CN88101909A - The feed arrangement of sintering raw mix and method - Google Patents

The feed arrangement of sintering raw mix and method Download PDF

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Publication number
CN88101909A
CN88101909A CN88101909.7A CN88101909A CN88101909A CN 88101909 A CN88101909 A CN 88101909A CN 88101909 A CN88101909 A CN 88101909A CN 88101909 A CN88101909 A CN 88101909A
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China
Prior art keywords
rod member
pallet
compound
sieve
raw mix
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Expired - Lifetime
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CN88101909.7A
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CN1009757B (en
Inventor
藤本政美
稻角忠弘
佐藤勝彦
下沢荣一
阿波靖彦
野崎健郎
具岛昭
佐藤文广
未村芳信
日下部信夫
今田邦弘
有地正俊
田中光德
梅津善德
池田桓恩
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Nippon Steel Corp
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Nippon Steel Corp
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Priority claimed from JP62085543A external-priority patent/JPS63250424A/en
Priority claimed from JP15149287U external-priority patent/JPH0424399Y2/ja
Application filed by Nippon Steel Corp filed Critical Nippon Steel Corp
Publication of CN88101909A publication Critical patent/CN88101909A/en
Publication of CN1009757B publication Critical patent/CN1009757B/en
Expired legal-status Critical Current

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Abstract

In a sintering raw mix apparatus for feeding, a plurality of directions that fall by the pallet of sintering raw mix in agglomerating plant are installed, downward-sloping rod member, and make the falling direction of compound opposite with the direction of advance of pallet, the rod member that is rotating has constituted the neglected loading of a sieve to be put, and the upper end of rod member then links with a rotating driving device.

Description

The present invention relates to the feed arrangement and the method for sintering raw mix, more particularly, what relate to is a kind of equipment and method of sending sintering raw mix to.This compound is to be used for preparing the sintered ore of sending into blast furnace.
Usually in steel and iron industry, when sending to the sintering ore in the blast furnace, the breeze that agglomerating plant is used, it is very wide that its granularity is suitable for particle size range, from several microns to about 10 millimeters, with average diameter be 1 to 3 millimeter iron ore end, in case of necessity, wherein can sneak into calcium lime powder, this mixture is delivered on the sintering pallet, then the breeze of compound laminar surface is lighted a fire so that the coke burning sucks air simultaneously, the combustion heat can make the fine ore sintering.
Because this agglomerating plant is to carry out sintering with the method for burning breeze, so sintering process is said, air is sent in the sinter layer, promptly gas permeability is very important.
As a kind of technology of improving sintering raw mix layer gas permeability, sintering raw mix itself (hereinafter to be referred as compound) is carried out preliminary treatment, general people know.In preprocessing process, the various suitably compounds of water gaging that added are mixed and granulation by a barrel mixer, so just original big false particle of granularity of its granularity can be created.In addition, in preprocessing process, also need quick lime is added in the compound, to promote the production of false particle.Yet these improve the above-mentioned gas permeability problem that do not solve fully.
On the other hand, when the oblique hopper of all installing usually with an agglomerating plant is sent above-mentioned pretreated compound to, will this thing happens, promptly the compound of small grain size will be deposited in the compound upper strata, and the compound of coarsegrain will be deposited in the lower floor of compound.Pallet preferably has sieve leakage effect, and promptly on the short transverse of mixing the bed of material, compound and coke size are separated, and so just can producing preferably, heat distributes.Yet, when being sent to compound on the pallet, usually sliding phenomenon can take place, so just can destroy above-mentioned separation state, cause the part in fine ore and the breeze to be blended in the lower floor of compound, so just formed the inconsistent structure of granularity.Therefore, just can not obtaining preferably, heat distributes.
In the uncensored patent disclosure of Japan (disclosing clear) NO.61-223136, disclosed a kind of method that is used to address the above problem, a kind of well-known method of transporting compound, as shown in Figure 1, realize this method, being a kind of feeding method of strengthening sieve leakage and particle decentralized, is by means of above a string pallet, along many bars or roller 2 are installed on the pallet direction of advance, make a side of bar have difference in height, transport compound to form mixture layer by bar.
This feeding process is described in detail in detail below.At first, make the compound that is stored in the funnel 3 through a drum-type feed appliance 5, compound drops on the bar 2 through a swash plate more then.In this case, because rod member tilts, so the top of rod member 2 is minimum from pallet 1 distance, bar 2 has difference in height at the position, top in addition, thereby each bar gap of one side is bigger on the top.Like this, drop on the granule of the mixing glassware on the bar 2, to fall to pallet 1 from bottom side, and the coarse granule in the compound will fall from the limit, top side of bar 2 to pallet 1, just can realize thus sieving leaking and send to, coarse-particle bed and last fine grained layer under forming on the pallet so just can form any granularity on the short transverse of mixing the bed of material.By this mode of sending to, the compound of whereabouts distributes very wide in a lateral direction, thus the sliding phenomenon can avoid utilizing oblique hopper the time, simultaneously, the packed structures of compound is consistent, its result can realize that the heat on the short transverse is uniform.In addition, this when sending mode to when adopting, because leaking, sieve produced different granularities, also landing can be reduced because compound collides with bar in dropping process, can realize that low-density sends to, thereby can obtain highly-breathable.Yet owing to contain water in the compound, these water are to be sent in the agglomerating plant producing the false particle of being made by thin compound, so compound is easy to adhere on the bar, and when in the compound quick lime being arranged, degree of adhesion will be bigger.
In addition, the gap between the bar 2 is 5 to 30 millimeters, and this is very little, and after sintering raw mix adheres on the bar 2, the gap between the bar 2 will be littler, so just can not realize that to compound sieve leaks and distribution effectively.When the adhesion layer on the bar 2 was very thick, bar 3 had not just had sieve leakage effect.Also have, because the compound that falls from swash plate always collides the same position at bar 2, bar 2 will produce concentrated wear.
Thereby, agglomerating plant is quit work with the compound of peel adhesion, and change wearing and tearing bar 2.Yet, peel off and more change jobs one very small space carry out, be pretty troublesome.
The patent disclosure (KoKoKu, the applying date is on October 31st, 1966) of day herbal classic examination has disclosed a kind of Lou screening plant of particle that sieves, and a plurality of shafts wherein are installed, and the gradient of adjacent stems is different, vibrates these pole pair particles and sieves leakage.Even if adopt this technology, promptly limit vibration shaft limit sieve leaks particle, makes vibration frequency produce difference so that effect is a shade better simultaneously, but still can not eliminate particle fully and stick to phenomenon on the bar.
In addition, two parts of applyings date are on January 10th, 1987 Japanese utility model application (NO.62-18098 and 62-29249) has been narrated the device that removes adhered particles on the bar.The structure of JUM-098 device shown in Figure 2 is such, at base plate side position counterweight 9a and 9b are installed, by a tup 12 with hammer stem 10 and shaker arm 11 they are knocked, so just impulsive force is sent to bar 2, thereby can peel off and remove sticking to particle on the bar 2.14a among Fig. 2 and 14b are cylinders.
Yet the JUM-098 device only can remove major part in operating process, rather than whole adhered particles.Through a short time, for example 10 seconds, again common coherent condition can appear.This state is as Fig. 3 A(side view) and the 3B(plane) shown in.From Fig. 3 A and 3B as can be seen, there is a large amount of sintering raw mix 15 to stick on the bar 2.
As shown in Figure 4, the JUM-249 device is design like this, and the sweeper of being made up of scraper plate 17 and blade 18 19 is moved back and forth, and can remove the compound that sticks on the bar.Among Fig. 4 20 is travelling carriages of sweeper 19, and it can move along guide rail 21, and 14a and 14b are cylinders.
When JUM-249 operates, the most of compound that sticks on the bar can be removed, this situation is as disclosed JUM-098 operational circumstances, but compound arranged, will occur common adhesion situation once more when the gap between bar has about 10 times in second to fill.This situation is as Fig. 5 A(side view) and the 5B(plane) shown in.Shown in Fig. 5 A and 5B, the compound amount that sticks on the bar 2 is a lot, the situation when its situation is not wiped off by above-mentioned sweeper just like the adhesion compound.
An object of the present invention is to propose a kind of equipment that is used to send to sintering raw mix, sintering raw mix can not take place and adheres on the bar in it, and the situation of rod member wearing and tearing.
Another object of the present invention is to propose a kind of method of sending sintering raw mix to, and it can be according to the situation of compound, and as the variation of granularity and working condition, for example productivity ratio is controlled the condition of sending to realize operation steady in a long-term.
Another object of the present invention is that proposition is a kind of on the pallet width, adopts the method that reduces excessive air feed in pallet one side, reaches the purpose of even sintering.
In a kind of equipment of sending sintering raw mix to that proposes according to the present invention, be equipped with many along sintering raw mix, to the pallet falling direction of sintering equipment, downward-sloping rod member, and make the falling direction of compound opposite with the direction of advance of pallet.The sieve neglected loading that is made of swivel bearing rod member and rod member upper end is put with a rotating driving device and is connected.
The invention allows for another kind of sintering raw mix feed process, even compound is from a hopper, through rotating and working the rod member that sieves the leakage effect and drop on the pallet, so just can determine the charging density or the gas permeability of the sintering raw mix layer that is fed on the pallet at least, then according to measured value, change at least a control method, angle of declination comprising hopper and sieve, the sliding distance of hopper, and the gap between sieve and the sintering raw mix layer is deposited in the gas permeability of the sintering raw mix on the pallet owing to Reinforced sieve leakage effect and the effect of spreading particle with control.
Figure 1 shows that the apparatus for feeding of general sintering raw mix; Figure 2 shows that being equipped with one is used to knock rod member, with the common apparatus of the tup of the compound that remove to adhere to; Side view and plane when Fig. 3 A and 3B are depicted as rod member in the equipment shown in Figure 2 and are stained with compound usually; Figure 4 shows that the common apparatus that the sweeper of being made up of scraper plate and blade is installed; Fig. 5 A and 5B show side view and the plane when being stained with compound on the rod member in the equipment shown in Figure 4 respectively; Figure 6 shows that the composition of the sintering raw mix apparatus for feeding that proposes according to the present invention; Figure 7 shows that the side view at the position, close rod member top that the II-II line along Fig. 6 is got; Figure 8 shows that bindiny mechanism and rotary drive mechanism between a rod member and the rotary drive; Figure 9 shows that along Fig. 8 IV-IV sectional drawing that line is orientated; Figure 10 shows that the perspective view of driving mechanism internal structure in the rotary drive movably; Figure 11 shows that according to the present invention in another agglomerating plant that proposes in the compound feeding device side view at main position; Figure 12 shows that the cross-section side view of rod member rotating mechanism middle gear case; Figure 13 shows that the front view of rod member rotating mechanism and actuator inside; Figure 14 shows that the view at the position, rod member top that indentation is arranged; Figure 15 shows that the movably view of rotary drive example; Figure 16 to 18 is depicted as the view of changing the rod member device; Figure 19 A and 19B show side view and the plane that the rod member in the equipment shown in Fig. 6 and Figure 11 is stained with compound respectively; Figure 20 shows that the view of the used example of explanation this method; Figure 21 A is depicted as on the pallet width, the example of compound volume density; Figure 21 B is depicted as the combustion zone example by industrial gamma camera production.
The embodiment that the present invention is proposed is illustrated below with reference to accompanying drawings.
Figure 6 shows that the compound apparatus for feeding that proposes according to the present invention.As shown in Figure 6, the feed arrangement 20 that the present invention proposes be installed in a drum-type feeder 5 below, compound is injected into wherein from hopper 3.By means of the method with bellows 23 suction airs, the mixing bed of material 7 that feed arrangement 20 is piled is blended in the sintered ore.
Feed arrangement 20 is by a plurality of rod members 2, and a driving gear 22 compositions.2 sieves of rod member are done to separate state in order to produce predetermined granularity.On pallet car 1 direction of operation, rod member 2 is by the section and the tiltedly installation that dips down.But rod member circle or rectangle, solid or hollow.
Figure 7 shows that along the side view at the rod member 2 close positions, top that the II among Fig. 6-the II line is got.
Rod member 2a, 2b ... 2n is made by Steel Bar During, and its diameter is between 5 to 10 millimeters, and indention distributes, and the gap between rod member is 5 to 30 millimeters, and rod member row's width is basic corresponding with the width of pallet.As shown by arrows, rod member is by a drive unit driven rotary.The rotation situation is not invariable, for example can be continuous rotation, is interrupted rotation and reverse rotation.
Modern with reference to Fig. 8 and Fig. 9, to feed arrangement 20 explanation in detail.
Feed arrangement 20 is made up of a rotating driving device, and this drive unit is by the gear-box 34 that is installed on the base 24, rotating shaft 47, and flexible connection 31, rod member 2 and support bar 2 also can make the framework 26 of its rotation form.
One motor 29 is installed, for this reason motor mounting one driving gear 33 and a plurality of driven gear 33a in gear-box 34.As shown in Figure 9, each driven gear 33a can closely arrange each other, or is arranged in parallel as shown in figure 10.Driven gear 33a device is in the confined space of gear-box 34, and axle 47 links with driven gear 33a, and is bearing on the box body wall 30 that constitutes gear-box 34, and can rotate therein.Axle 47 and rod member 2 link by a flexible connection, and rod member 2 is bearing in the framework 26, and can rotate therein.
Framework 26 is bearing on the base 24 by a fixed axis 26a, and rotatable, also links with a helical axis 27 by base 24 supportings.
Thereby when helical axis rotated, framework 26 can tilt around its supporting member-axle 26a, can regulate the inclination angle of the rod member 2 relative chute feeders of sieve effect thus, and regulate the gap between rod member thus.Like this, sieve leakage situation and distribution of particles situation promptly change.
As mentioned above, axle 47 is connected by flexible connection 31 with bar 2, and the layout of driven gear 33a can design arbitrarily.In addition, the gradient of bar 2 can determine arbitrarily that also as long as each bar axis of axle 47 intersects with bar 2, flexible connection 31 just can transmit revolving force to bar 2.Gear-box 34 can seal, and having only axle 47 is rotating parts.
32 are the Purge gas inlet.Purge gas (for example air) is imported in the gear-box 34, and And is supercharging there, invades gear-box to prevent dust, thereby equipment can normally be moved for a long time.It above gear-box 34 oblique hopper 6.
Figure 10 is the perspective view of compound feed arrangement 20.
As shown in figure 10, the compound 4 in the hopper 3 is to supply with De , And by drum-type feeder 5 to fall into skewed slot 6.The compound that slips into skewed slot 6 sieves by the sieve that bar 2 constitutes, thereby is scattered on the pallet.Bar 2 is connected with gear- box 34a, 34b, 34c and 34d respectively.The internal structure of gear-box 34 is: the motor 29 of a driven wheel 33, a plurality of driven gear 33a, flexible connection 31, framework 26 and Purge gas pipe 32.
Figure 11 is the side view of the compound feed arrangement main part of the another kind of agglomerating plant of design according to the present invention; Figure 12 is the side sectional view of rod member rotating mechanism gear-box; Figure 13 is the front elevation of transmission device and rod member rotating mechanism internal structure.
In compound feed arrangement 20, the base 24 that can pivot links by axle 45 and framework 40.The angle of bar 2 and skewed slot 6 depends on the angle between base 24 and the framework 40.Base 24 is made up of the chuck 42 of gear-box 46, movable bearing support 43, rotating shaft 47a and fixed bar.
Rotating shaft 47a is supported on the bearing 44 and turns.
The angle of declination of each bar depends on the setting angle of rotating shaft 47a, and in other words, the angle of declination of each bar can depend on the setting height(from bottom) of base 24 upper bearing (metal)s 44.
The chuck 42 of fixed bar 2 is contained on the bearing 43 rotationally.Angle between bearing 43 and the bearing 44 is controllable, and like this, the head portion of bar 2 is indention just.Each bar is arranged at sample: even the gap between the masthead end increases, so that sieve leaks compound.
In the extension of bar 2 mobile jib tail ends, the gear-box 46 that drives rotating shaft 47 is installed on the bearing 43.
The end portion of the upper part of bar 2 and rotating shaft 47 links by flexible joint 48, and flexible joint 48 transmits revolving force to bar 2.The angle of inclination of rotating shaft is all identical.
The rolling bearing Shang And that rotating shaft 47 is bearing in the gear-box 46 is rotatable.Pinion 51 is installed on the same axle of rotating shaft 47, pinion 51 be installed on can below in the chute 57 between non-driving rack 57 that slides and the driving rack 55 that can in chute 56, slide, in addition, the driving rack end links by bar 49 and cylinder 50.
In order to make bar 2 rotation when operating, at first, drive cylinder, the reciprocating motion of cylinder 50 just changes rotatablely moving of pinion 51 into like this, although do not show on the figure,, each bar can also directly be connected with drive motor, and without driven gear.
Introducing the device of the compound apparatus for feeding of design according to the present invention now changes.
The width of said gear case 34 can constitute an all-in-one-piece feed arrangement with the identical , And of pallet 1.
In addition, the width of gear-box 34 can be 1/ (n) of pallet width, can form feed arrangement 20 with the n that an is arranged in parallel gear-box 34.
If feed arrangement is formed with preceding a kind of method, then gear-box can be used as an integral replacing, if but be to form with a kind of method in back, then gear-box 34 can be changed separately.
Figure 15 has illustrated an example of removable rotating driving device.The structure of rotating driving device is: it is fixed on the support 39 of driving-belt 38, and driving-belt moves around belt pulley 35,36 and 37, and rotating driving device can move arbitrarily between switch X and run location Y by the running of driving-belt 38 like this.
Structure by the more changing device of the present invention design is: one is being supported between drum-type feeder and pallet, the tilt stand of the compound feeder of one skewed slot is housed, one can with the joining beam that can rotate around pivot of tilt stand, can in lifting process, limit the guiding roller bearing of compound feeder running orbit along the lowering or hoisting gear of rotatable beam lifting compound feeder.
About changing device more, will when introducing Figure 16 to 18, specify.
Figure 16 shows that the more changing device of sintering raw mix feeder.
As shown in figure 16, below the compound feeder 60 be the tilt stand 61 that is fixed on by constant cant angle on the feeder 60.The lower end of feeder 60 is fixed by a block plate, also can not fix.
In changing device more, guiding crossbeam 62 is arranged, it can extend along the updip direction of tipper 61.Guiding crossbeam 62 can rotate around the axle 65 that is installed on the ignition furnace pillar that serves as base 63.Cylinder 66 is used for making guiding crossbeam 62 to rotate.
Locking element 68 is at the head portion of skewed slot 61.When leading crossbeam 62 when groove 61 directions are rotated, locking element 68 promptly works.
In addition, above guiding crossbeam 62, be the device of pulling out feeder 60, for example a crane.Notice that 73 is guiding roller bearings.When feeder 60 when being drawn out, just uses this guiding roller bearing 73 along guiding crossbeam 62.
An example when Figure 17 A is depicted as feeder 63 and is drawn out.
Figure 17 B is the cross-sectional view that the AA straight line shown on Figure 17 B is got.When feeder 60 is pulled out from groove 61, just resemble and be raised shown in Figure 180.
On the other hand, will mention , And by being placed on the groove 61 by crane 69 through the intact feeder 60 of Inspection Certificate with the reverse operation sequence of said method.
Figure 19 A and 19B are respectively in the above-mentioned example of explanation, and compound adheres to the side view and the plane of situation on bar.Shown in Figure 19 A and 19B, when compound falls on the rod member, the very Xiao , And of its adhered area and can not sticking on other surfaces of rod member.
Carefully state method of the present invention below.
Figure 20 is described the inventive method.
As mentioned above, fall in the skewed slot 6 from the compound of hopper feeding.Below groove 6, arranging a plurality of rod members 2 by the downdip direction opposite substantially with the pallet direction of advance.When compound sieves, just be scattered on the pallet, mix the bed of material 7 thereby on pallet, form.
In said method of the present invention, air penetrability is controlled, in case the unsettled phenomenon of sintering reaction takes place.
As shown in figure 20, insert a gamma-ray density meter in mixing the bed of material 7, the volume density of the mixing bed of material that records with densitometer 80 is as signal of telecommunication input processor 81.In processor 81, an input signal and a reference value are compared; And is according to the actual volume density that records, by changing a tilt angled down among groove and the sieve at least, change the sliding distance of groove and changing the charging that compound is controlled in gap between the sieve and the sintered compound bed of material.
In addition, because sintering velocity is to change with the air penetrability that mixes the bed of material, therefore, the situation of observation combustion zone or sintering velocity just can be understood the air penetrability that mixes the bed of material.
Coke blacking in the surface mixing bed of material, after lighting in ignition furnace, sintering reaction is along with downward air-flow carries out downwards, the result, in discharge one side of pallet car, sintering position 83 will descend gradually, and become a combustion zone of sending the white light.Then, in the end of pallet car, an industrial gamma camera is placed on the opposite at sintering position 83.
Be by an observed combustion zone of industrial gamma camera shown in Figure 21 B.When the combustion zone arrives optimal height,, just can carry out sintering reaction as long as the reaction material consumption is correct.
Send the most suitable height of the combustion zone of white light, change with the compound air penetrability usually.Higher when the position, combustion zone that forms, and the sinter mixture that the position is lower than the combustion zone is when carrying out sintering reaction, if the incomplete compound of sintering is discharged, will reduce the sintering rate.On the other hand, if the position, sintering zone that forms is very low, the air capacity of not utilizing will increase so, and the result causes power wastage.
In order to control this program, normally change pallet speed, but can make the productivity ratio instability like this.
Therefore, in the methods of the invention, the situation of change in combustion zone area and the combustion zone is monitored.The data that obtained as signal of telecommunication input processor, then input signal and reference value are compared, at least change the angle that dips down among hopper and the sieve, change the material sliding distance And change sieve of hopper and the gap between the sintering raw mix layer, so that the area of control combustion zone.
Example shown in Figure 20 is with densitometer and the industrial gamma camera input data conditions that obtains.Except industrial gamma camera or densitometer, also can mix the bed of material or air penetrability situation by other tool detection.The another kind of way that detects air penetrability is to replace densitometer to measure the pressure reduction of compound layer height direction with the pressure reduction conduit that inserts compound.In addition, the air penetrability that mixes the bed of material also can be measured by detecting pressing board chassis traffic direction flow air speed.According to the data that this detector obtains, the ability of sieving of rod member sieve or bulk cargo ability are by the processor 81 and the data that obtain, and the operation part in the control signal of having imported is operated control.Then according to control signal, change an angle of declination angle among groove and the sieve at least, and the material sliding distance of hopper, thereby control sintering situation and air penetrability.
Mixing the air penetrability of the bed of material can control with the gap of mixing between the bed of material by changing sieve.Dropping on the kinetic energy that mixes the compound on the bed of material changes with drop.This kinetic energy has influence on the air penetrability that mixes the bed of material, and is promptly dense or loose.
In addition, can change the density situation of the mixing bed of material by control rod member 2 with respect to the position of hopper 6.On address, the sieve that rod member 2 constitutes has a plurality of rod members, the gap at position, top is bigger.Therefore, as shown in figure 20, when hopper 6 moved by direction A, the rod member gap that sieve leaks compound changed thereupon, thereby, as long as change the ability of sieving of mixing material screen, just can control air penetrability.In addition, the tilt angled down of change hopper also is available way.
Therefore, owing to when detecting the actual conditions of compound, controlled the feeding or the accumulation situation of the compound on the pallet, the air penetrability of compound just can be controlled on the constant level.Therefore, the height of combustion zone can keep stable.According to this method, the sintering rate can bring up to 79.5% from 77.4%.
The volume density that is positioned at the mixing bed of material at wall side place is being mixed the often smaller in a lateral direction of the bed of material, and air penetrability is all big.Be to mix bed of material volume density distribution map in a lateral direction shown in Figure 21 A.Shown in Figure 21 A, when the volume density of both sides reduced, air penetrability there just increased, and the result just causes the sintering reaction excessive velocities of both sides, promptly insufficient sintering.
In this case, if adopted the present invention, then can make the pallet both sides compound sieve or the blanking ability controlled, it is smaller to make it to become, thereby the volume density of the feeding compound of both sides is increased.Among densitometer, differential manometer, industrial photography machine, the effluent air temp meter etc., have at least one to be installed in pallet in a lateral direction, the difference between pallet center and the both sides is as in the signal of telecommunication input processor 81.And processor has been controlled groove and sieve at least one angle, the material sliding distance of groove and the gap between the sieve and the sintered compound bed of material in the tilt angled down separately, like this, the difference , And that just can eliminate between pallet center and the two end portions can improve the sintering situation.By this method of controlling, can make sintering efficient bring up to 76.1% from 73.4%.
It shown in Figure 21 B the combustion zone that monitors by industrial gamma camera.In this example, the height of combustion zone two side portions is higher, is lower than under the incomplete sintering state of compound of combustion zone to be discharged from.Because air penetrability reduces, sintering reaction just can be controlled by above-mentioned control method, and like this, it is all identical to mix the sintering reaction of the bed of material on whole width, and sintering efficient just is improved as mentioned above.
In the present invention, preferably use wear-resistant and high-intensity rod member.For example, the chromium plating steel pole is economical.

Claims (10)

1, a kind of apparatus for feeding of sintering raw mix, a plurality of rod members wherein are housed, they drop to direction on the agglomerating plant pallet by sintering raw mix, downward-sloping installation, and make the landing direction of compound opposite substantially with the direction of advance of pallet, the rod member that is rotating has constituted the neglected loading of a sieve to be put, and the upper end of rod member and a rotating driving device link.
2, the equipment that proposes according to claim 1, the position, top of wherein said rod member separates each other.
3, the equipment that proposes according to claim 1, the position, upper end of wherein said rod member links by a flexible connection and a rotating driving device.
4, the equipment that proposes according to claim 1 wherein has a framework that is bearing on, and an end rotatably support rod member of framework is equipped with a position or height controller at the other end of framework, is used for the angle of declination of control framework.
5, the equipment that proposes according to claim 4, the angle of declination of each rod member wherein can be controlled separately.
6, the equipment that proposes according to claim 4, the angle of declination of described rod member wherein is by the control separately of each rotating driving device.
7, according to claim 1 or 3 equipment that propose, wherein a shaft coupling can make each rod member change separately.
8, according to the equipment of any proposition in claim 1 and 4, wherein if when adopting each rotating driving device as the mode of a dingus, then on the pallet width, one or more rotating driving devices are removable.
9, a kind of sintering raw mix rod member by sieve leakage effect from a hopper is dropped to method on the pallet, rod member in the equipment is rotating, at least can be to charging density, one that drops in the gas permeability of the sintering raw mix layer on the pallet is detected, and can be according to this detected value, change at least one method in the following control method, the oblique angle that dips down comprising hopper and sieve, object skidding distance on the hopper, and the gap between sintering raw mix layer and the sieve, with control the sieve that sintering raw mix is fed on the pallet is leaked condition.
10, the method that proposes according to claim 9, by changing at least one method in the described control method, angle of declination comprising hopper and sieve, material skidding distance on the hopper, and the gap between sintering raw mix layer and the sieve, can change on the pallet width degree of scatter of compound or screening state.
CN 88101909 1987-04-06 1988-04-06 Apparatus and method for feeding sintering raw mix Expired CN1009757B (en)

Applications Claiming Priority (8)

Application Number Priority Date Filing Date Title
JP62085543A JPS63250424A (en) 1987-04-06 1987-04-06 Method for charging sintering raw material
JP85543/87 1987-04-06
JP88240/87 1987-06-08
JP193451/87 1987-07-31
JP193452/87 1987-07-31
JP138862/87 1987-09-10
JP15149287U JPH0424399Y2 (en) 1987-10-01 1987-10-01
JP151492/87 1987-10-01

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CN88101909A true CN88101909A (en) 1988-10-26
CN1009757B CN1009757B (en) 1990-09-26

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CN 88101909 Expired CN1009757B (en) 1987-04-06 1988-04-06 Apparatus and method for feeding sintering raw mix

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Publication number Priority date Publication date Assignee Title
CN102177261A (en) * 2008-10-09 2011-09-07 奥图泰有限公司 Device for smoothing the surface of a sinter mixture
CN104019664A (en) * 2014-06-18 2014-09-03 马钢(集团)控股有限公司 Fixed-layer input device and method of fine-particle materials in sintering mixed material
CN104640992A (en) * 2012-10-10 2015-05-20 希乐克公司 Equipment protective housing
CN110770358A (en) * 2017-07-04 2020-02-07 杰富意钢铁株式会社 Method for producing sintered ore

Cited By (9)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN102177261A (en) * 2008-10-09 2011-09-07 奥图泰有限公司 Device for smoothing the surface of a sinter mixture
CN102177261B (en) * 2008-10-09 2014-01-01 奥图泰有限公司 Device for smoothing the surface of a sinter mixture
CN104640992A (en) * 2012-10-10 2015-05-20 希乐克公司 Equipment protective housing
JP2015534073A (en) * 2012-10-10 2015-11-26 ザイレコ,インコーポレイテッド Equipment protective housing
US10176900B2 (en) 2012-10-10 2019-01-08 Xyleco, Inc. Equipment protecting enclosures
US10589251B2 (en) 2012-10-10 2020-03-17 Xyleco, Inc. Equipment protecting enclosures
CN104019664A (en) * 2014-06-18 2014-09-03 马钢(集团)控股有限公司 Fixed-layer input device and method of fine-particle materials in sintering mixed material
CN104019664B (en) * 2014-06-18 2016-01-20 马钢(集团)控股有限公司 A kind of for the fine device that given layer is thrown in sinter mixture and put-on method thereof
CN110770358A (en) * 2017-07-04 2020-02-07 杰富意钢铁株式会社 Method for producing sintered ore

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