Spot Welding
Robotics spot welding, a form of resistance welding, is widely used in industrial applications, particularly in the automotive industry, for joining sheet metal. This process involves a robot arm equipped with welding electrodes applying pressure and an electrical current to the metal pieces, creating a weld at specific points. Robotics spot welding represents a significant advancement in manufacturing technology, offering unparalleled precision, efficiency, and safety, making it an integral part of modern production lines, especially in industries where high-quality welds are essential.
Palletizing
Robotic palletizing refers to the automated process of stacking and organizing products onto a pallet for transportation and storage, using robotic systems. This process is a critical part of the logistics and manufacturing sectors, enhancing efficiency and accuracy in material handling. Robotic palletizing represents a significant advancement in automating and streamlining the packaging and distribution process in various industries, offering numerous benefits in terms of efficiency, accuracy, and safety.
ARC Welding
Robotic Welding fixtures & Welding positioners. Manual welding jigs and fixtures. MIG/TIG welding of automotive, general engineering & structural components. Experience with touch sensing and seam tracking jobs. DI provides turnkey solutions in Robotic Welding (MIG, TIG) and complete production lines for:
Pedal box, rear & front suspension, lower control arm, chassis, 2W downtube chassis, tipper body and other various underbody, automotive and engineering components.
Plasma Cutting
Robotic plasma cutting is an advanced manufacturing process that combines the precision and flexibility of robotic arms with the power of plasma cutting technology. This process is used to cut through various types of metal using a plasma torch controlled by a robotic arm. Robotic plasma cutting represents a significant technological advancement in the field of metal fabrication, offering unparalleled precision, efficiency, and versatility. It continues to evolve with advancements in robotics and automation technologies, expanding its applications and effectiveness in various industries. A process that cuts through electrically conductive materials by using an accelerated jet of hot plasma. Typically, materials cut with a plasma torch include steel, stainless steel, aluminum, brass, and copper, among other conductive metals.
