3D Printing Robot

Robotic 3D printing – also called robotic 3D arm printing and robotic additive manufacturing – combines a 3D printer head with a multi-axis robotic arm to create a much more flexible 3D printer than traditional three-axis (XYZ) machines.
The robotic arm, with its wide range of motion, opens up a whole new world of design freedom in 3D printing. The arm is able to print from virtually any angle, enabling extremely complex, curved geometries. It also enables much larger print formats than conventional printers – up to 30 metres or more!

Welding Robot

You would like to automate your welding process, but shy away from the acquisition costs, set-up and training time? We are the right solution for you! With more than 10 years of experience in welding robot integration, we are the perfect choice to help you improve your welding process.
Welding processes are often automated because it is so easy to integrate an industrial robot for this application. Not only do they increase production speed, but they also reduce material, equipment, waste and labour costs. Welding robots can also reach hard-to-reach part areas. They also relieve workers from the hazardous work environments normally associated with welding applications.

Milling Robot

Robotic milling involves cutting material from a prototype or mould to form a specific structure.
Robotic milling machines can make the precise cuts and movements required to produce the highest quality parts. Automated robotic milling systems can be equipped with flexible tools that are matched to the material being removed. By simply adjusting the robot programming and end-of-arm tools, any object of any size or shape can be milled.
Robotic milling work cells are designed to have multiple part fixtures so that more parts can be secured, increasing production rates.

 

Painting Robot

Painting robots deliver first-class results. When properly programmed, a painting robot can apply material without leaving drips, irregularities, overspray, etc. The paint and/or coating is applied with precision and uniformity.
Industrial painting robots provide excellent accessibility to the parts. Not only are the robot arms slim and far-reaching, but the robots can also be installed in different places (wall, shelf, rail), which allows even greater flexibility.

Laser-cutting Robot

Laser cutting is a very useful manufacturing process for cutting various materials such as paper, wood, plastic and metal. The material melts in the path of the beam. This process is perfect for robotic automation due to the stability required and the cutting of complex designs. Laser cutting is mainly used by manufacturers to cut metal and plastic parts.
Types of laser cutting: CNC, CO2, evaporation laser, excimer laser, gas laser, nitrogen or inert gas laser, moving optics, multi-axis laser, oxygen assisted laser, pulsed laser, semiconductor and solid-state laser.

Pick & Place Robot

Pick-and-place robots are widely used in modern manufacturing environments.
Pick-and-place automation speeds up the process of removing parts or items and placing them elsewhere. Automating this process helps increase production rates. Pick-and-place robots perform repetitive tasks, allowing human workers to focus on more complex work.

Why Choose Us

We provide you most Effective and Affordable robotic solutions

Our clients can multiply their efficiency and optimize output to significantly increase quality & reduce production costs.

Solutions

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