Spiral chute Separation principle 1. Overview chute separation includes inclined flow separation steps. Mortar is provided in some inclined grooves or inclined surfaces. With the assistance of flowing water, the mineral particle group is not tightened and layered. The lighter mineral material on the upper part is quickly discharged out of the groove, while the heavy mineral on the lower layer is trapped in the groove or flows out at a low speed from the lower part. After being distinguished and connected, concentrate and tailings can be obtained. Glass fiber reinforced plastic chutes are equipment for mining and beneficiation, especially ideal for mineral mining and beneficiation at seaside, riverbank, sand bank, and creek banks. The product also features appropriate structure, simple installation, small footprint, easy operation, stable beneficiation, clear separation of ore, high processing yield, high efficiency, high beneficiation enrichment ratio, high recovery rate, and reliable operation. It has the advantages of light weight, moisture-proof, rust proof, durable and anti-corrosion, and strong applicability to the fluctuation of feed volume or density, Granularity, and grade. 2、 Using a method to set up a spiral concentrator, align it with the vertical line, use an iron frame or wood to fix it in a suitable position, and use a sand pump to transport the ore to the two feeding ports on the spiral head. Add supplementary water, adjust the concentration of the ore slurry, and the ore slurry will naturally swirl from top to bottom. In the flow rate of the inclined plane of the rotation, an inertial centrifugal force will occur, which will cause differences in the gravity, particle size, and shape of the sand ore, Through the influence of the gravity or centrifugal force of the swirling flow, the sand ore is separated, and the selected ore flows into the concentrate hopper and is piped out. The tailings flow into the tailings hopper and are piped to the sand ore pool, and then discharged by a slurry pump, completing the entire beneficiation process. Spiral chute Separation principle III. Special features 1. Stable sorting steps and easy operation 2. Large allowable range of feed density 3. Very high enrichment ratio and high recovery probability 4. Small area occupied and low water consumption 5. Simple structure without power 6. Strong processing capacity 7. Simple installation and operation 8. Small investment and quick results Spiral chute Separation principle 4 The structure of the spiral concentrator consists of a feeding device, a cross (tripod), a feeding chute, a spiral groove, a cutting groove, a gathering bucket, and a groove support. Separation principle of spiral chute V. Application This machine is suitable for separating small materials with a particle size of 0.3-0.02mm to obtain iron ore, ilmenite, Chromite, pyrite, zircon, Rutile, monazite, phosphorus, tungsten ore, tin ore, tantalum niobium ore, tantalum niobium ore and other non-ferrous metal ore, rare metal and non-metallic mineral bodies with gravity differences. Separation principle of spiral chute