Raymond laser cleaning machine is new generation of high-tech products, base not injured parts, consumable materials, energy conservation, environmental protection,efficient cleanup on the surface of resin, oil, dirt and stains, dirt, rust, coating, coating, paint,meet the industrial processing complicated shape, fine positioning cleaning requirements, achieve cleanliness higher cleaning effect, the comprehensive cost lower production efficiency.
Mainly used in automobile manufacturing, mechanical processing, electronic processing, cultural relic repair, mold industry, shipping, food processing, petrochemical industry and other industries.
100 w and 200 w laser pulse laser cleaning, using optical fiber output, fully enclosed stable light path, the service life of more than 100000 consecutive hours, 2 years warranty, forced air cooling, the machine integrated power 480 w, environmental protection and energy saving, small and portable
Feature of laser cleaning equipment 1.High beam quality and stable performance 2.Hand-held laser cleaning, easy to handle, easy to use for long work 3.With integrated design, the structure is compact and easy to install. 4.Extensive material applicability, flexible and efficient application in various industrial processing scenes 5.Low requirement for working environment, stable system maintenance, long service life. 6.Non-contact processing, no consumables, no damage, no pollution.
Traditional industrial cleaning In petroleum, chemical, steel, electricity, etc, as a result of the new plant equipment and piping in the manufacturing, transportation, storage, installation, production process, will inevitably produce oil, welding slag, and various kinds of oxides, the running equipment also can produce polymer, scale, sediments, rust corrosion, etc. In order to prevent leakage and explosion and other major safety accident, adopt industrial cleaning is a necessary means of contrast is as follows: Mechanical friction cleaning method: high cleanliness, but easy to damage base material. Chemical corrosion cleaning method belongs to the non-stress cleaning, but the pollution is heavier. Liquid solid injection cleaning method is more flexible, but the cost is higher, the waste liquid treatment is more complicated.
Laser cleaning technology as a green, environmental cleaning method, compared with traditional industrial cleaning, has the following advantages:
1. No consumables, no chemical pollution, no noise, energy saving power 2. No contact, no friction, no stress, minimal damage to the matrix 3. It can clear the pollution particles below the nanometer level and have high cleanliness 4. Fiber optic transmission, can move operation, can clean the area which is not easy to reach 5. Synchronous cleaning and synchronous treatment to realize zero discharge of cleaning process 6. Rapid cleaning of heavy pollutants and high speed cleaning of light pollutants can be achieved.
The traditional cleaning industry has a variety of cleaning methods, mostly using chemical and mechanical methods for cleaning. Laser cleaning has the characteristics of no grinding, non-contact, no heat effect and cleaning of objects suitable for various materials, and is considered to be the most reliable and effective solution. At the same time, laser cleaning can solve problems that cannot be solved by traditional cleaning methods. For example, when subsurface-sized particles are adhered to the surface of the workpiece, the particles tend to stick very tightly. Conventional cleaning methods cannot remove it, and it is very effective to irradiate the surface of the workpiece with a nano laser for cleaning. Also, since the laser is non-contact cleaning of the workpiece, it is safe to clean the precision workpiece or its fine parts, and the accuracy can be ensured. Therefore, laser cleaning has unique advantages in the cleaning industry
Why can the laser be used for cleaning? Why is there no damage to the object being cleaned? First understand the nature of the laser. Simply put, the laser is no different from the shadows (visible and invisible) that are around us, except that the laser uses the cavity to concentrate the light in the same direction, with simple wavelengths, coordination, etc. The performance is better, so theoretically all wavelengths of light can be used to form the laser, but in reality it is limited by the few media that can be excited, so the laser source that is stable and suitable for industrial production is quite limited. Probably used are Nd:YAG lasers, carbon dioxide lasers, and excimer lasers. Since Nd:YAG lasers can be more suitable for industrial applications through optical fiber transmission, they are also used in laser cleaning.