High-Efficiency Solution for Large-Angle Conveying: Large-Angle Belt Conveyors

In material conveying scenarios requiring overcoming height differences, such as mining, port loading and unloading, and construction sites, traditional conveying equipment is often limited by the conveying angle, resulting in problems such as large footprint and low conveying efficiency. large-angle belt conveyors, as specialized equipment designed for large-angle inclined conveying, can achieve material conveying at large angles, even close to vertical (90°), effectively solving the industry pain points of high-drop conveying. It can efficiently transfer bulk materials such as coal, ore, sand, and grain, as well as some single items, becoming a core conveying equipment in industrial production for bridging height differences and optimizing site layout.

The stable and efficient operation of large-angle belt conveyors relies on targeted structural design, with each core component working in concert to ensure the stability of large-angle conveying. The inclined-angle conveyor belt is the core component of the equipment, employing a special design with corrugated sidewalls and transverse partitions—the corrugated sidewalls prevent material from slipping off the sides, while the transverse partitions divide the conveyor belt into several “hopper”-like spaces, fundamentally solving the problem of material slippage during large-angle conveying. The drive unit, consisting of a motor, reducer, and drive roller, provides sufficient traction to the conveyor belt, ensuring smooth operation even under large-angle load conditions. The redirecting roller changes the belt’s direction of travel, effectively adjusting belt tension distribution, especially during large-angle conveying operations, thus ensuring equipment stability. Idler rollers and the support frame form a support system; the idlers support the conveyor belt and reduce running resistance, while the support frame provides robust structural support for the entire device, adapting to installation requirements in compl