Inspection system for inspecting object using force sensor

What is claimed is: 1 . An inspection system for inspecting accuracy of a size of a machined portion of an object, the machined portion having the same cross-section from one end face to an opposite end face, the inspection system comprising: an inspection gauge having a cross-section shaped supplementary to a cross-section shape of the machined portion; a robot configured to move the machined portion and the inspection gauge relative to each other; a force sensor configured to detect force acting between the object and the inspection gauge; and a controller configured to control the robot to fit the inspection gauge and the machined portion to each other, wherein the inspection gauge has a first inspection portion having the same cross-section shape as the machined portion and being sized so as to be smaller than a smallest allowable size of the machined portion, and a second inspection portion having the same cross-section shape as the machined portion and being sized so as to be larger than a largest allowable size of the machined portion, the controller comprising: a force control part configured to perform force control based on a detection value of the force sensor; and a quality determination part configured to determine that the object has either a good quality or a poor quality, based on a positional relationship between the machined portion and the inspection gauge when the inspection gauge and the machined portion are fitted to each other, wherein the robot is controlled to fit the inspection gauge and the machined portion to each other in accordance with the force control by the force control part. 2 . The inspection system according to claim 1 , wherein the force sensor is attached to the robot, one of the object and the inspection gauge is held by the robot at a position closer to a tip end of the robot than the force sensor, and the other of the object and the inspection gauge is fixed at a position within a movable range of the robot. 3 . The inspection system according to claim 2 , wherein the force sensor is attached to a wrist of the robot. 4 . The inspection system according to claim 1 , wherein one of the object and the inspection gauge is fixed to the force sensor at a position farther than the force sensor relative to a position in which the force sensor is fixed, and the other of the object and the inspection gauge is held by the robot. 5 . The inspection system according to claim 1 , further comprising a fitting determination part configured to determine that fitting between the inspection gauge and the machined portion is completed in the case where a relative speed between the inspection gauge and the machined portion becomes smaller than a predetermined threshold value when the robot fits the inspection gauge and the machined portion to each other. 6 . The inspection system according to claim 5 , wherein the quality determination part is configured to determine the quality of the machined portion by comparing a positional information of the robot when the fitting determination part determines that the fitting is completed with positional information stored in advance. 7 . The inspection system according to claim 1 , wherein the machined portion is a hole, and the inspection gauge is a bar-like member having a supplementary shape to the hole. 8 . The inspection system according to claim 7 , wherein the quality determination part is configured to determine that the object has a good quality in the case where, when the inspection gauge and the machined portion are fitted to each other, the first inspection portion of the inspection gauge can be fitted to the machined portion and the second inspection portion of the inspection gauge cannot be fitted to the machined portion, and determine that the object has a poor quality in the case where, when the inspection gauge and the machined portion are fitted to each other, the first inspection portion of the inspection gauge cannot be fitted to the machined portion or the second inspection portion of the inspection gauge can be fitted to the machined portion. 9 . The inspection system according to claim 1 , wherein the machined portion is a shaft portion, and the inspection gauge is a hole having a supplementary cross section shape to the shaft portion. 10 . The inspection system according to claim 9 , wherein the quality determination part is configured to determine that the object has a good quality in the case where, when the inspection gauge and the machined portion are fitted to each other, the second inspection portion of the inspection gauge can be fitted to the machined portion and the first inspection portion of the inspection gauge cannot be fitted to the machined portion, and determine that the object has a poor quality in the case where, when the inspection gauge and the machined portion are fitted to each other, the second inspection portion of the inspection gauge cannot be fitted to the machined portion or the first inspection portion of the inspection gauge can be fitted to the machined portion.