国民经济行业分类号:
C4350 | C3874 | C4090 | C3879
当前申请(专利权)人:
KABUSHIKI KAISHA TOSHIBA | TOSHIBA MATERIALS CO., LTD.
原始申请(专利权)人:
KABUSHIKI KAISHA TOSHIBA | TOSHIBA MATERIALS CO., LTD.
当前申请(专利权)人地址:
1-1 Shibaura 1-chome, Minato-ku Tokyo 105-8001 (JP) | 8 Shinsugita-Cho, Isogo-Ku Yokohama-Shi Kanagawa 235-8522 (JP)
工商成立日期:
1875-01-01|2003-10-01
发明人:
OHNO, HIROSHI | KATO, MITSUAKI | HAYASHIHARA, HIROMICHI | KONDO, HIROYASU | TSUDA, RYOJI | OOYA, YASUMASA
摘要:
An optical element according to an embodiment is formed from a material transparent to visible light and has a rotationally symmetrical shape with respect to the central axis. A cavity containing no transparent material is provided inside the optical element. The inner surface of the cavity has a shape in which a boundary line of the cavity along which a plane including the central axis intersects the inner surface includes a curve portion expanding toward the outside of the optical element. In addition, when an origin is set in the cavity, a clockwise direction around the origin along the boundary line is set as a positive direction, a first tangent vector is set at a first point on the boundary line, and a second tangent vector is set at a second point adjacent to the first point in the positive direction, an angle defined by the second tangent vector with respect to the first tangent vector with the clockwise direction being a positive direction is not less than 0°. The inner surface of the cavity does not include any surface recessed inwardly.
权利要求:
1. An optical element formed from a material transparent to visible light and having a rotationally symmetrical shape with respect to a central axis, comprising a cavity inside the optical element, wherein an inner surface of the cavity has a shape in which a boundary line of the cavity along which a plane including the central axis intersects the inner surface includes a curve portion expanding toward outside of the optical element, and when an origin is set in the cavity, a clockwise direction around the origin along the boundary line is set as a positive direction, a first tangent vector is set at a first point on the boundary line, and a second tangent vector is set at a second point adjacent to the first point in the positive direction, an angle defined by the second tangent vector with respect to the first tangent vector with the clockwise direction being a positive direction is not less than 0°.
2. The optical element of claim 1, further comprising: a bottom surface located on a one end side of the central axis; and a side surface which is continuous with the bottom surface and extends along the central axis, the side surface having a shape tapered toward the other end side of the central axis.
3. The optical element of claim 1, wherein the cavity is arranged inside the tapered shape.
4. The optical element of claim 1, wherein an inner surface of the cavity includes a diffusing surface configured to scatter light.
5. The optical element of claim 1, wherein the cavity accommodates a scattering member configured to scatter light.
6. The optical element of claim 2, wherein the cavity has an opening communicating with the bottom surface, and the inner surface of the cavity has a shape gradually expanding along the central axis toward the opening.
7. The optical element of claim 1, wherein the cavity comprises an enclosed space closed inside the optical element.
8. The optical element of claim 7, wherein an inner surface shape of the cavity comprises an ellipsoid of revolution obtained such that sums of distances from each of two fixed points set in the cavity to arbitrary points on the inner surface become equal.
9. The optical element of claim 8, wherein the inner surface shape of the cavity comprises a spherical surface with the two fixed points overlapping each other.
10. The optical element of claim 2, wherein the cavity has an opening on the other end side separated from the bottom surface of the optical element and an inner surface with a shape gradually expanding along the central axis toward the opening.
11. An illumination apparatus comprising: an optical element defined in any one of claims 1 to 10; and a light source having a light-emitting surface, the light source being arranged such that the light-emitting surface faces a bottom surface on one end side along the central axis of the optical element.
12. The illumination apparatus of claim 11, further comprising a substrate on which the plurality of light sources are circularly arranged, wherein the plurality of light sources are arranged on the substrate such that the light-emitting surface of each of the light sources faces the bottom surface of the optical element.
13. The illumination apparatus of claim 12, wherein the bottom surface of the optical element includes an inclined surface inclined with respect to a plane perpendicular to the central axis, and the plurality of light sources are arranged such that the light-emitting surface of each of the light sources faces the inclined surface.
14. An illumination apparatus comprising: an optical element defined in any one of claims 1 to 10; a light source having a light-emitting surface; and a globe which covers the light source and the optical element and transmits light, wherein the light source is arranged such that the light-emitting surface faces a bottom surface on one end side along the central axis of the optical element.