor layer and the inner surface of a funnel part. Each of the scattered electrons suppressing material layers on the surface of the metal back layer and on the inner surface of the funnel part is formed with an amount per unit area within specific ranges. The scattered electrons suppressing material layer is provided to form a laminated layer which is composed of lamina shaped graphite particles with a diameter which is ten times or more as large as a thickness and an average particle size in terms of spherical volume not more than 2 .mu.m. The scattered electrons suppressing material layers reduce unnecessary light emission due to scattered electrons and improve the contrast of a display image. A projection display system providing a display image with high contrast can be constituted by using the cathode display tubes.

摘要翻译： 本发明涉及一种阴极射线显示管，其中散射电子抑制材料的层形成在荧光体层上的金属背层的表面和漏斗部分的内表面上。 在金属背层的表面和漏斗部的内表面上的每个散射电子抑制材料层形成在特定范围内的每单位面积的量。 设置散射电子抑制材料层以形成层叠层，其由直径为其厚度的十倍或更多的层状石墨颗粒构成，平均粒径以球形体积计不大于2μm m。 散射的电子抑制材料层减少了由于散射电子引起的不必要的发光，并提高了显示图像的对比度。 可以通过使用阴极显示管来构成提供具有高对比度的显示图像的投影显示系统。

公开(公告)号：US20110102399A1

公开(公告)日：2011-05-05

申请号：US12673836

申请日：2009-06-29

申请人： Ryota Hamada ,  Yasuhisa Ishikura ,  Eiichi Uriu ,  Tomohiro Murakoso

发明人： Ryota Hamada ,  Yasuhisa Ishikura ,  Eiichi Uriu ,  Tomohiro Murakoso

IPC分类号： G09G3/28 ,  G06F3/038

CPC分类号： H01J11/12 ,  H01J11/24 ,  H01J2211/245

摘要： The present invention provides a plasma display panel having a low-cost transparent electrode, without decrease in yield. To achieve above, the panel has a first bus electrode, a second bus electrode, a first transparent electrode, and a second transparent electrode on the front substrate. The first transparent electrode covers at least a part of the first bus electrode, and similarly, the second transparent electrode covers at least a part of the second bus electrode.

摘要翻译： 本发明提供一种具有低成本透明电极的等离子体显示面板，而不降低成品率。 为了实现上述目的，面板在前基板上具有第一总线电极，第二总线电极，第一透明电极和第二透明电极。 第一透明电极覆盖第一总线电极的至少一部分，类似地，第二透明电极覆盖第二总线电极的至少一部分。

公开(公告)号：US20070146636A1

公开(公告)日：2007-06-28

申请号：US11645746

申请日：2006-12-27

申请人： Yasuhisa Ishikura

发明人： Yasuhisa Ishikura

IPC分类号： A61B3/10

CPC分类号： A61B3/152

摘要： An alignment device for an ophthalmic measurement apparatus, which includes: an index projection optical system that forms a plurality of indices on a cornea of an eye to be examined by projecting a plurality of index lights onto the cornea; an imaging optical system that forms the images of the plurality of indices on an imaging device as index images; three-dimensional driving device for driving the imaging optical system in a three-dimensional direction; and controlling device for controlling to drive the three-dimensional driving device, and the controlling device, based on the positions of the index images formed on the imaging device, controls to drive the imaging optical system vertically and horizontally by the three-dimensional driving device such that a cornea vertex position of the image of the eye to be examined, which is formed on the imaging device, moves toward the center of the imaging device, in which the imaging optical system allows the imaging device to detect reflected lights of the plurality of index lights reflected by the cornea, and the controlling device controls to drive the three-dimensional driving device such that average light quantity values become approximately equal in a plurality of photo-detecting sections of the imaging device where the reflected lights are detected.

摘要翻译： 一种用于眼科测量装置的对准装置，包括：折射率投影光学系统，其通过将多个指示灯投射到角膜上而在要检查的眼睛的角膜上形成多个折射; 成像光学系统，其在成像装置上形成所述多个索引的图像作为索引图像; 用于在三维方向上驱动成像光学系统的三维驱动装置; 以及用于控制以驱动三维驱动装置的控制装置，并且控制装置基于形成在成像装置上的索引图像的位置进行控制，以通过三维驱动装置垂直和水平地驱动成像光学系统 使得形成在成像装置上的要检查的眼睛的图像的角膜顶点位置朝向成像装置的中心移动，其中成像光学系统允许成像装置检测多个反射光的反射光 由所述角膜反射的指示光，并且所述控制装置控制驱动所述三维驱动装置，使得平均光量值在检测到所述反射光的所述成像装置的多个光检测部分中变得近似相等。