초록 ▼

A display device for displaying information is provided with an optical system for guiding the light of the display device to the eye, the optical system having, in the order in the proceeding direction of the light, an entrance face for receiving the light, a curved face for totally reflecting the

A display device for displaying information is provided with an optical system for guiding the light of the display device to the eye, the optical system having, in the order in the proceeding direction of the light, an entrance face for receiving the light, a curved face for totally reflecting the light and a reflecting face concave to the eye side and adapted to reflect the light toward the eye. The reflected light is transmitted by the curved face and reaches the eye. Thus there is obtained a compact display device with satisfactorily suppressed aberrations.

대표청구항 ▼

What is claimed is: 1. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading the image to an observer's eyeball; said ocular optical system comprising first, second and th

What is claimed is: 1. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading the image to an observer's eyeball; said ocular optical system comprising first, second and third surfaces, in which a space defined by said first, second and third surfaces is filled with a medium having a refractive index larger than 1; said first, second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, a first surface serving as both a refracting surface and an internally reflecting surface, a second surface serving as a reflecting surface of positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and a third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least three surfaces having a finite curvature radius; wherein any one of said first, second and third surfaces is a decentered aspherical surface; wherein any one of said first, second and third surfaces is an anamorphic surface; wherein said optical apparatus satisfies the following condition in a case where a vertical plane containing said observer's visual axis is defined as a YZ-plane, and a horizontal plane perpendicular to the YZ-plane is defined as an XZ-plane: description="In-line Formulae" end="lead"1Ry2/Rx2|≦ 1.921description="In-line Formulae" end="tail" where Ry2 is a curvature radius of said second surface in the YZ-plane, and Rx2 is a curvature radius of said second surface in the XZ-plane. 2. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading the image to an observer's eyeball; said ocular optical system comprising first, second and third surfaces, in which a space defined by said at least first, second and third surfaces is filled with a medium having a refractive index larger than 1; said first, second and third surfaces including, in order from observer's eyeball side toward said device for displaying an image, a first surface serving as both a refracting surface and an internally reflecting surface, a second surface serving as a reflecting surface of positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and a third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surfaces having a finite curvature radius; wherein any one of said first, second and third surfaces is a decentered aspherical surface; wherein any one of said first, second and third surfaces is an anamorphic surface; wherein said optical apparatus satisfies the following condition in a case where a vertical plane containing said observer's visual axis is defined as a YZ-plane, and a horizontal plane perpendicular to the YZ-plane is defined as an XZ-plane: description="In-line Formulae" end="lead"1y2/Rx2|≦ 1.921description="In-line Formulae" end="tail" where Ry2 is a curvature radius of said second surface in the YZ-plane, and Rx2 is a curvature radius of said second surface in the XZ-plane, wherein internal reflection that is performed by said first surface is total reflection. 3. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading the image to an observer's eyeball, said ocular optical system comprising first, second and third surfaces, in which a space defined by said at least first, second and third surfaces is filled with a medium having a refractive index larger than 1, said first, second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, a first surface serving as both a refracting surface and an internally reflecting surface, a second surface serving as a reflecting surface of positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and a third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surfaces having a finite curvature radius; and wherein said first surface is a reflecting surface having a convex surface directed toward said second surface. 4. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image and for leading the image to an observer's eyeball, said ocular optical system comprising first, second and third surfaces, in which a space defined by said at least first, second and third surfaces is filled with a medium having a refractive index larger than 1, said first, second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, a first surface serving as both a refracting surface and an internally reflecting surface, a second surface serving as a reflecting surface of positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and a third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surfaces having a finite curvature radius; wherein internal reflection that is performed by said first surface is total reflection, and wherein said first surface is a reflecting surface having a convex surface directed toward said second surface. 5. An optical apparatus according to claim 3 or 4, wherein either one of said first and third surfaces of said ocular optical system is tilted or decentered with respect to said observer's visual axis. 6. An optical apparatus according to claim 5, further comprising means for positioning both said device for displaying an image and said ocular optical system with respect to an observer's head. 7. An optical apparatus according to claim 5, further comprising means for supporting both said device for displaying an image and said ocular optical system with respect to an observer's head so that said optical apparatus can be fitted to said observer's head. 8. An optical apparatus according to claim 5, further comprising means for supporting a pair of said optical apparatuses at a predetermined spacing. 9. An optical apparatus according to claim 5, wherein said ocular optical system is used as an imaging optical system. 10. An optical apparatus according to claim 5, which satisfies the following condition: description="In-line Formulae" end="lead"θ=27.5, 33.4, 26.4, 27.3, 28.2, or 25.6,description="In-line Formulae" end="tail" where θ is an angle between said visual axis and a line normal to said second surface of said ocular optical system in the vicinity of an intersection between said observer's visual axis and said second surface. 11. An optical apparatus according to claim 10, further comprising means for positioning both said device for displaying an image and said ocular optical system with respect to an observer's head. 12. An optical apparatus according to claim 10, further comprising means for supporting both said device for displaying an image and said ocular optical system with respect to an observer's head so that said optical apparatus can be fitted to said observer's head. 13. An optical apparatus according to claim 10, further comprising means for supporting a pair of said optical apparatuses at a predetermined spacing. 14. An optical apparatus according to claim 10, wherein said ocular optical system is used as an imaging optical system. 15. An optical apparatus according to claim 10, wherein said device for displaying an image has a display surface which is tilted with respect to said observer's visual axis. 16. An optical apparatus according to claim 15, further comprising means for positioning both said device for displaying an image and said ocular optical system with respect to an observer's head. 17. An optical apparatus according to claim 15, further comprising means for supporting both said device for displaying an image and said ocular optical system with respect to an observer's head so that said optical apparatus can be fitted to said observer's head. 18. An optical apparatus according to claim 15, further comprising means for supporting a pair of said optical apparatuses at a predetermined spacing. 19. An optical apparatus according to claim 15, wherein said ocular optical system is used as an imaging optical system. 20. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading said image to an observer's eyeball, said ocular optical system comprising at least first, second and third surfaces, in which a space defined by said surfaces is filled with a medium having refractive index larger than 1, said device for displaying an image being disposed at a position facing said third surface, said first, second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, said first surface serving as both a refracting surface and an internally reflecting surface, said second surface serving as a reflecting surface of a positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and said third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surfaces having a finite curvature radius, wherein any one of said first, second and third surfaces is a decentered aspherical surface, wherein any one of said first, second and third surfaces is an anamorphic surface, and said optical apparatus satisfies the following condition in a case where a vertical plane containing said observer's visual axis is defined as a YZ-plane, and a horizontal plane perpendicular to said YZ-plane is defined as an XZ-plane: description="In-line Formulae" end="lead"1Ry2/Rx2|≦ 1.921description="In-line Formulae" end="tail" where Ry2 is a curvature radius of said second surface in said YZ-plane, and Rx2 is a curvature radius of said second surface in said XZ-plane. 21. An optical apparatus according to claim 20, further comprising means for positioning both said device for displaying an image and said ocular optical system with respect to an observer's head. 22. An optical apparatus according to claim 20, further comprising means for supporting both said device for displaying an image and said ocular optical system with respect to an observer's head so that said optical apparatus can be fitted to said observer's head. 23. An optical apparatus according to claim 20, further comprising means for supporting a pair of said optical apparatuses at a predetermined spacing. 24. An optical apparatus according to claim 20, wherein said ocular optical system is used as an imaging optical system. 25. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading said image to an observer's eyeball, said ocular optical system comprising at least first, second and third surfaces, in which a space defined by said surfaces is filled with a medium having a refractive index larger than 1, said device for displaying an image being disposed at a position facing said third surface, said first, second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, said first surface serving as both a refracting surface and an internally reflecting surface, said second surface serving as a reflecting surface of a positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and said third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surface having a finite curvature radius, wherein internal reflection that is performed by said first surface is total reflection, wherein any one of said first, second and third surfaces is a decentered aspherical surface, wherein any one of said first, second and third surfaces is an anamorphic surface, and said optical apparatus satisfies the following condition in a case where a vertical plane containing said observer's visual axis is defined as a YZ-plane, and a horizontal plane perpendicular to said YZ-plane is defined as an XZ-plane: description="In-line Formulae" end="lead"1y2/Rx2|≦ 1.921description="In-line Formulae" end="tail" where Ry2 is a curvature radius of said second surface in said YZ-plane, and Rx2 is a curvature radius of said second surface in said XZ-plane. 26. An optical apparatus according to claim 25, further comprising means for positioning both said device for displaying an image and said ocular optical system with respect to an observer's head. 27. An optical apparatus according to claim 25, further comprising means for supporting both said device for displaying an image and said ocular optical system with respect to an observer's head so that said optical apparatus can be fitted to said observer's head. 28. An optical apparatus according to claim 25, further comprising means for supporting a pair of said optical apparatuses at a predetermined spacing. 29. An optical apparatus according to claim 25, wherein said ocular optical system is used as an imaging optical system. 30. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading said image to an observer's eyeball, said ocular optical system comprising at least first, second and third surfaces, in which a space defined by said surfaces is filled with a medium having a refractive index larger than 1, said device for displaying an image being disposed at a position facing said third surface, said first second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, said first surface serving as both a refracting surface and an internally reflecting surface, said second surface serving a reflecting surface of a positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and said third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surfaces having a finite curvature radius, wherein said first surface is a reflecting surface having a convex surface directed toward said second surface. 31. An optical apparatus comprising: a device for displaying an image; and an ocular optical system for projecting an image formed by said device for displaying an image and for leading said image to an observer's eyeball, said ocular optical system comprising at least first, second and third surfaces, in which a space defined by said surfaces is filled with a medium having a refractive index larger than 1, said device for displaying an image being disposed at a position facing said third surface, said first, second and third surfaces including, in order from an observer's eyeball side toward said device for displaying an image, said first surface serving as both a refracting surface and an internally reflecting surface, said second surface serving as a reflecting surface of a positive power which faces said first surface and is decentered or tilted with respect to an observer's visual axis, and said third surface serving as a refracting surface closest to said device for displaying an image, at least two of said at least first, second and third surfaces having a finite curvature radius, wherein internal reflection that is performed by said first surface is total reflection, and wherein said first surface is a reflecting surface having a convex surface directed toward said second surface. 32. An optical apparatus according to claim 30 or 31, further comprising means for positioning both said device for displaying an image and said ocular optical system with respect to an observer's head. 33. An optical apparatus according to claim 30 or 31, further comprising means for supporting both said device for displaying an image and said ocular optical system with respect to an observer's head so that said optical apparatus can be fitted to said observer's head. 34. An optical apparatus according to claim 30 or 31, further comprising means for supporting a pair of said optical apparatuses at a predetermined spacing. 35. An optical apparatus according to claim 30 or 31, wherein said ocular optical system is used as an imaging optical system. 36. An optical apparatus according to any of claims 1, 2, and 20 through 29, wherein the following condition is met: description="In-line Formulae" end="lead"1.421≦Ry2/Rx2 ≦1.921.description="In-line Formulae" end="tail" 37. An optical apparatus according to claim 36, wherein the following condition is met: description="In-line Formulae" end="lead"Ry2/Rx2=1.421, 1.921, 1.730, 1.732, 1.493, 1.921, 1.802 or 1.820.description="In-line Formulae" end="tail" 38. An optical apparatus according to claim 37, wherein the following condition is met: description="In-line Formulae" end="lead"Ry2=-57.595 and Rx2=-40.526; (a)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-63.157 and Rx2=-32.870; (b)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-67.136 and Rx2=-38.803; (c)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-66.938 and Rx2=-38.651; (d)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-63.546 and Rx2=-42.575; (e)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-63.157 and Rx2=-32.870; (f)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-65.701 and Rx2=-36.469; or (g)description="In-line Formulae" end="tail" description="In-line Formulae" end="lead"Ry2=-65.600 and Rx2=-36.035. (h)description="In-line Formulae" end="tail" 39. An optical apparatus according to any of claims 1, 2, and 20 through 29, wherein the XZ-plane passes through the vertex of said second surface and is perpendicular to the tangent at the vertex. 40. An optical apparatus according to claim 36, wherein the XZ-plane passes through the vertex of said second surface and is perpendicular to the tangent at the vertex. 41. An optical apparatus according to claim 37, wherein the XZ-plane passes through the vertex of said second surface and is perpendicular to the tangent at the vertex. 42. An optical apparatus according to claim 38, wherein the XZ-plane passes through the vertex of said second surface and is perpendicular to the tangent at the vertex. 43. An optical apparatus according to claim 1, wherein said medium is acrylic resin or glass. 44. An optical apparatus according to claim 2, wherein said medium is acrylic resin or glass. 45. An optical apparatus according to claim 3, wherein said medium is acrylic resin or glass. 46. An optical apparatus according to claim 4, wherein said medium is acrylic resin or glass. 47. An optical apparatus according to claim 5, wherein said medium is acrylic resin or glass. 48. An optical apparatus according to claim 6, wherein said medium is acrylic resin or glass. 49. An optical apparatus according to claim 7, wherein said medium is acrylic resin or glass. 50. An optical apparatus according to claim 8, wherein said medium is acrylic resin or glass. 51. An optical apparatus according to claim 9, wherein said medium is acrylic resin or glass. 52. An optical apparatus according to claim 10, wherein said medium is acrylic resin or glass. 53. An optical apparatus according to claim 11, wherein said medium is acrylic resin or glass. 54. An optical apparatus according to claim 12, wherein said medium is acrylic resin or glass. 55. An optical apparatus according to claim 13, wherein said medium is acrylic resin or glass. 56. An optical apparatus according to claim 14, wherein said medium is acrylic resin or glass. 57. An optical apparatus according to claim 15, wherein said medium is acrylic resin or glass. 58. An optical apparatus according to claim 16, wherein said medium is acrylic resin or glass. 59. An optical apparatus according to claim 17, wherein said medium is acrylic resin or glass. 60. An optical apparatus according to claim 18, wherein said medium is acrylic resin or glass. 61. An optical apparatus according to claim 19, wherein said medium is acrylic resin or glass. 62. An optical apparatus according to claim 20, wherein said medium is acrylic resin or glass. 63. An optical apparatus according to claim 21, wherein said medium is acrylic resin or glass. 64. An optical apparatus according to claim 22, wherein said medium is acrylic resin or glass. 65. An optical apparatus according to claim 23, wherein said medium is acrylic resin or glass. 66. An optical apparatus according to claim 24, wherein said medium is acrylic resin or glass. 67. An optical apparatus according to claim 25, wherein said medium is acrylic resin or glass. 68. An optical apparatus according to claim 26, wherein said medium is acrylic resin or glass. 69. An optical apparatus according to claim 27, wherein said medium is acrylic resin or glass. 70. An optical apparatus according to claim 28, wherein said medium is acrylic resin or glass. 71. An optical apparatus according to claim 29, wherein said medium is acrylic resin or glass. 72. An optical apparatus according to claim 30, wherein said medium is acrylic resin or glass. 73. An optical apparatus according to claim 31, wherein said medium is acrylic resin or glass. 74. An optical apparatus according to claim 32, wherein said medium is acrylic resin or glass. 75. An optical apparatus according to claim 33, wherein said medium is acrylic resin or glass. 76. An optical apparatus according to claim 34, wherein said medium is acrylic resin or glass. 77. An optical apparatus according to claim 35, wherein said medium is acrylic resin or glass. 78. An optical apparatus according to claim 36, wherein said medium is acrylic resin or glass. 79. An optical apparatus according to claim 37, wherein said medium is acrylic resin or glass. 80. An optical apparatus according to claim 38, wherein said medium is acrylic resin or glass. 81. An optical apparatus according to claim 39, wherein said medium is acrylic resin or glass. 82. An optical apparatus according to claim 40, wherein said medium is acrylic resin or glass. 83. An optical apparatus according to claim 41, wherein said medium is acrylic resin or glass. 84. An optical apparatus according to claim 42, wherein said medium is acrylic resin or glass.