CN221207619U - Efficient mixing device for leaching nonferrous metallurgical materials - Google Patents

Abstract

The utility model provides a high-efficiency mixing device for leaching nonferrous metallurgical materials, which comprises a bracket, wherein a mixing barrel is arranged on the bracket, a plurality of baffle plates are arranged on the inner wall of the mixing barrel along the circumferential direction of the mixing barrel, the baffle plates are arranged along the height direction of the mixing barrel, a mixing groove is formed between the baffle plates, a baffle plate is fixed at one end of the baffle plate far away from the inner wall of the mixing barrel, a gap is formed between the baffle plates, a plurality of inclined guide plates are arranged in the mixing groove along the height direction of the mixing groove, the guide plates are fixed on the inner wall of the mixing barrel, a stirring shaft is arranged in the mixing barrel, and blades are arranged on the stirring shaft. According to the utility model, the plurality of baffles and the baffle plates are arranged on the inner wall of the mixing barrel along the circumferential direction of the mixing barrel, so that the disturbance on the materials at the edge of the mixing barrel is improved when the materials in the mixing barrel are stirred, and all the materials can be mixed better.

Description

Efficient mixing device for leaching nonferrous metallurgical materials

Technical Field

The utility model belongs to the technical field of metallurgical equipment, and relates to a high-efficiency mixing device for leaching nonferrous metallurgical materials.

Background

In the metallurgical wet leaching process, the mixed contact effect of each reaction phase has a great influence on the leaching efficiency of materials, especially on some metallurgical industrial materials which are difficult to leach. At present, in the test reaction process, solution disturbance is increased by mainly increasing stirring speed or increasing stirring blades and the like, so that materials in each phase of gas, liquid and solid are fully contacted, and the leaching efficiency of valuable metals is improved. Although the method can obviously increase the local mixing effect of the gas, liquid and solid materials at the part of the center of the container close to the stirring blade, the solution disturbance is small when the container is far away from the stirring shaft and is close to the wall of the reaction container, and the gas, liquid and solid three phases basically flow in the same direction, so that the materials are not easy to fully contact and react.

Disclosure of utility model

The utility model aims to provide a high-efficiency mixing device for leaching nonferrous metallurgical materials, which is used for improving the disturbance effect to fully mix materials of each phase and aims at solving the problem that the materials at the edge of a mixing barrel can not be well mixed when the materials of each phase are mixed and stirred in the background art.

Therefore, the utility model adopts the following technical scheme:

A high-efficient mixing arrangement for nonferrous metallurgical material leaches, which comprises a bracket, the blending tank is gone up to the support, the inner wall of blending tank is equipped with a plurality of baffles along blending tank circumference, the baffle sets up along blending tank direction of height, form the blending tank between the baffle, the baffle is kept away from the one end of blending tank inner wall and is fixed with the baffle, form the clearance between the baffle, be equipped with a plurality of guide plates that are the slope setting along blending tank direction of height in the blending tank, the guide plate is fixed in the inner wall of blending tank, be equipped with the (mixing) shaft in the blending tank, be equipped with the blade on the (mixing) shaft.

Further, a gas pipe is arranged above the mixing barrel, one end of the gas pipe forms a gas conveying port, and the gas conveying port extends into the mixing barrel.

Further, the stirring bearing is arranged vertically.

Further, the bottom of (mixing) shaft wears out from the mixing drum bottom, and the bottom of (mixing) shaft is connected with and is used for driving (mixing) shaft pivoted motor.

Further, the cross section of the partition plate is in a triangular structure.

Further, an included angle of 30-60 degrees is formed between the guide plate and the horizontal plane.

Further, the length of the partition plate is consistent with the height of the mixing drum.

The beneficial effects of the utility model reside in that: the inner wall of the mixing barrel is provided with the plurality of baffle plates and the baffle plates along the circumferential direction of the mixing barrel, so that when materials in the mixing barrel are stirred, the disturbance on the materials at the edge of the mixing barrel is improved, and all the materials can be mixed better; the materials in the mixing tank can enter the tank for mixing and flow downwards under the action of the guide plate when being stirred and mixed, so that the materials at the upper part and the materials at the lower part in the mixing tank are mixed, the mixing effect is further improved, and the leaching effect of nonferrous metallurgical materials is further improved; simple structure, the use mode is convenient.

Drawings

FIG. 1 is a schematic perspective view of the present utility model;

FIG. 2 is a schematic cross-sectional view of the structure of the present utility model;

In the figure, a 1-bracket, a 2-mixing barrel, a 3-baffle plate, a 4-mixing tank, a 5-baffle plate, a 6-gap, a 7-baffle plate, an 8-stirring shaft, 9-blades, a 10-motor, an 11-gas pipe and a 12-gas transmission port are arranged.

Detailed Description

The utility model is described in detail below with reference to the attached drawing figures:

As shown in figures 1 and 2, a high-efficiency mixing device for leaching nonferrous metallurgical materials comprises a bracket 1, a mixing drum 2 arranged on the bracket 1, a circular structure arranged on the mixing drum 2 and used for mixing gas, liquid and solid phases, wherein a plurality of baffle plates 3 are arranged on the inner wall of the mixing drum 2 along the circumferential direction of the mixing drum 2 and are arranged along the height direction of the mixing drum 2, the length of each baffle plate 3 is consistent with the height of the mixing drum 2, a mixing groove 4 is formed between the baffle plates 3, a plurality of mixing grooves 4 are formed at the drum wall of the mixing drum 2 through the baffle plates 3 so as to increase the liquid disturbance at the edge of the mixing drum 2, the mixing effect is improved, a baffle plate 5 is fixed at one end of the baffle plate 3 away from the inner wall of the mixing drum 2, the disturbance on the liquid at the edge of the mixing drum 2 can be further improved by the baffle plate 5, the mixing effect is improved, a gap 6 is formed between the baffle plates 5, the mixing drum 2, the interior liquid accessible clearance 6 gets into in the mixing tank 4, be equipped with a plurality of guide plates 7 that are the slope setting in the mixing tank 4 along mixing tank 4 direction of height, guide plates 7 are fixed in the inner wall of mixing drum 2, form 30-60 degrees contained angles between guide plates 7 and the horizontal plane, liquid in getting into the mixing tank 4 can flow downwards under the effect of guide plates 7, make the liquid in the mixing drum 2 can make the liquid inflow lower part on upper portion when the stirring mixes, and then make the mixing more even, be equipped with in the mixing drum 2 and be the (mixing) shaft 8 of vertical setting, be equipped with blade 9 on the (mixing) shaft 8, the bottom of (mixing) shaft 8 is worn out from mixing drum 2 bottom, the bottom of (mixing) shaft 8 is connected with and is used for driving (mixing) shaft 8 pivoted motor 10, drive blade 9 through (mixing) shaft 8 and rotate, and then mix the material stirring in the mixing drum 2 evenly.

In order to prevent the baffle 3 from being deformed by liquid external force during mixing, the cross section of the baffle 3 is in a triangular structure, the stress deformation of the baffle 3 is prevented, a gas transmission pipe 11 is arranged above the mixing barrel 2, one end of the gas transmission pipe 11 is provided with a gas transmission port 12, the gas transmission port 12 faces downwards and stretches into the mixing barrel 2, and gas can be input into the mixing barrel 2 through the gas transmission pipe 11 for gas-liquid phase mixing.

The application mode of the utility model is as follows:

When the mixing tank is used, liquid and solid are placed in the mixing tank 2, the liquid level is enabled to exceed the gas conveying port 12, then the motor 10 is started to drive the blade 9 to rotate through the stirring shaft 8 so as to stir the liquid and the solid in the mixing tank 2, meanwhile, gas can be conveyed into the mixing tank 2 from the gas conveying port 12 through the gas conveying pipe 11 to be mixed with gas, liquid and solid phases, materials in the mixing tank 2 are stirred through the blade 9 to rotate, mixed liquid at the edge of the mixing tank 2 enters the mixing tank 4 through the gap 6 in the rotating process, in the process, the liquid is impacted between the baffle 5 and the partition plate 3, the disturbance of the liquid at the edge of the mixing tank 2 is increased, the mixing effect is improved, the mixed liquid flows to the lower side of the mixing tank 4 under the action of the guide plate 7 after entering the mixing tank 4, the mixed liquid at the upper part of the mixing tank 2 and the mixed liquid at the lower part are mixed, the mixing effect is further improved, the materials are fully contacted and reacted, and the leaching effect of subsequent nonferrous metal is effectively improved.

Claims (7)

1. A high-efficient mixing arrangement for non ferrous metallurgy material leaches, a serial communication port, including support (1), mixing drum (2) on support (1), the inner wall of mixing drum (2) is equipped with a plurality of baffles (3) along mixing drum (2) circumference, baffle (3) are along mixing drum (2) direction of height setting, form mixing tank (4) between baffle (3), the one end that mixing drum (2) inner wall was kept away from to baffle (3) is fixed with baffle (5), form clearance (6) between baffle (5), be equipped with a plurality of guide plates (7) that are the slope setting along mixing tank (4) direction of height in mixing tank (4), guide plate (7) are fixed in the inner wall of mixing drum (2), be equipped with (mixing) shaft (8) in mixing drum (2), be equipped with blade (9) on (mixing) shaft (8).

2. The efficient mixing device for leaching nonferrous metallurgical materials according to claim 1, wherein a gas pipe (11) is arranged above the mixing barrel (2), one end of the gas pipe (11) forms a gas conveying port (12), and the gas conveying port (12) stretches into the mixing barrel (2).

3. A high-efficiency mixing device for leaching of nonferrous metallurgical materials according to claim 1, characterized in that the stirring shaft (8) is arranged vertically.

4. An efficient mixing device for leaching nonferrous metallurgical materials according to claim 1, wherein the bottom end of the stirring shaft (8) penetrates out of the bottom of the mixing drum (2), and the bottom of the stirring shaft (8) is connected with a motor (10) for driving the stirring shaft (8) to rotate.

5. A high-efficiency mixing device for the leaching of non-ferrous metallurgical materials, according to claim 1, characterized in that the cross section of the partition (3) is of triangular structure.

6. A high-efficiency mixing device for leaching of nonferrous metallurgical materials according to claim 1, characterized in that the deflector (7) forms an angle of 30-60 degrees with the horizontal.

7. A high-efficiency mixing device for the leaching of nonferrous metallurgical materials according to claim 1, characterized in that the length of the partition (3) corresponds to the height of the mixing vat (2).