Steel plate lifting is a high-frequency operation scenario in industrial production, and the risk of slippage is the biggest safety hazard in this scenario. Once the steel plate slips, it will not only cause expensive material losses, but also may lead to serious casualties. Ulide pliers, with the core design concept of "firm bite and zero slippage", have become the safety guardian of steel plate lifting operations with precise structural design and high-strength material technology, making every lifting operation as stable as a rock.
The core guarantee of zero slippage comes from the precise bite structure design of Ulide suspension pliers. The equipment adopts a self-locking interlocking principle. During lifting, as the weight of the steel plate increases, the clamping force of the jaws synchronously increases, forming a stable effect of "tightening as lifted", fundamentally eliminating the risk of slippage. The inner side of the jaw adopts a special anti slip tooth pattern design, which greatly increases the friction with the steel plate surface while avoiding damage to the steel plate surface. For steel plates of different thicknesses and materials, Ulide tongs offer a variety of models to choose from. The jaw opening can be flexibly adjusted to accurately adapt to the lifting needs of various steel plates. Whether it is smooth transportation of thin steel plates or heavy-duty lifting of thick steel plates, it can achieve firm clamping.

    Super strong load-bearing capacity cannot be achieved without high-quality materials and rigorous manufacturing processes. The Ulide pliers are forged from high-strength alloy steel and undergo multiple heat treatment processes to effectively enhance the tensile strength and toughness of the material, avoiding deformation and fracture during heavy-duty lifting.
Choosing Ulide tongs means choosing a zero risk guarantee for steel plate lifting, allowing every lifting operation to be carried out with peace of mind and building a solid defense line for enterprise safety production.