Ophthalmic laser treatment apparatus

The invention claimed is: 1. An ophthalmic laser treatment apparatus including: an irradiation optical system including an optical scanner for two-dimensionally scanning a spot of a treatment laser beam from a laser light source and a spot of an aiming beam from an aiming light source on a tissue of a patient's eye; a control unit configured to control the irradiation optical system to irradiate the treatment laser beam to a spot position based on an irradiation pattern in which a plurality of spots for irradiation of the treatment laser beam are arranged, the control unit being arranged to control the irradiation optical system based on an aiming rule associated with the irradiation pattern to irradiate the aiming beam to the spot position to indicate the spot position for irradiation of the treatment laser beam; and an irradiation position moving unit configured to move an irradiation position of the treatment laser beam and the aiming beam, wherein the control unit controls to: irradiate the aiming beam at a first region, the first region having a shape of a two-dimensional matrix defined by the irradiation pattern, the first region including a first sequence of spots from a n-th spot position (n is a natural number) to a m-th spot position (m is a larger natural number than n); irradiate the treatment laser beam at the first sequence of spots; after irradiation of the first sequence of spots by the treatment laser beam has been terminated, control the irradiation position moving unit and automatically shift, based on the aiming rule, irradiation of the aiming beam from toward the first region to toward a second region, the second region also having the shape of a two-dimensional matrix defined by the irradiation pattern, the second region having a location different from that of the first region and not overlapping the first region, the second region including a sequence of spots different from the first sequence of spots based on pre-set instructions; and irradiate the treatment laser beam at the second sequence. 2. The ophthalmic laser treatment apparatus according to claim 1 , wherein the control unit moves the irradiation position of the aiming beam in a predetermined direction. 3. The ophthalmic laser treatment apparatus according to claim 1 , wherein the irradiation pattern is a pattern consisting of spots arranged in a grid form. 4. The ophthalmic laser treatment apparatus according to claim 1 , further including a spot interval input unit to input a spot interval of the irradiation pattern, wherein the control unit moves the irradiation position of the aiming beam so that the spots of the aiming beam are arranged in association with the spot interval based on the spot interval input by the spot interval input unit. 5. The ophthalmic laser treatment apparatus according to claim 4 , wherein the control unit irradiates the aiming beam so that an edge of the spot of the aiming beam based on the aiming rule is located at a position apart by the spot interval from an edge of the irradiated spot of the treatment laser beam. 6. The ophthalmic laser treatment apparatus according to claim 1 , further including a movement direction input unit to input a movement direction of the irradiation position of the aiming beam to be moved by the movement unit, wherein the control unit controls the irradiation position moving unit based on the movement direction input by the movement direction input unit. 7. The ophthalmic laser treatment apparatus according to claim 1 , wherein the irradiation position moving unit is used as the optical scanner. 8. The ophthalmic laser treatment apparatus according to claim 1 , further including a signal input unit to input a signal to trigger irradiation of the treatment laser beam, wherein the control unit is configured to: irradiate the treatment laser beam to a spot position corresponding to the irradiation pattern in the first sequence based on a first trigger signal input by the signal input unit and then control the irradiation position moving unit and irradiate the aiming beam to the second sequence, and irradiate the treatment laser beam to the spot position corresponding to the irradiation pattern in the second sequence based on a second trigger signal input by the signal input unit. 9. The ophthalmic laser treatment apparatus according to claim 8 , wherein the signal input unit is an operation unit to be operated by an operator. 10. The ophthalmic laser treatment apparatus according to claim 8 , further including a second signal input unit to input a signal to stop irradiation of the treatment laser beam, the second signal input unit being operated by an operator, wherein the signal input unit is the control unit, the control unit is configured to: irradiate the aiming beam based on the aiming rule after a series of irradiation of the treatment laser beam, and wait for a stop signal from the second signal input unit for a predetermined time while the aiming beam is being irradiated, and stop irradiation of the treatment laser beam when the control unit receives the stop signal from the second signal input unit or start irradiation of the treatment laser beam when the control unit receives no stop signal from the second signal input unit. 11. The ophthalmic laser treatment apparatus according to claim 1 , further including a movement mode setting unit to set a mode of moving the irradiation position of the aiming beam after a series of irradiation of the treatment laser beam, the movement mode setting unit including a first movement mode of enabling movement of the irradiation position of the aiming beam by the control unit and a second movement mode of disabling movement of the irradiation position of the aiming beam by the control unit, and the control unit is configured to move the irradiation position of the aiming beam after a series of irradiation of the treatment laser beam when the first movement mode is set by the movement mode setting unit or irradiate the aiming beam to the irradiated spot position of the treatment laser beam after a series of irradiation of the treatment laser beam when the second movement mode is set by the movement mode setting unit. 12. The ophthalmic laser treatment apparatus according to claim 1 , wherein the n-th spot position is a start spot position in the irradiation pattern and the m-th spot position is a last spot position in the irradiation pattern. 13. The ophthalmic laser treatment apparatus according to claim 1 , wherein the direction to move the irradiation position of the aiming beam after a series of irradiation of the treatment laser beam by the control unit corresponds to a longitudinal direction of slit illumination light. 14. The ophthalmic laser treatment apparatus according to claim 1 , wherein the first region and the second region each include a plurality of spots in a first direction and a plurality of spots in a second direction different from the first direction. 15. A ophthalmic laser treatment apparatus including: an irradiation optical system including an optical scanner for two-dimensionally scanning a spot of a treatment laser beam from a laser light source and a spot of an aiming beam from an aiming light source on a tissue of a patient's eye; a setting unit to set an irradiation pattern in which a plurality of spots for irradiation of the treatment laser beam are arranged in predetermined groups, each group including spots for radiation in a predetermined form, the setting unit being configured to set a direction for changing irradiation of the treatment laser beam and the aiming beam from toward a firs