CN208748139U - Electric furnace smelting device - Google Patents

Abstract

The utility model provides an electric furnace smelting device, which relates to the technical field of iron and steel metallurgy. The electric furnace smelting device comprises an electric furnace unit and a flue gas purification and recovery unit. The electric furnace unit at least includes a closed electric furnace, and the closed electric furnace and the flue gas purification and recovery unit are detachably sealed. connect. The flue gas purification and recovery unit is used to purify and recover the generated flue gas during the whole process of electrified smelting in the closed electric furnace. The electric furnace smelting device proposed by the utility model enables smelting and flue gas recovery in a fully enclosed state, which can not only reduce the load and energy consumption of electric furnace dust removal, but also recover CO in the electric furnace flue gas, thereby saving energy and reducing emissions.

Description

A kind of electric furnace smelting device

Technical field

The utility model relates to technical field of ferrous metallurgy, in particular to a kind of electric furnace smelting device.

Background technique

Fire door, electrode hole, upper furnace shell and the water cooling coil pipe gap of bell, bell smoke exhaust pipe in EAF Steelmaking Process at present It is all to do so for opening-wide state primarily to the flue gas generated into furnace is mixed into a large amount of skies between external smoke exhaust pipe Gas promotes CO (carbon monoxide) full combustion in flue gas using the oxygen in air, to reach the requirement diffused safely.But Air has also brought a large amount of nitrogen and other inert gases into while bringing 21% oxygen into, other gas in addition to oxygen Body still will enter in electric furnace, smoke processing system and dust pelletizing system, and nitrogen is split under high-temperature electric arc again after entering in furnace Solution, so this smelting process will cause molten steel nitrogen pick-up, is added significantly to electric stove dust air quantity and energy consumption, on the other hand can't CO in recovered flue gas, is unfavorable for energy conservation and environmental protection.Meanwhile as electric furnace in recent years is added using enhanced oxygen blowing spray carbon, large scale The development of DRI (direct reduced iron) and large scale iron making water producing method, the CO content in electric furnace flue gas are substantially improved, electric furnace cigarette It is higher and higher that gas recycles value.If firing the smelting process of method entirely using traditional open type, increase on the one hand may require that The mixed air capacity of electric furnace flue gas increases the exhaust gas volumn of dedusting and increases dedusting energy consumption, another party while reducing dust removing effects Face cannot recycle the CO in electric furnace flue gas, cause the loss using heat source.

Utility model content

The purpose of this utility model is to provide a kind of electric furnace smelting device, make to carry out in the state of totally-enclosed to smelt and Off-gas recovery is not only able to reduce load and the energy consumption of electric stove dust, moreover it is possible to recycle the CO in electric furnace flue gas, energy-saving and emission-reduction.

In order to achieve the above objectives, the utility model proposes a kind of electric furnace smelting devices, wherein the electric furnace smelting device packet Include electric furnace unit and gas cleaning recovery unit, the electric furnace unit includes at least closed electric furnace, the closed electric furnace with The gas cleaning recovery unit is removedly tightly connected.

Electric furnace smelting device as described above, wherein the closed electric furnace passes through with the gas cleaning recovery unit Telescopic airtight connection mechanism is removedly tightly connected, and the telescopic airtight connection mechanism includes bell smoke exhaust pipe, outside Smoke exhaust pipe and driving hydraulic cylinder, one end of the bell smoke exhaust pipe be sealedly connected on the bell of the electric furnace and with the electric furnace Inner cavity be connected, the other end of the bell smoke exhaust pipe is equipped with fixedly connected part, one end of the external smoke exhaust pipe with it is described Gas cleaning recovery unit is tightly connected, and the other end of the external smoke exhaust pipe is installed with mobile connection part, the mobile connection Part and the fixedly connected part are cylindrical in shape, and the inner wall of the mobile connection part can be sealed with the outer wall of the fixedly connected part Cooperation, the driving hydraulic cylinder are connected on the outer wall of the mobile connection part and the mobile connection part can be driven by near and far From the fixedly connected part.

Electric furnace smelting device as described above, wherein the fixedly connected part and the mobile connection part are water cooling cone Shape flange, the inner wall of the mobile connection part are equipped with the first conical seal (contact) face, and the outer wall of the fixedly connected part is correspondingly provided with the Two conical seal (contact) faces, second conical seal (contact) face can be sealed with first conical seal (contact) face to be cooperated.

Electric furnace smelting device as described above, wherein be equipped with flue gas inspection mechanism in the external smoke exhaust pipe.

Electric furnace smelting device as described above, wherein the gas cleaning recovery unit includes being connected by flue The pre- dirt pocket of the flue gas of connection, waste heat boiler module, gas cleaning module and off-gas recovery and storage module.

Electric furnace smelting device as described above, wherein be provided with second-time burning rifle on the side wall of the pre- dirt pocket of flue gas.

Electric furnace smelting device as described above, wherein the gas cleaning recovery unit further includes flue gas emission module, institute Flue gas emission module is stated to be connected between the gas cleaning module and the off-gas recovery and storage module by reversal valve On the flue.

Electric furnace smelting device as described above, wherein be additionally provided with work between the flue gas emission module and the reversal valve Property charcoal adsorbent equipment.

Electric furnace smelting device as described above, wherein the inspection of foamed slag height is additionally provided on the inner wall of the closed electric furnace Survey mechanism and molten steel temperature testing agency.

Electric furnace smelting device as described above, wherein the inner wall of the closed electric furnace is equipped with oxygen blast mechanism and spray carbon Mechanism.

Compared with prior art, the utility model has the characteristics that and advantage:

The utility model proposes electric furnace smelting device, using closed electric furnace and return closed electric furnace and gas cleaning Unit is received to be tightly connected, in this way, extraneous air is difficult or seldom enters in closed electric furnace in energization smelting process, from And reduce the exhaust gas volumn into gas cleaning recovery unit, the load and energy consumption of gas cleaning recovery unit are thereby reduced, And the oxygen brought by air for decreasing the reducibility gas produced in closed electric furnace carries out secondary oxidation or burning, To improve the content of reducing gas in flue gas, be conducive to further returning for reducibility gas (CO) that generates in closed electric furnace It receives and utilizes；In addition, decreasing the red-hot electrode of furnace high-temperature by the dioxygen oxidation in air, to reduce consumption.

Detailed description of the invention

Attached drawing described here is only used for task of explanation, and is not intended to limit in any way disclosed by the utility model Range.In addition, shape and proportional sizes of each component in figure etc. are only schematically, to be used to help the reason to the utility model Solution is not the specific shape and proportional sizes for limiting each component of the utility model.Those skilled in the art is practical new at this Under the introduction of type, various possible shapes and proportional sizes can be selected to implement the utility model as the case may be.

Fig. 1 be the utility model proposes electric furnace smelting device structural schematic diagram；

Fig. 2 is the structural schematic diagram of telescopic airtight connection mechanism in the utility model；

Fig. 3 is the schematic diagram of foamed slag height detection mechanism and molten steel temperature testing agency in the utility model.

Description of symbols:

1, electric furnace smelting device；10, electric furnace unit；

100, closed electric furnace；110, bell；

111, upper furnace shell；112, lower furnace shell；

113, fire door；114, bell and upper furnace shell sealing mechanism；

115, furnace cover lifting mechanism；120, electrode；

121, electrode holde；122, electrode hole sealing mechanism；

123, conductive cross arm；124, conductive cross arm and electrode rotary mechanism；

125, conductive cross arm elevating mechanism；126, short net；

127, transformer；130, with the charge pipe of sealing structure；

140, foamed slag height detection mechanism；150, molten steel temperature testing agency；

20, gas cleaning recovery unit；21, flue；

211, second-time burning rifle；22, the pre- dirt pocket of flue gas；

23, waste heat boiler module；24, gas cleaning module；

25, off-gas recovery and storage module；26, flue gas emission module；

27, reversal valve；30, telescopic airtight connection mechanism；

31, bell smoke exhaust pipe；32, external smoke exhaust pipe；

33, driving hydraulic cylinder；34, fixedly connected part；

35, mobile connection part；36, flue gas inspection mechanism.

Specific embodiment

In conjunction with the description of attached drawing and specific embodiment of the present invention, the utility model can be clearly understood Details.But specific embodiment of the present utility model described herein, it is only used for explaining the purpose of this utility model, without It can be understood as being limitations of the present invention in any way.Under the introduction of the utility model, technical staff is contemplated that Any possible deformation based on the utility model, these are regarded as belonging to the scope of the utility model.

As shown in Figure 1, the utility model proposes a kind of electric furnace smelting device 1, including electric furnace unit 10 and gas cleaning are returned Unit 20 is received, electric furnace unit 10 includes at least closed electric furnace 100, closed electric furnace 100 and 20 energy of gas cleaning recovery unit Releasably it is tightly connected.

The utility model proposes electric furnace smelting device 1 be used for a kind of electric furnace smelting method, specifically, to closed electric furnace After charging in 110, closed electric furnace 100 is sealed and is tightly connected closed electric furnace 100 and gas cleaning recovery unit 20, energization smelting is carried out to closed electric furnace 100, utilizes gas cleaning recovery unit 20 right during the entire process of being powered and smelting The flue gas generated in closed electric furnace 100 carries out gas cleaning recycling.

The utility model proposes electric furnace smelting device, using closed electric furnace 100 and make closed electric furnace 100 and flue gas Recovery Purifying unit 20 is tightly connected, in this way, extraneous air is difficult or seldom enters closed electricity in energization smelting process In furnace 100, to reduce the exhaust gas volumn into gas cleaning recovery unit 20, gas cleaning recovery unit 20 is thereby reduced Load and energy consumption, and decrease the oxygen brought by air of the reducibility gas produced in closed electric furnace 100 into Row secondary oxidation or burning are conducive to the reduction generated in closed electric furnace 100 to improve the content of reducing gas in flue gas Property gas (CO) it is further recycling and utilization；In addition, decrease the red-hot electrode of furnace high-temperature by the dioxygen oxidation in air, To reduce consumption.

In the present invention, the fire door 113 of closed electric furnace 100, upper furnace shell 111 and lower 112 seam crossing of furnace shell and on It is sealed by sealing structure at gap, bell central electrode hole between 111 furnace wall of furnace shell and bell 110, to guarantee When energization is smelted, extraneous air is difficult or seldom enters in closed electric furnace 100.

The ancillary equipments such as reel cage 13 that electric furnace unit 10 further includes water cooling protective module 12 and electric furnace fascinates, can be used existing Technology, herein without repeating.

In the utility model one optional example, as shown in Fig. 2, closed electric furnace 100 and gas cleaning recycling are single Member 20 is removedly tightly connected by telescopic airtight connection mechanism 30, and telescopic airtight connection mechanism 30 discharges fume including bell Pipe 31, external smoke exhaust pipe 32 and driving hydraulic cylinder 33, one end of bell smoke exhaust pipe 31 are sealedly connected on the furnace of closed electric furnace 100 It is connected on lid 111 and with the inner cavity of closed electric furnace 100, the other end of bell smoke exhaust pipe 31 is equipped with fixedly connected part 34, outside One end of portion's smoke exhaust pipe 32 and gas cleaning recovery unit 20 are tightly connected, and the other end of external smoke exhaust pipe 32 is installed with mobile company Fitting 35, fixedly connected part 34 and mobile connection part 35 are cylindrical in shape and mobile connection part 35 can correspond to and be set in fixedly connected part Outside 34, the inner wall of mobile connection part 35 can be sealed with the outer wall of fixedly connected part 34 to be cooperated, and driving hydraulic cylinder 33 is connected to movement On the outer wall of connector 35 and mobile connection part 35 can be driven close to or far from fixedly connected part 34.In this way, working as closed electric furnace 100, which fascinate, leaves the port, and when needing to separate with gas cleaning recovery unit 20, drives 35 He of mobile connection part using driving hydraulic cylinder 33 External smoke exhaust pipe 32 is separated with the realization of gas cleaning recovery unit 20, is driven far from fixedly connected part 34, closed electric furnace 100 Hydraulic cylinder 33 can not influence closed 100 furnace body of electric furnace after mobile connection part 35 is pulled away from 34 certain distance of fixedly connected part It fascinates；When being ready for energization smelting, drive mobile connection part 35 close to fixedly connected part 34 using driving hydraulic cylinder 33, and The outer wall sealing of the inner wall and fixedly connected part 34 that make mobile connection part 35 cooperates, and mobile connection part 35 and fixedly connected part 34 are closed After conjunction, the sealed connection of closed electric furnace 11 and gas cleaning recovery unit 20 is realized, prevent while electric furnace smelting smoke evacuation outer Boundary's air enters flue (bell smoke exhaust pipe 31 and external smoke exhaust pipe 32)；During entire energization is smelted, driving hydraulic cylinder 33 exert a force to mobile connection part 35 always, to guarantee that the sealing of mobile connection part 35 and fixedly connected part 34 cooperates.

In the utility model one optional example, fixedly connected part 34 and mobile connection part 35 are water cooling coning The inner wall of orchid, mobile connection part 35 is equipped with the first conical seal (contact) face, and it is close that the outer wall of fixedly connected part 34 is correspondingly provided with the second taper Cover.When needing to be tightly connected, pushes mobile connection part 35 to fixedly connected part 34 using driving hydraulic cylinder, keep the first taper close Cover and the sealing of the second conical seal (contact) face cooperate.

In the utility model one optional example, external smoke exhaust pipe 32, which can according to need, is designed as bend pipe.

In the utility model one optional example, flue gas inspection mechanism (flue gas inspection is equipped in external smoke exhaust pipe 32 Instrument) 36.For detecting CO volumetric concentration in the flue gas being discharged by closed electric furnace 100.

In the utility model one optional example, gas cleaning recovery unit 20 includes being connected by flue 21 The pre- dirt pocket 22 of the flue gas of connection, waste heat boiler module 23, gas cleaning module 24 and off-gas recovery and storage module 25.

In the utility model one optional example, waste heat boiler module 23 can quick cooled flue gas, waste heat pot Oven module 23 to the cooling velocity of flue gas up to 250 DEG C/s or more, in this way can be by the flue gas by being discharged in closed electric furnace 100 Temperature is quickly down to 300 DEG C or less by 1000 DEG C or more.

Gas cleaning module 24 can further purify the flue gas by being discharged in closed electric furnace 11, make the dustiness of flue gas Enter the next step after reaching discharge standard.

In the utility model one optional example, gas cleaning recovery unit 20 further includes flue gas emission module 26, Flue gas emission module 26 is connected to the cigarette between gas cleaning module 24 and off-gas recovery and storage module 25 by reversal valve 27 In feed channel 21.Can control by reversal valve 27 by the flue gas that gas cleaning module 24 flows out is to enter off-gas recovery and storage Module 25 carries out recycling storage or is diffused into flue gas emission module 26.

In the utility model one optional example, active carbon is additionally provided between flue gas emission module 26 and reversal valve 27 Adsorbent equipment 28.

In the utility model one optional example, second-time burning rifle is provided on the side wall of the pre- dirt pocket 22 of flue gas 221.In CO concentration in flue gas < 20%, second-time burning rifle 221 can spray into oxygen into the pre- dirt pocket 22 of flue gas and promote in flue gas CO carry out full combustion.

In the present invention, the pre- dirt pocket 22 of flue gas, waste heat boiler module 23, gas cleaning module 24, off-gas recovery The prior art can be used with storage module 25 and flue gas emission module 26.

In the utility model one optional example, as shown in figure 3, being additionally provided with bubble on the inner wall of closed electric furnace 100 Foam slag height detection mechanism 140 and molten steel temperature testing agency 150.Pass through foamed slag height detection mechanism 140 and molten steel temperature Testing agency 150, can smelting situation in closed 100 furnace of electric furnace of continuous observation under air-tight state now.

In the utility model one optional example, foamed slag height detection mechanism 140 and molten steel temperature testing agency 150 are mounted on the adverse circumstances that the more dirt of furnace high-temperature are born in water cooling protection mechanism, and 140 He of foam slag height detection mechanism Molten steel temperature testing agency 150 can carry out installation and replacement outside furnace.

In the utility model one optional example, foamed slag height detection mechanism 140 and molten steel temperature testing agency 150 use the prior art.

In the utility model one optional example, oxygen blast mechanism and spray are additionally provided on the inner wall of closed electric furnace 100 Carbon mechanism.Can in closed 100 furnace of closed electric furnace by oxygen blast and spray carbon method or in which a kind of method with contain Oxygen or carbonaceous material reaction generate CO gas, and can generate the dense of CO gas by adjusting oxygen blast or spraying the intensity of carbon to control Degree；Meanwhile the CO gas generated in closed electric furnace 100 is recycled by the gas cleaning being tightly connected with closed electric furnace 100 Unit 20 recycles.

In the present invention, oxygen blast mechanism and Pen Tan mechanism can use the prior art.

In the utility model one optional example, when molten steel temperature testing agency 150 monitors that liquid steel temperature is higher than At 1570 DEG C, then start oxygen blast making foamed slag using oxygen blast mechanism；Foamed slag height detection mechanism 140 monitors that clinker height is low When 300mm, then the oxygen blast of oxygen blast mechanism and Pen Tan mechanism and the ability of spray carbon are improved, it is on the contrary then reduce oxygen mechanism and spray carbon machine The oxygen blast of structure and the ability of spray carbon.

In the utility model one optional example, flue gas enters pre- in flue gas first after gas cleaning recovery unit 20 Dirt pocket 22 carries out burning dedusting, as CO volumetric concentration < 5% in the flue gas being discharged by closed electric furnace 100 (by closed CO volumetric concentration is detected by the flue gas inspection mechanism 36 being arranged in external smoke exhaust pipe 32 in the flue gas that electric furnace 100 is discharged), it is secondary Flue gas of the combustion gun 211 into the pre- dirt pocket 22 of flue gas is blown into oxygen to promote the full combustion of CO in flue gas and be down to safe model In enclosing, as CO volumetric concentration >=5% and O in the flue gas of closed electric furnace 100 discharge₂When volumetric concentration < 1%, second-time burning rifle 211 stop being blown into oxygen into the pre- dirt pocket 22 of flue gas.

In the utility model one optional example, when CO volumetric concentration in the flue gas being discharged by closed electric furnace 100 >=5% and O₂When volumetric concentration < 1%, off-gas recovery and storage module 25 start to carry out recycling deposit to inner flue gas of the stove；When by close In the flue gas that enclosed electric furnace 100 is discharged when CO volumetric concentration < 5%, flue gas is diffused by flue gas emission module 26.

In the utility model one optional example, electric furnace smelting device 1 can also include control unit, drive liquid Cylinder pressure 33, flue gas inspection mechanism 36, reversal valve 27, second-time burning rifle 221, foamed slag height detection mechanism 140, molten steel temperature inspection Mechanism 150, oxygen blast mechanism and Pen Tan mechanism is surveyed to be electrically connected with control unit；In this way, flue gas inspection can be received by control Survey mechanism 36, the testing result of foamed slag height detection mechanism 140 and molten steel temperature testing agency 150 and control reversal valve 27, The operation of second-time burning rifle 221, oxygen blast mechanism and Pen Tan mechanism.Wherein, control unit and its equal with being electrically connected for above-mentioned component The prior art can be used, herein without repeating.

As shown in Figure 1, closed electric furnace 100 may include transformer 127, short net 126, conductive cross in the present invention Arm 123, conductive cross arm and electrode rotary mechanism 124, conductive cross arm elevating mechanism 125, furnace cover lifting mechanism 115, electrode 120, Electrode holde 121, electrode hole sealing mechanism 122, the charge pipe 130 with sealing structure, bell 110, bell and upper furnace shell Sealing mechanism 114, upper furnace shell 111, fire door 113, lower furnace shell 112.Wherein, electrode hole sealing mechanism 122 prevent outside air into Enter in furnace；Fire door 113 is closed fire door, is able to achieve and prevents outside air from entering in furnace while deslagging；Upper 111 He of furnace shell Lower furnace shell 112 prevents outside air from entering in furnace using the closed structure of water cooling coil pipe and external application steel plate.

Now in conjunction with attached drawing 1, to the utility model proposes the smelt production of electric furnace smelting device be described in detail. The specific steps of which are as follows:

Step 1: first time basket charging, first with conductive cross arm elevating mechanism 125 by conductive cross arm 123 and electrode 120 bottom ends are promoted at 111 top 200mm of furnace shell, then recycle furnace cover lifting mechanism 115 that bell 110 is jacked 500mm Afterwards, after recycling conductive cross arm and electrode rotary mechanism 124 that electrode 120 and bell 110 are unscrewed to 72 ° or more of angle, smelting 50~70% furnace charges (steel scrap, carbon block, the pig iron, molten iron, DRI or mixture) of refining are added in furnace above upper furnace shell 111, Then conductive cross arm and electrode rotary mechanism 124 are by above bell 110 and conductive cross arm 123 and 120 cycle of electrode to furnace shell, furnace After bell 110 is declined the closure of 500mm and upper furnace shell 111 by lid elevating mechanism 115, the raise-lower hydraulic of furnace cover lifting mechanism 115 Cylinder will continue to decline 200mm and bell 110 is completely disengaged, and bell 110 has been fallen on upper furnace shell 111 by gravity, in order to prevent Bell 110 slides, and upper 111 top of furnace shell is additionally provided with guiding fixed mechanism.It gives up it should be noted that step 1 is mainly used for being packed into Steel, when do not need be packed into steel scrap when, the utility model proposes electric furnace smelting method then by step 2.

Step 2: furnace body is closed.The closure mechanism 114 of bell and upper furnace shell is then realized and upper furnace by the gravity of bell 110 Shell 111 seals, and the three-phase electrode hole on bell 110 is sealed by electrode hole sealing mechanism 122；The fire door 113 of electric furnace is Closed fire door can prevent air to be entered in furnace in smelting process by fire door 113 and enter；The bell being installed on bell 110 Smoke exhaust pipe 31 is sealed with external smoke exhaust pipe 32 by fixedly connected part 34 and mobile connection part 35.

Step 3: be powered fusing.After completing step 2, transformer 127 begins through short net 126 and conductive cross arm 123 to electricity 120 power transmission of pole, then electrode 120 melts furnace charge；Entire fusion process be use closed structure carried out it is closed Closed electric furnace 11 in carry out；

Step 4: second of basket charging, this step are mainly used for needing second when being packed into steel scrap, when not needing second When secondary loading steel scrap, then by step 5.To the first melting batch materials 90% or more, transformer 127 can stop powering, and After promoting electrode 120, remaining 30~50% second batch furnace charge is added in furnace according to mode described in step 1, then presses step 2 It is closed to carry out furnace body, is then carrying out energization fusing by step 3.

Step 5: being packed into DRI and slag material.To the first melting batch materials 90% or more, liquid state molten pool has been basically formed in furnace Afterwards, DRI and slag material are initially added into.DRI and slag material after the charging system mixing by bell 110 with sealing structure Charge pipe 130 is continuously packed into furnace by the speed of 20kg/MW.min, stops charging after reaching the additional amount set.

Step 6: carbon is sprayed in oxygen blast, this step is synchronous with step 5 to be carried out.After step 5 starts charging, using on furnace wall Multifunctional furnace wall gun 160 (Pen Tan mechanism and oxygen blast mechanism) to molten bath in setting flow and ratio carry out oxygen blast and spray carbon, Oxygen is sprayed into metal bath by adjusting the angle of spray gun, and carbon dust is injected in clinker, while according to foamed slag height The monitoring result of testing agency 140 and molten steel temperature testing agency 150, the time of adjustment oxygen blast spray carbon and flow are spent, to guarantee Reasonable foamed slag temperature and heating rate.When monitoring that liquid steel temperature is higher than 1570 DEG C, then start oxygen blast making foamed slag, steeps When foam slag height detection mechanism 140 monitors clinker height lower than 300mm, then Multifunctional furnace wall gun control system is sent a signal to System, to promote oxygen blast and spray the ability of carbon, ability that is on the contrary then reducing oxygen blast spray carbon.It should be noted that Multifunctional furnace wall gun The prior art can be used.

Step 7: stirring heating, this step is synchronous with step 5 to be carried out.After step 5 starts charging, using mounted in furnace bottom On air brick be blown into inert gas (nitrogen or argon gas) into furnace molten bath be stirred, to accelerate fusing, heating and chemistry Reaction speed.

Step 8: smoke combustion dedusting, this step operation is through the entire smelting process of electric furnace.It is produced during electric furnace smelting Raw flue gas is introduced into the pre- dirt pocket 22 (also referred to as burning dirt pocket) of flue gas by bell smoke exhaust pipe 31 and external smoke exhaust pipe 32, when When flue gas inspection mechanism 36 detects CO concentration in flue gas < 5%, be mounted on burning dirt pocket side wall second-time burning rifle 211 to The burning indoor flue gas of dedusting is blown into oxygen to promote the full combustion of CO in flue gas and be down in safe range, works as flue gas inspection Mechanism 36 detects CO volumetric concentration >=5% and O in flue gas₂When < 1%, it is mounted on the second-time burning rifle of combustion settling chamber side wall 211 stop being blown into oxygen into combustion settling chamber；

Step 9: flue gas is quickly cooled down, and flue gas enters waste heat boiler module 23 after being extracted from burning dirt pocket, through remaining After hot pot oven module 23 is cooling, flue-gas temperature is down to 300 DEG C or less within 3 seconds；

Step 10: gas cleaning is handled subsequently into gas cleaning module 24, purified treated dust concentration Reach requirement and enters back into off-gas recovery and memory module 25 or release later；

Step 11: off-gas recovery or release, after step 10, when the CO concentration in flue gas is fed back by flue gas inspection mechanism 36 Testing result >=5% and O₂When < 1%, off-gas recovery and storage module 25 start to carry out recycling deposit to inner flue gas of the stove, work as CO When volumetric concentration < 5%, flue gas is diffused by flue gas emission module 26.

Step 12: deslagging.Since step 6, clinker will be constantly generated in furnace, these clinkers are after accumulation to a certain extent It can persistently be excluded by fire door 113, fire door 113 is closed fire door and prevents outside air from entering while may be implemented in deslagging In furnace.

Step 13: tapping.When in furnace bath temperature and carbon content reach set objective after, turndown tapping can be carried out, After tap reaches setting value, furnace body, which quickly returns, to incline to horizontal position, exposes tapping hole and guarantees there is 40% or so in furnace Stay steel amount.

Step 14: filling sand and fettling.After tapping is completed, needs to clear up tapping hole and fill sand.Simultaneously Resistance to material in furnace is checked and is repaired in time, the smelting of next furnace is got out.

For explaining in detail for the respective embodiments described above, purpose, which is only that, explains the utility model, in order to It better understood when the utility model, still, these descriptions cannot be with any explanation at being limit to the utility model System, in particular, each feature described in various embodiments can also mutual any combination, to form other implementations Mode, in addition to there is clearly opposite description, these features should be understood to can be applied in any one embodiment, and simultaneously It is not only limited to described embodiment.

Claims (10)

1. An electric furnace smelting device, characterized in that the electric furnace smelting device comprises an electric furnace unit and a flue gas purification and recovery unit, and the electric furnace unit at least includes a closed electric furnace, and the closed electric furnace and the flue gas purification and recovery unit Removably sealed connection. 2 . The electric furnace smelting device according to claim 1 , wherein the closed electric furnace and the flue gas purification and recovery unit are detachably and sealedly connected by a telescopic closed connection mechanism, and the telescopic closed connection mechanism comprises: 2 . A furnace cover smoke exhaust pipe, an external smoke exhaust pipe and a driving hydraulic cylinder, one end of the furnace cover smoke exhaust pipe is sealed and connected to the furnace cover of the electric furnace and communicated with the inner cavity of the electric furnace. The other end of the smoke pipe is provided with a fixed connector, one end of the external smoke exhaust pipe is sealedly connected with the flue gas purification and recovery unit, and the other end of the external smoke exhaust pipe is fixed with a movable connector, and the mobile connection The connecting piece and the fixed connecting piece are both cylindrical, and the inner wall of the moving connecting piece can be sealingly matched with the outer wall of the fixed connecting piece, and the driving hydraulic cylinder is connected to the outer wall of the moving connecting piece and can drive The moving link is near and far from the fixed link. 3 . The electric furnace smelting device according to claim 2 , wherein the fixed connector and the movable connector are both water-cooled conical flanges, and the inner wall of the movable connector is provided with a first conical seal. 4 . The outer wall of the fixed connecting piece is correspondingly provided with a second conical sealing surface, and the second conical sealing surface can be sealingly matched with the first conical sealing surface. 4 . The electric furnace smelting device according to claim 2 , wherein a smoke detection mechanism is arranged in the external smoke exhaust pipe. 5 . 5. The electric furnace smelting device according to claim 1, wherein the flue gas purification and recovery unit comprises a flue gas pre-dusting chamber, a waste heat boiler module, a flue gas purification module and a flue gas recovery unit connected in series through a flue gas pipeline and storage modules. 6 . The electric furnace smelting device according to claim 5 , wherein a secondary combustion gun is arranged on the side wall of the flue gas pre-dusting chamber. 7 . 7 . The electric furnace smelting device according to claim 5 , wherein the flue gas purification and recovery unit further comprises a flue gas discharge module, and the flue gas discharge module is connected to the flue gas purification module and the flue gas purification module through a reversing valve. 8 . on the flue gas duct between the flue gas recovery and the storage module. 8 . The electric furnace smelting device according to claim 7 , wherein an activated carbon adsorption device is further arranged between the flue gas discharge module and the reversing valve. 9 . 9 . The electric furnace smelting device according to claim 1 , wherein the inner wall of the closed electric furnace is further provided with a foam slag height detection mechanism and a molten steel temperature detection mechanism. 10 . 10 . The electric furnace smelting device according to claim 1 , wherein an oxygen blowing mechanism and a carbon injection mechanism are arranged on the inner wall of the closed electric furnace. 11 .