Shenzhen handicraft production company found that we need to use a precision three-dimensional scanner to obtain the three-dimensional data of the wax model sample. The sample can be modified and reprinted or engraved, which can effectively improve the production efficiency of handicrafts.
Customer demand:
Obtain 3d digital data of high precision wax pattern
Current problems
1, wax like product size is relatively small and very fine, the shape is also different, wax like product is basically hand-carved out only one is difficult to do two modifications.
2. In order to quickly obtain 3D digital data through 3D technology, traditional measurement methods are difficult to realize and will consume a lot of manpower and material resources, which will seriously affect production efficiency.
1. Choose a suitable precision 3D scanner according to the characteristics of the wax model sample
2. Preparation of wax model samples and sticking points, equipment calibration, etc.
3 Use a precision three-dimensional scanner to scan the wax model samples
4. Export the 3D digital data of the wax model sample
summary
The sample size of the wax model for handicraft ornaments is relatively small and very fine, and the shape is also different. It is necessary to quickly obtain the 3D data of the wax model. The 3D data of the wax model can be used for archiving and secondary modification of the design. It can also be used for 3D printing or 3D engraving, after 3D printing, it can be directly used for laminating for mass production. The customer is very satisfied with the results scanned by the precision 3D scanner, which improves the production efficiency for the customer.
Application development of handicraft industry
1. Three-dimensional digital data of wax model samples can be used for archiving
2. The three-dimensional digital data of wax model samples can be used for secondary modification
3. The 3D digital data of the mold sample can be used for 3D printing and digital engraving