How to get ultra clear and precise line indication at a long work distance? It might be far more enough than formal hand reaching, however, it would be a much better solution to operate a highly intense and bright beam emitted tool of a 532nm green line laser module. It keeps work with the sensitive color and easily absorbed green laser light emission from a middle wavelength of 532nm. When it gets quite compact size structure design and easy connects with an external electric power source, not limited by long distance, high height and other complex working environments etc, this accessory part of a laser line generator enables easy reaching, highly precise and fine enough green line indication for multiple industrial precise machinery processing works conveniently.
Typically 532nm green line laser module adopts aircraft-grade aluminum alloy and anodized construction, which offers excellent impact resistance, anti-alignment, anti-static properties, and thermal conductivity, making it suitable for a variety of complex industrial environments. When it applies advanced 532nm green DPSS laser tech within wide range output power of 5mW to 100mW and high power up to 150mW to 200mW, available with 16mm, 18.9mm and 26mm diameter tube design, this laser line generator facilitates integration into various industrial equipment and is easy to install and operate. In order to make long time lasted green line projection, it applies an integrated metal heat sink cooling system, which can effectively dissipate heat generated by the laser module during operation, ensuring stable laser output and minimizing the impact of temperature fluctuations on laser performance.
Whatever kind of working surface it is pointing, owing to the adoption of a qualified glass coated lens within 10 to 110 degree fan angles, this 532nm green line laser module produces a brighter, more uniform laser line with high straightness, uniformity, and brightness. It can achieve micron- or even nanometer-level positioning accuracy. The laser line is uniform, with sharp edges and a controllable line width within a small range, providing a precise reference for precision machining. 532nm green laser light is near the peak of human visual sensitivity. At the same light intensity, green laser line generator is more noticeable than red laser. Even in complex lighting environments, the straight line marking remains clearly visible.
Designed with careful consideration of factors such as heat dissipation and power supply stability, the green line laser module is equipped with a stable laser driver circuit. Some products also feature an intelligent feedback driver circuit for constant power supply and module protection, ensuring a long service life. Whenever it generates high brightness, high energy density, and high monochromaticity green laser light source, it also enables reduced dispersion and interference effects, improving optical system performance and making it suitable for high-precision machining and measurement.
General use in industrial processing fields:
Cutting and Welding Positioning: During mechanical cutting and welding, 532nm green line laser module can clearly mark the processing path, assisting workers or automated equipment with precise operation. For example, it calibrates material position during sheet cutting and pipe forming processes, improving processing accuracy.
Precision Processing and Measurement: it can be used for precision measurement and circuit board chip inspection. Its high-precision characteristics enable micron-level or even nanometer-level positioning accuracy, ensuring accurate processing dimensions.
Textile Printing: In the textile printing industry, 532nm green laser line generator is used for fabric cutting and positioning, print pattern alignment, and other applications to ensure the quality of textiles and printed products.
3D Scanning and Measurement: In 3D scanning and measurement, straight-line lasers can cover a single cross-section of the target object. 532nm green alignment laser is used for robot positioning and component 3D model reconstruction. Automotive Manufacturing: For example, in automotive laser wheel alignment, it provides a precise positioning reference to ensure accurate wheel installation.
High-Reflective Material Processing: For highly reflective materials such as copper, its absorption rate can reach over eight times that of infrared lasers, making it suitable for processing materials such as copper, gold, and stainless steel. It is widely used in the lithium battery, automotive parts, and hardware machinery industries.
