Illumination device

What is claimed is: 1. An illumination device that projects a desired projection pattern on a surface to be illuminated, comprising: a light source; a diffraction optical element that diffracts a light from the light source and projects the projection pattern on the surface to be illuminated; and an optical-element drive unit that supports the diffraction optical element and drives the same; wherein the optical-element drive unit determines a rotation axis which is orthogonal to a rotation plane including an incident surface of the diffraction optical element and which passes through an incident area in the incident surface, the light from the light source being incident on the incident area, and rotates the diffraction optical element about the rotation axis. 2. The illumination device according to claim 1 , wherein the light source has a light emission unit that generates a light beam, and an optical shaping system that broadens the light beam to generate a parallel incident light, and causes the parallel incident light to be incident on the incident surface of the diffraction optical element. 3. The illumination device according to claim 2 , wherein: the diffraction optical element is disposed such that its incident surface is orthogonal to the parallel incident light; and the optical-element drive unit rotates the diffraction optical element in the rotation plane including the incident surface. 4. The illumination device according to claim 2 , wherein the optical shaping system has a magnifying lens that refracts and broadens the light beam generated by the light emission unit and a collimation lens that shapes the light from the magnifying lens into the parallel incident light, and causes the parallel incident light to be incident on the incident surface of the diffraction optical element. 5. The illumination device according to claim 1 , wherein: when an XYZ three-dimensional coordinate system having an X axis, a Y axis and a Z axis orthogonal to one another is defined; the light source generates the parallel incident light parallel to the X axis, and causes the parallel incident light to be incident on the incident surface of the diffraction optical element; the diffraction optical element is formed of a hologram recording medium disposed to be parallel to a YZ plane, the hologram recording medium recording an interference fringe for generating a reconstructed image serving as the projection pattern on the surface to be illuminated parallel to an XY plane; and the optical-element drive unit rotates the diffraction optical element in the rotation plane parallel to the YZ plane. 6. The illumination device according to claim 1 , further comprising a device housing that accommodates the light source, the diffraction optical element and the optical-element drive unit, and fixedly supports the light source and the optical-element drive unit. 7. An illumination device that projects a desired projection pattern on a surface to be illuminated, comprising: a light source; a diffraction optical element that diffracts a light from the light source and projects the projection pattern on the surface to be illuminated; an optical-element drive unit that supports the diffraction optical element and drives the same; and a light-source drive unit that supports the light source and drives the same; wherein: the optical-element drive unit changes an orientation of an incident surface of the diffraction optical element; and the light-source drive unit changes, in accordance with the change in orientation of the incident surface, an orientation of the light from the light source. 8. The illumination device according to claim 7 , wherein the light-source drive unit changes the orientation of the light from the light source, such that an angle between an optical axis of an incident light that is incident on the diffraction optical element and a normal line to the incident surface of the diffraction optical element is kept unchanged. 9. The illumination device according to claim 7 , wherein the light source has a light emission unit that generates a light beam, and an optical shaping system that broadens the light beam to generate a parallel incident light, and causes the parallel incident light to be incident on the incident surface of the diffraction optical element. 10. The illumination device according to claim 9 , wherein the optical-element drive unit determines a rotation axis orthogonal to the parallel incident light, and rotates the diffraction optical element about the rotation axis. 11. The illumination device according to claim 10 , wherein a rotation axis is disposed at a position inside the diffraction optical element or at a position passing through a surface thereof. 12. The illumination device according to claim 7 , further comprising a device housing that accommodates the light source, the diffraction optical element, the optical-element drive unit and the light-source drive unit, and fixedly supports the optical-element drive unit and the light-source drive unit. 13. The illumination device according to claim 7 , wherein: when a direction orthogonal to the surface to be illuminated is defined as a vertical direction; the optical-element drive unit rotates the diffraction optical element such that a normal line that is normal to its incident surface is displaced in the vertical direction. 14. The illumination device according to claim 7 , wherein: when an XYZ three-dimensional coordinate system having an X axis, a Y axis and a Z axis orthogonal to one another is defined, and a state in which the incident surface of the diffraction optical element is disposed to be parallel to a YZ plane is defined as a standard state; in the standard state, the light source generates a parallel incident light parallel to the X axis, and causes the parallel incident light to be incident on the incident surface; the diffraction optical element is formed of a hologram recording medium, the hologram recording medium recording an interference fringe for generating a reconstructed image serving as the projection pattern on the surface to be illuminated parallel to an XY plane; and the optical-element drive unit rotates the diffraction optical element about a rotation axis parallel to the Y axis. 15. The illumination device according to claim 14 , wherein the light-source drive unit changes an orientation of the light from the light source along a plane parallel to an XZ plane. 16. The illumination device according to claim 7 , wherein when a direction parallel to the surface to be illuminated is defined as a horizontal direction, the optical-element drive unit rotates the diffraction optical element such that a normal line that is normal to its incident surface is displaced in the horizontal direction. 17. The illumination device according to claim 7 , wherein: when an XYZ three-dimensional coordinate system having an X axis, a Y axis and a Z axis orthogonal to one another is defined, and a state in which the incident surface of the diffraction optical element is disposed to be parallel to a YZ plane is defined as a standard state; in the standard state, the light source generates a parallel incident light parallel to the X axis, and causes the parallel incident light to be incident on the incident surface; the diffraction optical element is formed of a hologram recording medium, the hologram recording medium recording an interference fringe for generating a reconstructed image serving as the projection pattern on the surface to be illuminated paral