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Multi-mode stirring type co-precipitation precipitation device for rare earth

A precipitation device, multi-mode technology, applied in rare earth metal compounds, rare earth metal carbonates, sedimentation tanks, etc., can solve the problems of inability to adjust, uneven mixing reaction of rare earth mixed material and liquid, and inability of rare earth mixed material and liquid. mixing and other issues

Active Publication Date: 2019-01-04
东港智科产业园有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to overcome that the existing co-precipitation devices for rare earths usually adopt a traditional fixed structure, which cannot be adjusted, so that the rare earth mixture liquid cannot be stirred in various ways, resulting in uneven mixing reaction of the rare earth mixture liquid, resulting in The quality of the rare earth carbonate is low, which seriously affects the quality of the produced product. The technical problem to be solved is: to provide a multi-mode stirring method for rare earth that can be adjusted and can stir the rare earth mixture liquid in various ways. Co-precipitation device

Method used

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  • Multi-mode stirring type co-precipitation precipitation device for rare earth

Examples

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Effect test

Embodiment 1

[0024] A multi-mode stirring type co-precipitation device for rare earth, such as Figure 1-5 As shown, it includes a base 1, a first bearing 2, a support shaft 3, a cylinder 4, a drain pipe 5, a first valve 6, a filter screen 7, a discharge pipe 8, a second valve 9, a second bearing 10, Long connecting shaft 11, sleeve pipe 12, stirring plate 13, pin shaft 14, small baffle plate 15, first spring 16, guide ring 17, pull wire 18, winding wheel 19, fixed plate 20, first positioning screw rod 21, the first A rotating disk 22, a third bearing 23, a top plate 24, a first support 25, a first guide plate 26, a second positioning screw 27, a second support 28, a second guide plate 29, a third positioning screw 30 and a cover 31 , the first bearing 2 is embedded in the base 1, the lower end of the support shaft 3 is set in an interference connection with the first bearing 2, the cylinder 4 is located above the support shaft 3, the cylinder 4 is connected with the support shaft 3, and t...

Embodiment 2

[0026] A multi-mode stirring type co-precipitation device for rare earth, such as Figure 1-5As shown, it includes a base 1, a first bearing 2, a support shaft 3, a cylinder 4, a drain pipe 5, a first valve 6, a filter screen 7, a discharge pipe 8, a second valve 9, a second bearing 10, Long connecting shaft 11, sleeve pipe 12, stirring plate 13, pin shaft 14, small baffle plate 15, first spring 16, guide ring 17, pull wire 18, winding wheel 19, fixed plate 20, first positioning screw rod 21, the first A rotating disk 22, a third bearing 23, a top plate 24, a first support 25, a first guide plate 26, a second positioning screw 27, a second support 28, a second guide plate 29, a third positioning screw 30 and a cover 31 , the first bearing 2 is embedded in the base 1, the lower end of the support shaft 3 is set in an interference connection with the first bearing 2, the cylinder 4 is located above the support shaft 3, the cylinder 4 is connected with the support shaft 3, and th...

Embodiment 3

[0029] A multi-mode stirring type co-precipitation device for rare earth, such as Figure 1-5 As shown, it includes a base 1, a first bearing 2, a support shaft 3, a cylinder 4, a drain pipe 5, a first valve 6, a filter screen 7, a discharge pipe 8, a second valve 9, a second bearing 10, Long connecting shaft 11, sleeve pipe 12, stirring plate 13, pin shaft 14, small baffle plate 15, first spring 16, guide ring 17, pull wire 18, winding wheel 19, fixed plate 20, first positioning screw rod 21, the first A rotating disk 22, a third bearing 23, a top plate 24, a first support 25, a first guide plate 26, a second positioning screw 27, a second support 28, a second guide plate 29, a third positioning screw 30 and a cover 31 , the first bearing 2 is embedded in the base 1, the lower end of the support shaft 3 is set in an interference connection with the first bearing 2, the cylinder 4 is located above the support shaft 3, the cylinder 4 is connected with the support shaft 3, and t...

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Abstract

The invention relates to a co-precipitation precipitation device for rare earth, in particular to a multi-mode stirring type co-precipitation precipitation device for the rare earth. To solve the technical problem of providing the multi-mode stirring type co-precipitation precipitation device, capable of being adjusted and stirring rare earth mixture liquid in various ways, for the rare earth, thetechnical scheme of the multi-mode stirring type co-precipitation precipitation device for the rare earth is that the multi-mode stirring type co-precipitation precipitation device for the rare earthcomprises various parts such as a base, a first bearing, a support shaft, a cylinder, a drain pipe, a first valve, a filter screen, a discharge pipe, a second valve, a second bearing and long connecting shaft; the first bearing is embedded in the base; the lower end of the support shaft and the first bearing are in interference connection. The multi-mode stirring type co-precipitation precipitation device for the rare earth has the advantages of being easy to adjust and capable of stirring the rare earth mixture liquid in various ways, realizing uniform mixing reaction of the rare earth mixture liquid, having simple structure, easy operation and low labor intensity, and being time-saving and labor-saving.

Description

technical field [0001] The invention relates to a co-precipitation device for rare earths, in particular to a multi-mode stirring co-precipitation device for rare earths. Background technique [0002] Rare earths are known as "industrial vitamins". Now it has become an extremely important strategic resource. Rare earth element oxides refer to oxides of 15 lanthanide elements with atomic numbers from 57 to 71 in the periodic table of elements, and oxides of scandium and yttrium, a total of 17 elements whose chemical properties are similar to lanthanide elements. Rare earth elements have been widely used in petroleum, chemical industry, metallurgy, textile, ceramics, glass, permanent magnet materials and other fields. With the advancement of science and technology and continuous breakthroughs in application technology, the value of rare earth oxides will increase. The term rare earth is a name left over from history. Rare earth elements have been discovered since the end of...

Claims

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Application Information

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Patent Type & Authority Applications(China)
IPC IPC(8): B01J19/18C22B3/02C22B3/06C22B59/00B01D36/04B01D21/02C01F17/00
CPCB01D21/0012B01D21/02B01D36/04B01J19/0053B01J19/0066B01J19/18C01F17/247C22B3/02C22B3/06C22B59/00Y02P10/20
Inventor 曾爱玲
Owner 东港智科产业园有限公司
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