3D scanners are not only widely used in the 3D industry, but have also penetrated into our lives. Decorations and handicrafts are almost everyone's daily necessities. The processing cost of decorations and handicrafts is a major problem for businesses. , Manual engraving is slow, expensive, and low in output, but machine processing can solve the cost problem well. Machine processing needs 3D data support. Using a camera scanner can first scan the existing crafts or use sludge The produced samples are then combined with 3D drawing design software to modify or program the data, and then import them into the engraving machine for processing and production, which can reduce costs and can also be mass-produced.
Below we use the 3D reverse design method to give a case of 3D surface data that can be input to the engraving machine. First of all, the 3D scanner (as shown in the figure below) is used to scan the core engraving, and then import the engraving software to generate the engraving machine knife. Road, input the engraving machine to engrave and process.
Customer demand:
1. Able to get the surface shape data of nuclear carving to assist rapid design
2. Able to accurately obtain 3D data of complex curved surfaces, and be able to enter the engraving machine software to finally engrave it
3. Improve design time and reduce labor
Current difficulties that customers need to solve:
The engraving cycle is long and the cost is high: The entire nuclear carving from the core to the product is traditionally carved by hand with a single knife. The efficiency is very slow, the cycle is very long, and the labor cost is also high.
Difficulty in mass production: It is difficult to provide a certain quantity of quality products in a short time for the same hot-selling products.
Nuclear carving 3D scanning reverse solution (precision 3D scanner)
1. The nuclear sculpture performs 3D scanning. Our technical engineers use a precision 3D scanner (PTS-SO) to scan to quickly obtain nuclear sculpture 3D data. The precision 3D scanner scans nuclear sculptures and displays them as follows
Highlights of the PTS camera-type 3D scanner used in the 3D scanning reverse solution of nuclear carving
1. Using non-contact scanning, will not cause any damage to the surface of the object
2. Multi-angle scanning and automatic splicing can avoid dead ends as much as possible
3. Scanning with 80×60 specifications, the dot pitch can be 0.03mm, which is better to get the details of the object
4. Scanning is simple, a nuclear carving scan, about 5-6 directions, about 5 minutes
5. The scanned data is packaged by geomagic and converted into STL, which can be imported into Jingdiao software
6. Retouching in Jingdiao software (1. Smoothness of the surface shape 2. Standing angle 3. Deepening the texture)
7. The engraved nuclear carving parts can achieve the lifelike effect required by customers only after simple polishing
Summary of 3D scanning reverse solutions for nuclear carving parts:
Generally, nuclear carving customers require exactly the same effect as the sample pattern. To achieve this exact same effect, it is difficult to achieve the same effect with general drawing modeling. Therefore, the use of a 3D scanner can ensure that the scanned data is the same as the sample, and at the same time clarity It is better. It can save the time from drawing to processing, reduce costs for customers, and reduce labor. It originally took 1 to 2 days to draw and modify the shape. Scanning the pattern with a 3D scanner can be shortened to Half a day or 3 to 4 hours, you can also scan out the materials and patterns and align them with software to increase the utilization of materials.