Optical device and display apparatus

1 . An optical device comprising a light guide plate configured to guide incident light and emit the light from an outgoing surface, the light guide plate including a plurality of optical path changing units each configured to change an optical path of the light guided into the light guide plate and emit the light from the outgoing surface, the optical device causing an observer to recognize, as a stereoscopic model, the light changed in the optical path by each of the plurality of optical path changing units and emitted from the outgoing surface, wherein, when four quadrants are specified for each of the optical path changing units, the four quadrants taking a position of the optical path changing unit as an origin in a plan view from a direction vertical to an outgoing surface, the four quadrants being divided by two straight lines orthogonal to each other and inclined 45° with respect to a direction in which the incident light is incident on the optical path changing unit, the light changed in the optical path by the optical path changing unit is emitted to a quadrant adjacent to a quadrant on which incident light is incident. 2 . The optical device according to claim 1 , wherein the light, changed in the optical path by each of the plurality of optical path changing units and emitted from the outgoing surface, forms an image to form a stereoscopic model. 3 . The optical device according to claim 1 , wherein the light, changed in the optical path by each of the plurality of optical path changing units and emitted from the outgoing surface, is recognized by the observer as a stereoscopic model due to parallax. 4 . A display apparatus comprising a plurality of the optical devices according to claim 1 that are superimposed. 5 . The display apparatus according to claim 4 , wherein an angular range in which one of the plurality of optical devices emits light is different from an angular range in which the other of the optical devices emits light. 6 . The display apparatus according to claim 5 , wherein the plurality of optical devices display the same stereoscopic models with respect to mutually different angular ranges. 7 . The display apparatus according to claim 4 , wherein a two-dimensional image display device configured to display a two-dimensional image is further superimposed. 8 . A display apparatus comprising a plurality of the optical devices according to claim 2 that are superimposed. 9 . A display apparatus comprising a plurality of the optical devices according to claim 3 that are superimposed. 10 . The display apparatus according to claim 8 , wherein an angular range in which one of the plurality of optical devices emits light is different from an angular range in which the other of the optical devices emits light. 11 . The display apparatus according to claim 9 , wherein an angular range in which one of the plurality of optical devices emits light is different from an angular range in which the other of the optical devices emits light. 12 . The display apparatus according to claim 10 , wherein the plurality of optical devices display the same stereoscopic models with respect to mutually different angular ranges. 13 . The display apparatus according to claim 11 , wherein the plurality of optical devices display the same stereoscopic models with respect to mutually different angular ranges. 14 . The display apparatus according to claim 5 , wherein a two-dimensional image display device configured to display a two-dimensional image is further superimposed. 15 . The display apparatus according to claim 6 , wherein a two-dimensional image display device configured to display a two-dimensional image is further superimposed.