Unlike the use of any prior manual line drawing or printing work, in order to achieve ultra fine and bright parallel line generation for a lot of raw material processing works, it would be a quite efficient job to operate a 532nm green parallel line laser module. It applies diode-pumped solid-state laser (DPSS) technology. When green laser beam is adjusted to parallel light through an optical lens group or a specific lens system, it forms into parallel green lines onto multiple working surfaces easily.
Features:
High brightness and visibility: 532nm green laser is within the visible light range, thus human eyes are quite sensitive to green laser light. Owing to its high brightness and high beam visibility in various environments, even in brighter lighting occasions, green laser beam can be clearly observed. Green parallel line laser module is suitable for a variety of occasions that require clear parallel line indication or positioning.
High collimation: connected with an AC/DC adapter, it can generate highly parallel green laser beams with good collimation. The green laser beam has a small divergence angle during propagation and can maintain straight-line propagation over a long distance, ensuring precision and accuracy green parallel line alignment in long-distance applications.
Good stability: being made with advanced design and manufacturing technology, equipped with stable power APC, ACC driving circuit board and heat dissipation system, it can maintain stable output power and beam quality during long-term operation, ensuring the reliability and service life of the laser module. 532nm green parallel line module maintains up to 85% laser beam stability within 10 hours use, not effected by increasing temperature and serious electric current impact as well.
Multiple output power options: 532nm green parallel line laser enables wide range output power of 5mW to 100mW. You can choose the appropriate power level according to different application requirements to meet various precision and distance requirements.
Adjustability: It gets adjustable focus optic lens design, users can easily adjust the focus position and spot size of the laser beam according to actual needs to adapt to different working distances and application scenarios.
Laser safety level: available with wide range output power of 5mW to 100mW, it gets generally laser safety grades of Class IIIA and IIIB. Pay attention to safety when using it to avoid damage to the eyes and skin.
Beam diameter: Usually it achieves between a few millimeters and tens of millimeters, such as 8mm, 20mm, etc., depending on the design and application requirements of the 532nm green parallel line laser module.
Divergence angle: owing to its ultra small beam divergence, such as about 0.02mrad, it ensures the collimation of the laser beam during propagation.
Applications:
Industrial field
Laser marking: 532nm green parallel line laser is used for high-precision marking on the surface of various materials, such as metals, plastics, ceramics, etc., by controlling the energy and action time of the laser to achieve clear and lasting marking effects.
Laser cutting and welding: Using high-energy-density green laser beams to cut or weld materials, 532nm green laser modules perform well in some cutting and welding tasks with high precision requirements.
Industrial positioning and calibration: In the fields of mechanical processing, automobile manufacturing, aerospace, etc., it is used for equipment installation and commissioning, positioning and calibration of parts to ensure the installation accuracy and position accuracy of each component.
Construction and engineering field
Horizontal and vertical reference measurement: 532nm green parallel line laser module is used for the measurement and marking of horizontal and vertical reference lines in construction, such as wall masonry, ground leveling, elevator shaft installation, etc., to improve construction efficiency and accuracy.
Tunnel and bridge construction: During tunnel excavation and bridge construction, it is used to determine the center line of the tunnel, the axis of the bridge and the position of the pier to ensure the smooth progress of the project.
Scientific research and education field
Spectroscopy research: being used as an excitation light source for spectroscopy experiments such as Raman spectroscopy and fluorescence spectroscopy, 532nm green parallel line laser module can help researchers analyze the structure and composition of substances.
Holographic imaging: In holographic photography and holographic display technology, 532nm green laser can be used as a recording and reproduction light wave to produce high-quality holographic images.
Teaching experiments: used in teaching experiments in subjects such as physics and optics to help students intuitively understand the principles and characteristics of lasers, as well as optical phenomena such as interference and diffraction of light.
Precautions
Safety protection: Since 532nm green parallel line laser module has potential damage to the eyes, users must wear corresponding 532nm wavelength preventing laser safety glasses when using it to avoid direct green laser irradiation to the eyes or entering the eyes through reflection. At the same time, prevent the green laser from irradiating the skin to avoid burns.
Use environment: The laser module should be used within the specified temperature and humidity range. Avoid using it in high temperature, humid, dusty or corrosive gas environments so as to avoid affecting the performance and life of the laser module. When used in a cold environment, attention should be paid to the preheating and insulation of the laser module to prevent the laser from not working properly due to low temperature.
Power supply requirements: Strictly supply power in accordance with the power supply requirements of the laser module to ensure the stability and reliability of the power supply. Avoid using inferior power supplies or mismatched power adapters to avoid damaging the 532nm green parallel line laser module. When connecting the power supply, pay attention to the correct connection of the positive and negative poles to prevent reverse connection and burning of the circuit.
