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A Handheld Adaptive Laser Cleaning Device with Dual-Wavelength Composite Beam Shaping

A laser cleaning and beam shaping technology, applied in the field of laser cleaning, can solve the problems of limited cleaning depth, low cleaning efficiency, and inability to meet the needs of ultra-fine cleaning of complex pollutants

Active Publication Date: 2019-12-24
INST OF LASER & OPTOELECTRONICS INTELLIGENT MFG WENZHOU UNIV
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

Studies have shown that dry ice cleaning is most effective when it is applied to remove non-metallic dirt from metal substances. Therefore, it is widely used to clean organic residues or pollutants in precision parts and molds. The disadvantage is that it is difficult to clean stubborn metal oxides. thorough
Gas blast cleaning has good performance on stubborn stains such as various inks, paints and coatings. Famous aviation manufacturing companies such as Boeing and Airbus as well as the U.S. Air Force are using gas blast cleaning technology to remove paint from aircraft, but its shortcomings The reason is that the cost of consumables is high, the cleaning depth is limited, and there are problems such as microscopic residues and mechanical stress deformation.
The disadvantage of ultrasonic cleaning technology is that it is limited by the size of the cleaning pool equipment. It is generally only suitable for cleaning small parts in the workshop. It is difficult to clean large parts online, and it will also produce a lot of pollution and toxic waste water.
[0010] 1) Most of the laser cleaning machines are handheld devices, and the control method completely depends on the operator holding the cleaning processing head, and relying on the human eye (or using a distance sensor) to maintain a reasonable focus range of the laser beam on the surface of the workpiece, resulting in poor precision and physical exertion Large, cleaning efficiency is not high
[0011] 2) Generally, single-wavelength pulsed lasers are used for cleaning and processing, which completely relies on the overlapping scanning of Gaussian laser beams to ablate and remove pollutants on the surface of the material, which is limited by the absorption rate of different materials for single-wavelength laser energy and the interaction between laser and matter. The mechanism of action is different, and it is difficult to completely remove complex pollutants with multiple components (metal rust, organic polymer attachments, inorganic oxides, etc.), the cleaning quality is not high, and it cannot meet the ultra-fine cleaning requirements of complex pollutants

Method used

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  • A Handheld Adaptive Laser Cleaning Device with Dual-Wavelength Composite Beam Shaping
  • A Handheld Adaptive Laser Cleaning Device with Dual-Wavelength Composite Beam Shaping
  • A Handheld Adaptive Laser Cleaning Device with Dual-Wavelength Composite Beam Shaping

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Embodiment Construction

[0045] The present invention will be described in further detail below in conjunction with the accompanying drawings and specific embodiments.

[0046] Such as Figure 1-10 As shown, the present invention provides a hand-held adaptive laser cleaning device with dual-wavelength composite beam shaping, including a laser, a transmission fiber, a lifting focus assembly 1, a laser ranging sensor 3, a vibrating mirror scanning system 4, a lifting guide electric drive Component 8 and dual-wavelength composite shaping system.

[0047] The galvanometer scanning system 4 is used to realize that the incident laser beam is reflected by the deflection scanning lens driven by the motor and transmitted through the fixed focal length objective lens, and then emitted, focused on the surface of the workpiece, and the laser beam is scanned on the surface of the workpiece according to the set trajectory Movement: a lifting focus assembly 1 is arranged below the laser beam exit end of the galvano...

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Abstract

The invention provides a double-wavelength composite beam shaping handheld type self-adaptive laser cleaning device comprising a laser device, a transmission optical fiber, a lifting focusing assembly, a laser distance measuring sensor, a galvanometer scanning system, a lifting guide electric drive assembly and a double-wavelength composite shaping system. The galvanometer scanning system is used for focusing an incident laser beam to the surface of a workpiece and enables the laser beam to conduct scanning motion on the surface of the workpiece along a set path. The lifting focusing assembly is arranged on the lower side of a laser beam emergence end of the galvanometer scanning system. The laser distance measuring sensor is fixedly installed on the side face of the galvanometer scanning system. The input end of the double-wavelength composite shaping system and the laser device are connected through the transmission optical fiber. The double-wavelength composite shaping system outputs a double-wavelength composite shaping beam after internal optical transformation. The output end of the double-wavelength composite shaping system is fixedly connected with the laser beam incident end of the galvanometer scanning system. The double-wavelength composite beam shaping handheld type self-adaptive laser cleaning device can greatly improve the uniformity and fineness degree of cleaning and greatly improve the cleaning quality.

Description

technical field [0001] The invention belongs to the field of laser cleaning, and in particular relates to a hand-held self-adaptive laser cleaning device for dual-wavelength composite beam shaping. Background technique [0002] Cleaning is aimed at the dirt, rust or coating on the surface of the material, using chemical or physical principles to make it evaporate or peel off instantly, that is, to remove the surface attachment or surface coating of the object and obtain a clean material surface. [0003] At present, there are two types of surface cleaning technologies at home and abroad: chemical cleaning and physical cleaning. Chemical cleaning mainly uses chemical reactions to remove the main chemical components in the dirt. Due to incomplete cleaning and the discharge of a large amount of acid and salt during cleaning, it pollutes the environment and corrodes equipment, so the scope of application is relatively small. In contrast, the physical cleaning method is to apply...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B08B7/00B08B13/00G02B27/09
CPCB08B7/0042B08B13/00G02B27/0927G02B27/0955
Inventor 曹宇孙轲于艳玲魏鑫磊周宏明
Owner INST OF LASER & OPTOELECTRONICS INTELLIGENT MFG WENZHOU UNIV
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