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公开(公告)号:US08992634B2
公开(公告)日:2015-03-31
申请号:US12845635
申请日:2010-07-28
摘要: A method of dyeing a plastic lens including applying a sublimation dye to a dyeing substrate, holding the dyeing substrate on a holding member, holding a plastic lens on the holding member at a position above the dyeing substrate, evacuating a vacuum vessel which accommodates the holding member, transferring the dyeing substrate from the holding member to a heating device provided in the vacuum vessel, so that the dyeing substrate is held to be heatable by the heating device, by vertically moving at least one of the holding member and the heating device, bringing the plastic lens in close proximity to the dyeing substrate by vertically moving at least one of the holding member and the heating device which holds the dyeing substrate, and dyeing the target surface of the plastic lens with the sublimation dye by sublimating the sublimation dye by heating the dyeing substrate using the heating device.
摘要翻译: 一种对塑料透镜进行染色的方法,其包括将升华染料施加到染色基板上,将染色基板保持在保持部件上,将保持部件上的塑料透镜保持在染色基板上方的位置,抽真空容纳保持 将所述染色基板从所述保持部件转印到设置在所述真空容器内的加热装置,使得所述染色基板通过所述保持部件和所述加热装置的至少一个垂直移动而被所述加热装置保持为可加热, 通过垂直移动保持构件和保持染色基板的加热装置中的至少一个,使塑料透镜靠近染色基板,并通过升华色素使升华染料升华来对升华色素进行升华来染色塑料透镜的目标表面 使用加热装置加热染色基板。
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公开(公告)号:US20110023243A1
公开(公告)日:2011-02-03
申请号:US12845635
申请日:2010-07-28
摘要: A method of dyeing a plastic lens includes the steps of applying a sublimation dye to a dyeing substrate, holding the dyeing substrate on a holding member, holding a plastic lens on the holding member at a position above the dyeing substrate, evacuating a vacuum vessel which accommodates the holding member, transferring the dyeing substrate from the holding member to a heating device provided in the vacuum vessel, so that the dyeing substrate is held to be heatable by the heating device, by vertically moving at least one of the holding member and the heating device, bringing the plastic lens in close proximity to the dyeing substrate by vertically moving at least one of the holding member and the heating device which holds the dyeing substrate, and dyeing the target surface of the plastic lens with the sublimation dye by sublimating the sublimation dye by heating the dyeing substrate using the heating device. An apparatus for dyeing a plastic lens is also disclosed.
摘要翻译: 对塑料透镜进行染色的方法包括以下步骤:将染色基材施加到染色基板上,将染色基板保持在保持部件上,将保持部件上的塑料透镜保持在染色基板上方的位置,抽真空容器 容纳保持构件,将染色基板从保持构件传送到设置在真空容器中的加热装置,使得染色基板由加热装置保持为可加热,通过垂直移动保持构件和 加热装置,通过垂直移动保持构件和保持染色基板的加热装置中的至少一个,使塑料透镜靠近染色基板,并通过升华染色将塑料透镜的目标表面用升华色素进行染色 通过使用加热装置加热染色基板来升华染料。 还公开了一种用于染色塑料透镜的设备。
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3.发明授权Optical properties restoration apparatus, the restoration method, and an optical system used in the apparatus 失效光学性能恢复装置,恢复方法以及该装置中使用的光学系统公开(公告)号:US07733563B2
公开(公告)日:2010-06-08
申请号:US11682794
申请日:2007-03-06
申请人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
发明人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
IPC分类号: G02B5/20
CPC分类号: G02B27/0006 , B08B7/0035 , B08B17/00 , G02B1/14
摘要: An optical system has fluoride compounds provided in an environment exposed by vacuum ultraviolet light or plasma light, which has higher photon energy than an absorption wavelength of a base stock of the optical system. 1-layer of a protective film of SiO2 or metal oxides having a film thickness of 2-20 nm is formed at least on the light irradiation side (inner side) of the optical system to prevent the stripping of the fluorine atoms from the surface of the optical system. In addition, the protective film is a 1-layer film selected from one of SiO2, MgO, TiO2, or ZrO2.
摘要翻译: 光学系统具有在由真空紫外线或等离子体光暴露的环境中提供的氟化合物,其具有比光学系统的基础材料的吸收波长更高的光子能量。 至少在光学系统的光照射侧(内侧)形成有SiO 2的保护膜或膜厚度为2-20nm的金属氧化物的1层,以防止氟原子从表面剥离 光学系统。 此外,保护膜是选自SiO 2,MgO,TiO 2或ZrO 2中的一层膜。
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4.发明申请Optical properties restoration apparatus, the restoration method, and an optical system used in the apparatus 有权光学性能恢复装置,恢复方法以及该装置中使用的光学系统公开(公告)号:US20050242379A1
公开(公告)日:2005-11-03
申请号:US10833998
申请日:2004-04-29
申请人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
发明人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
CPC分类号: G02B27/0006 , B08B7/0035 , B08B17/00 , G02B1/14
摘要: The objectives of the present invention are to prevent or inhibit the deterioration of optical systems that determine the longevity of an optical apparatus which delivers effects such as light transmission, diffraction, reflection, spectrum generation, and interference, and these combinations, and by so doing, decrease the frequency of maintenance operations such as window replacement and to reduce the costs for such operations. This invention is characterized by steps of creating a near vacuum zone with a presence of active energy to excite an oxidation reaction of carbon wherein the near vacuum zone faces the lighting surfaces of the optical system; generating negative ions or radicals in the near vacuum zone such as unstable chemical seeds containing oxygen atoms, such as OH radicals, OH− ions, ozone, O2− ions, O-radicals; and removing or reducing the accumulated carbon which deposits on the lighting surface, by reacting the deposited carbon with the negative ions or radicals. More specifically, the method according to this invention is characterized by the step of supplying active energy while supplying a flow of gases containing oxygen atoms such as water gas or oxidizing gas (for example, water vapor, oxygen, hydrogen peroxide, ozone or mixtures of said gases with inactive gases (including air)) into the near vacuum zone, thereby removing or reducing the accumulated carbon which deposits on the lighting surface by exciting the oxidation reaction of the accumulated carbon with the supplied active energy.
摘要翻译: 本发明的目的是防止或抑制光学系统的劣化,这些光学系统确定了传递诸如光透射,衍射,反射,光谱产生和干扰的效果的光学装置的寿命,以及这些组合。 ,减少窗户更换等维护操作的频率,降低这种操作的成本。 本发明的特征在于产生具有活性能量的近真空区以激发碳的氧化反应的步骤,其中近真空区面向光学系统的照明表面; 在近真空区域产生负离子或自由基,例如含有氧原子的不稳定的化学种子,例如OH基,OH - ,O 2 - , - O - 离子,O-自由基; 以及通过使沉积的碳与负离子或自由基反应来除去或减少沉积在照明表面上的积累的碳。 更具体地说,根据本发明的方法的特征在于,在供给含有氧原子的气体流(例如水气或氧化气体(例如水蒸气,氧气,过氧化氢,臭氧或混合气体 所述具有惰性气体(包括空气)的气体)进入近真空区域,从而通过激发累积的碳与所提供的活性能的氧化反应去除或减少沉积在照明表面上的积聚的碳。
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5.发明申请OPTICAL PROPERTIES RESTORATION APPARATUS, THE RESTORATION METHOD, AND AN OPTICAL SYSTEM USED IN THE APPARATUS 失效光学性质恢复装置,恢复方法和装置中使用的光学系统公开(公告)号:US20070158600A1
公开(公告)日:2007-07-12
申请号:US11682794
申请日:2007-03-06
申请人: Satoshi SAKAI , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
发明人: Satoshi SAKAI , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
IPC分类号: G01J3/10
CPC分类号: G02B27/0006 , B08B7/0035 , B08B17/00 , G02B1/14
摘要: The objectives of the present invention are to prevent or inhibit the deterioration of optical systems that determine the longevity of an optical apparatus which delivers effects such as light transmission, diffraction, reflection, spectrum generation, and interference, and these combinations, and by so doing, decrease the frequency of maintenance operations such as window replacement and to reduce the costs for such operations. This invention is characterized by steps of creating a near vacuum zone with a presence of active energy to excite an oxidation reaction of carbon wherein the near vacuum zone faces the lighting surfaces of the optical system; generating negative ions or radicals in the near vacuum zone such as unstable chemical seeds containing oxygen atoms, such as OH radicals, OH.ions, ozone, O2.ions, O-radicals; and removing or reducing the accumulated carbon which deposits on the lighting surface, by reacting the deposited carbon with the negative ions or radicals. More specifically, the method according to this invention is characterized by the step of supplying active energy while supplying a flow of gases containing oxygen atoms such as water gas or oxidizing gas (for example, water vapor, oxygen, hydrogen peroxide, ozone or mixtures of said gases with inactive gases (including air)) into the near vacuum zone, thereby removing or reducing the accumulated carbon which deposits on the lighting surface by exciting the oxidation reaction of the accumulated carbon with the supplied active energy.
摘要翻译: 本发明的目的是防止或抑制光学系统的劣化,这些光学系统确定了传递诸如光透射,衍射,反射,光谱产生和干扰的效果的光学装置的寿命,以及这些组合。 ,减少窗户更换等维护操作的频率,降低这种操作的成本。 本发明的特征在于产生具有活性能量的近真空区以激发碳的氧化反应的步骤,其中近真空区面向光学系统的照明表面; 在近真空区产生负离子或自由基,例如含有氧原子的不稳定的化学种子,例如OH自由基,OH,OH,OH,O,O, 以及通过使沉积的碳与负离子或自由基反应来除去或减少沉积在照明表面上的积累的碳。 更具体地说,根据本发明的方法的特征在于,在供给含有氧原子的气体流(例如水气或氧化气体(例如水蒸气,氧气,过氧化氢,臭氧或混合气体 所述具有惰性气体(包括空气)的气体)进入近真空区域,从而通过激发累积的碳与所提供的活性能的氧化反应去除或减少沉积在照明表面上的积聚的碳。
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6.发明申请OPTICAL PROPERTIES RESTORATION APPARATUS, THE RESTORATION METHOD, AND AN OPTICAL SYSTEM USED IN THE APPARATUS 有权光学性质恢复装置,恢复方法和装置中使用的光学系统公开(公告)号:US20070152172A1
公开(公告)日:2007-07-05
申请号:US11682800
申请日:2007-03-06
申请人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayshi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
发明人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayshi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
IPC分类号: A61N5/00
CPC分类号: G02B27/0006 , B08B7/0035 , B08B17/00 , G02B1/14
摘要: The objectives of the present invention are to prevent or inhibit the deterioration of optical systems that determine the longevity of an optical apparatus which delivers effects such as light transmission, diffraction, reflection, spectrum generation, and interference, and these combinations, and by so doing, decrease the frequency of maintenance operations such as window replacement and to reduce the costs for such operations. This invention is characterized by steps of creating a near vacuum zone with a presence of active energy to excite an oxidation reaction of carbon wherein the near vacuum zone faces the lighting surfaces of the optical system; generating negative ions or radicals in the near vacuum zone such as unstable chemical seeds containing oxygen atoms, such as OH radicals, OH— ions, ozone, O2— ions, O-radicals; and removing or reducing the accumulated carbon which deposits on the lighting surface, by reacting the deposited carbon with the negative ions or radicals. More specifically, the method according to this invention is characterized by the step of supplying active energy while supplying a flow of gases containing oxygen atoms such as water gas or oxidizing gas (for example, water vapor, oxygen, hydrogen peroxide, ozone or mixtures of said gases with inactive gases (including air)) into the near vacuum zone, thereby removing or reducing the accumulated carbon which deposits on the lighting surface by exciting the oxidation reaction of the accumulated carbon with the supplied active energy.
摘要翻译: 本发明的目的是防止或抑制光学系统的劣化,这些光学系统确定了传递诸如光透射,衍射,反射,光谱产生和干扰的效果的光学装置的寿命,以及这些组合。 ,减少窗户更换等维护操作的频率,降低这种操作的成本。 本发明的特征在于产生具有活性能量的近真空区以激发碳的氧化反应的步骤,其中近真空区面向光学系统的照明表面; 在近真空区产生负离子或自由基,例如包含氧原子的不稳定的化学种子,例如OH自由基,OH-离子,臭氧,O 2 - 离子,O-自由基; 以及通过使沉积的碳与负离子或自由基反应来除去或减少沉积在照明表面上的积累的碳。 更具体地说,根据本发明的方法的特征在于,在供给含有氧原子的气体流(例如水气或氧化气体(例如水蒸气,氧气,过氧化氢,臭氧或混合气体 所述具有惰性气体(包括空气)的气体)进入近真空区域,从而通过激发累积的碳与所提供的活性能的氧化反应去除或减少沉积在照明表面上的积聚的碳。
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7.发明授权Optical properties restoration apparatus, the restoration method, and an optical system used in the apparatus 有权光学性能恢复装置,恢复方法以及该装置中使用的光学系统公开(公告)号:US07190512B2
公开(公告)日:2007-03-13
申请号:US10833998
申请日:2004-04-29
申请人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
发明人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
CPC分类号: G02B27/0006 , B08B7/0035 , B08B17/00 , G02B1/14
摘要: The objectives of the present invention are to prevent or inhibit the deterioration of optical systems that determine the longevity of an optical apparatus which delivers effects such as light transmission, diffraction, reflection, spectrum generation, and interference, and these combinations, and by so doing, decrease the frequency of maintenance operations such as window replacement and to reduce the costs for such operations. This invention is characterized by steps of creating a near vacuum zone with a presence of active energy to excite an oxidation reaction of carbon wherein the near vacuum zone faces the lighting surfaces of the optical system; generating negative ions or radicals in the near vacuum zone such as unstable chemical seeds containing oxygen atoms, such as OH radicals, OH− ions, ozone, O2− ions, O-radicals; and removing or reducing the accumulated carbon which deposits on the lighting surface, by reacting the deposited carbon with the negative ions or radicals. More specifically, the method according to this invention is characterized by the step of supplying active energy while supplying a flow of gases containing oxygen atoms such as water gas or oxidizing gas (for example, water vapor, oxygen, hydrogen peroxide, ozone or mixtures of said gases with inactive gases (including air)) into the near vacuum zone, thereby removing or reducing the accumulated carbon which deposits on the lighting surface by exciting the oxidation reaction of the accumulated carbon with the supplied active energy.
摘要翻译: 本发明的目的是防止或抑制光学系统的劣化,这些光学系统确定了传递诸如光透射,衍射,反射,光谱产生和干扰的效果的光学装置的寿命,以及这些组合。 ,减少窗户更换等维护操作的频率,降低这种操作的成本。 本发明的特征在于产生具有活性能量的近真空区以激发碳的氧化反应的步骤,其中近真空区面向光学系统的照明表面; 在近真空区域产生负离子或自由基,例如含有氧原子的不稳定的化学种子,例如OH基,OH - ,O 2 - , - O - 离子,O-自由基; 以及通过使沉积的碳与负离子或自由基反应来除去或减少沉积在照明表面上的积累的碳。 更具体地说,根据本发明的方法的特征在于,在供给含有氧原子的气体流(例如水气或氧化气体(例如水蒸气,氧气,过氧化氢,臭氧或混合气体 所述具有惰性气体(包括空气)的气体)进入近真空区域,从而通过激发累积的碳与所提供的活性能的氧化反应去除或减少沉积在照明表面上的积聚的碳。
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8.发明申请OPTICAL PROPERTIES RESTORATION APPARATUS, THE RESTORATION METHOD, AND AN OPTICAL SYSTEM USED IN THE APPARATUS 有权光学性质恢复装置,恢复方法和装置中使用的光学系统公开(公告)号:US20070158598A1
公开(公告)日:2007-07-12
申请号:US11682776
申请日:2007-03-06
申请人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
发明人: Satoshi Sakai , Shigenori Tsuruga , Hideo Yamakoshi , Shizuma Kuribayashi , Minoru Danno , Hiroshi Futami , Noriko Yamazaki
IPC分类号: G01J3/10
CPC分类号: G02B27/0006 , B08B7/0035 , B08B17/00 , G02B1/14
摘要: The objectives of the present invention are to prevent or inhibit the deterioration of optical systems that determine the longevity of an optical apparatus which delivers effects such as light transmission, diffraction, reflection, spectrum generation, and interference, and these combinations, and by so doing, decrease the frequency of maintenance operations such as window replacement and to reduce the costs for such operations. This invention is characterized by steps of creating a near vacuum zone with a presence of active energy to excite an oxidation reaction of carbon wherein the near vacuum zone faces the lighting surfaces of the optical system; generating negative ions or radicals in the near vacuum zone such as unstable chemical seeds containing oxygen atoms, such as OH radicals, OH− ions, ozone, O2− ions, O-radicals; and removing or reducing the accumulated carbon which deposits on the lighting surface, by reacting the deposited carbon with the negative ions or radicals. More specifically, the method according to this invention is characterized by the step of supplying active energy while supplying a flow of gases containing oxygen atoms such as water gas or oxidizing gas (for example, water vapor, oxygen, hydrogen peroxide, ozone or mixtures of said gases with inactive gases (including air)) into the near vacuum zone, thereby removing or reducing the accumulated carbon which deposits on the lighting surface by exciting the oxidation reaction of the accumulated carbon with the supplied active energy.
摘要翻译: 本发明的目的是防止或抑制光学系统的劣化,这些光学系统确定了传递诸如光透射,衍射,反射,光谱产生和干扰的效果的光学装置的寿命,以及这些组合。 ,减少窗户更换等维护操作的频率,降低这种操作的成本。 本发明的特征在于产生具有活性能量的近真空区以激发碳的氧化反应的步骤,其中近真空区面向光学系统的照明表面; 在近真空区域产生负离子或自由基,例如含有氧原子的不稳定的化学种子,例如OH基,OH - ,O 2 - , - O - 离子,O-自由基; 以及通过使沉积的碳与负离子或自由基反应来除去或减少沉积在照明表面上的积累的碳。 更具体地说,根据本发明的方法的特征在于,在供给含有氧原子的气体流(例如水气或氧化气体(例如水蒸气,氧气,过氧化氢,臭氧或混合气体 所述具有惰性气体(包括空气)的气体)进入近真空区域,从而通过激发累积的碳与所提供的活性能的氧化反应去除或减少沉积在照明表面上的积聚的碳。
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9.发明申请公开(公告)号:US20050009172A1
公开(公告)日:2005-01-13
申请号:US10495044
申请日:2003-06-27
IPC分类号: G01N27/62 , B01D59/44 , C12M1/34 , H01J49/00 , H01J49/10 , H01J49/16 , H01J49/40 , H01J49/42
CPC分类号: H01J49/162 , F23J2215/301 , H01J49/0063 , H01J49/424 , H01J49/428
摘要: A vacuum ultraviolet lamp (3) ionizes a chemical substance contained in exhaust gas Gs. The chemical substance ionized is trapped in an ion trapping apparatus (10) in which a radio frequency electric field is formed. Energy is applied to an ion group in the ion trapping apparatus (10) with a SWIFT waveform comprising a frequency component excluding a frequency corresponding to an orbital resonance frequency of ions of the chemical substance to remove an impurity. Energy is then applied to the ion group with a TICKLE waveform having a frequency component corresponding to the orbital resonance frequency of the ions of the chemical substance to fragmentate the ions of the chemical substance. A mass of the fragment is then measured with a mass spectrometer (4) to identify the chemical substance.
摘要翻译: 真空紫外线灯(3)将废气Gs中含有的化学物质电离。 电离的化学物质被捕获在其中形成射频电场的离子俘获装置(10)中。 利用包括除了与化学物质的离子的轨道共振频率相对应的频率的频率分量的SWIFT波形将能量施加到离子捕获装置(10)中的离子组以除去杂质。 然后用具有对应于化学物质的离子的轨道共振频率的频率分量的TICKLE波形将能量施加到离子组,以使化学物质的离子破碎。 然后用质谱仪(4)测量该片段的质量以鉴定化学物质。
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公开(公告)号:US5775226A
公开(公告)日:1998-07-07
申请号:US696852
申请日:1996-08-07
申请人: Hiroshi Futami , Kenjiro Futami
发明人: Hiroshi Futami , Kenjiro Futami
摘要: A pair of travel rails (46) each having an upper surface and a lower surface are laid to extend from on the land (44) into the water (45). Main tires (12) are rotatably disposed on opposite sides of a vehicle body (1), so that they are located between the upper and lower surfaces of the travel rails (46), and so that they abut against the lower surfaces of the travel rails (46) during traveling of the vehicle body on the land. Auxiliary tires (13) are disposed on upper portions of the main tires (12) to abut against the main tires (12). The auxiliary tires (13) are adapted to abut against the upper portions of the travel rails (46) under influence of the buoyancy of the vehicle body (1) during traveling of the vehicle body in the water. Thus, the travel vehicle body (1) can continuously travel on the land and in the water by rotatively driving the main tires (12) to move the travel vehicle body (1) along the travel rails (46).
摘要翻译: PCT No.PCT / JP95 / 02503 Sec。 371日期:1996年8月7日 102(e)日期1996年8月7日PCT提交1995年7月12日PCT公布。 出版物WO96 / 17735 日期1996年6月13日一对具有上表面和下表面的行进轨道(46)被放置成从陆地(44)延伸到水(45)中。 主轮胎(12)可旋转地设置在车体(1)的相对侧上,使得它们位于行进轨道(46)的上表面和下表面之间,并且它们抵靠行进的下表面 轨道(46)在车体在陆地上行进时。 辅助轮胎(13)设置在主轮胎(12)的上部以抵靠主轮胎(12)。 辅助轮胎(13)适于在车体在水中行驶期间在车体(1)的浮力的影响下抵靠行驶轨道(46)的上部。 因此,行驶车体(1)能够通过旋转地驱动主轮胎(12)而沿着行驶轨道(46)移动行驶车身(1),从而在陆地和水中连续行驶。
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