Intermediates and Punch Adapters
Rolleri intermediates and adapters for punches
AROL PN POWERProducts > CLAMPING SYSTEMS > FAST CLAMP1DOUBLE FAST CLAMP1
Article No. | With intermediate | Price | |
---|---|---|---|
FC1 | |||
FC1.INT100F | INT100F | ||
FC1.INT120F | INT120F no crowning wedge | ||
FC1.INT100 | INT100 | ||
FC1.INT120 | INT120 | ||
FC1.INT150 | INT150 | ||
FC1.INT120-40 | INT120-40 | ||
FC1.INT150-40 | INT150-40 | ||
FC1.INT120HD | INT120HD | ||
FC1.INT150HD | INT150HD | ||
FC1.INT120-40HD | INT120-40HD | ||
FC1.INT150-40HD | INT150-40 HD |
Manual Upper fast clamping system with front clamp for R1 tools, length 150 mm. Max. Load 1000 kN/m.
*without crowning wedge
FAST CLAMP1 is a combination of traditional clamps with screws and with a lever. Clamps are made of a more resistant material and undergo several treatments to increase their resistance and to avoid corrosion. Clamps are opened and closed by means of a lever rotating around a central pin. One of the main features of FAST CLAMP1 is the adjustability of the pin. Thanks to this feature, we can always control the clamping force of punches, even in case punch tang is worn out.
FAST CLAMP1 can be mounted on all standard intermediates and thanks to a hardened back plate, the pin doesn't damage the intermediate as it happens in traditional clamps.
A removable lever extender can be used in order to open and close clamps easier. Such lever extender can be used to open clamps with LC shorter lever mounted on the right edge of the upper beam to avoid collision during box bending.
With FAST CLAMP1 R1 punches with ROL1 ball bearings can be inserted vertically, lifted and seated automatically.
Rolleri intermediates and adapters for punches
Manual upper fast clamping system with front clamp for Type R1 tools, 150mm length. Max. load 1000 kN/m
Manual upper fast clamping system with double clamp (front and rear) for Type R1 tools, 150mm length. Max. load 1000 kN/m
Manual Upper fast clamping system with front and rear clamp for R1 tools, length 150 mm. Max. Load 1000 kN/m.