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公开(公告)号:US09453635B1
公开(公告)日:2016-09-27
申请号:US13682200
申请日:2012-11-20
Applicant: WET
Inventor: Mark W. Fuller , John Canavan
IPC: F21V21/00
CPC classification number: F21V29/70 , F21V3/00 , F21V17/12 , F21V23/005 , F21V29/71 , F21V29/83 , F21V31/005 , F21W2131/401 , F21Y2105/18 , F21Y2113/10 , F21Y2115/10
Abstract: Lighting modules having a first LED support having a first plurality of LEDs mounted thereon adjacent a center of the first LED support, a second LED support having an outer edge and an inner opening, and a second plurality of LEDs mounted thereon adjacent the inner opening of the second LED support, the second LED support being spaced apart from the first LED support, the inner opening of the second LED support being larger than the region of the first LED support having the first plurality of LEDs, whereby light from the LEDs on the first LED support may pass though the inner opening of the second LED support. Additional larger LED supports with LEDs may be added, and the assembly of the LED supports sealed with the outer edges of the LED supports extending outward for immersion and cooling in water when incorporated in a larger sealed assembly.
Abstract translation: 具有第一LED支撑件的照明模块,其具有安装在其上的与第一LED支撑件的中心相邻的第一多个LED,具有外边缘和内部开口的第二LED支撑件和安装在其上的第二多个LED, 第二LED支撑件,第二LED支撑件与第一LED支撑件间隔开,第二LED支撑件的内部开口大于具有第一多个LED的第一LED支撑件的区域,由此来自LED上的LED的光 第一LED支撑件可以经过第二LED支撑件的内部开口。 可以添加附加的具有LED的更大的LED支撑件,并且当被并入更大的密封组件中时,LED支撑件的组装件被密封,LED支架的外边缘向外延伸用于浸入和冷却。
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公开(公告)号:US11600995B2
公开(公告)日:2023-03-07
申请号:US16027212
申请日:2018-07-03
Applicant: WET
Inventor: Mark W. Fuller , Maria Villamil , John Canavan
Abstract: A system including a battery system to provide additional power during peak operating conditions is described. The system may avoid or reduce the need for extensive infrastructure associated with a power delivery system capable of providing peak power, but may instead, rely on infrastructure that need only provide power needed on an average basis.
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公开(公告)号:US11872572B2
公开(公告)日:2024-01-16
申请号:US16137216
申请日:2018-09-20
Applicant: WET
Inventor: Mark W. Fuller , James W. Doyle
Abstract: A device to move and control a water shooter is described. The device may contain features that allow the device to travel along the surface of a reservoir with a water shooter attached. The device may be free from a physical connection to the bottom or the sides of the reservoir so that unique water effects may be achieved.
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公开(公告)号:US10825422B2
公开(公告)日:2020-11-03
申请号:US16137239
申请日:2018-09-20
Applicant: WET
Inventor: Mark W. Fuller , James W. Doyle , Gautam Rangan , John Canavan
Abstract: A display where water is applied onto the screen of a visual display monitor and graphics are presented on the display that coincides with the applied water is described. The timing of the water being applied to the screen and the playing of the graphics may be orchestrated such that the applied water seems to create the presented graphics. A controller may be used to control the water and the display.
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Patent Agency Ranking
公开(公告)号:US12167177B2
公开(公告)日:2024-12-10
申请号:US17876462
申请日:2022-07-28
Applicant: WET
Inventor: Mark W. Fuller , James W. Doyle
IPC: H04N9/31 , G03B21/608
Abstract: A system and method for projecting a still shot or video projection into a body of water is described herein.
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公开(公告)号:US20240326080A1
公开(公告)日:2024-10-03
申请号:US18539860
申请日:2023-12-14
Applicant: WET
Inventor: Mark W. Fuller , James W. Doyle
Abstract: A device to move and control a water shooter is described. The device may contain features that allow the device to travel along the surface of a reservoir with a water shooter attached. The device may be free from a physical connection to the bottom or the sides of the reservoir so that unique water effects may be achieved.
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公开(公告)号:US20170089561A1
公开(公告)日:2017-03-30
申请号:US15277299
申请日:2016-09-27
Applicant: WET
Inventor: Mark W. Fuller , John Canavan
CPC classification number: F21V29/70 , F21V3/00 , F21V17/12 , F21V23/005 , F21V29/71 , F21V29/83 , F21V31/005 , F21W2131/401 , F21Y2105/18 , F21Y2113/10 , F21Y2115/10
Abstract: Lighting modules having a first LED support having a first plurality of LEDs mounted thereon adjacent a center of the first LED support, a second LED support having an outer edge and an inner opening, the second LED support having a second plurality of LEDs mounted thereon adjacent the inner opening of the second LED support, the second LED support being connected to and spaced apart from the first LED support, the inner opening of the second LED support being larger than the region of the first LED support having the first plurality of LEDs, whereby light from the LEDs on the first LED support may pass through the inner opening of the second LED support. Additional larger LED supports with LEDs may be added, and the assembly of the LED supports sealed with the outer edges of the LED supports extending outward for immersion and cooling in water when incorporated in a larger sealed assembly.
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公开(公告)号:US20150354802A1
公开(公告)日:2015-12-10
申请号:US14708060
申请日:2015-05-08
Applicant: WET
Inventor: Tom Cuda , Graham Baskett , Donald Lariviere , Boris Karpichev , Mark W. Fuller , John Canavan , Scott Winslow , Antonio Layon
CPC classification number: F21V29/74 , F21V5/00 , F21V5/048 , F21V21/40 , F21V23/009 , F21V23/02 , F21V29/00 , F21V29/507 , F21V29/508 , F21V29/51 , F21V29/71 , F21V29/76 , F21V29/77 , F21V29/83 , F21V29/89 , F21V31/005 , F21W2131/401 , F21Y2113/00 , F21Y2115/10
Abstract: Underwater LED lights with enhanced cooling to allow the use of substantial numbers of high power LEDs. In all embodiments, the majority of the heat given off by the LEDs is transferred to the housing of the underwater light by heat transfer techniques other than by convection of the air or other gases within the enclosure, providing direct heat conveyance from the LEDs to or through the light enclosure walls, by conduction through a thermal conductor or by or as augmented by heat pipes to the inside wall of the enclosure or through the wall of the enclosure to the water. Various embodiments are disclosed.
Abstract translation: 水下LED灯具有增强的冷却能力,可以使用大量的大功率LED。 在所有实施例中,由LED发出的大部分热量通过热传递技术而不是通过外壳内的空气或其它气体的对流传送到水下灯的外壳,从而将LED直接传递到或 通过光的外壳壁,通过热导体传导或由热管扩散到外壳的内壁或通过外壳的壁传递到水。 公开了各种实施例。
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公开(公告)号:US09039232B2
公开(公告)日:2015-05-26
申请号:US13728781
申请日:2012-12-27
Applicant: WET
Inventor: Tom Cuda , Graham Baskett , Donald Lariviere , Boris Karpichev , Mark W. Fuller , John Canavan , Scott Winslow , Antonio Layon
IPC: F21V21/00 , F21S4/00 , F21V29/00 , F21V5/00 , F21V15/01 , F21V21/40 , F21V23/00 , F21Y101/02 , F21Y113/00
CPC classification number: F21V29/74 , F21V5/00 , F21V5/048 , F21V21/40 , F21V23/009 , F21V23/02 , F21V29/00 , F21V29/507 , F21V29/508 , F21V29/51 , F21V29/71 , F21V29/76 , F21V29/77 , F21V29/83 , F21V29/89 , F21V31/005 , F21W2131/401 , F21Y2113/00 , F21Y2115/10
Abstract: Underwater LED lights with enhanced cooling to allow the use of substantial numbers of high power LEDs. In all embodiments, the majority of the heat given off by the LEDs is transferred to the housing of the underwater light by heat transfer techniques other than by convection of the air or other gases within the enclosure, providing direct heat conveyance from the LEDs to or through the light enclosure walls, by conduction through a thermal conductor or by or as augmented by heat pipes to the inside wall of the enclosure or through the wall of the enclosure to the water. Various embodiments are disclosed.
Abstract translation: 水下LED灯具有增强的冷却能力,可以使用大量的大功率LED。 在所有实施例中,由LED发出的大部分热量通过热传递技术而不是通过外壳内的空气或其它气体的对流传送到水下灯的壳体,从而将LED直接传送到或 通过光的外壳壁,通过热导体传导或由热管扩散到外壳的内壁或通过外壳的壁传递到水。 公开了各种实施例。
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