CN1718748A - Production line of high efficiency energy saving steel slag breeze - Google Patents

Production line of high efficiency energy saving steel slag breeze Download PDF

Info

Publication number
CN1718748A
CN1718748A CNA2005100190261A CN200510019026A CN1718748A CN 1718748 A CN1718748 A CN 1718748A CN A2005100190261 A CNA2005100190261 A CN A2005100190261A CN 200510019026 A CN200510019026 A CN 200510019026A CN 1718748 A CN1718748 A CN 1718748A
Authority
CN
China
Prior art keywords
slag
deironing
plate
grate plate
rotary barrel
Prior art date
Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
Granted
Application number
CNA2005100190261A
Other languages
Chinese (zh)
Other versions
CN100404695C (en
Inventor
胡曙光
陈平
何永佳
丁庆军
吕林女
王发洲
Current Assignee (The listed assignees may be inaccurate. Google has not performed a legal analysis and makes no representation or warranty as to the accuracy of the list.)
Hubei University
Original Assignee
Hubei University
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
Filing date
Publication date
Application filed by Hubei University filed Critical Hubei University
Priority to CNB2005100190261A priority Critical patent/CN100404695C/en
Publication of CN1718748A publication Critical patent/CN1718748A/en
Application granted granted Critical
Publication of CN100404695C publication Critical patent/CN100404695C/en
Expired - Fee Related legal-status Critical Current
Anticipated expiration legal-status Critical

Links

Images

Classifications

    • YGENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
    • Y02TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
    • Y02WCLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO WASTEWATER TREATMENT OR WASTE MANAGEMENT
    • Y02W30/00Technologies for solid waste management
    • Y02W30/50Reuse, recycling or recovery technologies

Landscapes

  • Manufacture And Refinement Of Metals (AREA)

Abstract

An energy-saving efficient production line of steel slag breeze is composed of electromagnetic sucking disk, alligator, impact crusher, post grinder, rod grinder, tube grinder, 4 ferroelectric magnetic iron removers, and iron-removing system.

Description

Production line of high efficiency energy saving steel slag breeze
Technical field
The invention belongs to building material technical field, be specifically related to a kind of slag breeze production line.
Background technology
Slag is the waste residue that Steel industry produces, and its quantity discharged is about about 10% of output of steel, and the year generation of China's slag has reached more than 1,600 ten thousand tons at present.Pile up like a mountain for the slag that produces, and not only takies a large amount of land resourcess in short supply and build the stockyard, and cause second environmental pollution easily.Yet, current China is very low to the utilization ratio of slag, trace it to its cause, key is slag owing to contain metallic iron, be a kind of industrial residue that is very difficult to grinding, the slag tuber grinder become fine powder efficient is low, energy consumption is high, cost is also high, general production line can't be realized the energy-efficient grinding of slag, has limited the regeneration of slag; Simultaneously, iron-holder height in the slag breeze that general production line is produced usually about 2 ~ 4%, sometimes even reach more than 5%, influences the performance and the quality of product; In addition, species distribution inequalities such as f-CaO, MgO in the slag breeze that general production line is produced, the energy-efficient grinding that makes the bigger realization slag breeze of its quality fluctuation is not only to reducing the accumulation deposit amount of slag, the resource utilization that realizes slag is significant, and, realize that Sustainable development also means a great for save energy, minimizing environmental disruption.
Summary of the invention
Be difficult to the problem of grinding at slag breeze, the object of the present invention is to provide a kind of production line of high efficiency energy saving steel slag breeze, this production line comprehensive energy consumption significantly reduces, and output significantly improves, and the metallic iron rate of recovery increases.
Technical scheme of the present invention is: production line of high efficiency energy saving steel slag breeze is characterized in that: it is made of magneticchuck, jaw crusher, the first iron electromagnet tramp iron separator, impact crusher, second electric magnetic iron remover, column mill, the 3rd electric magnetic iron remover, rod mill, the 4th electric magnetic iron remover, slag tuber grinder, deironing system successively; The deironing first time is carried out by magneticchuck in the slag of coming out of the stove cooling back, and slag carries out the fragmentation first time by jaw crusher after the deironing first time; Slag after the fragmentation for the first time carries out the deironing second time by the first iron electromagnet tramp iron separator, and slag carries out the fragmentation second time by impact crusher after the deironing second time; Slag after the fragmentation for the second time carries out deironing for the third time by the second iron electromagnet tramp iron separator, and slag is undertaken broken for the third time after deironing for the third time by column mill; Slag after the fragmentation carries out the 4th deironing by the three-iron electric magnetic iron remover for the third time, and slag carries out the 4th fragmentation by rod mill after the 4th deironing; Slag after the 4th fragmentation carries out the 5th deironing by the 4th iron electromagnet tramp iron separator, and slag carries out grinding by the slag tuber grinder after the 5th deironing; Steel-making slag powder behind the grinding is carried out the 6th deironing by the deironing system and is got slag breeze (product).
Described slag tuber grinder, it comprises rotary barrel 8, front-end bearing pedestal 7, rear bearing block 10, the front end of rotary barrel 8 (bistrique) is connected with front-end bearing pedestal 7 by bearing, and the tail end of rotary barrel 8 is connected with rear bearing block 10 by bearing, and rotary barrel 8 is provided with opening for feed 1, discharge port 6; Rotary barrel 8 internal fixing have 1-3 powder selection device.
Be provided with raising material unit 4 in little forging storehouse in the described rotary barrel 8 after last powder selection device.Inboard, discharge port 6 place in the described rotary barrel 8 is provided with finished product control device 5.
The deironing system comprises 1-2 settling pocket, 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator, the steel-making slag powder that the slag tuber grinder is discharged enters settling pocket successively, centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator carry out deironing, get iron powder material and slag breeze.
The deironing system comprises 1 cover electromagnetism equipment for removing ferric ion and 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator, the steel-making slag powder that the slag tuber grinder is discharged enters the electromagnetism equipment for removing ferric ion successively, centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator carry out deironing, get iron powder material and slag breeze.
The deironing system comprises 1 settling pocket and 1 cover electromagnetism equipment for removing ferric ion, and the steel-making slag powder that the slag tuber grinder is discharged enters settling pocket successively, and the electromagnetism equipment for removing ferric ion carries out deironing, gets iron powder material and slag breeze.
The deironing system comprises 1 settling pocket, 1 cover electromagnetism equipment for removing ferric ion and 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator, the steel-making slag powder that the slag tuber grinder is discharged enters 1 settling pocket successively, 1 cover electromagnetism equipment for removing ferric ion, 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator carry out deironing, get iron powder material and slag breeze.
The bulk slag is after magneticchuck deironing for the first time, the bulk metal iron that is not wrapping in the slag piece is removed, iron-holder is reduced to 6 ~ 8% by initial 13% ~ 15%, the slag piece enters the particle that jaw crusher is broken into particle diameter 30 ~ 40mm, enters following each road deironing and crushing process successively.After secondary breaking, the slag particle diameter is reduced to below the 10mm, and after the tertiary crushing, particle diameter is reduced to below the 5mm, and after four fragmentations, particle diameter is reduced to 1 ~ 2mm; After 5 deironing of slag experience, iron-holder is reduced to below 2% simultaneously.Send in the slag tuber grinder grinding to specific surface area 450m with being about to slag after the fragmentation 2More than/the kg, will go out grind materials again, metal Ferrum content is reduced to below 1%, get the slag breeze finished product with the deironing of deironing system.Its characteristics one of slag tuber grinder are to be provided with powder selection device, and the air-distributing device of powder selection device makes in certain storehouse grinding enter next storehouse fast to the material of setting fineness, improves material lagging and overground phenomenon; The 2nd, have free powder function, cooperate mill inner ventilation to make that qualified breeze goes out mill fast in the fine grinding storehouse by raising material unit, the steel-making slag powder that particle diameter is thicker is stayed the continuation grinding until qualified in fine grinding the storehouse in.The last used deironing system of iron removal step utilizes turbulent wind-force and iron powder self gravitation, electromagnetic force comprehensive action, and thin iron powder high efficiency separation from slag breeze is come out.
Its principal feature:
1. because through iron removal repeatedly, the grindability of slag strengthens; Grinding is preceding through repeatedly broken, product cut size at last process disposes corresponding crushing mechanism, makes the machinery performance maximum efficiency of each procedure, though mechanical means quantity and operation increase to some extent than traditional technology, but comprehensive energy consumption significantly reduces, and output significantly improves;
2. take the technology of a multiple broken iron removal by magnetic separation, make that the recovering effect of metallic iron improves greatly in the slag, recovery utilization rate reaches more than 95%;
3. adopted the slag tuber grinder, mill efficiency is further improved, energy consumption further reduces, and grating is optimized; Last procedure adopts the deironing system, makes the content of metallic iron in the slag breeze further be reduced to below 1%;
4. the multiple tracks broken process makes steel slag particle obtain good homogenizing; And in last one deferrization process, the homogeneity of breeze is able to very big improvement under the effect of turbulent wind-force, efficiently solves the big problem of slag breeze quality fluctuation;
5. because the reduction of energy consumption, the metallic iron rate of recovery increases and the raising of production efficiency, thereby the economic benefit of whole production line is obvious.
Description of drawings
Fig. 1 is a structural representation of the present invention
Fig. 2 is the structural representation of slag tuber grinder of the present invention
Fig. 3 is the structural representation of the branch hopper 11 of slag tuber grinder of the present invention
Fig. 4 is the sectional view of Fig. 3 along the B-B line
Fig. 5 is the structural representation of the trommel screen 19 of slag tuber grinder of the present invention
Fig. 6 is the vertical view of Fig. 5
Fig. 7 is the structural representation of the air-distributing device of slag tuber grinder of the present invention
Fig. 8 is that the part of the powder selection device of slag tuber grinder of the present invention is cutd open structural representation
Fig. 9 be slag tuber grinder of the present invention powder selection device remove structural representation behind discharging grate plate 22, the air-distributing device
Figure 10 is the right view of the powder selection device of slag tuber grinder of the present invention
Figure 11 be slag tuber grinder of the present invention powder selection device remove structural representation behind the charging grate plate 26
Figure 12 is the structural representation of the raising material unit of slag tuber grinder of the present invention
Figure 13 is the left view of Figure 12
Figure 14 is the structural representation of the finished product control device of slag tuber grinder of the present invention
Figure 15 is the structural representation of mill tail discharging grate plate of the finished product control device of slag tuber grinder of the present invention
Figure 16 is the deironing system architecture synoptic diagram of the embodiment of the invention 1
Figure 17 is the deironing system architecture synoptic diagram of the embodiment of the invention 2
Figure 18 is the deironing system architecture synoptic diagram of the embodiment of the invention 3
Figure 19 is the deironing system architecture synoptic diagram of the embodiment of the invention 4
Among the figure: 1-opening for feed, 2-first powder selection device, 3-second powder selection device, 4-raising material unit, 5-finished product control device, 6-discharge port, 7-front-end bearing pedestal, 8-rotary barrel, the 9-material, the 10-rear bearing block, 11-divides hopper, the 12-material outlet that advances, the 13-material that advances enters the hole, the 14-material bin that advances, and 15-returns material bin, and 16-returns material and enters the hole, 17-first ventilation hole, 18-returns material outlet, the 19-trommel screen, the 20-sieve aperture, 21-eddy current whirlwind lifting bar, 22-discharging grate plate, the 23-discharging is combed and is stitched, the 24-bolt, and 25-takes turns band, 26-charging grate plate, 27-lifting hole, 28-material delivering plate, the 29-base, 30-fixed orifices, 31-backward channel, 32-second ventilation hole, 33-feed back vertebra bucket, 34-mill tail sheet plate, 35-mill tail discharging grate plate, 36-screw rod, 37-finished product passage, 38-sieve plate frame, 39-air distribution plate, 40-circular hole, the 41-bolt hole, 42-the 3rd ventilation hole, 43-the 4th ventilation hole, 44-cavity groove, the 45-finished product seam of combing, the 46-seam of combing.
Embodiment
Embodiment 1:
As shown in Figure 1, production line of high efficiency energy saving steel slag breeze, it is made of magneticchuck, jaw crusher, the first iron electromagnet tramp iron separator, impact crusher, second electric magnetic iron remover, column mill, the 3rd electric magnetic iron remover, rod mill, the 4th electric magnetic iron remover, slag tuber grinder, deironing system successively; The deironing first time is carried out by magneticchuck in the slag of coming out of the stove cooling back, and slag carries out the fragmentation first time by jaw crusher after the deironing first time; Slag after the fragmentation for the first time carries out the deironing second time by the first iron electromagnet tramp iron separator, and slag carries out the fragmentation second time by impact crusher after the deironing second time; Slag after the fragmentation for the second time carries out deironing for the third time by the second iron electromagnet tramp iron separator, and slag is undertaken broken for the third time after deironing for the third time by column mill; Slag after the fragmentation carries out the 4th deironing by the three-iron electric magnetic iron remover for the third time, and slag carries out the 4th fragmentation by rod mill after the 4th deironing; Slag after the 4th fragmentation carries out the 5th deironing by the 4th iron electromagnet tramp iron separator, and slag carries out grinding by the slag tuber grinder after the 5th deironing; Steel-making slag powder behind the grinding is carried out the 6th deironing by the deironing system and is got slag breeze (product).
The bulk slag is after the magneticchuck deironing first time, the bulk metal iron that is not wrapping in the slag piece is removed, iron-holder is reduced to 8% by initial 15%, and the slag piece enters the particle that jaw crusher is broken into particle diameter 40mm, enters following each road deironing and crushing process successively.After secondary breaking, the slag particle diameter is reduced to 9mm, and after the tertiary crushing, particle diameter is reduced to 4mm, and after four fragmentations, particle diameter is reduced to 2mm; After 5 deironing of slag experience, iron-holder reduces to 1.5% simultaneously.Send in the slag tuber grinder grinding to specific surface area 500m with being about to slag after the fragmentation 2/ kg will go out to grind steel-making slag powder again with the deironing of deironing system, make metal Ferrum content reduce to 0.8%, get the slag breeze finished product, production comprehensive energy consumption: 42kwh/t.
Shown in Fig. 1-15, the slag tuber grinder, it comprises rotary barrel 8, front-end bearing pedestal 7, rear bearing block 10, the front end of rotary barrel 8 (bistrique) is connected with front-end bearing pedestal 7 by bearing, the tail end of rotary barrel 8 is connected with rear bearing block 10 by bearing, and rotary barrel 8 is provided with opening for feed 1, discharge port 6; Rotary barrel 8 internal fixing have 2 powder selection devices,
Described powder selection device comprises that branch hopper 11, trommel screen 19, wheel are with 25, charging grate plate 26, air-distributing device, discharging grate plate 22, divide hopper 11 middle parts to be provided with first ventilation hole 17, divide and interlacedly in the hopper 11 to be provided with the material bin 14 that advances, to return material bin 15, the outer side wall at material bin 14 places that advance of branch hopper 11 is provided with the material that advances and enters hole 13, divide the back plate at material bin 14 places that advance of hopper 11 to be provided with the material outlet 12 that advances, the material that advances enters hole 13, the material outlet 12 that advances communicates with the material bin 14 that advances respectively; Divide the outer side wall that returns material bin 15 places of hopper 11 to be provided with to return material and enter hole 16, divide the header board that returns material bin 15 places of hopper 11 to be provided with and return material outlet 18, return material enter hole 16, return material outlet 18 respectively with return material bin 15 and communicate; Trommel screen 19 embayment knife-edges, in the trommel screen 19 is cavity, the tulwar point of trommel screen 19 is a closed, it at the bottom of the tulwar of trommel screen 19 opening, big or small corresponding on the outer side wall at the size at the bottom of the tulwar of trommel screen 19 and material bin 14 places that advance that divide hopper 11 also is mutually permanently connected, the material bin 14 that advances enters hole 13 with the cavity of trommel screen 19 by the material that advances and is communicated with, and wall is provided with sieve aperture 20 around the trommel screen 19, and sieve aperture 20 communicates with the cavity of trommel screen 19; Wheel is fixedlyed connected with the tulwar point of trommel screen 19 with 25 inboard, takes turns correspondingly with the internal diameter of rotary barrel 8 with 25 external diameter, takes turns and to be with 25 to fixedly connected with rotary barrel 8; Air-distributing device is positioned at the inboard of discharging grate plate 22, air-distributing device mainly is made of air distribution plate 39, eddy current whirlwind lifting bar 21, eddy current whirlwind lifting bar 21 is that arc is bucket-shaped, air distribution plate 39 is fan-shaped, be evenly distributed with circular hole 40 on the air distribution plate 39, eddy current whirlwind lifting bar 21 is welded on the air distribution plate 39, and air distribution plate 39 is provided with bolt hole 41; Discharging grate plate 22 is positioned at a side of the material outlet 12 that advances, charging grate plate 26 is positioned at a side of returning material outlet 18, have screw on discharging grate plate 22, the charging grate plate 26, it is fixedly connected that discharging grate plate 22, air distribution plate 39, charging grate plate 26 pass screw on the discharging grate plate 22, the bolt hole 41 on the air distribution plate 39, screw on the charging grate plate 26 by bolt 24, charging grate plate 26 is provided with charging comb seam, discharging grate plate 22 is provided with discharging comb seam 23, and charging grate plate 26 is towards the front end of rotary barrel 8.
The thickness of the air distribution plate 39 of described air-distributing device is 4mm, the area of circular hole 40 is the 20%-35% of the area of air distribution plate 39, the diameter in the hole on the air distribution plate in rotary barrel 8 between first storehouse and second storehouse is 4-8mm, and the diameter in hole is 1.0-3.5mm on the air distribution plate between second storehouse and the 3rd storehouse; The height of eddy current whirlwind lifting bar 21 is 10-15mm, and the thickness of eddy current whirlwind lifting bar 21 is 3-4mm.
Described powder selection device is 2, and first powder selection device 2 is positioned at front end (bistrique) the 2000-3000mm place of rotary barrel 8, and charging grate plate 26 is a 10-20 spare, and the seam of charging comb seam is wide to be 14-18mm; Trommel screen 19 is a 8-10 spare, the Kong Kuanwei 5-9mm of the sieve aperture 20 on the trommel screen 19; Dividing hopper 11 is 1, and dividing hopper 11 diameters is 800-1100mm; Discharging grate plate 22 is a 10-20 spare, and the seam of the discharging comb seam 23 on the discharging grate plate 22 is wide to be 6-10mm; Eddy current whirlwind lifting bar 21 is a 8-11 spare;
Second powder selection device 3 is positioned at front end (bistrique) the 3500-5500mm place of rotary barrel 8, and charging grate plate 26 is a 20-24 spare, and the seam of charging comb seam is wide to be 7-10mm; Trommel screen 19 is a 10-15 spare, the Kong Kuanwei 1.5-3.5mm of the sieve aperture 20 on the trommel screen 19; Dividing hopper 11 is 1, and dividing hopper 11 diameters is 800-1100mm; Discharging grate plate 22 is a 20-24 spare, and the seam of the discharging comb seam 23 on the discharging grate plate 22 is wide to be 1.5-6.0mm; Eddy current whirlwind lifting bar is a 8-11 spare.
Be provided with raising material unit 4 in little forging storehouse in the described rotary barrel 8 after last powder selection device, raising material unit 4 mainly is made of base 29, material delivering plate 28 two portions, for crooked arcual door shape cast member is axially arranged along rotary barrel 8, the crooked radian r of material delivering plate 28 is the 30-45 degree, material delivering plate 28 is provided with lifting hole 27, base 29 is provided with fixed orifices 30, and base 29 passes fixed orifices 30 by screw fixedlys connected with rotary barrel 8; Every circles are installed four raising material units 4 in the rotary barrel 8, and adjacent two arcs are towards on the contrary, in rotary barrel 8 axially in the shape of a spiral line arrange.
Inboard, discharge port 6 place in the described rotary barrel 8 is provided with finished product control device 5, finished product control device 5 is mainly by feed back vertebra bucket 33, mill tail sheet plate 34, mill tail discharging grate plate 35, sieve plate frame 38 is formed, the cross section of feed back vertebra bucket 33 be two relative humanoid, two relative humanoid centres are the 3rd ventilation hole 42, the external diameter of sieve plate frame 38 is corresponding with the internal diameter of rotary barrel 8, sieve plate frame 38 is fixedlyed connected with rotary barrel 8, sieve plate frame 38 is provided with cavity groove 44, feed back vertebra bucket 33, mill tail sheet plate 34 is positioned at cavity groove 44, feed back vertebra bucket 33 is positioned at the middle part of mill tail sheet plate 34 and is mutually permanently connected, and mill tail sheet plate 34 is provided with finished product comb seam 45; Mill tail discharging grate plate 35 is provided with the seam 46 of combing, and mill tail discharging grate plate 35 is positioned at mill tail sheet plate 34 outsides, and mill tail discharging grate plate 35 is fixedlyed connected with sieve plate frame 38 by screw rod 36; Be provided with backward channel 31 between feed back vertebra bucket 33 and the mill tail discharging grate plate 35, feed back vertebra bucket 33 is provided with finished product passage 37 with sieve plate frame 38.
The feed back vertebra bucket 33 of described finished product control device 5 is 1, and mill tail sheet plate 34 is a 16-36 spare, and sieve plate frame 38 is a 16-36 spare, and finished product comb seam 45 seams on the mill tail sheet plate 34 are wide to be 2.0mm; Mill tail discharging grate plate 35 is a 16-36 spare, and the seam of the comb seam 46 on the mill tail discharging grate plate 35 is wide to be 6.0mm; The middle part of 16-36 spare sieve plate frame 38 surrounds the 4th ventilation hole 43, and the middle part of 16-36 spare mill tail discharging grate plate 35 surrounds second ventilation hole, 32, the second ventilation holes 32, the 3rd ventilation hole 42, the 4th ventilation hole 43 and communicates.
The structure of slag tuber grinder improves the mill efficiency and the quality of grinding machine, save energy.The present invention compares the output raising more than 20% with the stream grinding machine of opening of same size, and power consumption reduces more than 30%.
As shown in figure 16, the deironing system comprises 2 settling pockets, 1 cover centrifugal classifier, and the steel-making slag powder that the slag tuber grinder is discharged enters first settling pocket successively, second settling pocket, and centrifugal classifier carries out deironing, gets iron powder material and slag breeze.
Embodiment 2:
As shown in Figure 1, production line of high efficiency energy saving steel slag breeze, magneticchuck, jaw crusher, the first iron electromagnet tramp iron separator, impact crusher, second electric magnetic iron remover, column mill, the 3rd electric magnetic iron remover, rod mill, the 4th electric magnetic iron remover, slag tuber grinder, deironing system constitute successively for it; The deironing first time is carried out by magneticchuck in the slag of coming out of the stove cooling back, and slag carries out the fragmentation first time by jaw crusher after the deironing first time; Slag after the fragmentation for the first time carries out the deironing second time by the first iron electromagnet tramp iron separator, and slag carries out the fragmentation second time by impact crusher after the deironing second time; Slag after the fragmentation for the second time carries out deironing for the third time by the second iron electromagnet tramp iron separator, and slag is undertaken broken for the third time after deironing for the third time by column mill; Slag after the fragmentation carries out the 4th deironing by the three-iron electric magnetic iron remover for the third time, and slag carries out the 4th fragmentation by rod mill after the 4th deironing; Slag after the 4th fragmentation carries out the 5th deironing by the 4th iron electromagnet tramp iron separator, and slag carries out grinding by the slag tuber grinder after the 5th deironing; Steel-making slag powder behind the grinding is carried out the 6th deironing by the deironing system and is got slag breeze (product).
The bulk slag is after the magneticchuck deironing first time, the bulk metal iron that is not wrapping in the slag piece is removed, iron-holder is reduced to 6% by initial 13%, and the slag piece enters the particle that jaw crusher is broken into particle diameter 30mm, enters following each road deironing and crushing process successively.After secondary breaking, the slag particle diameter is reduced to 5mm, and after the tertiary crushing, particle diameter is reduced to 3mm, and after four fragmentations, particle diameter is reduced to 1mm; After 5 deironing of slag experience, iron-holder reduces to 1.2% simultaneously.Send in the slag tuber grinder grinding to specific surface area 450m with being about to slag after the fragmentation 2More than/the kg, will go out to grind steel-making slag powder again, and make metal Ferrum content reduce to 0.6%, get the slag breeze finished product, production comprehensive energy consumption: 38kwh/t with the deironing of deironing system.
The structure of slag tuber grinder is identical with embodiment 1.
As shown in figure 17, the deironing system comprises that 1 overlaps electromagnetism equipment for removing ferric ion and 1 cover O-SEPA high-efficient powder concentrator, and the steel-making slag powder that the slag tuber grinder is discharged enters 1 cover electromagnetism equipment for removing ferric ion successively, and 1 cover O-SEPA high-efficient powder concentrator carries out deironing, gets iron powder material and slag breeze.
Embodiment 3: substantially the same manner as Example 1, difference only is: as shown in figure 18, the deironing system comprises 1 settling pocket and 1 cover electromagnetism equipment for removing ferric ion, and the steel-making slag powder that the slag tuber grinder is discharged enters settling pocket successively, the electromagnetism equipment for removing ferric ion carries out deironing, gets iron powder material and slag breeze.
Embodiment 4: substantially the same manner as Example 1, difference only is: as shown in figure 19, the deironing system comprises 1 settling pocket, 1 cover electromagnetism equipment for removing ferric ion and 1 cover centrifugal classifier, the steel-making slag powder that the slag tuber grinder is discharged enters 1 settling pocket successively, 1 cover electromagnetism equipment for removing ferric ion, 1 cover centrifugal classifier carries out deironing, gets iron powder material and slag breeze.

Claims (10)

1. production line of high efficiency energy saving steel slag breeze, it is characterized in that: it is made of magneticchuck, jaw crusher, the first iron electromagnet tramp iron separator, impact crusher, second electric magnetic iron remover, column mill, the 3rd electric magnetic iron remover, rod mill, the 4th electric magnetic iron remover, slag tuber grinder, deironing system successively; The deironing first time is carried out by magneticchuck in the slag of coming out of the stove cooling back, and slag carries out the fragmentation first time by jaw crusher after the deironing first time; Slag after the fragmentation for the first time carries out the deironing second time by the first iron electromagnet tramp iron separator, and slag carries out the fragmentation second time by impact crusher after the deironing second time; Slag after the fragmentation for the second time carries out deironing for the third time by the second iron electromagnet tramp iron separator, and slag is undertaken broken for the third time after deironing for the third time by column mill; Slag after the fragmentation carries out the 4th deironing by the three-iron electric magnetic iron remover for the third time, and slag carries out the 4th fragmentation by rod mill after the 4th deironing; Slag after the 4th fragmentation carries out the 5th deironing by the 4th iron electromagnet tramp iron separator, and slag carries out grinding by the slag tuber grinder after the 5th deironing; Steel-making slag powder behind the grinding is carried out the 6th deironing by the deironing system and is got slag breeze.
2. production line of high efficiency energy saving steel slag breeze according to claim 1, it is characterized in that: the slag tuber grinder, it comprises rotary barrel (8), front-end bearing pedestal (7), rear bearing block (10), the front end of rotary barrel (8) is connected with front-end bearing pedestal (7) by bearing, the tail end of rotary barrel (8) is connected with rear bearing block (10) by bearing, and rotary barrel (8) is provided with opening for feed (1), discharge port (6); It is characterized in that: rotary barrel (8) internal fixing has 1-3 powder selection device,
Described powder selection device comprises branch hopper (11), trommel screen (19), wheel band (25), charging grate plate (26), air-distributing device, discharging grate plate (22), divide hopper (11) middle part to be provided with first ventilation hole (17), divide the interlaced material bin that advances (14) that is provided with in the hopper (11), return material bin (15), the outer side wall that the material bin that advances (14) of branch hopper (11) is located is provided with the material that advances and enters hole (13), the back plate that the material bin that advances (14) of branch hopper (11) is located is provided with the material outlet that advances (12), and the material that advances enters hole (13), the material outlet (12) that advances communicates with the material bin that advances (14) respectively; Divide the outer side wall that material bin (15) locates of returning of hopper (11) to be provided with and to return material and enter hole (16), divide the header board that material bin (15) locates of returning of hopper (11) to be provided with and to return material outlet (18), return material enter hole (16), return material outlet (18) respectively with return material bin (15) and communicate; Trommel screen (19) embayment knife-edge, in the trommel screen (19) is cavity, the tulwar point of trommel screen (19) is a closed, be opening at the bottom of the tulwar of trommel screen (19), big or small corresponding on size at the bottom of the tulwar of trommel screen (19) and the outer side wall that the material bin that advances (14) that divides hopper (11) is located also is mutually permanently connected, the material bin (14) that advances enters hole (13) with the cavity of trommel screen (19) by the material that advances and is communicated with, wall is provided with sieve aperture (20) around the trommel screen (19), and sieve aperture (20) communicates with the cavity of trommel screen (19); Fixedly connected with the tulwar point of trommel screen (19) in the inboard of wheel band (25), the external diameter of wheel band (25) is corresponding with the internal diameter of rotary barrel (8), and wheel band (25) is fixedlyed connected with rotary barrel (8); Air-distributing device is positioned at the inboard of discharging grate plate (22), air-distributing device mainly is made of air distribution plate (39), eddy current whirlwind lifting bar (21), eddy current whirlwind lifting bar (21) is that arc is bucket-shaped, air distribution plate (39) is fan-shaped, be evenly distributed with circular hole (40) on the air distribution plate (39), eddy current whirlwind lifting bar (21) is welded on the air distribution plate (39), and air distribution plate (39) is provided with bolt hole (41); Discharging grate plate (22) is positioned at a side of the material outlet that advances (12), charging grate plate (26) is positioned at a side of returning material outlet (18), discharging grate plate (22), the charging grate plate has screw on (26), discharging grate plate (22), air distribution plate (39), charging grate plate (26) passes screw on the discharging grate plate (22) by bolt (24), bolt hole (41) on the air distribution plate (39), screw on the charging grate plate (26) is fixedly connected, charging grate plate (26) is provided with charging comb seam, discharging grate plate (22) is provided with discharging comb seam (23), and charging grate plate (26) is towards the front end of rotary barrel (8).
3. according to claim 2 production line of high efficiency energy saving steel slag breeze, it is characterized in that: the thickness of the air distribution plate of described air-distributing device (39) is (4) mm, the area of circular hole (40) is the 20%-35% of the area of air distribution plate (39), the diameter that is positioned at the hole on the air distribution plate between rotary barrel (8) first storehouses and second storehouse is 4-8mm, and the diameter in hole is 1.0-3.5mm on the air distribution plate between second storehouse and the 3rd storehouse; The height of eddy current whirlwind lifting bar (21) is 10-15mm, and the thickness of eddy current whirlwind lifting bar (21) is 3-4mm.
4. production line of high efficiency energy saving steel slag breeze according to claim 2, it is characterized in that: described powder selection device is 2, first powder selection device (2) is positioned at the front end 2000-3000mm place of rotary barrel (8), and charging grate plate (26) is a 10-20 spare, and the seam of charging comb seam is wide to be 14-18mm; Trommel screen (19) is a 8-10 spare, the Kong Kuanwei 5-9mm of the sieve aperture (20) on the trommel screen (19); Dividing hopper (11) is 1, and dividing hopper (11) diameter is 800-1100mm; Discharging grate plate (22) is a 10-20 spare, and the seam of the discharging comb seam (23) on the discharging grate plate (22) is wide to be 6-10mm; Eddy current whirlwind lifting bar (21) is a 8-11 spare;
Second powder selection device (3) is positioned at the front end 3500-5500mm place of rotary barrel (8), and charging grate plate (26) is a 20-24 spare, and the seam of charging comb seam is wide to be 7-10mm; Trommel screen (19) is a 10-15 spare, the Kong Kuanwei 1.5-3.5mm of the sieve aperture (20) on the trommel screen (19); Dividing hopper (11) is 1, and dividing hopper (11) diameter is 800-1100mm; Discharging grate plate (22) is a 20-24 spare, and the seam of the discharging comb seam (23) on the discharging grate plate (22) is wide to be 1.5-6.0mm; Eddy current whirlwind lifting bar is a 8-11 spare.
5. production line of high efficiency energy saving steel slag breeze according to claim 2, it is characterized in that: be provided with raising material unit (4) in the little forging storehouse in the described rotary barrel (8) after last powder selection device, raising material unit (4) is mainly by base (29), material delivering plate (28) two portions constitute, for crooked arcual door shape cast member is axially arranged along rotary barrel (8), the crooked radian (r) of material delivering plate (28) is the 30-45 degree, material delivering plate (28) is provided with lifting hole (27), base (29) is provided with fixed orifices (30), and base (29) passes fixed orifices (30) by screw fixedlys connected with rotary barrel (8); Every circle is installed four raising material units (4) in the rotary barrel (8), and adjacent two arcs are towards on the contrary, in rotary barrel (8) axially in the shape of a spiral line arrange.
6. production line of high efficiency energy saving steel slag breeze according to claim 2, it is characterized in that: the discharge port (6) in the described rotary barrel (8) is located the inboard and is provided with finished product control device (5), finished product control device (5) is mainly by feed back vertebra bucket (33), mill tail sheet plate (34), mill tail discharging grate plate (35), sieve plate frame (38) is formed, the cross section of feed back vertebra bucket (33) be two relative humanoid, two relative humanoid centres are the 3rd ventilation hole (42), the external diameter of sieve plate frame (38) is corresponding with the internal diameter of rotary barrel (8), sieve plate frame (38) is fixedlyed connected with rotary barrel (8), sieve plate frame (38) is provided with cavity groove (44), feed back vertebra bucket (33), mill tail sheet plate (34) is positioned at cavity groove (44), feed back vertebra bucket (33) is positioned at the middle part of mill tail sheet plate (34) and is mutually permanently connected, and mill tail sheet plate (34) is provided with finished product comb seam (45); Mill tail discharging grate plate (35) is provided with the seam (46) of combing, and mill tail discharging grate plate (35) is positioned at mill tail sheet plate (34) outside, and mill tail discharging grate plate (35) is fixedlyed connected with sieve plate frame (38) by screw rod (36); Be provided with backward channel (31) between feed back vertebra bucket (33) and the mill tail discharging grate plate (35), feed back vertebra bucket (33) is provided with finished product passage (37) with sieve plate frame (38).
7. production line of high efficiency energy saving steel slag breeze according to claim 1, it is characterized in that: the deironing system comprises 1-2 settling pocket, 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator, the steel-making slag powder that the slag tuber grinder is discharged enters settling pocket successively, centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator carry out deironing, get iron powder material and slag breeze.
8. production line of high efficiency energy saving steel slag breeze according to claim 1, it is characterized in that: the deironing system comprises 1 cover electromagnetism equipment for removing ferric ion and 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SPA high-efficient powder concentrator, the steel-making slag powder that the slag tuber grinder is discharged enters the electromagnetism equipment for removing ferric ion successively, centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator carry out deironing, get iron powder material and slag breeze.
9. production line of high efficiency energy saving steel slag breeze according to claim 1, it is characterized in that: the deironing system comprises 1 settling pocket and 1 cover electromagnetism equipment for removing ferric ion, the steel-making slag powder that the slag tuber grinder is discharged enters settling pocket successively, and the electromagnetism equipment for removing ferric ion carries out deironing, gets iron powder material and slag breeze.
10. production line of high efficiency energy saving steel slag breeze according to claim 1, it is characterized in that: the deironing system comprises 1 settling pocket, 1 cover electromagnetism equipment for removing ferric ion and 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator, the steel-making slag powder that the slag tuber grinder is discharged enters 1 settling pocket successively, 1 cover electromagnetism equipment for removing ferric ion, 1 cover centrifugal classifier or cyclone type cyclone cluster or O-SEPA high-efficient powder concentrator carry out deironing, get iron powder material and slag breeze.
CNB2005100190261A 2005-06-30 2005-06-30 Production line of high efficiency energy saving steel slag breeze Expired - Fee Related CN100404695C (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNB2005100190261A CN100404695C (en) 2005-06-30 2005-06-30 Production line of high efficiency energy saving steel slag breeze

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNB2005100190261A CN100404695C (en) 2005-06-30 2005-06-30 Production line of high efficiency energy saving steel slag breeze

Publications (2)

Publication Number Publication Date
CN1718748A true CN1718748A (en) 2006-01-11
CN100404695C CN100404695C (en) 2008-07-23

Family

ID=35930696

Family Applications (1)

Application Number Title Priority Date Filing Date
CNB2005100190261A Expired - Fee Related CN100404695C (en) 2005-06-30 2005-06-30 Production line of high efficiency energy saving steel slag breeze

Country Status (1)

Country Link
CN (1) CN100404695C (en)

Cited By (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102069028A (en) * 2010-04-22 2011-05-25 李玉庚 New process for crushing and pre-grinding steel slag
CN104841554A (en) * 2015-06-04 2015-08-19 山东省建筑材料工业设计研究院 Special RO-phase magnetic separator for steel slag micro powder
CN110711762A (en) * 2019-10-23 2020-01-21 迁安威盛固废环保实业有限公司 Staged grinding method for steel slag-industrial byproduct gypsum composite powder
CN110721807A (en) * 2019-10-21 2020-01-24 内蒙古科技大学 High-efficient dry-type wind magnet separator
CN110788114A (en) * 2019-10-23 2020-02-14 迁安威盛固废环保实业有限公司 Real-time circulating iron removal and grinding method for steel slag
CN113019652A (en) * 2021-03-05 2021-06-25 桐乡磊石微粉有限公司 Production equipment and production method of mineral powder for glass fiber production

Family Cites Families (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
US4666591A (en) * 1984-01-10 1987-05-19 Kawasaki Jukogyo Kabushiki Kaisha Slag disposal method
CN1089191A (en) * 1993-04-12 1994-07-13 鞍山钢铁公司 Magnetic separating, processing and recovery system for steel slag
CN2326334Y (en) * 1998-03-11 1999-06-30 张洪彬 Arc double-grate hole-screening type partition device for barn
CN1189413C (en) * 2002-06-19 2005-02-16 北京高路通科技发展有限公司 Process for treating steel slag
CN1560283A (en) * 2004-02-26 2005-01-05 莱芜钢铁集团有限公司 Technology for using steel dregs

Cited By (8)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102069028A (en) * 2010-04-22 2011-05-25 李玉庚 New process for crushing and pre-grinding steel slag
CN104841554A (en) * 2015-06-04 2015-08-19 山东省建筑材料工业设计研究院 Special RO-phase magnetic separator for steel slag micro powder
CN104841554B (en) * 2015-06-04 2017-03-01 山东省建筑材料工业设计研究院 A kind of special RO phase magnetic separator of slag micro powder
CN110721807A (en) * 2019-10-21 2020-01-24 内蒙古科技大学 High-efficient dry-type wind magnet separator
CN110721807B (en) * 2019-10-21 2021-08-03 内蒙古科技大学 High-efficient dry-type wind magnet separator
CN110711762A (en) * 2019-10-23 2020-01-21 迁安威盛固废环保实业有限公司 Staged grinding method for steel slag-industrial byproduct gypsum composite powder
CN110788114A (en) * 2019-10-23 2020-02-14 迁安威盛固废环保实业有限公司 Real-time circulating iron removal and grinding method for steel slag
CN113019652A (en) * 2021-03-05 2021-06-25 桐乡磊石微粉有限公司 Production equipment and production method of mineral powder for glass fiber production

Also Published As

Publication number Publication date
CN100404695C (en) 2008-07-23

Similar Documents

Publication Publication Date Title
CN104446022B (en) A kind of prepared from steel slag is for the method for Steel-slag Sand, activation ground-slag and RO phase
CN209238427U (en) A kind of building waste separation system
CN2882782Y (en) Semi-wet pulverizer for life refuse
CN1718748A (en) Production line of high efficiency energy saving steel slag breeze
CN103045777B (en) Dry processing technique for iron-containing steel slag
CN205269784U (en) High -efficient inverter type ore crushing device
CN105750205A (en) Construction waste throwing and heavy separation crushing device and method
CN211679274U (en) High-efficient generalized type rubbish recycle system
CN202781493U (en) Smashing and sorting unit for discarded tires
CN212576355U (en) Multistage-separation ore screening machine
CN102029223A (en) Process for magnetically separating and recovering iron and carbon from zinc volatilization kiln slag through dry method
CN205199724U (en) Separation and recovery conveying equipment for steel wires in rubber powder particles
CN113634343A (en) Special crusher for bauxite raw ore
CN1718746A (en) Production technology of high quality steel slag breeze
CN105149044A (en) Household garbage crusher
CN103264043A (en) Construction waste sorting machine and classification system thereof
CN104002398B (en) A kind of reclaimed rubber rubber powder process units
CN116748110A (en) Civil engineering construction waste material processing apparatus
CN103977874B (en) A kind of production equipment of rubber rubber powder
CN116532368A (en) Separation method of high-purity brick concrete in brick concrete mixture
CN102442704B (en) Method for extracting magnetic materials and carbon from pulverized coal ash
CN201272745Y (en) Slag cement base production apparatus
CN106423515A (en) Movable crushing station
CN102874802B (en) Impurity removal method and apparatus of graphite used as raw material for boron carbide smelting
CN111589576A (en) Steel slag crushing, grading, sorting and continuous processing device and method

Legal Events

Date Code Title Description
C06 Publication
PB01 Publication
C10 Entry into substantive examination
SE01 Entry into force of request for substantive examination
C14 Grant of patent or utility model
GR01 Patent grant
C17 Cessation of patent right
CF01 Termination of patent right due to non-payment of annual fee

Granted publication date: 20080723

Termination date: 20110630