DE845055C - Converter and method for wind freshening in the converter - Google Patents

Description

Converter and method for wind freshening in the converter converter for wind refining pig iron generally have a blowing base in the lower part, the one in the blowing position of the converter in a horizontal position and parallel to the axis of rotation of the converter. Occasionally, however, it has also been suggested to use the soil in at an angle of about 4ä 'to the converter axis of rotation in the lower part of the converter. In both cases the wind used for blowing is supplied through a wind box, which removed the uniform loading of all blower ducts with a wind feed line Should cause wind.

In accordance with the invention, a converter is now proposed whose wind box is divided and in which each part has a gas supply line, so that the separate Supply of gases through the floor into the bathroom is possible. Since generally a Division of the wind box into only two parts is preferred, in the following the For the sake of simplicity, only this case will be spoken of.

The floor above the divided wind box can be designed in different ways be. It can have air ducts evenly distributed over both parts of the wind box exhibit. However, special effects can be achieved if either the entire floor is arranged unsv-inmetrically to the vertical center axis of the converter or the part of the floor above your one part of the wind box only in the one to the other @ -Vindkastteil is provided with blow channels. Further it can be advantageous to have the blow ducts above one part of the wind box the blow ducts across the other wind box part converge towards the inside of the converter allow. The cross-sections the blow channels or their Total cross-section over <fine a wind box part may be different than that over (learn other wind box part.

The converter wall is useful in the belly are l @ ückelt or in one of them bulges so that the cross section of the converter is roughly elliptical or oval.

In the drawing, one of the possible according to the invention is schematically Converter forms shown. With i and 2 are the two parts of the wind box 3 designated. The bottom d has blowing channels tiber about half of the part i, which adjoins part 2, the blow channels over part 2 run upwards If the interior of the converter learns to converge, the two gas streams also let out converge towards the inside of the converter. Different positions of the converter are indicated by letters, namely A-A denotes the wall position, B-B the Filling position, C-C an inclined position, in which the entire bottom is below of the bath, while in the inclined position D-D through the Tiber part 2 lying part of the floor over the bath is blown.

The above-described configuration of the converter not only has It is advantageous that the devices used to feed the wind in spite of the division placed close together, it also brings a large number of possibilities to operate the converter or to influence (lcr processes inside the converter with himself.

In general it can be said that it is now possible to get through the parts of the wind box vase to blow, which are in their composition, their Pressure or their temperature or in several of these characteristics differ from each other. Here come z. B. into consideration air, oxygen, water vapor or their mixtures or, on the other hand, flammable or inert, e.g. B. cooling or mechanical flushing gases used in the bath. In addition, further effects can be achieved by that the converter is inclined during the blowing or during part of the blowing time is placed so that the blow channels approach the bath surface. 1) ie inclination can go so far that through the blowholes of the first one emerges Part or some of them are blown over the bathroom.

The possibilities of variation in blowing with a converter designed according to the invention are very numerous and can be adapted to the purposes intended in each case. Here, however, some working options are mentioned as examples: Example i A wind box divided into two and a finite normal blower wind are used. The converter is set so that when blowing is only blown through the channels of the bottom lying above part i of the wind box through the bath, through the part of the bottom lying above part 2 into the converter interior above the bath. here the exhaust gas burns within the Converter and ei-lüilit the converter lines temperature. One will strive to inengen, which with the same lilas (luerschnitte, ie with the same number and the same diameter of the channels in the two bottom parts through the opposite v, effect of the ferrostatic l) rtick different adjust, balance or deliberately in change direction zti. that the need for Oxygen for complete combustion of the during of blowing] in exhaust gas changing CO content covered by the corresponding pressure control ring will. It has been shown that: not disadvantageous is, such an experience also applies to the Decarburization period out, to continue, apparently because then exotliernu # () xvdati @) nsv @ ngang with gaseous metals take place (#ii. l) this temperature increase in ini converter ratio can be be exploited in different ways, e.g. B. zuin Blowing iron. ( read less \\ ': ii-ineträgel- loading sits as normal or plivsical l:; ilter is, or es can melt a larger amount of scrap will. At the same time l: aim to achieve that the at the partially settled \ lündungsbäreii are continuously melted away. Through the smooth The course of production is this bear melting a remarkable one during the freshening process Advantage, because steel production through time-consuming the mechanical removal of the bars is not disturbed NN ird and thus the Kc »iverter is better timed. can be used. Iieisl) iel One has the intention. h (equivalent, e.g. embroidered stoffarine \\ 'iiidfrisclist: ilile to manufacture so can initially in an upright or inclined position Converter over both loden parts with air or oxygen-enriched flour: isewind too rend of decarburization refurbished \\ - earth, uni one achieve great freshness zti. Gelsen end of the Decarburization is finite in consideration of the danger the stronger nitrogen uptake with inclined tetn converter and gel) eiieilf; ills strong sour Substance enrichment essentially only finite part i through (read Bad. With "feil 2 de. Wind box can you blow combustible gas over the bath. v% elche above the bathroom finite (learn from your bathroom Oxygen escaping unused burns. In this way you not only achieve that the Nitrogen uptake is low or practically completely does not occur, but also as a result of the strong "Increase in temperature is a particularly good sulphurization. The required amounts of gas can through different 1) jerk control resp. Dimensioning of the Gesanitblasiluerschiiitte or Bla, - duct cross-sections above parts i and 2 to be brought. To make it easier to grasp the En (1- putikts des 1 # risclivorg <tii "s it is recommended (Itirch further @ chiesenstellrsl ilie I'liosl) lioroxv (1; t- tion zti slowing down. Beisl ) e1 3 If you want \\ @ in <Ifri, chst: ilile. according to example i or 2 () that of a similar \ '; ii-i: itiiiii refreshed wot'- improve the siti (l. even further, you came to @) es- oxidation under inclined position combustible carbon Blow substance-like gas through the bath with part i, during 111a11 with the help of part 2 using a satierst () ffhaltigen means, z. 13. Air that out (lein liad tl () cl) unused rising gas above des l @@ t (ls verl) retllit. 1) u11 the same success can be achieved. by doing one with part i [) is releasable or inert gas, which solid des- () #c \ '(contains detergent, through (read bath blows. Except oller instead of oxidation can be used in the same way, air-carbon or alloy everyone. \ rt et-rich. "Part 2 is the follow-up ver @) saves @ u @ g () 1) used outside the bathroom. lleisl) iel For August lii: clist-wide converter first: ihle iwill zutt: iclist (last fresh process, the () xv (I <ttioii and, if applicable, the alloy according to lkisl) ivl 1, 2 () of 3 or a similar variation by. The converter reacts so strongly to this , ekgt that not the stubborn about part 2, but also the tiber part i lying part of the soil, at least as far as he has blow ducts, from (learn bath emerges. 1) er llo) (lelt \\ - is now used as a burner and through dun a "part of gas, through the other part of stt) full air. possibly with different [) back (xler also blow duct diameters, 1) laseil. I) nasty l 'einullgs [) r () zeß: ilinelt the relationship- nissun itn Martin- (xler Flektroofen, whereby with "1'eml) erattirregulating slag work. i-tings2trl) eit or simply let it cook out, similar to the manufacture of crucible steel, through- fältreii I: illt. Matt has the option of each Gas or oxygen zone of the fuel mixture tiii- to put indirectly over (las l ) ad. [`in. \ uslaci (lun der B1askan: ile finit lletallrüliren zilr \ erreduction of the friction losses is ei) ip- worthwhile. .I am experienced with your \ I @ cisl) iel 4 a convergence of the blowing channels of the lit) (parts of particular advantage. I @ ri (1op1) elbauchigein converter can (read um- lc ;; en optionally s () done that the bath either in ((en eisten () of the opposite belly at @ f @@ elu) mmen ([.

Claims (1)

PATt: NTa ', sl> al "(: t1F: t. Converter for of 1Zol) eisell, characterized. (Measure his wind box is divided and each part has a gas supply line owns. 2. Converter according to _ \ iisracht i, thereby gc- 1 <etitizci (-liiiet. That the testicle over (learn a \\ `indbox part only in (leash to the other part Branch-bordering 13urcich provided with Illas canals is. 3. Converter 11acll (lull _ \ nsl) riicl) ell i tttld 2. thereby gckullitzeic clay, dalli the lllaskan: ile about <learn a part of the '' wind box: and the B1askan: ile over the other part after your Converge converter interior. 4. Converter according to claims 1 to 3, there- characterized by, (Measure the air ducts over (learn one "for the wind box another Ou section have over than the blow ducts <learn other part of the wind box. ;. Converter according to claims i to ;, characterized in that the Gesaintl) read cross-section over one part of the \\ 'ili (lkasteiis is different from the total blown cross section about (learn other part of the wind box. 6. Converter according to claims i to 5, there- characterized in that the converter wall dung i is bulged in the stomach and / or back. , '. --experienced in the wind freshening of Rolieiseli in a converter according to claims i to (1, characterized in that the parts of the Wind box gases are blown into their composition, their pressure or their "Temperature or in several of these kerosene- different from each other. !:. \ proceed according to claim, ', thereby indicates. (Measure the converter during the Blowing or part of the blowing time at an angle so (measure the air ducts closer to the Approach the bath surface. . '' experience according to claim 8, characterized in that indicates that the converter is so inclined will put that through all oller some of the over your blower lying part of the wind box kaii: ile over (read [lall blown we ([. ok Method according to claims 7 1) is 9, that characterized in that by the one part the wind box an oxygen-containing gas, e.g. 1 >,. Air. Oxygen, water vapor or mixtures of it, into the bathroom or into the converter room we introduced ([, through the other # \ "ii) d1, asteti- t ei il (1, against # a flammable gas. i i. Method according to claim 7 and (9, there- characterized in that at an inclined position Converter through both parts of the wind box l.iift -e = -) is read, their quantities in the direction of a v () llst: in (fige combustion of the _ '\ 1) gases be managed. 12. The method according to claim ii, characterized indicates that the rmng disfiguring heat is evaluated. z. 1". to melt the muzzle bear, to Processing of physically colder iron or voti 1? isen, ([eat share of heat transfer media is sub-normal, or for melting larger @Chrotttneilgen. 13. The method according to claims 7 to 1o, characterized in that for IT hung more valuable, z. B. low-nitrogen or Low-sulfur steels initially up to (#ll 1? ii (le the l: ntk () act in the attendant oller preferably inclined converter through both parts of the wind box finitely air or preferably wisely blown oxygen-enriched wind, then given in the inclined converter otherwise with strong oxygen enrichment, essentially only part i is blown through the bath, while part 2 preferably a flammable gas is blown over the bath. 14. The method according to claim 13, characterized in that the I'husphoroxidation is slowed down by further inclining the converter during the post-blowing process. 15. The method according to claims 7 to 14, characterized in that for deoxidation or carburization of the refined steel in the inclined converter by divides a combustible carbon-containing gas, through part 2 an oxygen-containing agent, for. B. air is blown over the bath. 16. The method according to claims 7 to 15, characterized in that claß through part i with the combustible or non-combustible gas, solid deoxidizers or alloy substances are blown. 17. Procedure nlli (leii: \ nspi-üchen 7 to 16, characterized. <1a13 after completion of the blow-through the hum-erter is so inanimate that the whole body is blown over (las liatl, \ vubie the one "Geil of the wind box is charged with combustible gas, the other part with reactive oxygen-containing gas, so let the testicle act as a burner.