Tube bending system

The invention claimed is: 1 . A tube bending system for bending a processing target tube into a predetermined shape, the processing target tube including a metal tube having two ring-shaped projections, respectively formed at each of two end portions of the metal tube, and including two flare nuts respectively mounted at an outer periphery of the metal tube so as to correspond to one or another of the two ring-shaped projections, the tube bending system comprising: a bending machine that bends the processing target tube; and a tube delivery unit that receives the processing target tube and delivers the processing target tube to the bending machine, wherein the tube delivery unit includes: a shift-to-end mechanism that performs a shift-to-end manipulation on the processing target tube to move the two flare nuts to the end portion sides of the processing target tube such that one of the two flare nuts abuts one of the two ring-shaped projections and the other of the two flare nuts abuts the other of the two ring-shaped projections; and an inspection mechanism that captures an image of a positioned state in which, by the shift-to-end manipulation, the flare nuts are abutted against the ring-shaped projections, and detects an abnormality based on a result of the imaging of the processing target tube that is to be bent in the bending machine. 2 . The tube bending system of claim 1 , wherein the inspection mechanism includes: a stage on which the processing target tube positioned by the shift-to-end manipulation is disposed; an image capture means that outputs image data obtained by capturing an image of an image capture range including the flare nuts set on the stage, and that has a fixed positional relationship to the stage; an image capture control means that controls the image capture means so as to capture an image of the image capture range in a state in which the processing target tube is positioned on the stage; and an abnormality detection means that detects the abnormality of the processing target tube based on the image data. 3 . The tube bending system of claim 2 , wherein the shift-to-end mechanism includes: a left-right pair of tube reception members that are each formed with a reception groove having a width that is larger than an outer diameter of the processing target tube and smaller than an outer diameter of a flare nut, that each receive the processing target tube at an opposite side of the flare nut from the ring-shaped projection, and that are movable in an axial direction; and a drive means configured to independently drive the left-right pair of tube reception members, wherein the processing target tube is positioned on the stage by moving one of the left-right pair of tube reception members to a specific position on the stage, and moving the other of the left-right pair of tube reception members in a direction away from the stage. 4 . The tube bending system of claim 2 , wherein: the processing target tube is prepared as a product to be mounted with different types of flare nuts having mutually different axial directional dimensions as the two flare nuts, and as the abnormality, the abnormality detection means detects a tube delivery abnormality when the tube delivery unit has received the processing target tube in a state of reversed left-right orientation. 5 . The tube bending system of claim 4 , wherein the abnormality detection means detects the tube delivery abnormality by identifying a position of a terminal end of the processing target tube based on the image data. 6 . The tube bending system of claim 4 , wherein: the processing target tube has a surface covered in a covering layer, and the covering layer is peeled off from respective terminal ends of the processing target tube by a different length at left and right in accordance with the respective axial directional dimensions of the two flare nuts; and based on the image data, the abnormality detection means detects the tube delivery abnormality by identifying a boundary position between a peeled range where the covering layer has been peeled off and a non-peeled range where the covering layer has not been peeled off. 7 . The tube bending system of claim 2 , wherein, as the abnormality, the abnormality detection means detects a nut mounting direction abnormality in which at least one of the two flare nuts has been abutted against the ring-shaped projection in a reversed orientation from a correct direction. 8 . The tube bending system of claim 7 , wherein: each flare nut includes a thread portion formed with a male thread and a head portion adjacent to the thread portion, and the abnormality detection means detects the nut mounting direction abnormality by: partitioning the image data including an image of the flare nut into an outside area at a leading end side and an inside area at an opposite side, comparing a variation of brightness values in the outside area against a variation of brightness values in the inside area, and inferring whether or not the thread portion is present on the outside area side based on a magnitude relationship between the respective variations. 9 . The tube bending system of claim 1 , wherein: the tube delivery unit further includes a transport mechanism that transports the processing target tube to the bending machine after the shift-to-end manipulation, and the transport mechanism does not transport the processing target tube to the bending machine in a case in which the inspection mechanism has detected the abnormality and, instead, transports the processing target tube to a collection means provided within an operational range of the transport mechanism. 10 . The tube bending system of claim 3 , wherein: the processing target tube is prepared as a product to be mounted with different types of flare nuts having mutually different axial directional dimensions as the two flare nuts, and as the abnormality, the abnormality detection means detects a tube delivery abnormality when the tube delivery unit has received the processing target tube in a state of reversed left-right orientation. 11 . The tube bending system of claim 3 , wherein, as the abnormality, the abnormality detection means detects a nut mounting direction abnormality in which at least one of the two flare nuts has been abutted against the ring-shaped projection in a reversed orientation from a correct direction. 12 . The tube bending system of claim 2 , wherein: the tube delivery unit further includes a transport mechanism that transports the processing target tube to the bending machine after the shift-to-end manipulation, and the transport mechanism does not transport the processing target tube to the bending machine in a case in which the inspection mechanism has detected the abnormality and, instead, transports the processing target tube to a collection means provided within an operational range of the transport mechanism.