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Movable stirring-type coprecipitation device for rare earth

A precipitation device and stirring type technology, applied in the direction of improving process efficiency, can solve problems such as affecting product quality, inability to adjust, and uneven mixing reaction of rare earth mixed material and liquid, and achieve the effect of good stirring effect and wide stirring range.

Active Publication Date: 2018-12-28
江苏鑫环球建设工程有限公司
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Problems solved by technology

[0004] In order to overcome the existing co-precipitation device for rare earth usually adopts the traditional fixed structure, which cannot be adjusted, so that the rare earth mixture liquid cannot be moved and stirred, resulting in uneven mixing reaction of the rare earth mixture liquid, and the generated rare earth carbonate The quality is low, which seriously affects the quality of the produced products. The technical problem is: to provide a movable stirring type co-precipitation device for rare earths that can be adjusted and can move and stir the rare earth mixture liquid.

Method used

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  • Movable stirring-type coprecipitation device for rare earth
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  • Movable stirring-type coprecipitation device for rare earth

Examples

Experimental program
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Effect test

Embodiment 1

[0025] A movable stirring type co-precipitation device for rare earth, such as Figure 1-6 As shown, it includes a sedimentation tank 1, a discharge pipe 2, a first valve 3, a leg 4, a discharge pipe 5, a second valve 6, a filter screen 7, a large stirring plate 8, a first connecting shaft 9, and a small cam 10. Contact plate 11, first guide rod 12, limit block 13, first L-shaped plate 14, first positioning screw 15, movable shaft 16, limit sleeve 17, second positioning screw 18, concave plate 19, The first bearing 20, the second bearing 21, the first bevel gear 22, the second L-shaped plate 23, the first rotating disk 24, the second guide rod 25, the spring 26, the third bearing 27 and the second bevel gear 28, row The material pipe 2 is located below the sedimentation tank 1, the discharge pipe 2 is connected with the sedimentation tank 1, the discharge pipe 2 is connected with the sedimentation tank 1, the first valve 3 is arranged on the discharge pipe 2, and the two sides...

Embodiment 2

[0027] A movable stirring type co-precipitation device for rare earth, such as Figure 1-6As shown, it includes a sedimentation tank 1, a discharge pipe 2, a first valve 3, a leg 4, a discharge pipe 5, a second valve 6, a filter screen 7, a large stirring plate 8, a first connecting shaft 9, and a small cam 10. Contact plate 11, first guide rod 12, limit block 13, first L-shaped plate 14, first positioning screw 15, movable shaft 16, limit sleeve 17, second positioning screw 18, concave plate 19, The first bearing 20, the second bearing 21, the first bevel gear 22, the second L-shaped plate 23, the first rotating disk 24, the second guide rod 25, the spring 26, the third bearing 27 and the second bevel gear 28, row The material pipe 2 is located below the sedimentation tank 1, the discharge pipe 2 is connected with the sedimentation tank 1, the discharge pipe 2 is connected with the sedimentation tank 1, the first valve 3 is arranged on the discharge pipe 2, and the two sides ...

Embodiment 3

[0030] A movable stirring type co-precipitation device for rare earth, such as Figure 1-6 As shown, it includes a sedimentation tank 1, a discharge pipe 2, a first valve 3, a leg 4, a discharge pipe 5, a second valve 6, a filter screen 7, a large stirring plate 8, a first connecting shaft 9, and a small cam 10. Contact plate 11, first guide rod 12, limit block 13, first L-shaped plate 14, first positioning screw 15, movable shaft 16, limit sleeve 17, second positioning screw 18, concave plate 19, The first bearing 20, the second bearing 21, the first bevel gear 22, the second L-shaped plate 23, the first rotating disk 24, the second guide rod 25, the spring 26, the third bearing 27 and the second bevel gear 28, row The material pipe 2 is located below the sedimentation tank 1, the discharge pipe 2 is connected with the sedimentation tank 1, the discharge pipe 2 is connected with the sedimentation tank 1, the first valve 3 is arranged on the discharge pipe 2, and the two sides...

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Abstract

The invention relates to a coprecipitation device for rare earth, in particular to a movable stirring-type coprecipitation device for rare earth. The movable stirring-type coprecipitation device for the rare earth can be adjusted and can stir rare earth mixture liquid in a moving mode. According to the technical scheme, the movable stirring-type coprecipitation device for the rare earth comprisesa precipitation cylinder, a discharging pipe, a first valve, supporting legs, a liquid discharging pipe, a second valve, a filtering net, a large stirring plate, a first connecting shaft, a small cam,a contact plate and the like; and the discharging pipe is located on the lower portion of the precipitation cylinder and connected with the precipitation cylinder. The movable stirring-type coprecipitation device for the rare earth can be adjusted, can stir the rare earth mixture liquid in the moving mode, and can enable a mixing reaction of the rare earth mixture liquid to be even, the quality of a prepared product is improved advantageously, the production and development of enterprises are facilitated, and operation is convenient.

Description

technical field [0001] The invention relates to a co-precipitation device for rare earths, in particular to a movable stirring type 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 the third valve to the fifth bevel gear 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...

Claims

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Application Information

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IPC IPC(8): C22B59/00C22B3/02C22B3/44
CPCC22B3/02C22B3/44C22B59/00Y02P10/20
Inventor 何键松
Owner 江苏鑫环球建设工程有限公司
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