CN110302861B - Multi-functional mine raw ore processing apparatus - Google Patents

Multi-functional mine raw ore processing apparatus Download PDF

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Publication number
CN110302861B
CN110302861B CN201910387541.7A CN201910387541A CN110302861B CN 110302861 B CN110302861 B CN 110302861B CN 201910387541 A CN201910387541 A CN 201910387541A CN 110302861 B CN110302861 B CN 110302861B
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transmission
belt wheel
box
plate
fixedly arranged
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CN201910387541.7A
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CN110302861A (en
Inventor
付玉荣
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Taizhou Tuoji Technology Co., Ltd
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Taizhou Tuoji Technology Co Ltd
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    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C1/00Crushing or disintegrating by reciprocating members
    • B02C1/02Jaw crushers or pulverisers
    • B02C1/04Jaw crushers or pulverisers with single-acting jaws
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C1/00Crushing or disintegrating by reciprocating members
    • B02C1/14Stamping mills
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/08Separating or sorting of material, associated with crushing or disintegrating
    • B02C23/14Separating or sorting of material, associated with crushing or disintegrating with more than one separator
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/08Separating or sorting of material, associated with crushing or disintegrating
    • B02C23/16Separating or sorting of material, associated with crushing or disintegrating with separator defining termination of crushing or disintegrating zone, e.g. screen denying egress of oversize material
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/18Adding fluid, other than for crushing or disintegrating by fluid energy
    • B02C23/20Adding fluid, other than for crushing or disintegrating by fluid energy after crushing or disintegrating
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B1/00Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
    • B07B1/28Moving screens not otherwise provided for, e.g. swinging, reciprocating, rocking, tilting or wobbling screens
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B07SEPARATING SOLIDS FROM SOLIDS; SORTING
    • B07BSEPARATING SOLIDS FROM SOLIDS BY SIEVING, SCREENING, SIFTING OR BY USING GAS CURRENTS; SEPARATING BY OTHER DRY METHODS APPLICABLE TO BULK MATERIAL, e.g. LOOSE ARTICLES FIT TO BE HANDLED LIKE BULK MATERIAL
    • B07B1/00Sieving, screening, sifting, or sorting solid materials using networks, gratings, grids, or the like
    • B07B1/42Drive mechanisms, regulating or controlling devices, or balancing devices, specially adapted for screens
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B13/00Accessories or details of general applicability for machines or apparatus for cleaning
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B08CLEANING
    • B08BCLEANING IN GENERAL; PREVENTION OF FOULING IN GENERAL
    • B08B3/00Cleaning by methods involving the use or presence of liquid or steam
    • B08B3/04Cleaning involving contact with liquid
    • B08B3/10Cleaning involving contact with liquid with additional treatment of the liquid or of the object being cleaned, e.g. by heat, by electricity or by vibration
    • B08B3/102Cleaning involving contact with liquid with additional treatment of the liquid or of the object being cleaned, e.g. by heat, by electricity or by vibration with means for agitating the liquid
    • BPERFORMING OPERATIONS; TRANSPORTING
    • B02CRUSHING, PULVERISING, OR DISINTEGRATING; PREPARATORY TREATMENT OF GRAIN FOR MILLING
    • B02CCRUSHING, PULVERISING, OR DISINTEGRATING IN GENERAL; MILLING GRAIN
    • B02C23/00Auxiliary methods or auxiliary devices or accessories specially adapted for crushing or disintegrating not provided for in preceding groups or not specially adapted to apparatus covered by a single preceding group
    • B02C23/08Separating or sorting of material, associated with crushing or disintegrating
    • B02C23/16Separating or sorting of material, associated with crushing or disintegrating with separator defining termination of crushing or disintegrating zone, e.g. screen denying egress of oversize material
    • B02C2023/165Screen denying egress of oversize material

Abstract

The invention relates to a crushing and cleaning device, in particular to a multifunctional mine raw ore processing device, which comprises an installation shell, a primary crushing device, a screening device, a large block conveying device, a small block transmission device, a secondary crushing device, a cleaning device, a dust removing device and an internal matching plate, wherein large blocks are firstly crushed into small blocks by the primary crushing device, then the small blocks are screened by the screening device to be qualified and directly leaked away, the large blocks are crushed for the second time by the secondary crushing device to be qualified and cleaned, and the like, the primary crushing device is installed and fixed in the installation shell, the internal matching plate is installed and fixed in the installation shell, the screening device is installed and fixed on the internal matching plate, the large block conveying device is installed and fixed on the internal matching plate, the small block transmission device is installed and fixed in the installation shell, the secondary crushing device is installed and fixed in the installation shell, the cleaning device is fixedly installed inside the installation shell, and the dust removal device is fixedly installed inside the installation shell.

Description

Multi-functional mine raw ore processing apparatus
Technical Field
The invention relates to a crushing and cleaning device, in particular to a multifunctional mine raw ore treatment device.
Background
In the process of long progress of human, the 'mine' plays an important role, the stone mine is used as a tool for manufacturing most of life from copper mine, and various mineral elements are reproduced at present, and the ores are all from mines, so that the multifunctional mine raw ore processing device is invented.
Disclosure of Invention
The invention relates to a crushing and cleaning device, in particular to a multifunctional mine raw ore treatment device, which has the functions that a primary crushing device can firstly crush large blocks into small blocks, then the small blocks are screened to be qualified through a screening device and directly leaked to be cleaned and discharged, and a secondary crushing device with overlarge size is used for secondary crushing, so that the qualified blocks are cleaned and unqualified, and then the secondary crushing device is used for multiple crushing and the like.
The invention relates to a crushing and cleaning device, in particular to a multifunctional mine raw ore processing device which comprises an installation shell, a primary crushing device, a screening device, a large block conveying device, a small block transmission device, a secondary crushing device, a cleaning device, a dust removing device and an internal matching board.
The primary crushing device comprises a crushing box, a position adjusting rod, an adjustable crushing plate, a crushing size adjusting device, a swinging crushing device, a motor B, an output belt wheel B, a transmission belt B and a transmission device B, wherein the position adjusting rod is installed on the crushing box, the adjustable crushing plate is installed on the position adjusting rod, the crushing size adjusting device is installed and fixed in the crushing box, the transmission device B is installed on the crushing box, the swinging crushing device is installed on the crushing size adjusting device, the swinging crushing device is installed on the transmission device B, the motor B is installed and fixed in the crushing box, the output belt wheel B is installed and fixed on the motor B, the transmission belt B is installed on the output belt wheel B, and the transmission belt B is installed on the transmission device B;
the crushing size adjusting device comprises a fixed box, a limiting hole, a limiting bolt, a moving block, a rotating ball, a connecting rod and a hinge hole, wherein the limiting hole is formed in the fixed box;
the swing crushing device is composed of a swing plate, eccentric disc mounting holes, a hinge seat and hinge columns, wherein the eccentric disc mounting holes are formed in the swing plate, the hinge seat is fixedly mounted on the swing plate, and the hinge columns are fixedly mounted on the hinge seat;
the transmission device consists of a transmission shaft, a receiving belt wheel and an eccentric disc, wherein the receiving belt wheel is fixedly arranged on the transmission shaft, and the eccentric disc is fixedly arranged on the transmission shaft;
the screening device comprises a screening box, a shaft mounting rack, a screening transmission device mounting rack, a rotating shaft C, a limiting convex ring C, a kinetic energy receiving belt wheel C, a driving T-shaped disc, a motor C, an output belt wheel C, a transmission belt C, a screening transmission device, a screening filtering device, an electric discharging device and a transmission material channel, wherein the shaft mounting rack is fixedly arranged inside the screening box, the screening transmission device mounting rack is fixedly arranged inside the screening box, the rotating shaft C is arranged on the shaft mounting rack, the limiting convex ring C is fixedly arranged on the rotating shaft C, the kinetic energy receiving belt wheel C is fixedly arranged on the rotating shaft C, the driving T-shaped disc is fixedly arranged on the rotating shaft C, the output belt wheel C is fixedly arranged on the motor C, the transmission belt C is arranged on the output belt wheel C, the transmission belt C is arranged on the kinetic energy receiving belt wheel C, and the screening transmission device is arranged, the screening and filtering device is arranged on the rotating shaft C, the electric discharging device is fixedly arranged on the screening box, and the transmission material channel is fixedly arranged on the screening box;
the screening transmission device consists of a push rod C, a spring C, a matching ball C, a matching groove ball and a rotating ball, wherein the spring C is arranged on the push rod C, the matching ball C is fixedly arranged on the push rod C, the matching groove ball is fixedly arranged on the push rod C, and the rotating ball is arranged inside the matching groove ball;
the screening and filtering device comprises a mounting plate C, a spherical groove, a screening plate, a material passing hole, a sliding block moving groove C, a sliding block C, an inner wall matching plate moving groove and a spring CC, wherein the spherical groove is formed in the mounting plate C, the screening plate is fixedly arranged on the mounting plate C, the material passing hole is formed in the screening plate, the sliding block moving groove C is formed in the screening plate, the sliding block C is arranged in the sliding block moving groove C, the inner wall matching plate is fixed on the sliding block C, the inner wall matching plate moving groove is formed in the screening plate, and the spring CC is arranged on the inner wall matching plate;
the electric discharging device comprises a fixed cylinder mounting rack, a fixed cylinder, heat dissipation holes, a motor CCC, a coupler, a lead screw mounting ring, a lead screw limiting ring, a movable inner square pipe and a discharging door, wherein the fixed cylinder is fixedly mounted on the fixed cylinder mounting rack;
the large block conveying device is composed of a motor D, an output belt wheel D, a transmission belt D, a transmission cylinder, a feeding hole D, a feeding hole DD, a discharging pipe, a rotating shaft D, a receiving belt wheel D, a material pushing plate D and a limiting convex ring D, wherein the output belt wheel D is fixedly installed on the motor D, the transmission belt D is installed on the output belt wheel D, the transmission belt D is installed on the receiving belt wheel D, the feeding hole D is formed in the transmission cylinder, the feeding hole DD is formed in the transmission cylinder, the discharging pipe is fixedly installed on the transmission cylinder, the rotating shaft D is installed in the transmission cylinder, the receiving belt wheel D is fixedly installed on the rotating shaft D, the material pushing plate D is fixedly installed on the rotating shaft D, and the limiting convex ring D is;
the small block transmission device comprises a motor W, an output belt wheel W, a transmission belt W, a transmission shaft W, a receiving belt wheel W, a shaft connecting rod, a transmission roller and a transmission belt, wherein the output belt wheel W is fixedly arranged on the motor W;
the secondary crushing device consists of a motor F, an output belt wheel F, a transmission belt, a secondary crushing inner gear box, a material distributing block, a sliding groove F, a bottom matching block, an extrusion crushing device, an extrusion transmission device, a filter screen, a discharge port F and a baffle plate, an output belt wheel F is fixedly installed on a motor F, a transmission belt is installed on the output belt wheel F, a material distributing block is fixedly installed inside a secondary crushing inner gear box, a bottom matching block is fixedly installed inside the secondary crushing inner gear box, a sliding groove F is arranged on the material distributing block, a bottom matching block is arranged on the material distributing block, an extrusion crushing device is installed on the material distributing block, the extrusion crushing device is installed on the bottom matching block, an extrusion transmission device is installed inside the secondary crushing inner gear box, a filter screen is arranged on the secondary crushing inner gear box, a discharge port F is arranged on the secondary crushing inner gear box, and a blocking plate is fixedly installed inside the secondary crushing inner gear box;
the extrusion crushing device is composed of an extrusion tooth block, a sliding rod F, a spring installation cylinder, a sliding block moving groove F, a sliding block F, a connecting rod F and a spring F, wherein the sliding rod F is fixedly installed on the extrusion tooth block;
the extrusion transmission device consists of a rotating shaft F, a receiving belt wheel F and an elliptical disc, wherein the receiving belt wheel F is fixedly arranged on the rotating shaft F, and the elliptical disc is fixedly arranged on the rotating shaft F;
the cleaning device comprises a cleaning box, a material receiving cavity, a feed inlet Q, a feed hole Q, a rotating door plate mounting shaft, a rotating door plate, a motor Q, an output belt wheel Q, a transmission belt Q and a cleaning discharge device, wherein the material receiving cavity is arranged inside the cleaning box;
the cleaning and discharging device comprises a rotating shaft Q, a receiving belt wheel Q, a material containing box mounting seat, a material containing box and a water discharging hole, wherein the receiving belt wheel Q is fixedly mounted on the rotating shaft Q;
the dust removal device comprises a motor E, an output belt wheel E, a transmission belt E, an air suction device, an air pipe, a dust purification box, an air suction box, a purification plate and an exhaust pipe, wherein the output belt wheel E is fixedly installed on the motor E;
the air suction device consists of an air suction cylinder, an air inlet hole, an air outlet hole, a rotating device E, an air compression plate, an air compression cavity and a rotating device mounting hole, wherein the air inlet hole is formed in the air suction cylinder;
the rotating device E consists of a rotating shaft E, a rotating column E, a compression plate sliding groove and a receiving belt wheel E, wherein the rotating column E is fixedly arranged on the rotating shaft E, the compression plate sliding groove is formed in the rotating column E, and the receiving belt wheel E is fixedly arranged on the rotating shaft E;
primary breaker installation is fixed inside the installation shell, and inside cooperation board installation is fixed inside the installation shell, and the sieving mechanism installation is fixed on inside cooperation board, and the installation of bold conveyer is fixed on inside cooperation board, and transmission material channel and feed inlet D cooperate, and the installation of fritter transmission is fixed inside the installation shell, and the installation of second grade breaker is fixed inside the installation shell, and the belt cleaning device installation is fixed inside the installation shell, and the installation of dust collector is fixed inside the installation shell.
As the further optimization of the technical scheme, the number of the crushing size adjusting devices of the multifunctional mine raw ore processing device is two, and the number of the eccentric discs of the transmission device B is two.
As a further optimization of the technical scheme, the screening transmission device of the screening device of the multifunctional mine raw ore processing device provided by the invention has two screening transmission devices, and the number of the sliding block moving grooves C, the sliding blocks C, the inner wall matching plates, the inner wall matching plate moving grooves and the springs CC of the screening and filtering device is two.
As a further optimization of the technical scheme, the number of the sliding grooves F of the secondary crushing device of the multifunctional mine raw ore processing device is two, the number of the extrusion tooth blocks, the spring mounting cylinders, the sliding block moving grooves F, the sliding blocks F, the connecting rods F and the springs F of the extrusion crushing device is two, and the number of the sliding rods F is four.
The multifunctional mine raw ore treatment device has the beneficial effects that:
the invention relates to a crushing and cleaning device, in particular to a multifunctional mine raw ore treatment device, which realizes the functions of crushing large blocks into small blocks by a primary crushing device, screening qualified blocks by a screening device, directly leaking, cleaning and discharging the small blocks, crushing the large blocks for the second time by a secondary crushing device, cleaning the unqualified blocks, crushing the large blocks for multiple times by the secondary crushing device and the like.
Drawings
The invention is described in further detail below with reference to the accompanying drawings and specific embodiments.
Fig. 1 is a schematic overall structure diagram of a multifunctional mine raw ore processing device of the present invention.
Fig. 2 is a schematic view of a primary crushing device 2 of the multifunctional mine raw ore processing device.
Fig. 3 is a schematic view of a crushing size adjusting device 2-4 of the multifunctional mine raw ore processing device.
Fig. 4 is a schematic view of the swing crushing device 2-5 of the multifunctional mine raw ore processing device.
Fig. 5 is a schematic diagram of a transmission device B2-9 of the multifunctional mine raw ore processing device.
Fig. 6 is a schematic view of a screening device 3 of the multifunctional mine raw ore processing device.
Fig. 7 is a schematic diagram of a screen transmission device 3-11 of the multifunctional mine raw ore processing device.
Fig. 8 is a schematic diagram of the screening and filtering device 3-12 of the multifunctional mine raw ore processing device.
Fig. 9 is a partially enlarged schematic view of the screening and filtering device 3-12 of the multifunctional mine raw ore processing device.
Fig. 10 is a schematic view of an electric discharging device 3-13 of the multifunctional mine raw ore processing device.
Fig. 11 is a schematic diagram of a large block conveying device 4 of the multifunctional mine raw ore processing device.
Fig. 12 is a schematic diagram of a small block transmission device 5 of the multifunctional mine raw ore processing device.
Fig. 13 is a schematic view of a secondary crushing device 6 of the multifunctional mine raw ore processing device.
Fig. 14 is a schematic view of the crushing device 6-8 of the multifunctional mine raw ore processing device.
Fig. 15 is a view of the extrusion transmission device 6-9 of the multifunctional mine raw ore processing device.
Fig. 16 is a schematic view of a cleaning device 7 of the multifunctional mine raw ore processing device.
Fig. 17 is a partially enlarged schematic view of a cleaning device 7 of the multifunctional mine raw ore processing device of the invention.
Fig. 18 is a schematic view of a cleaning and discharging device 7-10 of the multifunctional mine raw ore processing device.
Fig. 19 is a schematic view of a dust removing device 8 of the multifunctional mine raw ore processing device.
Fig. 20 is a schematic view of an air suction device 8-4 of the multifunctional mine raw ore processing device.
Fig. 21 is a partial schematic view of an air suction device 8-4 of the multifunctional mine raw ore processing device.
Fig. 22 is a schematic view of a rotating device E8-4-4 of the multifunctional mine raw ore processing device of the invention.
In the figure: installing the shell 1; a primary crushing device 2; 2-1 of a crushing box; a position adjusting rod 2-2; 2-3 of an adjustable crushing plate; a crushing size adjusting device 2-4; 2-4-1 of a fixed box; 2-4-2 of a limiting hole; 2-4-3 parts of a limiting bolt; a moving block 2-4-4; 2-4-5 of a rotating ball; 2-4-6 of a connecting rod; hinge holes 2-4-7; a swing crushing device 2-5; a swing plate 2-5-1; 2-5-2 of eccentric disc mounting holes; 2-5-3 of a hinge seat; hinge columns 2-5-4; motor B2-6; an output pulley B2-7; a transmission belt B2-8; transmission B2-9; a transmission shaft B2-9-1; a receiving belt wheel B2-9-2; 2-9-3 parts of an eccentric disc; a screening device 3; 3-1 of a screening box; a shaft mounting bracket 3-2; a screen transmission device mounting frame 3-3; rotating shaft C3-4; a limit convex ring C3-5; a kinetic energy receiving pulley C3-6; driving the T-shaped discs 3-7; motor C3-8; an output pulley C3-9; a transmission belt C3-10; a screening transmission device 3-11; a push rod C3-11-1; spring C3-11-2; a fitting ball C3-11-3; 3-11-4 of a matching groove ball; rotating the beads 3-11-5; 3-12 parts of a screening and filtering device; mounting plate C3-12-1; spherical grooves 3-12-2; 3-12-3 parts of a screening plate; 3-12-4 parts of material passing holes; a slide block moving groove C3-12-5; a slide block C3-12-6; inner wall matching plates 3-12-7; inner wall matching plate moving grooves 3-12-8; spring CC 3-12-9; 3-13 parts of an electric discharging device; a fixed cylinder mounting rack 3-13-1; 3-13-2 of a fixed cylinder; 3-13-3 of heat dissipation holes; motor CCC 3-13-4; 3-13-5 of a coupler; 3-13-6 parts of a lead screw mounting ring; 3-13-7 parts of a screw rod; 3-13-8 parts of a lead screw limiting ring; moving the inner square pipe by 3-13-9; 3-13-10 parts of a discharge gate; a transmission material channel 3-14; a bulk conveying device 4; motor D4-1; an output pulley D4-2; a drive belt D4-3; 4-4 of a transmission cylinder; feed port D4-5; feed port DD 4-6; 4-7 parts of a discharge pipe; rotating shaft D4-8; a receiving pulley D4-9; a material pushing plate D4-10; a limit convex ring D4-11; a small block transmission device 5; a motor W5-1; an output pulley W5-2; a drive belt W5-3; a transmission shaft W5-4; a receiving pulley W5-5; shaft connecting rods 5-6; 5-7 parts of transmission roller; 5-8 parts of a transmission belt; a secondary crushing device 6; motor F6-1; an output pulley F6-2; 6-3 of a transmission belt; 6-4 of a secondary crushing inner gear box; 6-5 parts of a distributing block; a sliding groove F6-6; bottom matching blocks 6-7; 6-8 parts of an extrusion crushing device; 6-8-1 of an extrusion tooth block; a slide bar F6-8-2; 6-8-3 parts of a spring mounting cylinder; a slide block moving groove F6-8-4; a slide block F6-8-5; connecting rod F6-8-6; spring F6-8-7; 6-9 of an extrusion transmission device; rotating shaft F6-9-1; a take-up pulley F6-9-2; 6-9-3 of an elliptical disc; 6-10 parts of a filter screen; a discharge port F6-11; 6-12 parts of a barrier plate; a cleaning device 7; a cleaning tank 7-1; a material receiving cavity 7-2; a feed inlet Q7-3; a feed port Q7-4; rotating a door plate mounting shaft 7-5; 7-6 of a rotating door plate; motor Q7-7; an output pulley Q7-8; a drive belt Q7-9; cleaning a discharging device 7-10; rotating shaft Q7-10-1; a receiving belt wheel Q7-10-2; 7-10-3 parts of a material containing box mounting seat; 7-10-4 parts of material containing box; 7-10-5 of a drain hole; a dust removing device 8; motor E8-1; an output pulley E8-2; a drive belt E8-3; 8-4 of a gas suction device; 8-4-1 of an air suction cylinder; air inlet 8-4-2; 8-4-3 of air outlet holes; a rotating device E8-4-4; rotating shaft E8-4-4-1; rotating column E8-4-4-2; a compression plate sliding groove 8-4-4-3; a receiving belt wheel E8-4-4-4; 8-4-5 parts of a gas compression plate; 8-4-6 of a gas compression cavity; a rotating device mounting hole 8-4-7; 8-5 parts of an air pipe; 8-6 parts of a dust purification box; 8-7 parts of an air suction box; 8-8 parts of a purification plate; 8-9 parts of an exhaust pipe; an internal mating plate 9.
Detailed Description
The first embodiment is as follows:
the present embodiment will be described with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22, the invention relates to a crushing and cleaning device, in particular to a multifunctional mine raw ore processing device which comprises an installation shell 1, a primary crushing device 2, a screening device 3, a large block conveying device 4, a small block transmission device 5, a secondary crushing device 6, a cleaning device 7, a dust removal device 8 and an internal matching plate 9, and the functions that large blocks are firstly crushed into small blocks by the primary crushing device, then qualified blocks are screened by the screening device and directly leaked to be cleaned and discharged, and qualified blocks are cleaned and unqualified by secondary crushing by the secondary crushing device with overlarge size, and then the qualified blocks are crushed for multiple times by the secondary crushing device are realized.
The primary crushing device 2 comprises a crushing box 2-1, a position adjusting rod 2-2, an adjustable crushing plate 2-3, a crushing size adjusting device 2-4, a swinging crushing device 2-5, a motor B2-6, an output belt wheel B2-7, a transmission belt B2-8 and a transmission device B2-9, wherein the motor B2-6 drives the transmission device B2-9 to rotate through the transmission belt B2-8, the position adjusting rod 2-2 is arranged on the crushing box 2-1, the adjustable crushing plate 2-3 is arranged on the position adjusting rod 2-2, the crushing size adjusting device 2-4 is fixedly arranged inside the crushing box 2-1, the transmission device B2-9 is arranged on the crushing box 2-1, the swinging crushing device 2-5 is arranged on the crushing size adjusting device 2-4, the swing crushing device 2-5 is arranged on a transmission device B2-9, a motor B2-6 is fixedly arranged in the crushing box 2-1, an output belt wheel B2-7 is fixedly arranged on the motor B2-6, a transmission belt B2-8 is arranged on an output belt wheel B2-7, and a transmission belt B2-8 is arranged on a transmission device B2-9;
the crushing size adjusting device 2-4 consists of a fixed box 2-4-1, a limiting hole 2-4-2, a limiting bolt 2-4-3, a moving block 2-4-4, a rotating ball 2-4-5, a connecting rod 2-4-6 and a hinge hole 2-4-7, wherein the limiting hole 2-4-2 is arranged on the fixed box 2-4-1, the limiting bolt 2-4-3 is arranged on the fixed box 2-4-1, the moving block 2-4-4 is arranged in the fixed box 2-4-1, the rotating ball 2-4-5 is arranged in the moving block 2-4-4, the connecting rod 2-4-6 is arranged and fixed on the rotating ball 2-4-5, the hinge holes 2-4-7 are arranged on the connecting rods 2-4-6;
the swing crushing device 2-5 consists of a swing plate 2-5-1, an eccentric disc mounting hole 2-5-2, a hinge seat 2-5-3 and a hinge column 2-5-4, the rotating eccentric disc 2-9-3 drives the swinging plate 2-5-1 and the adjustable crushing plate 2-3 to extrude ores through the eccentric disc mounting hole 2-5-2, the extruded and crushed ores fall to the eccentric disc mounting hole 2-5-2 in the screening device 3 from the space between the adjustable crushing plate 2-3 and the swinging plate 2-5-1 and are arranged on the swinging plate 2-5-1, the hinge seat 2-5-3 is fixedly arranged on the swinging plate 2-5-1, and the hinge column 2-5-4 is fixedly arranged on the hinge seat 2-5-3;
the transmission device B2-9 is composed of a transmission shaft B2-9-1, a receiving belt wheel B2-9-2 and an eccentric disc 2-9-3, wherein the receiving belt wheel B2-9-2 is fixedly arranged on the transmission shaft B2-9-1, and the eccentric disc 2-9-3 is fixedly arranged on the transmission shaft B2-9-1;
the screening device 3 comprises a screening box 3-1, a shaft mounting frame 3-2, a screening transmission device mounting frame 3-3, a rotating shaft C3-4, a limiting convex ring C3-5, a kinetic energy receiving belt wheel C3-6, a driving T-shaped disc 3-7, a motor C3-8, an output belt wheel C3-9, a transmission belt C3-10, a screening transmission device 3-11, a screening filtering device 3-12, an electric discharging device 3-13 and a transmission material channel 3-14, wherein the motor C3-8 drives the kinetic energy receiving belt wheel C3-6 to rotate through the transmission belt C3-10, the kinetic energy receiving belt wheel C3-6 drives the rotating shaft C3-4 to rotate, the rotating shaft C3-4 drives the driving T-shaped disc 3-7 to rotate, the rotating driving T-shaped disc 3-7 screening transmission device 3-11 to move on the screening transmission device mounting frame 3-3, the screening transmission device 3-11 leads one end of the screening and filtering device 3-12 to tilt up, when the projecting position of the T-shaped disc 3-7 is driven to be separated from the screening transmission device 3-11 at one end, the screening transmission device 3-11 at the other end rotates to the lower part and then supports the other end of the screening and filtering device 3-12, thereby leading the screening and filtering device 3-12 to repeatedly swing at a rotating shaft C3-4 to promote screening, a shaft mounting frame 3-2 is fixedly arranged inside a screening box 3-1, a screening transmission device mounting frame 3-3 is fixedly arranged inside the screening box 3-1, a rotating shaft C3-4 is arranged on the shaft mounting frame 3-2, a limit convex ring C3-5 is fixedly arranged on the rotating shaft C3-4, a kinetic energy receiving belt wheel C3-6 is fixedly arranged on the rotating shaft C3-4, the driving T-shaped disc 3-7 is fixedly arranged on a rotating shaft C3-4, an output belt wheel C3-9 is fixedly arranged on a motor C3-8, a transmission belt C3-10 is arranged on the output belt wheel C3-9, a transmission belt C3-10 is arranged on a kinetic energy receiving belt wheel C3-6, a sieving transmission device 3-11 is arranged on a sieving transmission device mounting frame 3-3, a sieving filter device 3-12 is arranged on the rotating shaft C3-4, an electric discharging device 3-13 is fixedly arranged on a sieving box 3-1, and a transmission material channel 3-14 is fixedly arranged on the sieving box 3-1;
the sieving transmission device 3-11 consists of a push rod C3-11-1, a spring C3-11-2, a matching ball C3-11-3, a matching groove ball 3-11-4 and a rotating ball 3-11-5, wherein the spring C3-11-2 is installed on the push rod C3-11-1, the matching ball C3-11-3 is installed and fixed on the push rod C3-11-1, the matching groove ball 3-11-4 is installed and fixed on the push rod C3-11-1, and the rotating ball 3-11-5 is installed inside the matching groove ball 3-11-4;
the screening and filtering device 3-12 comprises a mounting plate C3-12-1, a spherical groove 3-12-2, a screening plate 3-12-3, a material passing hole 3-12-4, a sliding block moving groove C3-12-5, a sliding block C3-12-6, an inner wall matching plate 3-12-7, an inner wall matching plate moving groove 3-12-8 and a spring CC3-12-9, wherein the spring CC3-12-9 pushes the inner wall matching plate 3-12-7 outwards to match with the screening box 3-1 when the screening and filtering device 3-12 is tilted, crushed aggregates leak down from the material passing hole 3-12-4 under the screened size of the screening plate 3-12-3, and stop on the screening plate 3-12-3 under the screened size with the large size, the spherical groove 3-12-2 is arranged on the mounting plate C3-12-1, the screening plate 3-12-3 is fixedly arranged on the mounting plate C3-12-1, the material passing hole 3-12-4 is arranged on the screening plate 3-12-3, the sliding block moving groove C3-12-5 is arranged inside the screening plate 3-12-3, the sliding block C3-12-6 is arranged inside the sliding block moving groove C3-12-5, the inner wall matching plate 3-12-7 is fixed on the sliding block C3-12-6, the inner wall matching plate moving groove 3-12-8 is arranged inside the screening plate 3-12-3, and the spring CC3-12-9 is arranged on the inner wall matching plate 3-12-7;
the electric discharging device 3-13 is composed of a fixed cylinder mounting frame 3-13-1, a fixed cylinder 3-13-2, heat dissipation holes 3-13-3, a motor CCC3-13-4, a coupler 3-13-5, a screw rod mounting ring 3-13-6, a screw rod 3-13-7, a screw rod limiting ring 3-13-8, a movable inner square pipe 3-13-9 and a discharging door 3-13-10, when the crushed ore materials are accumulated on the screening filtering device 3-12 to a certain amount, the motor CCC3-13-4 drives the screw rod 3-13-7 to rotate through the coupler 3-13-5, so that the movable inner square pipe 3-13-9 drives the discharging door 3-13-10 to move outwards, the fixed cylinder 3-13-2 is fixedly arranged on a fixed cylinder mounting frame 3-13-1, the heat dissipation holes 3-13-3 are arranged on the fixed cylinder 3-13-2, the motor CCC3-13-4 is fixedly arranged in the fixed cylinder 3-13-2, the coupler 3-13-5 is fixedly arranged on the motor CCC3-13-4, the lead screw mounting ring 3-13-6 is fixedly arranged in the fixed cylinder 3-13-2, the lead screw 3-13-7 is fixedly arranged on the coupler 3-13-5, the lead screw 3-13-7 is arranged on the lead screw mounting ring 3-13-6, the lead screw limiting ring 3-13-8 is fixedly arranged on the lead screw 3-13-7, the lead screw limiting ring 3-13-8 is arranged in the lead screw mounting ring 3-13-6, the movable inner square tube 3-13-9 is arranged on the screw rod 3-13-7, and the discharge gate 3-13-10 is fixedly arranged on the movable inner square tube 3-13-9;
the large block conveying device 4 is composed of a motor D4-1, an output belt wheel D4-2, a transmission belt D4-3, a transmission cylinder 4-4, a feeding hole D4-5, a feeding hole DD4-6, a discharging pipe 4-7, a rotating shaft D4-8, a receiving belt wheel D4-9, a material pushing plate D4-10 and a limiting convex ring D4-11, large blocks of mineral materials fall to the feeding hole D4-5 of the large block conveying device 4 through a transmission material channel 3-14, the motor D4-1 drives the material pushing plate D4-10 arranged on the rotating shaft D4-8 to rotate through the transmission belt D4-3, the rotating material pushing plate D4-10 is matched with the transmission cylinder 4-4 to push crushed ore upwards to be discharged from the discharging pipe 4-7 to fall into a secondary crushing device 6, the output belt wheel D4-2 is fixedly arranged on the motor D4-1, the transmission belt D4-3 is installed on the output belt wheel D4-2, the transmission belt D4-3 is installed on the receiving belt wheel D4-9, the feed inlet D4-5 is arranged on the transmission cylinder 4-4, the feed inlet DD4-6 is arranged on the transmission cylinder 4-4, the discharge pipe 4-7 is installed and fixed on the transmission cylinder 4-4, the rotating shaft D4-8 is installed inside the transmission cylinder 4-4, the receiving belt wheel D4-9 is installed and fixed on the rotating shaft D4-8, the material pushing plate D4-10 is installed and fixed on the rotating shaft D4-8, and the limiting convex ring D4-11 is installed and fixed on the rotating shaft D4-8;
the small block transmission device 5 comprises a motor W5-1, an output belt wheel W5-2, a transmission belt W5-3, a transmission shaft W5-4, a receiving belt wheel W5-5, a shaft connecting rod 5-6, a transmission roller 5-7 and a transmission belt 5-8, crushed ore continuously falls onto the small block transmission device 5, the motor W5-1 drives the transmission roller 5-7 to rotate through the transmission belt W5-3, the transmission roller 5-7 drives the transmission belt 5-8 to rotate so as to feed the crushed ore forwards into a material receiving cavity 7-2, the output belt wheel W5-2 is fixedly arranged on the motor W5-1, the transmission belt W5-3 is fixedly arranged on the output belt wheel W5-2, the receiving belt wheel W5-5 is fixedly arranged on the transmission shaft W5-4, the shaft connecting rod 5-6 is fixedly arranged on the transmission shaft W5-4, the transmission rollers 5-7 are fixedly arranged on the shaft connecting rods 5-6, and the transmission belts 5-8 are arranged on the transmission rollers 5-7;
the secondary crushing device 6 comprises a motor F6-1, an output belt wheel F6-2, a transmission belt 6-3, a secondary crushing inner gear box 6-4, a distributing block 6-5, a sliding groove F6-6, a bottom matching block 6-7, an extrusion crushing device 6-8, an extrusion transmission device 6-9, a filter screen 6-10, a discharge opening F6-11 and a baffle plate 6-12, wherein the motor F6-1 drives the extrusion transmission device 6-9 to rotate through the transmission belt 6-3, the output belt wheel F6-2 is fixedly arranged on the motor F6-1, the transmission belt 6-3 is arranged on the output belt wheel F6-2, the distributing block 6-5 is fixedly arranged inside the secondary crushing inner gear box 6-4, the bottom matching block 6-7 is fixedly arranged inside the secondary crushing inner gear box 6-4, the sliding groove F6-6 is arranged on the distributing block 6-5, the bottom matching block 6-7 is arranged on the distributing block 6-5, the extrusion crushing device 6-8 is arranged on the bottom matching block 6-7, the extrusion transmission device 6-9 is arranged inside the secondary crushing inner gear box 6-4, the filter screen 6-10 is arranged on the secondary crushing inner gear box 6-4, the discharge port F6-11 is arranged on the secondary crushing inner gear box 6-4, and the blocking plate 6-12 is fixedly arranged inside the secondary crushing inner gear box 6-4;
the extrusion crushing device 6-8 is composed of an extrusion tooth block 6-8-1, a sliding rod F6-8-2, a spring mounting cylinder 6-8-3, a sliding block moving groove F6-8-4, a sliding block F6-8-5, a connecting rod F6-8-6 and a spring F6-8-7, when the short diameter of the oval disc 6-9-3 is rotated to the position between two extrusion tooth blocks 6-8-1, the spring F6-8-7 pulls the extrusion tooth blocks 6-8-1 at two ends to the middle through the spring mounting cylinder 6-8-3 and the connecting rod F6-8-6, then the distance between the extrusion tooth block 6-8-1 and the secondary crushing inner tooth box 6-4 is increased, the sliding rod F6-8-2 is fixedly arranged on the extrusion tooth block 6-8-1, the spring installation barrel 6-8-3 is fixedly installed on the extrusion tooth block 6-8-1, the sliding block moving groove F6-8-4 is arranged inside the spring installation barrel 6-8-3, the sliding block F6-8-5 is installed inside the sliding block moving groove F6-8-4, the connecting rod F6-8-6 is fixedly installed on the sliding block F6-8-5, the connecting rod F6-8-6 is fixedly installed on the extrusion tooth block 6-8-1, and the spring F6-8-7 is installed on the connecting rod F6-8-6;
the extrusion transmission device 6-9 consists of a rotating shaft F6-9-1, a receiving belt wheel F6-9-2 and an elliptical disc 6-9-3, the rotating elliptical disc 6-9-3 pushes extrusion tooth blocks 6-8-1 at two sides of the extrusion crushing device 6-8 outwards, the distance between the extrusion tooth blocks 6-8-1 and the inner wall of the secondary crushing inner tooth box 6-4 is reduced to crush ores, the receiving belt wheel F6-9-2 is fixedly arranged on the rotating shaft F6-9-1, and the elliptical disc 6-9-3 is fixedly arranged on the rotating shaft F6-9-1;
the cleaning device 7 is composed of a cleaning box 7-1, a material receiving cavity 7-2, a feeding port Q7-3, a feeding hole Q7-4, a rotating door plate installation shaft 7-5, a rotating door plate 7-6, a motor Q7-7, an output belt wheel Q7-8, a transmission belt Q7-9 and a cleaning and discharging device 7-10, wherein the rotating door plate 7-6 is pushed by crushed materials in the material receiving cavity 7-2 to roll into the cleaning box 7-1 for cleaning, then the motor Q7-7 drives the cleaning and discharging device 7-10 to rotate through the transmission belt Q7-9, the material receiving cavity 7-2 is arranged inside the cleaning box 7-1, the feeding port Q7-3 is arranged on the cleaning box 7-1, the feeding hole Q7-4 is arranged on the cleaning box 7-1, the rotating door plate installation shaft 7-5 is arranged inside a feeding hole Q7-4, the rotary door plate 7-6 is arranged on a rotary door plate mounting shaft 7-5, the motor Q7-7 is fixedly arranged in the cleaning box 7-1, the output belt wheel Q7-8 is fixedly arranged on the motor Q7-7, the transmission belt Q7-9 is arranged on the output belt wheel Q7-8, the transmission belt Q7-9 is arranged on the cleaning and discharging device 7-10, and the cleaning and discharging device 7-10 is arranged in the cleaning box 7-1;
the cleaning and discharging device 7-10 comprises a rotating shaft Q7-10-1, a receiving belt wheel Q7-10-2, a material containing box mounting seat 7-10-3, a material containing box 7-10-4 and a water drainage hole 7-10-5, wherein the material containing box 7-10-4 on the rotating cleaning and discharging device 7-10 contains crushed materials at the bottom of the cleaning box 7-1, water leaks out from the water drainage hole 7-10-5, the rotating door plate 7-6 is closed when the material containing box 7-10-4 rotates to the position of the rotating door plate 7-6 to prevent the crushed materials from being conveyed away without being cleaned, the material containing box 7-10-4 containing the crushed materials discharges the crushed materials when rotating to the other side of the cleaning box 7-1, the receiving belt wheel Q7-10-2 is fixedly arranged on the rotating shaft Q7-10-1, the material containing box mounting seat 7-10-3 is fixedly mounted on the rotating shaft Q7-10-1, the material containing box 7-10-4 is fixedly mounted on the material containing box mounting seat 7-10-3, and the water discharging hole 7-10-5 is arranged on the material containing box 7-10-4;
the dust removal device 8 is composed of a motor E8-1, an output belt wheel E8-2, a transmission belt E8-3, an air suction device 8-4, an air pipe 8-5, a dust purification box 8-6, an air suction box 8-7, a purification plate 8-8 and an exhaust pipe 8-9, wherein the motor E8-1 drives a rotating device E8-4-4 provided with a receiving belt wheel E8-4-4 to rotate through the transmission belt E8-3, the purification plate 8-8 adsorbs dust, purified air is discharged out of the device through the exhaust pipe 8-9, the output belt wheel E8-2 is fixedly arranged on the motor E8-1, the transmission belt E8-3 is arranged on the output belt wheel E8-2, the transmission belt E8-3 is arranged on the air suction device 8-4, an air pipe 8-5 is fixedly arranged on an air suction device 8-4, the air pipe 8-5 is fixedly arranged on a dust purification box 8-6, the air pipe 8-5 is fixedly arranged on an air suction box 8-7, the air suction box 8-7 is fixedly arranged on the dust purification box 8-6, a purification plate 8-8 is fixedly arranged inside the dust purification box 8-6, and an exhaust pipe 8-9 is fixedly arranged on the dust purification box 8-6;
the air suction device 8-4 consists of an air suction cylinder 8-4-1, an air inlet 8-4-2, an air outlet 8-4-3, a rotating device E8-4-4, a gas compression plate 8-4-5, a gas compression cavity 8-4-6 and a rotating device mounting hole 8-4-7, wherein the gas compression plate 8-4-5 is mounted on a compression plate sliding groove 8-4-4-3 of a rotating column E8-4-4-2, the gas compression plate 8-4-5 is matched with the inner wall of the air suction cylinder 8-4-1, so that the air compression plate 8-4-5 can divide the air suction cylinder 8-4-1 into two spaces to suck air from the air suction cylinder 8-4-1, then the air is discharged into a dust purification box 8-6 from an air inlet 8-4-2, the air inlet 8-4-2 is arranged on an air suction cylinder 8-4-1, an air outlet 8-4-3 is arranged on the air suction cylinder 8-4-1, a rotating device mounting hole 8-4-7 is arranged on the air suction cylinder 8-4-1, a rotating device E8-4-4 is arranged in the air suction cylinder 8-4-1, and a gas compression cavity 8-4-6 is arranged in the air suction cylinder 8-4-1;
the rotating device E8-4-4 consists of a rotating shaft E8-4-4-1, a rotating column E8-4-4-2, a compression plate sliding groove 8-4-3 and a receiving belt wheel E8-4-4-4, wherein the rotating column E8-4-4-2 is fixedly arranged on the rotating shaft E8-4-4-1, the compression plate sliding groove 8-4-3 is arranged on the rotating column E8-4-4-2, and the receiving belt wheel E8-4-4-4 is fixedly arranged on the rotating shaft E8-4-4-1;
primary breaker 2 is installed and is fixed inside installation shell 1, inside cooperation board 9 is installed and is fixed inside installation shell 1, sieving mechanism 3 is installed and is fixed on inside cooperation board 9, bold conveyer 4 is installed and is fixed on inside cooperation board 9, transmission material channel 3-14 and feed inlet D4-5 cooperation, little transmission 5 is installed and is fixed inside installation shell 1, second grade breaker 6 is installed and is fixed inside installation shell 1, belt cleaning device 7 is installed and is fixed inside installation shell 1, dust collector 8 is installed and is fixed inside installation shell 1.
The second embodiment is as follows:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22. the present embodiment further describes the present embodiment in that the number of the position adjusting rods 2-2 of the primary crushing device 2 is four, the number of the crushing size adjusting devices 2-4 is two, and the number of the eccentric discs 2-9-3 of the transmission B2-9 is two.
The third concrete implementation mode:
the present embodiment is described below with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22. the present embodiment further describes the present embodiment in that the screening device 3 has two screening actuators 3 to 11, and the screening filter device 3 to 12 has two slide block moving grooves C3 to 12-5, slide blocks C3 to 12-6, inner wall fitting plates 3 to 12 to 7, inner wall fitting plate moving grooves 3 to 12 to 8, and springs CC3 to 12 to 9.
The fourth concrete implementation mode:
the following describes the present embodiment with reference to fig. 1, 2, 3, 4, 5, 6, 7, 8, 9, 10, 11, 12, 13, 14, 15, 16, 17, 18, 19, 20, 21, 22. for the present embodiment, the present embodiment further describes the first embodiment, the number of the sliding grooves F6-6 of the secondary crushing device 6 is two, the number of the pressing tooth blocks 6-8-1 of the pressing crushing device 6-8, the number of the spring mounting cylinders 6-8-3, the number of the slider moving grooves F6-8-4, the number of the sliders F6-8-5, the number of the connecting rods F6-8-6 and the number of the springs F6-8-7 are two, and the number of the sliding rods F6-8-2 is four.
The working principle of the invention is as follows:
a multifunctional mine raw ore processing device has the working principle that whether the connection condition between the devices meets the requirements is checked before the device is used, raw materials are firstly put into a primary crushing device 2, a motor B2-6 drives a transmission device B2-9 to rotate through a transmission belt B2-8, a rotating eccentric disc 2-9-3 drives a swinging plate 2-5-1 and an adjustable crushing plate 2-3 to extrude the ores through an eccentric disc mounting hole 2-5-2, and the extruded and crushed ores fall into a screening device 3 from the space between the adjustable crushing plate 2-3 and the swinging plate 2-5-1. The motor C3-8 drives the kinetic energy receiving belt wheel C3-6 to rotate through the transmission belt C3-10, the kinetic energy receiving belt wheel C3-6 drives the rotating shaft C3-4 to rotate, the rotating shaft C3-4 drives the driving T-shaped disc 3-7 to rotate, the rotating driving T-shaped disc 3-7 screening transmission device 3-11 moves on the screening transmission device mounting rack 3-3, the screening transmission device 3-11 enables one end of the screening filtering device 3-12 to tilt, the spring CC3-12-9 pushes the inner wall matching plate 3-12-7 outwards to be matched with the screening box 3-1 when the screening filtering device 3-12 tilts, crushed aggregates leak down from the material passing hole 3-12-4 under the screened size of the screening plate 3-12-3, and stop on the screening plate 3-12-3 when the crushed aggregates are large in size, when the protruding position of the T-shaped disc 3-7 is driven to be separated from the sieving transmission device 3-11 at one end, the screening transmission device 3-11 at the other end is rotated to be below the sieving transmission device 3-11 at the other end, then the other end of the screening and filtering device 3-12 is supported, so that the screening and filtering device 3-12 repeatedly swings at the rotating shaft C3-4 to promote screening, qualified crushed ore materials continuously fall onto the small block transmission device 5, the motor W5-1 drives the transmission roller 5-7 to rotate through the transmission belt W5-3, the transmission roller 5-7 drives the transmission belt 5-8 to rotate to feed the crushed ore materials forwards into the collecting cavity 7-2, when the crushed ore materials with large size are accumulated to a certain amount on the screening and filtering device 3-12, the motor CCC3-13-4 drives the screw rod 3-13-7 to rotate through the coupling 3-13-5, the movable inner square pipe 3-13-9 drives the discharge gate 3-13-10 to move outwards, then the large mineral aggregate falls to a feed inlet D4-5 of the large block conveying device 4 through a transmission material channel 3-14, the motor D4-1 drives the material pushing plate D4-10 arranged on the rotating shaft D4-8 to rotate through the transmission belt D4-3, the rotating material pushing plate D4-10 and the transmission cylinder 4-4 are matched to push the crushed ore upwards and then discharge the crushed ore from the discharge pipe 4-7 to fall in the secondary crushing device 6, the motor F6-1 drives the extrusion transmission device 6-9 to rotate through the transmission belt 6-3, the rotating elliptical disc 6-9-3 pushes the extrusion tooth blocks 6-8-1 at two sides of the extrusion crushing device 6-8 outwards, the distance between the extrusion tooth block 6-8-1 and the inner wall of the secondary crushing inner tooth box 6-4 is reduced, crushed ore is crushed again, when the short diameter of the oval disc 6-9-3 is rotated to a distance between the two extrusion tooth blocks 6-8-1, the spring F6-8-7 pulls the extrusion tooth blocks 6-8-1 at the two ends to the middle through the spring installation cylinder 6-8-3 and the connecting rod F6-8-6, then the distance between the extrusion tooth block 6-8-1 and the secondary crushing inner tooth box 6-4 is increased, crushed materials fall on the filter screen 6-10, the crushed materials with qualified size continuously fall into the material receiving cavity 7-2, the crushed materials fall at the material inlet DD4-6, and then the crushed materials are conveyed to the secondary crushing device 6 from the repeated large block conveying device 4, the rotating door plate 7-6 is pushed by the crushed aggregates in the material receiving cavity 7-2 to roll down to the cleaning box 7-1 for cleaning, then the motor Q7-7 drives the cleaning and discharging device 7-10 to rotate through the transmission belt Q7-9, the material containing box 7-10-4 on the rotating cleaning and discharging device 7-10 contains the crushed aggregates at the bottom of the cleaning box 7-1, water leaks out from the water discharging hole 7-10-5, the rotating door plate 7-6 is closed when the material containing box 7-10-4 rotates to the position of the rotating door plate 7-6 to prevent the crushed aggregates from being transported away without being cleaned, and the crushed aggregates are discharged when the material containing box 7-10-4 containing the crushed aggregates rotates to the other side of the cleaning box 7-1. The motor E8-1 drives the rotating device E8-4-4 provided with the receiving belt wheel E8-4-4-4 to rotate through the transmission belt E8-3, because the gas compression plate 8-4-5 is arranged on the compression plate sliding groove 8-4-4-3 of the rotating column E8-4-4-2, the gas compression plate 8-4-5 is matched with the inner wall of the air suction cylinder 8-4-1, so that the gas compression plate 8-4-5 divides the gas suction tube 8-4-1 into two spaces for sucking gas from the gas suction tube 8-4-1, then the air is discharged into a dust purification box 8-6 from an air inlet 8-4-2, the purification plate 8-8 adsorbs dust, and the purified air is discharged out of the device from an air outlet pipe 8-9.
It is to be understood that the above description is not intended to limit the present invention, and the present invention is not limited to the above examples, and that various changes, modifications, additions and substitutions which are within the spirit and scope of the present invention and which may be made by those skilled in the art are also within the scope of the present invention.

Claims (4)

1. The utility model provides a multi-functional mine raw ore processing apparatus, includes installation shell (1), elementary breaker (2), sieving mechanism (3), bold conveyer (4), fritter transmission (5), second grade breaker (6), belt cleaning device (7), dust collector (8), inside cooperation board (9), its characterized in that: the primary crushing device (2) consists of a crushing box (2-1), a position adjusting rod (2-2), an adjustable crushing plate (2-3), a crushing size adjusting device (2-4), a swinging crushing device (2-5), a motor B (2-6), an output belt wheel B (2-7), a transmission belt B (2-8) and a transmission device B (2-9), wherein the position adjusting rod (2-2) is arranged on the crushing box (2-1), the adjustable crushing plate (2-3) is arranged on the position adjusting rod (2-2), the crushing size adjusting device (2-4) is arranged and fixed inside the crushing box (2-1), the transmission device B (2-9) is arranged on the crushing box (2-1), and the swinging crushing device (2-5) is arranged on the crushing size adjusting device (2-4), the swing crushing device (2-5) is arranged on the transmission device B (2-9), the motor B (2-6) is fixedly arranged in the crushing box (2-1), the output belt wheel B (2-7) is fixedly arranged on the motor B (2-6), the transmission belt B (2-8) is arranged on the output belt wheel B (2-7), and the transmission belt B (2-8) is arranged on the transmission device B (2-9);
the crushing size adjusting device (2-4) consists of a fixed box (2-4-1), a limiting hole (2-4-2), a limiting bolt (2-4-3), a moving block (2-4-4), a rotating ball (2-4-5), a connecting rod (2-4-6) and a hinge hole (2-4-7), wherein the limiting hole (2-4-2) is arranged on the fixed box (2-4-1), the limiting bolt (2-4-3) is arranged on the fixed box (2-4-1), the moving block (2-4-4) is arranged inside the fixed box (2-4-1), the rotating ball (2-4-5) is arranged inside the moving block (2-4-4), the connecting rod (2-4-6) is fixedly arranged on the rotating ball (2-4-5), and the hinge hole (2-4-7) is arranged on the connecting rod (2-4-6);
the swing crushing device (2-5) is composed of a swing plate (2-5-1), an eccentric disc mounting hole (2-5-2), a hinge seat (2-5-3) and a hinge column (2-5-4), wherein the eccentric disc mounting hole (2-5-2) is arranged on the swing plate (2-5-1), the hinge seat (2-5-3) is fixedly arranged on the swing plate (2-5-1), and the hinge column (2-5-4) is fixedly arranged on the hinge seat (2-5-3);
the transmission device B (2-9) consists of a transmission shaft B (2-9-1), a receiving belt wheel B (2-9-2) and an eccentric disc (2-9-3), wherein the receiving belt wheel B (2-9-2) is fixedly arranged on the transmission shaft B (2-9-1), and the eccentric disc (2-9-3) is fixedly arranged on the transmission shaft B (2-9-1);
the screening device (3) is composed of a screening box (3-1), a shaft mounting rack (3-2), a screening transmission device mounting rack (3-3), a rotating shaft C (3-4), a limiting convex ring C (3-5), a kinetic energy receiving belt wheel C (3-6), a driving T-shaped disc (3-7), a motor C (3-8), an output belt wheel C (3-9), a transmission belt C (3-10), a screening transmission device (3-11), a screening filtering device (3-12), an electric discharging device (3-13) and a transmission material channel (3-14), wherein the shaft mounting rack (3-2) is fixedly arranged inside the screening box (3-1), the screening transmission device mounting rack (3-3) is fixedly arranged inside the screening box (3-1), a rotating shaft C (3-4) is arranged on a shaft mounting frame (3-2), a limiting convex ring C (3-5) is fixedly arranged on the rotating shaft C (3-4), a kinetic energy receiving belt wheel C (3-6) is fixedly arranged on the rotating shaft C (3-4), a driving T-shaped disc (3-7) is fixedly arranged on the rotating shaft C (3-4), an output belt wheel C (3-9) is fixedly arranged on a motor C (3-8), a transmission belt C (3-10) is arranged on the output belt wheel C (3-9), the transmission belt C (3-10) is arranged on the kinetic energy receiving belt wheel C (3-6), a sieving transmission device (3-11) is arranged on the sieving transmission device mounting frame (3-3), and a sieving filter device (3-12) is arranged on the rotating shaft C (3-4), the electric discharging device (3-13) is fixedly arranged on the screening box (3-1), and the transmission material channel (3-14) is fixedly arranged on the screening box (3-1);
the screening transmission device (3-11) consists of a push rod C (3-11-1), a spring C (3-11-2), a matching ball C (3-11-3), a matching groove ball (3-11-4) and a rotating ball (3-11-5), wherein the spring C (3-11-2) is installed on the push rod C (3-11-1), the matching ball C (3-11-3) is installed and fixed on the push rod C (3-11-1), the matching groove ball (3-11-4) is installed and fixed on the push rod C (3-11-1), and the rotating ball (3-11-5) is installed inside the matching groove ball (3-11-4);
the screening and filtering device (3-12) is composed of a mounting plate C (3-12-1), a spherical groove (3-12-2), a screening plate (3-12-3), a material passing hole (3-12-4), a sliding block moving groove C (3-12-5), a sliding block C (3-12-6), an inner wall matching plate (3-12-7), an inner wall matching plate moving groove (3-12-8) and a spring CC (3-12-9), wherein the spherical groove (3-12-2) is arranged on the mounting plate C (3-12-1), the screening plate (3-12-3) is fixedly arranged on the mounting plate C (3-12-1), the material passing hole (3-12-4) is arranged on the screening plate (3-12-3), the sliding block moving groove C (3-12-5) is arranged inside the sieve plate (3-12-3), the sliding block C (3-12-6) is arranged inside the sliding block moving groove C (3-12-5), the inner wall matching plate (3-12-7) is fixed on the sliding block C (3-12-6), the inner wall matching plate moving groove (3-12-8) is arranged inside the sieve plate (3-12-3), and the spring CC (3-12-9) is arranged on the inner wall matching plate (3-12-7);
the electric discharging device (3-13) is composed of a fixed cylinder mounting rack (3-13-1), a fixed cylinder (3-13-2), heat dissipation holes (3-13-3), a motor CCC (3-13-4), a coupler (3-13-5), a screw rod mounting ring (3-13-6), a screw rod (3-13-7), a screw rod limiting ring (3-13-8), a movable inner square pipe (3-13-9) and a discharging door (3-13-10), the fixed cylinder (3-13-2) is fixedly arranged on the fixed cylinder mounting rack (3-13-1), the heat dissipation holes (3-13-3) are arranged on the fixed cylinder (3-13-2), the motor CCC (3-13-4) is fixedly arranged inside the fixed cylinder (3-13-2), the shaft coupling (3-13-5) is fixedly installed on a motor CCC (3-13-4), the screw rod installation ring (3-13-6) is fixedly installed inside the fixed cylinder (3-13-2), the screw rod (3-13-7) is fixedly installed on the shaft coupling (3-13-5), the screw rod (3-13-7) is installed on the screw rod installation ring (3-13-6), the screw rod limiting ring (3-13-8) is fixedly installed on the screw rod (3-13-7), the screw rod limiting ring (3-13-8) is installed inside the screw rod installation ring (3-13-6), the moving inner square tube (3-13-9) is installed on the screw rod (3-13-7), and the discharge door (3-13-10) is fixedly installed on the moving inner square tube (3-13-9);
the large block conveying device (4) is composed of a motor D (4-1), an output belt wheel D (4-2), a transmission belt D (4-3), a transmission cylinder (4-4), a feed inlet D (4-5), a feed inlet DD (4-6), a discharge pipe (4-7), a rotating shaft D (4-8), a receiving belt wheel D (4-9), a material pushing plate D (4-10) and a limiting convex ring D (4-11), wherein the output belt wheel D (4-2) is installed and fixed on the motor D (4-1), the transmission belt D (4-3) is installed on the output belt wheel D (4-2), the transmission belt D (4-3) is installed on the receiving belt wheel D (4-9), the feed inlet D (4-5) is arranged on the transmission cylinder (4-4), the feeding port DD (4-6) is arranged on the transmission cylinder (4-4), the discharging pipe (4-7) is fixedly installed on the transmission cylinder (4-4), the rotating shaft D (4-8) is installed inside the transmission cylinder (4-4), the receiving belt wheel D (4-9) is fixedly installed on the rotating shaft D (4-8), the material pushing plate D (4-10) is fixedly installed on the rotating shaft D (4-8), and the limiting convex ring D (4-11) is fixedly installed on the rotating shaft D (4-8);
the small block transmission device (5) consists of a motor W (5-1), an output belt wheel W (5-2), a transmission belt W (5-3), a transmission shaft W (5-4), a receiving belt wheel W (5-5), a shaft connecting rod (5-6), a transmission roller (5-7) and a transmission belt (5-8), an output belt wheel W (5-2) is fixedly arranged on a motor W (5-1), a transmission belt W (5-3) is arranged on the output belt wheel W (5-2), a receiving belt wheel W (5-5) is fixedly arranged on a transmission shaft W (5-4), a shaft connecting rod (5-6) is arranged on the transmission shaft W (5-4), a transmission roller (5-7) is fixedly arranged on the shaft connecting rod (5-6), and a transmission belt (5-8) is arranged on the transmission roller (5-7);
the secondary crushing device (6) consists of a motor F (6-1), an output belt wheel F (6-2), a transmission belt (6-3), a secondary crushing inner gear box (6-4), a distributing block (6-5), a sliding groove F (6-6), a bottom matching block (6-7), an extrusion crushing device (6-8), an extrusion transmission device (6-9), a filter screen (6-10), a discharge port F (6-11) and a baffle plate (6-12), the output belt wheel F (6-2) is installed and fixed on the motor F (6-1), the transmission belt (6-3) is installed on the output belt wheel F (6-2), the distributing block (6-5) is installed and fixed inside the secondary crushing inner gear box (6-4), the bottom matching block (6-7) is installed and fixed inside the secondary crushing inner gear box (6-4), the sliding groove F (6-6) is arranged on the distributing block (6-5), the bottom matching block (6-7) is arranged on the distributing block (6-5), the extrusion crushing device (6-8) is arranged on the bottom matching block (6-7), the extrusion transmission device (6-9) is arranged inside the secondary crushing inner gear box (6-4), the filter screen (6-10) is arranged on the secondary crushing inner gear box (6-4), the discharge port F (6-11) is arranged on the secondary crushing inner gear box (6-4), and the blocking plate (6-12) is arranged and fixed inside the secondary crushing inner gear box (6-4);
the extrusion crushing device (6-8) consists of an extrusion tooth block (6-8-1), a sliding rod F (6-8-2), a spring installation barrel (6-8-3), a sliding block moving groove F (6-8-4), a sliding block F (6-8-5), a connecting rod F (6-8-6) and a spring F (6-8-7), wherein the sliding rod F (6-8-2) is installed and fixed on the extrusion tooth block (6-8-1), the spring installation barrel (6-8-3) is installed and fixed on the extrusion tooth block (6-8-1), the sliding block moving groove F (6-8-4) is arranged inside the spring installation barrel (6-8-3), the sliding block F (6-8-5) is installed inside the sliding block moving groove F (6-8-4), a connecting rod F (6-8-6) is fixedly arranged on the sliding block F (6-8-5), the connecting rod F (6-8-6) is fixedly arranged on the extrusion tooth block (6-8-1), and a spring F (6-8-7) is arranged on the connecting rod F (6-8-6);
the extrusion transmission device (6-9) consists of a rotating shaft F (6-9-1), a receiving belt wheel F (6-9-2) and an elliptical disc (6-9-3), wherein the receiving belt wheel F (6-9-2) is fixedly arranged on the rotating shaft F (6-9-1), and the elliptical disc (6-9-3) is fixedly arranged on the rotating shaft F (6-9-1);
the cleaning device (7) is composed of a cleaning box (7-1), a material receiving cavity (7-2), a feeding port Q (7-3), a feeding hole Q (7-4), a rotating door plate installation shaft (7-5), a rotating door plate (7-6), a motor Q (7-7), an output belt wheel Q (7-8), a transmission belt Q (7-9) and a cleaning and discharging device (7-10), wherein the material receiving cavity (7-2) is arranged inside the cleaning box (7-1), the feeding port Q (7-3) is arranged on the cleaning box (7-1), the feeding hole Q (7-4) is arranged on the cleaning box (7-1), the rotating door plate installation shaft (7-5) is arranged inside the feeding hole Q (7-4), the rotating door plate (7-6) is arranged on the rotating door plate installation shaft (7-5), a motor Q (7-7) is fixedly installed inside the cleaning box (7-1), an output belt wheel Q (7-8) is fixedly installed on the motor Q (7-7), a transmission belt Q (7-9) is installed on the output belt wheel Q (7-8), the transmission belt Q (7-9) is installed on a cleaning and discharging device (7-10), and the cleaning and discharging device (7-10) is installed inside the cleaning box (7-1);
the cleaning and discharging device (7-10) consists of a rotating shaft Q (7-10-1), a receiving belt wheel Q (7-10-2), a material containing box mounting seat (7-10-3), a material containing box (7-10-4) and a water discharging hole (7-10-5), wherein the receiving belt wheel Q (7-10-2) is fixedly arranged on the rotating shaft Q (7-10-1), the material containing box mounting seat (7-10-3) is fixedly arranged on the rotating shaft Q (7-10-1), the material containing box (7-10-4) is fixedly arranged on the material containing box mounting seat (7-10-3), and the water discharging hole (7-10-5) is arranged on the material containing box (7-10-4);
the dust removing device (8) is composed of a motor E (8-1), an output belt wheel E (8-2), a transmission belt E (8-3), an air suction device (8-4), an air pipe (8-5), a dust purifying box (8-6), an air suction box (8-7), a purifying plate (8-8) and an exhaust pipe (8-9), wherein the output belt wheel E (8-2) is fixedly arranged on the motor E (8-1), the transmission belt E (8-3) is arranged on the output belt wheel E (8-2), the transmission belt E (8-3) is arranged on the air suction device (8-4), the air pipe (8-5) is fixedly arranged on the air suction device (8-4), and the air pipe (8-5) is fixedly arranged on the dust purifying box (8-6), the air pipe (8-5) is fixedly arranged on the air suction box (8-7), the air suction box (8-7) is fixedly arranged on the dust purification box (8-6), the purification plate (8-8) is fixedly arranged inside the dust purification box (8-6), and the exhaust pipe (8-9) is fixedly arranged on the dust purification box (8-6);
the air suction device (8-4) is composed of an air suction cylinder (8-4-1), an air inlet hole (8-4-2), an air outlet hole (8-4-3), a rotating device E (8-4-4), an air compression plate (8-4-5), an air compression cavity (8-4-6) and a rotating device mounting hole (8-4-7), wherein the air inlet hole (8-4-2) is arranged on the air suction cylinder (8-4-1), the air outlet hole (8-4-3) is arranged on the air suction cylinder (8-4-1), the rotating device mounting hole (8-4-7) is arranged on the air suction cylinder (8-4-1), and the rotating device E (8-4-4) is arranged inside the air suction cylinder (8-4-1), the gas compression cavity (8-4-6) is arranged inside the gas suction cylinder (8-4-1);
the rotating device E (8-4-4) is composed of a rotating shaft E (8-4-4-1), a rotating column E (8-4-4-2), a compression plate sliding groove (8-4-4-3) and a receiving belt wheel E (8-4-4-4), wherein the rotating column E (8-4-4-2) is fixedly arranged on the rotating shaft E (8-4-4-1), the compression plate sliding groove (8-4-4-3) is arranged on the rotating column E (8-4-4-2), and the receiving belt wheel E (8-4-4-4) is fixedly arranged on the rotating shaft E (8-4-4-1);
primary breaker (2) installation is fixed inside installation shell (1), inside cooperation board (9) installation is fixed inside installation shell (1), sieving mechanism (3) installation is fixed on inside cooperation board (9), bold conveyer (4) installation is fixed on inside cooperation board (9), transmission material channel (3-14) and feed inlet D (4-5) cooperation, little transmission (5) installation is fixed inside installation shell (1), second grade breaker (6) installation is fixed inside installation shell (1), belt cleaning device (7) installation is fixed inside installation shell (1), dust collector (8) installation is fixed inside installation shell (1).
2. The multifunctional mine raw ore processing device according to claim 1, characterized in that: the number of the position adjusting rods (2-2) of the primary crushing device (2) is four, the number of the crushing size adjusting devices (2-4) is two, and the number of the eccentric discs (2-9-3) of the transmission device B (2-9) is two.
3. The multifunctional mine raw ore processing device according to claim 1, characterized in that: the screening transmission device (3-11) of the screening device (3) is provided with two, and the number of the sliding block moving grooves C (3-12-5), the sliding blocks C (3-12-6), the inner wall matching plates (3-12-7), the inner wall matching plate moving grooves (3-12-8) and the springs CC (3-12-9) of the screening and filtering device (3-12) is two.
4. The multifunctional mine raw ore processing device according to claim 1, characterized in that: the number of the sliding grooves F (6-6) of the secondary crushing device (6) is two, the number of the extrusion tooth blocks (6-8-1), the spring mounting cylinders (6-8-3), the sliding block moving grooves F (6-8-4), the sliding blocks F (6-8-5), the number of the connecting rods F (6-8-6) and the number of the springs F (6-8-7) of the extrusion crushing device (6-8) are two, and the number of the sliding rods F (6-8-2) is four.
CN201910387541.7A 2019-05-10 2019-05-10 Multi-functional mine raw ore processing apparatus Active CN110302861B (en)

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