Optical device, optical system, and ticket gate

The invention claimed is: 1. An optical device comprising: one or more light sources; and a light-guiding plate that guides light emitted from the light sources in a plane parallel to an emission surface that emits light, the light-guiding plate comprising a plurality of light convergence portions that receive light guided by the light-guiding plate, each of the plurality of light convergence portions corresponding to one of a plurality of convergence points in a space outside the light-guiding plate and comprising optical surfaces that cause light to be emitted from the emission surface such that: the light substantially converges at the corresponding one of the plurality of convergence points in the space; or the light substantially scatters from the corresponding one of the plurality of convergence points in the space, wherein: ones of the plurality of convergence points corresponding to the plurality of light convergence portions are different from each other, and an image is formed in the space by a collection of ones of the plurality of convergence points; and a plurality of first light convergence portions from among the plurality of light convergence portions are provided at positions that are different from each other along a light-guiding direction in which the light-guiding plate guides light, and cause light to be emitted from the emission surface in different directions in which the light: substantially converges at a first convergence point among the plurality of convergence points; or substantially scatters from the first convergence point. 2. The optical device according to claim 1 , wherein a plurality of second light convergence portions from among the plurality of light convergence portions are provided at positions that are different from each other along the light-guiding direction in which the light-guiding plate guides light, and cause light to be emitted from the emission surface in different directions in which the light: substantially converges at a second convergence point that is different from the first convergence point among the plurality of convergence points; or substantially scatters from the second convergence point. 3. The optical device according to claim 1 , wherein an area of the optical surfaces of the plurality of first light convergence portions is determined such that light beams that are respectively emitted from the plurality of first light convergence portions have approximately the same luminous intensity. 4. The optical device according to claim 1 , wherein the optical surfaces of the plurality of first light convergence portions are reflection surfaces that reflect light that is received by the first light convergence portions, and in order to cause light to be emitted from the emission surface in different directions in which the light substantially converges at the first convergence point or substantially scatters from the first convergence point, angles of the reflection surfaces of the plurality of first light convergence portions are determined based on a positional relationship between positions of the plurality of first light convergence portions in a plane extending along the emission surface and the first convergence point. 5. The optical device according to claim 1 , wherein a plurality of the light sources are provided, and angles that optical axes of the plurality of the light sources form with the plane parallel to the emission surface are different from each other. 6. The optical device according to claim 5 , wherein a light-entering end surface of the light-guiding plate comprises a plurality of partial surfaces that receive light from a corresponding light source among the plurality of the light sources, and the plurality of partial surfaces are each approximately orthogonal to an optical axis of the corresponding light source among the plurality of the light sources. 7. The optical device according to claim 1 , further comprising: a lens portion that is provided between the light sources and a light-entering end surface of the light-guiding plate, wherein the lens portion reduces a spread of the light emitted from the light sources, and emits the light to the light-entering end surface of the light-guiding plate. 8. The optical device according to claim 1 , wherein the plurality of light convergence portions are formed along respective lines that are determined in advance in the plane parallel to the emission surface. 9. An optical system comprising: the optical device according to claim 1 ; and a user interface unit, wherein the optical device forms the image that shows a user a position of the user interface unit. 10. A ticket gate comprising: the optical system according to claim 9 . 11. An optical device comprising: a plurality of light sources; and a light-guiding plate that guides light emitted from the plurality of light sources in a plane parallel to an emission surface that emits light, the light guiding plate comprising a plurality of convergence portions that receive light guided by the light-guiding plate, each of the plurality of light convergence portions corresponding to one of a plurality of convergence points in a space outside the light-guiding plate and comprising optical surfaces that cause light to be emitted from the emission surface such that: the light substantially converges at the corresponding convergence point in the space; or the light substantially scatters from the corresponding convergence point in the space, wherein: angles that optical axes of the plurality of light sources form with the plane parallel to the emission surface are different from each other; the convergence points for the plurality of light convergence portions are different from each other, and an image is formed in the space on an emission surface side by a collection of a plurality of the convergence points; and a plurality of first light convergence portions from among the plurality of light convergence portions is provided at positions that are different from each other along a light-guiding direction in which the light-guiding plate guides light, and causes light to be emitted from the emission surface in different directions in which the light: substantially converges at a first convergence point among the plurality of convergence points; or substantially scatters from the first convergence point.