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3D printing pretreatment hierarchical algorithm based on intensive feature

A 3D printing, layered algorithm technology, applied in 3D modeling, image data processing, processing data acquisition/processing, etc., can solve the problems of low algorithm efficiency, 3D model distortion, easy loss of triangular facets, etc., to improve the printing efficiency. Efficiency and the effect of ensuring layering accuracy

Active Publication Date: 2018-11-02
XIAN UNIV OF TECH
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Problems solved by technology

At present, most of the pre-processing software used in China comes from foreign open source software or simple Sinicization. Although these software can complete the pre-processing work of most models, the algorithm efficiency is low and the stability is poor, especially for the pre-processing of more complex models. , the understanding of the core algorithm is not deep
The layering algorithm of open source software generally uses the lowest layer as the base layer to layer up layers of equal thickness. The result of layering processing is likely to cause the loss of features in dense areas.
Because the 3D model is generally treated with STL files, the surface is all triangular patches, and the triangular patches of dense features (where the 3D features are delicate) are generally small and dense. It is easy to lose these triangular faces, resulting in the loss of features, making the printed 3D model partially distorted

Method used

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  • 3D printing pretreatment hierarchical algorithm based on intensive feature
  • 3D printing pretreatment hierarchical algorithm based on intensive feature
  • 3D printing pretreatment hierarchical algorithm based on intensive feature

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Embodiment

[0040] The mouth of the face model is densely characterized, and its triangular faces are small and the features are very obvious. If the same layer thickness layering algorithm of open source software is used, such as figure 1 As shown in, it is possible to distort the mouth features of the printed 3D model. While using figure 2 The method of the present invention shown is based on the triangular facet with the smallest height as the layering reference, so as to perform adaptive layering. The layer height is determined according to the height of the triangular patch to be layered so as to ensure the high-precision reproduction of dense features.

[0041] See the specific implementation of the method of the present invention image 3 ,

[0042] Step 1. Determine the position of the smallest triangle face in the triangle face list of the 3D model;

[0043] In the STL file, the triangular faces where the surface features of the 3D model are dense are dense and small. To ensure that...

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Abstract

The invention discloses a 3D printing pretreatment hierarchical algorithm based on the intensive feature. The method is implemented according to the following steps that firstly, a datum tangent planeis determined through minimum height triangular patch traverse searching and determining on a 3D model in the STL file format; secondly, upward and downward layering is conducted with the datum tangent plane as the datum, a minimum height triangular patch in an intersection triangular patch set is determined, the height of the triangular patch serves as the reference to determine the layer heightof the layer, self-adaption layering is conducted, and the appearance precision of the 3D printing model is guaranteed; and thirdly, by parity of reasoning, all layering work of the 3D model is finished. According to the algorithm, the position where the minimum height triangular patch of the 3D model is located serves as the layering datum, downward and upward layering treatment is conducted, layering is conducted according to the self-adaptation layering rule, the layering height is automatically set according to the patch height and size, the printing efficiency is improved, and the precision of the printed 3D model can be guaranteed as well.

Description

Technical field [0001] The invention belongs to the technical field of 3D printing pre-processing, and specifically relates to a 3D printing pre-processing layering algorithm based on dense features. Background technique [0002] 3D printing technology is a new manufacturing method that stacks molten materials layer by layer from the bottom up. After more than 30 years of development, it has been widely used in medical, aerospace, industry, education, personality products and other fields. To reach the limit of manufacturing precision and manufacturing efficiency is still the development trend of my country's current 3D printing technology. At present, most of the pre-processing software used in China comes from foreign open source software or simple Chinese. Although these software can complete the pre-processing of most models, the algorithm efficiency is low and the stability is poor, especially for the pre-processing of more complex models. , The understanding of the core alg...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C64/386G06T17/00B33Y50/00
CPCB29C64/386B33Y50/00G06T17/00
Inventor 徐宏伟井伟华李佳
Owner XIAN UNIV OF TECH
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