RU2047375C1 - Air-driven pulsating jig - Google Patents

Abstract

FIELD: washing granular materials; mining engineering. SUBSTANCE: device has screw conveyers as executive organ for generating medium pulsations. The screw conveyers are placed in spaces above and under the riddle rotating in turn in clock-wise and counter clock-wise direction. EFFECT: effective loosening and discharging separated fractions. 4 dwg

Description

 The invention relates to an enrichment technique, namely to the enrichment of placer sands containing mineral grains, for example, cassiterite nuggets or gold.

 Closest to the invention are jigging machines with a fixed sieve, including a sieve compartment with an over-sieve scraper-box conveyor mounted above the jigging sieve for mechanical movement of the enriched material, a pulsation compartment in which fluid oscillations are created by reciprocating piston [1] The main disadvantages of these The machines are structural complexity and low reliability. The pulsating oscillations created by the piston mechanisms cause high dynamic loads on the machine body and all structural elements. A piston mechanism with a bulky drive system leads to increased costs for the design, assembly, testing and testing of enrichment modes.

 The purpose of the invention is to increase the extraction of valuable components by optimizing the conditions for the separation and intensification of hydrodynamic flows.

 This is achieved by the fact that in a non-reciprocating jigging machine, including a housing, a sieve, an under-sieve and an over-sieve compartment for jigging and separation, a drive of pulsating vibrations of the medium and a transporting mechanism, actuators of the drive of pulsating vibrations of the medium are made in the form of screws installed in the under-sieve and over-sieve compartments with the possibility of alternating rotation clockwise and counterclockwise, while the v-shaped slit-like sieve is installed with gaps relative to the side surfaces of the housing and a slope in the direction It is equipped with a visor located on the unloading side of the waste rock and installed with a slope less than the sieve, and the front wall of the body above the sieve from the unloading side of the enriched fraction is made with ribs and installed at an obtuse angle to the sieve.

 In FIG. 1 shows a machine, a top view; figure 2 section along aa in figure 1; figure 3 view along arrow B in figure 1; figure 4 is a view along arrow B in figure 2.

The jigging pistonless machine has a housing 1, an under-sieve 2 and an over-sieve 3 compartments for jigging and separation, the drive 4 of pulsating oscillations of the medium is made with the possibility of alternating rotation clockwise and counterclockwise. Executive bodies 6, 7 of the drive 4 pulsating fluctuations of the environment are made in the form of screws located in the under-sieve 2 and over-sieve 3 departments. Executive bodies 6 of the drive 4 in the oversize compartment are made integral, the extreme part 8 of which is provided with a helical surface of a smaller diameter. Sieve 9 formed v-shaped at an angle ^of 10 to improve the deposition process, creating the workspace 11 and jigging set with a bias towards the longitudinal axis of the outlet side 12 oversize fraction enriched 3 compartments. The sieve 9 has gaps 13 relative to the side surfaces 14 of the housing 1 and is provided with longitudinal slots 15 to optimize the hydrodynamic process. A receiving tray 16 is located above the working space 11. The sieve 9 has a visor 17 for transporting and dehydrating waste rock. The visor 17 is installed with a slope relative to the horizontal by an amount less than the sieve 9. The front wall 18 of the housing 1 is made with ribs 19 and installed at an obtuse angle to the sieve 9 to increase the area of jigging and separation. The machine is equipped with an opening 20 for the release of enriched concentrate from the under-sieve compartment and an opening 21 for the removal of waste rock.

 Pistonless jigging machine operates as follows.

In the initial position, the drive 4 of the pulsating oscillations of the medium is turned on, the actuating organs 6, 7 come into rotational motion. The enriched material is fed to the receiving tray 16, through which it enters the working space 11 of the oversize compartment 3. The actuating organs 6 of the oversize compartment 3 capture material, moving it towards the front wall 18 of the housing 1. Due to the centripetal force, the particles enter the helical surface, rotating in the working space 11 of the sieve 9. Getting on the wall 18 m the material is eroded and crushed against the ribs 19. The executive bodies 6 through the gaps 13 between the sieve 9 and the side surfaces 14 create a steady flow of water into the undergrowth compartment 2. The rotation of the executive body 7 provides flows from bottom to top, from the undergrowth 2 compartment to the grating 3, carrying it into upper layers and deposition on the sieve 9 of the enriched material. When the drive 4 stops on the sieve 9, large fractions of the material are deposited, and small ones, flowing into the undergrowth compartment through the slots 15, fall into the area of the executive body 7 and are taken out by the executive body 7 through the hole 20. Large fractions of the enriched concentrate deposited on the sieve 9, due to the inclination toward the exit 12 of the concentrate and angle 10 accumulated ^on the exit 12. Removal of gangue is carried out by rotating the actuator member 6 in the opposite direction and using it as a transport organ 5. Pouce thawed rock enters the exit through the visor 17 and is transported by the transporting body 5 with the help of its extreme part 8, is dehydrated and removed to the hole 21.

 Pistonless jigging machine allows you to combine the process of separation, jigging and disintegration, eliminates additional costs, increases the extraction of valuable components, reliability and resource mechanisms.

Claims (1)

 SPRAYLESS Jigging Machine, comprising a housing, a sieve, an under-sieve and over-sieve compartments for odsadka and separation, a drive of pulsating vibrations of the medium and a transporting mechanism, characterized in that the actuators of the drive of pulsating vibrations of the medium are made in the form of screws installed in the under-sieve and oversize departments with the possibility of alternating rotation clockwise and counterclockwise, while the V-shaped slit-like sieve is installed with a gap relative to the side surfaces of the housing and a slope in the direction rodolnoy axis output side enriched fraction oversize compartment and provided with a visor, disposed from the discharge gangue and mounted with an angle smaller than the sieve, and the front wall of the housing above the sieve from the unloading enriched fraction is formed with ribs, and is set at an obtuse angle to the sieve.

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