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公开(公告)号:US20100084574A1
公开(公告)日:2010-04-08
申请号:US12245282
申请日:2008-10-03
Applicant: Robert Brassell , Edward C. McGhee , James W. Schmitkons
Inventor: Robert Brassell , Edward C. McGhee , James W. Schmitkons
IPC: G21K5/00
CPC classification number: H01J65/044 , B05D3/029 , B05D3/067 , B05D7/20 , B29C35/0888 , B29C35/10 , B29C71/04 , B29C2035/0827 , F26B3/28 , F26B13/002
Abstract: An ultraviolet radiation curing system is disclosed for treating a substrate, such as fiber optic cable or silicone tubing. The system comprises a processing chamber allowing transport of a continuous piece of substrate to be treated. As the substrate moves through the processing chamber, ultraviolet radiation from a plasma lamp activated by a microwave generator treats the surface of the substrate. The system comprises two elliptical reflectors of different sizes so that larger diameter substrates may be efficiently treated with ultraviolet radiation. The system may also comprise an ultraviolet-transmissive conduit enclosing the substrate and split into a first portion and a second portion, where the second portion is movable from the first portion to open the conduit and allow insertion or alignment of the substrate within the conduit and processing chamber.
Abstract translation: 公开了用于处理诸如光纤电缆或硅胶管的基底的紫外线辐射固化系统。 该系统包括允许输送待处理的基片的连续片的处理室。 当衬底移动通过处理室时,由微波发生器激活的等离子体灯的紫外线辐射处理衬底的表面。 该系统包括两种不同尺寸的椭圆形反射器,从而可以用紫外线辐射有效地处理较大直径的基底。 该系统还可以包括紫外线透射导管,其封闭基板并分成第一部分和第二部分,其中第二部分可从第一部分移动以打开导管并允许基板在导管内的插入或对准,以及 处理室。
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公开(公告)号:US07923706B2
公开(公告)日:2011-04-12
申请号:US12245282
申请日:2008-10-03
Applicant: Robert Brassell , Edward C. McGhee , James W. Schmitkons
Inventor: Robert Brassell , Edward C. McGhee , James W. Schmitkons
IPC: A61N5/06
CPC classification number: H01J65/044 , B05D3/029 , B05D3/067 , B05D7/20 , B29C35/0888 , B29C35/10 , B29C71/04 , B29C2035/0827 , F26B3/28 , F26B13/002
Abstract: An ultraviolet radiation curing system is disclosed for treating a substrate, such as fiber optic cable or silicone tubing. The system comprises a processing chamber allowing transport of a continuous piece of substrate to be treated. As the substrate moves through the processing chamber, ultraviolet radiation from a plasma lamp activated by a microwave generator treats the surface of the substrate. The system comprises two elliptical reflectors of different sizes so that larger diameter substrates may be efficiently treated with ultraviolet radiation. The system may also comprise an ultraviolet-transmissive conduit enclosing the substrate and split into a first portion and a second portion, where the second portion is movable from the first portion to open the conduit and allow insertion or alignment of the substrate within the conduit and processing chamber.
Abstract translation: 公开了用于处理诸如光纤电缆或硅胶管的基底的紫外线辐射固化系统。 该系统包括允许输送待处理的基片的连续片的处理室。 当衬底移动通过处理室时,由微波发生器激活的等离子体灯的紫外线辐射处理衬底的表面。 该系统包括两种不同尺寸的椭圆形反射器,从而可以用紫外线辐射有效地处理较大直径的基底。 该系统还可以包括紫外线透射导管,其封闭基板并分成第一部分和第二部分,其中第二部分可从第一部分移动以打开导管并允许基板在导管内的插入或对准,以及 处理室。
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公开(公告)号:US20090289552A1
公开(公告)日:2009-11-26
申请号:US12123643
申请日:2008-05-20
Applicant: James M. Borsuk , Edward C. McGhee
Inventor: James M. Borsuk , Edward C. McGhee
CPC classification number: H01J65/044 , H01J61/523
Abstract: A microwave-excited ultraviolet lamp system includes a microwave chamber cooled with air drawn through the chamber by a negative pressure source. A filter provided at an inlet of the lamp system prevents particulate material from entering the microwave chamber.
Abstract translation: 微波激发的紫外线灯系统包括通过负压源通过室抽吸的空气而冷却的微波室。 设置在灯系统的入口处的过滤器防止颗粒材料进入微波室。
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公开(公告)号:US06933683B2
公开(公告)日:2005-08-23
申请号:US10771941
申请日:2004-02-04
Applicant: James M. Borsuk , Edward C. McGhee
Inventor: James M. Borsuk , Edward C. McGhee
IPC: B01J19/12 , B05D3/06 , F21V14/00 , G02B26/00 , G21K5/02 , H01J5/02 , H01J5/18 , H01J25/50 , H01J65/04 , H05B6/80 , H05B41/24 , H05B41/28 , H05G2/00 , H05H1/30
CPC classification number: H05B41/2806 , B01J19/124 , B01J2219/0877 , B05D3/067 , H01J65/044 , Y02B20/22
Abstract: A microwave powered lamp head assembly includes a shutter assembly which may be activated to selectively allow transmission of light from the microwave powered lamp bulb. The shutter assembly allows unrestricted airflow when it is in the closed position so that the active lamp bulb may still be cooled, while preventing the transmission of UV radiation through the shutter. The shutter assembly is in close sealing relation with respect to the optical cavity holding the lamp bulb when in the closed position to minimize the escape of UV radiation.
Abstract translation: 微波供电的灯头组件包括可以被激活以选择性地允许来自微波供电的灯泡的光的透射的快门组件。 快门组件在其处于关闭位置时允许不受限制的气流,使得活动灯泡仍然可以被冷却,同时防止UV辐射透过快门。 当处于关闭位置时,挡板组件相对于保持灯泡的光学腔密封密封,以最小化紫外线辐射的逸出。
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5.发明申请公开(公告)号:US20130093322A1
公开(公告)日:2013-04-18
申请号:US13704385
申请日:2011-07-12
Applicant: James M. Borsuk , James Khoury , Edward C. McGhee , James Smith
Inventor: James M. Borsuk , James Khoury , Edward C. McGhee , James Smith
IPC: H05B41/38
CPC classification number: H05B41/38 , H05B41/2806 , Y02B20/22
Abstract: Embodiments of the invention provide an apparatus, method, and program product to control a lamp system. The apparatus comprises a plasma lamp bulb (20) and a microwave generator (12) operable to generate a microwave energy field to excite the plasma lamp bulb (20) to emit ultraviolet light (24). The apparatus further comprises a sensor (70) to measure the intensity of the ultraviolet light (24) and a reflector (42) positioned between the plasma lamp bulb (20) and the sensor (70) The reflector (42) is operable to reflect at least a portion of the ultraviolet light (24) generated by the plasma lamp bulb (20). The method comprises receiving a target intensity for the ultraviolet light (24) and measuring an intensity of the ultraviolet light (24) using a sensor (70). The method further comprises comparing the target intensity to the measured intensity and, in response to the comparison, adjusting power to a microwave generator (12) to adjust the intensity of the ultraviolet light (24).
Abstract translation: 本发明的实施例提供一种用于控制灯系统的装置,方法和程序产品。 该装置包括等离子体灯泡(20)和微波发生器(12),其可操作以产生微波能场以激发等离子体灯泡(20)发射紫外光(24)。 该装置还包括用于测量紫外光强度的传感器(70)和位于等离子体灯泡(20)和传感器(70)之间的反射器(42)。反射器(42)可操作以反射 由等离子体灯泡(20)产生的紫外线(24)的至少一部分。 该方法包括使用传感器(70)接收紫外光(24)的目标强度和测量紫外光(24)的强度。 该方法还包括将目标强度与测量的强度进行比较,并且响应于比较,调整对微波发生器(12)的功率以调节紫外光的强度(24)。
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Patent Agency Ranking
公开(公告)号:US20130092848A1
公开(公告)日:2013-04-18
申请号:US13704383
申请日:2011-07-15
Applicant: James M. Borsuk , Greg Harrell , Edward C. McGhee , James Smith
Inventor: James M. Borsuk , Greg Harrell , Edward C. McGhee , James Smith
Abstract: Apparatus for generating ultraviolet light and methods of operating an ultraviolet light source. The apparatus may include a microwave chamber (16) enclosing an interior space, a light source (10) with a lamp head (28) coupled to the microwave chamber (16), an ultraviolet (UV) transmissive member (88) positioned above the lamp face (32) and below the interior space to define a plenum (116) therebetween, and an exhaust system (100) coupled in fluid communication with the plenum. The lamp head (28) has a lamp face (32) through which ultraviolet light (34) and cooling air (30) are emitted. The UV transmissive member (88) is configured to transmit the ultraviolet light (34) into the interior space and to divert the cooling air (30) from the interior space. The exhaust system (100) configured to exhaust the cooling air (30) from the plenum (116).
Abstract translation: 用于产生紫外光的装置和操作紫外光源的方法。 该装置可以包括:包围内部空间的微波室(16),具有与微波室(16)耦合的灯头(28)的光源(10);位于所述微波室 (32)并且在内部空间下方限定其间的气室(116),以及与气室流体连通的排气系统(100)。 灯头(28)具有发射紫外线(34)和冷却空气(30)的灯面(32)。 UV透射构件(88)构造成将紫外光(34)传输到内部空间并且使冷却空气(30)从内部空间转移。 排气系统(100)构造成从冷气室(116)排出冷却空气(30)。
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公开(公告)号:US08179046B2
公开(公告)日:2012-05-15
申请号:US12123643
申请日:2008-05-20
Applicant: James M. Borsuk , Edward C. McGhee
Inventor: James M. Borsuk , Edward C. McGhee
IPC: H01J19/80
CPC classification number: H01J65/044 , H01J61/523
Abstract: A microwave-excited ultraviolet lamp system includes a microwave chamber cooled with air drawn through the chamber by a negative pressure source. A filter provided at an inlet of the lamp system prevents particulate material from entering the microwave chamber.
Abstract translation: 微波激发的紫外线灯系统包括通过负压源通过室抽吸的空气而冷却的微波室。 设置在灯系统的入口处的过滤器防止颗粒材料进入微波室。
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8.发明授权公开(公告)号:US09439273B2
公开(公告)日:2016-09-06
申请号:US13704385
申请日:2011-07-12
Applicant: James M. Borsuk , James Khoury , Edward C. McGhee , James Smith
Inventor: James M. Borsuk , James Khoury , Edward C. McGhee , James Smith
CPC classification number: H05B41/38 , H05B41/2806 , Y02B20/22
Abstract: Embodiments of the invention provide an apparatus, method, and program product to control a lamp system. The apparatus comprises a plasma lamp bulb (20) and a microwave generator (12) operable to generate a microwave energy field to excite the plasma lamp bulb (20) to emit ultraviolet light (24). The apparatus further comprises a sensor (70) to measure the intensity of the ultraviolet light (24) and a reflector (42) positioned between the plasma lamp bulb (20) and the sensor (70) The reflector (42) is operable to reflect at least a portion of the ultraviolet light (24) generated by the plasma lamp bulb (20). The method comprises receiving a target intensity for the ultraviolet light (24) and measuring an intensity of the ultraviolet light (24) using a sensor (70). The method further comprises comparing the target intensity to the measured intensity and, in response to the comparison, adjusting power to a microwave generator (12) to adjust the intensity of the ultraviolet light (24).
Abstract translation: 本发明的实施例提供一种用于控制灯系统的装置,方法和程序产品。 该装置包括等离子体灯泡(20)和微波发生器(12),其可操作以产生微波能场以激发等离子体灯泡(20)发射紫外光(24)。 该装置还包括用于测量紫外光强度的传感器(70)和位于等离子体灯泡(20)和传感器(70)之间的反射器(42)。反射器(42)可操作以反射 由等离子体灯泡(20)产生的紫外线(24)的至少一部分。 该方法包括使用传感器(70)接收紫外光(24)的目标强度和测量紫外光(24)的强度。 该方法还包括将目标强度与测量的强度进行比较,并且响应于比较,调整对微波发生器(12)的功率以调节紫外光的强度(24)。
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公开(公告)号:US09378857B2
公开(公告)日:2016-06-28
申请号:US13704383
申请日:2011-07-15
Applicant: James M. Borsuk , Greg Harrell , Edward C. McGhee , James Smith
Inventor: James M. Borsuk , Greg Harrell , Edward C. McGhee , James Smith
Abstract: Apparatus for generating ultraviolet light and methods of operating an ultraviolet light source. The apparatus may include a microwave chamber (16) enclosing an interior space, a light source (10) with a lamp head (28) coupled to the microwave chamber (16), an ultraviolet (UV) transmissive member (88) positioned above the lamp face (32) and below the interior space to define a plenum (116) therebetween, and an exhaust system (100) coupled in fluid communication with the plenum. The lamp head (28) has a lamp face (32) through which ultraviolet light (34) and cooling air (30) are emitted. The UV transmissive member (88) is configured to transmit the ultraviolet light (34) into the interior space and to divert the cooling air (30) from the interior space. The exhaust system (100) configured to exhaust the cooling air (30) from the plenum (116).
Abstract translation: 用于产生紫外光的装置和操作紫外光源的方法。 该装置可以包括:包围内部空间的微波室(16),具有与微波室(16)耦合的灯头(28)的光源(10);位于所述微波室 (32)并且在内部空间下方限定其间的气室(116),以及与气室流体连通的排气系统(100)。 灯头(28)具有发射紫外线(34)和冷却空气(30)的灯面(32)。 UV透射构件(88)构造成将紫外光(34)传输到内部空间并且使冷却空气(30)从内部空间转移。 排气系统(100)构造成从冷气室(116)排出冷却空气(30)。
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公开(公告)号:US4502629A
公开(公告)日:1985-03-05
申请号:US458911
申请日:1983-01-18
Applicant: Edward C. McGhee , Harold D. Beam
Inventor: Edward C. McGhee , Harold D. Beam
CPC classification number: B05B5/03 , B05B7/0815 , B05B7/067
Abstract: An air atomizing nozzle assembly for electrostatic spray guns. The nozzle assembly includes a fluid tip through which liquid coating material is emitted, an air cap having openings through which pressurized air passes to atomize the liquid coating material emitted from the nozzle and having a pair of opposed air horns through which pressurized air passes to shape the atomized coating material into a flat fan spray pattern, and a retaining ring for securing the air cap to the gun barrel and fluid tip. An annular diffuser is located within an internal chamber in the nozzle assembly which receives the prezzurized fan-shaping air from a passageway passing through the barrel of the gun, redirects it, and equalizes the flow of the fan-shaping air to the opposed air horns. The present invention is particularly useful in applications having low liquid coating material flow rates on the order of less than about 3 fluid ounces of material per minute.
Abstract translation: 一种用于静电喷枪的空气雾化喷嘴组件。 喷嘴组件包括流体尖端,液体涂层材料通过该尖端喷射,空气帽具有开口,加压空气通过该开口雾化从喷嘴发射的液体涂层材料,并具有一对相对的空气喇叭,加压空气通过该空气角形成 雾化的涂层材料变成平坦的风扇喷射图案,以及用于将空气帽固定到枪管和流体尖端的保持环。 环形扩散器位于喷嘴组件内的内部腔室中,其从穿过枪管的通道接收预氧化的风扇成形空气,将其重新定向,并将风扇成形空气的流量均衡到相对的空气喇叭 。 本发明特别适用于液体涂料流速低于每分钟约3流体盎司数量级的应用。
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