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Laser cleaning system based on robot control and cleaning method thereof

A control system and laser cleaning technology, applied in the field of laser cleaning, can solve the problems of difficult operation, limited scanning angle of galvanometer, poor adaptability, etc., and achieve the effect of wide application range, strong adaptability and strong automation

Active Publication Date: 2015-12-09
SICHUAN UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, the scanning angle of the galvanometer still has certain limitations, and it is difficult to clean any position in three-dimensional space, and it is difficult to apply it in practical situations, and it is even more difficult to apply it to huge workpieces to be cleaned, such as aircraft cleaning; other Difficult to operate and poor adaptability

Method used

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  • Laser cleaning system based on robot control and cleaning method thereof
  • Laser cleaning system based on robot control and cleaning method thereof
  • Laser cleaning system based on robot control and cleaning method thereof

Examples

Experimental program
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Effect test

Embodiment 1

[0032] The method for performing laser cleaning using the above-mentioned laser cleaning system based on robot control comprises the following steps:

[0033] (1) According to figure 1 The structural block diagram of the laser cleaning system based on robot control Connect all components and instruments, turn on the power of the laser to preheat the laser, and then turn on the power of the robot, sensor system, spectrum analyzer and waste processor, so that they are all in the standby state , set the working parameters of the laser: its wavelength is 1064nm, the pulse repetition rate is 30kHz, and the output power is 10W; set the working parameters of the robot so that the distance between the laser exit port in the protective cover and the cleaning surface of the workpiece to be cleaned is 10cm, Set the scanning speed to 5mm / s, and the swing range to 0.5m;

[0034] (2) Adjust the robot arm to the position where the workpiece to be cleaned needs to be cleaned, and adjust the ...

Embodiment 2

[0042] According to the cleaning method and operation process of embodiment 1, to Figure 6 (a) The paint layer on the irregular workpiece shown in (a) is cleaned. The effect after cleaning is as follows Figure 6 (b) shown.

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Abstract

The invention discloses a laser cleaning system based on robot control and a cleaning method thereof. The laser cleaning system comprises a computer system, a laser, a protective cover, a sensing system, a light beam shaping system, a waste processor, an optical spectrum analyzer and a workpiece to be cleaned, and further comprises a robot, wherein the laser and the robot are both connected with the computer system; the light beam shaping system is connected with the laser through an optical fiber; the sensing system and the light beam shaping system are both fixed in the protective cover; the sensing system is connected with the computer system; the protective cover is fixed on a robot arm; and the optical spectrum analyzer is connected with the computer system. The laser cleaning system and cleaning method can clean workpieces to be cleaned with any size and random shapes, can analyze cleaning results in real time to realize closed-loop control, judge the cleaning effect through image processing and optical spectrum analysis, and are accurate in judgment and excellent in cleaning effect; and the robot automated control improves the system adaptability and stability.

Description

technical field [0001] The invention belongs to the technical field of laser cleaning, and in particular relates to a laser cleaning system based on robot control and a cleaning method thereof. Background technique [0002] There are many kinds of traditional methods of cleaning workpieces, including ultrasonic cleaning, mechanical cleaning and wet chemical cleaning, but they all have limitations. The ultrasonic cleaning method uses ultrasonic waves to generate vibrations to remove residues on the surface of the workpiece. The workpiece needs to be placed in the cleaning solution, which is difficult to dry after cleaning, and the removal effect on nano-scale residues is poor; the mechanical cleaning method uses mechanical means to remove Residues on the surface of the workpiece, such as sandblasting, brushing and scraping, etc., this method is easy to damage the workpiece, and cannot meet the required cleanliness; wet chemical cleaning method is to remove by soaking, sprayin...

Claims

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Application Information

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IPC IPC(8): B08B7/00B08B13/00
CPCB08B7/0042B08B13/00
Inventor 冯国英王德良邓国亮陈康喜
Owner SICHUAN UNIV
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