Method for cutting gate formed on molded article

The invention claimed is: 1. A method of cutting a molded article including a plurality of product parts and a plurality of material passage parts, the method comprising: a) detecting, by a sensor, a shape of the molded article placed in an unfixed configuration at a work position; b) determining, by a processor, when one of the plurality of material passage parts is detected to extend beyond an intended cut portion by analyzing the detected shape of the molded article; c) when the one of the plurality of material passage parts is detected to extend beyond the intended cut portion: determining, by the processor, a position of the one of the plurality of material passage parts in a coordinate system by analyzing the detected shape of the molded article; determining, by the processor, a position of a cut spot in the one of the plurality of material passage parts as a target position in the coordinate system, based on the acquired position of the one of the plurality of material passage parts; moving, by the processor, a cutting device in the coordinate system based on the determined target position, so as to arrange the cutting device at the work position for cutting the cut spot; controlling, by the processor, the cutting device arranged at the work position to cut the cut spot in the one of the plurality of material passage parts; repeat steps (b) and (c) for another one of the plurality of material passage parts; and d) when the one of the plurality of material passage parts is not detected to extend beyond the intended cut portion, repeat steps (b) and (c) for another one of the plurality of material passage parts until each of the plurality of material passage parts are cut. 2. The method of claim 1 , further comprising: further detecting a shape of the molded article by the sensor after cutting the cut spot; further acquiring a position of the one of the plurality of material passage parts in the coordinate system, based on the shape of the molded article detected after cutting the cut spot; determining a position of a second cut spot in the one of the plurality of material passage parts as a second target position in the coordinate system, based on the position of the one of the plurality of material passage parts acquired after cutting the cut spot; moving the cutting device in the coordinate system based on the determined second target position, so as to arrange the cutting device at a second work position for cutting the second cut spot; and cutting the second cut spot by the cutting device arranged at the second work position. 3. The method of claim 1 , wherein a shape of a placed first molded article is detected by a first sensor, and a shape of a placed second molded article is detected by a second sensor. 4. The method of claim 1 , wherein the cutting device is attached to a manipulator by which the cutting device is moved in the coordinate system. 5. The method of claim 4 , further comprising: gripping the one of the plurality of material passage parts by a robot hand attached to the manipulator, after cutting the cut spot; and operating the manipulator so as to convey the one of the plurality of material passage parts gripped by the robot hand to a predetermined site. 6. The method of claim 4 , further comprising: gripping the one of the plurality of product parts by the robot hand attached to the manipulator, after cutting the cut spot; and operating the manipulator so as to convey the one of the plurality of product parts gripped by the robot hand to a predetermined site. 7. A cutting system for cutting a molded article including a plurality of product parts and a plurality of material passage parts, the cutting system comprising: a cutting device movable in an automatic control coordinate system; a manipulator configured to move the cutting device in the coordinate system; a sensor configured to: a) detect a shape of the molded article placed in an unfixed configuration at a work position; and a processor configured to: b) determine when one of the plurality of material passage parts is detected to extend beyond an intended cut portion by analyzing the detected shape of the molded article, and c) when the one of the plurality of material passage parts is detected to extend beyond the intended cut portion: determine a position of the one of the plurality of material passage parts in the coordinate system by analyzing the shape of the molded article detected by the sensor, determine a position of a cut spot in the one of the plurality of material passage parts as a target position in the coordinate system, based on the position of the one of the plurality of material passage parts, operate the manipulator based on the target position, so as to move the cutting device in the coordinate system to arrange the cutting device at the work position for the cutting the cut spot, operate the cutting device arranged at the work position to cut the cut spot in the one of the plurality of material passage parts, repeat steps (b) and (c) for another one of the plurality of material passage parts, and d) when the one of the plurality of material passage parts is not detected to extend beyond the intended cut portion, repeat steps (b) and (c) for another one of the plurality of material passage parts until each of the plurality of material passage parts are cut.