SU1101305A1 - Flotation machine - Google Patents

Abstract

1. FLOTATION MACHINE, which includes a working tank consisting of an aeration and mixing chamber and a pulp raising chamber, made in the form of a truncated cone, a pulp and air mixture supply device, made in the form of a cylindrical box with rectangular gaps and placed at the bottom of the working chamber, a discharging device, a foam gutter and protrusions located opposite the slots, characterized in that, in order to increase the efficiency of the separation of minerals of a wide size range by creating air belly There are different sizes of holes, it is equipped with an annular de-aeration chamber, and the working capacity is equipped with a device for supplying water-air mixture installed above the pulp and air mixture supply device and a cone-shaped pulp flow divider installed in the pulp raising chamber, while the aeration and mixing chamber is designed as two truncated cones connected by large bases, one of which is coupled with a pulp raising chamber. 2. The machine pop. 1, I distinguish (L shcha with the fact that the device for the supply of water-air mixture is made in the form of a conical box with cracks along the entire length of the generator 3. The machine according to claim 1, I distinguish it with the fact that it has a device for adjusting the level of the pulp.

Description

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: l The invention relates to the beneficiation of minerals, in particular, to the design of flotation machines. ........ A known flotation machine, comprising a cylindrical chamber and a pulp and air supply unit, which is provided. is a partition or wall installed at a certain distance from the hole through which the pulp-air mixture of the pulp of air and air is blown under pressure and blows into this partition or wall. rone septum, the opposite of where. a blower is installed, the deaeration zone is formed; the pulp is discharged from the deazeration zone. . The disadvantage of this flotation machine is that the use of a turbulence jet is not as efficient as crushing air bubbles. As a result, bubble sizes of a wide spectrum are obtained. A fairly high flow rate during flow around the partition prevents a more complete division of the aggregate: the bubble - particle. A flotation machine is also known, which includes a working tank consisting of an aeration and mixing chamber and a pulp raising chamber made in the form of a truncated cone, which is used to supply a pulp-like mixture made in the form of a cylindrical box with rectangular gaps and placed at the bottom of the working chamber, a discharge device, a dashboard and a protrusion located opposite the slots H. A disadvantage of the known flotation machine is that the production of extremely fine bubbles in the pulp and air mixture presents a difficult task, the air bubbles are unevenly distributed when released into the foam. In addition, a disadvantage is the difficulty of automatically adjusting the level in the machine. The purpose of the invention is to increase the efficiency of the separation of minerals of a wide range of size by creating air bubbles of various sizes. I The goal is achieved by the fact that the flotation machine is equipped with an annular deaeration chamber and a working tank with a device for supplying a water / air mixture installed above the pulp and air mixture supply device and a cone-shaped pulp flow divider installed in the pulp chamber / while the aeronation chamber and mixing made in the form of two truncated cones connected by large bases, one of which is associated with a pulp raising chamber ..... The device for supplying the air-water mixture is made in the form of a conical box. with cracks along the entire length of the generator. The machine has a device for adjusting the level of the pulp. The drawing shows the proposed flotation machine. . . The working capacity of the flotation machine consists of two connected chambers 1 and 2: aeration and mixing chambers 1, having the shape of two truncated coyuses, connected by large ribs, and chambers. 2. pulp lifting, which is also made in the form of a truncated cone adjoining the swarm 1 to a smaller base, and the diameter of the upper base is 1.31, 6 times smaller than the diameter of the lower base. An annular deaeration chamber 3 adjoins the pulp raising chamber, in which a device is located that ensures the maintenance of a constant level of pulp in a flotation machine 4. A pipe with a flange and a cone-shaped head 5 serves to feed the pulp and air mixture. The bottom wall of the box 6 has the shape of a circle and is made of wear-resistant material, the top is the shape of a ring, to the inside of which is attached a pipe 5. Along the circumference of the box there are outlets 7, the height of which does not exceed 10 mm. Under the box 6 there is a cylindrical box 8 in which there is a device 9 for supplying a water-air mixture and outlet slots 10 having a rectangular shape. Opposite the slots are the protrusions 11.. A cone-shaped regulating divider 12 is arranged in chamber 2, facilitating more directed upward movement at a certain speed, an overflow threshold 13 and an annular groove for a frothy product 14. In the lower part of the annular deaeration chamber there is an adjustment valve 15 for removing large particles settled in the chamber. The machine works as follows. The pulp and air mixture under pressure of at least 1 atm enters through box 5 into duct b, hits the bottom wall of the duct and through slots 7 enters chamber 1. The velocity of the pulp air mixture when entering the chamber is 5-7 m / s, the amount of air depending on material 20-40% of the volume. pulp, and the size of the bubbles on average 1.0-1.5 mm.

The air-air mixture at a pressure of at least 2 atm at a speed of 20–35 m / s through the device 9 is fed into the duct 8 and hit the upper wall. Further, the jet of air-water mixture at a speed of 12-18 m / s leaves through the slots 10 of the duct into the chamber and the vessel. p1 into protrusions located nat against the slits and along the entire length, circumference 11.

The box 8 and the protrusions 11 allow extremely intensively. To crush the air bubbles and obtain the sizes of the bubbles, from 20 µm to I500 µm. The presence of bubbles of small and large sizes in the pulp allows for the intensive flotation of small and large particles. The volume of clean or circulating water introduced into the box 8 should be .JB within 10-20% of the volume of pulp entering the flotation. ..The volume of the air must be equal to or slightly more than the volume of water.

The introduction of a box for obtaining small air bubbles allows, in addition, to significantly reduce the energy consumption required for the flotation process and to increase the service life of the device 5.

Thus, the jet of water-air mixture, rising up, is mixed with the jet of a pulp and air mixture, and since the speeds of both jets are large, the mixing is very intensive. Further, the air-air mixture rises upwards, with three zones clearly expressed in the flow structure: a zone of translational flow in the form of a spreading jet, a circulation zone having the shape of a roller with a diameter equal to the distance from the jet boundary to the box 6, and a second rotating drum located in the area between the wall of the chamber and the boundary of the jet. The friction between the boundary layer of the jet and the roller, due to: strong mixing that occurs here in the presence of large gradients of the longitudinal velocity, quenches a significant part of the energy of the spreading jet.

Climbing up and reaching the obliquely narrowing wall of the chamber, the flow moves along it. In the section of the path from the ledge to the meeting with the jet moving towards it, the process of sticking of reagent droplets with particles of the mineral occurs. When two streams collide with equal velocities of 30-50 cm / s, two equal-sized circulation regions are formed. Area, collision of two streams

This causes turbulence. Naturally, the frequency of encounters of particles with reagent droplets and air bubbles increases significantly compared with the number of encounters in creature spaces of mechanical-type flotation machines. Then the flow of the mixture rises up to occupy the entire volume of chamber 2, which is an inverted truncated cone. Air bubbles. being in the jet, they are also equally distributed over the entire cross section and rise vertically upwards. Captured by the jet. solid material moves mainly in the same direction as rum float. air bubbles.

The regulating pulp divider 12 contributes to a more directional. flow upwards. In addition, the presence of an adjustable divider makes it possible to more evenly distribute the pop-up aggregates: particle elbows over the entire surface of the foam layer.

Then the pulp flows overflow evenly along the entire circumference of the circle into the annular deaeration chamber 3 and move from the center to the periphery, while the aggregates: the bubble particle is intensively released from the streams into the foam layer. The rate of flow in the deaeration chamber is insignificant. So, when entering the chamber, an average speed of 5-10 m / s, of finite 3-6 cm / s.

Along the entire length of the outer circumference of the annular deaeration chamber, there is a device that maintains the level of pulp in the flotation machine 4. The chamber product enters the chamber, which has the shape of a slit, and, moving upwards at a speed of 10 12 cm / s, goes over the overflow. The efficiency of the device is very high, even reducing or increasing the volume of incoming pulp to the flotation machine by 2-3 times does not change its level, while at the same time the simplicity of the design makes it reliable.

In the lower part of the annular deaeration chamber there are several adjustment valves 15. Large particles fall out of the streams moving at a low speed in the annular deaeration chamber, and since the lower part of the deaeration chamber is tapered, particles under the force of gravity flow through the adjustment valve 15 into the drain. The adjustment valve adjusts to a certain material, it passes volume equal to 5-10% of the volume of the entire pulp.

The offered flotation machine equally effectively floats both very small (less than 10 microns) and. large particles of mineral that allow

Claims (3)

1. FLOTATION MACHINE, including a working tank, consisting of an aeration and mixing chamber and a pulp lifting chamber made in the form of a truncated cone, a pulp-air mixture supply device, made in the form of a cylindrical box with rectangular slots and placed at the bottom of the working chamber, an unloading device, foam collecting chute and protrusions located opposite the slots, characterized in that, in order to increase the efficiency of separation of minerals of a wide range of fineness by creating air bubbles various sizes, it is equipped with an annular deaeration chamber, and the working capacity is a device for. the air-water mixture installed above the pulp-air mixture supply device and the cone-shaped pulp flow divider installed in the pulp lifting chamber, while the aeration and mixing chamber is made in the form of two truncated cones connected by large bases, one of which is connected to the lifting chamber pulp. 2. The machine according to claim 1, according to the fact that the device for supplying the air-water mixture is made in the form of a conical duct with slots along the entire length of the generatrix. 3. Machine pop. 1, distinguished by the fact that it has a device for controlling the level of pulp.