CN202063946U - Smelting device with electric furnace capable of feeding materials in differential and closed way - Google Patents

Abstract

The utility model discloses a smelting device with an electric furnace capable of feeding materials in a differential and closed way. The smelting device comprises the electric furnace and a feeding device, wherein the feeding device comprises a cold material receiving conveying chute and a heat conveying chute, excitation devices are arranged below the cold material receiving conveying chute and the heat conveying chute respectively and can be controlled independently, a conveying throat is arranged at the exit of the cold material receiving conveying chute and stretches into the heat conveying chute, and the distance between the conveying throat and the bottom of the heat conveying chute is equal to or larger than the depth of the heat conveying chute. Excitation of different frequencies is exerted on the two conveying chutes through a feeding method provided by the utility model to realize the differential conveying of raw materials, so that a thicker material layer can be laid on the cold material receiving conveying chute, the feeding speed is accelerated, and the cold material receiving conveying chute and a conveying bottom can be designed to have shorter lengths for the convenience of project implementation. In addition, as structures of the throat and a sealing door are provided, material blocking probability and air leaking amount are greatly reduced; and the smelting device has the advantages of low heat loss, good dust removing effect, high smelting efficiency, energy saving and environmental protection.

Description

The electrosmelting device of differential airtight feeding

Technical field

The utility model belongs to metallurgical technology field, is specifically related to a kind of electrosmelting device.

Background technology

A kind of important method for making steel of electrosmelting, it is by arc-melting steel scrap metal, and as can consume a large amount of electric energy in EAF Steelmaking Process, at present, full scrap smelting power consumption expense accounts for 8～9% of production cost.In the electric energy that consumes, except that the consumed power of deposite metal, the body of heater of electric furnace body in operating process dispels the heat and reached 100kwh/t and 140kwh/t respectively by the heat that flue gas is taken away, and both totals account for 34～40% of electrosmelting power consumption; In addition, the worker assists system's (as dust-removal system and cooling water system) also can consume the part electric energy, has to report that it is 20～30kwh/t that the power of motor of dedusting fan is amounted to the electric furnace electric power consumption per ton steel.In addition, in the electrosmelting process, metal losses such as steel scrap, supplementary product onsumption (slag former, oxygen, auxiliary fuel, anti-material, electrode etc.) account for 90% of production cost.Equipment maintenance cost also will account for 1～2%.From knowing of above-mentioned analysis, the main path that reduces the electric furnace production cost has: a) reduce direct power consumption; B) reduce indirect power consumption; C) reduce raw materials consumption; D) reduce maintenance of the equipment.Though it should be noted that the equipment maintenance cost proportion is little, the equipment that maintenance is big can reduce production efficiency, in a disguised form increases the cost of whole production chain.

Reducing various consumption in the electric furnace production process is important goals that present various countries expert pursues.In addition, up-to-date environment protection control requirements (noise, Dioxins discharging) has also proposed the new demand of furnace technology.

Be a kind of typical steel scrap preheating and PNEUMATICALLY CONTROLLED PERISTALTIC SOLIDS based on the CONSTEEL that vibrates continuous charging in the world at present, it is characterized by horizontal duct continuous-feeding technology, have stabilising arc smelt, produce noise low, electrical network is impacted advantages such as little, the report of use is all arranged both at home and abroad, has at this relevant patent background technology and main reference document of listing:

1) US4543124A date of application: 1984.8.2, authorization date: 1985.9.24

2) US5400358 date of application: 1992.10.13, authorization date: 1995.3.21

3)?WO2007006558A2

4) CN 200680000679.8 (Chinese patent application)

5) 1990, steel-making, U.S.'s electric arc furnace continuous steelmaking-CONSTEEL technology (Yin Baoyan translates)

6) " industry heating " the 3rd phase Kang Sidi electric furnace and steel scrap preheating in 2006

7) introduction of 2008 the 6th phase 60t of modern mechanical Consteel electric arc furnace dust-removal system

Above-mentioned information shows that the CONSTEEL technique functions comes from the mid-80 in last century, but up-to-date patent application was in 2007.

VAI been has also has been researched and developed the scrap steel preheating system of shaft furnace notion in the middle and later periods eighties, Japan has developed ECOARC electric furnace (environmental friendliness stove) based on the shaft furnace notion.

In recent years, domesticly also doing a large amount of R and D aspect the waste steel for electric furnace preheating, relevant patent application has:

1)?ZL00210540.3?；2)?ZL200620082237.X；3)?ZL200720089528.6

Smelting CCID among the CISDI() studying the reinforced mode of movement SKISTEEL of steel scrap environmental protection efficiently, adopted the skewed slot conveying principle, applied for that a series of patent is to constitute patent system.This technology can realize compact steel scrap feed way, the smelting of electric furnace stabilising arc, and environmental protection and consumption reduce, and reduce the expense of the production process of electric furnace.The patent application background technology that CISDI is relevant mainly contains:

CN201010170509.2(device for preheating and conveying scrap steel, open)

CN 101776395 (a kind of electric furnace charging and primary heater unit, open)

(201020607906.7 duct formula melting container raw material is carried and the flue dust retrieving arrangement)

Conventional electric furnace production process, existing CONSTEEL, existing SKISTEEL technical study are found that still there are the following problems in the prior art:

1) conventional electric furnace flue gas dedusting settling pocket Dust Capacity is bigger, and it is higher to contain recyclable composition in the dust;

2) the conventional electric furnace production adding steel scrap of need uncapping, electric furnace heat scatter and disappear and power consumption higher, production environment is abominable;

3) conventional electric furnace production need be carried out frequent power operation, and the maintenance of the equipment amount is bigger;

4) CONSTEEL scrap steel conveying device system is long, adopts horizontal feed, and vibration equipment is big, start and stop inconvenience, and transport efficiency is lower, and floor space is big.

5) the CONSTEEL steel scrap has bigger mixed wind from blow tank to the dynamic seal of heating zone moving process, can increase fan capacity (referring to listed document);

6) CONSTEEL is to have relatively high expectations (the frivolous material) of steel scrap, the bad adaptability that raw material is carried;

7) in the transportation scheme that CISDI proposes, its core has adopted the skewed slot conveying, skewed slot is carried and is utilized object gravity to carry, can reduce transmitting power (power is induced and just controlled feed rate) greatly, and can accelerate feed rate, but the problem of bringing is, the equipment afterbody progressively raises, the steel scrap high strength material loading of electric furnace serialization production requirement has brought huge challenge to this programme, CN201010170509.2 has proposed microscler intake chute feeding in raw material at shimmy skewed slot first, but reinforced feed height and the planeness of microscler intake chute can't accurately be controlled, freezing air sealing to inlet brings new challenge again, simultaneously, because the adhesion between the steel scrap, it is not smooth to make steel scrap carry when the material feeding conveyer trough enters hot conveyer trough, problem such as occur easily getting stuck, laying depth can not be excessive in blow tank to have limited steel scrap, brings the low problem of loading efficiency, just can't not make this technology enter engineering construction and do not address this problem, the problem that faces of other CISDI patent families also is similar;

8) owing to the direct preheating scrap of flue gas, the Dioxins discharging can not reach environmental protection index.

Therefore, need existing electrosmelting device is improved, and a kind of brand-new feeding method and smelting process proposed, solve the adhesion problems of steel scrap in course of conveying, improve loading efficiency, in addition, also reduce energy consumption and thermosteresis in the scrap smelting process, reduction flue gas direct preheating scrap function realizes efficient, the energy-conserving and environment-protective of production process and the comprehensive optimization of investment.

Summary of the invention

In view of this, the utility model provides a kind of electrosmelting device of differential airtight feeding, can solve the problem of adhesion in the steel scrap course of conveying by this device, utilize described reinforced and smelting process, can effectively reduce energy consumption and thermosteresis in the scrap smelting process, realize the purpose of efficient, the energy-conservation and environmental protection of production process.

The electrosmelting device of differential airtight feeding of the present utility model, comprise electric furnace and feeding device, described feeding device comprises cold material feeding conveyer trough and hot conveyer trough, described cold material feeding conveyer trough below is provided with the exciting device I of independent control, hot conveyer trough below is provided with the exciting device II of independent control, the outlet of described cold material feeding conveyer trough is provided with the conveying aditus laryngis that stretches in the hot conveyer trough, and the distance between the bottom land of conveying aditus laryngis and hot conveyer trough is equal to or greater than the degree of depth of hot conveyer trough.

Further, the discharge end of described conveying aditus laryngis is provided with hermatic door I to be opened/closed, and the charging opening of described cold material feeding conveyer trough is provided with hermatic door II to be opened/closed;

Further, be provided with the connection slot that is used for raw material is imported electric furnace between described hot conveyer trough and the electric furnace;

Further, described connection slot is installed on the setting traversing dolly thereunder;

Further, described connection slot is can be along the flexible structure of feed direction, and connection slot is arranged on the hot conveyer trough, and described hot conveyer trough is provided with the traversing dolly of off-line along the front end of feed direction;

Further, described connection slot is for can be along feed direction flexible or can be along the structure of the vertical swing of having sent direction, and connection slot is arranged on the electric furnace, and described hot conveyer trough is provided with the traversing dolly of off-line along the front end of feed direction;

Further, described hot conveyer trough is provided with dirt and falls cover, and dirt falls cover and becomes falling dust room with hot conveyer trough one common peripheral, and dirt falls cover and is provided with the dedusting mouth;

Further, described electric furnace is provided with dust removing tube, and dust removing tube is communicated with falling dust room;

Further, described dirt falls cover and is made of fixed enclosure and detachable cover body, and the removable hood body is positioned at the front end of hot conveyer trough along feed direction;

Further, the wall body of cover falls in described dirt to be made by refractory materials, and the waste heat recovery module that the cover wall is equipped with evaporated flue pipe, water cooled pipeline or modular design on one's body falls in dirt;

Further, be provided with burner in the described falling dust room;

Further, be positioned at the layout setting of blanking cold-zone in the described electric furnace boosting nozzle is arranged;

Further, open reinforced elongated slot at the bottom of described cold material feeding conveyer trough top is provided with haul;

Further, opening at the bottom of the described haul that reinforced elongated slot is arranged at can be along on the vertical mobile hopper travelling platform of feed direction;

Further, the angle of described cold material feeding conveyer trough and hot conveyer trough and horizontal direction is 0～90 °.

Two of the purpose of this utility model provides the method that a kind of electrosmelting device that uses described differential airtight feeding carries out feeding, may further comprise the steps:

A) stone: with opening reinforced elongated slot handling at the bottom of the haul or being transported to cold material feeding conveyer trough top, open the hermatic door II and close the hermatic door I, open reinforced elongated slot at the bottom of the control haul and open, make raw material be layed in cold material feeding conveyer trough bottom by the hopper travelling platform;

B) carry: after finishing stone, close the hermatic door II and open the hermatic door I, control two exciting device I and exciting device II and with different frequencies cold material feeding conveyer trough and hot conveyer trough are applied exciting respectively and carry out differential feed, the excited frequency of exciting device II is higher than the excited frequency of exciting device I.

The beneficial effects of the utility model: the electrosmelting device of differential airtight feeding of the present utility model has the following advantages:

1) owing to adopted cold material feeding conveyer trough and heat to send groove differential conveying, the bed of material of cold material feeding conveyer trough can be piled thicklyer, this on the one hand can accelerate material loading speed, also can shorten the length of cutting elongated groove at the bottom of cold material feeding conveyer trough and the haul simultaneously, has strengthened the engineering construction feasibility of correlation technique;

2) combination of cold material feeding conveyer trough, conveying aditus laryngis, hermatic door device, greatly reduce the probability that the hermatic door device gets stuck in traditional duct, the reliability and the sealing effectiveness of equipment have been improved, also reduce inleakage, improved the dust-laying effect of dust-settling compartment, production environment is greatly improved, dust content and outflow temperature in the discharge flue gas have been reduced, improve the effect that follow-up fume afterheat utilizes, reduced the load of follow-up dust-removal system, reduced the consumption of maintenance of the equipment and supplementary energy; In addition, owing to adopted airtight production, can reduce the thermosteresis of body of heater, energy consumption reduces;

3) in falling dust room, can carry out the secondary combustion of carbon monoxide in the flue gas by burner, improve the temperature of discharging flue gas, to have improved the usefulness that follow-up fume afterheat utilizes;

4) consider the cognation that steel scrap preheating and Dioxins produce, by the direct exhaust gases passes that cover falls in electric furnace and dirt is set, most of high-temperature flue gas is not directly heated steel scrap, effectively reduce the generation probability of oxious component, also help the transformation of existing small-sized electric furnace and existing electric furnace, in addition, if flue gas conditioning device is set between interface, this structure has good dust removing effects to the big exhaust gas volumn that liquid iron charging technology produces;

5) owing to the short and small compactness of equipment, in light weight, exciting force is little, is easy to control; Storage steel scrap in the device is few, and production handiness height had both helped continuous production in enormous quantities, also was beneficial to the be pilot structural adjustment; In addition, when adopting the reinforced mode of movement of skewed slot, the feeding efficient in the short period of time obviously improves, and helps and the cooperating of liquid iron charging technology.

Description of drawings

Below in conjunction with drawings and Examples the utility model is further described.

Fig. 1 is a structural representation of the present utility model;

Fig. 2 is the A-A sectional view of Fig. 1;

Fig. 3 adopts flue gas mouth and the raw material mouth scheme synoptic diagram with the hole for the utility model;

Fig. 4 send the groove end view for the utility model adopts connection slot to be installed in heat;

Fig. 5 is installed in electric furnace side wall portion synoptic diagram for the utility model adopts connection slot.

Embodiment

Below with reference to accompanying drawing the utility model is elaborated, as shown in the figure: the electrosmelting device of the differential airtight feeding of present embodiment, comprise electric furnace 1 and feeding device, described feeding device comprises cold material feeding conveyer trough 2 and hot conveyer trough 3, described cold material feeding conveyer trough 2 belows are provided with the exciting device I 4 of independent control, hot conveyer trough 3 belows are provided with the exciting device II 5 of independent control, the outlet of described cold material feeding conveyer trough 2 is provided with the conveying aditus laryngis 6 that stretches in the hot conveyer trough 3, distance between the bottom land of conveying aditus laryngis 6 and hot conveyer trough 3 is equal to or greater than the degree of depth of hot conveyer trough 3, cold material feeding conveyer trough and heat send the difference of altitude on the slot space to make exciting device I and exciting device II break away from the interference that steel scrap involves, can select the different operating frequency, thereby realize that different transfer raties is arranged in two conveyer troughs, select control heat to send groove that bigger transfer limes speed is arranged, then heat send the average bed of material of groove will attenuation, help electric furnace charging and the fusing in the electric furnace molten bath, windrow thickness in the cold material feeding conveyer trough increases, material loading speeds up, also can shorten the length of cutting elongated groove at the bottom of cold material feeding conveyer trough and the haul, strengthen the engineering construction feasibility of correlation technique.Simultaneously, aditus structure makes work more reliable and easy to maintenance.Furnace operation generally is to adopt to stay steel operating procedure and liquid iron charging technology, and for implementing the utility model well, adopting and generally staying the steel amount when staying the steel operation is 20～40%, and the hot charging ratio is 0～60% when adopting liquid iron charging technology.

As further improvement in the technical proposal, the discharge end of described conveying aditus laryngis 6 is provided with hermatic door I 7 to be opened/closed, the charging opening of described cold material feeding conveyer trough 2 is provided with hermatic door II 8 to be opened/closed, hermatic door can adopt rotary type or board plug type hermatic door, cooperate by of the switching of hermatic door I, form the sealing of the reinforced process dust settling chamber of steel scrap, form airtight production with the hermatic door II, can reduce the thermosteresis of body of heater, energy consumption reduces; Also reduced inleakage, good dedusting effect is effectively improved production environment, simultaneously, reduce dust content and outflow temperature in the discharge flue gas, improved the effect that follow-up fume afterheat utilizes, reduce the load of follow-up dust-removal system, reduced the consumption of maintenance of the equipment and supplementary energy.In addition, cold material feeding conveyer trough, the combination of carrying aditus laryngis and hermatic door greatly reduce the probability that the hermatic door device gets stuck in traditional duct, make the planeness of steel scrap charging less demanding, and the steel scrap rule degree is relaxed.

As further improvement in the technical proposal, be provided with the connection slot 9 that is used for raw material is imported electric furnace 1 between described hot conveyer trough 3 and the electric furnace 1, satisfy the requirement of electric furnace charging.

As further improvement in the technical proposal, described connection slot 9 is installed on the setting traversing dolly 10 thereunder, and the replacing of being convenient to connection slot is safeguarded, the processing of fire door adhesion steel scrap when strengthening standby.In addition, adopt the scheme of " described connection slot 9 be can be along the flexible structure of feed direction; connection slot 9 is arranged on the hot conveyer trough 3; described hot conveyer trough 3 is provided with the traversing dolly 11 of off-line along the front end of feed direction " and " described connection slot 9 is to stretch or can be along the structure of the vertical swing of feed direction along feed direction; connection slot 9 is arranged on the electric furnace 1; described hot conveyer trough 3 is provided with the traversing dolly 11 of off-line along the front end of feed direction ", all can realize the purpose of this utility model.

As further improvement in the technical proposal, described hot conveyer trough 3 is provided with dirt and falls cover 12, and dirt falls cover 12 and becomes falling dust room with hot conveyer trough 3 one common peripheral, and dirt falls cover 12 and is provided with dedusting mouth 13, and is simple and reasonable, is convenient to enforcement.

As further improvement in the technical proposal, described electric furnace 1 is provided with dust removing tube 14, dust removing tube 14 is communicated with falling dust room, the direct exhaust gases passes of cover falls in electric furnace and dirt, most of high-temperature flue gas is not directly heated steel scrap, effectively reduce the generation probability of oxious component, also help the transformation of existing small-sized electric furnace and existing electric furnace.

As further improvement in the technical proposal, described dust removing tube 14 is provided with flue gas flow variable valve 18, makes this structure to the big exhaust gas volumn that liquid iron charging technology produces good dust removing effects be arranged.

As further improvement in the technical proposal, described dirt falls cover 12 and is made of fixed enclosure 12a and detachable cover body 12b, and detachable cover body 12a is positioned at the front end of hot conveyer trough 3 along feed direction, is convenient to the processing to fire door place adhesion steel scrap.

As further improvement in the technical proposal, described dirt falls the wall body of cover 12 and is made by refractory materials, the waste heat recovery module 15 that modular design is installed on the cover wall body 12 falls in dirt, be used for recycling to heat energy, improve efficiency, certainly, adopt evaporated flue pipe or water cooled pipeline all can effectively this part heat energy be made full use of.

As further improvement in the technical proposal, be provided with burner 16 in the described falling dust room, owing to can produce a part of carbon monoxide in the electrosmelting, in falling dust room, spray oxygen or air makes CO burning by burner, more heat energy had both been produced, reduce equipment energy consumption, also can reduce discharging and reduce environmental pollution.

As further improvement in the technical proposal, being positioned at the layout setting of blanking cold-zone in the described electric furnace 1 has the boosting nozzle, improves raw material district temperature by heated nozzle, reduces the electric furnace energy consumption.

As further improvement in the technical proposal, reinforced elongated slot 17 is opened at the bottom of being provided with haul in described cold material feeding conveyer trough 2 tops, solves the problem of cold material feeding conveyer trough material loading, reinforced efficient height.

As further improvement in the technical proposal, opening at the bottom of the described haul that reinforced elongated slot 17 is arranged at can be along on the vertical mobile hopper travelling platform of feed direction, and travelling platform can be realized feeding in continuous material for the buffering chassis, satisfies the requirement of large-scale electric furnace to material loading speed.

As further improvement in the technical proposal, described cold material feeding conveyer trough 2 and hot conveyer trough 3 are 0～90 ° with the angle of horizontal plane, can effectively reduce device length, adapting to old factory transforms, when the angle of inclination was big, aditus laryngis can make the mode that heat is sent groove width that is inclined cross at the blanking line of horizontal projection.When cold material feeding conveyer trough adopts non axial or horizontal (90 °) to arrange, can join one group of above cold material feeding conveyer trough.But when space and material loading speed meet the demands, generally adopt 0 ° vertically to arrange.

The method of using the electrosmelting device of above-mentioned differential airtight feeding to carry out feeding may further comprise the steps:

A stone: will open reinforced elongated slot 17 handlings at the bottom of the haul or be transported to cold material feeding conveyer trough 2 tops by the hopper travelling platform, open hermatic door II 8 and close hermatic door I 7, opening reinforced elongated slot 17 at the bottom of the control haul opens, make raw material be layed in cold material feeding conveyer trough 2 bottoms, prevent that the suction of freezing air in the reinforced process from increasing energy consumption;

B carries: after finishing stone, close hermatic door II 8 and open hermatic door I 7, controlling two exciting device I 4 and exciting device II 5 applies exciting with different frequencies to cold material feeding conveyer trough 2 and hot conveyer trough 3 respectively and carries out differential feed, the excited frequency of exciting device II 5 is higher than the excited frequency with exciting device I 4, make the bed thickness in the hot conveyer trough thinner, be beneficial to the fusing in the electric furnace molten bath of electric furnace charging and raw material.

Explanation is at last, above embodiment is only unrestricted in order to the explanation the technical solution of the utility model, although the utility model is had been described in detail with reference to preferred embodiment, those of ordinary skill in the art is to be understood that, can make amendment or be equal to replacement the technical solution of the utility model, and not breaking away from the aim and the scope of technical solutions of the utility model, it all should be encompassed in the middle of the claim scope of the present utility model.

Claims (16)

1. the electrosmelting device of a differential airtight feeding, comprise electric furnace (1) and feeding device, described feeding device comprises cold material feeding conveyer trough (2) and hot conveyer trough (3), it is characterized in that: described cold material feeding conveyer trough (2) below is provided with the exciting device I (4) of independent control, hot conveyer trough (3) below is provided with the exciting device II (5) of independent control, the outlet of described cold material feeding conveyer trough (2) is provided with the conveying aditus laryngis (6) that stretches in the hot conveyer trough (3), and the distance between the bottom land of conveying aditus laryngis (6) and hot conveyer trough (3) is equal to or greater than the windrow degree of depth of hot conveyer trough (3).

2. the electrosmelting device of differential airtight feeding according to claim 1, it is characterized in that: the discharge end of described conveying aditus laryngis (6) is provided with hermatic door I to be opened/closed (7), and the charging opening of described cold material feeding conveyer trough (2) is provided with hermatic door II to be opened/closed (8).

3. the electrosmelting device of differential airtight feeding according to claim 2 is characterized in that: be provided with the connection slot (9) that is used for raw material is imported electric furnace (1) between described hot conveyer trough (3) and the electric furnace (1).

4. the electrosmelting device of differential airtight feeding according to claim 3, it is characterized in that: described connection slot (9) is installed on the setting traversing dolly (10) thereunder.

5. the electrosmelting device of differential airtight feeding according to claim 3, it is characterized in that: described connection slot (9) is can be along the flexible structure of feed direction, connection slot (9) is arranged on the hot conveyer trough (3), and described hot conveyer trough (3) is provided with the traversing dolly of off-line (11) along the front end of feed direction.

6. the electrosmelting device of differential airtight feeding according to claim 3, it is characterized in that: described connection slot (9) is for can be along feed direction flexible or can be along the structure of the vertical swing of feed direction, connection slot (9) is arranged on the electric furnace (1), and described hot conveyer trough (3) is provided with the traversing dolly of off-line (11) along the front end of feed direction.

7. according to the electrosmelting device of any described differential airtight feeding of claim 1-6, it is characterized in that: described hot conveyer trough (3) is provided with dirt and falls cover (12), dirt falls cover (12) and becomes falling dust room with hot conveyer trough (3) one common peripheral, and dirt falls cover (12) and is provided with dedusting mouth (13).

8. the electrosmelting device of differential airtight feeding according to claim 7, it is characterized in that: described electric furnace (1) is provided with dust removing tube (14), and dust removing tube (14) is communicated with falling dust room.

9. the electrosmelting device of differential airtight feeding according to claim 8, it is characterized in that: described dust removing tube (14) is provided with flue gas flow variable valve (18).

10. the electrosmelting device of differential airtight feeding according to claim 9, it is characterized in that: described dirt falls cover (12) and is made of fixed enclosure (12a) and detachable cover body (12b), and detachable cover body (12a) is positioned at the front end of hot conveyer trough (3) along feed direction.

11. the electrosmelting device of differential airtight feeding according to claim 10, it is characterized in that: the wall body of cover (12) falls in described dirt to be made by refractory materials, and dirt falls on the cover wall body (12) evaporated flue pipe, water cooled pipeline or waste heat recovery module (15) are installed.

12. the electrosmelting device of differential airtight feeding according to claim 11 is characterized in that: be provided with burner (16) in the described falling dust room.

13. the electrosmelting device of differential airtight feeding according to claim 12 is characterized in that: being positioned at the layout setting of blanking cold-zone in the described electric furnace (1) has the boosting nozzle.

14. the electrosmelting device of differential airtight feeding according to claim 13 is characterized in that: open reinforced elongated slot (17) at the bottom of described cold material feeding conveyer trough (2) top is provided with haul.

15. the electrosmelting device of differential airtight feeding according to claim 14 is characterized in that: opening at the bottom of the described haul that reinforced elongated slot (17) is arranged at can be along on the vertical mobile hopper travelling platform of feed direction.

16. the electrosmelting device of differential airtight feeding according to claim 15 is characterized in that: described cold material feeding conveyer trough (2) and hot conveyer trough (3) are 0～90 ° with the angle of horizontal plane.

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