Robotic laserwelding is a promising joining technique for welding of continuous\ud seams in 3D products. High quality joints can be realised provided that the manipulation of the laser beam and the product tolerances meet strict criteria. The requirements for the positioning accuracy of the laser beamcan be fulfilled using seam-tracking sensors. This thesis describes how such sensors can be integrated in a robotic laser welding system for automatic teaching of the seam trajectory, but also to correct small errors (e.g. clamping errors, heat deviation errors) from a pre-defined seam trajectory
In this paper, a novel architecture for robotic seam tracking using an industrial robot and off-the-...
Robots have been more and more widely used in the factories nowadays. Arc welding is a very importan...
Laser welding is used in modern industrial production due to its high welding speed and good welding...
Robotic laserwelding is a promising joining technique for welding of continuous seams in 3D products...
Laser welding requires fast and accurate positioning of the laser beam over the seam trajectory. The...
A welding head is under development with integrated sensory systems for robotic laser welding applic...
A welding head is under development with integrated sensory systems for robotic laser welding applic...
Because of their construction and flexibility, industrial robots are suitable to be used, with a las...
The use of robotic laser welding is increasing among industrial applications, because of its ability...
Remote laser welding systems can usually focus a laser beam to diameters of 0.1 mm. Therefore, high ...
An industrial robot is mainly used for manufacturing. Industrial robots are 6 or more axes, which ca...
The laser welding process puts high demands on the manipulator that moves a focussed laser beam over...
Precise positioning of the laser beam on the work piece is crucial for high quality laser welds; e.g...
The accuracy requirements of laser welding put high demands on the manipulator that is used. To use ...
Robotic laser welding imposes high demands on the used manipulator as high accuracies (down to 0.1 m...
In this paper, a novel architecture for robotic seam tracking using an industrial robot and off-the-...
Robots have been more and more widely used in the factories nowadays. Arc welding is a very importan...
Laser welding is used in modern industrial production due to its high welding speed and good welding...
Robotic laserwelding is a promising joining technique for welding of continuous seams in 3D products...
Laser welding requires fast and accurate positioning of the laser beam over the seam trajectory. The...
A welding head is under development with integrated sensory systems for robotic laser welding applic...
A welding head is under development with integrated sensory systems for robotic laser welding applic...
Because of their construction and flexibility, industrial robots are suitable to be used, with a las...
The use of robotic laser welding is increasing among industrial applications, because of its ability...
Remote laser welding systems can usually focus a laser beam to diameters of 0.1 mm. Therefore, high ...
An industrial robot is mainly used for manufacturing. Industrial robots are 6 or more axes, which ca...
The laser welding process puts high demands on the manipulator that moves a focussed laser beam over...
Precise positioning of the laser beam on the work piece is crucial for high quality laser welds; e.g...
The accuracy requirements of laser welding put high demands on the manipulator that is used. To use ...
Robotic laser welding imposes high demands on the used manipulator as high accuracies (down to 0.1 m...
In this paper, a novel architecture for robotic seam tracking using an industrial robot and off-the-...
Robots have been more and more widely used in the factories nowadays. Arc welding is a very importan...
Laser welding is used in modern industrial production due to its high welding speed and good welding...