Spiral Gravity Chutes

Description

The greatest concentrating equipment, particularly for concentrating sand ore in beaches, rivers, seashores, and streams, is our company’s  Spiral Gravity Chutes concentrator separator. It is a scientific product with concentrating experience. Additionally, it has been used to enrich low-grade ores such as coal, iron, tin, chromite, ilmenite, tungsten, zinc, tantalum-niobium, gold, coal, monazite, rutile, zircon, and others with fine grain sizes of 0.3–4 mm. the non-metallic minerals with sufficiently different specific gravities.

The product’s advantages are light weight, moisture resistance, anti-rust, anti-corrosion, and noiseless; it is constructed of fiberglass lined with wear-resistant resin and cover emery. It is also appropriately suited for a range of feeding particle sizes and grades. It’s the new, incredibly efficient equipment, the advanced level domestically.

Gravitation Water flow, gravity, inertial centrifuge, and friction are the forces that drive the operation of the spiral gravity chutes concentrator separator. After being pumped to the top of the spiral, the slurry enters a feed distributor that divides the feed among the spiral chutes uniformly. It functions because of the spiral’s form and construction in conjunction with gravitational acceleration. Grain size and density, as well as shape to a lesser extent, begin to settle and sort as the slurry moves along the spiraling course down the spiral. The highest density particles travel inside the spiral, whereas low density particles are carried by the majority of the water towards its outside.

Gravity spiral chutes concentrator separator pricing features include:

1. A modest construction and limited area of occupancy
2. Accurate separation, fast recovery, and high efficiency
3. Not necessary power
4. Low weight, resistant to rust, corrosion, and wear
5. Easy installation and low upkeep needs
6. Extended lifespan and minimal operating costs
7. Dependable operation with little operator intervention
8. Excellent flexibility in response to changes in feeding quantity, density, size, and quality
9. Emery’s surface creates significant friction, and its concentration effect outperforms that of plastic surfaces.