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Printing path planning method and system and 3D printer

A technology of printing path and planning system, applied in the field of 3D printing, can solve the problems of one-by-one analysis, accumulation of wasted time, increase of printing time of parts, etc., to achieve the effect of ensuring printing accuracy, reducing idle length, and improving printing efficiency

Active Publication Date: 2021-04-20
TECH & ENG CENT FOR SPACE UTILIZATION CHINESE ACAD OF SCI
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Problems solved by technology

[0012] Although the SPSL method traversal can completely splice the entire image, that is, the two-dimensional layered slice image, but because it does not analyze each image, that is, the two-dimensional layered slice image one by one, it is very likely to waste time, that is, the two-dimensional layered slice image The layer slice image is very small, but it still needs to traverse the entire working area, and there is also the problem of empty travel similar to FDM technology
The accumulation of time wasted in the empty travel of each two-dimensional layered slice image will greatly increase the printing time of the entire part, and the printing efficiency is low

Method used

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  • Printing path planning method and system and 3D printer
  • Printing path planning method and system and 3D printer
  • Printing path planning method and system and 3D printer

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Embodiment Construction

[0048] Such as figure 1 As shown, a printing path planning method according to an embodiment of the present invention includes the following steps:

[0049] S1. Obtain the shape to be printed according to any two-dimensional layered slice image of the model to be printed;

[0050] S2. Using the optimized improved x-scanning method, and striping the shape to be printed according to preset angle increments, to obtain a plurality of striped rectangles corresponding to each angle;

[0051] S3. Perform partition processing on a plurality of striped rectangles respectively corresponding to each angle by means of z-scanning and based on the optimal distance principle, to obtain the striped rectangles of each partition of each sub-domain corresponding to each angle;

[0052] S4. Obtain the printing path corresponding to the minimum printing time according to the preset algorithm and the striped rectangle of each sub-region corresponding to each angle, and determine the printing path ...

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Abstract

The invention relates to a printing path planning method and system and a 3D printer. Firstly, a to-be-printed shape is divided into stripes through an optimized improved x scanning method, a plurality of stripe-divided rectangles corresponding to each angle are obtained, the stripe-divided rectangles respectively corresponding to each angle are subjected to partition processing by adopting a z-shaped scanning mode based on an optimal distance principle, and finally a path of the stripe-divided rectangle of each partition of each sub-domain corresponding to each angle are optimized and traversed according to a preset algorithm. The printing precision can be ensured, the idle stroke length of the to-be-printed shape in a two-dimensional layered slice image can be greatly reduced, a printing path corresponding to the lowest printing time consumption is selected as the optimal printing path, the printing time is further shortened, and the printing efficiency is improved.

Description

technical field [0001] The invention relates to the technical field of 3D printing, in particular to a printing path planning method, system and 3D printer. Background technique [0002] In recent years, rapid prototyping (RP), that is, 3D printing technology, as an additive manufacturing technology, has been widely used in various model production and product testing. Multiple two-dimensional layered slice images are then accumulated and printed layer by layer based on multiple two-dimensional layered slice images to form a solid model. Compared with subtractive manufacturing, it can process products with more complex structures. 3D printing technology has been differentiated after years of development. Many different manufacturing technologies have been developed. Among them, Stereolithography Apparatus (SLA), which uses the principle of photopolymerization of photosensitive resins, was the first to be researched and developed, and has become a relatively mature and widely...

Claims

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Application Information

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IPC IPC(8): B29C64/393B33Y50/02
Inventor 杨依哲刘兵山李鑫刘晓冬王功
Owner TECH & ENG CENT FOR SPACE UTILIZATION CHINESE ACAD OF SCI
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