RU2038153C1 - Device for enrichment of heavy minerals - Google Patents

Abstract

FIELD: enrichment of heavy minerals. SUBSTANCE: there is a housing in which a flexible base is mounted for engagement with vibrator. As the column with vibrator oscillate, source material separates into layers. Concentrate settles down on the base, light fraction overflows and discharges into the channel. EFFECT: higher efficiency. 2 cl, 2 dwg

Description

 The invention relates to the field of enrichment of heavy minerals and can be used mainly in the enrichment of gold sands.

A device for mineral processing is known as a hydraulic jigging machine, which is most widely used in the practice of mineral processing [1]
The jigging machine consists of a rectangular (in plan) metal casing in which the jigging sieve is located. The sublattice part of the body (its lower part) has a pyramidal, semi-cylindrical or parabolic shape.

 The sieve is fixed. A longitudinal vertical partition not reaching the bottom divides the machine into two compartments: the first working, on the grate of which the mixture of mineral grains is separated, and the second piston (or air). Fluctuations in water in a piston machine are caused by moving up and down a piston connected by a rod to an eccentric drive. At the air inlet, the water level in the deposition compartment rises (upward flow), with the release of air into the atmosphere decreases (downward flow).

 Also known is the MOD 3 jigging machine with conical bottoms, which has a welded body made of sheet steel, the water oscillations in which are created due to the alternating movements of the conical bottoms up and down, which is facilitated by the spring. A rubber diaphragm is placed between the movable conical bottom and the machine body. The conical bottom receives movement from an eccentric drive, rocker arm, connecting rod, eccentric shaft, drive and interchangeable pulleys, and an electric motor.

 The source material enters the jigging sieve of the machine through the loading chute. There is a support sieve under the jigging sieve, and a sieve for evenly distributing the artificial bed. The jig sieve is attached to the housing using spacer boards and wedges. Heavy fractions are unloaded through an artificial bed under the sieve of the machine and removed from the movable cone of the machine through the unloading device. Light fractions with water go through an adjustable threshold. The bottom water is fed into the machine through pipes and a collector.

 A known apparatus for separation in a heavy suspension under conditions of vibration [2] It is a conical vessel, supported by several springs located on the ring. In the upper part of the cone, two de-ballast vibrators are rigidly fixed, forming together one two-mass self-synchronizing inertial vibrator, which gives the cone with the suspension in it harmonic oscillations along a vertical linear path with a frequency of 1000-3000 counts / min and an amplitude from 0 to 0.4 mm. The vertical filling pump and hose system circulate the slurry at the speed necessary to prevent the weighting agent from settling. The cone discharge, before entering the pump, passes through a funnel with a grid, the dimensions of the branches of which are selected in such a way as to ensure free passage of the weighting particles and to delay particles of the weighted material.

 The known apparatus improves separation in a heavy suspension by applying vibration.

 The disadvantages of the known apparatus should include the need to ensure fluctuations throughout the body of the apparatus and, as a result, high energy and metal consumption.

 The aim of the invention is to eliminate these disadvantages, as well as the intensification of the enrichment process.

 The goal is achieved by the fact that the known device for the enrichment of heavy minerals, including a housing with a device for feeding the starting material and outputting the separated fractions, a vibrator, is equipped with a column located inside the housing and an elastic jigging base installed with the possibility of vibrations, while the vibrator is mounted on the column.

 The depositing base can be made in the form of a ring, and the lower part of the column is located in the hole of the ring.

 The depositing base is made with adjustable elasticity.

 In FIG. 1 shows a device with a radially linear input of the source material; figure 2 is the same with the tangential input of the source material.

 The device (figure 1) contains a housing 1 with a channel 2 of the input of the source material 3 and the channel 4 of the output of the separated fractions, an elastic jigging base, which is used as a pneumatic tire 5. Inside the housing 1 there is a cylindrical column 6 with a vibrator 7. mounted on it part of the column is connected by springs 8 to the housing 1. To adjust the pressure in the tire, a pipe 9, 10 concentrate, 11 disk, on which the pneumatic tire 5 is installed and to which the column 6 is rigidly attached, are used.

 The device operates as follows.

 The source material 3 is fed through the channel 2 of the entrance to the housing 1. Due to the vibration of the cylindrical column 6, the concentrate 10 is deposited on the depositing base (bus 5). By means of air pressure in the depositing base 5, it is possible to regulate the process of depositing the concentrate, which allows to optimize the process.

 The unloading of the heavy fraction (concentrate) is carried out periodically, and the period between unloading is established empirically, depending on the nature of the material being enriched, its size and the content of the heavy fraction in the starting material, which can be from 4-8 hours to 15 days.

 Unloading is carried out manually or automatically with the use of water ejector pumps, sucking a heavy fraction from the housing and transporting it for further processing.

 Figure 2 shows a variant with a tangential input of the source material.

 The use of the present invention intensifies the process of enrichment of gold sands, just in manufacture, using a pneumatic automobile tire, including a used one, as a depositing base.

 Due to the small size, low metal consumption, energy consumption, the device can be installed on a self-propelled chassis, such as a car, tractor, and used for prospecting purposes. The installation can be operated by 1-2 people.

 The device should be installed at the end of the enrichment line.

Claims (3)

 1. DEVICE FOR THE ENRICHMENT OF HEAVY MINERALS, including a housing with devices for feeding the source material and outputting the separated fractions, a vibrator, characterized in that, in order to intensify the enrichment process, it is equipped with a column located in the housing and an elastic jigging base installed with the possibility of oscillations, while the vibrator is mounted on the column.  2. The device according to claim 1, characterized in that the depositing base is made in the form of a ring, and the lower part of the column is located in the hole of the ring.  3. The device according to p. 2, characterized in that the jigging base is made with adjustable elasticity.

Images