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update date :2023-07-26 15:40:02Number of views: author:huang
Can spiral chutes be designed with a self flow process? 1. Description. Due to its low pollution and low cost, gravity separation is widely used in the beneficiation of metal and non-ferrous metals. The fiberglass spiral chute is one of the gravity beneficiation machinery, with a cross-sectional shape of a cubic parabola. It is used to process finer particle sizes of -0.2mm, without the need for flushing water in the sorting process. The tail part of the chute is selected in sections for fine, medium, and tailings. Can the spiral chute be designed with a self flow process? Secondly, the slurry with the same technical principle is slowly fed onto the surface of the spiral groove through the feeding groove installed at the head of the rotating groove for selection. The tail end of the rotating groove is equipped with a valve block type equipment to select the groove, allowing the sorted products to be divided into three categories according to grade along the radial direction. By adjusting the position of the valve block to obtain the width of each device, the product gathering hopper will differentiate and densely extract the intercepted multi-directional mineral flow. The cross-section of the spiral chute and the slope change of the curve are particularly suitable for the separation of fine particle materials. Can a spiral chute be designed with a self flow process? 3. Characteristics: 1. The sorting steps are smooth and easy to control. 2. The allowable range of ore feeding concentration is large. 3. High enrichment ratio, high recovery rate, 4. Small occupied area, low water consumption. 5. Simple and simple structure, no power required. 6. Large production capacity. 7. Installation is simplified and easy to operate. 8. Low investment and quick effect. Can the spiral chute design a self flow process? . 4. The structure of the spiral concentrator consists of a feeding homogenizer, a feeding groove, a spiral groove, and equipment selection groove The product gathering bucket and slot bracket (including a cross or tripod) are composed of six parts. 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. Classification of spiral chutes. 5、 Application field Spiral chute is suitable for separating fine grained iron ore, ferrotitanium ore, chromite ore, pyrite ore, placer tin, tantalum niobium ore, gold ore, coal, monazite, Rutile, zircon, rare earth and other metal and non nonferrous metal minerals with complete density and proportion difference. Can a spiral chute design a self flow process? Can a spiral chute design a self flow process
Can spiral chutes be designed with a self flow process