The present invention is directed to a light pipe having an improved structure of prisms. According to one embodiment of the present invention, a hollow light pipe comprises an inner-surface including a linear array of prisms; and a substantially smooth outer-surface, wherein a pitch of prisms in a
The present invention is directed to a light pipe having an improved structure of prisms. According to one embodiment of the present invention, a hollow light pipe comprises an inner-surface including a linear array of prisms; and a substantially smooth outer-surface, wherein a pitch of prisms in a first region is wider than a pitch of prisms in a second region. According to another embodiment of the present invention, a hollow light pipe comprises a hollow base pipe; and an insertion inserted into the base pipe and having a structured surface including an array of prisms, wherein a pitch of prisms in a first region is wider than a pitch of prisms in a second region.
대표청구항▼
What is claimed is: 1. A hollow light pipe, comprising: an inner-surface including a linear array of prisms, including a plurality of prisms in a first light transmissive region of the hollow light pipe and a plurality of prisms in a second light transmissive region of the hollow light pipe; and a
What is claimed is: 1. A hollow light pipe, comprising: an inner-surface including a linear array of prisms, including a plurality of prisms in a first light transmissive region of the hollow light pipe and a plurality of prisms in a second light transmissive region of the hollow light pipe; and a substantially smooth outer-surface, wherein a pitch of one of the plurality of prisms in the first light transmissive region is wider than a pitch of one of the plurality of prisms in the second light transmissive region for increasing a brightness of the first light transmissive region, and wherein the plurality of prisms in the first light transmissive region have a common shape, and the plurality of prisms in the second light transmissive region have a common shape. 2. The hollow light pipe of claim 1, wherein the pitch of the one of the plurality of prisms in the first light transmissive region is in the range of about 1.5 mm to 2.5 mm, and the pitch of the one of the plurality of prisms in the second light transmissive region is in the range of about 0.5 mm to 1.5 mm. 3. The hollow light pipe of claim 1, wherein the inner-surface substantially has a cross-section of a polyhedron-shape or a circular-shape. 4. The hollow light pipe of claim 1, further comprising diffusive particles disposed on the outer surface. 5. The hollow light pipe of claim 1, further comprising a film having a plurality of scattering patterns and disposed outside or inside the hollow light pipe. 6. The hollow light pipe of claim 1, further comprising: a reflector reflecting a light, disposed inside or outside the hollow light pipe, and facing the first light transmissive region. 7. The hollow light pipe of claim 6, wherein the inner surface includes a smooth surface, and the reflector is disposed on the smooth surface. 8. The hollow light pipe of claim 1, further comprising a cone-shaped extractor disposed inside the hollow light pipe to reflect a light. 9. A hollow light pipe, comprising: a hollow base pipe; and an insertion inserted into the base pipe and having a structured surface including an array of prisms, including a plurality of prisms in a first light transmissive region of the hollow light pipe and a plurality of prisms in a second light transmissive region of the hollow light pipe, wherein a pitch of one of the plurality of prisms in the first light transmissive region is wider than a pitch of one of the plurality of prisms in the second light transmissive region for increasing a brightness of the first light transmissive region, and the plurality of prisms in the first light transmissive region have a common shape, and the plurality of prisms in the second light transmissive region have a common shape, and both the one of the plurality of prisms in the first light transmissive region and the one of the plurality of prisms in the second light transmissive region face the hollow base pipe. 10. The hollow light pipe of claim 9, further comprising a cone-shaped extractor disposed inside the insertion to reflect a light. 11. The hollow light pipe of claim 10, further comprising a supporting body connected to an edge part of the cone-shaped extractor to hold the cone-shaped extractor. 12. The hollow light pipe of claim 9, wherein the insertion is a film or a pipe. 13. The hollow light pipe of claim 1, wherein both the one of the plurality of prisms in the first light transmissive region and the one of the plurality of prisms in the second light transmissive region are disposed toward inner direction of the hollow light pipe. 14. A hollow light pipe, comprising: a hollow base pipe; and an insertion inserted into the base pipe and having a structured surface including an array of prisms, including a plurality of prisms in a first light transmissive region of the hollow light pipe and a plurality of prisms in a second light transmissive region of the hollow light pipe, wherein a pitch of one of the plurality of prisms in the first light transmissive region is wider than a pitch of one of the plurality of prisms in the second light transmissive region for increasing a brightness of the first light transmissive region, wherein the plurality of prisms in the first light transmissive region have a first common shape, and the plurality of prisms in the second light transmissive region have a second common shape, and wherein both the one of the plurality of prisms in the first light transmissive region and the one of the plurality of prisms in the second light transmissive region are disposed toward an inner direction of the hollow light pipe. 15. The hollow light pipe of claim 14, further comprising a cone-shaped extractor disposed inside the insertion to reflect a light. 16. The hollow light pipe of claim 15, further comprising a supporting body connected to an edge part of the cone-shaped extractor to hold the cone-shaped extractor. 17. The hollow light pipe of claim 14, wherein the insertion is a film or a pipe. 18. The hollow light pipe of claim 14, wherein the pitch of the one of the plurality of prisms in the first light transmissive region is in the range of about 1.5 mm to 2.5 mm, and the pitch of the one of the plurality of prisms in the second light transmissive region is in the range of about 0.5 mm to 1.5 mm. 19. The hollow light pipe of claim 14, wherein the pitch of the one of the plurality of prisms in the first light transmissive region is in the range of about 1.7 mm to 2.2 mm, and the pitch of the one of the plurality of prisms in the second light transmissive region is in the range of about 0.8 mm to 1.3 mm. 20. The hollow light pipe of claim 1, wherein the plurality of prisms in the first light transmissive region have a same pitch and the plurality of prisms in the second light transmissive region have a same pitch. 21. The hollow light pipe of claim 9, wherein the plurality of prisms in the first light transmissive region have a same pitch, and the plurality of prisms in the second light transmissive region have a same pitch. 22. The hollow light pipe of claim 14, wherein the plurality of prisms in the first light transmissive region have a same pitch, and the plurality of prisms in the second light transmissive region have a same pitch.
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이 특허에 인용된 특허 (16)
Klopotek Peter J. (Framingham MA), Beam homogenizer.
Duguay Michel A. (825 Beauregard ; Apt. 818 Saint-Foy ; Quebec NY CAX GlV 4L7) Light Melanie L. (52 W. 74th St. New York NY 11023), Guided light diffuser.
Shen, Bing; Purchase, Ken G.; Rinehart, Thomas A.; McLaurin, Christopher B., Shaped microstructure-based optical diffusers for creating batwing and other lighting patterns.
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