Smart mirrors integrate touch screen interaction and voice control, and are one of the technological products of smart homes. Their production involves processes such as paint stripping and sanding. Traditional processes are complex and cannot meet the personalized needs of consumers; the Smart Mirror Laser Sandblasting Machine can quickly realize mirror laser sandblasting operations through the high efficiency and automation of laser processing, saving manpower and time costs.
If you’re still relying on traditional sandblasting or frosted paint for your glass processing, it’s time to make the shift to Smart Mirror Laser Sandblasting Machines.
Traditional Sandblasting Process:
The traditional sandblasting process of smart mirrors includes film pasting, engraving, film tearing and sandblasting.
- Film application: First, a protective film needs to be applied to the surface of the smart mirror to prevent unnecessary damage to the mirror surface during the sandblasting process.
- Engraving: Then, use professional engraving equipment to engrave the predetermined pattern or texture on the protective film so that the subsequent sandblasting process can accurately act on the mirror surface.
- Film tearing: After the engraving is completed, the protective film needs to be torn off to reveal the engraved pattern or texture area.
- Sandblasting: Finally, the surface of the smart mirror is treated by sandblasting equipment, and the mirror surface is impacted by high-speed sand flow to form a frosted effect in the designated area. This process requires strict control of the size of the sand particles and the pressure of the spray to ensure the quality and efficiency of the sandblasting.
The entire traditional sandblasting process of the smart mirror is not only inefficient, but also costly. With the advancement of technology, there are now more advanced laser sandblasting technologies that can replace traditional sandblasting processes, improve production efficiency and reduce costs.
Smart Mirror Laser Sandblasting Machine:
Laser Sandblasting Machines can support more intelligent mirror laser processing technologies: mirror film removal, mirror drilling, mirror marking, etc. The solution adopts a four-axis linkage algorithm, which can realize “walking and sanding” in a large processing area, that is, the movement of the platform and the scanning galvanometer are synchronized for laser sanding, forming in one go without multiple pauses and repositioning.
The processing range is not limited by the galvanometer format, which can solve the problem of seam misalignment caused by large-scale laser processing splicing errors, shorten processing time, improve production efficiency, and ensure that the mirror surface produced by laser sanding is flat and smooth, achieving a high frosting accuracy standard.
