LinaClass - Model SLR Series - Crusher Unloading Screen
From IBS Mining Products
Accurate classification of different materials. Do you need to classify ore, coal, coke, sinter, pellets or rock reliably in large quantities? Then you need solutions which can be specially adapted in order to achieve the high quality required.
Schenck Process linear vibrating screens fulfil all these requirements perfectly. They can handle the largest quantities of materials, and classify them to a high level of accuracy. Driven by robust DF force exciters, they are specially adapted to the widest range of requirements.
Crusher unloading screens
For the automatic charging and unloading of crushers.
- Width: up to 2,800 mm
- Length: up to 8,500 mm
Crusher relief with bulk materials such as:
- Natural stones
Classifying of bulk materials such as: Stones for hydraulic works
Linear Motion Vibrating Screens LinaClass SLR model series are used for crusher relief and classifying of stones for hydraulic works. The feed rate can be up to 3.000 t/h. The cut-point can be set from 60 mm up to 400 mm. Their rugged design ensures a high degree of operating reliability and availability, even under harsh conditions. Schenck Process provides the optimal solution for your application thanks to its long years of experience in the design, construction and manufacturing of screens for the process industry.
Linear Motion Vibrating Screens are characterized by well-engineered design and a high quality standard. The components are fixed together with bolts and rivets. Schenck Process SLR screens are designed for use with screen mats made as grids or perforated plates. Subassemblies such as side walls and hollow shaped cross beams are protected against wear and tear. These spare and wear parts can be easily replaced.
All LinaClass SLR model vibrating screens are equipped with the reliable Directed Force Exciter (model DF) and are based on the micro throw principle. The vibrating screens perform a linear movement at an angle of impact to the horizontal, generating the movement of the material. Overcritical systems are applied. This enables the vibrating screen to be operated stably and makes it extremely insensitive to unsteady loads.