UA83761U - Mobile dresser - Google Patents

Abstract

A mobile dresser comprises a frame, modules mounted one above the other, common bearing elements connecting units of modules to the frame and flexible frame supports. The mobile dresser consists of two or more modular dressing plants, a loading unit of initial material, a rotary mill, a centrifugal concentrator, a dust chamber, an air purification unit from dust, a magnetic separator, a control panel of mobile dresser, a diesel generator and fuel tanks and platforms to accommodate the components of mobile dresser. Each of two or more modular dressers comprises: a support frame, on which two or more modules are mounted, each of which consists of a pneumatic separator in the form of a vertically positioned body provided with a partition wall, a loading device, a screen, upper and lower air distributors and receivers of light and heavy fractions with screws, and is equipped with: a collection system of dust fraction and its supply in a dust chamber.

Description

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The useful model belongs to the field of mining and metallurgy and can be used in the processing of industrial waste for the extraction and separation of metal inclusions from metallurgical and other slags, dust and sludges, as well as for the enrichment of native ores and placers of noble, rare, non-ferrous, ferrous metals, precious and technical stones.

The known module of the enrichment plant (see, for example, the author's certificate of the USSR. Mo. 1646624. IPC 8ВО7В 4/05. Application. 05.07.1991). The known module contains a frame on which an air separator is installed, that is, a separator in the form of a vertically located housing with a loading device, a main sieve placed in the housing, an air supply nozzle under the sieve with an air distributor, a dust extraction nozzle with an air distributor in its upper part and receivers of ready-made fractions.

The disadvantage of the well-known beneficiation plant module is the low extraction of fine metal product or the low quality of the obtained ore concentrate due to the entry into the dust chamber of fine and small particles carried by the air flow of both the containing rock and the useful component.

A modular enrichment plant is also known (see, for example, Ukrainian patent No. 28606). IPC (2006) VOZV 4/00. Application 14.09.2005). This modular enrichment plant contains a frame on which modules are mounted one below the other, each of which consists of a pneumatic separator in the form of a vertically located housing with a loading device, a main sieve located in the housing, lower and upper nozzles with air distributors under and above the main sieve and receivers of the useful component of the light and heavy fraction, while each module contains an additional sieve placed in the housing under the main sieve, the loading device is made in the form of a vibrating screen with a guide of the screened product to the vibrating screen of the next module, and the vibrating screen is connected to the main screen of a pneumatic separator and has the general supporting element is rigidly connected to the frame, which is mounted on flexible supports, and the additional sieve has an arcuate shape and is turned by a convexity to the main sieve, which is reinforced with removable cantilever rods of magnetic material. The size of the mesh of the vibrating screen is equal to the size of the mesh of the main sieve, and the size of the mesh of the sieve, equal to the size of the mesh of the vibrating screen, in each subsequent module is determined by the formula: d-ani(u/ugz, where a is the size of the mesh of the main sieve and the vibrating screen of the i-th module, kespi - the size of the mesh

From the main sieve and vibrating screen of the next module, y: - specific weight of the grains of the useful component, ug - specific weight of the grains of the containing rock.

The disadvantage of this modular enrichment plant is the low selectivity of the separation of useful components and the containing rock, which is due to: - the absence of the possibility of changing the shape and size of the metallic and non-metallic particles of the useful component of the processed raw material during its preparation for enrichment, - the turbulence of the upward air flow during enrichment of processed raw materials by the method of pneumatic separation through the use of two fans (one - before the pneumatic separator, and the other - after the pneumatic separator).

In addition, this modular enrichment plant requires increased electricity consumption due to the use of two fans.

This modular enrichment plant is the closest to the proposed mobile enrichment unit in terms of technical essence and the effect it achieves, and was chosen as a prototype.

Collective features of the technical solution claimed (mobile enrichment unit) and the closest analogue (modular enrichment plant) are: - frame, - modules mounted one under the other, - common bearing elements connecting module nodes to the frame, - flexible supports frames

Distinctive features of the claimed technical solution (mobile concentrator) are: - the mobile concentrator consists of: two or more modular concentrators, an outlet loading unit, a rotary mill, a centrifugal concentrator, a dust chamber, a unit for cleaning air from dust, a magnetic a separator, a control panel for a mobile enrichment unit, a diesel generator, a fuel tank and a platform for placing components of a mobile enrichment unit; - each of two or more modular enrichment plants contains: a support frame, on which two or more modules are mounted, each of which consists of a pneumatic separator in the form of a vertically located housing, equipped with a dividing wall, a loading device, a sieve, lower and upper air distributors and receivers of light and heavy fractions with augers, and equipped with: a system for collecting the dust fraction and feeding it to the dust chamber, made in the form of thrust fans with devices for regulating the number of revolutions of electric motors, and a collector for supplying dusty air to the dust chamber; - the loading device of each module is made in the form of a vibrating screen with a guide of the product under the sieve from each previous module to each subsequent module and mounted on a common supporting element rigidly connected to the frame, the frames are installed on flexible supports, - between each of two or more frames, an additional mounted belt elevator, which consists of a horizontal conveyor with a vertical section, a vertical conveyor and tension rollers; - the output feed loading unit consists of the output feed hopper, auger and auger drive in the form of an electric motor and a reducer; - the rotary mill is equipped with an unloading hopper and a deslammer; - the rotary mill consists of a body, a support frame, a drive in the form of an electric motor attached to the support frame, a rotor with guide vanes, a loading unit in the form of a vertical nozzle and a cone attached to the rotor, a dust removal channel, an unloading channel and air intake nozzles; - the unloading hopper consists of a body, a valve, a vibration drive, vibration supports, rods for adjusting the amplitude of valve oscillations and a unit for adjusting the unloading gap; - deslammers consist of 3 housings, an air distributor of a conical shape and an air outlet nozzle, - a centrifugal concentrator consists of a housing, a thrust fan, equipped with an external guide screw, an air flow distributor with an adjustable inclination of the separating element, a dust removal channel, a hopper for the accumulation of heavy fractions, and a dust injection unit from the hopper for the accumulation of heavy fraction, the discharge nozzle of the dust-like product and the heavy fraction unloading unit; - the mobile enrichment unit is additionally equipped with a storage hopper

From the metal fraction from the rotary mill, the hopper for the accumulation of the metal fraction from the magnetic separator, the hoppers for the accumulation of fractionated portions of the ore concentrate and the containing rock from the modular plant, the hopper for the accumulation of unfractionated containing rock from the dust chamber, the hopper for the accumulation of dust from the bag filter of the air cleaning unit from dust; - the platform for placing the equipment of the mobile enrichment unit is equipped with wheels to ensure the possibility of moving the unit and screw supports to ensure the stability of the platform and its installation in a horizontal position.

The basis of the technical solution is the task in the mobile enrichment unit due to adding the particles of the enriched component of a given shape and size through combined centrifugal, shock-mechanical and aerodynamic effects on the material to be enriched, as well as due to the prevention of turbulence of the upward flow of air during the separation of the concentrate by regulating the movement of the upward air flow, to ensure high efficiency of the mobile enrichment unit.

The expected technical result of the proposed mobile beneficiation unit is a reduction in metal phase extraction losses and an increase in the selectivity of ore concentrate allocation, which results in an increase in the efficiency of the proposed mobile beneficiation unit.

The specified technical result is achieved by the fact that in a mobile enrichment unit containing a frame, modules are mounted one under the other, common load-bearing elements connecting module nodes with the frame and flexible supports of the frame, according to the technical solution, the mobile enrichment unit consists of : two or more modular concentrators (1), outlet feed loading unit (2), rotary mill (3), vent concentrator (4), dust chamber (5), dust air cleaning unit (6), magnetic separator (7) ), control panel (8), diesel generator (9), fuel tank (10) and platform (11) for placing components of the mobile enrichment unit; - each of two or more modular enrichment plants (1) contains: a support frame (12), on which two or more modules (13) are mounted, each of which consists of a pneumatic separator (14) in the form of a vertically located housing (15), equipped with a partition (16), loading device (17), sieve (18), lower (19) and upper (20) air distributors and receivers of light (21) and heavy (22) fractions with screws (23), and provided : by a system (24) of collecting the dust fraction and supplying it to the dust chamber (5), made in the form of thrust fans (25) with devices (26) for regulating the number of revolutions of electric motors (27), and a collector (28) for supplying dusty air to the dust chamber (5); - the loading device of each module is made in the form of a vibrating screen (29) with guides (30) of the product under the grate from each previous module to each subsequent module and is mounted on a common supporting element (31) rigidly connected to the frame, a frame (12) installed on flexible supports (32), - between each of two or more frames (12), a belt lift (33) is additionally mounted, consisting of a horizontal conveyor (34) with a vertical section, a vertical conveyor (35) and tension rollers (36, 37) ; - the unit for loading the output power (2) consists of the hopper (38) of the output power, the auger (39) and the auger drive (40) in the form of an electric motor (41) and a reducer (42); - the rotary mill (3) is equipped with an unloading hopper (43) and a deslammer (44); - the rotary mill (3) consists of a body (45), a support frame (46), a drive (47) in the form of an electric motor (48) attached to the support frame (46), a rotor (49) with guide vanes (50), a loading unit (51) in the form of a vertical nozzle (52) and a cone (53) attached to the rotor, a dust removal channel (54), a discharge channel (55) and air intake nozzles (56); - the unloading hopper (43) consists of a body (57), a valve (58), a vibration drive (59), vibration supports (60), rods (61) for adjusting the amplitude of oscillations of the valve (58) and an adjustment unit (62) for the unloading gap (63) , - deslamators (44) consist of a housing (64), an air distributor (65) of a conical shape and an air outlet pipe (66), - a ventral concentrator (4) consists of a housing (67), a thrust fan (68), provided with an external guide screw ( 69), an air flow divider (70) with an adjustable inclination of the dissecting element (71), a channel (72) for the removal of a dust-like product, a hopper (73) for the accumulation of heavy fractions, a unit (74) for injecting dust from the hopper for the accumulation of heavy fractions (73), a nozzle (75) removal of the dusty product and the unloading unit (76) of the heavy fraction;

Zo - the mobile enrichment unit is additionally equipped with a hopper (77) for the accumulation of metal fraction from the rotary mill (3), a hopper (78) for the accumulation of metal fraction from the magnetic separator (7), hoppers (79) for the accumulation of fractionated portions of the concentrate and containing rock with modular installation (1), hopper (80) for accumulation of unfractionated containing rock from the dust chamber (5), hopper (81) for accumulation of dust from the sleeve filter of the air cleaning unit from dust (b); - the platform (11) for placing the equipment of the mobile enrichment unit is equipped with wheels (82) to ensure the possibility of moving the unit and screw supports (83) to ensure the stability of the platform (11) and its installation in a horizontal position.

The essence of the proposed technical solution (mobile enrichment unit) is as follows. By giving the particles of the enriched component a given shape and size by means of a combined centrifugal, shock-mechanical and aerodynamic impact on the enriched material, as well as by preventing the turbulence of the upward flow of air during the separation of the concentrate due to the regulation of the movement of the upward flow of air, a reduction in the loss of extraction of the metal phase and an increase in the selectivity of ore concentrate selection, the result of which is an increase in the efficiency of the proposed mobile beneficiation unit.

Thus, the introduction of two or more modular enrichment units (1), a unit for loading the output power (2), a rotary mill (3), a centrifugal concentrator (4), a dust chamber (5), a unit for cleaning air from dust into the composition of a mobile enrichment unit (b), a magnetic separator (7), a control panel (8) of a mobile enrichment unit, a diesel generator (9), a tank (10) for fuel and a platform (11) for placing components of a mobile enrichment unit; production of each of two or more modular enrichment units (1) from: a support frame (12), on which two or more modules (13) are mounted, each of which consists of a pneumatic separator (14) in the form of a vertically located housing (15), equipped with a partition (16), loading device (17), sieve (18), lower (19) and upper (20) air distributors and receivers of light (21) and heavy (22) fractions with screws (23), and complete set: a system (24) of collecting the dust fraction and supplying it to the dust chamber (5), made in the form of thrust fans (25) with devices (26) for adjusting the number of revolutions of electric motors (27), and a collector (28) for supplying dusty air to the dust chamber (5); implementation of the loading device of each module in the form of: a vibrating screen (29) with a guide (30) of the grated product from each previous module to each subsequent module and placing it on a common supporting element (31) rigidly connected to the frame, a frame (12), installed on flexible supports (32), placing between each of two or more frames (12) an additional belt elevator (33), consisting of a horizontal conveyor (34) with a vertical section, a vertical conveyor (35) and tension rollers (36, 37) ; completeness of the unit for loading the output power (2) with: the hopper (38) of the output power, the screw (39) and the screw drive (40) in the form of an electric motor (41) and a reducer (42); complete set of rotary mill (3) unloading hopper (43) and deslammer (44); manufacture of a rotary mill (3) from: a body (45), a support frame (46), a drive (47) in the form of an electric motor (48) fixed on a support frame (46), a rotor (49) with guide vanes (50), a loading unit (51) in the form of a vertical nozzle (52) and a cone (53) attached to the rotor, a dust removal channel (54), a discharge channel (55) and air intake nozzles (56); production of unloading hopper (43) from: body (57), valve (58), vibration drive (59), vibration supports (60), rods (61) adjustment of the amplitude of oscillations of the valve (58) and adjustment unit (62) of the unloading gap (63) , production of a deslammer (44) from: a body (64), an air distributor (65) of a conical shape and an air outlet nozzle (66); manufacturing of the centrifugal concentrator (4) 3: housing (67), thrust fan (68), equipped externally with a guide screw (69), air flow divider (70) with adjustable inclination of the dividing element (71), channel (72) for removal of dusty product, hopper (73) accumulation of heavy fraction, assembly (74) injection of dust from the hopper accumulation of heavy fraction (73), nozzle (75) removal of the dust-like product and unloading assembly (76) of heavy fraction; additional provision of the mobile enrichment unit: hopper (77) for accumulation of metal fraction from the rotary mill (3), hopper (78) for accumulation of metal fraction from the magnetic separator (7), hoppers (79) for accumulation of fractionated portions of the concentrate and containing rock from the modular installation (1), hopper (80) for accumulation of unfractionated containing rock from the dust chamber (5), hopper (81) for accumulation of dust from the sleeve filter of the air cleaning unit from dust (b);

The equipment of the platform (11) for placing the equipment of the mobile enrichment unit with wheels (82) to ensure the possibility of moving the unit and screw supports (83) to ensure the stability of the platform (11) and its installation in a horizontal position leads to a reduction in the loss of extraction of the metal phase and an increase in selectivity selection of ore concentrate, i.e. until the above-mentioned technical result is achieved.

The consequence of achieving the technical result is an increase in the efficiency of the proposed mobile enrichment unit.

Thus, the set of distinctive features of the proposed technical solution (mobile enrichment unit) allows to achieve the above-mentioned technical result.

The essence of the claimed technical solution is also illustrated by the basic design of the mobile enrichment unit shown in Fig. 1, 2, 314.

In fig. 1 shows the general layout of the equipment of the mobile enrichment unit, in fig. 2 shows a schematic representation of a modular enrichment plant, in fig. 3 shows a schematic representation of a rotary mill with a unloading hopper and a deslammer, in fig. 4 shows a schematic representation of a centrifugal concentrator.

Devices and elements included in the proposed mobile enrichment unit: 1 - modular enrichment units, 2 - output power loading unit,

C - rotary mill, 4 - oddentrovy concentrator, 5 - dust chamber (patent of Ukraine Me 97725 dated 12.03.2010), b - air cleaning unit from dust, 7 - magnetic separator (patent of Ukraine Mo 73154 dated 10.05.2012), 8 - mobile enrichment unit control panel, 9 - diesel generator, 10 - fuel tank, 11 - platform for placing components of the mobile enrichment unit; - modular enrichment plants (1): 12 - support frames. 60 13 - modules,

14 - pneumatic separators, 15 - casings of pneumatic separators (14), 16 - dividing partitions of modules (13), 17 - loading devices of modules (13), 18 - strainers of modules (13), 19 - lower air distributors of pneumatic separators (14), 20 - upper air distributors of pneumatic separators (14), 21 - receivers of light fractions of pneumatic separators (14), 22 - receivers of heavy fractions of pneumatic separators (14), 23 - receiver screws (21, 22); 24 - a system for collecting the dust fraction and supplying it to the dust chamber (5): 25 - thrust fans, 26 - devices for adjusting the number of revolutions of electric motors (27), 27 - electric motors, 28 - a collector for supplying dusty air to the dust chamber (5); - loading devices (17) of modules (13): 29 - vibrating screens, 30 - guides of the grated product from each previous module to each subsequent module; 31 - general bearing elements rigidly connected to the frame (12), 32 - flexible supports of the frames (12), 33 - belt lifts between the frames (12): 34 - horizontal conveyors with vertical sections, 35 - vertical conveyors, 36, 37 - tension rollers; - outlet loading unit (2): 38 - outlet hopper, 39 - hopper auger (38), 40 - auger drive (39): 41 - drive electric motor (40)

From 42 - drive reducer (40); - rotary mill (3): 43 - unloading hopper, 44 - deslammer; 45 - body, 46 - support frame, 47 - drive: 48 - fixed on the support frame (46) electric motor, 49 - rotor, 50 - guide blades of the rotor (49), 51 - loading unit of the rotary mill (3): 52 - vertical nozzle, 53 - a cone attached to the rotor (49); 54 - dust removal channel, 55 - unloading channel, 56 - air intake nozzles; - unloading hopper (43): 57 - body, 58 - valve, 59 - vibration drive, 60 - vibration supports, 61 - rods for adjusting the amplitude of valve oscillation (58), 62 - adjustment unit of the unloading valve (58); - deslimator (44): 64 - deslimator body (44), 65 - air distributor of deslimator (44), 66 - air outlet pipe; - centrifugal concentrator (4): 67 - centrifugal concentrator housing (4), 68 - thrust fan, 60 69 - guide auger,

70 - air flow divider, 71 - dividing element with an adjustable tilt, 72 - dust removal channel, 73 - heavy fraction accumulation hopper, 74 - dust injection unit from the heavy fraction accumulation hopper (73), 75 - dust removal nozzle, 76 - heavy fraction unloading node; 77 - hopper for accumulation of heavy fraction from the rotary mill (3), 78 - hopper for accumulation of metal fraction from the magnetic separator (7), 79 - hoppers for accumulation of fractionated portions of concentrate and containing rock from the modular installation (1), 80 - hopper for accumulation of unfractionated containing rock from the dust chamber (5), 81 - hopper for accumulation of dust from the sleeve filter of the air cleaning unit from dust (b); - platform (11) for placing the equipment of the mobile enrichment unit: 82 - wheels to ensure the ability to move the unit, 83 - screw supports to ensure the stability of the platform (11) and its installation in a horizontal position.

The operation of the mobile enrichment unit is carried out as follows. The mobile beneficiation unit (the platform 11 with the equipment placed on it is provided with wheels 82) is delivered to the place of raw material processing and with the help of screw supports 83 it is installed in a horizontal position, ensuring the stability of the platform 11. Depending on the type of the beneficiated raw material, the mobile beneficiation unit can be used in two variants: 1) in continuous mode and 2) in continuous-periodic mode.

Option 1. Enrichment of raw materials in continuous mode. The raw material (ore, sand, slag, slag or other material), previously crushed to a given size, is fed into the hopper 38 of the output feed unit 2 of loading the output feed. From the hopper 38, the raw material is loaded in a uniform flow into the rotary mill 3 by means of an auger 39 operated by a drive 40, consisting of an electric motor 41 and a gearbox 42. Loading in

From the rotary mill, it is carried out through the loading unit 51 of the rotary mill, which consists of a vertical nozzle 52 and a cone 53 attached to the rotor 49.

In the rotary mill Z, made in the form of a housing 45, a support frame 46, a drive 47, an electric motor 48 fixed on a support frame 46, a rotor 49 with guide vanes 50, a dust removal channel 54, a discharge channel 55, air intake nozzles 56, and which also includes a discharge hopper 43 and deslammer 44, the combined processing of the loaded raw materials takes place: shock-mechanical impact with the imposition of a ventral field and subsequent pneumatic separation of the processed industrial product. As a result of the combined impact on the raw material, the mineral grains are opened, as well as the metal phase particles, which initially had an irregular shape, are given a spherical shape.

In the deslimator 44, made in the form of a body 64, an air distributor 65 and an air outlet 66, the particles of the heavy fraction (mineral grains) that have accidentally entered settle on the walls of the body 64 of the deslimator 44 and enter the unloading hopper 43. In addition, the flow of dusty air, which is removed through the air outlet 66, is additionally cleaned of particles of the heavy fraction (mineral grains) with the help of an air distributor 65, made of a mesh and having the shape of an inverted truncated cone. The dusty air cleaned of particles of the heavy fraction enters the centrifugal concentrator 4.

In the centrifugal concentrator 4, made in the form of a housing 67, a thrust fan 68, a guiding auger 69, an air flow separator 70, a separating element 71, a channel 72 for the removal of a dusty product, a hopper 73 for the accumulation of heavy fractions, a unit 74 for injecting dust from the hopper 73 for the accumulation of heavy fractions , the nozzle 75 of the discharge of the dusty product and the node 76 of the discharge of the heavy fraction, the separation of heavy fine particles occurs due to centrifugal forces. Heavy fine particles are cut off by the air flow divider 70 with the help of a separating element 71 and are cleaned from the dusty fraction in the heavy fraction accumulation hopper 73 due to air suction through the dust injection unit 74. The separated fraction of fine heavy particles through the node 76 of unloading the heavy fraction enters the receiving hopper of the magnetic separator 7. The dust-like fraction from the venter concentrator 4 through the outlet 75 of the dust-like product outlet enters the dust trap in the dust chamber 5.

In the unloading hopper 43 of the rotary mill 3, made in the form of a housing 57, unloading valve 58, vibration drive 59, vibration support 60, rods 61 for adjusting the amplitude of oscillations of the valve 58 and the adjustment unit of the unloading valve 58, the heavy material formed in the working volume of the rotary mill is captured fraction consisting of spherical metal phase particles and mineral grains. The captured mixture of metal phase and mineral grains from the unloading hopper 43 is sent to the receiving hopper of the magnetic separator 7.

In the magnetic separator 7, the mixture of mineral grains and spherical metal particles, separated from the dusty product and formed in the working volume of the rotary mill Z and captured in the venter concentrator 4, is separated. The metal phase separated on the magnetic separator 7 in the form of spherical particles is discharged into the hopper 78 for accumulation of the metal fraction from the magnetic separator 7.

Modular enrichment plants are made in the form of support frames 12, modules 13, casings of pneumatic separators 14, separating partitions 16, loading devices 17, which 15 include vibrating screens 29 and guides 30 of the grated product from each previous module to each subsequent module, sieves 18, lower 19 and upper 20 air distributors, receivers of light 21 and heavy fractions 22 and augers 23, and equipped with a system 24 for collecting the dust fraction and feeding it to the dust chamber 5, which consists of thrust fans 25, devices 26 for regulating the number of revolutions of electric motors, electric motors 27, and a collector 28 supply of dusty air to the dust chamber 5, as well as general bearing elements 31 rigidly connected to the frame 12, flexible supports 32 of the frames 12, belt lifts 33 between the frames 12, equipped with horizontal conveyors 34 with vertical sections, vertical conveyors 35 and tension rollers 36, 37.

The mineral product purified from the metal phase and strongly magnetic mineral grains from the magnetic separator 7 is sent for processing to the modular enrichment units 1 through the loading device 17 to the vibrating screen 29 of the upper module 13 of the first enrichment unit 1. The mixture flow is separated on the vibrating screen 29 of the upper module 13 of the first enrichment unit 1 mineral grains and host rock in the first class of size (for example, Х0.315 mm, provided that the unloading valve 58

Zo is configured to pass particles with a size of -0.5 mm). The screened product of the vibrating screen 29 of the upper module 13 of the first enrichment unit 1 with a size of 0.315 mm enters the sieve 18 of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1. The mesh size of the sieve 18 of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1 is twice the size of the upper limit of the product size , which enters the first enrichment unit 1. Under the action of the upper draft fan 25 of the upper module 13 of the first enrichment unit 1, a vacuum is created in the working chamber of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1, as a result of which through the lower 19 air distributors of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1, an air flow with a given flow rate is sucked in, the value of which is set by the device 26 for adjusting the number of revolutions of the electric motor 27 of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1. The size of the sieve meshes 18 of the pneumatic separator 1 4 of the upper module 13 of the first enrichment unit 1 is twice the size of the upper limit of the size of the product entering the first enrichment unit. The upward flow of air evenly distributed along the live section of the sieve 18 of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1 ensures the separation of the material entering the sieve 18 of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1 into heavy and light fractions. Heavy and light fractions accumulate in the receivers of the light 21 and heavy 22 fractions of the pneumatic separator 14 of the upper module 13 of the first enrichment unit 1 and with the help of augers 23 are removed to the hopper 79 for the accumulation of fractionated portions of the concentrate from the upper module 13 of the first modular unit 1.

The sieved product of the vibrating screen 29 of the upper module 13 of the first enrichment unit 1 along the guide 30 of the screened product from each previous module to each subsequent module enters the next (lower) module 13. On the vibrating screen 29 of this module 13 of the first enrichment unit 1, the flow of a mixture of mineral grains is separated and containing rock according to the second size class (for example, Х0.200 mm). Further, the operations of combined vibro- and pneumoenrichment, described above, are repeated. As a result, the following heavy and light fractions are accumulated in the receivers of the light 21 and heavy 22 fractions of the pneumatic separator 14 of this module 13 of the first enrichment plant 1 and with the help of screws 23 are removed to the hopper 79 for the accumulation of fractionated portions of the concentrate from this bo module 13 of the first modular plant 1.

The sieved product of the vibrating screen 29 of the lower module 13 of the first enrichment plant 1 along the guide 30 of the grated product enters the belt elevators 33 between the frames 12 of the first modular plant 1 and the next modular plant 1. The belt elevators 33 between the frames 12 of the modular plants 1 are made in the form of horizontal conveyors 34 with vertical sections, vertical conveyors 35 and tension rollers 36, 37. With the help of belt elevators 33, the product under the sieve of the vibrating screen 29 of the lower module 13 of the first enrichment plant 1 is processed in the following modular enrichment plants 1, where the operations described above are repeated. As a result of the processing of the mixture of mineral grains and grains of the host rock at the modular enrichment units 1, a fractionated concentrate and a fractionated host rock are formed, which accumulate in bunkers 79 for the accumulation of fractionated portions of the concentrate and host rock from the modular unit 1.

Dust-like fractions from the venter concentrator 4 through the outlet 75 of the soap-like product outlet and dust-like fractions from the enrichment units 1 through the dusty air supply collector 28 are jointly pumped into the dust chamber 5. rocks from dust chamber 5.

Exhausted air from the dust chamber 5 enters the unit 6 for cleaning the air from dust. In node 6, the final cleaning of the air emitted into the environment takes place.

The captured remains of finely dispersed dust are discharged into the hopper 81 for the accumulation of dust from the bag filter of the air cleaning unit from dust 6.

Management of the technological process of raw material processing is carried out from the control panel 8 of the mobile enrichment unit, and power supply - from the diesel generator 9, which includes a fuel tank 10.

Option 2. Enrichment of raw materials in a continuous-periodic mode. The raw material (ore, sand, slag, slag or other material), previously crushed to a given size, is fed into the hopper 38 of the output feed unit 2 of loading the output feed.

From the hopper 38, the raw material is loaded in a uniform flow into the rotary mill 3 by the auger 39, which rotates from the drive 40, consisting of the electric motor 41 and the reducer 42.

Loading into the rotary mill is carried out through the loading unit 51 of the rotary mill, which consists of a vertical nozzle 52 and a cone 53 attached to the rotor 49.

In the rotary mill Z, the combined processing of the loaded raw materials takes place: shock-mechanical impact with the imposition of a centrifugal field and subsequent pneumatic separation of the processed industrial product. As a result of the combined impact on the raw material, mineral grains are opened, as well as giving a spherical shape to the particles of the metal phase, which initially had an irregular shape.

In the deslimator 44, the particles of the heavy fraction (mineral grains) that have accidentally entered settle on the walls of the deslimator housing 64 and fall into the unloading hopper 43.

In addition, the flow of dusty air, which is removed through the air outlet nozzle 66, is additionally cleaned of particles of the heavy fraction (mineral grains). The dusty air cleaned of particles of the heavy fraction enters the centrifugal concentrator 4.

In the venter concentrator 4, heavy fine particles are separated due to the venter forces. The selected fraction of fine heavy particles through the node 76 of discharging the heavy fraction enters the receiving hopper of the magnetic separator 7. In the receiving hopper of the magnetic separator 7, the accumulation of heavy fine particles occurs.

The dust-like fraction from the venter concentrator 4 through the nozzle 75 of the dust-like product outlet enters the dust trap in the dust chamber 5.

In the unloading hopper 43 of the rotary mill 3, the heavy fraction formed in the working volume of the rotary mill C, consisting of spherical metal phase particles and mineral grains, is captured. The captured mixture of metal phase and mineral grains from the unloading hopper 43 is sent to the receiving hopper of the magnetic separator 7. In the receiving hopper of the magnetic separator 7, the mixture of metal phase and mineral grains accumulates.

Dust-like fractions from the centrifugal concentrator 4 are pumped into the dust chamber 5 through the nozzle 75 of the dust-like product outlet.

Exhausted air from the dust chamber 5 enters the unit 6 for cleaning the air from dust. In node b, the final cleaning of the air returning to the environment takes place. The captured remains of finely dispersed dust are discharged into the hopper 81 for the accumulation of dust from the bag filter of the air cleaning unit from dust 6.

Accumulation of heavy fine particles from the centrifugal concentrator 4 and the mixture of metal phase and mineral grains from the unloading hopper 43 in the receiving hopper of the magnetic separator 7 is carried out during a given period of time, after which the line "output loading node 2 - rotary mill Z -" centrifugal concentrator 4 -- dust chamber 5 - air cleaning unit from dust 6" is turned off and the line "magnetic separator 7 - modular enrichment units 1 - dust chamber 5 -" air cleaning unit from dust b" is turned on.

In the magnetic separator 7, the mixture of mineral grains and spherical metal particles, separated from the dusty product and formed in the working volume of the rotary mill Z and captured in the venter concentrator 4, is separated. The metal phase separated on the magnetic separator 7 in the form of spherical particles is discharged into the hopper 78 for accumulation of the metal fraction from the magnetic separator 7.

The mineral product purified from the metal phase and strongly magnetic mineral grains from the magnetic separator 7 is sent for separation to the modular beneficiation units 1. As a result of the separation of the mixture of mineral grains and host rock grains on the modular beneficiation units 1, a size-fractionated concentrate and a size-fractionated host rock are formed, which are accumulated in bunkers 79 for the accumulation of fractionated portions of concentrate and containing rock from modular installation 1.

Dust-like fractions from the enrichment units 1 are pumped into the dust chamber 5 through the collector 28 of the dusty air supply.

Exhausted air from the dust chamber 5 enters the unit 6 for cleaning the air from dust. In node b, the final cleaning of the air returning to the environment takes place. The captured remains of finely dispersed dust are discharged into the hopper 81 for the accumulation of dust from the bag filter of the air cleaning unit from dust 6.

Management of the technological process of raw material processing is carried out from remote control 8

From the control of the mobile enrichment unit, and the energy supply - from the diesel generator 9, which includes a capacity of 10 for fuel.

The proposed technical solution in the form of a mobile enrichment unit allows for the creation of an environmentally safe installation capable of extracting useful components with a particle size of 420 μm from raw materials into a concentrate without using water and environmentally harmful chemicals in the technological process. This design makes the mobile beneficiation unit a promising device not only for extracting metal inclusions from metallurgical slags, but also for beneficiation of natural root ores and placers of noble, rare, non-ferrous and ferrous metals, as well as precious and technical stones.

Claims (1)

UTILITY MODEL FORMULA A mobile enrichment unit comprising a frame, modules mounted one below the other, common load-bearing elements connecting module nodes to the frame and flexible supports of the frame, characterized in that the mobile enrichment unit consists of: two or more modular enrichment units installations, output power loading unit, rotary mill, centrifugal concentrator, dust chamber, air cleaning unit from dust, magnetic separator, mobile enrichment unit control panel, diesel generator, fuel tank and platform for placing components of the mobile enrichment unit; at the same time, each of two or more modular enrichment plants contains: a support frame on which two or more modules are mounted, each of which consists of a pneumatic separator in the form of a vertically located housing, equipped with a dividing wall, a loading device, a sieve, lower and upper air distributors and receivers of light and heavy fractions with augers, and equipped with: a system for collecting the dust fraction and feeding it to the dust chamber, made in the form of thrust fans with devices for regulating the number of revolutions of electric motors and a collector for supplying dusty air to the dust chamber; and the loading device of each module is made in the form of a vibrating screen with a guide of the grated product from each previous module to each subsequent module and mounted on a common supporting element rigidly connected to the frame, the frames are installed on flexible supports, and between each of two or more frames 60 additionally mounted belt elevator, which consists of a horizontal conveyor with a vertical section, a vertical conveyor and tension rollers; in addition, the output loading unit consists of an output hopper, an auger and an auger drive in the form of an electric motor and a gearbox, and the rotary mill is equipped with an unloading hopper and a deslammer and consists of a body, a support frame, a drive in the form of an electric motor fixed on the support frame, a rotor with guides blades, a loading unit in the form of a vertical nozzle and a cone attached to the rotor, a dust removal channel, an unloading channel and air intake nozzles; and the unloading hopper consists of a body, a valve, a vibration drive, vibration supports, rods for adjusting the amplitude of valve oscillations and a unit for adjusting the unloading gap; the deslimator consists of a housing, a conical air distributor and an air outlet nozzle, and the odden concentrator consists of a housing, a jet fan equipped externally with a guide screw, an air flow divider with an adjustable tilt of the separating element, a dust removal channel, a hopper for the accumulation of heavy fractions, a dust injection unit with a hopper for the accumulation of heavy fraction, a nozzle for the removal of a dusty product and a unit for unloading a heavy fraction, as well as a mobile enrichment unit is additionally equipped with a hopper for the accumulation of metal fraction from a rotary mill, a hopper for the accumulation of metal fraction from a magnetic separator, hoppers for the accumulation of fractionated portions of concentrate and containing rock from a modular installations, a hopper for the accumulation of unfractionated containing rock from the dust chamber, a hopper for the accumulation of dust from the sleeve filter of the air cleaning unit from dust; and the platform for placing the equipment of the mobile enrichment unit is equipped with wheels to ensure the possibility of moving the unit and screw supports to ensure the stability of the platform and its installation in a horizontal position. pi OV Ukha 3. 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