What is a back step?
Backgauge is a component that is often used with a press brake machine for correct placement of work pieces for bending. It can be moved and placed to allow the press brake to create different complex bends. This can be achieved because the relative positions of each component can lead to a predictable position and angle of bending. Backgages are often used together with a computer numeric control system that can automate the process. In some cases, backward races can move along seven individual axes and each is controlled by a different engine. The plate or sheet of the material is placed on the matrix and then pushed into it by means of mechanical, pneumatic or hydraulic force. Manual units require each workpiece to be placed manually. This can be achieved by practiced eye or relying on tools, but CNC units can automate the process.
CNC systems use various optical sensors, robotic components and computer programming to place the workpieceKUS and activation of printing brakes and other machining devices. The CNC system usually controls both concerns and the printing brake and the operator must only insert the workpiece into a place. In other settings, this feature can perform a robotic arm, allowing the operator to turn on the machine and then observe it if there is problems.
each backward interests offer a different range of movement that can affect the ease of use and accuracy of bending. Some backgages have seven or more axes of movement that CNC can control individually. Each axis usually has its own engine, which allows the rear part to slip in this particular direction. When all these potential instructions are combined, the CNC can place backward interests with a good accuracy agreement.
The way in which backward interests works is that it is placed with respect to die, so it comes to the workpiece. CNC system can use this relative distance toCalculation of bending position and combine it with a design of matrix and the duration of printing to achieve the desired angle. Backgauge can then be moved to contact the same workpiece differently and receive another bend. This process can facilitate the production of multiple components that have the same precise set of bending.