CN206986252U - The system for producing ferrochrome - Google Patents
The system for producing ferrochrome Download PDFInfo
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- CN206986252U CN206986252U CN201720779098.4U CN201720779098U CN206986252U CN 206986252 U CN206986252 U CN 206986252U CN 201720779098 U CN201720779098 U CN 201720779098U CN 206986252 U CN206986252 U CN 206986252U
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Abstract
The utility model discloses a kind of system for producing ferrochrome, including:Pre-reducing furnace, mineral hot furnace, reduction feed bin and hot sending system, pre-reducing furnace are used for pre-reduced pellet, and pre-reducing furnace has discharging opening;Mineral hot furnace has charge door;There is reducing agent, reduction feed bin exports provided with reducing agent, and reducing material position in storehouse is between pre-reducing furnace and mineral hot furnace in reduction feed bin;Hot sending system includes batch can, waggon and lifting device, batch can is detachably arranged on waggon, waggon is configured to transport batch can between pre-reducing furnace, mineral hot furnace and reduction feed bin, batch can is suitable to discharging opening and reducing agent outlet to receive the material in pre-reducing furnace and reduction feed bin respectively, lifting device is configured to batch being transported to the charge door of mineral hot furnace, and the material in batch can is poured into mineral hot furnace.According to the system of the production ferrochrome of the utility model embodiment, help to reduce the melting electric consumption of ferrochrome.
Description
Technical field
Metal smelt technical field is the utility model is related to, more particularly, to a kind of system for producing ferrochrome.
Background technology
In correlation technique, the smelting process of ferrochrome is mainly mineral hot furnace technique, mainly uses block stock or block
Shape sintering deposit material, it is distributed into mineral hot furnace under cold conditions, then carries out pyrolytic semlting and obtain ferrochrome.Because cold conditions material enters stove,
Need material to be first increased to 1500 DEG C or so in stove to be reduced, be then warming up to 1800 DEG C or so fusing separation again, add
The hot substantial amounts of electric energy that heated up with Reducing and absorption, causes the melting electric consumption of ferrochrome per ton to reach 3300Kwh, energy consumption is higher.
In addition, in rotary kiln or rotary hearth furnace smelt ferrochrome new technology, chromite pelletizing first passes through in rotary kiln or turns bottom
In stove at 1200 DEG C~1400 DEG C certain time prereduction, then discharge and deliver to mine heat furnace smelting again.The pelletizing of high temperature discharging
With substantial amounts of waste heat, this partial heat is used can as far as possible, it will significantly reduced in follow-up mine heat furnace smelting
The melting electric consumption of alloy product, but limited by device and material, this part high-temperature residual heat that to be used also exists certain
Difficulty, or without highly effective method.
Utility model content
The utility model is intended at least solve one of technical problem present in prior art.Therefore, the utility model carries
Go out a kind of system for producing ferrochrome, the system can make full use of the waste heat of material, help to reduce needed for ferrochrome smelting
Energy consumption.
According to the system of the production ferrochrome of the utility model embodiment, including:Pre-reducing furnace, the pre-reducing furnace are used
In pre-reduced pellet, the pre-reducing furnace has discharging opening;Mineral hot furnace, the mineral hot furnace have charge door;Feed bin is reduced, it is described
There is reducing agent, the reduction feed bin exports provided with reducing agent, and the reducing material position in storehouse is in the prereduction in reduction feed bin
Between stove and the mineral hot furnace;Hot sending system, the hot sending system include batch can, waggon and lifting device, and the batch can
Releasably it is located on the waggon, the waggon is configured in the pre-reducing furnace, the reduction feed bin and the ore deposit
Transport the batch can between hot stove, the batch can is suitable to the discharging opening and the reducing agent outlet to receive institute respectively
The material in pre-reducing furnace and the reduction feed bin is stated, the lifting device is configured to the batch being transported to the ore deposit heat
The charge door of stove by the material in the batch can to pour into the mineral hot furnace.
According to the system of the production ferrochrome of the utility model embodiment, by being heat-fed system by the high temperature after prereduction
Pelletizing is delivered to mineral hot furnace, is sufficiently used the waste heat of pelletizing after prereduction, so as in mineral hot furnace rapidly by thing
Material is heated to more than 1300 DEG C of high temperature, significantly reduces energy consumption of the pelletizing in mine heat furnace smelting, accelerates what is reduced deeply
Carry out.Meanwhile batch can first receives reducing agent, then the high temperature pelletizing after prereduction is received, reducing agent and air exclusion can be subtracted
The loss of small reducing agent.
According to some embodiments of the utility model, the system of described production ferrochrome further comprises:Auxiliary material storehouse,
There is auxiliary material in the auxiliary material storehouse, the auxiliary material storehouse is provided with auxiliary feed outlet, and the auxiliary feed outlet is suitable to connect with the batch can,
The auxiliary material position in storehouse is between the pre-reducing furnace and the mineral hot furnace.Thus, it is possible to auxiliary material is covered in the height after prereduction
On warm pelletizing, on the one hand can utilize pelletizing waste-heat auxiliary material, on the other hand can by auxiliary material completely cut off air, reduce pelletizing with
The chance of air contact, the generation for avoiding secondary oxidation from reacting.
According to some specific embodiments of the present utility model, the pre-reducing furnace, the auxiliary material storehouse, it is described reduction feed bin and
The mineral hot furnace is in rods arranged in horizontal line.The displacement of waggon is shortened, so as to shorten the shipping time, is also reduced simultaneously
Produce the overall floor space of the system of chromite so that the layout for producing the system of chromite is compacter, reasonable.
Further, the hot sending system also includes:Transmission track, the waggon are movably arranged at the transmission rail
On road, the transmission track is located between the pre-reducing furnace and the mineral hot furnace.Thus, it is possible to so that waggon is in transmission rail
Moved on road, be easy to control the moving direction of waggon, efficiently avoid waggon sideslip, improve the reliable of hot sending system
Property.
According to some embodiments of the utility model, the hot sending system is multiple, and the discharging opening, the reducing agent go out
Tremie pipe is respectively equipped with mouth and the auxiliary feed outlet, the tremie pipe includes more sub- tremie pipes, multiple sub- tremie pipes
Corresponded with multiple hot sending systems, one end of multiple sub- tremie pipes of each tremie pipe respectively with it is corresponding
The discharging opening, reducing agent outlet is connected with the auxiliary feed outlet, the other end is respectively facing the corresponding hot sending
System extends.Thus, it is possible to convey material into mineral hot furnace by multiple hot sending systems, formation efficiency is effectively improved, is dropped
Low manufacturing cost.
Alternatively, each tremie pipe includes two sub- tremie pipes, two sub- tremie pipes switchably with
The corresponding discharging opening, reducing agent outlet connect with the auxiliary feed outlet.
Specifically, the angle between the two neighboring sub- tremie pipe of each tremie pipe is α, and the α meets:
45°≤α≤60°.Thus, will not because the angle between two sub- tremie pipes is excessive and when causing load big discharging it is not smooth,
Putty is caused, also will not influence discharging efficiency because the angle between two sub- tremie pipes is too small.
According to some embodiments of the utility model, the waggon is provided with weighing device with to the thing in the batch can
Material is weighed.Thus, it is possible to which the material for easily receiving batch can is weighed, it is easy to receive different materials in proportion.
Further, it is provided with cover at the top of the batch can.Cover can play a part of sealing and be incubated, and reduce batch can
The loss of interior temperature of charge, while material can also be made to completely cut off air, the chance of pelletizing and air contact is reduced, avoids material
Aoxidize.
Additional aspect and advantage of the present utility model will be set forth in part in the description, partly by from following description
In become obvious, or by it is of the present utility model practice recognize.
Brief description of the drawings
Of the present utility model above-mentioned and/or additional aspect and advantage will in the description from combination accompanying drawings below to embodiment
Become obvious and be readily appreciated that, wherein:
Fig. 1 is the schematic diagram according to the system of the production ferrochrome of the utility model embodiment;
Fig. 2 is the schematic diagram according to the pre-reducing furnace of the utility model embodiment;
Fig. 3 is the schematic diagram according to the reduction feed bin of the utility model embodiment;
Fig. 4 is the schematic diagram according to the auxiliary material storehouse of the utility model embodiment.
Reference:
The system 100 of ferrochrome is produced,
Pre-reducing furnace 1, discharging opening 11, the first tremie pipe 12, the first sub- tremie pipe 121a, the first sub- tremie pipe 121b,
First baffle 122, pelletizing 13,
Mineral hot furnace 2,
Feed bin 3 is reduced, reducing agent exports 31,
Second tremie pipe 32, the second sub- tremie pipe 321a, the second sub- tremie pipe 321b, second baffle 322,
Reducing agent 33,
Auxiliary material storehouse 4, auxiliary feed outlet 41,
3rd tremie pipe 42, the 3rd sub- tremie pipe 421a, the 3rd sub- tremie pipe 421b, third baffle 422,
Auxiliary material 43,
First hot sending system 51, the first batch can 511, the first waggon 512, the first transmission track 513,
First lifting device 514,
Second hot sending system 52, the second batch can 521, the second waggon 522, the second transmission track 523,
Second lifting device 524.
Embodiment
Embodiment of the present utility model is described below in detail, the example of the embodiment is shown in the drawings, wherein from beginning
Same or similar element is represented to same or similar label eventually or there is the element of same or like function.Below by ginseng
The embodiment for examining accompanying drawing description is exemplary, is only used for explaining the utility model, and it is not intended that to of the present utility model
Limitation.
In description of the present utility model, it is to be understood that term " on ", " under ", "front", "rear", "left", "right",
The orientation or position relationship of the instruction such as " vertical ", " level ", " top ", " bottom " " interior ", " outer " be based on orientation shown in the drawings or
Position relationship, it is for only for ease of description the utility model and simplifies description, rather than indicates or imply signified device or member
Part must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to limitation of the present utility model.
In addition, define " first ", one or more this feature can be expressed or be implicitly included to the feature of " second ".
, it is necessary to which explanation, unless otherwise clearly defined and limited, term " are pacified in description of the present utility model
Dress ", " connected ", " connection " should be interpreted broadly, for example, it may be fixedly connected or be detachably connected, or integratedly
Connection;Can be mechanical connection or electrical connection;Can be joined directly together, can also be indirectly connected by intermediary,
It can be the connection of two element internals.For the ordinary skill in the art, above-mentioned art can be understood with concrete condition
Concrete meaning of the language in the utility model.
System 100 below with reference to Fig. 1-Fig. 4 descriptions according to the production ferrochrome of the utility model embodiment.
As shown in figure 1, according to the system 100 of the production ferrochrome of the utility model one embodiment, including:Prereduction
Stove 1, mineral hot furnace 2, reduction feed bin 3 and hot sending system.
Wherein, pre-reducing furnace 1 is used for pre-reduced pellet 13, and pre-reducing furnace 1 has discharging opening 11, and discharging opening 11 can be located at
The bottom of pre-reducing furnace 1.Mineral hot furnace 2 has charge door, and charge door can be located at the top of mineral hot furnace 2.Specifically, pre-reducing furnace
1 can be rotary hearth furnace or rotary kiln etc., and pelletizing 13 can be chromite carbonaceous pelletizing 13.Chromite carbonaceous pelletizing 13 can be
Prereduction certain time under conditions of 1200 DEG C~1400 DEG C in pre-reducing furnace 1, mineral hot furnace 2 is then delivered to again and is smelted.Need
It is noted that the pelletizing process of chromite carbonaceous pelletizing 13 and operation are all known for those of ordinary skills
, it is not detailed herein.
There is reducing agent 33, reduction feed bin 3 is gone back provided with reducing agent outlet 31, reduction feed bin 3 positioned at pre- in reduction feed bin 3
Between former stove 1 and mineral hot furnace 2.Hot sending system includes batch can, waggon and lifting device, and batch can is detachably arranged in waggon
On, waggon is configured to transport batch can between pre-reducing furnace 1, reduction feed bin 3 and mineral hot furnace 2, and batch can is suitable to and discharging opening
11 are connected with reducing agent outlet 31, and to receive pre-reducing furnace 1 respectively and reduce the material in feed bin 3, lifting device is configured to
Batch can is transported to the charge door of mineral hot furnace 2 so that the material in batch can is poured into mineral hot furnace 2.
Alternatively, reducing agent 33 can be coke, and reduction feed bin 3 is coke feed bin.Waggon can include sweep and car
Wheel, wheel are located at the lower section of sweep, deck can be set on sweep, thus, are easy to waggon mobile and will easily can expect
Tank is engaging on sweep so that the position of batch can is stable.
Batch can be high temperature resistant batch can, and the top of batch can be provided with charging aperture.Waggon can be as needed by material
Tank is transported at reduction feed bin 3, pre-reducing furnace 1 and mineral hot furnace 2.Specifically, waggon can be configured to first transport batch can
Deliver at reduction feed bin 3 and receive reducing agent 33, then batch can is transported to the pelletizing 13 after prereduction is received in pre-reducing furnace 1.
For example, during material is received, waggon can be first moved at reduction feed bin 3 so that reduction feed bin 3 is gone back
Former agent outlet 31 is connected with batch can, and the reducing agent 33 of certain mass is added by reducing feed bin 3 into batch can, is then moved to again
At pre-reducing furnace 1 so that the discharging opening 11 of pre-reducing furnace 1 is connected with batch can, and certain matter is added into feed bin by pre-reducing furnace 1
Pelletizing 13 after the prereduction of amount, then be moved at mineral hot furnace 2, batch can is lifted from the sweep of waggon by lifting device
And the charge door of mineral hot furnace 2 is transported to, the material (pelletizing 13 i.e. after reducing agent 33 and prereduction) in batch can is poured into ore deposit heat
In stove 2, then batch can is placed on waggon by lifting device again, repeats above procedure.
Thus, it is possible to which the high temperature pelletizing 13 after prereduction is delivered into mineral hot furnace 2 by hot sending system, it is sufficiently used
The waste heat of pelletizing 13 after prereduction, so as to which material to be rapidly heated to more than 1300 DEG C of high temperature in mineral hot furnace 2, show
Reduce energy consumption of the pelletizing 13 when mineral hot furnace 2 is smelted with writing, accelerate the progress reduced deeply.Meanwhile in the mistake for receiving material
Cheng Zhong, batch can first receive reducing agent 33, then receive the high temperature pelletizing 13 after prereduction, can by reducing agent 33 and air exclusion,
Avoid reducing agent 33 that oxidation reaction occurs with air, reduce the loss of reducing agent 33.
According to the system 100 of the production ferrochrome of the utility model embodiment, by being heat-fed system by after prereduction
High temperature pelletizing 13 is delivered to mineral hot furnace 2, is sufficiently used the waste heat of pelletizing 13 after prereduction, so as in mineral hot furnace 2
Material is rapidly heated to more than 1300 DEG C of high temperature, energy consumption of the pelletizing 13 when mineral hot furnace 2 is smelted is significantly reduced, adds
The fast progress of deep reduction.Meanwhile during material is received, batch can first receives reducing agent 33, then after receiving prereduction
High temperature pelletizing 13, the loss of reducing agent 33 by reducing agent 33 and air exclusion, can be reduced.
According to some embodiments of the utility model, the system 100 for producing ferrochrome further comprises:Auxiliary material storehouse 4, it is auxiliary
There is auxiliary material 43, auxiliary material storehouse 4 is provided with auxiliary feed outlet 41, and auxiliary feed outlet 41 is suitable to connect with batch can, 4, auxiliary material storehouse in feed bin 4
Between pre-reducing furnace 1 and mineral hot furnace 2.Wherein, auxiliary material 43 can be silica, and auxiliary material storehouse 4 is silica feed bin.Auxiliary feed outlet 41 can
To be located at the lower section in auxiliary material storehouse 4.After batch can receives the pelletizing 13 after prereduction, auxiliary material Cang4Chu can be transported to by waggon, is made
Obtain auxiliary feed outlet 41 to connect with batch can, auxiliary material 43 is added into batch can.Thus, it is possible to auxiliary material 43 is covered in the height after prereduction
On warm pelletizing 13, the waste-heat auxiliary material 43 of pelletizing 13 on the one hand can be utilized, on the other hand air can be completely cut off by auxiliary material 43, subtracted
The chance of few pelletizing 13 and air contact, the generation for avoiding secondary oxidation from reacting.
According to some specific embodiments of the present utility model, pre-reducing furnace 1, auxiliary material storehouse 4, reduction feed bin 3 and mineral hot furnace 2 can
With in rods arranged in horizontal line.That is, pre-reducing furnace 1, auxiliary material storehouse 4, reduction feed bin 3 and mineral hot furnace 2 can be with generally straight shapes
Arrangement.Here, it is necessary to illustrate it is that " in-line " in the application should broadly understood, i.e., without proper word row.
Wherein, the particular location of auxiliary material storehouse 4 and reduction feed bin 3 is not construed as limiting.That is, auxiliary material storehouse 4 can be set adjacent to pre-reducing furnace 1
Put, can also be set adjacent to mineral hot furnace 2.For example, pre-reducing furnace 1, reduction feed bin 3, auxiliary material storehouse 4 and mineral hot furnace 2 can be first
It is arranged at intervals on direction.Wherein first direction can be the left and right directions in Fig. 1.In addition, it may be such that waggon is entirely transporting
During move along a straight line, the convenient moving direction for controlling waggon, avoid waggon because of turn run-off the straight or deviate transmission
Phenomena such as track.
Thus, during waggon moves from mineral hot furnace 2 to pre-reducing furnace 1, through reduction feed bin 3 when, can pass through
Reduction feed bin 3 adds the reducing agent 33 of certain mass into batch can, and after the completion of charging, waggon carries batch can and is moved to prereduction
Stove 1, the high temperature pelletizing 13 after the prereduction of certain mass is received, then waggon carries the process that batch can moves to mineral hot furnace 2
In, during by auxiliary material storehouse 4, the auxiliary material 43 of certain mass is added into batch can by auxiliary material storehouse 4, it is attached to be finally moved to mineral hot furnace 2
Closely, the displacement of waggon is shortened, so as to shorten the shipping time, while also reduces the whole of the system of production chromite
Body floor space so that the layout for producing the system of chromite is compacter, reasonable.
Further, hot sending system also includes:Transmission track, waggon are movably arranged on transmission track, transmit rail
Road is located between pre-reducing furnace 1 and mineral hot furnace 2.Alternatively, transmission track can be formed as the track of linear.Thus, it is possible to
So that waggon moves on transmission track, it is easy to control the moving direction of waggon, efficiently avoid waggon sideslip, carry
The high reliability of hot sending system.
According to some embodiments of the utility model, hot sending system is multiple, discharging opening 11, reducing agent outlet 31 and auxiliary material
Export and tremie pipe is respectively equipped with 41, tremie pipe includes more sub- tremie pipes, and more sub- tremie pipes and multiple hot sending systems are one by one
Corresponding, one end of more sub- tremie pipes of each tremie pipe goes out with corresponding discharging opening 11, reducing agent outlet 31 and auxiliary material respectively
Mouth 41 is connected, the other end is respectively facing corresponding hot sending system extension.Specifically, the above-mentioned other end of sub- tremie pipe can be with
Extend towards the transmission track of corresponding hot sending system.Here, it is necessary to illustrate, in description of the present utility model,
Unless otherwise indicated, " multiple " are meant that two or more.Thus, be easy to by sub- tremie pipe by pre-reducing furnace 1, also
Material in raw material cabin 3, auxiliary material storehouse 4 and mineral hot furnace 2 is delivered in batch can, while can be by multiple hot sending systems to mineral hot furnace
Conveying material, is effectively improved formation efficiency, reduces manufacturing cost in 2.
Alternatively, sub- tremie pipe can be formed as rectangular tube, but not limited to this.For example, sub- tremie pipe may be formed as
Cylindrical tube etc..
For example, referring to Fig. 1-Fig. 4, in a specific embodiment of the present utility model, each tremie pipe includes two sons
Tremie pipe, hot sending system are two, and two sub- tremie pipes switchably export 31 and auxiliary material with corresponding discharging opening 11, reducing agent
The connection of outlet 41.Specifically, the first sub- sub- tremie pipe 121b of tremie pipe 121a and first switchably connect with discharging opening 11,
The second sub- sub- tremie pipe 321b of tremie pipe 321a and second switchably connect with reducing agent outlet 31, the 3rd sub- tremie pipe 421a
Switchably connected with the 3rd sub- tremie pipe 421b with auxiliary feed outlet 41.
For convenience of description, in the following description, the tremie pipe at discharging opening 11 is referred to as " the first tremie pipe 12 ", first
Two sub- tremie pipes of tremie pipe 12 are referred to as " the first sub- tremie pipe 121a " and " the first sub- tremie pipe 121b ", reducing agent go out
Referred to as " the second tremie pipe 32 ", two sub- tremie pipes of the second tremie pipe 32 are referred to as " under the second son tremie pipe at mouth 31
Expects pipe 321a " and " the second sub- tremie pipe 321b ", the tremie pipe at auxiliary feed outlet 41 are referred to as " the 3rd tremie pipe 42 ", the 3rd blanking
Two sub- tremie pipes of pipe 42 are referred to as " the 3rd sub- tremie pipe 421a " and " the 3rd sub- tremie pipe 421b ".
Two hot sending systems are referred to as " the first hot sending system 51 " and " the second hot sending system 52 ".First hot sending system
Batch can, waggon, transmission track and lifting device in 51 are referred to as the first batch can 511, the first waggon 512, first passes
Send the lifting device 514 of track 513 and first;Correspondingly, the batch can in the second hot sending system 52, waggon, transmission track and carry
Rise device and be referred to as the second batch can 521, the second waggon 522, the second transmission track 523 and the second lifting device 524.Its
In, the first sub- tremie pipe 121a, the second sub- sub- tremie pipe 421a of tremie pipe 321a and the 3rd are suitable to and the first hot sending system 51
First batch can 511 is connected to be fed into the first batch can 511;First sub- tremie pipe 121b, the second sub- tremie pipe 321b and the 3rd
Sub- tremie pipe 421b is suitable to connect with the second batch can 521 of the second hot sending system 52 to feed into the second batch can 521.
Reference picture 1, the first hot sending system 51 and second, which is heat-fed system 52, can be spaced apart setting in a second direction, and the
One transmission track 513 and the second transmission track 523 are extended in a first direction and are parallel to each other.Second direction can be with first direction
Vertically.
For example, the first tremie pipe 12, the second tremie pipe 32 and the 3rd tremie pipe 42 can generally form inverted V-shaped.Under first
One end of the neighbouring discharging opening 11 of expects pipe 12 is provided with first baffle 122, and first baffle 122 is blocking the first sub- tremie pipe 121a's
It may be reversed between first position and the second place for blocking the first sub- tremie pipe 121b.When first baffle 122 is located at first position
When, first baffle 122 is overturn between the first sub- tremie pipe 121a and discharging opening 11, the first sub- tremie pipe 121a and discharging opening 11
Do not connect, the first sub- tremie pipe 121b connects with discharging opening 11, now can be by the first sub- tremie pipe 121b to corresponding material
Fed in tank;When first baffle 122 overturns the second place, first baffle 122 is overturn to the first sub- tremie pipe 121b and discharging
Between mouth 11, the first sub- tremie pipe 121b does not connect with discharging opening 11, and the first sub- tremie pipe 121a connects with discharging opening 11, now
It can be fed by the first sub- tremie pipe 121a into corresponding batch can.Thus, it is possible to easily switch the first tremie pipe 12
Discharge direction.
Correspondingly, one end of the neighbouring reducing agent outlet 31 of the second tremie pipe 32 can set second baffle 322, under the 3rd
One end of the neighbouring auxiliary feed outlet 41 of expects pipe 42 can set third baffle 422, second baffle 322, the structure of third baffle 422
Can be identical with first baffle 122 with position, it will not be repeated here.
Alternatively, the first tremie pipe 12 can be integrally formed with pre-reducing furnace 1, and the second tremie pipe 32 can be with reducing feed bin
3 are integrally formed, and the 3rd tremie pipe 42 can be integrally formed with auxiliary material storehouse 4.
Specifically, the angle between the two neighboring sub- tremie pipe of each tremie pipe is α, and α meets:45°≤α≤60°.Its
Concrete numerical value can be according to practical condition adjusted design.Thus, will not be excessive because of the angle between two sub- tremie pipes
And discharging is not smooth when causing load big, putty is caused, will not also be influenceed because the angle between two sub- tremie pipes is too small
Discharge efficiency.
For example, the angle α between the two neighboring sub- tremie pipe of each tremie pipe can further meet:α=45 °, α=
50 °, α=60 ° etc..
Specifically, waggon is provided with weighing device to be weighed to the material in batch can.It is thus, it is possible to easily right
The material that batch can receives is weighed, and is easy to receive different materials in proportion.
Further, it is provided with cover at the top of batch can.Cover can be arranged on the charging aperture of batch can.Cover can play close
Envelope and the effect of insulation, reduce the loss of temperature of charge in batch can, while material can also be made to completely cut off air, reduce pelletizing 13
With the chance of air contact, avoid material and aoxidize.
One specific embodiment of the system 100 of the production ferrochrome according to the utility model embodiment is described below.
As shown in figure 1, the system 100 of production ferrochrome includes:Pre-reducing furnace 1, mineral hot furnace 2, reduction feed bin 3, auxiliary material
Storehouse 4 and first is heat-fed system 51 and second and is heat-fed system 52.
Feed bin 3 and auxiliary material storehouse 4 are reduced between pre-reducing furnace 1 and mineral hot furnace 2, pre-reducing furnace 1, reduction feed bin 3, auxiliary material
Storehouse 4 and mineral hot furnace 2 are arranged at intervals in a first direction, between the first hot sending system 51 and second is heat-fed system 52 in a second direction
Every setting, the first transmission track 513 of the first hot sending system 51 and the second transmission track 523 of the second hot sending system 52 are mutually flat
OK.
The bottom of pre-reducing furnace 1 is provided with discharging opening 11, is provided with the first tremie pipe 12 at discharging opening 11, the first tremie pipe 12 wraps
Include the first sub- sub- tremie pipe 121b of tremie pipe 121a and first, the first sub- sub- tremie pipe 121b of tremie pipe 121a and first upper end
It is connected respectively with discharging opening 11, the first sub- sub- tremie pipe 121b of tremie pipe 121a and first lower end is respectively facing away from each other
Direction extends.One end (i.e. lower end in Fig. 2) of the neighbouring discharging opening 11 of first tremie pipe 12 is provided with first baffle 122, and first
Baffle plate 122 can between the first sub- tremie pipe 121b of the first sub- tremie pipe 121a first position and closure second place is blocked
Upset, so that the first sub- sub- tremie pipe 121b of tremie pipe 121a and first switchably connect with discharging opening 11.First sub- blanking
Angle between the sub- tremie pipe 121b of pipe 121a and first is 45 °.
There is reducing agent 33, the bottom of reduction feed bin 3 is provided with reducing agent outlet 31, reducing agent outlet 31 in reduction feed bin 3
Place is provided with the second tremie pipe 32, has auxiliary material 43 in auxiliary material storehouse 4, the bottom in auxiliary material storehouse 4 is provided with auxiliary feed outlet 41, auxiliary feed outlet 41
Place is provided with the 3rd tremie pipe 42.Wherein, the structure of the second tremie pipe 32 and the 3rd tremie pipe 42 and the structure of the first tremie pipe 32
It is substantially the same, will not be repeated here.
The transport process of material in system 100 according to the production ferrochrome of the utility model embodiment is described below:
First batch can 511 is placed on the first waggon 512 being placed on the first transmission track 513, the second batch can 521
It is placed on the second waggon 522 being placed on the second transmission track 523, the first batch can 511 and the second batch can 521 connect pre- go back
Before high temperature pelletizing 13 in former stove 1 discharges, reduction feed bin 3 is first transported to by corresponding waggon and adds going back for specified wt
Former agent 33.First batch can 511 and the alternating splicing of the second batch can 521.
Specifically, the second tremie pipe 32 can first add the reducing agent 33 of specified wt into the first batch can 511, then cut
The position of second baffle 322 is changed, is fed by the second tremie pipe 32 for the second batch can 521 in the second hot sending system 52, second
Tremie pipe 32 is that the first batch can 511 is transported to going out for pre-reducing furnace 1 by the first waggon 512 during the second batch can 521 feeds
Material mouth 11, prepare splicing.High temperature pelletizing 13 after prereduction is put into the first batch can 511 from the discharging opening 11 of pre-reducing furnace 1, is gone out
When doses reaches the weight specified, stop splicing, and switch the position of first baffle 122, be second by the first tremie pipe 12
The second batch can 521 in hot sending system 52 feeds.
Before corresponding batch can is delivered to mineral hot furnace 2 by waggon, corresponding batch can is first transported to auxiliary material Cang4Chu additions and referred to
Determine the auxiliary material 43 of weight.Specifically, the auxiliary material 43 of specified wt can be first added into the first batch can 511, then switches the 3rd
The position of baffle plate 422, it is that the second batch can 521 feeds by the 3rd tremie pipe 42.Then by the first lifting device 514 by the first material
Tank 511 is promoted to mineral hot furnace 2, and the material in the first batch can 511 is poured into mineral hot furnace 2, after adding material into mineral hot furnace 2, by
First batch can 511 is positioned on the first waggon 512 by the first lifting device 514, and the first waggon 512 is in the first transmission track
The first batch can 511 return reduction feed bin 3 is carried on 513 to feed, and repeats said process.
According to other compositions of the system 100 of the production ferrochrome of the utility model embodiment and operate for ability
All it is known for the those of ordinary skill of domain, is not detailed herein.
The side that a kind of system 100 of the production ferrochrome using in above-described embodiment produces ferrochrome is described below
Method.The method of production ferrochrome comprises the following steps:
The pelletizing 13 processed is sent into pre-reducing furnace 1 and carries out prereduction;
Batch can is transported at reduction feed bin 3, the reducing agent 33 of certain mass is added by reducing feed bin 3 into batch can;
Batch can is transported at pre-reducing furnace 1, after adding the prereduction of certain mass into batch can by pre-reducing furnace 1
Pelletizing 13;
Batch can is transported at mineral hot furnace 2, batch can is transported to by batch can by the charge door of mineral hot furnace 2 by lifting device
Interior material pours into mineral hot furnace 2.
Thus, it is possible to which the high temperature pelletizing 13 after prereduction is delivered into mineral hot furnace 2 by hot sending system, it is sufficiently used
The waste heat of pelletizing 13 after prereduction, so as to which material to be rapidly heated to more than 1300 DEG C of high temperature in mineral hot furnace 2, show
Reduce energy consumption of the pelletizing 13 when mineral hot furnace 2 is smelted with writing, accelerate the progress reduced deeply.Meanwhile batch can receives prereduction
Before high temperature pelletizing 13 afterwards, reducing agent 33 is first received, reducing agent 33 and air exclusion can be made, avoid reducing agent 33 from aoxidizing
Reaction, reduces the loss of reducing agent 33.
According to some further embodiments of the present utility model, batch can is transported at pre-reducing furnace 1, receives pre-reducing furnace
It is further comprising the steps of after pelletizing 13 in 1 after prereduction:Batch can is transported to auxiliary material Cang4Chu, by auxiliary material storehouse 4 into batch can
Add the auxiliary material 43 of certain mass.Thus, it is possible to auxiliary material 43 is covered on the high temperature pelletizing 13 after prereduction, on the one hand can profit
Carried out heating auxiliary material 43 with the waste heat of pelletizing 13, on the other hand air can be completely cut off by auxiliary material 43, reduce pelletizing 13 and connect with air
Tactile chance, the generation for avoiding secondary oxidation from reacting.
In the description of this specification, reference term " one embodiment ", " some embodiments ", " illustrative examples ",
The description of " example ", " specific example " or " some examples " etc. means to combine specific features, the knot that the embodiment or example describe
Structure, material or feature are contained at least one embodiment or example of the present utility model.In this manual, to above-mentioned art
The schematic representation of language is not necessarily referring to identical embodiment or example.Moreover, description specific features, structure, material or
Person's feature can combine in an appropriate manner in any one or more embodiments or example.
While there has been shown and described that embodiment of the present utility model, it will be understood by those skilled in the art that:
These embodiments can be carried out with a variety of changes, modification in the case where not departing from principle and objective of the present utility model, replaced
And modification, the scope of the utility model are limited by claim and its equivalent.
Claims (9)
- A kind of 1. system for producing ferrochrome, it is characterised in that including:Pre-reducing furnace, the pre-reducing furnace are used for pre-reduced pellet, and the pre-reducing furnace has discharging opening;Mineral hot furnace, the mineral hot furnace have charge door;Feed bin is reduced, there is reducing agent in the reduction feed bin, the reduction feed bin exports provided with reducing agent, the reducing material Position in storehouse is between the pre-reducing furnace and the mineral hot furnace;Hot sending system, the hot sending system include batch can, waggon and lifting device, and the batch can is detachably arranged in described defeated Send on car, the waggon is configured between the pre-reducing furnace, the reduction feed bin and the mineral hot furnace described in transport Batch can, the batch can are suitable to the discharging opening and the reducing agent outlet to receive the pre-reducing furnace and described respectively Reduce the material in feed bin, the lifting device be configured to by the batch can be transported to the charge door of the mineral hot furnace with Material in the batch can is poured into the mineral hot furnace.
- 2. the system of production ferrochrome according to claim 1, it is characterised in that further comprise:Auxiliary material storehouse, there is auxiliary material in the auxiliary material storehouse, the auxiliary material storehouse is provided with auxiliary feed outlet, and the auxiliary feed outlet is suitable to and institute Batch can connection is stated, the auxiliary material position in storehouse is between the pre-reducing furnace and the mineral hot furnace.
- 3. the system of production ferrochrome according to claim 2, it is characterised in that the pre-reducing furnace, the auxiliary material Storehouse, the reduction feed bin and the mineral hot furnace are in rods arranged in horizontal line.
- 4. the system of production ferrochrome according to claim 2, it is characterised in that the hot sending system also includes:Transmission track, the waggon are movably arranged on the transmission track, and the transmission track is located at the prereduction Between stove and the mineral hot furnace.
- 5. the system of the production ferrochrome according to any one of claim 2-4, it is characterised in that the hot sending system To be multiple, tremie pipe is respectively equipped with the discharging opening, reducing agent outlet and the auxiliary feed outlet, the tremie pipe includes More sub- tremie pipes, multiple sub- tremie pipes correspond with multiple hot sending systems, and each the tremie pipe is multiple One end of the sub- tremie pipe is connected with the corresponding discharging opening, reducing agent outlet and the auxiliary feed outlet, is another respectively One end is respectively facing corresponding hot sending system extension.
- 6. the system of production ferrochrome according to claim 5, it is characterised in that each tremie pipe includes two The sub- tremie pipe, two sub- tremie pipes switchably with the corresponding discharging opening, the reducing agent outlet and it is described Auxiliary feed outlet connects.
- 7. the system of production ferrochrome according to claim 5, it is characterised in that adjacent the two of each tremie pipe Angle between the individual sub- tremie pipe is α, and the α meets:45°≤α≤60°.
- 8. the system of production ferrochrome according to claim 1, it is characterised in that the waggon is provided with dress of weighing Put to be weighed to the material in the batch can.
- 9. the system of production ferrochrome according to claim 1, it is characterised in that be provided with cover at the top of the batch can.
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CN201720779098.4U CN206986252U (en) | 2017-06-29 | 2017-06-29 | The system for producing ferrochrome |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107177735A (en) * | 2017-06-29 | 2017-09-19 | 江苏省冶金设计院有限公司 | The system and method for producing ferrochrome |
CN107475482A (en) * | 2017-08-21 | 2017-12-15 | 中冶东方工程技术有限公司 | Material processing device for smelting |
-
2017
- 2017-06-29 CN CN201720779098.4U patent/CN206986252U/en not_active Expired - Fee Related
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107177735A (en) * | 2017-06-29 | 2017-09-19 | 江苏省冶金设计院有限公司 | The system and method for producing ferrochrome |
CN107475482A (en) * | 2017-08-21 | 2017-12-15 | 中冶东方工程技术有限公司 | Material processing device for smelting |
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