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Aiming Laser Technology Co., Ltd.
Single Line Laser
Color
  • Red
  • Green
  • Blue
  • Violet
  • IR
  • DPSS
  • Visible
  • Invisible
Type
  • Pulse
  • CW
  • Dot
  • Line
  • Cross
  • Fiber
  • TTL
  • Circle
Wavelength
  • 405nm
  • 450nm
  • 520nm
  • 635nm
  • 650nm
  • 780nm
  • 808nm
  • 850nm
  • 905nm
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SELECTED PRODUCT LINES ( 5 ):

Single Line Laser

AIMLASER single line laser, available in red and green lasers, generates sharp, straight, and clear laser beam lines, which not only makes it suitable for industrial laser alignment and positioning, but also applies to stone, wood, metal and fabric working or cutting.

Choosing Between 60 & 90 Degree Single Line Lasers

  • Application Needs: Determine the specific requirements of the project. A 60-degree laser is ideal for tasks needing a narrower, more focused line, such as detailed alignment and precision work. A 90-degree laser provides a wider spread, suitable for larger areas and broader applications like room layout and construction.

  • Working Environment: Consider the environment where the laser will be used. A 60-degree laser is perfect for confined spaces or detailed tasks, while a 90-degree laser is better for open areas where a broader line is beneficial.

  • Material and Surface: Evaluate the type of material and surface the operators will be working on. A 60-degree laser offers concentrated intensity, making it effective for harder materials. A 90-degree laser covers more surface area, ideal for softer or more extensive materials.

  • Precision vs Coverage: Balance the need for precision against the need for coverage. If the project demands high accuracy, a 60-degree laser is the better choice. For projects requiring extensive coverage, a 90-degree laser will be more efficient.


Quality Control of AIMLASER Single Line Laser

  • Accuracy Testing: Ensure the laser projects a perfectly straight line by conducting regular accuracy factory inspection tests. Use calibrated measuring tools to verify the line's precision over various distances.

  • Durability Checks: Assess the laser's resistance to dust, water, and impact. Conduct environmental tests to simulate real-world conditions and ensure the device maintains performance under stress.

  • Battery Performance: Evaluate the battery life under continuous use. Test different battery types and capacities to ensure long-lasting power, especially for extended projects.

  • Calibration and Maintenance: Establish a routine for calibration and cleaning before the product leaves the factory. Ensure the laser lens is free from debris and that the device is stored properly to maintain optimal performance.

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