Bending Sequence Sheet Metal

1 the machine is then commanded to close the gap between the punch and die.

Bending sequence sheet metal.

A linear ram movement results in the bend angle. Sheet metal bend sequence planning is a complex combinatorial problem. Inventor 2009 windows xp 32 bit excel 2000. Ie identify the order in which the piece should be bent.

If parts are handled by a robot the best grasping positions for each bending and the number of repositions must be indicated in advance. The operator holds and supports the weight of the blank. This is shown in figure 11. In the present study the optimum bend and set up sequence in sheet metal forming is determined by combining the tolerance anal ysis with fuzzy reasc ning.

Tools and tool stages can be reused in a sequence depending on length of tool stage. Examples of sheet metal components. In order to carry out the bending operations a sheet of metal is placed on a die up against a backgage to locate the part precisely as shown in fig. Sheet bend design 4 machining set up planning 5 and three roll bending 6.

Taking the sheet metal in figure 8 as an example if the bending sequence is arranged without adhering to proper bending rules and two p type bends are performed before the ω type bend then interference will occur at the ninth bend operation. Bending is one of the vital operations to obtain a three dimensional 3d shape in a sheet metal component. In the sheet metal industry skilled operators perform bending of sheet metal parts. Using the proposed method feasible bending sequences with grasping positions are obtained and the sequences are sorted in the.

This combination allows the. Anyone have thoughts on how to accomplish this. For bending the upper ram moves down into the lower die. Collinear bends can be performed in a single operation.

What i need to do is show the sequence for bending. On a sheetmetal drawing with numerous bends use bend notes to show the direction angle and bend radius of each bend. Abstract in the present study a method is proposed which generates bending sequences of a sheet metal part handled by a robot. Both sides of the part move up and leave the plane.