robot steel beam cutting machine
1, 6 axis Robotic cutting system,realize all kinds of pipes&tubes, steel beams cutting.
2, Automatic feeding system, promote the production efficiency
3, Clamping positioning system, ensure the feeding precision and cutting precision
Model | Robot plasma cutting machine |
Power consumption | 25kw |
Working voltage | 380V three phase 60hz |
Maximum cutting speed | 8m/min |
Torch Height control mode | Automatic |
Cutting thickness | Plasma cutting max thickness 40mm |
Plasma power supply | Hypertherm/LGK plasma cutting system |
Control system | PCL robot |
Motors | sevo motor |
Weight | 3500 KGS |
Plasma Air Pressure | Max.0.8Mpa |
Working Temperature | 0°C-45°C. Relative Humidity, 0-95%. |
The flexibility of robots in industrial applications such as cutting and welding is one of their strengths.
Flexibility in cutting and welding:
Cutting is a common task in industrial production such as metal cutting. The flexibility of robots in cutting is shown in the following aspects:
Multi-axis control: Industrial robots often have multiple joints, which allows them to move in multiple directions, thus enabling them to flexibly adapt to a wide range of workpieces of different shapes and sizes.
Programming Flexibility: Modern industrial robots often support both offline and online programming. Offline programming allows programmers to create and optimize cutting paths on a computer and then upload them to the robot for execution, which allows for faster and more flexible task switching.
Vision guidance: Many robots are equipped with vision systems that can recognize and identify the position and shape of the workpiece through images, thus adapting to the task of cutting different workpieces.
Adaptive control: Some advanced robotic systems have adaptive control features that can adjust cutting parameters based on real-time sensor feedback to cope with material changes or changes in the cutting environment, improving cutting quality and stability.
Robot in laser cutting
robot in welding
PCL advanced robotic systems have adaptive control features that can adjust cutting parameters based on real-time sensor feedback to cope with material changes or changes in the cutting environment, improving cutting quality and stability.