3-legged Communication Tower
https://www.junjiangtower.com/products/3-legged-communication-tower.html
#three #legged #tower
3-legged Communication Tower
3-legged communication towers are tall steel structures effective in increasing the height of communication antennas. The 3 legged towers are composed of tower bodies, platforms, lightning rods, ladders, antenna supports, and other steel components. These 3 legged antenna towers undergo hot-dip galvanization for corrosion resistance and are... more3-legged Communication Tower
https://www.junjiangtower.com/products/3-legged-communication-tower.html
#three #legged #tower
3-legged Communication Tower
3-legged communication towers are tall steel structures effective in increasing the height of communication antennas. The 3 legged towers are composed of tower bodies, platforms, lightning rods, ladders, antenna supports, and other steel components. These 3 legged antenna towers undergo hot-dip galvanization for corrosion resistance and are essential for microwave, ultra-short wave, and wireless network signal transmission and broadcasting in communication network systems.
3-legged Communication Tower Specification
Height As per request
Material Q355B & Q235B or equivalent
Dsign standard GB / ANSI / TIA-222-G
Surface treatment Hot dip galvanized/Painting
Color As per request
Quantity of platform As per request
Antenna load As per request
Antenna Type GSM, RRU, CDMA, MW etc.
Anti-seismic Grade 8
Fall Arrest System Available if need
Nuts and Bolts Gr 6.8 and 8.8
Service life 30/50 years
Certification ISO9001
3-legged Tower Design
The three legged tower columns use external flange connections, with bolt tensioning, making them less prone to damage and lowering maintenance costs. The triangular arrangement of tower columns conserves steel material and reduces footprint size. The truss-style structural design allows for convenient transportation and installation, with short construction periods. The 3 legged tower design varies with wind load curves, ensuring smooth lines and reducing the risk of collapse during rare wind disasters, thereby minimizing human and animal casualties.
