Mining equipment screw blade for conveyor
Mining Equipment Screw Blade for Conveyor is a robust and reliable component designed to enhance your mining operations.
Mining equipment screw blade for conveyor
Vision adopts self-developed cold winding process to produce straight and conical double inlet and double outlet coal mill blades with one-time molding, no welding, no heating, which ensures the overall hardness and steeliness of the blades. At present, we have supplied blades made of NM400, Hardox400 and DILLIDUR-400V for many thermal power plants, of which the maximum thickness is 20mm.
Technical specifications for the Mining Equipment Screw Blade for Conveyor:
1. **Material Handling**: These screw conveyors are designed to handle almost any bulk material, from dry and free-flowing to sticky and sluggish¹. They are ideal for bulk materials with high moisture content.
2. **Applications**: The mining, crushing, washing, and drying of many metals and minerals are accomplished by the use of these conveyors². They are used to convey materials like Copper, Iron ore, taconite, and uranium.
3. **Design**: The screw conveyor is one of the oldest methods of conveying materials known to mankind⁴. The design of the screw conveyor is such that it increases the diameter of the screw conveyor or reduces the pitch of the screw.
4. **Incline Efficiency**: On inclines between 10 and 20 degrees, the loss in conveying efficiency is typically between 10 and 40 percent.
5. **Dependability**: Screw Conveyors are ruggedly built and accurately manufactured to assure complete dependability.
Crafted from high-grade, wear-resistant materials, this screw blade is engineered to withstand the harsh conditions of mining environments. Its unique design ensures optimal material flow, reducing blockages and increasing the efficiency of your conveyor system. With its easy installation and low maintenance requirements, this screw blade is an essential piece of equipment for any mining operation aiming for increased productivity and reduced downtime.