Laser irradiation apparatus and laser irradiation method

The invention claimed is: 1 . A laser irradiation apparatus comprising: a laser device configured to emit a laser beam to an object conveyed in a conveyance direction, the object having a polygonal columnar shape including a flat surface; a rotation detector configured to detect rotation of the object to obtain rotation information of the object; and circuitry configured to control the laser device to irradiate the object with the laser beam based on the rotation information of the object detected by the rotation detector, wherein the circuitry is further configured to control a timing at which the laser device starts irradiating the object that rotates around an axis along a direction orthogonal to the conveyance direction based on a rotation amount of the flat surface of the object in the conveyance direction, and wherein in a case in which the object rotates such that an upstream side of the flat surface of the object in the conveyance direction is closer to the laser device than a downstream side of the flat surface of the object in the conveyance direction, the circuitry is further configured to make the timing at which the laser device starts irradiating the object earlier than a case in which the flat surface is parallel to the conveyance direction. 2 . The laser irradiation apparatus according to claim 1 , wherein the circuitry determines a start position to start irradiating the object in the conveyance direction based on the rotation amount in the conveyance direction. 3 . The laser irradiation apparatus according to claim 1 , further comprising a position detector configured to detect a position of the object. 4 . The laser irradiation apparatus according to claim 3 , wherein the rotation detector is disposed upstream from the position detector in the conveyance direction. 5 . The laser irradiation apparatus according to claim 3 , wherein the circuitry calculates a start position to start irradiating the object based on the rotation information and then calculates the start position based on the position of the object. 6 . The laser irradiation apparatus according to claim 1 , further comprising a scanner configured to scan the laser beam emitted from the laser device over the object in a sub-scanning direction, wherein the sub-scanning direction coincides with the conveyance direction. 7 . The laser irradiation apparatus according to claim 1 , further comprising a scanner configured to scan the laser beam over the object in a sub-scanning direction to cause the laser beam to follow in the conveyance direction. 8 . The laser irradiation apparatus according to claim 1 , wherein the laser device includes multiple laser devices configured to emit laser beams to multiple objects, and wherein the multiple laser devices emit the laser beams to the multiple objects at different timings. 9 . The laser irradiation apparatus according to claim 1 , further comprising: a non-transmissive detector configured to detect a non-transmissive portion of the object; and a distance detector configured to detect a distance between the distance detector and the non-transmissive portion. 10 . A laser irradiation method comprising: emitting a laser beam from a laser device to an object conveyed in a conveyance direction, the object having a polygonal columnar shape including a flat surface; detecting rotation of the object conveyed in the conveyance direction to obtain rotation information of the object; detecting a position of the object; calculating a start position to start irradiating the object with the laser beam based on the rotation information; calculating the start position based on the position of the object; determining the start position based on the start position calculated; controlling the laser device to irradiate the object with the laser beam based on the rotation information of the object; controlling a timing at which the laser device starts irradiating the object that rotates around an axis along a direction orthogonal to the conveyance direction based on a rotation amount of the flat surface of the object in the conveyance direction; and in a case in which the object rotates such that an upstream side of the flat surface of the object in the conveyance direction is closer to the laser device than a downstream side of the flat surface of the object in the conveyance direction, making the timing at which the laser device starts irradiating the object earlier than a case in which the flat surface is parallel to the conveyance direction. 11 . The laser irradiation method according to claim 10 , wherein the calculating the start position based on the rotation information is performed before the calculating the start position based on the position of the object.