Shot-processing device

The invention claimed is: 1. A shot-processing device comprising: a cabinet in which multiple chambers are formed; a transporter that transports an object to be processed in a predetermined transport direction within at least the cabinet; a shot-projecting machine that is placed in a chamber for projecting the shots, which is one of the multiple chambers, and that projects the shots onto the object to be processed that has been transported into the chamber for projecting the shots; an air-blowing machine that is placed in a chamber for blowing air, which is one of the multiple chambers, that is downstream of the chamber for projecting the shots in the predetermined transport direction, which machine blows air onto the object to be processed that has been transported into the chamber for blowing air; a circulating machine that circulates the shots that have a diameter that makes them reusable among the shots that have been projected by the shot-projecting machine and have dropped on a bottom of the chamber for projecting the shots; a dust collector that is connected to the cabinet to suction air therein that contains dust; a flow path structure including a first flow path and a second flow path, the first flow path configured to form a part of a flow path to connect the inside of the cabinet with a suction port of the dust collector and configured to be a part of a route for circulation of the circulating machine, and the second flow path configured to connect the chamber for blowing air with the suction port of the dust collector; and a classifying part that is provided in the flow path structure, which includes a part of the first flow path and a part of the second flow path, and that classifies particulate objects that include the shots as shots that have a diameter that makes them reusable and as other particulate objects. 2. The shot-processing device of claim 1 , wherein the classifying part comprises a first classifier that includes a part of the first flow path and a second classifier that is a separate body from the first classifier and includes a part of the second flow path, wherein the first classifier is located nearer the cabinet than is the second classifier. 3. The shot-processing device of claim 2 , wherein the flow path structure comprises a third flow path that connects a chamber for taking out an object to be processed with the suction port of the dust collector, wherein the chamber for taking out an object to be processed is one of the multiple chambers in the cabinet that is located at a side for taking out the object to be processed, and wherein the classifying part includes a part of the third flow path. 4. The shot-processing device of claim 3 , wherein the classifying part that constitutes a part of the third flow path is the second classifier. 5. The shot-processing device of claim 1 , further comprising: a jig for holding the object to be processed, on which jig the object to be processed is placed, wherein the jig has supporting parts that support the object to be processed from the lower part and are provided with a gap in a circumferential direction in the plan view of the device, and wherein the air-blowing machine has a blowing part in which a direction for blowing is set so that air that is blown therefrom passes between adjacent supporting parts. 6. The shot-processing device of claim 5 , further comprising: a tubular hood that is located outside the object to be processed in the plan view of the device; and jigs for the hood that support the hood from a bottom, wherein the jigs are provided with a gap in a circumferential direction in the plan view of the device, and wherein in the blowing part the direction for blowing is set so that air that is blown therefrom passes between adjacent jigs for supporting the hood. 7. The shot-processing device of claim 1 , further comprising: a receiving part at a side for taking out that protrudes from the cabinet under a port for taking out, in the plan view of the device; and a duct for taking out that connects a receiving part at the side for taking out with the cabinet and causes the shots that have dropped on the receiving part at the side for taking out to flow to an upstream side of the route for circulation in the cabinet. 8. The shot-processing device of claim 1 , further comprising: an access door to open and close a side opening of the cabinet; a receiving part at a side wall under the side opening, which part protrudes from the cabinet in the plan view of the device; and a duct at the side wall that connects the receiving part at the side wall with the cabinet and causes the shots that have dropped on the receiving part at the side wall to flow to an upstream side of the route for circulation in the cabinet. 9. The shot-processing device of claim 1 , further comprising: a cylindrical ventilator that is provided to a ceiling of the cabinet and that takes ambient air in; and a cartridge that is placed in the ventilator and has a filter that is pleated and faces horizontally. 10. The shot-processing device of claim 1 , wherein the flow path structure comprises a third flow path that connects a chamber for taking out an object to be processed with the suction port of the dust collector, wherein the chamber for taking out an object to be processed is one of the multiple chambers in the cabinet that is located at a side for taking out the object to be processed, and wherein the classifying part includes a part of the third flow path.