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公开(公告)号:US07312584B2
公开(公告)日:2007-12-25
申请号:US10599059
申请日:2004-10-18
申请人: Taichiro Tamita , Akihiko Iwata , Noboru Wada , Shingo Mine , Hajime Nakatani
发明人: Taichiro Tamita , Akihiko Iwata , Noboru Wada , Shingo Mine , Hajime Nakatani
CPC分类号: H01J37/32348 , C01B13/11 , C01B13/115 , C01B2201/14 , C01B2201/22 , C01B2201/62 , C01B2201/64 , G09G3/2965 , H01J37/32009 , H05B41/2806 , H05H1/46 , Y02B20/22
摘要: A plasma-generation power-supply device includes a transformer connected to an alternating-current power-supply, a rectifier connected to the transformer, an inverter connected to the rectifier, a reactor inserted in series in a power line of an ozonizer that is supplied with power from the inverter, and a controller that controls the inverter. The controller detects the current flowing to the ozonizer with a current detector and provides a control that keeps power applied to the ozonizer constant.
摘要翻译: 等离子体发生电源装置包括连接到交流电源的变压器,连接到变压器的整流器,连接到整流器的反相器,串联插入供应的臭氧发生器的电力线的电抗器 来自变频器的电源,以及控制逆变器的控制器。 控制器使用电流检测器检测流向臭氧发生器的电流,并提供一种控制,该控制保持施加于臭氧发生器的功率恒定。
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公开(公告)号:US20070205727A1
公开(公告)日:2007-09-06
申请号:US10599059
申请日:2004-10-18
申请人: Taichiro Tamita , Akihiko Iwata , Noboru Wada , Shingo Mine , Hajime Nakatani
发明人: Taichiro Tamita , Akihiko Iwata , Noboru Wada , Shingo Mine , Hajime Nakatani
IPC分类号: H05H1/24
CPC分类号: H01J37/32348 , C01B13/11 , C01B13/115 , C01B2201/14 , C01B2201/22 , C01B2201/62 , C01B2201/64 , G09G3/2965 , H01J37/32009 , H05B41/2806 , H05H1/46 , Y02B20/22
摘要: A plasma-generation power-supply device includes a transformer connected to an alternating-current power-supply, a rectifier connected to the transformer, an inverter connected to the rectifier a reactor inserted in series in a power line of an ozonizer that is supplied with power from the inverter, and a controllers that controls the inverter. The controller detects the current flowing to the ozonizer with a current detector and provides a control that keeps power applied to the ozonizer constant.
摘要翻译: 等离子体发生电源装置包括连接到交流电源的变压器,连接到变压器的整流器,连接到整流器的逆变器串联插入到供应有臭氧发生器的电力线的电抗器 逆变器的电源,以及控制逆变器的控制器。 控制器使用电流检测器检测流向臭氧发生器的电流,并提供一种控制,该控制保持施加于臭氧发生器的功率恒定。
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公开(公告)号:US07922979B2
公开(公告)日:2011-04-12
申请号:US11721356
申请日:2006-03-16
申请人: Noboru Wada , Masaki Kuzumoto , Hajime Nakatani , Hiroyuki Igehara , Norimitsu Esaki , Shingo Mine , Taichiro Tamida
发明人: Noboru Wada , Masaki Kuzumoto , Hajime Nakatani , Hiroyuki Igehara , Norimitsu Esaki , Shingo Mine , Taichiro Tamida
IPC分类号: B01J19/08
CPC分类号: H01T19/00 , C01B13/11 , C01B2201/12 , C01B2201/14 , C01B2201/22 , C01B2201/24 , C01B2201/32 , C01B2201/34 , C01B2201/60 , C01B2201/64 , C01B2201/76 , C01B2201/90 , H05H1/2406 , H05H2001/2412 , H05H2001/2437
摘要: A silent discharge plasma apparatus includes a dielectric member, a pair of electrodes opposed to each other across the dielectric member and an alternating-current source applying an alternating-current voltage between the electrodes and causing a discharge. A gas is supplied to a discharge space, where discharge occurs, and a plasma is produced. At least one of the electrodes includes a conductive power feeding thin film on the dielectric member. When the dielectric member is destroyed and an arc discharge develops between the electrodes, the power feeding thin film is eliminated or oxidized, and the arc discharge is stopped.
摘要翻译: 无声放电等离子体装置包括电介质构件,在电介质构件之间彼此相对的一对电极和在电极之间施加交流电压并产生放电的交流电源。 向发生放电的放电空间供给气体,产生等离子体。 电极中的至少一个包括在电介质构件上的导电供电薄膜。 当电介质构件被破坏并且在电极之间产生电弧放电时,消除或氧化供电薄膜,停止电弧放电。
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公开(公告)号:US20090236042A1
公开(公告)日:2009-09-24
申请号:US11721356
申请日:2006-03-16
申请人: Noboru Wada , Masaki Kuzumoto , Hajime Nakatani , Hiroyuki Igehara , Norimitsu Esaki , Shingo Mine , Taichiro Tamida
发明人: Noboru Wada , Masaki Kuzumoto , Hajime Nakatani , Hiroyuki Igehara , Norimitsu Esaki , Shingo Mine , Taichiro Tamida
CPC分类号: H01T19/00 , C01B13/11 , C01B2201/12 , C01B2201/14 , C01B2201/22 , C01B2201/24 , C01B2201/32 , C01B2201/34 , C01B2201/60 , C01B2201/64 , C01B2201/76 , C01B2201/90 , H05H1/2406 , H05H2001/2412 , H05H2001/2437
摘要: A silent discharge plasma apparatus includes a dielectric member, a pair of electrodes opposed to each other across the dielectric member and an alternating-current source applying an alternating-current voltage between the electrodes and causing a discharge. A gas is supplied to a discharge space, where discharge occurs, and a plasma is produced. At least one of the electrodes includes a conductive power feeding thin film on the dielectric member. When the dielectric member is destroyed and an arc discharge develops between the electrodes, the power feeding thin film is eliminated or oxidized, and the arc discharge is stopped.
摘要翻译: 无声放电等离子体装置包括电介质构件,在电介质构件之间彼此相对的一对电极和在电极之间施加交流电压并产生放电的交流电源。 向发生放电的放电空间供给气体,产生等离子体。 电极中的至少一个包括在电介质构件上的导电供电薄膜。 当电介质构件被破坏并且在电极之间产生电弧放电时,消除或氧化供电薄膜,停止电弧放电。
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公开(公告)号:US20150021162A1
公开(公告)日:2015-01-22
申请号:US14376261
申请日:2013-02-12
CPC分类号: C01B13/11 , B01J19/088 , B01J2219/00051 , B01J2219/00164 , B01J2219/0809 , C01B2201/10 , C01B2201/14 , C01B2201/22 , C01B2201/32 , C01B2201/64 , C01B2201/76 , C01B2201/90 , Y02P20/129
摘要: A system including: an ozone generating device including discharge electrodes forming a discharge space; a gas supplying device; a power source device that supplies power to the discharge electrodes; a temperature adjustment device that adjusts temperature of the discharge electrodes; a control unit that controls the ozone generating device; and a detection unit that detects an ozone generation parameter in the ozone generating device. The control unit increases temperature of the discharge electrodes up to a vaporizing temperature of dinitrogen pentoxide by controlling the temperature adjustment device and the gas supplying device or the temperature adjustment device and the power source device, based on the output ozone generation parameter, to thereby switch operation from a normal operation mode to a cleaning operation mode in which surfaces of the discharge electrodes and the discharge space are cleaned up while continuing generation of ozone in the discharge space.
摘要翻译: 一种系统,包括:臭氧发生装置,其包括形成放电空间的放电电极; 气体供给装置; 向放电电极供电的电源装置; 调节放电电极的温度的温度调节装置; 控制单元,其控制所述臭氧发生装置; 以及检测单元,其检测臭氧发生装置中的臭氧产生参数。 控制单元通过基于输出的臭氧产生参数控制温度调节装置和气体供给装置,温度调节装置和电源装置,将放电电极的温度上升到五氧化二氮的蒸发温度,从而切换 从正常操作模式到清洁操作模式的操作,其中放电电极和放电空间的表面被清除,同时在放电空间中继续产生臭氧。
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公开(公告)号:US20140356244A1
公开(公告)日:2014-12-04
申请号:US14372460
申请日:2012-04-23
申请人: Takahisa Nagayama , Hajime Nakatani , Yoshiaki Odai , Noboru Wada
发明人: Takahisa Nagayama , Hajime Nakatani , Yoshiaki Odai , Noboru Wada
IPC分类号: B01J19/08
CPC分类号: B01J19/088 , B01J2219/0807 , C01B13/11 , C01B2201/12 , C01B2201/14 , C01B2201/64 , C01B2201/76
摘要: An ozone generating apparatus which is provided with a discharge suppressing member formed of a metal plate and covering an outer circumferential surface of a portion of a dielectric tube facing to a tube sheet, the discharge suppressing member being electrically in contact with a metal tube or the tube sheet, wherein the discharge suppressing member is formed by curling the metal plate longer than a circumferential length of the dielectric tube into a circular shape so as to have an overlapping portion, and by joining together, in the overlapping portion, a part of the metal plate placed outside and a part of the metal plate placed inside, at a near-end portion of the metal plate placed outside in the overlapping portion, and wherein the discharge suppressing member has, on the part of the metal plate placed outside in the overlapping portion, a spring portion.
摘要翻译: 一种臭氧发生装置,其具有由金属板形成的放电抑制部件,其覆盖面向管板的电介质管的一部分的外周面,所述放电抑制部件与金属管电接触或 其特征在于,所述放电抑制部件是通过使所述金属板比所述电介质管的周长长的方式卷曲成圆形,从而具有重叠部分,并且通过将所述金属板的重叠部分接合在一起, 金属板放置在外侧,金属板的一部分放置在内侧,位于重叠部分外侧的金属板的近端部,并且其中放电抑制构件具有位于外侧的金属板的一部分 重叠部分,弹簧部分。
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公开(公告)号:US09238213B2
公开(公告)日:2016-01-19
申请号:US14372460
申请日:2012-04-23
申请人: Takahisa Nagayama , Hajime Nakatani , Yoshiaki Odai , Noboru Wada
发明人: Takahisa Nagayama , Hajime Nakatani , Yoshiaki Odai , Noboru Wada
CPC分类号: B01J19/088 , B01J2219/0807 , C01B13/11 , C01B2201/12 , C01B2201/14 , C01B2201/64 , C01B2201/76
摘要: An ozone generating apparatus which is provided with a discharge suppressing member formed of a metal plate and covering an outer circumferential surface of a portion of a dielectric tube facing to a tube sheet, the discharge suppressing member being electrically in contact with a metal tube or the tube sheet, wherein the discharge suppressing member is formed by curling the metal plate longer than a circumferential length of the dielectric tube into a circular shape so as to have an overlapping portion, and by joining together, in the overlapping portion, a part of the metal plate placed outside and a part of the metal plate placed inside, at a near-end portion of the metal plate placed outside in the overlapping portion, and wherein the discharge suppressing member has, on the part of the metal plate placed outside in the overlapping portion, a spring portion.
摘要翻译: 一种臭氧发生装置,其具有由金属板形成的放电抑制部件,其覆盖面向管板的电介质管的一部分的外周面,所述放电抑制部件与金属管电接触或 其特征在于,所述放电抑制部件是通过使所述金属板比所述电介质管的周长长的方式卷曲成圆形,从而具有重叠部分,并且通过将所述金属板的重叠部分接合在一起, 金属板放置在外侧,金属板的一部分放置在内侧,位于重叠部分外侧的金属板的近端部,并且其中放电抑制构件具有位于外侧的金属板的一部分 重叠部分,弹簧部分。
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公开(公告)号:US09371229B2
公开(公告)日:2016-06-21
申请号:US14376261
申请日:2013-02-12
CPC分类号: C01B13/11 , B01J19/088 , B01J2219/00051 , B01J2219/00164 , B01J2219/0809 , C01B2201/10 , C01B2201/14 , C01B2201/22 , C01B2201/32 , C01B2201/64 , C01B2201/76 , C01B2201/90 , Y02P20/129
摘要: A system including: an ozone generating device including discharge electrodes forming a discharge space; a gas supplying device; a power source device that supplies power to the discharge electrodes; a temperature adjustment device that adjusts temperature of the discharge electrodes; a control unit that controls the ozone generating device; and a detection unit that detects an ozone generation parameter in the ozone generating device. The control unit increases temperature of the discharge electrodes up to a vaporizing temperature of dinitrogen pentoxide by controlling the temperature adjustment device and the gas supplying device or the temperature adjustment device and the power source device, based on the output ozone generation parameter, to thereby switch operation from a normal operation mode to a cleaning operation mode in which surfaces of the discharge electrodes and the discharge space are cleaned up while continuing generation of ozone in the discharge space.
摘要翻译: 一种系统,包括:臭氧发生装置,其包括形成放电空间的放电电极; 气体供给装置; 向放电电极供电的电源装置; 调节放电电极的温度的温度调节装置; 控制单元,其控制所述臭氧发生装置; 以及检测单元,其检测臭氧发生装置中的臭氧产生参数。 控制单元通过基于输出的臭氧产生参数控制温度调节装置和气体供给装置,温度调节装置和电源装置,将放电电极的温度上升到五氧化二氮的蒸发温度,从而切换 从正常操作模式到清洁操作模式的操作,其中放电电极和放电空间的表面被清除,同时在放电空间中继续产生臭氧。
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公开(公告)号:US20080213140A1
公开(公告)日:2008-09-04
申请号:US12100435
申请日:2008-04-10
IPC分类号: B01J19/12
CPC分类号: C01B13/11 , C01B2201/60 , C01B2201/66
摘要: An ozone generator for generating ozone by applying a specified process to oxygen by discharge includes a first raw material gas supply unit for supplying the oxygen as a first raw material gas, and a second raw material gas supply unit for supplying an oxide compound gas as a second raw material gas, in which, by excited light, excited and generated by a discharge in the oxygen and the oxide compound gas, the oxide compound gas is dissociated, or the oxide compound gas is excited accelerating dissociation of the oxygen, and ozone is generated. In this way, ozone generation efficiency is raised.
摘要翻译: 一种用于通过排出对氧气进行特定工艺来产生臭氧的臭氧发生器包括:第一原料气体供应单元,用于供应作为第一原料气体的氧;以及第二原料气体供应单元,用于将氧化物化合物气体作为 第二原料气体,其中通过激发光激发并通过在氧气和氧化物化合物气体中的放电产生氧化物化合物气体,氧化物化合物气体被分解,或氧化物化合物气体被激发以促进氧的解离,臭氧是 生成。 这样就可以提高臭氧发生效率。
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公开(公告)号:US20080206115A1
公开(公告)日:2008-08-28
申请号:US12100444
申请日:2008-04-10
IPC分类号: B01J19/08
CPC分类号: C01B13/11 , C01B2201/60 , C01B2201/66
摘要: An ozone generator for generating ozone by applying a specified process to oxygen by discharge includes a first raw material gas supply unit for supplying the oxygen as a first raw material gas, and a second raw material gas supply unit for supplying an oxide compound gas as a second raw material gas, in which, by excited light, excited and generated by a discharge in the oxygen and the oxide compound gas, the oxide compound gas is dissociated, or the oxide compound gas is excited accelerating dissociation of the oxygen, and ozone is generated. In this way, ozone generation efficiency is raised.
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