Neon-tube substitute using light-emitting diodes
First Claim
1. A tubular luminaire comprising:
- a line of discrete light sources; and
cylindrical transparent annular waveguide;
said waveguide comprising a receiving zone, said zone receiving the light of said sources so as to admit said light within said transparent material of said annular waveguide;
said waveguide comprising an ejector to promote the homogeneous escape of said light from said waveguide;
wherein said receiving zone is along a portion of the circumference of said waveguide;
said annular waveguide further comprising a bilaterally symmetric spiral wall opposing said receiving zone and in turn receiving light from said receiving zone, said spiral wall laterally reflecting said light so as to keep said light within said waveguide.
1 Assignment
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Accused Products
Abstract
A tubular luminaire efficiently utilizes the light of a line of high-brightness unlensed LEDs to reproduce the homogeneous appearance of a neon tube. The transparent tube has an annular cross-section suitable for cost-effective manufacturing by extrusion. The LEDs are mounted in a line on a circuit board that can be positioned either inside or outside the tube. Their light shines into a cylindrical groove, thereby entering within the material of the tube. Above the groove, the wall of the tube has a spiral shape that reflects the light laterally so that it stays within the annular tube for a considerable path length. Volume scattering by a low density of scattering inclusions causes the light to escape as a homogenous glow. Alternatively, mild surface scattering from the inside surface can be used.
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Citations
14 Claims
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1. A tubular luminaire comprising:
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a line of discrete light sources; and cylindrical transparent annular waveguide; said waveguide comprising a receiving zone, said zone receiving the light of said sources so as to admit said light within said transparent material of said annular waveguide; said waveguide comprising an ejector to promote the homogeneous escape of said light from said waveguide; wherein said receiving zone is along a portion of the circumference of said waveguide; said annular waveguide further comprising a bilaterally symmetric spiral wall opposing said receiving zone and in turn receiving light from said receiving zone, said spiral wall laterally reflecting said light so as to keep said light within said waveguide. - View Dependent Claims (2, 3, 4, 5, 6, 7, 8, 9, 10, 13, 14)
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11. A tubular luminaire comprising:
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a line of discrete light sources; and a cylindrical transparent annular waveguide; said waveguide comprising a receiving zone, said zone receiving the light of said sources so as to admit said light within said transparent material of said annular waveguide; said waveguide comprising an ejector to promote the homogeneous escape of said light from said waveguide; wherein the ratio of inner diameter to said outer diameter of said annular waveguide is such that the solid width of the annulus is the product of the index of refraction of said material and the luminous diameter of each of said light sources.
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12. A tubular luminaire comprising:
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a line of discrete light sources; and a cylindrical transparent annular waveguide; said waveguide comprising a receiving zone, said zone receiving the light of said sources so as to admit said light within said transparent material of said annular waveguide; said waveguide comprising an ejector to promote the homogeneous escape of said light from said waveguide; wherein said annular waveguide has a ratio of inner diameter to outer diameter greater than the sine of the critical angle of the transparent material of said waveguide.
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Specification