TH315 elevator application scope:

The TH315 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 combination sprocket for easy replacement, and the sprocket rims are treated for long life. A gravity-driven automatic tensioning device is used in the lower section to maintain constant tension and prevent slippage or chain breakage. Furthermore, a yielding mechanism protects moving parts when the hopper encounters resistance, ensuring material temperatures do not exceed 250°C.

TH315 elevator application:

The TH315 elevator consists of a running section (hopper and traction belt), an upper section with a drive roller, a lower section with a tensioning roller, an intermediate housing, a drive unit, and a check brake. The TH315 elevator is suitable for conveying non-abrasive and semi-abrasive bulk materials with a bulk density of less than 1.5 t/m³, such as coal, sand, coke dust, cement, and crushed ore.

TH315 elevator features:

1. The driving power is small, and it adopts inflow feeding, induction unloading, and large-capacity hopper intensive layout. There is almost no material return and digging when the material is lifted, so the reactive power is small;

2. The lifting range is wide. This type of elevator has few requirements on the type and characteristics of the material. It can not only lift general powdery and small granular materials, but also lift materials with high abrasiveness. It has good sealing and less environmental pollution.

3. Operation, design principle and processing method ensure the reliability of the whole machine operation, and the trouble-free time exceeds 20,000 hours. The lifting height is high and the hoist runs smoothly, so it can reach a higher lifting height;

4. Long service life. The feeding of the elevator adopts the flow-in method, without the need for bucket digging, and there is little squeezing and collision between materials. The design is to avoid material spillage during feeding and unloading, reducing mechanical wear.