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Configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator

A configuration structure, superconducting magnetic technology, applied in the direction of high gradient magnetic separator, etc., to achieve the effect of improving the sorting ability, eliminating inclusions, and reducing the head

Active Publication Date: 2015-08-19
HARBIN INST OF TECH
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0005] In order to solve the problem that the vertical ring high-gradient magnetic separator has certain limitations on the space and field strength of the collection area, and the reciprocating high-gradient superconducting magnetic separator has certain limitations on the iron content of the raw ore, a high-gradient superconducting magnetic separator is further proposed. Configuration structure of magnetic separator reciprocating tank

Method used

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  • Configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator
  • Configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator
  • Configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator

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specific Embodiment approach 1

[0009] Specific implementation mode one: combine figure 1 with figure 2 Describe this embodiment, the configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator described in this embodiment includes a sorting tank mechanism 1, two clamping mechanisms 2, two pulsating flow generators 3, and two pulsating mechanisms 4. Two supporting plates 5 and a plurality of moving sliders 6, the two ends of the sorting tank mechanism 1 are respectively fixed and installed on a supporting plate 5 through a clamping mechanism 2, and each supporting plate 5 is respectively installed with a The pulsating mechanism 4 is connected to the corresponding end of the sorting tank mechanism 1 through a pulsating flow generator 3 respectively, and a plurality of moving sliders 6 are arranged on the lower surface of each supporting plate 5 .

[0010] In this embodiment, the pulsation stroke of each pulsation flow generator 3 is 0-4 cm, and the pulse frequency r...

specific Embodiment approach 2

[0012] Specific implementation mode two: combination Figure 3 to Figure 8 Describe this embodiment, the sorting tank mechanism 1 of the configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator described in this embodiment includes an outer cylinder 1-1, two middle cylinders 1-2, two double-row circles Ring media box assembly 1-3, two inner cylinder confluence pipes 1-4, two first outer cylinder confluence pipes 1-5, two second outer cylinder confluence pipes 1-6 and eight connecting pipes 1-7, The middle part of the outer cylinder 1-1 is provided with a central dummy area, and the two ends of the outer cylinder 1-1 are respectively provided with a middle cylinder insertion area, and each of the middle cylinder insertion areas is respectively inserted with a middle cylinder 1-2 , and the end flanges of each middle cylinder 1-2 are sealed and connected with the corresponding end face of the outer cylinder 1-1, and each middle cylinde...

specific Embodiment approach 3

[0016] Specific implementation mode three: combination Figure 5 , Figure 9 , Figure 10 with Figure 11 Describe this embodiment, the arrangement structure of reciprocating tank of a high-gradient superconducting magnetic separator described in this embodiment is provided with inner cylinder confluence space 1-2-1 in the end of each middle cylinder 1-2, and the inner cylinder The outer wall of the confluence space 1-2-1 and the inner side of the end of the middle tube 1-2 form an end dummy space 1-2-2, and the end dummy space 1-2-2 and the end of the middle tube 1-2 The opposite side of the flange, the inner side of the flange at the end of the middle cylinder 1-2, and the inner wall of the middle cylinder 1-2 form the end confluence space 1-2-3, and each inner cylinder confluence space 1-2-1 is It communicates with the corresponding inner barrel confluence pipe 1-4, and each end dummy space 1-2-2 communicates with the corresponding connecting pipe 1-7, and each end confl...

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Abstract

The invention relates to a configuration structure for a reciprocating tank of a high gradient superconducting magnetic separating machine, relates to a configuration structure for a reciprocating tank of a separating machine, and particularly relates to a configuration structure for a reciprocating tank of a high gradient superconducting magnetic separating machine. The configuration structure solves the problems that the collecting region space and field intensity are limited by a vertical-ring high gradient magnetic separating machine and the content of crude iron ore is limited by a reciprocating high gradient superconducting magnetic separating machine. The configuration structure comprises a separating tank mechanism, two clamping mechanisms, two pulsing flow generators, two pulsing mechanisms, two support plates and a plurality of movable sliding blocks, wherein both ends of the separating tank mechanism are fixedly arranged on the support plates respectively through the clamping mechanisms; each support plate is provided with a pulsing mechanism; each pulsing mechanism is connected with one corresponding end of the separating tank mechanism through one pulsing flow generator; and a plurality of movable sliding blocks are uniformly distributed on the lower surface of each support plate. The configuration structure is used for the field of mining industry.

Description

technical field [0001] The invention relates to a configuration structure of a reciprocating tank of a separator, in particular to a configuration structure of a reciprocating tank of a high gradient superconducting magnetic separator. Background technique [0002] Usually, the dissociation degree of iron minerals can reach more than 90% when the iron mineral is ground to 45-0 μm, and the hematite can only reach more than 90% when the iron mineral is ground to 30-0 μm. Magnetite is called fine iron ore. Such iron ores account for a large proportion of the tens of billions of tons of complex and refractory iron oxide ores in my country. It has become a well-known fact that iron tailings and red mud occupy land and pollute the environment. Magnetic separation is a physical separation in nature and does not produce secondary pollution. Compared with other separation methods, magnetic separation has better environmental compatibility. . [0003] The general principle of wet h...

Claims

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Application Information

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Patent Type & Authority Patents(China)
IPC IPC(8): B03C1/025
Inventor 徐风雨
Owner HARBIN INST OF TECH
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