Measuring Software Test Verification for Complex Workpieces based on Virtual Gear Measuring Instrument

• Main Authors: Yin Peili, Wang Jianhua, Lu Chunxia
• Format: Article
• Language: English
• Published: Sciendo 2017-08-01
• Series: Measurement Science Review
• Subjects: Software testing; complex workpiece; Virtual Gear Measuring Instrument (VGMI); collision detection; triangular patch
• Online Access: http://www.degruyter.com/view/j/msr.2017.17.issue-4/msr-2017-0023/msr-2017-0023.xml?format=INT

Validity and correctness test verification of the measuring software has been a thorny issue hindering the development of Gear Measuring Instrument (GMI). The main reason is that the software itself is difficult to separate from the rest of the measurement system for independent evaluation. This paper presents a Virtual Gear Measuring Instrument (VGMI) to independently validate the measuring software. The triangular patch model with accurately controlled precision was taken as the virtual workpiece and a universal collision detection model was established. The whole process simulation of workpiece measurement is implemented by VGMI replacing GMI and the measuring software is tested in the proposed virtual environment. Taking involute profile measurement procedure as an example, the validity of the software is evaluated based on the simulation results; meanwhile, experiments using the same measuring software are carried out on the involute master in a GMI. The experiment results indicate a consistency of tooth profile deviation and calibration results, thus verifying the accuracy of gear measuring system which includes the measurement procedures. It is shown that the VGMI presented can be applied in the validation of measuring software, providing a new ideal platform for testing of complex workpiece-measuring software without calibrated artifacts.