Working principle of pulse laser cleaning machine for tire molds
Pulse laser cleaning machine uses pulse laser. Under the action of the pulse, the laser beam can instantly penetrate stains or defects with high intensity energy, causing them to vaporize and explode instantly, thereby achieving the effect of cleaning. The generation of laser pulses is controlled by the Q-switch inside the laser. When the Q switch is turned off, the laser material in the upper level is stimulated by photons and quickly returns to the lower level, emitting a short pulse laser.
Characteristics of pulse laser cleaning machine for tire molds
1. Instant response: The laser pulse cleaning machine adopts laser technology, which can achieve almost instant response. The laser beam instantly acts on the surface of the stain, making the cleaning process faster without waiting for mechanical components to move or chemical reactions to occur.
2. Efficient energy transfer: The laser pulse cleaning machine utilizes the high concentration and directionality of laser energy to accurately transfer energy to the surface of stains. This makes the cleaning process faster and more efficient, without the need for long processing cycles.
3. Precision positioning acceleration: Laser technology has high precision and can accurately locate the areas that need to be cleaned. This means that the laser pulse cleaning machine can quickly focus the laser on stains, accelerate the cleaning process, and avoid handling the entire item.
4. No pre-treatment required: Traditional cleaning methods may require pre-treatment before cleaning, such as soaking or spraying cleaning agents. The laser pulse cleaning machine does not require these additional steps and can be cleaned directly with laser energy, omitting preprocessing time and improving cleaning speed.
Applicable scope of pulse laser cleaning machine
Metal materials: including steel, aluminum, copper, magnesium and other metal materials, laser pulse cleaning can effectively remove oil stains, oxides, and welding residues on the metal surface.
Plastic: For some high-temperature resistant plastic materials, laser pulse cleaning can remove surface adhered stains, pigments, and other pollutants.
Ceramics: Laser pulse cleaning has a good cleaning effect on oil stains, pigments, and other dirt on the surface of ceramics, without damaging the surface texture of ceramics.
Glass: Suitable for cleaning dirt on the surface of glass, laser pulse cleaning can achieve efficient decontamination and cleaning.
Fiber composite materials: For composite materials containing fibers, laser pulse cleaning can accurately remove impurities on the material surface without causing damage to the fiber structure.
Electronic components: Suitable for cleaning the surface of circuit boards, chips, and other electronic components, it can remove welding residues and other pollutants.
Stone: For the cleaning of some hard stone surfaces, laser pulse cleaning can efficiently remove attached stains and dirt.
