The NE bucket elevator is a new product developed with advanced technology. Its main technical parameters meet the standards of the Ministry of Machinery. It adopts gravity loading and gravity discharge. The chain is a high-quality alloy steel plate chain, which is stable. The drive system uses a hardened gear reducer. The NE series plate chain bucket elevator has 11 models. The NE bucket elevator adopts inflow feeding. The material flows into the hopper and is lifted to the top by the plate chain. The material then discharges by gravity.
Working principle of NE bucket elevator:
NE bucket elevator consists of a running part (hopper and traction belt), an upper section with a drive roller, a lower section with a tensioning roller, a middle casing, a drive device, a check brake device, etc. It is suitable for conveying upward loose density ρ < 1.5t/m3 powdery, granular and small block non-abrasive and semi-abrasive bulk materials, such as coal, sand, coke powder, cement, crushed ore, etc.
NE bucket elevator structure: Transmission. The TD bucket elevator has two transmission types, equipped with a YZ reducer and a ZQ (or YY) reducer. This reducer offers low noise, smooth operation, and floats with the main shaft, allowing for stress-free installation. The YZ reducer is mounted directly on the main shaft head, eliminating the need for a transmission platform or coupling, resulting in a compact and lightweight structure. It also features an internal shaped roller backstop.
Application scope of NE bucket elevator:
The NE bucket elevator is suitable for vertical conveying of abrasive powdery, granular, and small-sized materials, such as grain, coal, cement, and crushed ore. With a conveying height of up to 40 meters, it features a simple structure, stable operation, pull-out loading, and mixed or gravity unloading. The rims utilize a combined sprocket for easy replacement, and the sprocket rims are treated for long life. A gravity-based automatic tensioning device is used in the lower section to maintain constant tension and prevent slippage or chain derailment. Furthermore, a yielding mechanism protects moving parts when the hopper encounters resistance, ensuring that material temperatures do not exceed 250°C.
