In order to reduce the checking time required and to reduce human error in the stamping process, this paper proposes the development concept of a portable quality-confirmation inspection device for an automotive body part. The portable device will be designed to reduce human error, as well as the checking time, by incorporating computer programming. The characteristics of the portable checking device are among the significant relevant criteria when inventing a suitable checking device. Since this study uses two different types of sensor, it is necessary to find the correct positioning distance. The sensors will capture the image of a production part and transfer the data into the computer. The data is analyzed to determine whether it satisfies the actual CAD data. If the data does not align with the standard result, the distance of the sensor must be adjusted and calibrated by analyzing the range of the sensor. At the end of this research, the established development concept of a portable quality-confirmation inspection device can be used as a reference and guide for future designs.
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