Carts in ESD version

ESD-protected trolleys for environments with special electrostatic requirements

In dynamic work environments where electrostatic discharge hazards are a significant challenge, our ESD-protected carts are the ideal solution. With ESD carts (Electrically Dissipative), we take a step forward to meet the high standards and requirements set in so-called EPA (ESD-Protected-Area) areas. These carts are carefully designed to offer safe dissipation of static electricity and thus minimize the risk of electrostatic disturbances.

Our ESD-protected carts have received SP Sweden's Technical Research Institute approval according to SP method 2472 and meet the strict requirements according to international standards such as IEC 61340-5-1 and N 100015-1. This means that you can rest assured that our carts are designed to handle electrostatic challenges in a reliable and efficient manner.

The shelf boards used in our ESD-protected carts are made of 19 mm conductive boards with melamine coating on both sides. This not only guarantees reliable dissipation of static electricity, but also a durable and robust construction. Black ABS edging on all four sides acts as an extra protective measure and helps prevent static build-up.

Flexibility is key in work environments that require ESD protection. That's why our ESD-protected trolleys are equipped with infinitely adjustable shelves and carrying handles. This adaptability allows for smooth integration into different workflows and makes it easy to tailor the design of the carts to specific needs.

For work environments that require a reliable and proven solution for electrostatic discharge, our ESD-protected trolleys are the perfect choice. With quality approvals and compliance to leading standards, as well as features that support smooth use and customization, our ESD-protected carts are a reliable tool for maintaining a safe and efficient work environment. Choose wisely and invest in ESD-protected carts to ensure your workspace is optimally equipped to handle electrostatic challenges.