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An object sorting system automatically inspects a plurality of objects and sorts acceptable objects from defective objects. The system includes a feed conveyor, a barrier, a sorting camera, at least one rejection valve and a processor. The feed conveyor receives a plurality of objects and moves the

An object sorting system automatically inspects a plurality of objects and sorts acceptable objects from defective objects. The system includes a feed conveyor, a barrier, a sorting camera, at least one rejection valve and a processor. The feed conveyor receives a plurality of objects and moves the objects through an inspection area, which is defined by the barrier, which is placed across and above a top surface of the feed conveyor. The barrier is configured to redirect the plurality of objects and cause the objects to rotate about an object axis such that the sorting camera can capture an image of each of the plurality of objects as the objects rotate and move through the inspection area.

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1. An object sorting system for automatically inspecting a plurality of objects and sorting acceptable objects from defective objects, the system comprising:a feed conveyer for receiving a first plurality of objects, the feed conveyor moving the first plurality of objects through an inspection area;

1. An object sorting system for automatically inspecting a plurality of objects and sorting acceptable objects from defective objects, the system comprising:a feed conveyer for receiving a first plurality of objects, the feed conveyor moving the first plurality of objects through an inspection area;a barrier placed across a top surface of the feed conveyer, wherein the barrier defines a boundary of the inspection area and is configured to redirect the first plurality of objects and cause the first plurality of objects to rotate about an object axis;a sorting camera positioned for capturing an image of each of the first plurality of objects as the first plurality of objects rotate and move through the inspection area;at least one final rejection valve, the at least one final rejection valve functioning to separate finally defective objects and inspected acceptable objects; anda processor coupled to the feed conveyer, the sorting camera and the at least one rejection valve, wherein the processor executes an inspection routine that controls a speed of the feed conveyer, a scanning rate of the sorting camera and actuation of the at least one final rejection valve, and wherein the first plurality of objects are one of a bolt, an engine valve, a capsule, a ball bearing and a medical ball. 2. The system of claim 1, wherein an angle at which the barrier is placed across the feed conveyor is adjusted in conjunction with the speed of the feed conveyor to achieve a desired rate of rotation for the first plurality of objects. 3. The system of claim 1, wherein the capsule is a transparent capsule. 4. The system of claim 1, wherein the barrier includes a wire. 5. The system of claim 1, wherein the barrier includes at least one pair of substantially parallel wires that contain the plurality of object. 6. The system of claim 1, wherein the sorting camera and the first and second inspection cameras are complementary metal-oxide semiconductor (CMOS) cameras. 7. The system of claim 1, further including:a cup conveyor including a plurality of open-ended cups, wherein each of the plurality of open-ended cups receives one of the plurality of objects and transports its associated object through an intermediate inspection area;a first inspection camera for capturing an image of a first end of each of the plurality of objects as the plurality of objects move through the intermediate inspection area;a second inspection camera for capturing an image of a second end of each of the plurality of objects as the plurality of objects move through the intermediate inspection area, wherein the second end of each of the plurality of objects is opposite the first end of each of the plurality of objects;at least one intermediate rejection valve, the intermediate rejection valve functioning to direct an intermediately defective object with at least one defective end such that the intermediately defective object is separated from an inspection stream, wherein the cup conveyor, the first and second inspection cameras and the at least one intermediate rejection valve are coupled to and controlled by the processor; anda direction chute for receiving the objects with acceptable ends and directing them onto the feed conveyor. 8. The system of claim 7, further including:a hopper for receiving the plurality of objects, the hopper providing the objects to the cup conveyor responsive to the processor. 9. The system of claim 7, wherein the sorting camera and the first and second inspection cameras are charge-coupled device (CCD) cameras. 10. The system of claim 7, further including:a plurality of electric motors coupled to the processor, the plurality of electric motors for driving the feed conveyer, the cup conveyor, and the hopper responsive to the processor; anda plurality of encoders coupled to the processor, the encoders providing an indication of the speed of an associated one of the motors and hence the associated speed of the feed conveyor and the cup conveyor, where in the processor sets a sorting scan rate for the sorting camera responsive to the speed of the feed conveyor and an inspection scan rate for the first and second inspection cameras responsive to the speed of the cup conveyor. 11. An object sorting system for automatically inspecting a plurality of objects and sorting acceptable objects from defective objects, the system comprising:a feed conveyer for receiving a first plurality of objects, the feed conveyor moving the first plurality of objects through an inspection area;a barrier placed across a top surface of the feed conveyer, wherein the barrier defines a boundary of the inspection area and is configured to redirect the first plurality of objects and cause the first plurality of objects to rotate about an object axis;a sorting camera positioned for capturing an image of each of the first plurality of objects as the first plurality of objects rotate and move through the inspection area;at least one final rejection valve, the at least one final rejection valve functioning to separate finally defective objects and inspected acceptable objects; anda processor coupled to the feed conveyer, the sorting camera and the at least one rejection valve, wherein the processor executes an inspection routine that controls a speed of the feed conveyer, a scanning rate of the sorting camera and actuation of the at least one final rejection valve, wherein the first plurality of objects are spherical. 12. A method for automatically inspecting a plurality of objects and sorting acceptable objects from defective objects, the method comprising the steps of:receiving a plurality of objects;rotating and moving the objects through an inspection area;capturing an image of each of the plurality of objects as the plurality of objects move through the inspection area;comparing the captured image of each of the plurality of objects to at least one stored image to determine whether an object is defective; anddirecting a defective object such that the defective object is separated from inspected acceptable objects, wherein the plurality of objects are one of a bolt, an engine valve, a capsule, a ball bearing and a medical ball. 13. The method of claim 12, wherein the plurality of objects are rotated by a barrier which is placed across a feed conveyor that moves the objects through the inspection area, and wherein the angle at which the barrier is placed across the feed conveyor is adjusted in conjunction with the speed of the feed conveyor to achieve a desired rate of rotation for the plurality of objects. 14. The method of claim 12, wherein the plurality of objects include at least one surface that is cylindrical. 15. A method for automatically inspecting a plurality of objects and sorting acceptable objects from defective objects, the method comprising the steps of:receiving a plurality of objects;rotating and moving the objects through an inspection area;capturing an image of each of die plurality of objects as the plurality of objects move through the inspection area;comparing the captured image of each of the plurality of objects to at least one stored image to determine whether an object is defective; anddirecting a defective object such that the defective object is separated from inspected acceptable objects, wherein the plurality of objects are spherical. 16. An capsule sorting system for automatically inspecting a plurality of capsules and sorting acceptable capsules from defective capsules, the system comprising:a feed conveyer for receiving a first plurality of capsules, the feed conveyor moving the first plurality of capsules through an inspection area;a barrier placed across and above a top surface of the feed conveyer, wherein the barrier defines a boundary of the inspection area and is configured to redirect the first plurality of capsules and cause the first plurality of capsules to rotate about a capsule axis;a sorting camera for capturing an image of each of the first plurality of capsu les as the first plurality of capsules rotate and move through the inspection area;at least one final rejection valve, the at least one final rejection valve functioning to separate finally defective capsules and inspected acceptable capsules; anda processor coupled to the feed conveyer, the sorting camera and the at least one final rejection valve, wherein the processor executes an inspection routine that controls a speed of the feed conveyer, a scanning rate of the sorting camera and the at least one final rejection valve. 17. The system of claim 16, wherein an angle at which the barrier is placed across the feed conveyor is adjusted in conjunction with the speed of the feed conveyor to achieve a desired rate of rotation for the first plurality of capsules. 18. The system of claim 16, wherein the first plurality of capsules are transparent. 19. The system of claim 16, wherein the first plurality of capsules include at least one surface that is cylindrical. 20. The system of claim 16, wherein the first plurality of capsules are transparent and include at least one surface that is cylindrical. 21. The system of claim 16, wherein the barrier includes a wire. 22. The system of claim 16, wherein the barrier includes at least one pair of substantially parallel wires that contain the first plurality of capsules. 23. The system of claim 16, further including:a hopper for receiving the plurality of capsules, the hopper providing the capsules to the cup conveyor responsive to the processor. 24. The system of claim 16, wherein the sorting camera and the first and second inspection cameras are complementary metal-oxide semiconductor (CMOS) cameras. 25. The system of claim 16, further including:a cup conveyor including a plurality of open-ended cups, wherein each of the plurality of open-ended cups receives one of the plurality of capsules and transports its associated capsule through an intermediate inspection area;a first inspection camera for capturing an image of a first end of each of the plurality of capsules as the plurality of capsules move through the intermediate inspection area;a second inspection camera for capturing an image of a second end of each of the plurality of capsules as the plurality of capsules move through the intermediate inspection area, wherein the second end of each of the plurality of capsules is opposite the first end of each of the plurality of capsules;at least one intermediate rejection valve, the at least one intermediate rejection valve functioning to direct a defective capsule with at least one defective end such that the defective capsule is separated from capsules with acceptable ends, wherein the cup conveyor, the first and second inspection cameras and the at least one intermediate rejection valve are coupled to and controlled by the at least one processor; anda direction chute for receiving the capsules with acceptable ends and directing them onto the feed conveyor. 26. The system of claim 25, wherein the sorting camera and the first and second inspection cameras are charge-coupled device (CCD) cameras. 27. The system of claim 25, further including:a plurality of electric motors coupled to the processor, the plurality of electric motors for driving the feed conveyer and the cup conveyor responsive to the processor; anda plurality of encoders coupled to die processor, the encoders providing an indication of the speed of an associated one of the motors and hence the associated speed of the feed conveyor and the cup conveyor, wherein the processor sets a sort scan rate for the sorting camera responsive to the speed of the feed conveyor and an inspection scan rate for the first and second inspection cameras responsive to the speed of the cup conveyor.