RU2047401C1 - Aerodynamic complex for enrichment of loose materials - Google Patents

Abstract

FIELD: mining, metallurgical industries. SUBSTANCE: aerodynamic complex for the enrichment of loose materials consists of technological standardized volumetric blocks in which charging branch pipe 3 with crusher 2 under it is mounted, shuttle vibration dryer 5 in the form of a chamber with inclined sieve 7 for withdrawing the large fractions, air duct 11 with suction devices and heaters with reflectors 10 of variable power, with all this being mounted inside the chamber. Dryer 5 is connected with crusher 2 by means of elevator 4. Shuttle vibration dryer 5 is disposed over pneumatic force pump 15 and is connected with aerodynamic tube 14 by means of overloading branch pipe 12. One end of the tube is connected with pneumatic force pump 15, the other end is introduced into the separation chamber with deflecting screen 18. The chamber is made of biconical compartments with the main and additional discharging branch pipes connected in succession. Jalousies 22 are mounted in the points of the biconical compartment jointing. The overloading and the main discharging branch pipes have drums 13 with magnetic systems and replaceable knives. The aerodynamic tube consists of separate sections and is made zigzag in the vertical plane with separation chambers 17 located between its sections and connected between themselves along the vertical line by discharging branch pipe 18. In the points of bending and along the axis of the zigzag aerodynamic tube, dead end branch pipes 16 with flanges and magnets are mounted. Part of the tube disposed in the dynamic separation chamber is made perforated with a nozzle having the even decrease of the diameter and with a deflecting screen in the form of diffuser 21 located on it. The upper part of the dynamic chamber is in communication with aspiration system 25 by means of an air duct. The lower part is connected with transporters 24 through discharging branch pipes with pulsators 23. Shuttle vibration dryer 5, aerodynamic tube 14 and the dynamic separation chamber are made with the exterior heat-absorbing relief surface. EFFECT: enhanced quality of enrichment of loose materials. 5 cl, 5 dwg

Description

 The invention relates to a device for the enrichment of bulk materials and can be widely used in mining, coal, peat, chemical, metallurgical, cement, glass, woodworking, construction, energy and agriculture.

 Known plants for the enrichment of bulk materials containing a frame, loading and unloading pipes, conveyors, an acceleration pipe with heaters, a pneumatic supercharger with a heater, a dust fan and an aspiration system [1] The disadvantages of these plants are high material consumption, low productivity, insufficient cleaning quality and limited quality application.

 The closest in technical essence to the proposed one is a plant for the enrichment of bulk materials, including a loading hopper and a dynamic separation chamber with a breaker vibrating board, a pneumatic supercharger with an accelerating tube and a dust fan [2] The disadvantages of the installation are the low quality of cleaning due to the short duration of the process and the removal of impurities, high energy costs, limited application.

 The aim of the invention is to increase efficiency and quality.

 This is achieved by the fact that it is equipped with a crusher and a solar dryer, while the solar dryer is connected by an elevator to the grinder and mounted on top of the pneumatic blower frame and connected by a transfer pipe to an aerodynamic pipe, which is made in a zigzag shape in the vertical plane and equipped with separation chambers connected vertically to each other by a discharge pipe and the dynamic separation chamber is made up of bioconic chambers connected in series, at the junction of which blinds are installed, and the top is connected by air ducts with an aspiration system, and the loading and unloading nozzles are equipped with drums with magnetic systems and circuit knives, and the heliowater dryer is equipped with an inclined screen for removing large fractions located in the perpendicular direction and an air duct with suction, and its heaters with reflectors are made with variable power, and the part of the zigzag wind tunnel introduced into the dynamic separation chamber is perforated and equipped with a nozzle with smooth smart with a diameter and a baffle plate in the form of a diffuser, the discharge nozzles are equipped with pulsators and connected to the conveyors of bulk material, and dead ends with flanges and magnets are installed at the bend and along the axis of the zigzag wind tunnel, and a solar vibration dryer, wind tunnel and dynamic chamber are made with external heat-absorbing embossed surface.

 The novelty of the claimed aerodynamic complex lies in the above set of features, the implementation of which improves the efficiency and quality of enrichment.

Significant differences of the claimed technical solution from the known (see the description of analogues and prototype) is as follows:
supply of the complex with a crusher and a solar-vibration dryer;
the implementation of the wind tunnel zigzag in the vertical plane with pipes and magnets in places of bending;
the implementation of the dynamic separation chamber in the form of series-connected bioconic chambers;
equipment of discharge pipes with drums with magnetic systems and removable knives;
supplying a heliowater dryer with a sieve to remove coarse fractions;
the execution of the output part of the booster pipe perforated with a nozzle and a breaker shield in the form of a diffuser;
the execution of the outer surfaces of the heliowater, wind tunnel and dynamic chamber heat-absorbing and embossed.

 The invention is illustrated by drawings.

 Figure 1 shows a longitudinal section of the complex; in Fig.2 a section along aa in Fig.2; figure 3 section along BB in figure 1; in Fig.4 a section along BB in Fig.1; in Fig.5 section along G-G in Fig.1.

 The aerodynamic complex for the enrichment of bulk materials consists of technological unified volumetric units in which a vibratory tray 1 is installed under the crusher 2, for example, two-roll, and a loading hopper 3, which is connected with an elevator 4 to a solar-dryer 5 through a loading hopper 6, which contains inclined shelves 8 on the vibrating box 9, heaters, for example thermoelectric, with reflectors 10 and an air duct 11 with suction, moreover, a solar-vibration dryer with a reloading tray 12 containing a drum 13 with a magnetic system is connected to the aerod a zigzag-shaped tube 14, which is equipped with a pneumatic blower 15 at one end, is equipped in the middle with dead-end pipes 16 with flanges and magnets, separation chambers 17 and inclined movable shields 18, and at the end it is perforated 19, which is inserted into the dynamic separation chamber 20 and is equipped with a nozzle with a smooth reduction in diameter and an opposed baffle plate in the form of a diffuser 21, while the bottom of the dynamic chamber is connected to conveyors 24 through discharge pipes with pulsators 23, and the top through ducts with one with the aspiration system 25, wherein the complex is controlled from a control panel 26.

 Aerodynamic complex for the enrichment of bulk materials works as follows.

 Bulk material (sand, slag, powders, granules, etc.) is fed into the loading hopper 3, from where it is sent through the crusher 2 (for example, frozen sand, slag conglomerates, etc.) after grinding or directly to vibrating tray 1, which batch feeds the grains of material to the elevator 4, from where the bulk material under its own weight through the hopper 6 with balanced gates enters the solar dryer 5, where with the help of a sieve 7 large fractions are removed from the bulk material to the side, after which the grains of material are fed to the cascade o installed inclined trays 8 of vibrocasing 9 and move in a vibro-boiling layer in an alternating thermal field from heaters with reflectors 10 and from enclosing surfaces heated by sunlight (variable thermal influences improve the drying process, but due to the difference in linear expansion, for example, for quartz sand particles of the film are removed from iron oxide, etc.) with the simultaneous removal of dusty particles and moisture, as a result of which the grains of the material are dried and pre-cleaned, and then they are loaded felling 12 and the magnetic field created by the drum 13, which remove the ferromagnets, enter the aerodynamic zigzag tube 14 multi-stage counter-current rotary separator, where the grains of material are picked up by high-speed air flow from the pneumatic blower 15 and move in turbulent motion, while the grains of material from the inclined baffle plates 18 receive impacts in the discharge zones, where in this case, rotating vortices with horizontal axes are formed inside each section, especially in the stub pipe x with flanges and magnets 16, which cleans the grains and separates them into small and large, and dust particles are removed through the separation chambers 17, while the grains of the material fly at high speed, for example, 30-40 m / s, into the dynamic separation chamber 20, where in the perforated part of the pipe 19, intensive dedusting is carried out, after which the grains through the nozzle with a uniform velocity profile fly into the chamber and hit the vibration shield 22 of the directed action, as a result of which counter impacts are created, a vibro-boiling layer that is cleaned they clean the grain surface, and weak grains are destroyed, while the dusty particles are also removed into the aspiration system 25 through the blinds, and the cleaned grains through the discharge pipes with pulsators 23 and through additional exposure to magnetic fields and the removal of particles of ferromagnets enter the conveyors, and the dusty particles and ferromagnets are removed by a special conveyor. The process control and monitoring of its parameters is carried out automatically from the remote control 26.

 Known serial domestic and foreign plants for the enrichment of bulk materials, for example, the domestic drying unit D-588 and a two-tier screen SMD-121 (GIS-52) and the foreign installation of the company "Werner" (Germany), which provide only partial enrichment.

The technical and economic efficiency of the proposed complex for the enrichment of bulk materials in comparison with the prototype (base object), analogues and serial units is ensured by the following:
energy savings are achieved through the use of solar energy and efficient heat transfer from heaters with reflectors,
Improving the quality of enrichment is achieved through intensive dynamic, vortex, vibration cleaning of alternating exposure to thermal and magnetic fields, creating rarefaction zones;
the expansion of the boundaries of application is achieved due to the intersectoral use of the complex.

In general, the proposed aerodynamic complex has the following technical advantages:
complexity (complete enrichment of various materials);
flexibility (fast technological adjustment for enrichment of a given bulk material with the required performance);
reliability in operation, including high maintainability;
blockiness (the implementation of a complex of unified volumetric block modules with technological equipment and a control and management system);
mobility (prefabrication, dismantling and transportability) by rail, road and sea;
energy saving (heat saving due to efficient heat transfer, air recirculation, use of non-traditional energy sources, including solar);
resource saving (conversion of waste into commercial products);
multi-purpose and interdepartmental application (for construction, chemical, metallurgical, mining, medical, glass, woodworking and agriculture and other industries);
environmental cleanliness of the process during operation;
competitiveness and prospects.

The scope of the proposed complex are:
mining industry enrichment of noble (platinum, gold, silver, zirconium, etc.) and other metals, ore sludge;
coal industry coal enrichment;
peat industry enrichment of peat;
construction and reconstruction of facilities enrichment of sand, gravel and expanded clay gravel (drying, cleaning, crushing, chemical treatment, additives, classification, disinfection, increasing the mechanochemical activity of components, etc.).

 Chemical industry enrichment of various granules, for example, nitrate.

 Metallurgical industry enrichment of metal powders, granules, grains, etc.

 Cement industry enrichment of cement, cement clinker, sand (drying, cleaning).

 Medical industry enrichment of various powders (drying, cleaning, processing).

 Glass industry enrichment of quartz sand (drying, cleaning, removal of inclusions and various harmful impurities).

 Woodworking industry enrichment of wood chips, shavings, bark and wood waste, sawdust (drying, cleaning and disinfection).

 Agriculture drying and cleaning of grain, vegetables and fruits, animal feed, pulp, fertilizers, etc.

 Energy Coal beneficiation.

Claims (6)

 1. AERODYNAMIC COMPLEX FOR ENRICHMENT OF BULK MATERIALS, containing a loading nozzle, a pneumatic blower connected to the aerodynamic tube in separate sections, which is introduced into the dynamic separation chamber with a baffle plate and discharge nozzle, and an aspiration system communicated via an air duct with the upper part of the dynamic chamber characterized in that it is equipped with a crusher located under the loading nozzle, and a solar vibration dryer located above the pneumatic blower, connected by means of evator with a crusher and connected by means of a discharge pipe with a wind tunnel, which is made zigzag in the vertical plane with separation chambers located between its sections and vertically connected by a discharge pipe, and the dynamic separation chamber is made of biconical compartments connected in series with additional discharge pipes nozzles, while at the junction of the biconical compartments installed blinds, and reloading and main unloading th nozzles are reels of magnetic systems and removable knives.  2. The complex according to claim 1, characterized in that the solar dryer is made in the form of a chamber with an inclined screen installed inside it to remove large fractions, an air duct with suction and heat heaters with reflectors made with variable power.  3. The complex according to claim 1, characterized in that the part of the zigzag wind tunnel located in the dynamic separation chamber is perforated with a nozzle having a smooth reduction in diameter and with a baffle plate located on it in the form of a diffuser.  4. The complex according to claim 1, characterized in that the discharge pipes of the biconical compartments are equipped with pulsators and connected to conveyors of bulk material.  5. The complex according to claim 1, characterized in that at the bend and along the axis of the zigzag wind tunnel installed dead-end pipes with flanges and magnets.  6. The complex according to claim 1, characterized in that the solar vibration dryer, wind tunnel and dynamic separation chamber are made with an external heat-absorbing embossed surface.

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