The adoption of collaborative robots across multiple sectors continues apace as increasing numbers of manufacturers realise the potential these robots offer to provide a cost effective and productive solution. Just as these robots have evolved in recent years to provide greater reach and payload capabilities, so too have the gripper technologies they use. Why? Well, not only to cater for a wider range of applications, but also to ensure that the gripper design and functionality complies with ISO TS 15066, which provides guidance for cobot use.
New additions to the Schmalzrange include the FXCB/FMCB area grippers, which support handling with cobots. Applications include end-of-line packaging, and pick-and-place tasks. The design of these gripper systems, which uses 3D printing as part of the manufacturing process, complies with ISO TS 15066, while the FXCB variant also includes integrated vacuum generation. Additional features of the range encompass communication technology via IO-Link, and an integrated NFC (near field communications) chip.
The Schmalz FQE series offers flexible handling of workpieces, regardless of size and geometry from different pick-up positions. Also designed for use with cobots, these gripper systems provide solutions to handling applications across multiple sectors that include the automotive, glass and electronics industry, in addition to end of line packaging and intralogistics tasks.
The ‘X’ variant of this area gripping system comes compete with an energy-efficient, fully integrated pneumatic vacuum generation system, while the alternative ‘M’ variant is for operation with an external vacuum generator. With their low weight and low noise levels, together with their smooth rounded design, the grippers are also suitable for human–robot–collaboration applications, meeting the ISO TS 15066 standard.
For further information www.schmalz.com