Laser Processing Robot System for Performing Laser Processing Using Robot

What is claimed is: 1 . A laser processing robot system for performing laser processing of a workpiece, using a robot having an arm to which a laser irradiation device for emitting a laser beam for processing is attached, the laser processing robot system comprising: a robot control device which causes the robot to perform an operation of the laser processing without output of the laser beam; an imaging device for capturing an actual image including the robot which is caused to perform an operation of the laser processing without output of the laser beam; a display device for displaying, in real time, the actual image; and an image processing device which is connected to the robot control device and which has an augmented reality image processing unit for performing augmented reality image processing of the actual image, wherein the augmented reality image processing unit is adapted to superimpose a virtual image representing at least one of a laser beam obtained by assuming that the laser beam is emitted from the laser irradiation device to the workpiece, and an irradiation position of the laser beam, onto the actual image, and to display the superimposed image on the display device. 2 . The laser processing robot system according to claim 1 , wherein the laser irradiation device comprises a lens position adjusting mechanism which adjusts the position of a lens in response to a command from the robot control device, to change a focal length, and the augmented reality image processing unit is adapted to generate the virtual image based on a command value or a detection value regarding the focal length and the position of the lens. 3 . The laser processing robot system according to claim 1 , wherein the laser irradiation device comprises an irradiation position changing mechanism for changing the irradiation position of the laser beam on a surface of the workpiece in response to a command from the robot control device, and the augmented reality image processing unit is adapted to generate the virtual image based on a command value or a detection value regarding the irradiation position. 4 . The laser processing robot system according to claim 1 , wherein the augmented reality image processing unit is adapted to display the locus of at least one of the laser beam represented as the virtual image and the irradiation position of the laser beam on the display device. 5 . The laser processing robot system according to claim 1 , wherein the robot control device is adapted to convey information regarding irradiation conditions for irradiation with the laser beam to the image processing device, and the augmented reality image processing unit is adapted to display, along with the virtual image, the information regarding the irradiation conditions on the display device. 6 . The laser processing robot system according to claim 1 , wherein the augmented reality image processing unit is adapted to change at least one of the display color and display size of the laser beam when the virtual image is generated. 7 . The laser processing robot system according to claim 6 , wherein the augmented reality image processing unit is adapted to change at least one of the display color and display size of the laser beam in accordance with irradiation conditions for irradiation with the laser beam. 8 . The laser processing robot system according to claim 1 , wherein the display device is a head-mounted display configured to be integral with the imaging device.