Robotic Welding Cell for Exhaust and Catalytic Converter Components
The image shows an advanced robotic welding cell used in the production of automotive exhaust and catalytic converter components. At the center of the scene is an articulated industrial robot arm equipped with a welding torch, positioned in front of a dedicated fixture that holds the workpiece. The arm is mounted on a rigid base to ensure stability and accuracy during operation, and its multiple joints allow it to reach different angles and complex contours on converter shells, manifolds, brackets and other exhaust parts. Blue protective hoses route cables and welding lines neatly along the arm, preventing interference with movement and improving long-term reliability.
Automated Laser Cutting System for Exhaust Component Blanks
The image shows an automated laser cutting system processing a large metal sheet that has been laid out with many repeating shapes. On the left side, a yellow industrial robot arm carries a cutting head close to the surface of the plate, while bright sparks indicate active cutting. On the right, a gantry-style cutting head moves over the work area, following a programmed path above a bed of sharp support teeth that hold the sheet in position and allow small parts and scrap to fall away safely.
Tooling and Mould Storage Area for Exhaust Component Production
The image shows a well-organized tooling and mould storage area inside a modern manufacturing workshop. Long rows of heavy-duty steel racks extend across the shop floor, each shelf loaded with stamping dies, forming tools and production fixtures. These tools are used for manufacturing a wide range of exhaust and catalytic converter components, such as shells, brackets, flanges, cones and other metal parts that require precise forming and punching operations.
The workshop is spacious and bright, with high ceilings and overhead beams that can support cranes or hoists for moving heavy dies safely between the storage racks and the presses on the production line. Clear passages are left between the rows so that forklifts or pallet trucks can operate easily, reducing handling time and improving safety. Each tooling position is clearly defined, helping workers quickly locate the correct die when changing production from one part number to another.
CNC Machining Center for Precision Exhaust and Converter Tooling
The image shows a modern vertical machining center, model VMC 1060, installed in a clean and well-organized workshop. This CNC machine is one of the key pieces of equipment used to manufacture high-precision tooling and metal components for automotive exhaust systems and catalytic converters. At the center of the machine is an enclosed working area with a rigid spindle head and a large worktable. During operation, the spindle carries different cutting tools to perform milling, drilling, boring and tapping on casting iron and stainless steel blocks. These operations create accurate dies, mould bases, flanges, adapters and special fixtures that are later used in forming, welding and assembling catalytic converters, manifolds and other exhaust parts.
