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Continuous double-serrated path filling method for deposition modeling

A filling method and deposition molding technology, applied in the field of 3D printing, can solve the problems of inapplicable algorithms and unrealized global continuous filling, and achieve the effects of avoiding internal defects, saving labor costs, and improving printing efficiency

Active Publication Date: 2021-05-28
HEBEI UNIV OF TECH
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  • Abstract
  • Description
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  • Application Information

AI Technical Summary

Problems solved by technology

However, the polygon decomposition algorithm can effectively decompose polygons, and the algorithm may not be suitable for complex graphics with smooth boundaries or continuous concave corners in a small area
Also, the algorithm's hole contours are not connected with internal paths, therefore, the algorithm does not achieve global continuous filling
And in the special case that a connected two-dimensional area may be divided into several sub-areas by the outer contour, the algorithm is not applicable

Method used

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  • Continuous double-serrated path filling method for deposition modeling
  • Continuous double-serrated path filling method for deposition modeling
  • Continuous double-serrated path filling method for deposition modeling

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Embodiment Construction

[0026] Specific examples of the present invention are given below. The specific embodiments are only used to further describe the present invention in detail, and do not limit the protection scope of the claims of the present application.

[0027] The present invention provides a continuous double zigzag path filling method (method for short) aimed at deposition molding, which comprises the following steps:

[0028] Step 1. Generate a non-continuous double zigzag filling path and a double-layer contour with a spacing of nozzle diameter d at a given angle in a two-dimensional connected area without islands, such as figure 2 shown;

[0029] (1-1) If figure 2 As shown in (a), in a region larger than the geometric boundary, according to a given angle α 0 Generate parallel scan lines, this example α 0 =-45°, the geometric boundary (here i represents the number of continuous boundaries, such as figure 2 As shown in (a) ) offset inwardly by 3.5d to obtain an offset profil...

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Abstract

The invention provides a continuous double-serrated path filling method for deposition modeling. The method comprises the following steps that under the condition of not conducting graphic decomposition, discontinuous single-serrated paths at the interval equal to the diameter d of a nozzle are generated in a slice according to a given angle, and internal and external bias is conducted to generate discontinuous double-serrated paths; the discontinuous double-serrated filling paths are connected into a local continuous double-serrated path according to the connectable relation between the discontinuous double-serrated filling paths; all paths are connected in sequence according to the connectable relation between a double-layer contour and the local continuous double-serrated path a global continuous path; and finally path optimization is conducted. For an arbitrary connected area without islands, one continuous double-serrated linear filling path can be generated according to the set angle under the condition of not conducting polygonal decomposition, opening, closing and jumping of the nozzle are avoided in the printing process, the printing time is shortened, and the printing directions of the paths on different layers can be adjusted as required to achieve the effect of interlayer enhancement.

Description

technical field [0001] The invention relates to the field of 3D printing, in particular to a continuous double zigzag path filling method for deposition modeling. Background technique [0002] As a technology of 3D printing, deposition modeling is widely used in medicine, architecture, model manufacturing and other fields. This technology extrudes the material in a fluid state through a nozzle and solidifies it on a flat plate, and accumulates layers into a three-dimensional model. The printing quality of a 3D model is affected by multiple parameters, such as material, printing temperature, layer thickness, printing speed, printing path, etc. [0003] The strength of the printed material largely determines the strength of the printed component. Researchers improve the strength of components by applying continuous fiber filaments, such as applying continuous carbon fibers in fused deposition modeling, applying continuous steel strands in 3D printed concrete, etc., but many ...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B29C64/386B29C64/118B33Y50/00
CPCB33Y50/00B29C64/118B29C64/386
Inventor 马国伟夏令伟林森
Owner HEBEI UNIV OF TECH
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