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Frequently changing parts and small batch sizes require a universal bending technology. The most common bending technology are press brake bending and folding.

Folding: Bending sequence

During the folding sequence the blank rests on the sheet support table. A gauging system positions the part to the bend line. The upper and lower beam clamp the blank. During the bending cycle the folding beam moves up around a pivot point. On up-down acting machines, the folding beam moves upwards or downwards, depending on the bending direction.

  • The part rests on the table (no fatigue, short cycle times)
  • The gauging system positions the part to the bend line (operator training finished in no-time)
  • Upright posture, easy operation (no health problems)
  • Usually one operator is sufficient even for large, cumbersome and heavy parts (low labor/parts costs)

Press brake: Bending sequence

During the bending sequence the blank is positioned outside the machine. The operator holds and supports the weight of the blank. For bending the upper ram moves down into the lower die. Both sides of the part move up and leave the plane. A linear ram movement results in the bend angle. Sequence requires experienced operators.

  • Operator needs to lift/support/hold the part (quality problems due to fatigue)
  • Experienced, well trained operator required (problem finding skilled operators)
  • Health (shoulder problems) and safety are critical
  • Large/cumbersome or heavy parts require multiple operators (high costs per part)
  • Slow cycle times (high costs per part)

Folding: Machine setup

Folding machines can bend all angles with a single set of tools. The machine automatically adjusts to the material thickness. Higher automated folding machines come with an automatic tool changer.

  • Universal tools (reduced setup effort)
  • Usually one set of tools sufficient for all customer parts
  • Low investment and operating costs
  • Low set-up times allow for small batch sizes (need-based production)

Press brake: Machine setup

Press brake bending typically requires a large number of punches and  different applications.

  • Different "V" dies for different sheet thicknesses
  • Small "V" dies required for short flanges
  • Usually a large variety of upper ram geometries are used
  • Investment in additional tools over time
  • Often long set-up times

Folding: Material thickness tolerances

During the folding sequence the folding beam tool contacts the outside of the material and moves exactly to the programmed angle.

  • The reference side is only the outside of the material
  • Exact movement to the programmed angle (high angle accuracy)
  • Sheet thickness tolerances do not affect the bend angle
  • No angle measuring system required

Press brake: Material thickness tolerances

On press brakes, the punch contacts the material from above and the "V" die from below.

  • Contact points on both sides of the material
  • The bend angle iresults from a linear upper tool movement
  • Sheet thickness tolerances lead to angle variances
  • Expensive, inflexible angle measuring system required for compensation

Folding: Gauging

On a folding machine the entire part is inside the machine. Only a short flange stands out of the upper and lower beam tool.

  • Gauging of the entire part
  • Blanks dimension tolerances show up in the first flange
  • The overall panel dimension as well as the opposite flanges are always accurate

Press brake: Gauging

Press brakes normally gauge the short flange. The long flange protrudes from the machine.

  • Gauging the short flange
  • Blanks tolerances show up in the overall dimensions of the finished part
  • These are usually the critical part dimensions for a perfect fit in the assembly

Folding: Sensitive material surfaces

Folding reduces the sliding area of tools on the material surfaces to a minimum, or completely eliminates it on some machines (Multibend-Center, ProfileCenter).

  • No scratches on the material surface
  • Ideal for stainless steel or coated sheets

Press brake: Sensitive material surfaces

Press brakes draw the material over the edges into the "V" die. The long sliding distance is shown results in scratches on the outside of the sheets.

  • Significantly visible scratches on the sheet
  • Not ideal for sensitive materials

Folding: Tool wear

As there are only very slight relative movements between the tool and the material surface, the tooling shows no abrasion wear even after years of use.

  • No wear on the tools
  • Low maintenance costs
  • Precision parts even after years of operation

Press brake: Tool wear

The long sliding distances over the "V" die edges lead to wear of the tools.

  • Tools must be replaced from time to time
  • Gradual deterioration of bend results
  • Programs need to be readjusted

Folding: Bending radii

On folding machines, a radius can be easily created of short bending segments. By using small steps the outside of the radius will be very smooth and the individual steps will not be visible.

  • Creation of any radius without special tools
  • Bending steps not visible on the outside
  • Part rests on the table
  • Fast bending cycles

Press brake: Bending radii

Creating a radius with bending steps on a press brake is quite difficult, as the sheet moves upwards at each step.

  • Gauing of the parts is difficult
  • Very well trained operators required
  • Very long cycle times

Folding: Bending hems

Folding does not require special tools for hemming.

  • Open, closed or tear-drop hems can be created
  • Applications: Increased stiffness, protective edges, part connections

Press brake: Bending hems

Press brakes use special tools for hemming.

  • Higher tool costs
  • Extensive lifting of the part during pre-bending

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