Troffer light fixture is a rectangular light fixture that fits into a modular dropped ceiling grid. The problem with troffer light fixtures is that they are too bulky and do not provide a uniform and adequate illumination. There is a need in the art for a troffer light fixture that addresses these issues.
Provided is a light fixture comprising: a) a housing; b) a cover for the housing; one or more lenses configured to be attached to the cover; and d) a plurality of LED light sources placed inside of the housing to provide a substantially uniform light through the one or more lenses. The height of the troffer light fixture is less than three inches, such as between two and three inches, such as between 2.0 and 2.5 inches. An optic can be placed on the LED light sources. The fixture can have 50 to 150 optics, with each optic placed on top of the one or more LED light sources. The fixture can have 4 to 8 rows of optics. The fixture can have about 75 to about 125 optics. The fixture can have about 85 light sources to 105 sources. The fixture can have a reflective paper on the housing around the optics. At least 50% or at least 80% of the optics can be completely covered all around by the reflective paper. The fixture can have three flat lenses. Two of the lenses are positioned on the sides and orient inwardly on their long side. The fixture can have separate sources of light and an optics housing with a plurality of optics placed over the separate sources of light. In one embodiment, the light from the plurality of the separate light sources and light from the plurality of LED light sources do not mix with each other inside of the housing. The separate light sources are also LED lights. The cover can have a portion that creates a separation in the fixture between the separate light sources and the LED light sources, minimizing the mixture of light inside of the housing.
Alight fixture comprising: a) a housing; b) a cover for the housing; c) three lenses configured to be attached to the cover; d) LED light sources attached to the housing; e) optics in a number of 50 to 150 covering the LED light sources, the optics forming 4 to 8 parallel rows; and f) a reflective paper attached to the housing covering all sides of at least 50% of the optics. The three lenses can be flat. Two of the lenses can be positioned on the sides and orient inwardly on their long side.
Provided is a light fixture comprising: a) a housing; b) a cover for the housing; c) two lenses configured to be attached to the cover; d) LED light sources attached to the housing in a configuration to allow light to pass through the lenses; e) a first optics covering the LED light sources; f) a separate source of light; and g) an optics housing with a plurality of second optics placed over the separate source of light. The optics housing can be rectangular and have a plurality of openings for placing the second optics. The lenses lack a dark spot as visible to the naked eye. The cover can have a member that moves upward and does not, allow light from the different light sources to mix.
Provided is a thin troffer light fixture that produces uniform light with minimal glare. The light fixture can have a depth of less than about three inches, such as one to three inches. The troffer light fixture includes a housing 1, a front cover 4, and light sources 2. The housing 1 can be made of a metal and comprise the top portion of the fixture. A front cover 4 is placed in front of the housing.
As illustrated, cover 4 or cover 6 can be attached to the housing 1. Cover 4 as illustrated has three rectangularly shaped lenses and/or diffusers 3. All three lenses 3, 13 can be flat. The lenses 3 on the sides can be oriented inwardly on their long sides, with an orientation of 1 to 10 degrees. The lens 13 on the middle can be straight and set in between the other two lenses 3 on the sides. The lenses 3, 13 can be made from a transparent or translucent material.
Cover 6 can also be used. Cover 6 is configured to receive two lenses 3 on the sides and an optics housing 5 in the middle. The lenses 3 on the sides and the middle lens 13 can be made form a transparent or translucent materials. The lenses 3 can be flat and rectangularly shaped, and have an inwardly orientation of 1 to 10 degrees.
Cover 6 can be configured to receive an optics housing 5. The optics housing 5 can have an, elongated body with individual compartments for receiving optics 7. The optics housing 5 as illustrated can receive sixteen optics. The optics housing 5 can have individual spaces for receiving the optics 7. Each of the optics 7 can be a circular lens. The optics 7 can be micro or macro-optics.
Figures illustrate a close-up of the optics housing 5 and cover 6. The LED light sources 2 are placed on the housing 1 below the optics 7. One or a plurality of LED light, sources 2 as illustrated are placed directly below each lens 3. As illustrated four LED light sources 2 are placed under each optic 7.
The cover 6 can extend upward around the cavity configured to receive the lens housing and create a chamber for the lenses 3. Housing 1 can have members 8 on each side of the opening configured to receive the optics housing 5. The members 8 separate the light from LED sources 2 that are not placed under the optics housing 5, and minimize mixing of light from the different chambers.
LED light sources 2 are placed inside of housing 1, facing downwardly. The LED light sources 2 can be arranged in a plurality of parallel configurations. There can be a plurality of LED boards with LED light sources 2 placed in a parallel configuration to each other.
The fixture can have LED light sources 2 placed in a substantially uniform layout to produce a substantially uniform light throughout the fixture. When a user looks at the fixture, all the lenses 3 look to be lit substantially the same and lack dark spots. The ratio between minimum and maximum footcandela can be more than 0.095 (per square feet). This is the ratio of illumination.
The fixture can have about 3 to about 9 rows (as defined by the optics placed on the LED light source(s)) of LED light sources 2, which can be placed in a parallel configuration. The distance between each LED light sources 2 in a row can be less (such as 60% to 20% less) than the distance between each LED light source 2 in the parallel rows. The end of each row can have two LED light sources 2 that are placed immediately next to each other, with a distance of 1 to 5 mm from the closest ends to each other. The other LED light sources 2 in the row can be distanced further from each other, such as 1 cm to 7 cm from the closest ends.
The fixture can have about 50 to 150 light sources 2 (as defined by an optic on the inside of the housing, excluding the optics housing), such as about 75 to about 125 light sources 2, such as about 85 light sources to 105 sources. As illustrated, there are 96 light sources 2 in six rows. All the rows can be electronically connected to the power source with a perpendicularly placed conductor 9.
The LED light sources 2 can have an optic 10, such as a transparent circular/spherical optic as illustrated. A paper 11, such as highly reflective and/or glassy paper can be placed on the LED boards so that only the LED light source 2 portion is visible. Other than the light sources 2, the entirety of the housing can be covered with the paper 11 to increase reflection of light and minimize any light distortion.
The reflective paper 11 can be placed all around the spherical optics 10. A few of the spherical lenses may not be entirely surrounded by the paper 11 depending on configuration of the LED light sources 2. In one embodiment, more than 80%, or more than 90%, or more than 95% of the optics 10 have a paper all around them. In one embodiment, at least 90% to 100%, or 100% of the optics 10 have a paper 11 at least around one portion of the optic 10.
Housing 1 can have a space on the outside for placement of a ballast housing 12. The ballast housing 12 can be placed in a depression on the side of the housing 1, to minimize height of the fixture.
The fixture has minimal glare, with the glare having a value of glare of 19 or less (UGR). The lenses can have the same light intensity throughout. In one embodiment, the glare is between 13 to 19 UGR, such as about 15-17 or 16 UGR, or less than 16, or less than 15.
The light fixture can have color changing LEDs and a switch to allow a user to configure the desired color. The color of the light sources can be: Soft White (2700K-3000K), Bright White/Cool White (3500K-4100K), and Daylight (5000K-6500K). Other colors can also be used.
A ballast housing 12 and a ballast can be placed on the top-side of the fixture as illustrated in
The present application claims the benefit of U.S. provisional patent application 63/287,526, filed on Dec. 8, 2021, which is incorporated by reference in its entirety.
Number | Date | Country | |
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63287526 | Dec 2021 | US |
Number | Date | Country | |
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Parent | 17567808 | Jan 2022 | US |
Child | 17966341 | US |