How to Draw a Spiral Chute Step Diagram 1. Overview: Gravity beneficiation spiral chutes summarize the characteristics of fiberglass spiral chutes, fiberglass spiral chutes, shakers, and centrifugal beneficiation machines. After being evaluated and approved by relevant scientific research, design, universities, and mining departments organized by the Ministry of Metallurgical Industry, they are recognized as having superior performance and advanced selection indicators, and have been awarded the Science and Technology Research Achievement Award by the Ministry of Metallurgical Industry. They are now in the field of non-ferrous metals Ferrous is very suitable for a large number of applications. This equipment is suitable for separating fine and small materials with Granularity of 0.3-0.02mm to obtain iron, Ilmenite, Chromite, pyrite, zircon, Rutile, monazite, phosphorus and ethylene, tungsten ore sand, cassiterite, tantalum, niobium ore and other non-ferrous metals, rare mineral metals and this non-ferrous metal ore body with different specific gravity. 2、 Production principle: The spiral concentrator is freely placed on the cross (or tripod) of the support table. The evenly proportioned mortar is slowly fed onto the surface of the spiral groove through the feeding chute installed at the head of the rotating groove, and sorting is carried out. The tail end is equipped with a valve block type equipment cutting groove, which divides the sorted products into three (or four) categories according to grade along the radial direction. Change the acquisition width of each product by adjusting the position of the valve block. The equipment gathering bucket is a concentric circular tube that allows the selected variable ore flows to converge and export differently. The cross section and slope of the curve of the fiberglass chute are very suitable for the separation of small particle materials. How to draw a spiral chute step diagram 3. Features 1. Stable selection process and easy operation 2. Wide range of allowable changes in feed density 3. High enrichment ratio and high recycling rate 4. Small land area and low water consumption 5. Simple structure without power 6. High processing yield 7. Easy installation and easy operation 8. Small investment and quick results How to draw a spiral chute step diagram 4 The structural composition of the spiral concentrator consists of six parts: a feeding homogenizer, a feeding trough, a spiral trough, an equipment selection trough, a product gathering hopper, and a trough bracket (including a cross or triangular frame). The spiral groove formed by connecting rotating discs is a key component. The spiral plate is made of fiberglass (fiberglass reinforced coal gangue) and connected together through screws. The sorting surface of the rotating groove has a pre designed durable wear-resistant layer. It has the advantages of lightweight, sturdy, durable, and durable consumer goods that are not easily damaged. A multi tube feeding homogenizer is installed above the rotating groove to sort minerals equally, making it easy to control. The concentrator does not need to be restricted from being placed on the cross (or tripod) of the support table. The evenly distributed slurry passes through the feeding chute installed at the head end of the spiral groove and slowly feeds onto the rotating groove surface for sorting. The tail of the spiral groove is equipped with a valve type new product acquisition groove, which allows the sorting equipment to be divided into three types (or four types) of new products along the radial direction according to grade. To adjust the orientation of the valve block and change the width of each new product, it is necessary to cut it off. The new equipment gathering bucket is a concentric annular tube that differentially collects and leads selected multi-directional mineral flows. The transverse surface of the fiberglass chute and the slope of the curve change greatly to adapt to the selection of fine-grained materials. How to draw a diagram of spiral chute steps 5. Scope of use Spiral chute can be used to separate fine grained iron, ferrotitanium, ferrochrome, ferrosulfide, tin ore, tantalum niobium, gold ore, coal, monazite, Rutile, zircon, rare earth and other metals and non colored metal ores with completely different specific gravity. How to Draw a Spiral Chute Step Diagram at