Optical unit, vehicle monitor, and obstruction detector

What is claimed is: 1. An optical unit comprising: a rotating reflector that is rotated about a rotation axis in one direction while reflecting light emitted from a light source, wherein the rotating reflector is provided with a reflecting surface so that the light of the light source is reflected by the rotating reflector while the rotating reflector is rotated and forms a desired light distribution pattern, the rotating reflector includes blades that function as the reflecting surface and are provided around the rotation axis, and each blade has a twisted shape, in which, for each blade, a first opposed end of the blade is in a skew relationship with a second opposed end of the blade, and in which an angle between the rotation axis and the blade varies at different circumferential positions, with respect to the rotation axis, of the blade. 2. The optical unit according to claim 1 , further comprising: a light source that is formed of a light emitting element, wherein the rotation axis is provided substantially parallel to a scan plane of an irradiation beam that performs scanning in a left and right direction by rotation. 3. The optical unit according to claim 1 , wherein: the plurality of blades are arranged in a circumferential direction of the rotation axis; partition members are provided between the adjacent blades and extend in a direction of the rotation axis, and the partition members are formed so as to suppress the incidence of the light emitted from the light source upon the reflecting surface of the other adjacent blade when the light emitted from the light source enters the reflecting surface of one adjacent blade. 4. The optical unit according to claim 1 , further comprising: a projection lens that projects the light reflected by the rotating reflector in a light irradiation direction of the optical unit, wherein an angle between an optical axis of the projection lens and the light reflected by the rotating reflector varies as the rotating reflector rotates about the rotation axis, and the projection lens corrects an image of the light source distorted by being reflected on the reflecting surface to a shape close to the shape of the light source. 5. The optical unit according to claim 4 , wherein the light source includes a rectangular light emitting surface, and each side of the light emitting surface is inclined with respect to a vertical direction so that an image of the light source projected forward by the projection lens is substantially erected. 6. The optical unit according to claim 1 , further comprising: a plurality of light sources that are formed of light emitting elements, wherein the plurality of light sources are disposed so that light emitted from the respective light sources is reflected at different positions on the reflecting surface. 7. The optical unit according to claim 6 , further comprising: a first projection lens that projects light, which is emitted from one light source of the plurality of light sources and reflected by the rotating reflector, in a light irradiation direction of the optical unit as a first light distribution pattern; and a second projection lens that projects light, which is emitted from the other light source of the plurality of light sources and reflected by the rotating reflector, in the light irradiation direction of the optical unit as a second light distribution pattern. 8. An optical unit comprising: a rotating reflector that is rotated about a rotation axis in one direction while reflecting light emitted from a light source; and a light source that is formed of a light emitting element, wherein the rotating reflector is provided with a reflecting surface so that the light of the light source is reflected by the rotating reflector while the rotating reflector is rotated and forms a desired light distribution pattern, the rotation axis is provided substantially parallel to a scan plane of an irradiation beam that performs scanning in a left and right direction by rotation, the light source includes a light concentrating member where a light emitting element is disposed on a bottom and a rectangular opening portion is formed, the light concentrating member includes light concentrating surfaces that are formed from the bottom toward the opening portion in order to concentrate the light of the light emitting element, and the light concentrating surfaces are formed so that the heights of end portions of the opening portion in a longitudinal direction of the opening portion are higher than the heights of end portions of the opening portion in a width direction of the opening portion. 9. The optical unit according to claim 1 , wherein the optical unit is formed so as to be used for a vehicle lamp. 10. An optical unit comprising: a rotating reflector that is configured to rotate while reflecting light emitted from a light source, wherein the rotating reflector is provided with a reflecting surface so that the emitted light which is reflected by the rotating reflector while the rotating reflector is rotated in only one direction about only one rotation axis forms a desired light distribution pattern, the rotating reflector includes blades that function as the reflecting surface and are provided around the rotation axis, and each blade has a twisted shape, in which, for each blade, a first opposed end of the blade is in a skew relationship with a second opposed end of the blade, and in which an angle between the rotation axis and the blade varies at different circumferential positions, with respect to the rotation axis, of the blade. 11. The optical unit according to claim 10 , further comprising: a light source that is formed of a light emitting element, wherein the rotation axis is provided substantially parallel to a scan plane of an irradiation beam that performs scanning in a left and right direction by rotation. 12. The optical unit according to claim 10 , wherein: the plurality of blades are arranged in a circumferential direction of the rotation axis; partition members are provided between the adjacent blades and extend in a direction of the rotation axis, and the partition members are formed so as to suppress the incidence of the light emitted from the light source upon the reflecting surface of the other adjacent blade when the light emitted from the light source enters the reflecting surface of one adjacent blade. 13. The optical unit according to claim 10 , further comprising: a projection lens that projects the light reflected by the rotating reflector in a light irradiation direction of the optical unit, wherein an angle between an optical axis of the prosection lens and the light reflected by the rotating reflector varies as the rotating reflector rotates about the rotation axis, and the projection lens corrects an image of the light source distorted by being reflected on the reflecting surface to a shape close to the shape of the light source. 14. The optical unit according to claim 13 , wherein the light source includes a rectangular light emitting surface, and each side of the light emitting surface is inclined with respect to a vertical direction so that an image of the light source projected forward by the projection lens is substantially erected. 15. The optical unit according to claim 10 , further comprising: a plurality of light sources that are formed of light emitting elements, wherein the plurality of light sources are disposed so that light emitted from the respective light sources is reflected at different positions on the reflecting surface. 16. The