Towering power towers and crisscrossing power lines serve as a haven for bird activity. Birds often build nests and roost on these structures, carrying wires, branches, and other debris to power equipment, posing significant risks to grid operations. For example, when bird droppings, wires, or other foreign objects fall onto insulators, they may cause short circuits or tripped circuits, not only affecting power supply stability but also potentially resulting in economic losses.
Bird control in power grids is a systematic project that requires comprehensive consideration of technical, ecological, and economic factors. Our Shenzhen Zhenqu Bird Technology bird control panels ZQN-GT-DB are an efficient and practical bird control device that not only solves the safety hazards caused by bird activity, but also demonstrates respect and protection for bird ecology.
The bird-proof partition ZQN-GT-DB is made of high-strength epoxy resin insulating boards, which not only have excellent insulating properties but also feature high voltage resistance, wear resistance, high temperature resistance, and corrosion resistance, making them suitable for various harsh outdoor environments. Simply install it on the crossarm or corner above the insulator string on the tower, and it will effectively prevent bird droppings, branches, and other foreign objects from falling onto the insulator equipment, thereby avoiding line failures caused by falling debris.
The bird-proof partition is fixed to the angle steel of the steel tower using L-shaped brackets, which prevents the partition from falling off or shifting, as can happen with traditional binding methods. In addition, its dimensions can be customized according to the specifications of the steel tower to ensure that it is stable, safe, and effective after installation.
Overall, bird-proof barriers not only protect power facilities but also provide birds with a relatively safer habitat. Even if birds choose to build nests and reproduce on top of the barriers, this will not cause bird-related faults, thereby reducing the risk of electrocution for birds when they are active near power grids.
In the future, with the continuous advancement of technology, bird prevention measures for power grids will become more diverse and intelligent, providing stronger guarantees for power safety and ecological balance.
