RU2191074C1 - Pneumatic flotation column machine - Google Patents

Abstract

FIELD: mineral concentration; applicable in processing of mineral raw materials containing nonferrous, ferrous, rare, noble metals and nonmetalliferous minerals. SUBSTANCE: flotation machine includes chamber of rough flotation with feeding, aeration and unloading devices. Rough flotation chamber accommodates final flotation chamber whose bottom part is provided with feeding and aerating devices in the form of ejectors. Unloading device of rough flotation chamber is made in the form of branch pipes through which and ejectors, pulp is unloaded into final flotation chamber. EFFECT: increased recovery of useful component into concentrate due to full exclusion of countercurrent in flotation process. 1 dwg, 1 tbl

Description

 The invention relates to the field of mineral processing and can be used in the processing of mineral raw materials containing non-ferrous, ferrous, rare, precious metals, as well as non-metallic minerals.

 Known flotation pneumatic machine, including a chamber with an aerator located inside, loading and unloading devices installed in the center of the chamber airlift with a mixer in the lower part (see RF patent 2054972, B 03 D 1/24).

 The disadvantage of this machine is that the tails are unloaded only through the bottom of the machine, and the existing airlift with a cone-shaped chipper located above it serves as a feeding aeration device. Using only bottom discharge is extremely difficult to stabilize the pulp level in the machine, and this leads to disruption of the flotation process. In addition, the chamber flotation product returned to the foam layer destroys the already formed flotation complexes involved in the creation of the foam layer.

 Known pneumatic flotation machine, including a cylindrical body, consisting of an expanded upper and lower parts - the main flotation chamber, feeding and unloading devices, aerators and foam collector. In the chamber of the main flotation (in the expanded part) there is a telescopic pipe mounted with the possibility of vertical movement. Inside the pipe there is a stabilizing device in the form of an inverted cone (see RF patent 2132749, B 03 D 1/24).

 A disadvantage of the known machine is that mineral grain with a hydrophobized surface, which for various reasons did not flotate in the expanded part of the hull, sinking down to discharge, must meet with bubbles of upward air flow from the aerators, which does not always lead to complete flotation. This is because the mineral particles fall through the interbubble channels to discharge. Thus, the reason for the lack of flotation is the "counterflow".

 The closest in technical essence is a flotation pneumatic column machine, including a main flotation chamber with supply, aeration and discharge devices, a doflotation chamber with a supply, aeration and discharge device located inside the main flotation chamber (see USSR AS 478615, class B 03 D 1/24, publ. 22.12.1975).

 The disadvantage is the presence of a "counterflow" in the doflotation chamber.

 The technical result of the invention is to increase the extraction of the useful component in the concentrate due to the complete elimination of "counterflow" in the flotation process.

 The technical result is achieved by the fact that in the machine, including the main flotation chamber with feeding and aeration and unloading devices, the doflotation chamber located inside the main flotation chamber with the feeding, aeration and unloading devices, the feeding and aeration devices of the doflotation chamber are located in its lower part and are made in in the form of ejectors, and the unloading device of the main flotation chamber is made in the form of pipes, through which pulp is unloaded into the doflotation chamber through ejectors as well.

 The presence of a flotation chamber with independent supply and aeration devices eliminates backflow, since pulp with non-flotated mineral grains, unloaded from the main flotation chamber, is fed into the ejectors of the flotation chamber, where it comes into contact with air, after which the flotation act is performed.

 The drawing shows a General view of a flotation pneumatic column machine.

 The flotation machine includes a main flotation chamber 1, inside which a flotation chamber 2 is placed. Chambers 1 and 2 are equipped with feeding and aerating devices - ejectors 3, and the ejectors in the flotation chamber 2 are located in its lower part. The main flotation chamber 1 is equipped with discharge nozzles 4, and the doflotation chamber 2 is equipped with an unloading device 5. On the outer part of the main flotation chamber 1 there is an annular chute for collecting foam product 6 with a nozzle 7.

 Flotation machine operates as follows.

 The pulp pretreated with reagents enters through the ejector 3 into the main flotation chamber 1. At the same time, air enters the ejector 3, which comes into contact with the hydrophobic grains of the pulp, forming aeroflocles. Aeroflocules, emerging, form a foam product. The foam product is discharged into the receiving chute 6 and through the pipe 7 is sent to the condensation (not shown in the drawing). Grains with insufficiently hydrophobized surface, as well as hydrophilic grains, are discharged through the unloading device 4 and fed through the ejection chamber 2 into the flotation chamber 2. In the ejector 3, the flotation chamber 2 creates aeroflocles that form a foam product in the upper part of the flotation chamber 2. Hydrophilic grains are lowered into the bottom part of the flotation chamber 2 and removed through the discharge device 5. The foam product from the flotation chamber 2 through its upper slice enters the main flotation chamber 1, mixes with its foam the product formed earlier on its surface, and is also unloaded into the receiving chute and through the pipe 7 is sent to the condensation.

 The flotation machine was tested in laboratory conditions on copper-containing ore in comparison with the machine (according to ed. St. 478615). The test results are presented in the table.

 The results of the table indicate that the design of the flotation pneumatic machine allows to increase the extraction of a valuable component (in this case, copper) by eliminating the "backflow" in the flotation process.

Claims (1)

 Pneumatic flotation column machine including a main flotation chamber with supply, aeration and discharge devices, a doflotation chamber located inside the main flotation chamber with a supply, aeration and discharge devices, characterized in that the supply and aeration devices of the doflotation chamber are located in its lower part and are made in in the form of ejectors, and the unloading device of the main flotation chamber is made in the form of nozzles, through which pulp is unloaded into the chamber flotation.

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