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Subdivided High Capacity Cyclone

A cyclone, high-yield technology, applied in the direction of cyclone devices, devices whose axial direction of cyclone can be reversed, etc.

Active Publication Date: 2022-02-11
JIANGXI WEI DONG EQUIP
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

However, because the mineral processing enterprises, especially the copper mining enterprises in the place where the applicant is located, the economic benefits are reversed, the existing cyclone cannot meet the requirements in terms of separation quality and efficiency.

Method used

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  • Subdivided High Capacity Cyclone
  • Subdivided High Capacity Cyclone
  • Subdivided High Capacity Cyclone

Examples

Experimental program
Comparison scheme
Effect test

Embodiment 1

[0017] Embodiment one, such as figure 2 As shown, the subdivided high-capacity cyclone of the present invention includes an overflow pipe, a swirl chamber, a cone, and a grit chamber connected sequentially from top to bottom; the side of the swirl chamber is connected from the inner nozzle 1 to the circular outer interface 2 Convex convex arc-shaped swirl tube with equal height, the horizontal width of the swirl tube is gradually narrowed and then widened by gradually lengthening the symmetrical vertical tangents on both sides from the inner nozzle 1 to the circular outer interface 2. The outwardly convex arc-shaped swirl tube is an outwardly extending involute segment type or an outwardly extending elliptical arc segment type outwardly convexly arc-shaped swirl tube. The narrowest part of the swirl tube is located between the middle of the entire swirl process from the inner nozzle 1 to the circular outer interface 2 and the inner nozzle 1 . The entire swirl process from th...

Embodiment 2

[0018] Embodiment two, such as image 3 As shown, the difference between the subdivided high-capacity cyclone of the present invention and the above-mentioned embodiment 1 is that: the bilateral symmetrical vertical tangent line in the middle of section B and the upper and lower circular arc segments are smoothly extended to connect the upper and lower circular arc segments and the symmetrical vertical lines on both sides. The arcs of the tangents are butted, and gradually deform and transition from the middle part of the B section where the circular outer interface 2 is extended via the smooth arc to the middle part of the A section where the symmetrical vertical tangents on both sides directly and symmetrically cut the circle. It has the advantage of significantly increasing production capacity under the premise of meeting subdivision requirements.

Embodiment 3

[0019] Embodiment three, such as Figure 4 As shown, the difference between the subdivided high-capacity cyclone of the present invention and the above-mentioned embodiment two is that: the bilateral symmetrical vertical tangents and the upper and lower circular arc segments in the middle of section A and section B are all connected by smooth extension of circular arc section and The arc of the symmetrical vertical tangent on both sides is docked, and it is directly symmetrical from the circular outer interface 2 through the middle of the B section extended by the smooth arc and the middle of the A section extended by the smooth arc to the bilateral symmetrical vertical tangent The inner nozzle 1 of the tangent circle is gradually deformed and transitioned. It has the advantage of significantly increasing production capacity under the premise of meeting subdivision requirements.

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Abstract

The invention relates to a subdivided high-capacity cyclone. In order to solve the problem of low capacity of the existing cyclone, it includes an overflow pipe, a cyclone chamber, a cone and a sand settling nozzle connected sequentially from top to bottom; the side of the cyclone chamber The outer convex arc swirl tube connected from the inner nozzle to the circular outer interface, the height of the swirl tube from the inner nozzle to the circular outer interface is equal, and the swirl tube is gradually lengthened from the inner nozzle to the circular outer interface by two The laterally symmetrical vertical tangent makes its lateral width gradually narrow and then gradually widen. The outward convex arc swirl tube is an outwardly expanding involute type or an outwardly expanding elliptical arc type outwardly convex arc swirl tube. The narrowest part of the swirl tube is located between the middle of the entire swirl process from its inner nozzle to the circular outer interface and the inner nozzle. It has the advantage of significantly increasing production capacity under the premise of meeting subdivision requirements.

Description

technical field [0001] The invention relates to a cyclone, in particular to a subdivided high-capacity cyclone. Background technique [0002] The cyclone is a common separation and classification equipment that utilizes the principle of centrifugal sedimentation. When the two-phase mixed liquid to be separated enters the cyclone tangentially from the periphery of the cyclone at a certain pressure, a strong three-dimensional elliptical strong rotational shear turbulent movement is generated. Due to the difference in particle size between coarse particles and fine particles, they are subjected to centrifugal force, centripetal buoyancy, fluid drag, etc., and are subjected to centrifugal sedimentation. Most of the coarse particles are discharged through the bottom flow port of the cyclone, while most of the fine particles are discharged from The overflow pipe is discharged, so as to achieve the purpose of separation and classification. However, because the mineral processing ...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B04C5/04
CPCB04C5/04
Inventor 陆东山
Owner JIANGXI WEI DONG EQUIP