Apparatus, method, and system for precise LED lighting
First Claim
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1. An LED lighting fixture comprising:
- a. a lighting fixture housing having an emitting face defined by an opening in the lighting fixture housing into an internal space in the lighting fixture housing;
b. a thermally conductive surface in the internal space in the lighting fixture housing;
c. a plurality of LEDs mounted to the thermally conductive surface in the internal space in the lighting fixture housing, each LED having a beam output;
d. a silicone secondary lens device having a plurality of integrally formed secondary lenses each of which encapsulates one or more of the LEDs mounted to the thermally conductive surface in the internal space in the lighting fixture housing and a plurality of apertures; and
e. a secondary lens holder having a plurality of pegs inserted through the plurality of apertures in the silicone secondary lens device and heat staked in situ to resiliently hold the silicone secondary lens device in a position that prevents distortion of the LED beam outputs when the silicone secondary lens device thermally expands and contracts.
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Abstract
Lighting applications which are particularly difficult to light because of “non-standard” target area characteristics or the like would benefit from advancements in lighting design. That being said, conventional wisdom in lighting design has reached a point of diminishing returns in terms of beam control. Envisioned is an LED lighting system designed for precision lighting insomuch that—as compared to state-of-the-art LED lighting fixtures—sharpness of cutoff is improved while in at least some cases simultaneously allowing a steeper cutoff without undesirable beam shift. Furthermore, overall beam dimensions can be tailored fixture-to-fixture for an application without replacing an entire optic system or designing an entirely new fixture, and control of intensity distribution is improved (e.g., by avoiding striations at the edge of beam patterns). Said envisioned LED lighting system employs a number of materials not used in conventional LED lighting systems in novel ways to achieve the aforementioned.
15 Citations
18 Claims
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1. An LED lighting fixture comprising:
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a. a lighting fixture housing having an emitting face defined by an opening in the lighting fixture housing into an internal space in the lighting fixture housing; b. a thermally conductive surface in the internal space in the lighting fixture housing; c. a plurality of LEDs mounted to the thermally conductive surface in the internal space in the lighting fixture housing, each LED having a beam output; d. a silicone secondary lens device having a plurality of integrally formed secondary lenses each of which encapsulates one or more of the LEDs mounted to the thermally conductive surface in the internal space in the lighting fixture housing and a plurality of apertures; and e. a secondary lens holder having a plurality of pegs inserted through the plurality of apertures in the silicone secondary lens device and heat staked in situ to resiliently hold the silicone secondary lens device in a position that prevents distortion of the LED beam outputs when the silicone secondary lens device thermally expands and contracts. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10)
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11. A method of illuminating high demand or difficult to illuminate sites with an array of light fixtures each including a plurality of LED light sources mounted to an inner surface of the light fixtures comprising:
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a. evaluating lighting needs for the site including one or more of; i. light uniformity; ii. light intensity; iii. spill light; iv. glare light; b. evaluating site restrictions relating to one or more of; i. lighting fixture placement relative the site to be illuminated; ii. the site to be illuminated; iii. spectators or bystanders; c. addressing the lighting needs for the site and the site restrictions by; i. tailoring a composite beam dimensions by directing light at or near the light sources of the fixture consistent with lighting needs and site restrictions via; 1. an optic comprising one or more strips of silicone sheets each sheet having integrally formed secondary lenses having tailored beam dimensions and each secondary lens encapsulating one or more of the light sources; and 2. an optic holder comprising a rigid portion abutting the secondary lenses of the optic and having a fill material such that the optic holder matches a specified thermal expansion of the inner surface of the light fixtures; ii. cutting off the composite beam in a first plane to promote sharper and/or steeper cutoff of the light sources from the light fixture consistent with lighting needs and site restrictions and deter beam shift; and iii. redirecting some of the composite beam in a second plane by second surface mirror technique to promote light uniformity and intensity consistent with lighting needs and site restrictions. - View Dependent Claims (12, 13, 14, 15)
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16. A system for illuminating sites comprising:
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a. an array of light fixtures, each light fixture of the array comprising a plurality of LED light sources in a fixture housing having a light emitting opening at or near the light sources; b. one or more of the light fixtures comprising; i. multi-part light directing components at the light sources comprising; 1. a single piece secondary lens device with integral secondary lenses; 2. a single piece secondary lens device holder for holding the single piece secondary lens device in alignment with the light sources and deterring distortion of its shape during operation of the light sources; ii. multi-part visor components away from the light sources comprising; 1. a first stage nearer the light sources configured to promote maximum candela or photometric center at a desired location at the site; 2. a second stage farther from the light sources to control beam cutoff and shape from the light sources; iii. multi-part differential reflection components at the multi-part visor components comprising; 1. surfaces that act as second surface reflectors; 2. at or around the multi-part visor components; and iv. multi-part differential reflection components at the light emitting opening of the fixture housing near the single piece secondary lens device with single piece secondary lens device holder such that; 1. a subset of light sources are on a first side of the multi-part differential reflection components; 2. a subset of light sources are on a second side of the multi-part differential reflection components; 3. the first and second sides of the multi-part differential reflection components are in a same plane; and 4. the light sources cannot be directly viewed in the plane from one or more specified view points at the sites. - View Dependent Claims (17, 18)
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Specification
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Current AssigneeMusco Corporation
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Original AssigneeMusco Corporation
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InventorsGordin, Myron, McKee, Luke C., Lickiss, Chris P.
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Primary Examiner(s)Green, Tracie Y
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Application NumberUS16/000,567Publication NumberTime in Patent Office434 DaysField of SearchUS Class CurrentCPC Class CodesF21K 9/65 specially adapted for chang...F21K 9/68 Details of reflectors formi...F21S 8/086 with lighting device attach...F21V 11/183 pivotableF21V 14/04 by movement of reflectors i...F21V 14/08 by movement of the screens ...F21V 17/02 with provision for adjustme...F21V 5/007 Array of lenses or refracto...F21V 7/05 planeF21W 2131/103 of streets or roadsF21W 2131/105 of arenas or the likeF21Y 2105/16 square or rectangular, e.g....F21Y 2115/10 Light-emitting diodes [LED]
