Machine de nettoyage laser
tels que les revêtements, les oxydes, les huiles, etc.
Industries : Nettoyage de vieilles peintures d'avions ; Nettoyage des murs du bâtiment ; Nettoyage des plaquettes de semi-conducteurs ; Nettoyage des saletés de moisissures, des huiles et des oxydes ; Nettoyage à l'oxyde (industrie électronique) ; rugosité des surfaces métalliques ; Nettoyage de pièces automobiles (élimination d'huile, de rouille, de revêtement);Nettoyage de navires;Élimination d'esters et d'huiles minérales (instruments de précision);Restauration de reliques culturelles; Restauration d'œuvres d'art
Puissance en option : laser à impulsion 100 W/200 W/300 W/500 W ; laser continu 1000 W/1500 W/2000 W/3000 W.
Style laser à fibre en option : style sac à dos ; Style chariot ; Type d'armoire
Laser Cleaning Machine Applications
Oil On Metal
Paint On Car
Paint On Oil Drums
Paint On Metal Cans
Paint On Wooden Boards
Paint On Wooden Furniture
Paint On Marble
Paint On Walls
Oxides On Metal
Rust On Metal Round Tube
Rust On Metal Parts
Rust On Metal Wheels
Weld Seam
Engines
Rust On Screws
Laser Cleaning Machine FAQs
What materials can the laser cleaning machine clean and its applications?
Laser cleaning can not only be used to clean organic pollutants, but also can be used to clean inorganic substances, including metal rust, metal particles, dust, etc. There are many materials that can be cleaned, and the application fields are also very wide. It can be used for metal Or remove the coating layer on the glass surface. Quick paint removal can not only remove all the paint, but also clean the surface paint layer by layer.
1) Surface cleaning: Quickly remove rust, various oxides, grease, resin, glue, dust, stains, production residues, etc. from metal surfaces
2) Cleaning before and after welding: rust and oil removal of automobile parts before welding, and cleaning of oxides and stains after welding
3) Mold cleaning: such as tire molds, electronic molds, food molds
4) Removal of oil stains after production and processing of precision parts
5) Rapid cleaning of nuclear power component repairs
6) Oxide treatment, paint removal, and rust removal during the production or maintenance of aerospace weapons and ships
7) Cleaning metal surfaces in small spaces;
8) Cultural relic cleaning, rock cleaning, and building exterior surface cleaning
9) Metal surface roughening
What are the advantages of using fiber laser cleaning machines?
Environmentally friendly: No chemicals are used, and there is no cleaning agent residue, which can eliminate environmental pollution problems caused by chemical cleaning and achieve industrial-level zero pollution.
No damage: The laser pulse acts on the surface of the workpiece that needs to be cleaned. The focused laser beam can accurately evaporate surface objects or dust without causing damage to the surface of the object or causing secondary pollution.
Low cost: one-time investment, long-term stable use, low operating cost, fast speed, high efficiency, time saving (with correct use and maintenance, its service life can be as long as 10 years or longer), and the long-term cost is lower than traditional cleaning methods.
Efficient and safe: Laser cleaning can remove various contaminants on the surface of various materials, such as precision parts, small space metal cleaning, and complex structural parts that are difficult to reach with traditional methods. It can also be transmitted through laser fibers and used in conjunction with robots to achieve long-distance operate. Not only is cleaning convenient and efficient, but it also ensures the safety of operators in certain dangerous places.
What is the difference between continuous laser cleaning machine and pulse laser cleaning machine?
1. Cleaning principle:
Continuous laser cleaning machine: Continuous laser cleaning machine cleans by continuously outputting a laser beam. The laser beam continuously irradiates the target surface and evaporates or ablates dirt through thermal effects.
Pulse laser cleaning machine: Pulse laser cleaning machine outputs a laser beam in the form of pulses. Each pulse has high energy and high instantaneous power. Pulse laser cleaning uses high-energy laser pulses to instantaneously irradiate, producing a laser striking effect that peels off or breaks dirt.
2. Application scenarios:
Continuous laser cleaning machine: suitable for cleaning light dirt attached to the surface, such as paint, grease, dust, etc., and suitable for cleaning large areas of flat surfaces.
Pulse laser cleaning machine: It is suitable for treating dirt that is difficult to clean, such as oxide layers, coatings, welding slag, etc. It is more suitable for cleaning tasks with fine parts or high surface quality requirements.
Generally speaking, continuous laser cleaning machines are suitable for cleaning large areas, while pulse laser cleaning machines are suitable for cleaning difficult-to-clean dirt and fine parts. The specific type of laser cleaning machine to choose needs to be comprehensively considered based on factors such as cleaning objects, cleaning requirements and budget. If you are not sure, please contact our engineers for consultation info@mcwlaser.com
Can fiber laser cleaning machines be used on sensitive surfaces?
Yes, portable fiber laser cleaning machines do work on sensitive surfaces. It can adjust power and frequency to suit different surfaces and materials.
How long does it take for a laser cleaning machine to clean a surface?
The time it takes for a portable fiber laser cleaning machine to clean a surface depends on the size of the area being cleaned, the degree of contamination and the power of the laser cleaning machine.
The service life of a laser cleaning machine is affected by many factors, mainly the following factors:
1. Laser quality: The core of a laser cleaning machine is the laser. The quality of the laser directly determines the service life of the cleaning machine (usually 100,000 hours). High-quality lasers generally have longer life, more stable performance, and require less maintenance.
2. Working environment: The working environment also has a great impact on the life of the laser cleaning machine. If there is a large amount of dust, particles or chemicals in the work environment, these substances may get inside the cleaning machine and cause damage to components. Therefore, it is very important to keep the working environment clean and dry.
3. Frequency and time of use: The frequency and time of use of the cleaning machine are also key factors that determine its lifespan. Long periods of continuous use can cause the laser and other components to overheat, shortening their lifespan. Therefore, when using a laser cleaning machine, it is recommended to operate according to the recommended usage times and intervals in its specifications and manufacturer's instructions.
4. Maintenance and maintenance: Regular maintenance and upkeep are also important factors in extending the life of the laser cleaning machine. For example, regularly clean optical components, replace damaged parts, and maintain the normal working condition of the equipment. At the same time, before maintenance, the equipment should be turned off and disconnected from the power supply to ensure safety.
Can fiber laser cleaning machines be used in outdoor environments?
Yes, portable fiber laser cleaning machines can indeed be used in outdoor environments. But it is important to consider factors such as weather conditions, safety issues and power supply.
What are the power requirements for fiber laser cleaning machines?
The power requirements of portable fiber laser cleaning machines depend on the model and power output. Usually AC220V+±10% or 380V±10%.
Is training required to use a fiber laser cleaning machine?
Yes, training is recommended before using a portable fiber laser cleaning machine. Users should be familiar with the machine's safety features, proper operation and maintenance procedures.
What safety measures should be taken when using a laser cleaning machine?
Operators should wear appropriate protective equipment, such as safety glasses and gloves, and ensure that the laser beam is not directed at any living organism. Additionally, the machine should be used in a well-ventilated area and the operator should receive appropriate training on how to operate the machine safely.