CN107014215B - It is sintered mining slot type liquid sealing blast cooling device and method - Google Patents
It is sintered mining slot type liquid sealing blast cooling device and method Download PDFInfo
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- CN107014215B CN107014215B CN201610059201.8A CN201610059201A CN107014215B CN 107014215 B CN107014215 B CN 107014215B CN 201610059201 A CN201610059201 A CN 201610059201A CN 107014215 B CN107014215 B CN 107014215B
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F27—FURNACES; KILNS; OVENS; RETORTS
- F27D—DETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
- F27D15/00—Handling or treating discharged material; Supports or receiving chambers therefor
- F27D15/02—Cooling
- F27D15/0206—Cooling with means to convey the charge
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Abstract
It is sintered mining slot type liquid sealing blast cooling device (1), which includes: 1) ring groove shape accumulation cabinet, and wherein the cabinet includes the whole ring shape pallet (4) of internal ring wall (2), external annulus (3) and bottom;2) the wheel rail drive device (5) of cabinet;3) the cyclic annular hood (8) on cabinet top;4) at least one wind pipe (21,22) being connect with above-mentioned hood (8) top;5) closed annular inlet air plenum (11), 6) sealing device (14) make to form sealing function between sealing device (14) and the inner ring box body wall (2) and outer ring box body wall (3) of the ring groove shape of rotation accumulation cabinet;7) multiple air blowers (9), 8) be installed on one or more cutting devices (6) in the outside of the discharging section (1a) of cooling device (1), 9) it is located within lower box space but multiple lower part air intake equipments (K) in the top of scraper.The cooling device (1) manufacturing cost, reduce environmental pollution, in terms of UTILIZATION OF VESIDUAL HEAT IN have advantage outstanding.
Description
Technical field
The present invention relates to mining slot type liquid sealing blast cooling device and cooling means is sintered, belong to ironmaking field and ring
Guarantor field.
Background technique
During modern sintering process, " cooling " is more crucial one of process.Sinter is in the roasting by sintering machine
After burning, high temperature finished product mine has been formed, it is how cooling to its progress protectiveness under the premise of not influencing its quality and yield rate,
It can be sent into finished product ore storage bin through belt feeder, while the sensible heat energy perfection entrained by it being recycled, be all the time
The problem of skilled worker constantly studies in the industry.Since the 1960s, the cooling technique of sinter is rapidly developed,
It is broadly divided into cooling belt, ring type cooling and the cooling three categories of disc type.In the market competition in later period, belt cooling technology is washed in a pan
It eliminates, remaining ring type is cooling respectively to have its advantage and disadvantage with disc type cooling technology.But it is comprehensively compared, the cold UTILIZATION OF VESIDUAL HEAT IN colder than ring of disk
Rate is more preferable (all sintering mine sensible heats are recycled), therefore disk cold is very widely used in overseas market, and this patent is also
It is illustrated around disk cold technology.
Disk cold technology develops since the seventies, most starts cold for transverse type disk, i.e., cooling wind is out of disk cold
Circumferential outer ring flowing, is horizontally through the bed of material to be cooled and exchanges heat with it, and the cooling wind after having exchanged heat is directly outer to drain into atmosphere.It does so
Both uneconomical or not environmentally, optimize by continuous research for many years, newest disk cold technology is Mitsubishi Hitachi in
It contains " air-draft-type longitudinal direction disk refrigeration technique " that steel proposes.This technology uses exhausting, and cooling wind is pumped into material bottom to be cooled from atmosphere
Portion, then up longitudinally through the bed of material, finally from bed of material top, blowout enters subsequent handling.The program and the scheme phase most started
Than having had very big optimization and progress, having described in detail below for the program.
JP2008232519A (Hitachi, Mitsubishi and middle Sheng Gangtie, call D1 in the following text) discloses air-draft-type longitudinal direction disk refrigeration technique, referring to
Fig. 1 therein: heat sinter enters feed chute from sintering machine tail clan, the stock column of certain altitude is piled into chute, in this way
On the one hand it is to play the role of uniform blanking, is on the other hand to play material envelope to prevent feed inlet string wind action.Mineral aggregate continue to
It is lower to enter in disk cold cabinet after hood, push the stock column at certain altitude.At the same time, by the negative pressure shadow of exhaust fan
It rings, the air near disk cold can be inhaled into stock column via blinds air-intake device, passed through stock column from the bottom up and exchanged heat therewith, change
Air after heat is pierced by from stock column top surface into air outlet, is sent to gravitational precipitator and waste heat boiler, finally by taking out
By outlet after blower.Being formed cross section at disk cold lower tray by air sintering feed after cooling is 37 degree of stocking angle triangles
The annular accumulation area of shape, when being turned to discharge zone, sintering feed is scraped by scraper plate device, and completion cooling process enters next
A process links.
Hitachi, Mitsubishi and it is middle contain steel " air-draft-type longitudinal direction disk refrigeration technique " although having marked improvement compared with routine techniques, but still
So there is following five point defect:
1) device whole height requires excessively high: since " air-draft-type longitudinal direction disk refrigeration technique " takes exhausting mode, so necessary
Material envelope, that is, the stock column accumulated in feed chute in Fig. 1 of D1 are set in gating location, material envelope height is with disk cold case
1.2~1.5 times of internal stock column height are standard.The height of whole series of discs device for cooling is thus virtually increased, is pacified in construction
When dress or just needs to rise whole sintering machine absolute altitude or just need down to dig the civil engineering plane of disk cold.Regardless of choosing
Which kind of mode is selected, a high cost of investment can be all caused, it is very not cost-effective in economic indicator;
2) distinguished and admirable open circuit circulation causes utilization rate of waste heat low and pollutes environment: due to the wind of " air-draft-type longitudinal direction disk refrigeration technique "
Stream is open circuit circulation, and the direct outlet of air come out from waste heat boiler does not recycle, and causes also more than 100 degree in this way
Air sensible is wasted, and contains a large amount of little particle dust in the air of outlet, causes a degree of particle for atmosphere
Object pollution;
3) material serious wear at feed inlet: since " air-draft-type longitudinal direction disk refrigeration technique " setting material seals at feed chute,
Therefore one section of frictional distance is had between charge level upper layer in material envelope lower part and disk cold cabinet.Sintering feed is expected in high temperature and top at this time
Under the double-deck bad working environments that column squeezes, it is easy to dusting when being rubbed and becomes broken, to reduce the yield rate of sintering machine;
4) environmental pollution is more serious: the negative pressure exhausting technology taken due to " air-draft-type longitudinal direction disk refrigeration technique ", thus it
Not set sealing closure assembly at lower box pallet.In this way when sinter is scraped by scraper device, it be easy to cause a large amount of subtle
Particle and dust splash.And once exhaust fan breaks down maintenance, the material dust pushed around disk cold can all enter big
Gas, causes the operating environment by machine and its bad influence;
5) the waste heat boiler thermal efficiency is not up to highest: since " air-draft-type longitudinal direction disk refrigeration technique " be not the air for being pierced by the bed of material
It is precisely classified according to wind-warm syndrome, but is all mixed into waste heat boiler, it, will certainly in this way when low-temperature zone outlet wind-warm syndrome is too low
The air themperature into waste heat boiler is dragged down, to reduce the thermal efficiency value of waste heat boiler.
For above-mentioned five strip defect, we carry out the technology and device technique of " air-draft-type longitudinal direction disk refrigeration technique "
Analyse in depth, by repeatedly groping and improve and optimizate, have developed it is a set of can not increase cooler height, distinguished and admirable closed cycle,
The patent formula technology that environmental pollution is substantially alleviated by sinter high yield rate, machine, makes every effort to effectively solve of the existing technology
Problem contributes for sintering process energy conservation and environmental protection index.
Summary of the invention
According to the first of the application embodiment, it is cooling to provide a kind of mining (annular) slot type liquid sealing air blast of sintering
Device, abbreviation slot cold or ring type cooling device, the device include:
1) accumulate the sinter from sintering machine from top, while the ring of peripheral part annular discharge port discharge from below
Flute profile accumulates cabinet (that is, flute profile cabinet of whole ring shape), and wherein the cabinet includes the whole ring of internal ring wall, external annulus and bottom
Shape pallet;
2) for driving above-mentioned ring groove shape accumulation cabinet to make the wheel rail drive device of rotary motion in the horizontal direction;
3) top be arranged on above-mentioned ring groove shape accumulation cabinet, the above-mentioned accumulation cabinet of covering cyclic annular hood (or
Make shield);
4) at least one wind pipe (preferably, at least two wind pipe, such as 1-10 being connect with above-mentioned hood top
It is a, such as 2-6 or 2-4);Preferably, have and connect at the top of at least two wind pipes and above-mentioned hood, wherein described in extremely
Few two wind pipes include the first air outlet pipeline close to cabinet unloading part and the second air outlet far from cabinet unloading part
Pipeline;
5) in sintering feed and adding seal closure along the periphery of cabinet in slot type liquid sealing blast cooling device lower part
Accumulation outer ring is formed by the closed annular inlet air plenum of a circle,
6) sealing device being equipped in inlet air plenum upper and lower part (such as in bottom of pallet), makes sealing device and turns
Sealing function is formed between the inner ring box body wall and outer ring box body wall of dynamic ring groove shape accumulation cabinet;
7) multiple air blowers, their air outlet are connected to closed circular air inlet by corresponding blast pipe respectively
Room;With
8) the one or more cutting devices being installed on the outside of (ring) of the discharging section of (annular) cooling device, the latter's quilt
Seal closure is surrounded in annular closed inlet air plenum,
9) be located at lower box space within but multiple lower part air intake equipments in the top of the scraper of cutting device;It is excellent
Choosing, the air intake equipment of the lower part are air inlet beam, shutter or blast pipe;
Wherein: the scraper of cutting device does not protrude into the annular discharge port in bottom (whole circle) of cabinet, that is, cutting device is scraped
Knife cabinet cross-sectional direction protrude into depth using be no more than cooling device external annulus inner wall as standard, or, scraper is set
Standby scraper protrudes into the annular discharge port in bottom (whole circle) of cabinet, it is preferred that spatula end is close to internal ring wall.
The sealing function of inlet air plenum depends not only upon the sealing device of upper and lower part, but also makees dependent on material sealing
With that is, material seals.Material package includes (sinter) material envelope in case intracorporal (sinter) material envelope and feeding chute (or blowpit).
Generally, wheel rail drive device includes idler wheel and track.Wherein idler wheel includes driving wheel and optional driven wheel.Driving
Wheel provides power or driving force by motor.Rail support is on idler wheel.The track can be fixed on the bottom (bottom of such as pallet of cabinet
Portion), side or top (suspension type).
The both ends of its middle and lower part air intake equipment are respectively set or are fixed on internal ring wall and external annulus, air intake equipment (such as
Air inlet beam, shutter or blast pipe) air inlet open end lead to annular closed inlet air plenum.
It is preferred that being equipped with wheel rail drive device (or system) in the bottom of pallet.Wheel rail drive device includes: that (support is driven
It is dynamic) idler wheel, it is mounted at least two or at least a pair of (annular or whole ring shape) guide rail of the bottom of pallet, motor, shaft coupling
Device, retarder, shaft, support.
In the discharging section of cooling device, feed chute is installed above ring groove shape accumulation cabinet.It is slipped in charging
The downstream of slot is equipped with material scraper plain film.
The cooling device further include: the slot cold overhead guard being installed at the top of slot cold.It is first by hoisting port during installation
It lifts to some position, then is moved to production designated position by overhead guard rolling wheel for mounting, (i.e. in cabinet after putting into production
When making rotary motion) slot cold overhead guard no longer moves.Slot cold overhead guard is used by the overhead guard installation being installed on bracket or pillar
Idler wheel supports.
Preferably, the first air outlet pipeline is connected to the waste heat boiler of generating equipment, and the second air outlet pipeline is with can
Switching mode is directly connected to the air inlet of air blower via the waste heat boiler of pipeline connection to generating equipment or via bypass.More
It is preferred that;Gravitational dust collection equipment is set in the gas circuit upstream of waste heat boiler, that is, the first air outlet pipeline and/or the second air outlet pipe
Road is connected to the waste heat boiler of generating equipment via gravitational dust collection equipment.It is preferred that;It is set gradually in the gas circuit downstream of waste heat boiler
Bag filter and optional economizer.The air outlet of bag filter or economizer is connected to the air inlet of each air blower
Mouthful.In this way, realizing distinguished and admirable closed cycle.Since invention takes enclosed air blowing technique, therefore may be implemented distinguished and admirable closed circuit
Circulation.This technology is additionally arranged bag filter and economizer (can optionally open or close) at former process rear portion, remaining by going out
Air after heat boiler recycles once again after fine grained dedusting to be blown into circular air inlet room and serves as cooling wind.Realize whole nothing
Sensible heat waste is discharged without particulate matter atmosphere.
Preferably, the upstream of discharging section is arranged in one or more cutting devices, and feed chute is located at discharge zone
The downstream of section.In this way, addition is from the high temperature iron ore materials under sintering machine tail in recess or settlement section after discharging.It
It is struck off afterwards using material scraper plain film.Scraper protrudes into the bottom of box from (annular) discharge port of the bottom of cooling device cabinet.
Preferably, it is sealed using buried material.Since exhausting is changed to air blast by the present invention, therefore prevent the main positions of string wind
Material layer lower part has just been converted to by bed of material top.Feeding chute and electromagnetic vibration feeder are set at the discharge port of discharging section, it is excellent
Choosing, feeding chute are integrally embedded to ground (following).
Preferably, multiple pressure release ventilation devices, such as bypass string wind pressure relief device are equipped in the outside of external annulus.
One end (such as lower end) of pressure release ventilation device (such as bypass string wind pressure relief device) is connected to closed annular inlet air plenum, the other end
(such as upper end) is connected to cabinet external environment (that is, cabinet atmosphere outside) or is connected within cabinet upper space
Air intake equipment (such as the equipment such as air inlet beam, shutter or blast pipe).It is preferred that in the upper space of cabinet be equipped with respectively with it is more
Multiple (top) air intake equipments (such as top of the upper end connection of a pressure release ventilation device (such as bypass string wind pressure relief device)
The equipment such as air inlet beam, shutter or blast pipe), such as multiple tops enter the wind beam.It is preferred that bypass string wind pressure relief device includes side
Ventilation duct, rotation axis, plate of becalming, idler wheel and horizontal annular but (referred to as different in the track of discharging section oriented lower recess formula deformation
Shape track).It is preferred that the air inlet beam (K) or blast pipe (K) of lower part, and/or, the air inlet beam or blast pipe on top, have it is round,
The cross section of ellipse, annular or polygon (such as triangle or quadrangle or pentagon).It is preferred that the air inlet beam in lower part
(K) or on two or more sides of the air inlet beam or blast pipe on blast pipe (K) and/or top it is provided with side (inclination) through-hole
Be provided on bottom side to lower through-hole.That is, side through-hole tilts down, and under being directed toward to lower through-hole.These through-holes are ventholes.
It is preferred that the both ends for the air intake equipment being arranged in cabinet upper space are separately positioned on internal ring wall and external annulus.
Generally, air intake equipment can be horizontal or be obliquely installed.Air intake equipment (such as the equipment such as air inlet beam, shutter or blast pipe) into
Wind open end is connected to the upper end of pressure release ventilation device (such as bypass string wind pressure relief device).
Under usual state, the idler wheel of bypass string wind pressure relief device is walking in a horizontal state, is becalmed close between plate and bypass air hose
It cannot be introduced into conjunction with air.It when via discharge region, is influenced due to being recessed downwards by special-shaped track, idler wheel is walked downwards together
When pull plate of becalming, thus causing one end of plate of becalming using rotation axis is center of circle rotation to separate with bypass air hose,
I.e. in the open state, the indoor air of circular air inlet can enter bypass air hose hence into positioned at the sealing air blast of slot type liquid at this time
In the air inlet beam N on the stock column top of cooling device.The advantage of doing so is that pressure release is formd in discharge region, so that in the region
Air pressure it is big not as remaining region, to alleviate a possibility that air seals outer string via buried material, change an angle
It sees, thus can provide help to reduce buried material envelope height.
It is preferred that setting up multiple bracket or pillar respectively in the two sides of the ring groove shape accumulation cabinet of cooling device.Cold
But the top two sides of the ring groove shape accumulation cabinet of device are equipped with limit gear wheel.Wherein limit gear wheel is fixed on bracket or pillar
On.
The application also provides the sinter cooling means using the mining slot type liquid sealing blast cooling device of above-mentioned sintering, should
Method include: 1) cooling device do (whole circle) rotary motion under the driving of wheel rail drive device, 2) in unloading part by means of
Cutting device scrapes iron ore material (M) from the discharge port of the bottom of cooling device cabinet to carry out discharging and (such as scrape down
Expect chute among), 3) sinter from sintering machine from feed chute be added to ring groove shape accumulation cabinet in (preferably, Zhi Houli
Strike off material with material scraper plain film), 4) from at least one wind pipe (preferably at least two discharge pipe for connecting at the top of hood
Road) discharge hot wind via pipeline to generating equipment waste heat boiler.
It is preferred that step 4) includes following sub-step: 4.1) the hot wind G1 being discharged from the first air outlet pipeline is defeated via pipeline
Send to the waste heat boiler of generating equipment, 4.2) the lower temperature hot wind G2 that is discharged from the second air outlet pipeline, when G2 temperature is enough
When high (that is, the waste heat boiler for being sufficient to generating equipment), via the waste heat boiler of pipeline to generating equipment, or work as G2 temperature
When spending relatively low, the air inlet of the air blower of slot cold is delivered to via bypass.
In the above method, it is preferred that hot wind G1 and/or G2 are respectively via gravitational dust collection equipment except defeated after dust
It send to the waste heat boiler of generating equipment.
It is preferred that the low temperature wind G3 being discharged from waste heat boiler further removes dust by bag filter, then via province
The air inlet of each air blower of slot cold is transported in the case where after the further UTILIZATION OF VESIDUAL HEAT IN of coal device or not via economizer
Mouthful.In this way, realizing distinguished and admirable closed cycle.Since invention takes enclosed air blowing technique, therefore may be implemented distinguished and admirable closed circuit
Circulation.This technology is additionally arranged bag filter and economizer (can optionally open or close) at former process rear portion, remaining by going out
Air after heat boiler recycles once again after fine grained dedusting to be blown into circular air inlet room and serves as cooling wind.Realize whole nothing
Sensible heat waste is discharged without particulate matter atmosphere.
In operation, cabinet is turned round along the revolution circumference (or revolution perimeter) of slot cold.The revolution perimeter of cabinet
(2 π R) is generally 60-350 meters, preferably 70-320 meters, preferably 80-300 meters, preferably 90-280 meters, 120-250 meters more preferable, such as
150-200 meters.
The height of the cabinet of mining slot type liquid sealing blast cooling device is sintered (that is, bottom tray face is to cabinet upper limb
It highly) is 1.5-7.0 meters, it is preferably 2.5-6.5 meters, preferably 3.5-6 meters, 4-5.5 meters more preferable, it is 4.5-5.0 meters more preferable.
Compared to traditional ring cold machine technology and disk cold technology, as shown in Fig. 1-Fig. 9, mainly there are following 5 points of changes:
A1. replace previous exhausting using novel enclosed air blast: present invention eliminates air draft process, replace and take
Annular closed air compartment air blast air inlet technique, in slot type cooler periphery lower part by adding seal closure 11a outside sintering feed is accumulated
Ring forms the closed annular inlet air plenum 11 of a circle, and inlet air plenum is equipped with sealing device 14 above and below, makes its slot cold with rotation
(i.e. slot type liquid seals blast cooling device) forms sealing effect between cabinet internal ring wall 2 and external annulus 3.Air is from air blower 9
Middle blowout enters closed loop shape inlet air plenum 11 after blast pipe 10, and due to being sealed up and down, air can only be from lower box
Annular pulp cutlet and lower part air intake equipment (K) enter bed of material bottom, up walked in the bed of material finally from charge level blow out.
A2. it is sealed using buried material: since exhausting is changed to air blast by the present invention, therefore preventing the main positions of string wind just by expecting
Layer top has been converted to material layer lower part.The present invention takes the mode on the whole embedment ground of feeding chute 15 at discharge port.?
Civil engineering plane is locally digged pit, and feeding chute 15 is embedded to, and will not both have been raised the whole height of entire slot cold in this way, and will not have been increased
Excessive civil engineering is added to dig base cost.
A3. add bypass string wind pressure relief device: in order to further decrease buried material envelope height, reduction construction and installation at
This.The present invention adds bypass string wind pressure relief device 12 in slot cold.Device by bypass air hose 1201, rotation axis 1202, becalm
Plate 1203, idler wheel 1204 and special-shaped track 1205 form.Under usual state, idler wheel 1204 is walking in a horizontal state, becalm plate 1203 with
Air of combining closely between bypass air hose 1201 cannot be introduced into.When via discharge region, due to being unloaded by special-shaped track 1205
Expect influence of the section to lower recess, idler wheel 1204 walks downwards while pullling plate 1203 of becalming, and thus causes plate 1203 of becalming
One end with rotation axis 1202 be that the center of circle rotates to separate with bypass air hose 1201, the air in circular air inlet room 11 at this time
Bypass air hose 1201 can be entered hence into the air inlet beam N on the stock column top of slot cold.The advantage of doing so is that in discharge zone
Domain forms pressure release, so that the air pressure in the region is big not as remaining region, to alleviate air via buried
It outside material envelope a possibility that string, changes an angle and sees, thus can highly provide help to reduce buried material envelope;
A4. it uses distinguished and admirable closed cycle: since invention takes enclosed air blowing technique, therefore may be implemented distinguished and admirable closed circuit
Circulation.This technology is additionally arranged bag filter 19 and economizer 23 (can optionally open or close) at former process rear portion, will
The recycling once again after fine grained dedusting of the air after waste heat boiler is blown into circular air inlet room 11 and serves as cooling wind out.It realizes
Whole process is wasted without sensible heat and is discharged without particulate matter atmosphere.
A5. add multi-element type and take wind apparatus: the present invention is improved on the basis of original exhaust apparatus, is provided with multi-element type
Take wind apparatus, user's difference section air outlet air themperature according to caused by different sinter characteristics is freely adjusted into waste heat
The air quantity of boiler, to guarantee that boiler thermal efficiency maintains a higher range.As shown in Fig. 2, the present invention is at least in slot cold
Close to feed inlet section and an air outlet, respectively the first discharge pipe 21 and second is respectively arranged in two positions far from feed inlet section
Discharge pipe 22.Due to close feed inlet section, therefore the wind-warm syndrome of discharge pipe 21 is guaranteed, and due to far from feed inlet section, outlet air
The wind-warm syndrome of pipe 22 can then change according to many factors such as machine speed, bed depth, permeability of stock column, it is possible to which height is also possible to
It is low.If it is sufficiently high that thermocouple measures 22 wind-warm syndrome of discharge pipe at this time, then system automatically turns on the second regulating valve (butterfly valve) 30, together
When close the first regulating valve (butterfly valve) 29, the air-flow of two discharge pipes is merged into waste heat boiler 28.If thermocouple
22 wind-warm syndrome of discharge pipe measured at this time is inadequate, if with high temperature section it is distinguished and admirable merge will affect the waste heat boiler thermal efficiency, then system from
It is dynamic to close the second regulating valve 30, while opening the first regulating valve 29, then the air-flow in discharge pipe 22 is directly entered drum by bypass
Air inlet is blended into the cooling wind that next circulation is served as in circuit.
Scraper device 6 is installed on the outside of (ring) of (annular) slot cold discharge zone, and it is close by seal closure to be wrapped in annular
It closes in inlet air plenum 11.Scraper cross-sectional direction protrude into depth using be no more than slot cold outer ring inner wall as standard, can basis
Stream situation is along annular direction setting one or more scraper.The device is using multiple bottoms or lower part air inlet beam (K), by wind
Uniformly introduce bed of material bottom.Bottom or lower part air inlet beam are arranged with certain horizontal direction interval.Such as with about 20-200cm,
Such as the interval of 50-150cm.
In this application, " optionally " indicate carry out or without." optional " expression is with or without.
In this application, " annular " generally refer to along pallet it is whole circle or along disc type blast cooling device (1) whole circle,
Unless otherwise indicated.
Advantages of the present invention or advantageous effects
1, compared with the prior art the present invention program, has the advantage that
1) device whole height is of less demanding: since material envelope of the invention is located at material outlet, and taking buried side
Formula design, while bypass pressure relief device being installed in annular closed air compartment, so the whole height to slot cold does not cause
Too big influence, neither will cause the integral raising of sintering machine absolute altitude, will not cause the civil engineering ground of slot cold is integrally lower to dig;
2) distinguished and admirable closed cycle: due to it is of the invention it is distinguished and admirable be closed cycle, the air come out from waste heat boiler is not straight
Outlet is connect, but by being recycled after bag filter final dusting as cooling wind, it is thus that air sensible is complete
It recycles, and particulate matter does not drain into atmosphere outside, is very helpful to environmental index by raising machine;
3) sintering finished rate is high: the forced draft cooling taken due to the present invention, so there is no the tops in original technology
Extrusion friction problem between material envelope and cooling charge level, so the yield rate of sintering machine can be substantially improved;
4) it can reduce environmental pollution: since the present invention is provided with a circle seal closure in outer ring.So when sinter is by scraper
When device 6 scrapes or air blower breaks down when overhauling, and it is subtle that the atmospheric environment around slot cold not will receive the cold inside of disk
The influence of particle has positive sense for improving environmental protection index.
5) the waste heat boiler thermal efficiency can maintain higher range: since the present invention takes multi-element type to take wind apparatus, system can
According to real-time detection to wind-warm syndrome freely adjust the air quantity for entering waste heat boiler, it is possible to will be maintained into boiler wind-warm syndrome
Within the scope of one high value, to can guarantee that the waste heat boiler thermal efficiency will not be too low.
In conclusion this new system scheme of the invention effectively compensates for multinomial defect present in original technology scheme, compare
It is more energy saving compared with original technology, safe and reliable, practical, it is contemplated that have good market prospects in future.
Detailed description of the invention
Fig. 1 is the schematic cross-sectional view of slot type liquid sealing blast cooling device (1) (i.e. slot cold) of the invention.
Fig. 2 is the schematic top plan view of slot type liquid sealing blast cooling device (1) (i.e. slot cold) of the invention.
Fig. 3 is that (wherein scraper does not protrude into for another slot type liquid sealing blast cooling device (1) (i.e. slot cold) of the invention
In cabinet) schematic cross-sectional view.
Fig. 4 is wheel rail drive schematic device.
Fig. 5 is the partial structural diagram of the sealing device 14 on top.
Fig. 6 is the schematic diagram of bypass string wind pressure relief device 12 and its operating status.
Fig. 7 is schematic cross-sectional view when bypass string wind pressure relief device 12 runs to position at A-A and B-B two respectively.
Fig. 8 is the cross-sectional cut-away schematic diagram for entering the wind beam K or N.
Fig. 9 is the schematic diagram of cutting device.
Appended drawing reference
1: slot type liquid seals blast cooling device (i.e. slot cold);1a: unloading part;2: slot type liquid seals blast cooling device
Ring groove shape accumulation cabinet internal ring wall;3: the external annulus of cabinet;4: pallet;5: wheel rail drive device;501:(support is driven
It is dynamic) idler wheel;502: guide rail;503: motor;504: shaft coupling;505: retarder;506: shaft;507: support;6: cutting device
Or device;601: scraper;602: scraper pedestal;7: feed chute;8: hood;9: air blower;10: blast pipe;11: annular closed
Inlet air plenum;11a: seal closure;12: bypass string wind pressure relief device;1201: bypass air hose;1202: rotation axis;1203: plate of becalming;
1204: idler wheel;1205: special-shaped track;13: limit gear wheel;14: sealing device;15: feeding chute;16: electromagnetic vibration feeder;
17: blanking dust excluding hood;18: gravitational dust collection equipment;19: waste heat boiler;20: bag filter;21,22: the first, second air outlet
Pipeline;23: economizer;24: bracket or pillar;25: slot cold overhead guard;26: overhead guard rolling wheel for mounting;27: ground;28: air hose;
29: the first valves or regulating valve (butterfly valve);30: the second valves or regulating valve (butterfly valve);31: going directly to the air inlet of air blower
Pipeline.M: iron ore material;K: lower part air intake equipment (such as air inlet beam);N: top air intake equipment (such as air inlet beam);N1: side
(inclination) through-hole;N2: bottom (downward) through-hole.R: the radius of gyration of cabinet.
Specific embodiment
As shown in figures 1 to 9, a kind of mining slot type liquid sealing blast cooling device 1 of sintering is provided, which includes:
1) accumulate the sinter from sintering machine from top, while the ring of peripheral part annular discharge port discharge from below
Flute profile accumulates cabinet, and wherein the cabinet includes the whole ring shape pallet 4 of internal ring wall 2, external annulus 3 and bottom;
2) for driving above-mentioned ring groove shape accumulation cabinet to make the wheel rail drive device 5 of rotary motion in the horizontal direction;
3) top be arranged on above-mentioned ring groove shape accumulation cabinet, the above-mentioned accumulation cabinet of covering cyclic annular hood (or
Make shield) 8;
4) at least one wind pipe (preferably at least two wind pipes, such as 1-10 and at the top of above-mentioned hood 8 connected
It is a, such as 2-6 or 2-4);Preferably, have and connected at the top of at least two wind pipes and above-mentioned hood 8, wherein described
At least two wind pipes include the first air outlet pipeline 21 close to cabinet unloading part 1a and the far from cabinet unloading part 1a
Two air outlet pipelines 22;
5) it is being burnt by being sealed and seal closure 11a is added along the periphery of cabinet in 1 lower part of blast cooling device in slot type liquid
Ramming material accumulation outer ring is formed by the closed annular inlet air plenum 11 of a circle,
6) sealing device 14 being equipped in inlet air plenum upper and lower part (such as in bottom of pallet 4), makes sealing device 14
Sealing function is formed between the inner ring box body wall 2 and outer ring box body wall 3 of the ring groove shape accumulation cabinet of rotation;
7) multiple air blowers 9, their air outlet pass through respectively corresponding blast pipe 10 (relative to closed annular into
It is for air compartment 11 " air inlet ") it is connected to closed annular inlet air plenum 11;With
8) one or more cutting devices 6 in the outside of the discharging section 1a of cooling device 1 are installed on, the latter is by seal closure
11a is surrounded in annular closed inlet air plenum 11,
Wherein: the scraper of cutting device 6 does not protrude into the annular discharge port in bottom (whole circle) of cabinet, that is, cutting device 6
Scraper cabinet cross-sectional direction protrude into depth using be no more than cooling device 13 inner wall of external annulus as standard, or, scraping
The scraper of knife equipment 6 protrudes into the annular discharge port in bottom (whole circle) of cabinet, it is preferred that spatula end is close to internal ring wall 2.
In the device of the application, using two kinds of approach to bottom space (the i.e. bottoms of cabinet out of circular air inlet room 11
Material) in air inlet, one of approach is the annular discharge port via bottom of box periphery, and another way is via under multiple
Enter the wind beam (K) in portion.
Bottom or lower part air inlet beam are arranged with certain horizontal direction interval.Such as with about 20-200cm, such as 50-
The interval of 150cm.
Wheel rail drive device 5 (or system) is equipped in the bottom of pallet 4.Wheel rail drive device 5 includes: (support or driving)
Idler wheel 501 is mounted at least two or at least a pair of (annular or whole ring shape) guide rail 502 of the bottom of pallet 4, motor
503, shaft coupling 504, retarder 505, shaft 506, support 507.
In the discharging section 1a of cooling device 1, feed chute 7 is installed above ring groove shape accumulation cabinet.Into
Expect that the downstream of chute 7 is equipped with material scraper plain film.
Preferably, the first air outlet pipeline 21 is connected to the waste heat boiler 19 of generating equipment, and the first air outlet pipeline
22 are connected to the waste heat boiler 19 of generating equipment via pipeline 28 in a manner of changeable or are directly connected to air blast via bypass 31
The air inlet of machine 9.More preferably;Gravitational dust collection equipment 18 is set in the gas circuit upstream of waste heat boiler 19, that is, the first air outlet pipeline
21 and/or second air outlet pipeline 22 waste heat boiler 19 of generating equipment is connected to via gravitational dust collection equipment 18.It is preferred that;Remaining
The gas circuit downstream of heat boiler 19 sets gradually bag filter 20 and optional economizer 23.Bag filter 20 or economizer
23 air outlet is connected to the air inlet of each air blower 9.In this way, realizing distinguished and admirable closed cycle.Due to invention take it is close
Enclosed blowing process, therefore distinguished and admirable closed cycle may be implemented.This technology former process rear portion be additionally arranged bag filter 20 with
And economizer 23 (can optionally open or close), by the air after waste heat boiler out, recycling is sharp once again after fine grained dedusting
Cooling wind is served as with circular air inlet room 11 is blown into.Realize that whole waste without sensible heat is discharged without particulate matter atmosphere.
Preferably, one or more cutting devices 6 are arranged in the upstream of discharging section 1a, and feed chute 7 is located at and unloads
Expect the downstream of section 1a.In this way, adding iron ore material in recess or settlement section after discharging.It is struck off later using material
Piece strikes off.
Preferably, it is sealed using buried material.Since exhausting is changed to air blast by the present invention, therefore prevent the main positions of string wind
Material layer lower part has just been converted to by bed of material top.Feeding chute 15 and electromagnetic vibration feeder are set at the discharge port of discharging section 1a
16, it is preferred that the whole embedment ground of feeding chute 15.
Preferably, multiple pressure release ventilation devices 12, such as bypass string wind pressure release dress are equipped in the outside of external annulus 3
Set 12.One end (such as lower end) of pressure release ventilation device 12 (such as bypass string wind pressure relief device 12) is connected to closed annular inlet air plenum
11, the other end (such as upper end) is connected to cabinet external environment (that is, cabinet atmosphere outside) or is connected to positioned at cabinet top
Air intake equipment N (such as the equipment such as air inlet beam N, shutter N or blast pipe N) within space.It is preferred that in the upper space of cabinet
It is interior be equipped be connected to respectively with the upper end of multiple pressure release ventilation device 12 (such as bypass string wind pressure relief device 12) it is multiple (on
Portion) air intake equipment N (such as the equipment such as air inlet beam, shutter or the blast pipe on top), such as multiple tops air inlet beam N.It is preferred that
Bypass string wind pressure relief device 12 include bypass air hose 1201, rotation axis 1202, plate 1203 of becalming, idler wheel 1204 and horizontal annular,
But at the track 1205 of the oriented lower recess formula deformation of discharging section 1a (referred to as special-shaped track).It is preferred that the air inlet beam N on top or into
Air hose N has the cross section of round, ellipse, annular or polygon (such as triangle or quadrangle or pentagon).It is preferred that
It is provided with side (inclination) through-hole (N1) on two or more sides of the air inlet beam N or blast pipe N on top and is opened on bottom side
Oriented lower through-hole (N2).That is, side through-hole N1 is tilted down, and through-hole N2 is downward.
It is preferred that the both ends for the air intake equipment (N) being arranged in cabinet upper space are respectively set or are fixed on internal ring wall (2)
On external annulus (3).Generally, air intake equipment (N) can be horizontal or be obliquely installed.
Under usual state, idler wheel 1204 is walking in a horizontal state, sky of combining closely between plate 1203 and bypass air hose 1201 of becalming
Gas cannot be introduced into.When via discharge region, due to being influenced by special-shaped track 1205 to lower recess, idler wheel 1204 is walked downwards
Plate 1203 of becalming is pullled simultaneously, causing the one end for plate 1203 of becalming thus with rotation axis 1202 is that the center of circle rotates thus with side
Ventilation duct 1201 separates, i.e., in the open state, at this time the air in circular air inlet room 11 can enter bypass air hose 1201 from
And enter in the air inlet beam N for being located at slot cold stock column top.The advantage of doing so is that pressure release is formd in discharge region, so that should
Air pressure in region is big not as remaining region, to alleviate a possibility that air seals outer string via buried material, changes
A angle is seen, thus can provide help to reduce buried material envelope height.
It is preferred that setting up multiple bracket or pillar 24 respectively in the two sides of the ring groove shape accumulation cabinet of cooling device 1.?
The top two sides of the ring groove shape accumulation cabinet of cooling device 1 are equipped with limit gear wheel 13.Wherein limit gear wheel 13 is fixed on branch
On frame or pillar 24.
Described device 1 further include: 9) be installed on the slot cold overhead guard 25 at 1 top of slot cold.It is first by lifting during installation
Mouth is lifted to some position, then is moved to production designated position by overhead guard rolling wheel for mounting 26, (is existed after putting into production
When cabinet makees rotary motion) slot cold overhead guard 25 no longer moves.Slot cold overhead guard 25 is by being installed on bracket or pillar 24
Overhead guard rolling wheel for mounting 26 supports.
The application also provides the sinter cooling means using above-mentioned slot type liquid sealing blast cooling device 1, this method packet
Include: 1) cooling device 1 does (whole circle) rotary motion under the driving of wheel rail drive device 5,2) by means of scraping in unloading part 1a
Knife equipment 6 scrapes iron ore material M from the discharge port of the bottom of 1 cabinet of cooling device to carry out discharging and (such as scrape blanking
Among chute 15), 3) sinter from sintering machine from feed chute 7 be added to ring groove shape accumulation cabinet in (preferably, Zhi Houli
Strike off material with material scraper plain film), 4) from at least one wind pipe (preferably, at least two outlet air for being connected at the top of hood 8
Pipeline) hot wind of discharge is delivered to the waste heat boiler 19 of generating equipment via pipeline 28.
It is preferred that step 4) includes following sub-step: 4.1) the hot wind G1 being discharged from the first air outlet pipeline 21 is via pipeline
28 are delivered to the waste heat boiler 19,4.2 of generating equipment) from the lower temperature hot wind G2 of the second air outlet pipeline 22 discharge, work as G2
When temperature sufficiently high (that is, the waste heat boiler for being sufficient to generating equipment), the waste heat pot of generating equipment is delivered to via pipeline 28
Furnace 19, or when G2 temperature is relatively low, the air inlet of air blower 9 is delivered to via bypass 31.
In the above method, it is preferred that hot wind G1 and/or G2 are respectively via gravitational dust collection equipment 18 except quilt after dust
It is delivered to the waste heat boiler 19 of generating equipment.
It is preferred that the low temperature wind G3 being discharged from waste heat boiler 19 further removes dust by bag filter 20, then pass through
By the air inlet for being transported to each air blower 9 in the case where after the further UTILIZATION OF VESIDUAL HEAT IN of economizer 23 or not via economizer 23
Mouthful.In this way, realizing distinguished and admirable closed cycle.Since invention takes enclosed air blowing technique, therefore may be implemented distinguished and admirable closed circuit
Circulation.This technology is additionally arranged bag filter 20 and economizer 23 (can optionally open or close) at former process rear portion, will
The recycling once again after fine grained dedusting of the air after waste heat boiler is blown into circular air inlet room 11 and serves as cooling wind out.It realizes
Whole process is wasted without sensible heat and is discharged without particulate matter atmosphere.
In operation, cabinet is turned round along the revolution circumference (or revolution perimeter) of slot cold 1, as shown in Figure 2.Case
The revolution perimeter (2 π R) of body is generally 60-350 meters, preferably 70-320 meters, preferably 90-280 meters, 120-250 meters more preferable, such as
150-200 meters.
The height for being sintered the cabinet of mining slot type liquid sealing blast cooling device is 1.5-7.0 meters, preferably 2.5-6.5
Rice, it is preferably 3.5-6 meters, 4-5.5 meters more preferable, it is 4.5-5.0 meters more preferable.
Compared to traditional ring cold machine technology and disk cold technology, mainly there are following 5 points of changes:
A1. replace previous exhausting using novel enclosed air blast: present invention eliminates air draft process, replace and take
Annular closed air compartment air blast air inlet technique accumulates outer ring in sintering feed by adding seal closure 11a in slot cold periphery lower part
At the closed annular inlet air plenum 11 of a circle, inlet air plenum is equipped with sealing device 14 above and below, makes its slot cold cabinet with rotation
Sealing effect is formed between internal ring wall 2 and external annulus 3.Air is blown out from air blower 9, and closed loop is entered after blast pipe 10
Shape inlet air plenum 11, due to being sealed up and down, air can only from the bottom of cabinet or lower part pulp cutlet and lower part or bottom into
Wind beam (K) enters bed of material bottom, up walks in the bed of material and finally blows out from charge level.
A2. it is sealed using buried material: since exhausting is changed to air blast by the present invention, therefore preventing the main positions of string wind just by expecting
Layer top has been converted to material layer lower part.The present invention takes the mode on the whole embedment ground of feeding chute 15 at discharge port.?
Civil engineering plane is locally digged pit, and feeding chute 15 is embedded to, and will not both have been raised the whole height of entire slot cold in this way, and will not have been increased
Excessive civil engineering is added to dig base cost.
A3. add bypass string wind pressure relief device: in order to further decrease buried material envelope height, reduction construction and installation at
This.The present invention adds bypass string wind pressure relief device 12 in slot cold.Device by bypass air hose 1201, rotation axis 1202, becalm
Plate 1203, idler wheel 1204 and special-shaped track 1205 form.Under usual state, idler wheel 1204 is walking in a horizontal state, becalm plate 1203 with
Air of combining closely between bypass air hose 1201 cannot be introduced into.When via discharge region, due to being unloaded by special-shaped track 1205
Expect influence of the section to lower recess, idler wheel 1204 walks downwards while pullling plate 1203 of becalming, and thus causes plate 1203 of becalming
One end with rotation axis 1202 be that the center of circle rotates to separate with bypass air hose 1201, the air in circular air inlet room 11 at this time
Bypass air hose 1201 can be entered hence into the air inlet beam N on slot cold stock column top.The advantage of doing so is that in discharge region
Pressure release is formd, so that the air pressure in the region is big not as remaining region, to alleviate air via buried material
It outside envelope a possibility that string, changes an angle and sees, thus can highly provide help to reduce buried material envelope;
A4. it uses distinguished and admirable closed cycle: since invention takes enclosed air blowing technique, therefore may be implemented distinguished and admirable closed circuit
Circulation.This technology is additionally arranged bag filter 19 and economizer 23 (can optionally open or close) at former process rear portion, will
The recycling once again after fine grained dedusting of the air after waste heat boiler is blown into circular air inlet room 11 and serves as cooling wind out.It realizes
Whole process is wasted without sensible heat and is discharged without particulate matter atmosphere.
A5. add multi-element type and take wind apparatus: the present invention is improved on the basis of original exhaust apparatus, is provided with multi-element type
Take wind apparatus, user's difference section air outlet air themperature according to caused by different sinter characteristics is freely adjusted into waste heat
The air quantity of boiler, to guarantee that boiler thermal efficiency maintains a higher range.As shown in figure 3, the present invention is close in slot cold
An air outlet, respectively the first discharge pipe 21 and the second outlet air is respectively arranged in two positions of feed inlet section and separate feed inlet section
Pipe 22.Due to close to feed inlet section, therefore the wind-warm syndrome of the first discharge pipe 21 is guaranteed, and due to far from feed inlet section, second
The wind-warm syndrome of discharge pipe 22 can then change according to many factors such as machine speed, bed depth, permeability of stock column, it is possible to Gao Yeyou
It may be low.If it is sufficiently high that thermocouple measures 22 wind-warm syndrome of the second discharge pipe at this time, then system automatically turns on the second regulating valve (butterfly
Valve) 30, the first regulating valve (butterfly valve) 29 is simultaneously closed off, the air-flow of two discharge pipes is merged into waste heat boiler 28.Such as
If it is inadequate that thermocouple measures 22 wind-warm syndrome of discharge pipe at this time, if with high temperature section it is distinguished and admirable merge will affect the waste heat boiler thermal efficiency,
Then the second regulating valve 30 is automatically closed in system, while opening the first regulating valve 29, then the air-flow in discharge pipe 22 is straight by bypass
Tap into the cooling wind for being blended into blower inlet and serving as next circulation in circuit.
Scraper device 6 is installed on the outside of (ring) of (annular) slot cold discharge zone, and it is close by seal closure to be wrapped in annular
It closes in inlet air plenum 11.Scraper cross-sectional direction protrude into depth using be no more than slot cold outer ring inner wall as standard, can basis
Stream situation is along annular direction setting one or more scraper.Device is equal by wind using multiple bottoms or lower part air inlet beam (K)
Even introducing bed of material bottom.
Under normal circumstances, the rotational speed of cabinet is 1.2-2m/s, such as 1.5m/s, the hot wind G1's of high temperature section discharge
Temperature commonly reaches 400-500 DEG C, and the temperature of the hot wind G2 of low-temperature zone can reach 250-350 DEG C, such as 300 DEG C.Unloading part 1a
Length be, for example, 8-14m, such as 10m.
Claims (35)
1. being sintered mining slot type liquid sealing blast cooling device (1), which includes:
1) accumulate the sinter from sintering machine from top, while the ring groove shape of peripheral part annular discharge port discharge from below
Cabinet is accumulated, wherein the cabinet includes the whole ring shape pallet (4) of internal ring wall (2), external annulus (3) and bottom;
2) for driving above-mentioned ring groove shape accumulation cabinet to make the wheel rail drive device (5) of rotary motion in the horizontal direction;
3) the cyclic annular hood (8) on top be arranged on above-mentioned ring groove shape accumulation cabinet, the above-mentioned accumulation cabinet of covering;
4) 1-10 wind pipe being connect with above-mentioned hood (8) top;
5) it is being burnt by being sealed and seal closure (11a) is added along the periphery of cabinet in blast cooling device (1) lower part in slot type liquid
Ramming material accumulation outer ring is formed by the closed annular inlet air plenum (11) of a circle,
6) sealing device (14) being equipped in inlet air plenum upper and lower part accumulates the ring groove shape of sealing device (14) and rotation
Sealing function is formed between the internal ring wall (2) and external annulus (3) of cabinet;
7) multiple air blowers (9), their air outlet pass through respectively corresponding blast pipe (10) be connected to it is closed annular into
Air compartment (11);With
8) one or more cutting devices (6) in the outside of the discharging section (1a) of cooling device (1) are installed on, the latter is sealed
Cover (11a) is surrounded in annular closed inlet air plenum (11),
9) be located at lower box space within but multiple lower part air intake equipments (K) in the top of the scraper of cutting device (6);
Wherein: the scraper of cutting device (6) does not protrude into the base circle discharge port of cabinet, that is, the scraper of cutting device (6) exists
The cross-sectional direction of cabinet protrudes into depth to be no more than external annulus (3) inner wall of cooling device (1) as standard;Or, scraper
The scraper of equipment (6) protrudes into the base circle discharge port of cabinet;It is wherein logical equipped with multiple pressure releases in the outside of external annulus (3)
Wind apparatus (12).
2. the apparatus according to claim 1, it is characterised in that: be connected with 2-6 wind pipe at the top of hood (8);Have to
It is connect at the top of few two wind pipes and above-mentioned hood (8), wherein at least two wind pipes (21,22) include close
Second air outlet pipeline (22) of the first air outlet pipeline (21) of cabinet unloading part (1a) and separate cabinet unloading part (1a);
And/or
The air intake equipment (K) of the lower part is air inlet beam, shutter or blast pipe.
3. device according to claim 1 or 2, the both ends of middle and lower part air intake equipment (K) are separately positioned on internal ring wall (2)
On external annulus (3), annular closed inlet air plenum (11) are led in the air inlet open end of air intake equipment (K).
4. device according to claim 1 or 2, wherein being equipped with wheel rail drive device (5) in the bottom of pallet (4).
5. device according to claim 3, wherein being equipped with wheel rail drive device (5) in the bottom of pallet (4).
6. device according to claim 4, it is characterised in that: wheel rail drive device (5) includes: idler wheel (501), is mounted on
At least two or at least a pair of guide rails (502) of the bottom of pallet (4), motor (503), shaft coupling (504), retarder
(505), shaft (506) and support (507).
7. device according to claim 5, it is characterised in that: wheel rail drive device (5) includes: idler wheel (501), is mounted on
At least two or at least a pair of guide rails (502) of the bottom of pallet (4), motor (503), shaft coupling (504), retarder
(505), shaft (506) and support (507).
8. according to claim 1-2, device described in any one of 5-7, wherein in the discharging section (1a) of cooling device (1)
It is interior, feed chute (7) are installed above ring groove shape accumulation cabinet.
9. device according to claim 3, wherein being accumulated in the discharging section (1a) of cooling device (1) in ring groove shape
Feed chute (7) are installed above cabinet.
10. device according to claim 4, wherein being accumulated in the discharging section (1a) of cooling device (1) in ring groove shape
Feed chute (7) are installed above cabinet.
11. device according to claim 8, it is characterised in that: be equipped with material scraper plain film in the downstream of feed chute (7).
12. device according to claim 9 or 10, it is characterised in that: struck off in the downstream of feed chute (7) equipped with material
Piece.
13. the apparatus of claim 2, wherein the first air outlet pipeline (21) is connected to the waste heat pot of generating equipment
Furnace (19), and the second air outlet pipeline (22) is connected to the waste heat boiler of generating equipment in a manner of changeable via pipeline (28)
(19) or via bypass (31) directly it is connected to the air inlet of air blower (9).
14. device according to claim 13, it is characterised in that: in the gas circuit upstream of waste heat boiler (19), setting gravity is removed
Dirt equipment (18).
15. device according to claim 14, it is characterised in that: set gradually cloth in the gas circuit downstream of waste heat boiler (19)
Bag dust collector (20) and optional economizer (23).
16. device according to claim 15, it is characterised in that: the air outlet of bag filter (20) or economizer (23)
It is connected to the air inlet of each air blower (9).
17. the device according to any one of claim 2,13-16, wherein one or more of cutting devices (6)
It is arranged in the upstream of discharging section (1a), and feed chute (7) is located at the downstream of discharging section (1a);
Wherein, feeding chute (15) and electromagnetic vibration feeder (16) are set at the discharge port of discharging section (1a).
18. device according to claim 17, it is characterised in that: feeding chute (15) is integrally embedded to ground.
19. according to claim 1-2, device described in any one of 5-7,9-11,13-16,18, it is characterised in that: pressure release
Ventilation device (12) is bypass string wind pressure relief device.
20. device according to claim 3, it is characterised in that: pressure release ventilation device (12) is bypass string wind pressure relief device.
21. device according to claim 4, it is characterised in that: pressure release ventilation device (12) is bypass string wind pressure relief device.
22. device according to claim 8, it is characterised in that: pressure release ventilation device (12) is bypass string wind pressure relief device.
23. device according to claim 19, wherein one end of pressure release ventilation device (12) is connected to closed circular air inlet
Room (11), the other end are connected to cabinet external environment or the air intake equipment being connected within cabinet upper space (N).
24. the device according to any one of claim 20-22, wherein one end of pressure release ventilation device (12) is connected to close
Closed-loop shaped inlet air plenum (11), the air inlet that the other end is connected to cabinet external environment or is connected within cabinet upper space are set
Standby (N).
25. device according to claim 23, it is characterised in that: the air intake equipment (N) on the top is air inlet beam, blinds
Window or blast pipe.
26. device according to claim 24, it is characterised in that: the air intake equipment (N) on the top is air inlet beam, blinds
Window or blast pipe.
27. device according to claim 19, wherein bypass string wind pressure relief device includes bypass air hose (1201), rotation axis
(1202), plate (1203), idler wheel (1204) and the horizontal annular of becalming but the rail deformed in the oriented lower recess formula of discharging section (1a)
Road (1205).
28. the device according to any one of claim 20-23,25-26, wherein bypass string wind pressure relief device includes bypass
Air hose (1201), rotation axis (1202), plate of becalming (1203), idler wheel (1204) and horizontal annular but have in discharging section (1a)
The track (1205) of downward depressed deformation.
29. device according to claim 24, wherein bypass string wind pressure relief device includes bypass air hose (1201), rotation axis
(1202), plate (1203), idler wheel (1204) and the horizontal annular of becalming but the rail deformed in the oriented lower recess formula of discharging section (1a)
Road (1205).
30. the device according to claim 25 or 26, wherein the air inlet beam or blast pipe of lower part, and/or, top into
Wind beam or blast pipe have the cross section of round, ellipse, annular or polygon.
31. device according to claim 30, it is characterised in that: air inlet beam or blast pipe and/or top in lower part
Side through-hole (N1) is provided on two or more sides of air inlet beam or blast pipe and is provided on bottom side to lower through-hole (N2).
32. using the burning of mining slot type liquid sealing blast cooling device (1) of sintering described in any one of claim 1-31
Mine cooling means is tied, this method comprises: 1) cooling device (1) does rotary motion under the driving of wheel rail drive device (5), 2)
Iron ore material (M) is scraped from the discharge port of the bottom of cooling device (1) cabinet by means of cutting device (6) in unloading part (1a)
Under to carry out discharging, 3) sinter from sintering machine is added in ring groove shape accumulation cabinet from feed chute (7), 4) Cong Yuji
The hot wind of at least one wind pipe discharge connected at the top of cover (8) is delivered to the waste heat boiler of generating equipment via pipeline (28)
(19)。
33. according to the method for claim 32, wherein step 4) includes following sub-step: 4.1) from the first air outlet pipeline
(21) the hot wind G1 being discharged is delivered to the waste heat boiler (19) of generating equipment via pipeline (28), 4.2) from the second air outlet pipeline
(22) the lower temperature hot wind G2 being discharged is delivered to the waste heat pot of generating equipment via pipeline (28) when G2 temperature is sufficiently high
Furnace (19), or when G2 temperature is relatively low, the air inlet of air blower (9) is delivered to via bypass (31).
34. according to the method for claim 33, wherein hot wind G1 and/or G2 are removed via gravitational dust collection equipment (18) respectively
The waste heat boiler (19) of generating equipment is transported to after dust.
35. the method according to claim 33 or 34, wherein the low temperature wind G3 being discharged from waste heat boiler (19) is through cloth bag
Deduster (20) further removes dust, then via after economizer (23) further UTILIZATION OF VESIDUAL HEAT IN or not via economizer
(23) air inlet of each air blower (9) is transported in the case where.
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CN110779343A (en) * | 2019-12-06 | 2020-02-11 | 中冶华天工程技术有限公司 | Rotary uniform-cooling efficient waste heat recovery cooler |
Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN85201828U (en) * | 1985-05-09 | 1986-08-27 | 刘立鄂 | Inlet air-distributing vertical kiln with rolling machine |
CN2264888Y (en) * | 1996-04-24 | 1997-10-15 | 江苏省冶金设计院 | Annular blast cooling device |
JP2008232519A (en) * | 2007-03-20 | 2008-10-02 | Mitsubishi-Hitachi Metals Machinery Inc | Sintered ore cooling device |
CN102589303A (en) * | 2012-03-09 | 2012-07-18 | 唐山重型装备集团有限责任公司 | Energy-saving environment-friendly circular cooler |
CN202928376U (en) * | 2012-09-24 | 2013-05-08 | 张志良 | Ring cooling machine pressure-release sealed water-stop device |
-
2016
- 2016-01-28 CN CN201610059201.8A patent/CN107014215B/en active Active
Patent Citations (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN85201828U (en) * | 1985-05-09 | 1986-08-27 | 刘立鄂 | Inlet air-distributing vertical kiln with rolling machine |
CN2264888Y (en) * | 1996-04-24 | 1997-10-15 | 江苏省冶金设计院 | Annular blast cooling device |
JP2008232519A (en) * | 2007-03-20 | 2008-10-02 | Mitsubishi-Hitachi Metals Machinery Inc | Sintered ore cooling device |
CN102589303A (en) * | 2012-03-09 | 2012-07-18 | 唐山重型装备集团有限责任公司 | Energy-saving environment-friendly circular cooler |
CN202928376U (en) * | 2012-09-24 | 2013-05-08 | 张志良 | Ring cooling machine pressure-release sealed water-stop device |
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