The 3D scanner is used in aerospace, and the aerospace industry is a high-tech industry. It is the country's top development technology engine. Nowadays, aerospace technology is a national high-end technology, which symbolizes the prosperity and prosperity of the country. Advanced R&D and production drive the domestic top technology and provide strategic technical equipment for national development and national defense construction. The development of aerospace technology is the demonstration of the country's scientific and technological strength. How to accelerate the development of aerospace technology is a problem we face. It needs to be separated from the core technology limitations of foreign countries. The 3D scanner technology has an irreplaceable important position in the aerospace industry.
Huaguang 3D scanner can bring you:
1. Accuracy and quality inspection
Part of the life and safety of people in aviation products and the strength of the country, the quality requirements are extremely strict, the complexity of the surface is also very different, using three-dimensional scanning technology can detect aircraft parts. First, the parts are scanned. Due to the non-contact scanning, the complex curved surface parts of the soft and fragile parts that cannot be reached by the probe can be easily scanned, the scanning time of the workpiece is greatly reduced, and the matching with the CAD model is completed, and the error color coding is performed. The figure shows the deviation and the amount of deviation, and finally the CAD data is given for correction.
2. Aircraft design
With the 3DP photogrammetry system, it is easy to measure the fuselage (eg gas turbine, engine room, engine compartment and cockpit) and analyze the data to lay a solid foundation for innovative design. Simulation, ergonomics analysis and avionics retrofit can learn from the required technology, and can also test the modified parts to ensure the tightness of the assembly and the quality requirements of the model test, etc. Modifications are made directly to improve the success rate of production. It also creates a permanent electronic history of the scanned data so that it can be viewed at any time in the future.
3. Repair and maintenance
By using the data scanned by the aircraft, the damaged fuselage can be compared, and the damaged part can be seen more intuitively, which is convenient for directly giving the most reasonable repair plan to the damaged part of the aircraft, improving the safety of the aircraft, and also being able to The repaired part is evaluated for quality and gives an accurate judgment as to whether it can take off again. In the maintenance of the aircraft, after comparison, it is more intuitive to see the deformation or displacement parts, and these parts that were previously indistinguishable to the naked eye are easily scanned for repair, so that the whole detection process is more complete. Data can also be stored in permanent documents, providing a more solid theoretical basis for future repeated repairs.
4. Reverse imitation
For foreign imported precision parts of aircraft, the size of the parts cannot be accurately measured by manual means. The error caused by the parts cannot meet the requirements. The use of reverse technology is expected to master a number of key technologies and use them in the aerospace industry. The 3D scanner is used to scan the workpiece, process the data, obtain the necessary information, and carry out innovative design to develop more advanced equipment. In the military, the military strength of the country can also be enhanced by studying the core technology of the other side and studying its corresponding counter-measures.