US2014218957A1PendingUtilityA1
Linear illumination devices having light guides and led-based illumination modules
Est. expirySep 22, 2030(~4.2 yrs left)· nominal 20-yr term from priority
Inventors:Anthony Catalano
F21V 17/002F21Y 2103/30F21V 2200/00F21Y 2103/33G02B 6/0021G02B 6/003G02B 6/0041F21K 9/61F21Y 2103/00F21Y 2115/10G02B 6/0001G02B 6/0073F21Y 2101/02F21K 9/52
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Claims
Abstract
In various embodiments, LED-based illumination devices include an inlet region for receiving the LED light that is complementary in shape to the lens of the LED.
Claims
exact text as granted — not AI-modifiedWhat is claimed is:
1 .- 18 . (canceled)
19 . An illumination device comprising:
an illumination module comprising at least one light-emitting diode (LED); disposed in contact with the illumination module, a light guide having (i) an inlet region for receiving light from the at least one LED, (ii) a collimation region for collimating the received light, and (iii) an emission region for emitting the collimated light to an ambient, the emission region having first and second opposed surfaces through at least one of which light is emitted, wherein (i) a shape of the inlet region is substantially complementary to a shape of the LED, such that substantially all light emitted from the LED strikes the inlet region at an angle perpendicular to a surface of the inlet region, and (ii) an axis of the collimation region extending from the inlet region to the emission region is either (a) inclined with respect to both the first and second surfaces of the emission region, thereby increasing an amount of the collimated light propagating from the collimation region that strikes the first or second surface of the emission region without intervening reflection, or (b) substantially parallel to both the first and second surfaces of the emission region.
20 . The illumination device of claim 19 , wherein the light guide is configured to mate with the illumination module so as to define a gap between the surface of the inlet region and the LED.
21 . The illumination device of claim 19 , wherein the shape of the inlet region is parabolic.
22 . The illumination device of claim 19 , wherein the shape of the inlet region is hemispherical.
23 . The illumination device of claim 19 , wherein the emission region comprises, to facilitate emission of the collimated light, at least one of a plurality of surface discontinuities or a plurality of scattering agents.
24 . The illumination device of claim 23 , wherein a density of the at least one of a plurality of surface discontinuities or a plurality of scattering agents increases as a function of distance away from the at least one LED.
25 . The illumination device of claim 23 , wherein the emission region comprises a plurality of surface discontinuities opposite an emission surface from which the light is emitted.
26 . The illumination device of claim 25 , wherein the surface discontinuities each have a shape of a hemisphere, a paraboloid, or an elongated groove.
27 . The illumination device of claim 25 , wherein the plurality of surface discontinuities is disposed along a portion of a perimeter of the emission region to thereby define a width of an extent of the light emitted from the emission region.
28 . The illumination device of claim 19 , wherein a cross-sectional shape of the emission region is substantially parabolic, thereby directing the emitted light toward an emission surface substantially perpendicular to an axis of the parabola.
29 . The illumination device of claim 19 , wherein (i) a cross-sectional shape of the emission region is substantially trapezoidal, (ii) the first and second surfaces of the emission region are substantially parallel, and (iii) emitted light is emitted through one of the first or second surfaces of the emission region.
30 . The illumination device of claim 19 , wherein a cross-sectional shape of the emission region is substantially circular.
31 . The illumination device of claim 19 , wherein a cross-sectional shape of the emission region is substantially elliptical.
32 . The illumination device of claim 19 , wherein the light emitted from the emission region substantially replicates an emission pattern of a fluorescent light bulb having dimensions approximately equal to those of the illumination device.
33 . The illumination device of claim 19 , wherein the illumination module is configured to be modularly attachable to a plurality of light guides, each light guide having at least one of a different size or shape from the others.
32 . The illumination device of claim 19 , wherein the illumination module comprises at least one of a heat sink for conducting heat from the at least one LED or driver circuitry for supplying electrical current to the at least one LED.
34 . The illumination device of claim 19 , wherein the illumination module is disposed at a first end of the light guide, and further comprising a second illumination module disposed at a second end of the light guide opposite the first end, the second illumination module comprising at least one LED.
35 . The illumination device of claim 19 , wherein light is emitted from the first surface and the second surface is at least one of reflective or light-scattering.
36 . The illumination device of claim 19 , wherein the first and second surfaces are substantially parallel along substantially an entire length of the emission region.
37 . The illumination device of claim 19 , wherein a cross-section of the emission region is substantially constant along substantially an entire length of the emission region.
38 . The illumination device of claim 19 , wherein the light guide comprises a solid total-internal-reflection optic.
39 . The illumination device of claim 19 , wherein the axis of the collimation region extending from the inlet region to the emission region is inclined with respect to both the first and second surfaces of the emission region.
40 . The illumination device of claim 19 , wherein the axis of the collimation region extending from the inlet region to the emission region is substantially parallel to both the first and second surfaces of the emission region.
41 . The illumination device of claim 19 , further comprising a reflector disposed on at least one of the inlet region or the emission region.Cited by (0)
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