The basic unit is a semi-automatic, oxy-fuel coping machine. The operator positions the workpiece, finetunes it, starts the cut and adjusts the torch height while cutting. (There is an automated option for a laser to auto probe and set the torch height.) The basic unit comes with powered conveyors where the operator manually measures and marks the X length on the feed stock prior to cutting. (There is also an optional automated measuring system via Laser measuring of the feed stock.) The interface allows the operator to input material type to be cut. The operator scrolls through a list of options via pictorial representations on the computer touch screen. The computer is programmed with all the AISC structural steel dimensions. A fully dimensioned cope drawing is displayed simplifying programing, saving time and minimizing operator input error. The operator can override and customize the input as needed, and it can be stored as a new program, if desired. The machine can also be pre-programmed from the office through DSTV exported drawings. There is a wireless remote control that the operator uses to start, stop and operate the equipment. This allows the Operator to freely walk around viewing from any angle needed to verify operations and maintain accuracy. The operator makes his mark on the material, moves the material into position, and hydraulically clamps the material to be cut into place. The operator lines the laser to the mark and begins the cycle. The torch ignites, pre-heating the material. The operator manually initiates the cutting process and finishes the cut as he maintains the proper torch height.
We are very particular about making fabrication tasks easy and efficient. This Robotic coping beam and profiling beam can process square tubes, angles bars, channels, square pipes, as well as T bars, plates, bulbs, and other materials. The possibilities for functions on your pipes/profiles are endless with any of our Coping or profiling Robots. It is an extremely efficient tooling system that produces high quality outputs. These outputs could be H, I, and T beams respectively, or U and L channels.