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Layering Method of Isometric Surface Based on Additive Remanufacturing Point Cloud Model

A point cloud model and remanufacturing technology, applied in image enhancement, 3D modeling, instruments, etc., can solve the problems of inability to completely eliminate the step effect, complicated operation process, obvious step effect, etc., to eliminate the step effect and reduce errors. source, the effect of improving the forming accuracy

Active Publication Date: 2021-08-03
ARMOR ACADEMY OF CHINESE PEOPLES LIBERATION ARMY
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  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

The equal layer thickness layering algorithm is simple to implement and fast in program execution, but the step effect is obvious; the adaptive layering algorithm adopts the method of adaptively changing the layer thickness for layering, which effectively reduces the step effect, but cannot completely eliminate the step effect effect; the use of advanced layering algorithms such as hypotenuse layering or surface layering can completely eliminate the step effect, but it is difficult to implement in the system
At the same time, because the above-mentioned layered algorithms are all developed based on the STL model, they must go through the most complex and time-consuming surface reconstruction process in data processing, which leads to the complexity of the calculation process

Method used

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  • Layering Method of Isometric Surface Based on Additive Remanufacturing Point Cloud Model
  • Layering Method of Isometric Surface Based on Additive Remanufacturing Point Cloud Model
  • Layering Method of Isometric Surface Based on Additive Remanufacturing Point Cloud Model

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Embodiment 1)

[0031] The traditional layering method adopts plane layering, while curved surface layering can develop the layering method from traditional two-dimensional plane layering to spatial curved surface layering, and the forming method is closer to the intelligent manufacturing mode. Due to the inevitable layered steps in the plane layering, changing the plane layering layer to the surface generated in response to the model will make the forming surface of the part smooth because there are no steps, and improve the forming accuracy.

[0032] The isometric surface layering method based on the additive remanufacturing point cloud model of this embodiment is used for the layering of the additive remanufacturing model of shaft parts. The specific steps are as follows:

[0033] ① Fitting cylindrical surface: Select the point cloud of the undamaged area of ​​the shaft part to fit the cylindrical surface. The standard model is the standard cylindrical surface. A point on the axis can be o...

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Abstract

The present invention relates to an equidistant curved surface layering method based on the point cloud model of additive remanufacturing, which includes the following steps: ① Fitting the cylindrical surface: selecting the point cloud of the undamaged area of ​​the shaft part to fit the cylindrical surface, as a standard The model is the standard cylindrical surface; ② Extract the point cloud model of additive remanufacturing: select the point cloud of the defective part, calculate the distance from each point to the standard cylindrical surface as the defect amount e of each point, and follow the principle to extract the data points with serious defects Cloud and its e, as the point cloud model of additive remanufacturing; solve the distance from any point P(x,y,z) of the defective point cloud to the standard cylindrical surface, that is, the defect amount e, and convert it into the point P to the axis L. The difference between the distance and the radius of the cylinder; ③Establish the equidistant surface family of the standard cylindrical surface; ④Construct the contour data P'(x',y',z'), traverse all the points in the additive remanufacturing point cloud, and find out The corresponding contour data is layered, and the equidistant surface layered model diagram of the shaft parts is obtained.

Description

technical field [0001] The invention relates to the technical field of additive remanufacturing engineering, in particular to a layering method based on additive remanufacturing point cloud models. Background technique [0002] At present, additive remanufacturing technology is a general term for a series of advanced technologies used to restore the defect size and service performance of damaged zero (component) parts. The process of restoring the size of damaged zero (component) parts and improving their performance is driven by digital models. A discrete-stacking process characterized by Among them, the discrete process is a slicing and layering process whose object is the 3D model of the defective part. Whether the part model is generated in modeling software or constructed by reverse engineering, it must be layered before it can be input into the additive remanufacturing equipment, so the layering method is a key link in the additive remanufacturing process. The layeri...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): G06T17/20G06T17/30G06T5/00
CPCG06T5/00G06T17/20G06T17/30
Inventor 朱胜沈灿铎王晓明韩国峰陈永星任智强赵阳周超极邱六
Owner ARMOR ACADEMY OF CHINESE PEOPLES LIBERATION ARMY
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