In combination with the cone seal, the quick lock prevents chips or dirt from lodging into the interface. Without changing the height, it locks the last gateway of the otherwise completely sealed modules. Pull-down force and rigidity have been increased even further

VERO-S NSE3 138 has a pull-down force of 8 kN or 28 kN with activated turbo function, as well as increased dimensional stability for the module body, which has a positive impact on the rigidity of the clamping solutions. As a result, the highest tilting moments and transverse forces can be absorbed when tall parts are clamped at the base for machining their top surface, for example.

Clamping and positioning of the premium modules is also carried out via a short taper with a repeat accuracy of <0.005 mm. This ensures maximum precision even in the most demanding applications. Due to the conical fitting, the clamping pins can also be joined into the modules eccentrically, making this process incredibly easy.

The actual clamping is performed via spring force without requiring any external energy supply; it is form-fit and self-locking. The workpieces remain safely clamped in case of a sudden pressure drop in the air system. A pneumatic system pressure of 6 bar is sufficient to open the clamping modules.

For maximum process reliability, both clamping slide positions ‘open’ and ‘closed’ can be monitored as standard using dynamic pressure. One option is a position sensor that can be used to detect locking without pins. Depending on the thread diameter of the clamping pins, holding forces of 35 kN (M10), 50 kN (M12) and 75 kN (M16) can be achieved.

All components are made of hardened stainless steel, making them corrosion-resistant and long-lasting. Special support areas facilitate cleaning and ensure a perfectly flat contact surface for the clamping devices and workpieces. The new premium modules are fully compatible with the previous VERO-S modular system, which now consists of more than 1,000 possible combinations for highly efficient workpiece clamping.