RU1789283C - Column-type floatation machine - Google Patents

Abstract

The invention can be used in mineral processing and wastewater treatment. SUMMARY OF THE INVENTION: the machine consists of two chambers 1 and 2, with the Remote control the lower end of the upper chamber 1 located inside the lower chamber 2. In the upper part of the chamber 2 in the discharge zone of the foam product is an expander 4, made in the form of an inverted truncated pyramid, all walls 5 which is made with the possibility of changing the angle of their installation relative to the smaller base of the expander 4 and articulated with each other by elastic material 6 along the ribs of the expander 4. When changing the parameters in the flotation supply, the degree of aeration is regulated Ulpia by varying the area of the surface of the foam layer in the expander 4 by varying the angle of inclination of the walls 5. The foam product of the dilator 4 is removed in Skimmer 9, and the chamber is discharged through the discharge device 3. 2 yl. 00

Description

Fig 1 Tails 1 (otkhoi)

FIELD OF THE INVENTION The invention relates to mineral processing by a flotation method, and in conjunction with pneumatic column flotation machine designs.

A known design of a pneumatic column flotation machine comprising a chamber with air aerators and a device for unloading the chamber product with a gate to control the level of foam product in the chamber of the machine. A significant drawback of this column machine design is the relatively low recovery of the useful product in the concentrate due to the impossibility of ensuring the aerohydrodynamic behavior of the column flotation process of the specific surface of the foam layer. As a result, there is a decrease in the recovery of the useful component in the concentrate.

A known construction of a pneumatic column machine comprising two chambers, the lower end of the first and of which is lowered into the second chamber. The enrichment pulp and air are fed into the first chamber, the formation of flotation complexes takes place here, and the flotation separation of the enriched material takes place in the second chamber. The design of the machine includes devices for unloading chamber and foam products. A significant disadvantage of the known machine is the impossibility of providing in the chamber of the machine an aero-hydrodynamic process of the column flotation process in accordance with the specific surface of the foam layer, which significantly reduces the recovery of the useful component in the concentrate.

The purpose of the invention is to increase the recovery of the beneficial component in the concentrate by increasing the degree of aeration of the pulp by changing the specific surface of the foam layer.

This goal is achieved due to the fact that in the developed machine, the aerohydrodynamic regime of the process of column flotation of the specific surface of the foam layer is ensured. The essence of the developed device is as follows. The column flotation machine includes two chambers, the lower end of the first of them is inserted into the second chamber. In the second chamber, a separation process takes place, and the products of enrichment are removed through devices for unloading the chamber and foam products. To achieve this goal, the machine is equipped with an expander in its upper part in the foam product unloading zone, made in the form of a hollow inverted truncated pyramid, all side walls of which are made with the possibility of changing the angle and installing a relatively smaller base of the expander. The device includes

a device for changing the angle of installation of the side walls of the expander, wherein the side walls of the expander from the side of its ribs are joined together by elastic material.

0 Fig. 1 shows a general view of the developed device, Fig. 2 is a top view. The machine has a chamber 1, the lower end of which is lowered into the chamber 2, an unloading device 3 for removing the chamber

5 of the product in the lower part of the chamber 2, the expander 4 in the upper part of the chamber 2, the side walls of which 5 are connected to each other on the side of the ribs of the expander 4 by elastic material 6, the side walls 5 of the expander 4 with rods 7 are connected with the device 8 for changing the angle installation of the side walls 5 of the expander 4, a foam collector 9 is installed on the outside of the expander 4.

5 The operation of the device is as follows.

The developed machine relates to machine designs in which the process of mineralization of bubbles and separation

0 pulp-air mixture occurs in different chambers (chamber 1 and chamber 2). The pulp treated with reagents and air through the nozzles are fed into the chamber 1 of the machine, in which at high flow rates and

5 of aeration, an elementary act of flotation takes place, after which the enriched material enters chamber 2, where at low speeds the process of separation of mineral particles takes place. Air consumption as well

0 pulp flow rate supplied to the chamber 1, the height of the chamber 1, its penetration into the chamber 2 - all these products provide the aerohydrodynamic regime of the column flotation process, which

5 case: when enriching one or another useful component, it is selected. In addition, the specific surface of the foam layer, i.e., the ratio of the mirror (surface) of the foam layer to the chamber volume of the machine (m / m), has a very significant effect on the column flotation process. Depending on the aerohydrodynamics of the process, the flow rate of solid supplied to the flotation, it is necessary to change the value

5 specific surface areas of the foam layer. In other words, the aerohydrodynamics of the column flotation process of a particular mineral must correspond to a specific surface of the foam layer. Change in the specific surface of the foam layer

is provided by changing the angle of installation of the side walls of the expander 4 relative to its smaller base. A change in the angle of installation of the side walls of the expander 5 is provided through the rods 7 with a device 8 for changing the angle of installation of the side walls 5. In this case, the gears of the device 8 move along the gear rack, changing the angle of installation of the side walls 5, thereby changing the surface of the foam layer in the expander , i.e. the specific surface of the foam layer changes, because the volume of the chamber of the machine in this case varies very slightly. The foam product containing the useful component is removed through the expander 4 to the foam collector 9. Changing the aero-hydrodynamic parameters in the chamber 1, as well as the specific surface of the foam layer in the chamber 2 creates a condition for changing the formation time of the flotation complexes and the flow rate

in chamber 2. Thus, the developed machine makes it possible to ensure a wide range of correspondence of the aerohydrodynamic characteristics of the flotation column to the specific surface of the foam layer, thereby increasing the efficiency of the mineral processing process.

 To determine the effectiveness of the developed device, comparative studies of the developed device and the device, adopted as a prototype in the enrichment of manganese ores, were carried out.

As shown by the studies, the developed machine allows, by ensuring that the aerohydrodynamic conditions of the specific surface of the foam layer in the chamber of the machine are consistent, the extraction of manganese into concentrate is increased by 1.2% compared to the prototype.

Claims (1)

SUMMARY OF THE INVENTION A column flotation machine comprising two chambers, the lower end of the upper of which is located inside the lower chamber, a collector and a device for unloading the chamber product, characterized in that, in order to increase the recovery of the useful component in the concentrate by increasing the degree of aeration of the pulp by changing specific surface foam layer, it is equipped with an extender located in the upper part of the lower chamber in the area of the foam product unloading and made in the form of an inverted truncated hollow pyramid, all side walls of which are installed with the possibility of changing the angle of inclination relative to the smaller base of the expander, and the sides along the ribs of the expander are articulated other elastic material. Fiz2