How To Enable Tension Transfer In Pre-stretched Wire Within A Tower Structure?

armour rod in transmission line As a pre-formed winding component, it transmits load force through contact with the conductor and auxiliary hardware. armor rods conductor Originating from the pre-forming process, the stranded wires can tightly adhere to the conductor surface, forming a continuous coating layer. The resulting helical cross-section establishes a stable mechanical connection between components, thereby transmitting the tension applied by the conductor to the crossarm components of the tower. armor rod preformed Working in conjunction with other fasteners and clamps, it completes the overall stress distribution, which is a common mechanical path in transmission structure design.

During the erection process, the conductor is subjected to movement and vibration caused by various external forces during the tensioning stage. preformed armour rod In this dynamic environment, it is placed between the conductor and the crossarm as a connecting link, establishing a connection with the crossarm clamps through its helical shape tightly adhering to the conductor, making the load distribution within the tower structure more uniform.

For the overall performance of the tower system, the realization of transmitting tension to the tower crossarm is closely related to the shape of the stranded wires, the installation method, and the matching with other accessories. The stranded wires are arranged along the direction of the conductor and wrapped around the conductor. Their mechanical contact connects the conductor and the tower hardware. This structural combination provides a higher level of integrated component connection for the erection of transmission lines, while simplifying the force transmission process during assembly.