CN109876908A - Ferrosilicon is crushed gradation sizing system - Google Patents

Abstract

A kind of broken gradation sizing system of ferrosilicon, including feeding device, crushing device, dust collect plant, screening plant, feeding device and crushing device are sequentially connected from left to right, and the side of crushing device is arranged in dust collect plant.The present invention is when in use, ferrosilicon can be poured onto feeding device by user, the ferrosilicon in feeding device is entered slowly in crushing device using feeding device, the broken silicon-iron block of screening plant is sieved step by step, obtain the silicon-iron block of different specification size, the silicon-iron block of different specification size is disposably sieved into classification to realize, simplify production stage, improve production efficiency, dust collect plant is by feeding device, crushing device, screening plant stores after sieving the ferrosilicon dust collection generated when ferrosilicon, and the ferrosilicon dust after collecting can recycle, decrease pollution of the ferrosilicon dust to environment.

Description

Ferrosilicon is crushed gradation sizing system

Technical field

The present invention relates to ferrosilicon crushing plant technical fields more particularly to a kind of ferrosilicon to be crushed gradation sizing system.

Background technique

Ferrosilicon is with coke, steel cuttings, quartz (or silica) for raw material, the ferro-silicium made of electric furnace smelting.Due to silicon It is easy to be combined to silica with oxygen, so ferrosilicon is usually used in making deoxidier when steel-making, simultaneously because when silica generates A large amount of heat is released, while deoxidation, is also advantageous to liquid steel temperature is improved.Meanwhile ferrosilicon is alternatively arranged as alloying element Addition agent is widely used among low-alloy structural steel, spring steel, bearing steel, heat resisting steel and electrical steel, and ferrosilicon is in ferroalloy In production and chemical industry, it is commonly used for reducing agent.

Ferrosilicon needs for big block-like ferrosilicon to be crushed when in use, and the prior art mainly uses and ferrosilicon is first delivered to buffering It in storehouse, is re-fed into crusher and is crushed, but in shattering process, since ferrosilicon is in irregular shape, be transported to buffering Ferrosilicon in storehouse is easy to block surge bunker, influences production efficiency；Moreover, broken silicon-iron block needs the ruler according to different size The classification of little progress row, the prior art need just screen out different rule using compared with multi-step when to broken ferrosilicon block sort The silicon-iron block of lattice size, production is relatively complicated, and efficiency is lower.

Summary of the invention

In view of this, it is necessary to provide a kind of ferrosilicon to be crushed gradation sizing system.

A kind of broken gradation sizing system of ferrosilicon, including feeding device, crushing device, dust collect plant, screening plant, feeding Device and crushing device are sequentially connected from left to right, and the side of crushing device is arranged in dust collect plant, and feeding device will need broken Broken ferrosilicon is delivered in crushing device, after crushing device is broken by ferrosilicon, and by crushing device by broken ferrosilicon Block is delivered to screening plant, and broken silicon-iron block gradation sizing is obtained the silicon-iron block of different specification size by screening plant, collection The dust collection that the dust and crushing device generated when dirt device is by feeding device feeding generates when broken；

The feeding device includes feeding mechanism, feeding conveyer belt, and the side of feeding mechanism is arranged in feeding conveyer belt, and feeding is defeated The surface for sending the outlet end of band to be located at feeding mechanism, the surface of the arrival end of feeding conveyer belt is equipped with buffering chamber, described Feeding mechanism includes charge slot, automatic lifting component, support frame, charge slot position in the underface of feeding conveyer belt outlet end, and Charge slot is arranged on the support frame, and the outlet end of charge slot and the arrival end pin shaft of crushing device connect, and automatic lifting component is set It sets in the lower section of support frame, and the base pins axis connection with charge slot, automatic lifting component is flexible up and down, pushes charge slot or more It is mobile, rotate the outlet end of charge slot along the arrival end of crushing device；

The crushing device includes crushing mechanism, broken material conveyer belt, and the lower section of charge slot outlet end is arranged in crushing mechanism, and The arrival end of crushing mechanism is connect with the outlet end pin shaft of charge slot, and the underface of crushing mechanism is arranged in broken material conveyer belt, Crushing mechanism drops down on broken material conveyer belt after being crushed ferrosilicon, and is conveyed broken silicon-iron block by broken material conveyer belt It walks；

The screening plant includes collecting bin, gradation sizing mechanism, fixed frame, first conveyer belt, the second conveyer belt, third conveying The top of fixed frame is arranged in band, the 4th conveyer belt, collecting bin, and gradation sizing mechanism is fixed on fixed frame, and is located at The side of gradation sizing mechanism is arranged in the underface of collecting bin, first conveyer belt, and the second conveyer belt, the setting of third conveyer belt exist The other side of gradation sizing mechanism, the second conveyer belt, third conveyer belt and first conveyer belt are arranged oppositely, and the second conveyer belt position In the surface of third conveyer belt, the underface at gradation sizing mechanism outlet at bottom end, gradation sizing is arranged in the 4th conveyer belt Mechanism is sieved the silicon-iron block that collecting bin is fallen step by step, obtains the silicon-iron block of different specification size, different specification size Silicon-iron block respectively falls in corresponding first conveyer belt, the second conveyer belt, third conveyer belt, on the 4th conveyer belt, and passes through the The silicon-iron block of dimension size is transported away by one conveyer belt, third conveyer belt, the 4th conveyer belt, and the second conveyer belt will then not be inconsistent The silicon-iron block for closing specification is delivered in the surge bunker of feeding conveyer belt；

The dust collect plant includes dust deposited case, blower, dust hood, and the surface of collecting bin is arranged in dust hood, and dust deposited case is fixed The side of gradation sizing mechanism is set, dust hood is connected to by pipeline with dust deposited case, and the arrival end of blower is connected to dust deposited case, Outlet end is connected to ambient atmosphere, and dust deposited case outlet at bottom end is equipped with ash releasing tube.

Preferably, the outlet end of the ash releasing tube is equipped with grey bag locking device, outer wall surface of the ash releasing tube close to outlet end Open up it is fluted, it is described ash bag locking device include fixed disk, connection hang spring, hook, retaining mechanism, fixed disk is sleeved on ash discharge Guan Shang, and be fixedly connected with ash releasing tube, the lower section of fixed disk is arranged in retaining mechanism, and one end that spring is hung in connection is fixed with fixed disk Connection, the other end are fixedly connected with retaining mechanism, and hook is fixed at the outer wall surface of ash releasing tube, and is located at fixed disk and lock Between tight mechanism.

Preferably, the retaining mechanism includes compression ring, negative pressure pump, shrinkage hose, and compression ring setting is close in ash releasing tube Outlet end, and compression ring is fixedly connected with one end that spring is hung in connection, the inside of compression ring offers toroidal cavity, and shrinkage hose is set It sets in the toroidal cavity inside compression ring, and extends to outside compression ring, negative pressure pump is fixed in fixed disk, and negative pressure pump enters Mouth end is connected to shrinkage hose.

Preferably, the automatic lifting component includes lifting column, hydraulic pump, fuel tank, and fuel tank and hydraulic pump are arranged at branch The lower section of support, hydraulic pump are connect with fuel tank by oil pipe, and lifting column is fixed at the middle part of support frame, one end of lifting column With the base pins axis connection of charge slot, the other end is vertical with support frame to be fixedly connected, and the outlet end of hydraulic pump and lifting column It is connected by oil pipe.

Preferably, the crushing mechanism includes crusher, pedestal, motor, and pedestal is fixed at the lower section of charge slot, and Positioned at the surface of broken material conveyer belt, the two sides of pedestal offer peep hole, and crusher is fixed on pedestal, crusher Positioned at the lower section of charge slot outlet end, and the arrival end of crusher is connect with the outlet end pin shaft of charge slot, the outlet of crusher Pedestal is run through at end, and face broken material conveyer belt, motor are fixed on pedestal, and is located at the side of crusher, and motor is logical It crosses driving belt to connect with crusher, provides power for crusher.

Preferably, the gradation sizing mechanism include cabinet, the first sieve plate, the second sieve plate, third sieve plate, vibrating motor, Buffer unit, it is equal away from opening up there are three construction opening on a side surface of cabinet, the first sieve plate, the second sieve plate, third sieve plate from It is sequentially inserted under in three construction openings, and is fixed respectively with cabinet, the first sieve plate, the second sieve plate, third sieve plate will From the first screening chamber, the second screening chamber, third screening chamber, the 4th screening chamber is successively separated into from top to bottom, first sieves cabinet Chamber, second screening chamber, third screening chamber side wall on offer discharge port, discharge outlet is fixedly installed the first discharge and slips Slot, the second discharge chute, third discharge chute, the outlet end of the first discharge chute are located at the surface of the second conveyer belt, and second The outlet end of discharge chute is located at the surface of first conveyer belt, and the outlet end of third discharge chute is being located at third conveyer belt just The bottom of top, the 4th screening chamber offers discharge port, and discharge outlet is fixedly connected with drainage conduit, and the outlet end of drainage conduit is located at The surface of 4th conveyer belt, vibrating motor are fixed at the two sides outer wall surface of cabinet, and buffer unit is fixed at case On the two sides outer wall of body, one end of buffer unit is fixedly connected with cabinet, and the other end is fixedly connected with fixed frame.

Preferably, the buffer unit includes positioning seat, spring, fixed connecting rod, and positioning seat is fixed at fixed frame On, fixed connecting rod is fixed on the outer wall of cabinet, and fixed connecting rod is fixedly installed a circle far from one end of cabinet Shape pillar, one end of spring are sleeved on round pillar, and the other end is sleeved on positioning seat.

Preferably, sliding slot is fixedly installed in the inner wall surface of the cabinet, cabinet exterior surface is located at construction opening Surrounding is fixedly installed fixed column, and the first sieve plate, the second sieve plate, third sieve plate are inserted into construction opening, and are embedded into sliding slot, And the first sieve plate, the second sieve plate, third sieve plate are fixed in fixed column by nut.

Preferably, first sieve plate, the second sieve plate, offer sieve pore, and the sieve on the first sieve plate on third sieve plate Hole is greater than the sieve pore on the second sieve plate, and the sieve pore on the second sieve plate is greater than the sieve pore on third sieve plate, first sieve plate, second Sieve plate, third sieve plate are obliquely installed, and the first sieve plate, the second sieve plate, third sieve plate are close to the first screening chamber, the second screening One end that chamber, third sieve chamber discharge port, which is lower than, sieves the one of chamber discharge port far from the first screening chamber, the second screening chamber, third End.

Preferably, the first discharge chute, the second discharge chute, third discharge chute are obliquely installed, and first row Expect that chute, the second discharge chute, third discharge chute sieve chamber discharge port close to the first screening chamber, the second screening chamber, third One end is higher than the outlet end of the first discharge chute, the second discharge chute, third discharge chute.

The present invention by adopting the above technical scheme, the beneficial effect is that: the present invention includes feeding device, crushing device, collection Dirt device, screening plant, feeding device and crushing device are sequentially connected from left to right, and the one of crushing device is arranged in dust collect plant Side, feeding device will need broken ferrosilicon to be delivered in crushing device, after crushing device is broken by ferrosilicon, and by being crushed Broken silicon-iron block is delivered to screening plant by device, and broken silicon-iron block gradation sizing is obtained difference by screening plant The silicon-iron block of specification, the dust that the dust and crushing device generated when dust collect plant is by feeding device feeding generates when broken It collects, feeding device includes feeding mechanism, feeding conveyer belt, and the side of feeding mechanism, feeding conveying is arranged in feeding conveyer belt The outlet end of band is located at the surface of feeding mechanism, and the surface of the arrival end of feeding conveyer belt is equipped with buffering chamber, feeder Structure includes charge slot, automatic lifting component, support frame, and charge slot position is in the underface of feeding conveyer belt outlet end, and charge slot On the support frame, the outlet end of charge slot and the arrival end pin shaft of crushing device connect, and the setting of automatic lifting component is being propped up for setting The lower section of support, and the base pins axis connection with charge slot, screening plant include collecting bin, gradation sizing mechanism, fixed frame, One conveyer belt, the second conveyer belt, third conveyer belt, the 4th conveyer belt.In the use of the present invention, user can topple over ferrosilicon To the buffering chamber of feeding conveyer belt, ferrosilicon is delivered in charge slot by feeding conveyer belt again, and automatic lifting component slowly rises, Rotate the outlet end of charge slot along the arrival end of crushing device, charge slot is jacked up at this time, and close to one end of crushing device Lower than close to one end of feeding conveyer belt, the ferrosilicon in charge slot is slowly entered brokenly from the outlet end of charge slot In crushing device, gradation sizing mechanism is sieved the silicon-iron block that collecting bin is fallen step by step, obtains the ferrosilicon of different specification size Block, the silicon-iron block of different specification size respectively fall in corresponding first conveyer belt, the second conveyer belt, third conveyer belt, the 4th On conveyer belt, and the silicon-iron block of dimension size is transported away by first conveyer belt, the second conveyer belt, third conveyer belt, The silicon-iron block of different specification size is disposably sieved into classification to realize, production stage is simplified, improves production efficiency, the The silicon-iron block for the size that falls short of specifications then is delivered in the surge bunker of feeding conveyer belt by four conveyer belts, and by crushing device after It is continuous broken；It is stored up after the ferrosilicon dust collection generated when dust collect plant is by feeding device, crushing device, screening plant screening ferrosilicon It deposits, and the ferrosilicon dust after collecting can recycle, and decrease pollution of the ferrosilicon dust to environment.

Detailed description of the invention

Fig. 1 is the structural diagram of the present invention.

Fig. 2 is the structural schematic diagram of another angle of Fig. 1.

Fig. 3 is the structural schematic diagram that feeding mechanism of the present invention is connect with crushing mechanism.

Fig. 4 is the structural schematic diagram of another angle of Fig. 3.

The structural schematic diagram that Fig. 5 is collecting bin of the present invention, gradation sizing mechanism, fixed frame connect.

Fig. 6 is the structural schematic diagram of another angle of Fig. 5.

Fig. 7 is the schematic cross-sectional view of Fig. 5.

Fig. 8 is the structural schematic diagram of dust hood of the present invention.

Fig. 9 is the partial enlarged view in Fig. 5 at A.

The structural schematic diagram that Figure 10 is dust deposited case of the present invention, ash releasing tube, grey bag locking device connect.

Figure 11 is the enlarged drawing in Figure 10 at B.

In figure: feeding device 10, feeding mechanism 101, charge slot 1011, automatic lifting component 1012, lifting column 10121, Hydraulic pump 10122, fuel tank 10123, support frame 1013, feeding conveyer belt 102, barrier rib 1021, buffering chamber 1021, crushing device 20, crushing mechanism 201, crusher 2011, pedestal 2012, peep hole 20121, motor 2013, broken material conveyer belt 202, dust Spring is hung in device 30, dust deposited case 301, ash releasing tube 3011, groove 30111, grey bag locking device 3012, fixed disk 30121, connection 30122,30123, retaining mechanism 30124, compression ring 301241, negative pressure pump 301242, shrinkage hose 301243, blower are linked up with 302, dust hood 303, at least two air inlets 3031, screening plant 40, collecting bin 401, gradation sizing mechanism 402, cabinet 4021, the first discharge chute 40211, the second discharge chute 40212, third discharge chute 40213, drainage conduit 40214, first are sieved Plate 4022, the second sieve plate 4023, third sieve plate 4024, vibrating motor 4025, buffer unit 4026, positioning seat 40261, spring 40262, fixed connecting rod 40263, round pillar 402631, fixed frame 403, first conveyer belt 404, the second conveyer belt 405, the Three conveyer belts 406, the 4th conveyer belt 407.

Specific embodiment

Fig. 1 to Figure 11 is please referred to, the embodiment of the invention provides a kind of ferrosilicon to be crushed gradation sizing system, including feeding dress 10, crushing device 20, dust collect plant 30, screening plant 40 are set, feeding device 10 and crushing device 20 are sequentially connected from left to right, The side of crushing device 20 is arranged in dust collect plant 30, and feeding device 10 will need broken ferrosilicon to be delivered to crushing device 20 It is interior, after crushing device 20 is broken by ferrosilicon, and broken silicon-iron block is delivered to screening plant 40 by crushing device 20, Broken silicon-iron block gradation sizing is obtained the silicon-iron block of different specification size by screening plant 40, and dust collect plant 30 is by feeding The dust collection that the dust and crushing device 20 generated when 10 feeding of device generates when being crushed；

The feeding device 10 includes feeding mechanism 101, feeding conveyer belt 102, and feeding conveyer belt 102 is arranged in feeding mechanism 101 side, the outlet end of feeding conveyer belt 102 are located at the surface of feeding mechanism 101, the entrance of feeding conveyer belt 102 The surface at end is equipped with buffering chamber 1021, is fixedly installed barrier rib 1021 on feeding conveyer belt 102, when ferrosilicon is from buffering chamber When dropping down onto conveyor belt in 1021, barrier rib 1021 can prevent ferrosilicon from sliding downwards, improve transfer efficiency；The feeder Structure 101 includes charge slot 1011, automatic lifting component 1012, support frame 1013, and charge slot 1011 is located at feeding conveyer belt 102 and goes out The underface at mouth end, and charge slot 1011 is arranged on support frame 1013, outlet end and the crushing device 20 of charge slot 1011 The lower section of support frame 1013, and the base pins with charge slot 1011 are arranged in the connection of arrival end pin shaft, automatic lifting component 1012 Axis connection, about 1012 automatic lifting component is flexible, pushes charge slot 1011 to move up and down, makes the outlet end edge of charge slot 1011 The arrival end of crushing device 20 rotates；The automatic lifting component 1012 includes lifting column 10121, hydraulic pump 10122, fuel tank 10123, fuel tank 10123 and hydraulic pump 10122 are arranged at the lower section of support frame 1013, and hydraulic pump 10122 and fuel tank 10123 are logical Oil pipe connection is crossed, lifting column 10121 is fixed at the middle part of support frame 1013, one end of lifting column 10121 and charge slot 1011 base pins axis connection, the other end is vertical with support frame 1013 to be fixedly connected, and the outlet end of hydraulic pump 10122 and liter It drops column 10121 to connect by oil pipe, when hydraulic pump 10122 drives lifting column 10121 to rise, pushes lifting column 10121 and contain Hopper 1011 moves upwards, and the outlet end of charge slot 1011 is rotated along the arrival end of crushing device 20, at this time charge slot 1011 are jacked up, and are lower than close to one end of crushing device 20 close to one end of feeding conveyer belt 102, so that in charge slot 1011 Ferrosilicon can slowly be entered in crushing device 20 from the outlet end of charge slot 1011, lifting column 10121 rise height Higher, the inclined angle of charge slot 1011 is bigger, is conducive to ferrosilicon and slides to crusher 2011；When hydraulic pump 10122 drives When lifting column 10121 declines, make lifting column 10121 that charge slot 1011 be driven to move downward, and the outlet end of charge slot 1011 Arrival end along crushing device 20 rotates, and charge slot 1011 declines at this time, and the inclined angle of charge slot 1011 becomes smaller, and ferrosilicon slides Speed in crusher 2011 slows down, and by controlling the adjustable height of lifting column 10121, adjustable charge slot 1011 inclines Rake angle, to control into the ferrosilicon quantity in crusher 2011.

The crushing device 20 includes crushing mechanism 201, broken material conveyer belt 202, and crushing mechanism 201 is arranged in charge slot The lower section of 1011 outlet ends, and the arrival end of crushing mechanism 201 is connect with the outlet end pin shaft of charge slot 1011, broken material conveying The underface that crushing mechanism 201 is arranged in 202, crushing mechanism 201 drop down on broken material conveyer belt 202 after being crushed ferrosilicon, And broken silicon-iron block is transported away by broken material conveyer belt 202.The crushing mechanism 201 includes crusher 2011, bottom Seat 2012, motor 2013, pedestal 2012 is fixed at the lower section of charge slot 1011, and is located at broken material conveyer belt 202 just Top, the two sides of pedestal 2012 offer peep hole 20121, by peep hole 20121 it can be observed that crusher 2011 exports The cutting material situation at end, while can check the case where broken material conveyer belt 202 conveys broken silicon-iron block.The fixation of crusher 2011 is set It sets on pedestal 2012, crusher 2011 is located at the lower section of 1011 outlet end of charge slot, and the arrival end and Sheng of crusher 2011 The outlet end pin shaft of hopper 1011 connects, and pedestal 2012, and face broken material conveyer belt are run through in the outlet end of crusher 2011 202, motor 2013 is fixed on pedestal 2012, and is located at the side of crusher 2011, and motor 2013 passes through driving belt It is connect with crusher 2011, provides power for crusher 2011.

The screening plant 40 include collecting bin 401, gradation sizing mechanism 402, fixed frame 403, first conveyer belt 404, The top of fixed frame 403 is arranged in second conveyer belt 405, third conveyer belt 406, the 4th conveyer belt 407, collecting bin 401, classification Screening mechanism 402 is fixed on fixed frame 403, and is located at the underface of collecting bin 401, and the setting of first conveyer belt 404 exists The another of gradation sizing mechanism 402 is arranged in the side of gradation sizing mechanism 402, the second conveyer belt 405, third conveyer belt 406 Side, the second conveyer belt 405, third conveyer belt 406 and first conveyer belt 404 are arranged oppositely, and the second conveyer belt 405 is located at third The underface at 402 outlet at bottom end of gradation sizing mechanism, classifying screen is arranged in the surface of conveyer belt 406, the 4th conveyer belt 407 Sub-agencies 402 are sieved the silicon-iron block that collecting bin 401 is fallen step by step, obtain the silicon-iron block of different specification size, difference rule The silicon-iron block of lattice size respectively falls in corresponding first conveyer belt 404, the second conveyer belt 405, third conveyer belt the 406, the 4th On conveyer belt 407, and by first conveyer belt 404, third conveyer belt 406, the 4th conveyer belt 407 by the silicon of dimension size Iron block is transported away, and the silicon-iron block for the size that falls short of specifications then is delivered to the surge bunker of feeding conveyer belt 102 by the second conveyer belt 405 In 1021.

The gradation sizing mechanism 402 includes cabinet 4021, the first sieve plate 4022, the second sieve plate 4023, third sieve plate 4024, vibrating motor 4025, buffer unit 4026, equal on a side surface of cabinet 4021 away from opening up, there are three construction opening, casees Sliding slot is fixedly installed in the inner wall surface of body 4021, the surrounding that 4021 outer wall surface of cabinet is located at construction opening is fixedly installed Fixed column, the first sieve plate 4022, the second sieve plate 4023, third sieve plate 4024 are inserted into construction opening, and are embedded into sliding slot, and The first sieve plate 4022, the second sieve plate 4023, third sieve plate 4024 are fixed in fixed column by nut, the first sieve plate 4022, Sieve pore is offered on second sieve plate 4023, third sieve plate 4024, and the sieve pore on the first sieve plate 4022 is greater than the second sieve plate Sieve pore on 4023, the sieve pore on the second sieve plate 4023 are greater than the sieve pore on third sieve plate 4024；First sieve plate 4022, second sieve Plate 4023, third sieve plate 4024 sieve cabinet 4021 from the first screening chamber, the second screening chamber, third is successively separated into from top to bottom Point chamber, the 4th screening chamber, the first screening chamber, the second screening chamber, third screening chamber side wall on offer discharge port, discharge port Place is fixedly installed the first discharge chute 40211, the second discharge chute 40212, third discharge chute 40213, and the first discharge slips The outlet end of slot 40211 is located at the surface of the second conveyer belt 405, and it is defeated that the outlet end of the second discharge chute 40212 is located at first The surface of band 404 is sent, the outlet end of third discharge chute 40213 is located at the surface of third conveyer belt 406, the 4th screening chamber Bottom offer discharge port, discharge outlet is fixedly connected with drainage conduit 40214, and the outlet end of drainage conduit 40214 is located at the 4th The surface of conveyer belt 407, vibrating motor 4025 are fixed at the two sides outer wall surface of cabinet 4021, and buffer unit 4026 is solid Be arranged on the two sides outer wall of cabinet 4021 calmly, one end of buffer unit 4026 is fixedly connected with cabinet 4021, the other end with Fixed frame 403 is fixedly connected.

Vibrating motor 4025 starts, and the broken silicon-iron block fallen from 401 outlet at bottom end of collecting bin falls to cabinet On the first sieve plate 4022 in 4021, vibrating motor 4025 makes the first sieve plate 4022 in cabinet 4021 generate vibration, the first sieve Silicon-iron block on plate 4022 is beated on the first sieve plate 4022, and the silicon-iron block greater than 4022 sieve pore of the first sieve plate then passes through first row Material chute 40211 is delivered on the second conveyer belt 405, and the buffering of feeding conveyer belt 102 is delivered to by the second conveyer belt 405 In storehouse 1021, and sieve pore is passed through less than the silicon-iron block of 4022 sieve pore of the first sieve plate, falls to downwards on the second sieve plate 4023, vibrate Motor 4025 makes the second sieve plate 4023 in cabinet 4021 generate vibration, and the silicon-iron block on the second sieve plate 4023 is in the second sieve plate It beats on 4023, the silicon-iron block greater than 4023 sieve pore of the second sieve plate then passes through the second discharge chute 40212 and is delivered to the first conveying It on band 404, and is transported away by first conveyer belt 404, and passes through sieve pore less than the silicon-iron block of 4023 sieve pore of the second sieve plate, downwards It falls on third sieve plate 4024, vibrating motor 4025 makes the third sieve plate 4024 in cabinet 4021 generate vibration, third sieve plate Silicon-iron block on 4024 is beated on the second sieve plate 4023, and the ferrosilicon greater than 4024 sieve pore of third sieve plate then passes through third discharge and slips Slot 40213 is delivered on third conveyer belt 406, and is transported away by third conveyer belt 406, and is less than 4024 sieve pore of third sieve plate Ferrosilicon then pass through sieve pore and fall downwards, finally dropped down on the 4th conveyer belt 407 from drainage conduit 40214, and pass through the 4th conveying Band 407 is transported away.

The buffer unit 4026 includes positioning seat 40261, spring 40262, fixed connecting rod 40263, positioning seat 40261 It is fixed on fixed frame 403, fixed connecting rod 40263 is fixed on the outer wall of cabinet 4021, fixed connecting rod 40263 one end far from cabinet 4021 are fixedly installed a round pillar 402631, and one end of spring 40262 is sleeved on circle On pillar 402631, the other end is sleeved on positioning seat 40261, when cabinet 4021, which is vibrated motor 4025, to be vibrated, spring The impact that 40262 one side can be subject to sword emperor cabinet 4021, on the other hand can guarantee cabinet 4021 in the vertical direction on Under jolt, be more conducive to silicon-iron block and beat on the first sieve plate 4022, the second sieve plate 4023, third sieve plate 4024, so that silicon Iron block can be preferably sized.

Further, first sieve plate 4022, the second sieve plate 4023, third sieve plate 4024 are obliquely installed, and first Sieve plate 4022, the second sieve plate 4023, third sieve plate 4024 sieve chamber discharge port close to the first screening chamber, the second screening chamber, third One end be lower than far from first screening chamber, second screening chamber, third screening chamber discharge port one end.

Further, the first discharge chute 40211, the second discharge chute 40212, third discharge chute 40213 are equal It is obliquely installed, and the first discharge chute 40211, the second discharge chute 40212, third discharge chute 40213 are close to the first screening Chamber, second screening chamber, third screening chamber discharge port one end be higher than the first discharge chute 40211, the second discharge chute 40212, The outlet end of third discharge chute 40213.

The dust collect plant 30 includes dust deposited case 301, blower 302, dust hood 303, and dust hood 303 is arranged in collecting bin 401 surface, dust hood 303 are provided at least two air inlets 3031 on the surface of 401 side of collecting bin；Dust deposited case It is fixed at the side of gradation sizing mechanism 402, dust hood 303 is connected to by pipeline with dust deposited case 301, and blower 302 enters Mouth end is connected to dust deposited case 301, and outlet end is connected to ambient atmosphere, and blower 302 is run, and is generated when collecting bin 401 is produced Ferrosilicon dust passes through at least two air inlets, 3031 intake line being arranged on dust hood 303, and is evacuated in dust deposited case 301, By dust deposited case 301 by after ferrosilicon dust collection, the outlet end that purified air then passes through blower 302 is drained into atmosphere, and The ferrosilicon dust of collection can be discharged from the outlet end of dust deposited case 301, continue with.

The outlet end of the ash releasing tube 3011 is equipped with grey bag locking device 3012, outer wall of the ash releasing tube 3011 close to outlet end Surface opens up fluted 30111, and the ash bag locking device 3012 includes fixed disk 30121, connects and hang spring 30122, hook 30123, retaining mechanism 30124, fixed disk 30121 are sleeved on ash releasing tube 3011, and are fixedly connected with ash releasing tube 3011, locking The lower section of fixed disk 30121 is arranged in mechanism 30124, and one end that spring 30122 is hung in connection is fixedly connected with fixed disk 30121, separately One end is fixedly connected with retaining mechanism 30124, and hook 30123 is fixed at the outer wall surface of ash releasing tube 3011, and is located at solid Between price fixing 30121 and retaining mechanism 30124, the retaining mechanism 30124 include compression ring 301241, negative pressure pump 301242, Shrinkage hose 301243, compression ring 301241 is arranged in ash releasing tube 3011 close to outlet end, and compression ring 301241 is hung with connection One end of spring 30122 is fixedly connected, and the inside of compression ring 301241 offers toroidal cavity, and the setting of shrinkage hose 301243 is being pressed It in toroidal cavity inside tight ring 301241, and extends to outside compression ring 301241, negative pressure pump 301242 is fixed on fixed disk On 30121, the arrival end of negative pressure pump 301242 is connected to shrinkage hose 301243, and valve can also be arranged on ash releasing tube 3011, And valve need to be mounted on the top of fixed disk 30121, when needing outside ash discharge, can control ash discharge by manipulation valve Amount.

When needing to be discharged the ferrosilicon dust in dust deposited case, the sack for collecting ferrosilicon dust is passed through compression ring by user 301241, the opening of sack is hung in sub-hook 30123, user pulls compression ring 301241, makes 301241 face of compression ring Groove 30111 on ash releasing tube 3011 starts negative pressure pump 301242, and negative pressure pump 301242 works, 301243 volume of shrinkage hose Start to become smaller, shrinks cavity of the shrinkage hose 301243 inside compression ring 301241, shrinkage hose 301243 is shunk same When, drive compression ring 301241 to shrink, with the contraction of compression ring 301241, compression ring 301241 is embedded on ash releasing tube 3011 Groove 30111 in, sack is compressed, at this time connecting spring hold compression ring 301241, make the top table of compression ring 301241 Face is contacted with the upper face of groove 30111, is stuck in compression ring 301241 in groove 30111, and sack is firmly stuck, in this way Just it can prevent dust deposited case dust when outside ash discharge from spraying out of sack.

A working method of the invention is as follows: when work, ferrosilicon is poured onto the buffering chamber of feeding conveyer belt 102 by user In 1021, ferrosilicon is delivered in charge slot 1011 by feeding conveyer belt 102 again, when saving bit by bit a certain number of silicon in charge slot 1011 After iron, start hydraulic pump 10122, when hydraulic pump 10122 drives lifting column 10121 to rise, the tilt angle of charge slot 1011 becomes Greatly, be conducive to ferrosilicon to slide to crusher 2011, when hydraulic pump 10122 drives lifting column 10121 to decline, charge slot 1011 Inclined angle becomes smaller, and ferrosilicon, which slides to the speed in crusher 2011, to slow down, to control into the silicon in crusher 2011 Iron quantity；Ferrosilicon enters in crusher 2011 from the outlet end of charge slot 1011, broken after crusher 2011 is broken Ferrosilicon drops down on broken material conveyer belt 202 from the outlet end of crusher 2011, by broken material conveyer belt 202 by broken ferrosilicon It is delivered in collecting bin 401；

Start vibrating motor 4025 at this time, vibrating motor 4025 makes cabinet 4021 generate vibration, to make the in cabinet 4021 One sieve plate 4022, the second sieve plate 4023, third sieve plate 4024 vibrate, the first sieve plate 4022, the second sieve plate 4023, third sieve plate While 4024 vibration, make the first sieve plate 4022, the second sieve plate 4023, the silicon-iron block on third sieve plate 4024 in the first sieve plate 4022, the second sieve plate 4023, beat on third sieve plate 4024, and be greater than the first sieve plate 4022, the second sieve plate 4023, third sieve plate The silicon-iron block of 4024 sieve pores is then stopped by the first sieve plate 4022, the second sieve plate 4023, third sieve plate 4024 respectively, through the first discharge Chute 40211, the second discharge chute 40212, the Ji drainage conduit 40214 of third discharge chute 40213 are delivered to first conveyer belt 404, the second conveyer belt 405, third conveyer belt 406, on the 4th conveyer belt 407, and conveyed by first conveyer belt 404, third The silicon-iron block of dimension size is transported away with the 406, the 4th conveyer belt 407, the second conveyer belt 405 will then fall short of specifications ruler Very little silicon-iron block is delivered in the surge bunker 1021 of feeding conveyer belt 102, continues to be crushed by crusher 2011；

And generated when the dust generated when being crushed in charge slot 1011 due to dust, crusher 2011 that feeding generates and screening Ferrosilicon dust, which then passes through after dust hood 303 is pumped down to the interior collection of dust deposited case 301, to be recycled.

The above disclosure is only the preferred embodiments of the present invention, cannot limit the right model of the present invention with this certainly It encloses, those skilled in the art can understand all or part of the processes for realizing the above embodiment, and wants according to right of the present invention Made equivalent variations is sought, is still belonged to the scope covered by the invention.

Claims (10)

1. a kind of ferrosilicon is crushed gradation sizing system, it is characterised in that: including feeding device, crushing device, dust collect plant, screening Device, feeding device and crushing device are sequentially connected from left to right, and the side of crushing device, feeding dress is arranged in dust collect plant Setting will need broken ferrosilicon to be delivered in crushing device, after crushing device is broken by ferrosilicon, and will be broken by crushing device Silicon-iron block after broken is delivered to screening plant, and broken silicon-iron block gradation sizing is obtained different specification size by screening plant Silicon-iron block, the dust collection that the dust and crushing device generated when dust collect plant is by feeding device feeding generates when broken；

The feeding device includes feeding mechanism, feeding conveyer belt, and the side of feeding mechanism is arranged in feeding conveyer belt, and feeding is defeated The surface for sending the outlet end of band to be located at feeding mechanism, the surface of the arrival end of feeding conveyer belt is equipped with buffering chamber, described Feeding mechanism includes charge slot, automatic lifting component, support frame, charge slot position in the underface of feeding conveyer belt outlet end, and Charge slot is arranged on the support frame, and the outlet end of charge slot and the arrival end pin shaft of crushing device connect, and automatic lifting component is set It sets in the lower section of support frame, and the base pins axis connection with charge slot, automatic lifting component is flexible up and down, pushes charge slot or more It is mobile, rotate the outlet end of charge slot along the arrival end of crushing device；

The crushing device includes crushing mechanism, broken material conveyer belt, and the lower section of charge slot outlet end is arranged in crushing mechanism, and The arrival end of crushing mechanism is connect with the outlet end pin shaft of charge slot, and the underface of crushing mechanism is arranged in broken material conveyer belt, Crushing mechanism drops down on broken material conveyer belt after being crushed ferrosilicon, and is conveyed broken silicon-iron block by broken material conveyer belt It walks；

The screening plant includes collecting bin, gradation sizing mechanism, fixed frame, first conveyer belt, the second conveyer belt, third conveying The top of fixed frame is arranged in band, the 4th conveyer belt, collecting bin, and gradation sizing mechanism is fixed on fixed frame, and is located at The side of gradation sizing mechanism is arranged in the underface of collecting bin, first conveyer belt, and the second conveyer belt, the setting of third conveyer belt exist The other side of gradation sizing mechanism, the second conveyer belt, third conveyer belt and first conveyer belt are arranged oppositely, and the second conveyer belt position In the surface of third conveyer belt, the underface at gradation sizing mechanism outlet at bottom end, gradation sizing is arranged in the 4th conveyer belt Mechanism is sieved the silicon-iron block that collecting bin is fallen step by step, obtains the silicon-iron block of different specification size, different specification size Silicon-iron block respectively falls in corresponding first conveyer belt, the second conveyer belt, third conveyer belt, on the 4th conveyer belt, and passes through the The silicon-iron block of dimension size is transported away by one conveyer belt, third conveyer belt, the 4th conveyer belt, and the second conveyer belt will then not be inconsistent The silicon-iron block for closing specification is delivered in the surge bunker of feeding conveyer belt；

The dust collect plant includes dust deposited case, blower, dust hood, and the surface of collecting bin is arranged in dust hood, and dust deposited case is fixed The side of gradation sizing mechanism is set, dust hood is connected to by pipeline with dust deposited case, and the arrival end of blower is connected to dust deposited case, Outlet end is connected to ambient atmosphere, and dust deposited case outlet at bottom end is equipped with ash releasing tube.

2. ferrosilicon according to claim 1 is crushed gradation sizing system, it is characterised in that: the outlet end of the ash releasing tube is set There is a grey bag locking device, outer wall surface of the ash releasing tube close to outlet end opens up fluted, and the ash bag locking device includes fixing Spring, hook, retaining mechanism are hung in disk, connection, and fixed disk is sleeved on ash releasing tube, and is fixedly connected with ash releasing tube, and retaining mechanism is set It sets in the lower section of fixed disk, one end that spring is hung in connection is fixedly connected with fixed disk, and the other end is fixedly connected with retaining mechanism, hook It is fixed at the outer wall surface of ash releasing tube, and between fixed disk and retaining mechanism.

3. ferrosilicon according to claim 2 is crushed gradation sizing system, it is characterised in that: the retaining mechanism includes compressing Ring, negative pressure pump, shrinkage hose, compression ring is arranged in ash releasing tube close to outlet end, and one end that compression ring hangs spring with connection is fixed Connection, the inside of compression ring offer toroidal cavity, and shrinkage hose is arranged in the toroidal cavity inside compression ring, and extends to Outside compression ring, negative pressure pump is fixed in fixed disk, and the arrival end of negative pressure pump is connected to shrinkage hose.

4. ferrosilicon according to claim 1 is crushed gradation sizing system, it is characterised in that: the automatic lifting component includes Lifting column, hydraulic pump, fuel tank, fuel tank and hydraulic pump are arranged at the lower section of support frame, and hydraulic pump is connect with fuel tank by oil pipe, Lifting column is fixed at the middle part of support frame, one end of lifting column and the base pins axis connection of charge slot, the other end and support Frame is vertically fixedly connected, and the outlet end of hydraulic pump is connect with lifting column by oil pipe.

5. ferrosilicon according to claim 1 is crushed gradation sizing system, it is characterised in that: the crushing mechanism includes broken Machine, pedestal, motor, pedestal is fixed at the lower section of charge slot, and is located at the surface of broken material conveyer belt, the two sides of pedestal Peep hole is offered, crusher is fixed on pedestal, crusher is located at the lower section of charge slot outlet end, and crusher enters Mouth end is connect with the outlet end pin shaft of charge slot, and pedestal is run through in the outlet end of crusher, and face broken material conveyer belt, motor are solid Surely it is set on the base, and is located at the side of crusher, motor is connect by driving belt with crusher, is provided for crusher dynamic Power.

6. ferrosilicon according to claim 1 is crushed gradation sizing system, it is characterised in that: the gradation sizing mechanism includes Cabinet, the first sieve plate, the second sieve plate, third sieve plate, vibrating motor, buffer unit, it is equal away from offering on a side surface of cabinet Three construction openings, the first sieve plate, the second sieve plate, third sieve plate are sequentially inserted into from top to bottom in three construction openings, and point Do not fixed with cabinet, the first sieve plate, the second sieve plate, third sieve plate by cabinet from be successively separated into from top to bottom the first screening chamber, Second screening chamber, third screening chamber, the 4th screening chamber, first screening chamber, second screening chamber, third screening chamber side wall on open Equipped with discharge port, discharge outlet is fixedly installed the first discharge chute, the second discharge chute, third discharge chute, the first discharge The outlet end of chute is located at the surface of the second conveyer belt, the outlet end of the second discharge chute be located at first conveyer belt just on Side, the outlet end of third discharge chute are located at the surface of third conveyer belt, and the bottom of the 4th screening chamber offers discharge port, out Drainage conduit is fixedly connected at material mouth, the outlet end of drainage conduit is located at the surface of the 4th conveyer belt, vibrating motor fixed setting In the two sides outer wall surface of cabinet, buffer unit is fixed on the two sides outer wall of cabinet, one end of buffer unit and case Body is fixedly connected, and the other end is fixedly connected with fixed frame.

7. ferrosilicon according to claim 6 is crushed gradation sizing system, it is characterised in that: the buffer unit includes positioning Seat, spring, fixed connecting rod, positioning seat are fixed on fixed frame, and fixed connecting rod is fixed on the outer wall of cabinet, Fixed connecting rod is fixedly installed a round pillar far from one end of cabinet, and one end of spring is sleeved on round pillar, separately One end is sleeved on positioning seat.

8. ferrosilicon according to claim 6 is crushed gradation sizing system, it is characterised in that: in the inner wall surface of the cabinet It is fixedly installed sliding slot, the surrounding that cabinet exterior surface is located at construction opening is fixedly installed fixed column, the first sieve plate, the second sieve In plate, third sieve plate insertion construction opening, and it is embedded into sliding slot, and is sieved the first sieve plate, the second sieve plate, third by nut Plate is fixed in fixed column.

9. ferrosilicon according to claim 8 is crushed gradation sizing system, it is characterised in that: first sieve plate, the second sieve Sieve pore is offered on plate, third sieve plate, and the sieve pore on the first sieve plate is greater than the sieve pore on the second sieve plate, on the second sieve plate Sieve pore is greater than the sieve pore on third sieve plate, and first sieve plate, the second sieve plate, third sieve plate are obliquely installed, and the first sieve plate, Second sieve plate, third sieve plate are lower than close to one end of the first screening chamber, the second screening chamber, third screening chamber discharge port far from first Sieve one end that chamber, the second screening chamber, third sieve chamber discharge port.

10. ferrosilicon according to claim 6 is crushed gradation sizing system, it is characterised in that: the first discharge chute, Two discharge chutes, third discharge chute are obliquely installed, and the first discharge chute, the second discharge chute, third discharge chute lean on It is nearly first screening chamber, second screening chamber, third screening chamber discharge port one end be higher than the first discharge chute, the second discharge chute, The outlet end of third discharge chute.