Robotic Welding Cutting Systems / Supplier And Exporter

Robotic Welding Cutting Systems / Supplier And Exporter

Robotic welding and cutting systems are an advanced industrial automation solution for welding and cutting jobs by using Robotic technology. To increase productivity, accuracy, and safety in industrial operations, these systems are frequently used in the manufacturing process. Robotic welding and cutting technologies enhance worker safety while making a substantial contribution to the effectiveness and caliber of production operations.

Structure of Robotic Welding and Cutting systems :

Robot arm plays the main part in performing welding or cutting operations. It has joints as well as an end-effector that might be a cutting or welding torch. The device mounted on the robot arm to carry out particular functions is called an end-effector. This might be a welding torch or gripper used in welding systems to hold welding electrodes.

Sensors are essential components of Robotic welding and cutting systems as they offer input on the position, orientation, and other pertinent properties of the workpiece. Vision systems may be used to track and position objects precisely. The Controller works as the brain of Robotic system. It coordinates the robot arm's movements and decodes the programming. In addition, it controls sensor input and guarantees that the system stays within pre-established safety bounds.

Robotic welding systems are very precise welding or cutting machines that are programmed to follow predetermined trajectories. Computer-aided design (CAD) and computer-aided manufacturing (CAM) applications can be used for programming offline. The welding process requires a power source. In welding applications, it supplies the electrical energy required to form the arc. A plasma or laser cutting source can be used for cutting systems.

Larger production systems are frequently coupled with robotic welding and cutting equipment. They could be a component of an FMS, or flexible manufacturing system, which allows them to adjust to various production needs.

Safety Features:

Robotic systems must be safe at all times. Safety barriers, emergency stop buttons, and collision detection are installed in the place to safeguard workers and equipment. Nonstop operation of Robots leads to enhanced productivity. Accurate performance of Robots leads to consistency in cuts or welds. Automation lessens the chance that human workers may be exposed to dangerous welding or cutting conditions.Automation minimizes the exposure to dangerous welding or cutting conditions of the human workers.

Applications industries for Robotic Welding and Cutting systems:

• Automotive manufacturing. Shipbuilding. Aerospace industry. Structural steel fabrication.
• General manufacturing processes.

Beveling Cutting :

  • Six axis to seven axis synchronized robot cutting system.
  • Robots can longitudinal travel.
  • Mainly used for bevel cutting plane. For different thickness, line, curve type "I" "X" "Y" "V" "K" beveling cutting.
  • Optional Plasma cutting or Flame cutting.