|Keyword:||3d Robot Laser Welding Machine||Laser Transmission:||Flexible Fiber|
|Wavelength:||1064um||Dimensions:||L750 X W1620 X H1340|
laser welding machine,
industrial robotic arm
Laser welding robot theory
Laser welding is to radiate a high - intensity laser beam to a metal surface. Through the interaction of the laser and the metal, the metal absorbs the laser and converts it into heat to melt the metal and then cool it to form a weld. According to the different laser output energy methods, laser welding can be divided into pulse laser welding and continuous laser welding (including high - frequency pulse continuous laser welding); laser welding can be divided into heat transfer welding according to the power density on the spot after laser focusing. Deep fusion welding; in laser deep penetration welding is divided into butt welding (brazing) and lap welding, the former needs to fill the brazing material, the appearance is beautiful.
Laser welding robot automation Solution
Since laser welding currently uses a solid - state laser as a light source, it is very easy to realize multiple optical path processing methods, which greatly improves production efficiency. Compared with CO2 laser machines, the efficiency of robotic laser welding systems is much higher than that of CO2 laser machines because CO2 lasers are difficult to achieve multiple optical paths. At present, there are several cases of robot laser welding systems replacing CO2 laser machine tools, and the welding efficiency is improved by more than 30%.
At present, some of the challenges in metal welding, such as the increasingly complex shape of the workpiece, the increasing quality of the welding, and the increasing number of orders in the individualized requirements of the processing, the robot laser welding system is completely used. Can meet these challenges. In recent years, new laser technologies such as fiber lasers and disk lasers have emerged, providing a unique condition for ABB laser-welded robotic workstations to challenge higher configurations.
Laser welding robot technical parameter
|Laser type||YAG lamp pump laser generator|
|Laser wave length||1.064μm|
|Single pulse maximum output power||150J|
|Laser transmission mode||Flexible fiber|
|Power supply||3 phase AC 380V|
|Maximum input power||8KW||16KW|
|Working table (optional)||Precision electrical slide working table; galvanometer working table; robot device|
|Cooling system||Internal & external double circulation heat exchange|
|Heat exchange power||12.5KW||18KW|
|Quantity of fiber transmission branches||1 ~ 4|
|Storable laser type||32 types|
|Video monitoring ( optional )||High - definition camera + 14 inch monitor|
Laser Welding Robot Arm Technical Parameter
|Distance of 5th axis reaches||1.44m|
|Number of robot body axes||6|
|Number of external devices axes||6|
|Continuous rotation axis||6|
|Repeat positioning accuracy||0.05mm|
|Tcp top speed||2.1m/s|
|Laser type||IPG fiber laser generator|
|Power supply||200-600V, 50/60Hz|
|Weight of robot arm||380kg|
|Integrated source||Upper arm 23 channel signal|
|Integrated gas source||Upper arm up to 8bar|
Laser welding robot application
Laser welding robot applications inclusive is very wide, used in batteries, electronics, optical communications, automotive, microelectronics, hardware, household appliances, medical equipment, molds, bathroom, super capacitors, motors, electrical, instrumentation, aerospace, solar, glasses, jewelry and so on.
Welding materials involved mainly metal materials,
Such as: stainless steel, aluminum, carbon steel, brass, copper, galvanized sheet, rare metals.
Contact Person: Daisy He