When it comes to ensuring reliable and secure connections in industrial and commercial applications, choosing the right clamps and connectors is crucial. This stainless steel clamp offers a robust solution tailored for those who prioritize durability and efficiency. With its precise M10 x 35 mm screw connection type, this product guarantees a firm hold, essential for maintaining stability in various setups.
Measuring 40 mm in both width and depth, this clamp is designed to accommodate round conductors effectively. Its clamping range of 10 mm ensures compatibility with conductors of similar size, making it versatile for different installations. The stainless steel construction not only provides strength but also enhances resistance to corrosion, an important feature when used in challenging environments.
Weighing just 0.098 kg, this lightweight component does not compromise on performance. It carries a significant lightning current carrying capability of up to 100 kA, offering peace of mind when dealing with high-energy scenarios. This makes it particularly suitable for use in systems where protection against surges is paramount.
The product adheres to EN 62561-1 standards and approvals, assuring users of its compliance with international safety and quality benchmarks. Despite its untreated finish, the inherent properties of stainless steel ensure long-lasting performance without the need for additional coatings or treatments.
With a thickness of 2.5 mm, this connector maintains structural integrity while being easy to handle during installation. It’s specifically designed for use with round conductors measuring up to 10 mm in diameter—a common requirement across numerous electrical applications.
In summary, this clamp offers a practical blend of reliability and functionality suitable for various technical needs within the electrical engineering sector. Whether you're upgrading existing systems or establishing new connections, its specifications align well with industry demands for safety and efficiency without unnecessary complexity or cost implications.