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Method for quickly optimizing geometric error compensation data of translational axis of five-axis numerical control machine tool

A geometric error, CNC machine tool technology, applied in the direction of program control, mechanical equipment, computer control, etc., can solve problems that affect the production task cycle and execution efficiency, high degree of manual participation, complexity, etc.

Active Publication Date: 2021-03-26
CHENGDU AIRCRAFT INDUSTRY GROUP
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Problems solved by technology

In terms of research on the geometric error of the translational axis, both patent 201610055356 and patent 201910193297 have completed the identification of the geometric error of the translational axis using laser interferometers, and directly compensated the geometric error of the translational axis on the basis of the identification of geometric errors, but the compensation The effect is often unsatisfactory. The main reason is that the machining process of the machine tool is affected by complex and multi-factor dynamics, and the identification process introduces a certain random error of the equipment, resulting in a large deviation between the identified error value and the actual required compensation value.
In practical engineering applications, people with rich technical experience are often required to repeatedly correct and experiment the compensation value by judging the curve of the compensation data. This process has a high degree of manual participation, resulting in a low degree of automation of the compensation technology, which affects the entire production task. Cycle time and execution efficiency

Method used

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  • Method for quickly optimizing geometric error compensation data of translational axis of five-axis numerical control machine tool
  • Method for quickly optimizing geometric error compensation data of translational axis of five-axis numerical control machine tool
  • Method for quickly optimizing geometric error compensation data of translational axis of five-axis numerical control machine tool

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Embodiment 1

[0123] The main process of this embodiment, such as figure 1 As shown, the specific steps are as follows:

[0124] Step 1. Based on the topology structure of the translation axis of the five-axis CNC machine tool and the multi-body system theory, the mathematical relationship between the geometric error term of the translation axis and the spatial positioning error is established. Taking a large-scale gantry five-axis CNC machine tool as an example:

[0125] Step 1.1. Since the spatial positioning error is affected by the geometric error of the translation axis, the figure 2 Describe the geometric error of the translational axis:

[0126] For the feed coordinate axis in the X direction of the machine tool (that is, the X axis), there are three displacement deviation errors: positioning error , straightness error , straightness error ; and 3 rotation angle errors: roll error , pitch error , yaw error .

[0127] In the same way, the 6 geometric errors of the Y ax...

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Abstract

The invention discloses a method for quickly optimizing geometric error compensation data of a translational axis of a five-axis numerical control machine tool. The method comprises the following steps: 1) establishing a spatial positioning error model; 2) establishing an error database; 3) constructing a space error compensation table; 4) establishing a compensation data optimization model, and forming an optimization model of three surface diagonals and one body diagonal in a translational axis linkage mode; 5) completing iterative optimization and selection of a correction coefficient; 6) completing the compensation of the geometric error of the five-axis numerical control machine tool by the step (5); and 7) iterating the error correction data to a geometric error database, setting linkage trajectory detection and a preset positioning error threshold, and circulating the steps 2 to 6 to realize a machine tool precision guarantee mode of periodic detection, optimization and compensation. According to the invention, the translation axis geometric error detection frequency based on the laser interferometer can be reduced by more than half, the operability is better, the optimization compensation can be completed by depending on the existing compensation value, and the compensation quality is high.

Description

technical field [0001] The invention relates to the field of error optimization of a five-axis numerical control machine tool, in particular to a rapid optimization method for geometric error compensation data of a translational axis of a five-axis numerical control machine tool. Background technique [0002] Five-axis CNC machine tools are widely used in aerospace, automobile ships, medical equipment and other fields, which has greatly improved the strength of my country's basic manufacturing equipment. The machining accuracy of five-axis CNC machine tools is the key to ensuring the quality of the processed parts. Among the many error sources that affect the machining accuracy, the geometric error of the machine tool accounts for more than 50%, which has become an important part that restricts the improvement of machining accuracy. [0003] At present, the research on the geometric error of five-axis CNC machine tools is mainly divided into two aspects: the identification a...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): G05B19/404
CPCG05B19/404G05B2219/33133Y02T10/40G05B19/408G05B2219/31337
Inventor 蒋云峰李杰陶文坚胡金龙牟文平宋智勇李颖李连玉楚王伟
Owner CHENGDU AIRCRAFT INDUSTRY GROUP
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