CN107014215A - The sintering deposit liquid-tight envelope blast cooling device of slot type and method - Google Patents

Abstract

Sintering deposit is included with the liquid-tight envelope blast cooling device (1) of slot type, the device：1) ring groove shape accumulation casing, wherein casing includes internal ring wall (2), external annulus (3) and the whole ring shape pallet (4) of bottom；2) the wheel rail drive device (5) of casing；3) the ring-type hood (8) on casing top；4) at least one wind pipe (21,22) with being connected at the top of above-mentioned hood (8)；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 shroud box body wall (3) of the ring groove shape rotated accumulation casing；7) multiple air blowers (9), 8) one or more cutting devices (6) in the outside of the discharging section (1a) of cooling device (1), 9 are installed on) it is located within lower box space but in multiple bottom air intake equipments (K) of the top of scraper.The cooling device (1) has prominent advantage in terms of manufacturing cost, reduction environmental pollution, UTILIZATION OF VESIDUAL HEAT IN.

Description

The sintering deposit liquid-tight envelope blast cooling device of slot type and method

Technical field

The present invention relates to the sintering deposit liquid-tight envelope blast cooling device of slot type and cooling means, belong to ironmaking field and field of Environment Protection.

Background technology

During modern sintering process, " cooling " is one of more crucial process.Sintering deposit after the roasting by sintering machine, High temperature finished product ore deposit has been formed, how protectiveness cooling have been carried out to it on the premise of its quality and yield rate is not influenceed, can It is enough to send into finished product ore storage bin through belt feeder, it is technology in the industry all the time while the sensible heat energy perfection entrained by it is recycled The problem of personage constantly studies.Since 1960s, the cooling technique of sintering deposit is developed rapidly, and it mainly divides For belt cooling, ring type cooling three major types are cooled down with disc type.In the market competition in later stage, belt cooling technology is eliminated, remaining Under ring type cooling with disc type cooling technology respectively have its advantage and disadvantage.But Integrated comparative, the cold utilization rate of waste heat colder than ring of disk is more preferable (all sintering mine sensible heats are recycled utilization), therefore market is using widely abroad for disk cold, this patent is also cold around disk Machine technology is illustrated.

Disk cold technology develops since the seventies, most starts cold for transverse type disk, that is, it is outside from the inner ring of disk cold to cool down wind Circulation is moved, and is horizontally through the bed of material to be cooled and is exchanged heat with it, and the cooling wind after having exchanged heat is directly outer to drain into air.So do both without Ji also not environmentally, optimizes by continuous research for many years, and newest disk cold technology is that Mitsubishi Hitachi carries with middle Sheng steel " the air-draft-type longitudinal direction disk refrigeration technique " gone out.This technology uses exhausting, cooling wind is pumped into material bottom to be cooled from air, then Up longitudinally through the bed of material, finally from bed of material top, blowout enters subsequent handling.The program is compared with the scheme most started, There is very big optimization and progress, described in detail below for the program.

JP2008232519A (Hitachi of Mitsubishi and middle Sheng steel, call D1 in the following text) discloses the longitudinal disk refrigeration technique of air-draft-type, referring to wherein Fig. 1：Heat sinter enters feed chute from sintering machine tail clan, and the stock column of certain altitude, such side are piled into chute Face is to play a part of uniform blanking, is on the other hand to play material envelope to prevent charging aperture string wind action.Mineral aggregate continues downward pass through Enter after hood in disk cold casing, push into the stock column of certain altitude.At the same time, influenceed by the negative pressure of air exhauster, disk is cold Air near machine can be inhaled into stock column via blinds air-intake device, exchanged heat therewith through stock column from the bottom up, after heat exchange is finished Air passed from stock column top surface and enter air outlet, be sent to gravitational precipitator and waste heat boiler, eventually pass outer after air exhauster Row.Sintering feed after being cooled down by air forms annular accumulation of the cross section for 37 degree of stocking angle triangles at disk cold lower tray Area, when being turned to discharge zone, sintering feed is scraped by scraper plate device, is completed refrigerating work procedure and is entered next process links.

Hitachi of Mitsubishi is with middle " the air-draft-type longitudinal direction disk refrigeration technique " for containing steel although more conventional technology has marked improvement, but still deposits In following five point defect：

1) device whole height requires too high：Because " air-draft-type longitudinal direction disk refrigeration technique " takes exhausting mode, so must enter Material mouth position sets material envelope, that is, the stock column accumulated in D1 Fig. 1 in feed chute, and material envelope height is with disk cold casing 1.2~1.5 times of stock column height are standard.The height of whole series of discs device for cooling is thus virtually increased, will in construction and installation It is accomplished by rising whole sintering machine absolute altitude, otherwise it is accomplished by down digging the civil engineering plane of disk cold.No matter which kind of side selected Formula, can all cause a high cost of investment, not calculate very much in economic indicator；

2) distinguished and admirable open circuit circulation causes utilization rate of waste heat low and pollutes environment：Distinguished and admirable due to " air-draft-type longitudinal direction disk refrigeration technique " be Open circuit circulation, the directly outer row of air come out from waste heat boiler does not recycle, and so causes the air spent also 100 more Sensible heat is wasted, and contains a large amount of little particle dust in the air arranged outside, and a certain degree of Particulate Pollution is caused for air；

3) material serious wear at charging aperture：Because " air-draft-type longitudinal direction disk refrigeration technique " sets material envelope at feed chute, therefore expect In envelope bottom and disk cold casing one section of frictional distance is had between charge level upper strata.Now sintering feed is extruded in high temperature and top stock column Double-deck bad working environments under, be easy to when being rubbed efflorescence become it is broken, so as to reduce the yield rate of sintering machine；

4) environmental pollution is more serious：Due to the negative pressure exhausting technology that " air-draft-type longitudinal direction disk refrigeration technique " is taken, so it is in casing It is not provided with sealing closure assembly at lower tray.So when sintering deposit is scraped by doctor blade device, easily cause a large amount of fine particles with Dust splashes.And once air exhauster breaks down and overhauled, the material dust pushed around disk cold can all enter air, to machine Other operating environment is caused and its ill effect；

5) the waste heat boiler thermal efficiency is not up to highest：Due to " air-draft-type longitudinal direction disk refrigeration technique " not pass the air of the bed of material according to Wind-warm syndrome is precisely classified, but is all mixed into waste heat boiler, so when low-temperature zone outlet wind-warm syndrome is too low, will certainly be dragged down Into the air themperature of waste heat boiler, so as to reduce the thermal efficiency value of waste heat boiler.

For above-mentioned five strip defect, we are goed deep into the technology to " air-draft-type longitudinal direction disk refrigeration technique " with device technique Analysis, by repeatedly groping and improving and optimizating, have developed a set of can not increase cooler height, distinguished and admirable closed cycle, sintering The patent formula technology that environmental pollution is significantly alleviated by ore deposit high yield rate, machine, makes every effort to effectively solve the problem of prior art is present, Contributed for sintering circuit energy-conserving and environment-protective index.

The content of the invention

According to the first of the application embodiment there is provided a kind of sintering deposit liquid-tight envelope blast cooling device of (annular) slot type, Abbreviation groove cold or ring type cooling device, the device include：

1) sintering deposit from sintering machine is made to be accumulated from top, while the ring groove shape heap of the annular discharge port discharge of peripheral part from below Product casing (that is, the flute profile casing of whole ring shape), the wherein casing include internal ring wall, external annulus and the whole ring shape pallet of bottom；

2) it is used for the wheel rail drive device for driving above-mentioned ring groove shape accumulation casing to make gyration in the horizontal direction；

3) the ring-type hood for accumulating top set on casing, the above-mentioned accumulation casing of covering in above-mentioned ring groove shape (or is protected Cover)；

4) be connected at the top of above-mentioned hood at least one wind pipe (preferably, at least two wind pipe, such as 1-10 are individual, Such as 2-6 or 2-4)；Preferably, have and be connected at the top of at least two wind pipes and above-mentioned hood, wherein it is described at least Two wind pipes include close to the first air outlet pipeline of casing unloading part and the second air outlet pipeline away from casing unloading part；

5) seal closure is set up by the periphery in the liquid-tight envelope blast cooling device bottom of slot type along casing and accumulates outer shroud in sintering feed The closed annular inlet air plenum of circle formed,

6) sealing device being provided with inlet air plenum upper and lower part (such as in the bottom of pallet), makes sealing device and the ring rotated Sealing function is formed between the inner ring box body wall and outer shroud box body wall of flute profile accumulation casing；

7) multiple air blowers, their air outlet is communicated to closed annular inlet air plenum respectively through each self-corresponding blast pipe；With

8) one or more cutting devices on the outside of (ring) of the discharging section of (annular) cooling device are installed on, the latter is by seal closure It is surrounded in annular closed inlet air plenum,

9) be located at lower box space within but cutting device scraper top multiple bottom air intake equipments；It is preferred that, institute The air intake equipment for stating bottom is air intake beam, shutter or blast pipe；

Wherein：The scraper of cutting device is not stretched into the annular discharge port in bottom (whole circle) of casing, i.e. the scraper of cutting device exists The cross-sectional direction of casing stretches into depth using the external annulus internal face no more than cooling device as standard, or, cutting device is scraped Knife is stretched into the annular discharge port in bottom (whole circle) of casing, 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 depends on material sealing function, i.e., Material envelope.Material package includes (sintering deposit) material envelope in (sintering deposit) material envelope and feeding chute (or blowpit) in casing.

Typically, wheel rail drive device includes roller and track.Wherein roller includes driving wheel and optional driven pulley.Driving wheel by Motor provides power or driving force.Rail support is on roller.The track can be fixed on casing bottom (bottom of such as pallet), Side or top (suspension type).

The two ends of its middle and lower part air intake equipment set or are fixed on internal ring wall and external annulus respectively, air intake equipment (such as air intake beam, Shutter or blast pipe) air intake openend lead to annular closed inlet air plenum.

It is preferred that, it is provided with wheel rail drive device (or system) in the bottom of pallet.Wheel rail drive device includes：(support drives) rolling Wheel, at least two or (the annular or whole ring shape) guide rail of at least one pair of installed in the bottom of pallet, motor, shaft coupling subtracts Fast device, rotating shaft, bearing.

In the discharging section of cooling device, feed chute is installed above ring groove shape accumulation casing.Under feed chute Trip is provided with material scraper plain film.

The cooling device also includes：It is installed on the groove cold overhead guard at the top of groove cold.Be when mounted first by hoisting port lift to Some position, then production specified location is moved to by overhead guard rolling wheel for mounting, (make revolution fortune in casing after putting into production When dynamic) groove cold overhead guard no longer moves.Groove cold overhead guard is supported by the overhead guard rolling wheel for mounting being installed on support or pillar.

Preferably, the first air outlet pipeline communication is to the waste heat boiler of generating equipment, and the second air outlet pipeline is with changeable side Formula is directly communicated to the air inlet of air blower via the waste heat boiler of pipeline connection to generating equipment or via bypass.More preferably； The gas circuit upstream of waste heat boiler sets gravitational dust collection equipment, i.e. the first air outlet pipeline and/or the second air outlet pipeline are via gravity Cleaner is communicated to the waste heat boiler of generating equipment.It is preferred that；Set gradually in the gas circuit downstream of waste heat boiler sack cleaner with And optional economizer.The air outlet of sack cleaner or economizer is communicated to the air inlet of each air blower.So, realize Distinguished and admirable closed cycle.Because invention takes enclosed air blowing technique, therefore distinguished and admirable closed cycle can be realized.This technology is in original Process rear portion is additionally arranged sack cleaner and economizer (can optionally be turned on and off), will go out the process of the air after waste heat boiler Recycling is blown into circular air inlet room and serves as cooling wind once again after fine grained dedusting.Realize that whole process is wasted without particulate matter air without sensible heat Discharge.

Preferably, one or more cutting devices are arranged on the upstream of discharging section, and feed chute is located under discharging section Trip.So, the high temperature iron ore materials under sintering machine tail are added in the depression or settlement section after discharging.Utilize afterwards Material scraper plain film strikes off.Scraper stretches into bottom half from (annular) discharge port of the bottom of cooling device casing.

Preferably, sealed using buried material.Because exhausting is changed to air blast by the present invention, thus prevent from going here and there wind main positions just by Bed of material top has been converted to material layer lower part.Feeding chute and electromagnetic vibration feeder are set at the discharge port of discharging section, it is preferred that Feeding chute is integrally embedded to ground (following).

Preferably, multiple pressure release ventilation units is provided with the outside of external annulus, for example bypass string wind pressure relief device.Pressure release One end (such as lower end) of ventilation unit (such as bypass string wind pressure relief device) is communicated to closed annular inlet air plenum, the other end (such as upper end) It is communicated to casing external environment condition (that is, casing atmosphere outside) or the air intake equipment (example being communicated within casing upper space Such as air intake beam, shutter or blast pipe equipment).It is preferred that, it is provided with and is divulged information respectively with multiple pressure releases in the upper space of casing Multiple (top) air intake equipment (air intake beam, blinds on such as top of the upper end connection of device (such as bypass string wind pressure relief device) The equipment such as window or blast pipe), such as multiple top air intake beams.It is preferred that, bypass string wind pressure relief device include bypass airduct, rotary shaft, Plate, roller and the horizontal annular of becalming but the track (being referred to as special-shaped track) deformed in the oriented lower recess formula of discharging section.It is preferred that, The air intake beam (K) or blast pipe (K) of bottom, and/or, the air intake beam or blast pipe on top, with circular, ellipse, annular or The cross section of polygon (such as triangle or quadrangle or pentagon).It is preferred that, bottom air intake beam (K) or blast pipe (K) and/ Or side (inclination) through hole is provided with the air intake beam on top or two or more sides of blast pipe and is provided with bottom side logical downwards Hole.That is, side through hole is tilted down, and is pointed to down to lower through-hole.These through holes are ventholes.

It is preferred that, the two ends for the air intake equipment being arranged in casing upper space are separately positioned on internal ring wall and external annulus.Typically, Air intake equipment can be with horizontal or be obliquely installed.The air intake of air intake equipment (equipment such as air intake beam, shutter or blast pipe) is opened Mouth end is connected with the upper end of pressure release ventilation unit (such as bypass string wind pressure relief device).

Under usual state, the roller of bypass string wind pressure relief device is walking in a horizontal state, sky of being combined closely between plate and bypass airduct of becalming Gas cannot be introduced into.When via discharge region, influenceed due to being recessed downwards by special-shaped track, roller downwards pull simultaneously by walking Becalm plate, the one end for thus causing plate of becalming is rotated by the center of circle of rotary shaft so as to be separated with bypass airduct, i.e., in beating Open state, now the air in circular air inlet room, which can enter, bypasses airduct hence into positioned at the liquid-tight envelope blast cooling device of slot type In the air intake beam N on stock column top.Advantage of this is that foring pressure release in discharge region so that the air pressure in the region It is big not as remaining region, so as to alleviate the possibility that air seals outer string via buried material, change an angle and see, thus may be used To provide help to reduce buried material envelope height.

It is preferred that, multiple supports or pillar are set up in the both sides for accumulating casing in the ring groove shape of cooling device respectively.In cooling device Ring groove shape accumulation casing top both sides be provided with spacing gear wheel.Wherein spacing gear wheel is fixed on support or pillar.

The application also provides the sintering deposit cooling means using the liquid-tight envelope blast cooling device of above-mentioned sintering deposit slot type, this method bag Include：1) cooling device does (whole circle) gyration, 2 under the driving of wheel rail drive device) in unloading part by means of cutting device Iron ore material (M) is scraped from the discharge port of the bottom of cooling device casing to carry out discharging (such as scrape feeding chute among), 3) sintering deposit from sintering machine is added to during ring groove shape accumulates casing from feed chute and (preferably, scraped afterwards using material scraper plain film Flat material), 4) passed through from the hot blast of at least one wind pipe (preferably at least two wind pipes) discharge with being connected at the top of hood By the waste heat boiler of pipeline to generating equipment.

It is preferred that, step 4) include following sub-step：4.1) from the first air outlet pipeline discharge hot blast G1 via pipeline to The waste heat boiler of generating equipment, 4.2) from the lower temperature hot blast G2 of the second air outlet pipeline discharge, when G2 temperature is sufficiently high (i.e., It is enough to be used in the waste heat boiler of generating equipment) when, via the waste heat boiler of pipeline to generating equipment, or when G2 temperature is relatively low When, the air inlet of the air blower of groove cold is delivered to via bypass.

In the above method, it is preferred that hot blast G1 and/or G2 are transported to after removing dust via gravitational dust collection equipment respectively The waste heat boiler of generating equipment.

It is preferred that, the low temperature wind G3 discharged from waste heat boiler passes through sack cleaner and further removes dust, then enters via economizer The air inlet of each air blower of groove cold is transported in the case of after one step UTILIZATION OF VESIDUAL HEAT IN or not via economizer.So, Realize distinguished and admirable closed cycle.Because invention takes enclosed air blowing technique, therefore distinguished and admirable closed cycle can be realized.This skill Art is additionally arranged sack cleaner and economizer (can optionally be turned on and off) at former process rear portion, will go out the sky after waste heat boiler Gas recycling once again after fine grained dedusting is blown into circular air inlet room and serves as cooling wind.Realize that whole process is wasted without particle without sensible heat Thing air is discharged.

In operation, revolution circumference (or revolution girth) of the casing along groove cold is turned round.The revolution girth (2 π R) of casing Generally 60-350 meters, preferably 70-320 meters, preferably 80-300 meters, preferably 90-280 meters, more preferably 120-250 meters, Such as 150-200 meters.

Sintering deposit is with the height (that is, height of the bottom tray face to casing upper limb) of the casing of the liquid-tight envelope blast cooling device of slot type 1.5-7.0 meters, preferably 2.5-6.5 meters, preferably 3.5-6 meters, more preferably 4-5.5 meters, more preferably 4.5-5.0 meters.

Compared to traditional central cooler technology and disk cold technology, as shown in Fig. 1-Fig. 9, it mainly has following 5 points of changes：

A1. conventional exhausting is replaced using novel enclosed air blast：Present invention eliminates air draft process, replace and take annular Wind process is entered in closed air compartment air blast, is formed in slot type cooler periphery bottom by setting up seal closure 11a in sintering feed accumulation outer shroud The one closed annular inlet air plenum 11 of circle, inlet air plenum is upper and lower is equipped with sealing device 14, makes its groove cold (i.e. groove with rotation The liquid-tight envelope blast cooling device of formula) form sealing effectiveness between casing internal ring wall 2 and external annulus 3.Air is blown out from air blower 9, Enter closed loop shape inlet air plenum 11 after blast pipe 10, due to being sealed up and down, air can only be from the annular of lower box Pulp cutlet and bottom air intake equipment (K) enter bed of material bottom, are up walked in the bed of material final from charge level blowout.

A2. sealed using buried material：Because exhausting is changed to air blast by the present invention, thus prevent from going here and there wind main positions just on the bed of material Portion has been converted to material layer lower part.The present invention is taken the mode on the overall embedment ground of feeding chute 15 at discharge port.It is flat in civil engineering Face is locally digged pit, and feeding chute 15 is embedded to, and so will not both raise the whole height of whole groove cold, will not also increase excessive Civil engineering dig base cost.

A3. bypass string wind pressure relief device is set up：In order to further reduce buried material envelope height, reduce construction and installation cost.This hair It is bright that bypass string wind pressure relief device 12 is set up in groove cold.Device by bypass airduct 1201, rotary shaft 1202, plate 1203 of becalming, Roller 1204 is constituted with special-shaped track 1205.Under usual state, roller 1204 is walking in a horizontal state, becalm plate 1203 and bypass Air of being combined closely between airduct 1201 cannot be introduced into.When via discharge region, due to by special-shaped track 1205 in unloading part To the influence of lower recess, walking pulls plate 1203 of becalming to roller 1204 simultaneously downwards, thus causes and becalms the one of plate 1203 End is that the center of circle is rotated so as to be separated with bypass airduct 1201 with rotary shaft 1202, and now the air in circular air inlet room 11 can enter Enter to bypass airduct 1201 hence into the air intake beam N on the stock column top of groove cold.Advantage of this is that being formed in discharge region Pressure release so that the air pressure in the region is big not as remaining region, goes here and there so as to alleviate air via buried material envelope is outer Possibility, change angle and see, thus highly can provide help to reduce buried material envelope；

A4. distinguished and admirable closed cycle is used：Because invention takes enclosed air blowing technique, therefore distinguished and admirable closed cycle can be realized. This technology is additionally arranged sack cleaner 19 and economizer 23 (can optionally be turned on and off) at former process rear portion, will go out waste heat Air after boiler is recycled once again after fine grained dedusting to be blown into circular air inlet room 11 and serves as cooling wind.Realize whole without aobvious Heat waster is discharged without particulate matter air.

A5. set up multi-element type and take wind apparatus：The present invention is improved on the basis of original exhaust apparatus, there is provided multi-element type takes wind to fill Put, user can freely adjust the wind into waste heat boiler according to different section air outlet air themperatures caused by different sintering deposit characteristics Amount, to ensure that boiler thermal output maintains a higher scope.As shown in Fig. 2 the present invention is at least in the close charging of groove cold Mouth section and one air outlet of each setting in two positions away from charging aperture section, respectively the first discharge pipe 21 and the second discharge pipe 22. Due to close charging aperture section, therefore the wind-warm syndrome of discharge pipe 21 is guaranteed, and due to away from charging aperture section, the wind of discharge pipe 22 Wen Zehui changes according to many factors such as machine speed, bed depth, permeability of stock column, it is possible to which height is also possible to low.If The wind-warm syndrome of discharge pipe 22 that thermocouple is measured now is sufficiently high, then system automatically turns on the second regulating valve (butterfly valve) 30, simultaneously closes off the One regulating valve (butterfly valve) 29, the air-flow of two discharge pipes is merged into waste heat boiler 28.If thermocouple is measured now The wind-warm syndrome of discharge pipe 22 not enough, if with high temperature section it is distinguished and admirable merge can influence the waste heat boiler thermal efficiency, then system automatically close second adjust Valve 30 is saved, while opening the first regulating valve 29, then the air-flow in discharge pipe 22 is directly entered blower inlet by bypass, It is blended into the cooling wind that next circulation is served as in loop.

Doctor blade device 6 is installed on the outside of (ring) of (annular) groove cold discharge zone, and is wrapped in annular closed air intake by seal closure In room 11.Scraper cross-sectional direction stretch into depth using no more than groove cold outer shroud internal face as standard, can be according to stream situation One is set along annular direction or many scraper.The device uses multiple bottoms or bottom air intake beam (K), and wind is uniformly introduced to material Layer bottom.Bottom or bottom air intake beam are arranged at intervals with certain horizontal direction.For example with about 20-200cm, such as 50-150cm Interval.

In this application, " optionally " represent carry out or without." optional " expression is with or without.

In this application, " annular " generally refers to, along the whole circle of pallet or along the whole circle of disc type blast cooling device (1), remove It is non-to be otherwise noted.

Advantages of the present invention or advantageous effects

1st, the present invention program compares prior art, has the advantage that：

1) device whole height is less demanding：Because the material envelope of the present invention is located at material outlet, and buried mode is taken to design, Bypass pressure relief device is installed in annular closed air compartment simultaneously, so the whole height of groove cold is not influenced too much, Both the integral raising of sintering machine absolute altitude had not been resulted in, the civil engineering ground integrally lower digging of groove cold is not resulted in yet；

2) distinguished and admirable closed cycle：Distinguished and admirable due to the present invention is closed cycle, the directly outer row of air come out from waste heat boiler, But by being recycled after sack cleaner final dusting as cooling wind, thus recycle air sensible completely, And particulate matter does not drain into air outside, and environmental index by raising machine is very helpful；

3) sintering finished rate is high：Due to the forced draft cooling taken of the present invention, thus in the absence of the top material envelope in original technology with The extrusion friction problem between charge level is cooled down, so the yield rate of sintering machine can be substantially improved；

4) environmental pollution can be mitigated：Because the present invention in outer shroud is provided with a circle seal closure.So when sintering deposit is by doctor blade device 6 When scraping, or air blower breaks down when overhauling, and the atmospheric environment around groove cold is all without by the cold internal fine particle of disk Influence, has positive sense for improving environmental protection index.

5) the waste heat boiler thermal efficiency can maintain higher range：Because the present invention takes multi-element type to take wind apparatus, system can be according to reality When the wind-warm syndrome that detects enter the air quantity of waste heat boiler freely to adjust, it is possible to will enter boiler wind-warm syndrome maintain it is one higher In the range of value, so as to ensure that the waste heat boiler thermal efficiency will not be too low.

In summary, this new system scheme of the invention effectively compensate for the multinomial defect present in original technology scheme, compared to more original Technology is more saved, safe and reliable, practicality, it is contemplated that have good market prospects in future.

Brief description of the drawings

Fig. 1 is the schematic cross-sectional view of the liquid-tight envelope blast cooling device (1) of slot type (i.e. groove cold) of the present invention.

Fig. 2 is the schematic top plan view of the liquid-tight envelope blast cooling device (1) of slot type (i.e. groove cold) of the present invention.

Fig. 3 is that (wherein scraper does not stretch into casing to the liquid-tight envelope blast cooling device (1) of another slot type (i.e. groove cold) of the invention It is interior) 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 bypass string wind pressure relief device 12 and its schematic diagram of running 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 air intake beam K or N cross-sectional cut-away schematic diagram.

Fig. 9 is the schematic diagram of cutting device.

Reference

1：The liquid-tight envelope blast cooling device of slot type (i.e. groove cold)；1a：Unloading part；2：The ring of the liquid-tight envelope blast cooling device of slot type Flute profile accumulates the internal ring wall of casing；3：The external annulus of casing；4：Pallet；5：Wheel rail drive device；501：(support drives) Roller；502：Guide rail；503：Motor；504：Shaft coupling；505：Decelerator；506：Rotating shaft；507：Bearing；6：Scrape Knife 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 airduct；1202：Rotate Axle；1203：Becalm plate；1204：Roller；1205：Special-shaped track；13：Spacing 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：Cloth Bag dust collector；21、22：First, second air outlet pipeline；23：Economizer；24：Support or pillar；25：Groove cold top Cover；26：Overhead guard rolling wheel for mounting；27：Ground；28：Airduct；29：First valve or regulating valve (butterfly valve)；30：Second Valve or regulating valve (butterfly valve)；31：Go directly to the pipeline of the air inlet of air blower.M：Iron ore material；K：Bottom air intake Equipment (such as air intake beam)；N：Top air intake equipment (such as air intake beam)；N1：Side (inclination) through hole；N2：Bottom (downward) through hole. R：The radius of gyration of casing.

Embodiment

As shown in figures 1 to 9 there is provided a kind of sintering deposit liquid-tight envelope blast cooling device 1 of slot type, the device includes：

1) sintering deposit from sintering machine is made to be accumulated from top, while the ring groove shape heap of the annular discharge port discharge of peripheral part from below Product casing, the wherein casing include internal ring wall 2, external annulus 3 and the whole ring shape pallet 4 of bottom；

2) it is used for the wheel rail drive device 5 for driving above-mentioned ring groove shape accumulation casing to make gyration in the horizontal direction；

3) the ring-type hood for accumulating top set on casing, the above-mentioned accumulation casing of covering in above-mentioned ring groove shape (or is protected Cover) 8；

4) be connected with the top of above-mentioned hood 8 at least one wind pipe (preferably at least two wind pipes, such as 1-10 is individual, Such as 2-6 or 2-4)；Preferably, there are at least two wind pipes to be connected with the top of above-mentioned hood 8, wherein it is described extremely Few two wind pipes include going out close to casing unloading part 1a the first air outlet pipeline 21 and second away from casing unloading part 1a Air port pipeline 22；

5) seal closure 11a is set up by the periphery in the liquid-tight bottom of envelope blast cooling device 1 of slot type along casing and is sintering stockpile The closed annular inlet air plenum 11 of circle that product outer shroud is formed,

6) sealing device 14 being provided with inlet air plenum upper and lower part (such as in the bottom of pallet 4), make sealing device 14 with Sealing function is formed between the inner ring box body wall 2 and outer shroud box body wall 3 of the ring groove shape accumulation casing of rotation；

7) multiple air blowers 9, their air outlet is respectively through each self-corresponding blast pipe 10 (relative to closed annular inlet air plenum It is " air intake " for 11) it is communicated to closed annular inlet air plenum 11；With

8) one or more cutting devices 6 in the discharging section 1a of cooling device 1 outside are installed on, the latter is by seal closure 11a It is surrounded in annular closed inlet air plenum 11,

Wherein：The scraper of cutting device 6 do not stretched into the annular discharge port in bottom (whole circle) of casing, i.e. cutting device 6 is scraped Knife stretches into depth using the internal face of external annulus 3 no more than cooling device 1 as standard in the cross-sectional direction of casing, or, scraper The scraper of equipment 6 is stretched into the annular discharge port in bottom (whole circle) of casing, it is preferred that spatula end is close to internal ring wall 2.

In the device of the application, entered using two kinds of approach from circular air inlet room 11 is interior into the bottom space (i.e. bottoms material) of casing Wind, one of which approach is the annular discharge port via bottom half periphery, and another approach is via multiple bottom air intake beams (K)。

Bottom or bottom air intake beam are arranged at intervals with certain horizontal direction.For example with about 20-200cm, such as 50-150cm Interval.

Wheel rail drive device 5 (or system) is provided with the bottom of pallet 4.Wheel rail drive device 5 includes：(support drives) rolling Wheel 501, at least two or (the annular or whole ring shape) guide rail 502 of at least one pair of installed in the bottom of pallet 4, motor 503, Shaft coupling 504, decelerator 505, rotating shaft 506, bearing 507.

In the discharging section 1a of cooling device 1, feed chute 7 is installed above ring groove shape accumulation casing.Slipped in charging The downstream of groove 7 is provided with material scraper plain film.

Preferably, the first air outlet pipeline 21 is communicated to the waste heat boiler 19 of generating equipment, and the first air outlet pipeline 22 with Changeable mode is communicated to the waste heat boiler 19 of generating equipment via pipeline 28 or is directly communicated to air blower 9 via bypass 31 Air inlet.More preferably；Gravitational dust collection equipment 18 is set in the gas circuit upstream of waste heat boiler 19, i.e. the first air outlet pipeline 21 And/or second air outlet pipeline 22 waste heat boiler 19 of generating equipment is communicated to via gravitational dust collection equipment 18.It is preferred that；Remaining The gas circuit downstream of heat boiler 19 sets gradually sack cleaner 20 and optional economizer 23.Sack cleaner 20 saves coal The air outlet of device 23 is communicated to the air inlet of each air blower 9.So, distinguished and admirable closed cycle is realized.Because invention takes Enclosed air blowing technique, therefore distinguished and admirable closed cycle can be realized.This technology be additionally arranged at former process rear portion sack cleaner 20 with And economizer 23 (can optionally be turned on and off), the air after waste heat boiler will be gone out and recycled once again after fine grained dedusting It is blown into circular air inlet room 11 and serves as cooling wind.Realize that whole wasted without sensible heat is discharged without particulate matter air.

Preferably, one or more cutting devices 6 are arranged on discharging section 1a upstream, and feed chute 7 is located at discharge zone Section 1a downstream.So, iron ore material is added in the depression or settlement section after discharging.Scraped afterwards using material scraper plain film It is flat.

Preferably, sealed using buried material.Because exhausting is changed to air blast by the present invention, thus prevent from going here and there wind main positions just by Bed of material top has been converted to material layer lower part.Feeding chute 15 and electromagnetic vibration feeder 16 are set at discharging section 1a discharge port, Preferably, the overall embedment ground of feeding chute 15.

Preferably, multiple pressure release ventilation units 12 is provided with the outside of external annulus 3, for example bypass string wind pressure relief device 12. One end (such as lower end) of pressure release ventilation unit 12 (such as bypass string wind pressure relief device 12) is communicated to closed annular inlet air plenum 11, separately One end (such as upper end) is communicated to casing external environment condition (that is, casing atmosphere outside) or is communicated within casing upper space Air intake equipment N (equipment such as air intake beam N, shutter N or blast pipe N).It is preferred that, set in the upper space of casing There are multiple (top) air intakes connected respectively with the upper end of multiple pressure release ventilation units 12 (such as bypass string wind pressure relief device 12) Equipment N (equipment such as the air intake beam, shutter or blast pipe on top), such as multiple top air intake beam N.It is preferred that, bypass Wind pressure relief device 12 of going here and there include bypass airduct 1201, rotary shaft 1202, plate 1203 of becalming, roller 1204 and horizontal annular, But in the track 1205 (being referred to as special-shaped track) of the oriented lower recess formula deformations of discharging section 1a.It is preferred that, the air intake beam N on top or Blast pipe N has the cross section of circular, ellipse, annular or polygon (such as triangle or quadrangle or pentagon).It is preferred that, Side (inclination) through hole (N1) is provided with the air intake beam N or blast pipe N on top two or more sides and is opened on bottom side Oriented lower through-hole (N2).That is, through hole N1 in side is tilted down, and through hole N2 is downward.

It is preferred that, the two ends for the air intake equipment (N) being arranged in casing upper space set or are fixed on respectively internal ring wall (2) and outer shroud On wall (3).Typically, air intake equipment (N) can be with horizontal or be obliquely installed.

Under usual state, roller 1204 is walking in a horizontal state, becalm combined closely between plate 1203 and bypass airduct 1201 air without Method enters.When via discharge region, due to being influenceed by special-shaped track 1205 to lower recess, walking is same downwards for roller 1204 When pull plate 1203 of becalming, thus cause the one end for plate 1203 of becalming with rotary shaft 1202 be the center of circle rotate so as to side Ventilation duct 1201 is separated, i.e., in open mode, now the air in circular air inlet room 11 can enter bypass airduct 1201 from And enter in the air intake beam N on groove cold stock column top.Advantage of this is that foring pressure release in discharge region so that should Air pressure in region is big not as remaining region, so as to alleviate the possibility that air seals outer string via buried material, changes individual Angle is seen, thus can provide help to reduce buried material envelope height.

It is preferred that, multiple supports or pillar 24 are set up in the both sides for accumulating casing in the ring groove shape of cooling device 1 respectively.In cooling The top both sides of the ring groove shape accumulation casing of device 1 are provided with spacing gear wheel 13.Wherein spacing gear wheel 13 be fixed on support or On pillar 24.

Described device 1 also includes：9) it is installed on the groove cold overhead guard 25 at the top of groove cold 1.It is first to be hung by hoisting port when mounted Some position is filled to, then production specified location is moved to by overhead guard rolling wheel for mounting 26, (i.e. in casing after putting into production When making gyration) groove cold overhead guard 25 no longer moves.Groove cold overhead guard 25 passes through the overhead guard that is installed on support or pillar 24 Rolling wheel for mounting 26 is supported.

The application also provides the sintering deposit cooling means using the liquid-tight envelope blast cooling device 1 of above-mentioned slot type, and this method includes：1) Cooling device 1 does (whole circle) gyration, 2 under the driving of wheel rail drive device 5) set in unloading part 1a by means of scraper Iron ore material M is scraped from the discharge port of the bottom of the casing of cooling device 1 for 6 and (for example scrapes feeding chute to carry out discharging Among 15), 3) sintering deposit from sintering machine from feed chute 7 be added to ring groove shape accumulation casing in (preferably, utilize afterwards Material scraper plain film strikes off material), 4) from least one wind pipe (preferably, at least two discharge pipe being connected with the top of hood 8 Road) hot blast of discharge is delivered to the waste heat boiler 19 of generating equipment via pipeline 28.

It is preferred that, step 4) include following sub-step：4.1) the hot blast G1 from the discharge of the first air outlet pipeline 21 is via pipeline 28 It is delivered to the waste heat boiler 19,4.2 of generating equipment) from the lower temperature hot blast G2 of the second air outlet pipeline 22 discharge, work as G2 During temperature sufficiently high (i.e., it is sufficient to the waste heat boiler for generating equipment), the waste heat boiler of generating equipment is delivered to via pipeline 28 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 blast G1 and/or G2 are respectively via gravitational dust collection equipment 18 except defeated after dust Deliver to the waste heat boiler 19 of generating equipment.

It is preferred that, the low temperature wind G3 discharged from waste heat boiler 19 passes through sack cleaner 20 and further removes dust, then via province The air inlet of each air blower 9 is transported in the case of after the further UTILIZATION OF VESIDUAL HEAT IN of coal device 23 or not via economizer 23. So, distinguished and admirable closed cycle is realized.Because invention takes enclosed air blowing technique, therefore distinguished and admirable closed cycle can be realized. This technology is additionally arranged sack cleaner 20 and economizer 23 (can optionally be turned on and off) at former process rear portion, will go out waste heat Air after boiler is recycled once again after fine grained dedusting to be blown into circular air inlet room 11 and serves as cooling wind.Realize whole without aobvious Heat waster is discharged without particulate matter air.

In operation, revolution circumference (or revolution girth) of the casing along groove cold 1 is turned round, as shown in Figure 2.Casing Revolution girth (2 π R) be generally 60-350 meters, preferably 70-320 meters, preferably 90-280 meters, more preferably 120-250 meters, Such as 150-200 meters.

Sintering deposit is 1.5-7.0 meters with the height of the casing of the liquid-tight envelope blast cooling device of slot type, preferably 2.5-6.5 meters, preferably 3.5-6 meters, more preferably 4-5.5 meters, more preferably 4.5-5.0 meters.

Compared to traditional central cooler technology and disk cold technology, it mainly has following 5 points of changes：

A1. conventional exhausting is replaced using novel enclosed air blast：Present invention eliminates air draft process, replace and take annular Wind process is entered in closed air compartment air blast, groove cold periphery bottom by set up seal closure 11a sintering feed accumulate outer shroud form one Closed annular inlet air plenum 11 is enclosed, inlet air plenum is upper and lower to be equipped with sealing device 14, make its groove cold casing internal ring wall with rotation Sealing effectiveness is formed between 2 and external annulus 3.Air is blown out from air blower 9, is entered after blast pipe 10 into closed loop shape Air compartment 11, due to being sealed up and down, air can only be from the air intake beam (K) of the bottom of casing or bottom pulp cutlet and bottom or bottom Into bed of material bottom, up walked in the bed of material final from charge level blowout.

A2. sealed using buried material：Because exhausting is changed to air blast by the present invention, thus prevent from going here and there wind main positions just on the bed of material Portion has been converted to material layer lower part.The present invention is taken the mode on the overall embedment ground of feeding chute 15 at discharge port.It is flat in civil engineering Face is locally digged pit, and feeding chute 15 is embedded to, and so will not both raise the whole height of whole groove cold, will not also increase excessive Civil engineering dig base cost.

A3. bypass string wind pressure relief device is set up：In order to further reduce buried material envelope height, reduce construction and installation cost.This hair It is bright that bypass string wind pressure relief device 12 is set up in groove cold.Device by bypass airduct 1201, rotary shaft 1202, plate 1203 of becalming, Roller 1204 is constituted with special-shaped track 1205.Under usual state, roller 1204 is walking in a horizontal state, becalm plate 1203 and bypass Air of being combined closely between airduct 1201 cannot be introduced into.When via discharge region, due to by special-shaped track 1205 in unloading part To the influence of lower recess, walking pulls plate 1203 of becalming to roller 1204 simultaneously downwards, thus causes and becalms the one of plate 1203 End is that the center of circle is rotated so as to be separated with bypass airduct 1201 with rotary shaft 1202, and now the air in circular air inlet room 11 can enter Enter to bypass airduct 1201 hence into the air intake beam N on groove cold stock column top.Advantage of this is that being formd in discharge region Pressure release so that the air pressure in the region is big not as remaining region, so that alleviate air seals outer string via buried material Possibility, changes an angle and sees, thus can provide help to reduce buried material envelope height；

A4. distinguished and admirable closed cycle is used：Because invention takes enclosed air blowing technique, therefore distinguished and admirable closed cycle can be realized. This technology is additionally arranged sack cleaner 19 and economizer 23 (can optionally be turned on and off) at former process rear portion, will go out waste heat Air after boiler is recycled once again after fine grained dedusting to be blown into circular air inlet room 11 and serves as cooling wind.Realize whole without aobvious Heat waster is discharged without particulate matter air.

A5. set up multi-element type and take wind apparatus：The present invention is improved on the basis of original exhaust apparatus, there is provided multi-element type takes wind to fill Put, user can freely adjust the wind into waste heat boiler according to different section air outlet air themperatures caused by different sintering deposit characteristics Amount, to ensure that boiler thermal output maintains a higher scope.As shown in figure 3, the present invention groove cold close to charging aperture section One air outlet, respectively the first discharge pipe 21 and the second discharge pipe 22 are respectively set with two positions away from charging aperture section.By In close charging aperture section, therefore the wind-warm syndrome of the first discharge pipe 21 is guaranteed, and due to away from charging aperture section, the second discharge pipe 22 wind-warm syndrome 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 low. If the wind-warm syndrome of the second discharge pipe 22 that thermocouple is measured now is sufficiently high, 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 is surveyed The wind-warm syndrome of discharge pipe 22 now not enough, if with high temperature section it is distinguished and admirable merge can influence the waste heat boiler thermal efficiency, then system is closed automatically The second regulating valve 30 is closed, while opening the first regulating valve 29, then the air-flow in discharge pipe 22 is directly entered air blower by bypass Air inlet, is blended into the cooling wind that next circulation is served as in loop.

Doctor blade device 6 is installed on the outside of (ring) of (annular) groove cold discharge zone, and is wrapped in annular closed air intake by seal closure In room 11.Scraper cross-sectional direction stretch into depth using no more than groove cold outer shroud internal face as standard, can be according to stream situation One is set along annular direction or many scraper.Device uses multiple bottoms or bottom air intake beam (K), and wind is uniformly introduced into the bed of material Bottom.

In general, the rotational speed of casing is 1.2-2m/s, for example 1.5m/s, the hot blast G1 of high temperature section discharge temperature Degree commonly reaches 400-500 DEG C, and the hot blast G2 of low-temperature zone temperature can reach 250-350 DEG C, such as 300 DEG C.Unloading part 1a Length be, for example, 8-14m, such as 10m.

Claims (14)

1. sintering deposit is included with the liquid-tight envelope blast cooling device (1) of slot type, the device：

1) sintering deposit from sintering machine is made to be accumulated from top, while the ring groove shape heap of the annular discharge port discharge of peripheral part from below Product casing, the wherein casing include internal ring wall (2), external annulus (3) and the whole ring shape pallet (4) of bottom；

2) it is used for the wheel rail drive device (5) for driving above-mentioned ring groove shape accumulation casing to make gyration in the horizontal direction；

3) the ring-type hood for accumulating top set on casing, the above-mentioned accumulation casing of covering in above-mentioned ring groove shape (or is protected Cover) (8)；

4) at least one wind pipe (such as 1-10, such as 2-6 or 2-4) with being connected at the top of above-mentioned hood (8)；It is excellent Choosing, has at least two wind pipes with being connected at the top of above-mentioned hood (8), wherein described at least two wind pipes (21,22) Including the first air outlet pipeline (21) close to casing unloading part 1a and the second air outlet pipeline (22) away from casing unloading part 1a；

5) seal closure (11a) is set up by the periphery in liquid-tight envelope blast cooling device (1) bottom of slot type along casing and sintered The closed annular inlet air plenum (11) of circle that stockpile product outer shroud is formed,

6) sealing device (14) being provided with inlet air plenum upper and lower part, makes sealing device (14) and the ring groove shape stacker rotated Sealing function is formed between the inner ring box body wall (2) and outer shroud box body wall (3) of body；

7) multiple air blowers (9), their air outlet is communicated to closed annular inlet air plenum respectively through each self-corresponding blast pipe (10) (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 cutting device (6) scraper top multiple bottom air intake equipments (K)；It is excellent Choosing, the air intake equipment (K) of the bottom is air intake beam (K), shutter (K) or blast pipe (K)；

Wherein：The scraper of cutting device (6) is not stretched into the annular discharge port in bottom (whole circle) of casing, i.e. cutting device (6) Scraper stretches into depth using external annulus (3) internal face no more than cooling device (1) as standard in the cross-sectional direction of casing, or, The scraper of cutting device (6) is stretched into the base circle discharge port of casing.

2. device according to claim 1, the two ends of its middle and lower part air intake equipment (K) are separately positioned on internal ring wall (2) and outer On ring wall (3), annular closed air intake is led in the air intake openend of air intake equipment (K) (such as air intake beam, shutter or blast pipe) Room (11).

3. device according to claim 1 or 2, wherein being provided with wheel rail drive device (5) in the bottom of pallet (4)；It is preferred that , wheel rail drive device (5) includes：Roller (501), installed at least two of the bottom of pallet (4) or at least one pair of is led Rail (502), motor (503), shaft coupling (504), decelerator (505), rotating shaft (506), and bearing (507).

4. the device according to any one of claim 1-3, wherein in the discharging section (1a) of cooling device (1), Feed chute (7) is installed above ring groove shape accumulation casing, it is preferred that be provided with material scraper in the downstream of feed chute (7) Plain film.

5. the device according to any one of claim 1-4, wherein, the first air outlet pipeline (21) is communicated to generating and set Standby waste heat boiler (19), and the second air outlet pipeline (22) is communicated to the remaining of generating equipment in changeable mode via pipeline (28) Heat boiler (19) or the air inlet that air blower (9) are directly communicated to via bypass (31)；It is further preferred that in waste heat boiler (19) Gas circuit upstream set gravitational dust collection equipment (18)；More preferably；Bag-type dust is set gradually in the gas circuit downstream of waste heat boiler (19) Device (20) and optional economizer (23)；It is further preferred that the air outlet of sack cleaner (20) or economizer (23) is communicated to each The air inlet of air blower (9).

6. the device according to any one of claim 1-5, wherein one or more of cutting devices (6) are arranged on The upstream of discharging section (1a), and feed chute (7) is located at the downstream of discharging section (1a)；And/or

Wherein, feeding chute (15) and electromagnetic vibration feeder (16) are set at discharging section (1a) discharge port, it is preferred that under Expect chute (15) integrally embedment ground.

7. the device according to any one of claim 1-6, wherein being provided with multiple pressure releases in the outside of external annulus (3) Ventilation unit (12), it is preferable that multiple bypass string wind pressure relief devices (12).

8. device according to claim 7, wherein pressure release ventilation unit (12) (preferably, bypass string wind pressure relief device (12)) One end be communicated to closed annular inlet air plenum (11), the other end is communicated to casing external environment condition or is communicated to positioned at casing upper space Within air intake equipment (N)；It is preferred that, the air intake equipment (N) on the top is air intake beam (N), shutter (N) or blast pipe (N).

9. the device according to claim 7 or 8, wherein bypass string wind pressure relief device (12) include bypass airduct (1201), Rotary shaft (1202), plate of becalming (1203), roller (1204) and horizontal annular but become in the oriented lower recess formula of discharging section (1a) The track (1205) of shape.

10. the device according to claim 1 or 8 or 9, wherein, the air intake beam (K) or blast pipe (K) of bottom, and/ Or, the air intake beam (N) or blast pipe (N) on top, with circular, oval, annular or polygonal cross section；It is preferred that, Opened on the air intake beam (K) or blast pipe (K) and/or the air intake beam (N) on top of bottom or two or more sides of blast pipe (N) There is side through hole (N1) and be provided with bottom side to lower through-hole (N2).

11. usage right requires sintering of the sintering deposit any one of 1-10 with the liquid-tight envelope blast cooling device (1) of slot type Ore deposit cooling means, this method includes：1) cooling device (1) does gyration, 2 under the driving of wheel rail drive device (5)) Iron ore material (M) is scraped from the discharge port of the bottom of cooling device (1) casing by means of cutting device (6) in unloading part (1a) To carry out discharging, 3) sintering deposit from sintering machine from feed chute (7) be added to ring groove shape accumulation casing in, 4) from hood (8) hot blast of at least one wind pipe discharge of top connection is delivered to the waste heat boiler (19) of generating equipment via pipeline (28).

12. method according to claim 11, wherein step 4) include following sub-step：4.1) from the first air outlet pipe The hot blast G1 of road (21) discharge is delivered to the waste heat boiler (19) of generating equipment, 4.2 via pipeline (28)) from the second air outlet The lower temperature hot blast G2 of pipeline (22) discharge, when G2 temperature is sufficiently high, generating equipment is delivered to via pipeline (28) Waste heat boiler (19), or when G2 temperature is relatively low, the air inlet of air blower (9) is delivered to via bypass (31).

13. method according to claim 12, wherein, hot blast G1 and/or G2 are respectively via gravitational dust collection equipment (18) Except the waste heat boiler (19) that generating equipment is transported to after dust.

14. the method according to claim 12 or 13, wherein, the low temperature wind G3 discharged from waste heat boiler (19) passes through cloth Bag dust collector (20) further removes dust, then via after economizer (23) further UTILIZATION OF VESIDUAL HEAT IN or not via economizer (23) In the case of be transported to the air inlet of each air blower (9).