System for automatically inspecting and sorting pellets

The invention claimed is: 1. A system for automatically inspecting and sorting pellets, the system comprising: a pellet supply part configured to supply a plurality of pellets; a first pellet transfer part configured to transfer the plurality of pellets supplied from the pellet supply part along a conveyance path toward a pellet delivery part; the pellet delivery part disposed after the first pellet transfer part along the conveyance path, the pellet delivery part being configured to transfer the plurality of pellets received from the first pellet transfer part downward; a second pellet transfer part disposed below the first pellet transfer part, wherein the second pellet transfer part is configured to receive the plurality of pellets transferred downward through the pellet delivery part, wherein the second pellet transfer part is configured to invert the plurality of pellets by 180°, so as to transfer the plurality of pellets in a direction away from the pellet delivery part along the conveyance path; a first vision inspection part disposed above the first pellet transfer part, the first vision inspection part being configured to photograph a first surface of each of the plurality of pellets, so as to inspect whether the first surface of each of the plurality of pellets is defective; a first dispensing part disposed between the first vision inspection part and the pellet delivery part, wherein the first dispensing part is configured to suction defective ones of the plurality of pellets, wherein the first vision inspection part is configured to determine a defect of each of the plurality of pellets, so as to separate the defective pellets from the first pellet transfer part; a second vision inspection part disposed above the second pellet transfer part, the second vision inspection part being configured to photograph a second surface of each of the plurality of pellets so as to inspect whether the second surface of each of the plurality of pellets is defective; a second dispensing part disposed after the second vision inspection part along the conveyance path, wherein the second dispensing part is configured to suction the plurality of defective pellets, wherein the second vision inspection part is configured to determine a defect of the second surface of each of the plurality of pellets, so as to separate the defective pellets from the second pellet transfer part; and an unloading part disposed after the second pellet transfer part along the conveyance path, wherein the unloading part is configured to receive the plurality of pellets from the second pellet transfer part, so as to transfer the plurality of pellets to a designated unloading position, wherein the pellet delivery part comprises: a first guide plate extending downward from a front end of a first pellet transfer part; a second guide plate installed to be spaced apart in a horizontal dimension from the first guide plate by a certain amount, the certain amount being greater than a thickness of each of the plurality of pellets; and a plurality of guide lanes disposed to extend vertically between the first guide plate and the second guide plate, so as to guide the plurality of pellets downward. 2. The system of claim 1 , wherein the first pellet transfer part comprises: a first transfer plate inclined downward at a predetermined angle toward the pellet delivery part, wherein the first transfer plate includes a plurality of lanes along which the plurality of pellets are configured to move; and a first vibration generator configured to vibrate the first transfer plate at a predetermined frequency, wherein the second pellet transfer part comprises: a second transfer plate inclined downward at a predetermined angle away from the pellet delivery part, wherein the second transfer plate includes a plurality of lanes, so as to accommodate movement of the plurality of pellets; and a second vibration generator configured to vibrate the second transfer plate at a predetermined frequency. 3. The system of claim 2 , wherein each of a top surfaces of the first transfer plate and a top surface of the second transfer plate is coated with a light-absorbent resin, the light-absorbent resin being configured to prevent diffused reflection in a photographing process of the first vision inspection part and the second vision inspection part. 4. The system of claim 1 , wherein the pellet supply part comprises: a hopper including an input port, the input port being configured to receive the plurality of pellets; and at least one distribution plate disposed below the hopper, wherein the at least one distribution plate includes a plurality of pellet distribution holes, the plurality of pellet distribution holes being configured to allow passage of the plurality of pellets. 5. The system of claim 1 , wherein each of the first dispensing part and the second dispensing part comprise a plurality of vacuum suction nozzles extending transverse to the conveyance path and above the first pellet transfer part and the second pellet transfer part, respectively, wherein the plurality of vacuum suction nozzles are configured to suction the plurality of defective pellets, wherein the plurality of defective pellets are configured to be moved along the first pellet transfer part and the second pellet transfer part, wherein the plurality of vacuum suction nozzles are configured to suction the plurality of pellets in an area around the plurality of defective pellets, so as to discharge both the plurality of defective pellets and a portion of the plurality of pellets that are not defective. 6. The system of claim 5 , wherein a plurality of fine ventilation holes are disposed in the first pellet transfer part and the second pellet transfer part, wherein each of the plurality of fine ventilation holes has a size smaller than that of each of the plurality of pellets, wherein the plurality of fine ventilation holes are further disposed in a position corresponding to the plurality of vacuum suction nozzles, and a first and a second discharge auxiliary blower configured to blow air through the plurality of fine ventilation holes, wherein the first discharge auxiliary blower is disposed below the first pellet transfer plat-part and the second discharge auxiliary blower is disposed below the second pellet transfer part, so as to blow air upward through the plurality of fine ventilation holes to help the discharge of the plurality of defective pellets. 7. The system of claim 1 , further comprising: an upper transfer auxiliary blower configured to blow air downward between the first guide plate and the second guide plate, the upper transfer auxiliary blower being disposed above the front end of the first pellet transfer part; and a lower transfer auxiliary blower configured to blow air in the direction away from the pellet delivery part, so as to push the plurality of pellets transferred from a lower end of the second guide plate to the second pellet transfer part. 8. The system of claim 1 , wherein the first guide plate and the second guide plate are inclined at an angle of 2° to 4° with respect to an axis perpendicular to the horizontal dimension. 9. The system of claim 1 , wherein the unloading part comprises: a good product transfer conveyor configured to discharge the plurality of pellets determined not to be defective pellets via a rear end of the second transfer plate, the rear end of the second transfer plate facing in the direction away from the pellet delivery part; an emergency discharge conveyor configured to discharge the plurality of defective pellets, via the rear end of the second transfer plate; and a conveyor moving unit configured to move the good product transfer conveyor and the emergency d