660nm Red Laser Diode Module For Dot Indication and Positioning

In practical precise dot measuring work, especially in those of work fields of industrial, high tech and medical dot positioning work fields, it is a quite nice chance for users to operate a high density beam emitted tool of a 660nm red laser diode module. It is not only emitting highly intense and powerful red laser beam, but also providing quite accurate red reference dot indication with a small spot diameter and clear edges. Based on the use of correct output power and operating voltage DC power supply, this direct diode emission made red dot laser enables high accuracy, high stability and ultra long time lasting red dot alignment onto multiple working surfaces.

660nm red laser diode module
660nm red laser diode module

When a qualified glass coated lens and glass window are configured inside a durable anodized aluminum alloy housing tube, this 660nm red laser diode module can generate high density and high transmittance red laser beam at several miles far away. For the most important of all, under operation of moisture, dust, or different humidity occasion, it still maintains ultra clear and precise red reference dot projection at a long extending distance. It gets selected output power of 5mW to 100mW, thus it enables high level of accuracy dot positioning reaching millimeters or even higher levels, meeting various high precision dot positioning needs.

After easy connects with an AC/DC adapter, the genuine use of a 660nm red laser diode module has high brightness and high contrast in both indoor and outdoor environments. It gets good heat dissipation performance and mechanical strength, which bears quite harsh working occasion of mechanical moving, calibration as well. Usually it gets good thermal emitting and maintains ultra stable and clear red reference dot projection within continuous work time of 8 to 10 hours per day. Configured with APC, ACC driving circuit board inside its durable housing tube, this red dot laser bears increasing temperature and serious electric current impact, and assures long time lasting red dot projection and long serving lifetime of more than 8,000 hours.

In practical precise dot measuring work, this 660nm red laser diode module has high brightness and contrast in both indoor and outdoor environments. It can be clearly seen even in the presence of certain light interference, making it easy for operators to fine the indicated position quickly and accurately. Owing to its noncontact red reference dot projection from beam aperture, it always makes noncontact dot measurement and alignment onto different working surfaces. It can avoid damage to the surface of the object, which is suitable for positioning some difficult to touch or easily deformed objects.

Only after quite easy connects with AC/DC adapter, this 660nm red laser diode module makes constant red laser beam and red dot projection as long as the power is turned on. There is no need for complicated calibration and adjustment processes. Users can use it proficiently after simple training.

Applications:

Industrial manufacturing: In the fields of automobile manufacturing, electronic equipment production, etc., 660nm red laser diode module is used for dot positioning indication of parts assembly to ensure that parts are installed in the correct position and improve assembly accuracy and production efficiency. For example, in the assembly of mobile phone screens, red laser dot can accurately indicate the fitting position of the screen and the body.

Construction: In the process of building measurement and construction, 660nm red dot laser is used as an indication tool for horizontal or vertical reference lines to help construction workers ensure the flatness and verticality of the building. For example, when laying a wall, a vertical red laser line can be provided to ensure the verticality of the wall.

Education: In the school’s physics, chemistry and other experimental classes, 660nm red laser module is used to indicate the position of the optical path and experimental instruments, etc., to help students better understand the experimental principles and operating steps. For example, in the light refraction experiment, the propagation path of the red laser light is clearly indicated.