WO2009142028A1 - Inversely inclined full-lining structure - Google Patents

Inversely inclined full-lining structure Download PDF

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Publication number
WO2009142028A1
WO2009142028A1 PCT/JP2009/050181 JP2009050181W WO2009142028A1 WO 2009142028 A1 WO2009142028 A1 WO 2009142028A1 JP 2009050181 W JP2009050181 W JP 2009050181W WO 2009142028 A1 WO2009142028 A1 WO 2009142028A1
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WO
WIPO (PCT)
Prior art keywords
furnace
lining
axis
brick
lower corner
Prior art date
Application number
PCT/JP2009/050181
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French (fr)
Japanese (ja)
Inventor
茂樹 内田
真聡 橋本
Original Assignee
品川白煉瓦株式会社
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Publication date
Application filed by 品川白煉瓦株式会社 filed Critical 品川白煉瓦株式会社
Publication of WO2009142028A1 publication Critical patent/WO2009142028A1/en

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Classifications

    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27BFURNACES, KILNS, OVENS, OR RETORTS IN GENERAL; OPEN SINTERING OR LIKE APPARATUS
    • F27B3/00Hearth-type furnaces, e.g. of reverberatory type; Tank furnaces
    • F27B3/10Details, accessories, or equipment peculiar to hearth-type furnaces
    • F27B3/12Working chambers or casings; Supports therefor
    • F27B3/14Arrangements of linings
    • CCHEMISTRY; METALLURGY
    • C21METALLURGY OF IRON
    • C21CPROCESSING OF PIG-IRON, e.g. REFINING, MANUFACTURE OF WROUGHT-IRON OR STEEL; TREATMENT IN MOLTEN STATE OF FERROUS ALLOYS
    • C21C5/00Manufacture of carbon-steel, e.g. plain mild steel, medium carbon steel or cast steel or stainless steel
    • C21C5/28Manufacture of steel in the converter
    • C21C5/42Constructional features of converters
    • C21C5/44Refractory linings
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D1/00Casings; Linings; Walls; Roofs
    • F27D1/04Casings; Linings; Walls; Roofs characterised by the form, e.g. shape of the bricks or blocks used
    • FMECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
    • F27FURNACES; KILNS; OVENS; RETORTS
    • F27DDETAILS OR ACCESSORIES OF FURNACES, KILNS, OVENS, OR RETORTS, IN SO FAR AS THEY ARE OF KINDS OCCURRING IN MORE THAN ONE KIND OF FURNACE
    • F27D1/00Casings; Linings; Walls; Roofs
    • F27D1/16Making or repairing linings increasing the durability of linings or breaking away linings

Definitions

  • the present invention relates to a novel improvement for achieving prevention of brick cracking and falling off and stable operation by applying an inclined lining structure to a converter, an AOD furnace, a hot metal pretreatment furnace, or the like.
  • the conventional lining structure of converter lining bricks adopts horizontal stacking, round corner stacking, inclined stacking, etc. at the lower corner, horizontal stacking at the straight barrel section, horizontal stacking, inclined stacking, and reverse tilting at the throttle section.
  • Stacking is applied.
  • These lining structures are variously selected in each part due to the ease of stacking bricks, the damage of bricks due to sacking, and other operational problems.
  • the lining structure proposed from the viewpoint of preventing damage to bricks due to cracking is, for example, inclined stacking or reverse inclined stacking in the throttle part, and round corner stacking in the lower corner part.
  • the following patents are disclosed in relation to the structure of the throttle portion.
  • Patent Document 1 and Patent Document 2 illustrate an inclined stacked structure and a horizontal stacked structure.
  • Patent Document 3 exemplifies an inclined lining structure in which bricks are stacked perpendicularly to the throttle part skin surface.
  • Patent Document 4 exemplifies a horizontally stacked lining structure.
  • Patent Document 5 exemplifies a horizontal stacking lining structure, and is characterized in that stacking is performed so that the angle formed by the surface of the axis and the lining brick is smaller than the angle formed by the axis of the furnace and the drawn iron core.
  • Patents are disclosed.
  • the patent of patent document 6 is illustrated as a reverse-tilt stacking lining structure.
  • the disclosed patents relating to the lower corner are: Patent document 7 is an example which made the lower corner part the horizontal stacking structure.
  • Patent Document 8 is also a round corner stack.
  • Patent Document 9 is inclined. Further, in common with these, the straight body portion is a horizontal stacking lining.
  • Patent Documents 1 to 9 show the effect of suppressing brick damage in some cases, such as the narrowed portion and the lower corner portion, the lining structure considering the influence on other parts is not always necessary. is not. For this reason, even if an excellent effect is shown in one place, there is a possibility that it has a bad influence in another place, and in some cases, the bad place may rate the whole. Therefore, it is very important to consider the optimal lining structure as a whole. For example, in the squeezed part, slanted stacking is more effective in reducing stress than horizontal stacking, and the effect is shown. However, bricks may fall off during building, and bricks may fall out during use.
  • Patent Document 6 filed by the applicant of the present application shows a considerable effect, and the squeezing portion bricks are not dropped off.
  • the good effect does not extend to the straight body portion bricks, it is still the same as in the past.
  • the straight body may be damaged.
  • what has been rate-controlled by the throttle part until now and the furnace has stopped will now be rate-controlled by the life of the straight body part, although the life has been extended.
  • the round corner stacking is the most excellent lining structure as a result of an actual furnace or by analysis of the inventors of the present applicant. However, the impact of this round corner stack on others has never been studied.
  • the present inventors have studied diligently, certainly round corner stacking relaxes the stress generated in the lower corner portion, and the lining structure that can suppress the cracking damage of the brick, on the other hand, concentrates a large stress on the straight body portion, It has been found that it causes early damage to the straight body.
  • the lining structure of the straight body portion is mainly a horizontal stacking structure, but it has never been examined whether this is the optimum structure or not particularly in relation to the lining structures in other places.
  • the present invention has been made in view of the above circumstances. That is, an object of the present invention is to obtain an optimal lining structure as a whole that can suppress cracking damage of all lining bricks.
  • the reverse inclined full lining structure according to the present invention is the reverse of the furnace formed in the furnace having the furnace bottom, the lower corner part, the furnace bottom / lower corner boundary part, the straight body part, the throttle part and the furnace port in order from the bottom part of the furnace.
  • a third height direction axis that is on the iron skin surface of the straight body portion and that is directed from the furnace bottom toward the furnace mouth and along the iron skin surface in a height direction that is the furnace mouth direction.
  • the second thickness direction central axis of the second lining brick to be constructed inside the lower corner portion is the A part or all of the second lining brick positioned at the lower corner portion is stacked so as to be positioned between the second height axis below the third height axis and the vertical axis;
  • ⁇ First lining to be constructed inside the lower corner boundary Is the smaller one when the first thickness direction central axis of the first lining brick intersects the fifth thickness direction central axis of the furnace bottom lining brick in contact with the furnace bottom / lower corner boundary.
  • the third thickness brick central axis of the third lining brick that is partially or wholly stacked and constructed inside the straight body portion so that the angle is 5 degrees or more is the third height brick.
  • a fourth thickness direction central axis of the fourth lining brick that is constructed inside the throttling portion is stacked in a part or all of the third lining brick so as to be positioned between the direction axis and the vertical direction axis, A configuration in which a part or all of the fourth lining brick is stacked so as to be positioned between a fourth height direction axis above the third height direction axis and the vertical direction axis, and the straight body Of the third lining brick to be constructed inside the section
  • the thickness direction central axis is configured to be directed into the furnace along the vertical direction axis in a cross section perpendicular to the third height direction axis, and the second to fourth thickness direction central axes are the vertical direction axis and the vertical direction axis.
  • the angle between the first, third, and fourth liner bricks
  • this invention is comprised as mentioned above, the following effects can be acquired.
  • the bricks can be easily constructed without shifting or falling off during the construction.
  • the construction time can be greatly shortened, and the entire lining can be prevented from cracking without causing stress concentration due to expansion of the brick during use, and a gap is created between the bricks.
  • the wear of the brick progresses and the remaining thickness decreases, it does not fall off at a stretch, it is possible to extend the life of the furnace and ensure stable operation. Since the repair work and the accompanying repair material are not necessary, the operating cost of the furnace can be greatly reduced in combination with the effect of extending the life of the furnace.
  • the present invention is a lining that can be easily constructed without shifting or falling out of bricks during the construction of the furnace by setting the lining of the furnace lining bricks to reverse slope, and stress concentration due to the expansion of bricks during use.
  • the lining is designed to prevent cracking of the bricks without causing any lining bricks. Furthermore, there is no gap between the bricks during use, and even if the bricks wear out and the remaining thickness decreases, the bricks fall off at once.
  • An object is to obtain a reverse inclined full lining structure of a furnace having a structure that does not occur.
  • brick construction of the furnace 20 is performed upward from the bottom 20 a of the furnace 20. That is, the bottom 4 of the furnace bottom lining 4a, the bottom / lower corner boundary 30 of the first lining 30a, the lower corner 5 of the second lining 5a, the first switching brick 9a and the third lining
  • the straight barrel portion 6 made of brick 6a, the throttle portion 7 made of fourth lining brick 7a, and the furnace port 8 made of return brick 10 are applied.
  • FIG. 1 a perma lining 2 and a wear lining 3 are constructed inside the iron skin 1.
  • This permal lining 2 may be a brick that is a regular refractory, or a castable, a stamp material, a filler, or the like that is an irregular refractory.
  • the wear lining 3 is a brick having a predetermined shape.
  • the permanent lining 2 and the wear lining 3 are constructed from the furnace bottom 4 with the furnace 20 standing as shown in FIG. 1, and the furnace bottom 4 and the furnace bottom / lower corner boundary 30 are sequentially arranged from the bottom to the top. It is constructed.
  • the furnace bottom / lower corner boundary 30 has an optimal lining structure that suppresses the propulsion caused by the thermal expansion of the brick generated at the furnace bottom from the lower corner 5 and further above the straight body 6 above it.
  • the lining structure of the furnace bottom / lower corner boundary portion 30 has two or more of the first lining bricks 30a stacked on the part, and the first thickness direction central axis 14a of the first lining brick 30a is: As shown in FIG. 1, is the lining so that the bottom lining brick in contact with the furnace bottom / lower corner boundary 30 intersects the fifth thickness direction central axis 14e of 4a so that the smaller angle is 5 degrees or more? And / or there are two or more first lining bricks 30a to be constructed inside the furnace bottom / lower corner boundary 30, and the first thickness direction central axis 14a of the first lining brick 30a is the bottom / lower corner.
  • the bottom of the furnace By lining the second lining brick in contact with the boundary 30 with the second thickness direction central axis 14b of 5a so that the smaller angle is 5 degrees or more, the bottom of the furnace There workings bracing is iron skin side direction of the iron skin side and / or furnace bottom of the lower corner portion due to the expansion, can be suppressed work upward. If the angle is 5 degrees or less, the stretching due to expansion is directed upward, which is not preferable.
  • the second thickness brick central axis 14b of the second lining brick 5a constructed on the inner side of the lower corner portion 5 is positioned between the second height axis 12b and the vertical axis 11 so as to be positioned between the second height brick 12a.
  • a part or all of the lining brick 5a is piled up, and at this time, the second thickness direction central axis 14b is piled up so that the angle between the vertical axis 11 and the reverse inclination angle 16 is 5 to 45 degrees.
  • the reverse tension will go to the bottom of the furnace, and upwardly, stress will concentrate on the local area of the lining brick, or there will be a gap between the bricks. Will occur and will promote damage.
  • the reverse inclination angle 16 is smaller than 5 degrees, it is the same as the conventional horizontal stacking, and the lower corner portion is greatly damaged.
  • the furnace is inverted during operation. When this is done, the brick is easy to fall off, which is not preferable.
  • the straight body part 6 is constructed.
  • the third lining brick 6a to the fourth lining brick 7a of the wear lining 3 of the straight barrel portion 6 or the straight barrel portion 6 and the throttle portion 7 are constructed by the reverse slope stacking of the present invention. Furthermore, it becomes the furnace port 8. By stacking in this way, it is possible for the tension caused by the expansion generated in the straight body portion 6 and the throttle portion 7 to escape smoothly upward, and it is effective for suppressing damage to the lining brick as a whole. Is obtained.
  • the angle between the wear lining 3 of the lower corner portion 5 and the wear lining 3 of the straight barrel portion 6 may be different.
  • the reverse inclined brick of the straight barrel portion 6 is placed immediately above the lower corner portion 5.
  • Each of these switching bricks 9a and 9b is used to adjust the difference in angle between the two parts by using one or a plurality of switching bricks.
  • FIG. 1 shows an example in which the upper one is the last one, a plurality of upper return bricks may be used.
  • Each of the lining bricks 5a to 7a of the wear lining 3 which has an inversely inclined product of the straight body portion 6 or the throttle portion 7 has a second furnace inner surface 5aA, a fourth furnace inner surface 7aA, and second to fourth back surfaces 5aB to 7aB. Both may be stacked smoothly, or may be stacked with a step.
  • the reverse inclination angle in the reverse inclination lining by the lining bricks 5a to 7a formed in the lower corner portion 5, the straight body portion 6 and the throttle portion 7 is determined as follows.
  • the corners 13 formed by the height direction axis 12 toward the center are formed in the thickness direction central axes 14b, 14c, 14d of the inner bricks 5a to 7a disposed in the lower corner portion 5, the straight body portion 6, and the throttle portion 7, respectively.
  • the manner of arrangement through which is passed is reverse slope stacking.
  • the construction in which the thickness direction central axes 14b, 14c, 14d of the lining bricks 5a to 7a pass between the opposite direction of the height direction axis 12 and the vertical direction axis 11 is an inclined product.
  • the reverse inclination angle 16 that is the angle formed between the thickness direction central axes 14b, 14c, 14d of the lining bricks 5a to 7a and the vertical axis 11, if the reverse inclination, the effect is exhibited at an arbitrary angle.
  • the optimum time is 5 to 45 degrees.
  • the effect of the present invention is to reduce the cracking of each lining brick 5a to 7a and the gap between the lining bricks 5a to 7a, so that each lining brick falls off 5a to 7a. Is likely to occur.
  • dowels (not shown) are provided on both the upper and lower surfaces of each lining brick 5a-7a, for example, so that the lining bricks 5a-7a will not come out even when the angle exceeds 45 degrees. You may plan.
  • the third brick in the straight thickness direction of the straight barrel portion 6 is effective in the same direction as the vertical axis 11, that is, horizontally stacked, but the most effective one is as described above. This is a case where the lower corner portion 5, the straight body portion 6, and the throttle portion 7 are all reversely stacked.
  • the construction method of this invention exhibits an effect by using for a converter, an AOD furnace, a hot metal pretreatment furnace, etc.
  • Table 1 shows the results of experiments using a plurality of types of furnaces to which the reverse inclined full lining structure of the furnace according to the present invention is applied.
  • the construction time ratio in Table 1 is the construction time including preparation in the straight body part or the drawing part when horizontal stacking or inclined product construction is carried out as a comparative example in the same furnace as the present invention. It is the ratio when the construction time including preparation in is divided. When the ratio is 100, the smaller the numerical value, the same as the comparative example, indicating that the construction time is shorter and better.
  • the degree of damage to the cracks in the lower corners, straight barrels, and squeezed parts in Table 1 is the cracks in the straight trunks or squeezed bricks when horizontal stacking or sloping stacking is implemented as a comparative example in the same furnace as the present invention.
  • the summary of the reverse inclined full lining structure according to the present invention is summarized as follows. That is, the reverse of the furnace formed in the furnace 20 having the furnace bottom 4, the lower corner part 5, the furnace bottom / lower corner boundary part 30, the straight body part 6, the throttle part 7 and the furnace port 8 in order from the bottom part of the furnace 20.
  • the inclined lining structure there is a third on the iron skin surface 1a of the straight body portion 6 and from the furnace bottom 4 toward the furnace mouth 8 and along the iron skin surface 1a in the height direction which is the furnace mouth direction.
  • a second lining to be constructed on the inner side of the lower corner portion 5 when the height direction shaft 12c and the vertical direction shaft 11 that is perpendicular to the iron skin surface 1a of the straight body portion 6 and goes into the furnace are set.
  • the brick 5a is positioned at the lower corner portion 5 such that the second thickness direction central axis 14b is positioned between the second height direction axis 12b below the third height direction axis 12c and the vertical axis 11.
  • Stack some or all of the second lining brick 5a There are two or more first lining bricks 30a to be constructed inside the furnace bottom / lower corner boundary portion 30, and the first thickness direction central axis 14a of the first lining brick 30a is the furnace bottom / lower corner boundary portion 30.
  • first liner brick 30a Stacking part or all of the first liner brick 30a so that the smaller angle when the furnace bottom liner brick in contact with the fifth thickness direction central axis 14e of 4a intersects with 5 degrees or more, and / or There are two or more first lining bricks 30a to be constructed inside the furnace bottom / lower corner boundary 30, and the first thickness direction central axis 14a of the first lining brick 30a is the furnace bottom / lower corner boundary.
  • the first lining brick 30a has a smaller angle of 5 degrees or more when the second lining brick in contact with the portion 30 intersects the second thickness direction central axis 14b of the 5a.
  • 3rd thickness direction central axis 14c of the 3rd lining brick 6a which piles up a part or all and constructs inside the straight body part 6a is located between the 3rd height direction axis 12c and the perpendicular direction axis 11
  • the third lining brick 6a is partially or wholly stacked, and the fourth thickness brick central axis 14d of the fourth lining brick 7a applied to the inside of the throttle portion 7 is more than the third heightwise axis 12c.
  • the fourth lining brick 7a is partly or wholly stacked so as to be positioned between the upper fourth height direction axis 12d and the vertical direction axis 11, and on the inner side of the straight body portion 6.
  • the third thickness direction central axis 14c of the third lining brick 6a to be applied is directed to the furnace along the vertical direction axis 11 in the cross section perpendicular to the third height direction axis 12c, and the second to fourth thickness directions Central axes 14b, 14 c and 14d form a reverse inclination angle 16 of 5 to 45 degrees with respect to the vertical axis 11, and the first, third and fourth lining bricks 5a, 6a and 7a are first, third and third.
  • the four furnace inner surfaces 5aA, 6aA, and 7aA have no step.

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  • Engineering & Computer Science (AREA)
  • Mechanical Engineering (AREA)
  • General Engineering & Computer Science (AREA)
  • Chemical & Material Sciences (AREA)
  • Manufacturing & Machinery (AREA)
  • Materials Engineering (AREA)
  • Metallurgy (AREA)
  • Organic Chemistry (AREA)
  • Furnace Housings, Linings, Walls, And Ceilings (AREA)
  • Carbon Steel Or Casting Steel Manufacturing (AREA)
  • Treatment Of Steel In Its Molten State (AREA)

Abstract

Provided is an inversely inclined full-lining structure of lining bricks, which can prevent the bricks from cracking and dropping so that it can perform a stable operation. The inversely inclined full-lining structure comprises a furnace bottom (4), a lower corner portion (5), a bottom/lower-corner boundary (30), a straight drum portion (6), a constricted portion (7) and a furnace mouth (8) sequentially in the recited order from the bottom of a furnace (20). The individual lining bricks (5a, 6a and 7a) of the lower corner portion (5), the straight drum portion (6) and the constricted portion (7) are prevented from cracking and dropping by inclining the same fully inversely.

Description

逆傾斜フルライニング構造Reverse inclined full lining structure
 本発明は、転炉、AOD炉、溶銑予備処理炉等の炉に傾斜ライニング構造を適用することにより、れんがの割れおよび脱落防止、安定操業を達成するための新規な改良に関する。 The present invention relates to a novel improvement for achieving prevention of brick cracking and falling off and stable operation by applying an inclined lining structure to a converter, an AOD furnace, a hot metal pretreatment furnace, or the like.
 従来の転炉内張りれんがのライニング構造は、下部コーナー部では、水平積み、ラウンドコーナー積み、傾斜積み等が採用され、直胴部では水平積み等、絞り部では、水平積み、傾斜積み、逆傾斜積み等が適用されている。
 これらのライニング構造は、れんがの積みやすさ、迫り割れ等によるれんがの損傷、その他操業上の問題等により、それぞれの部位において種々選択されている。
 その内、割れによるれんがの損傷を防止する観点から提案されているライニング構造は、一例として、絞り部にあっては傾斜積みないし逆傾斜積みが、下部コーナー部にあってはラウンドコーナー積みがある。
 絞り部の構造に関連して、以下の特許が開示されている。
 まず、特許文献1、特許文献2には、傾斜積み構造と水平積み構造が例示されている。
 また、特許文献3には、絞り部鉄皮面に対して垂直にれんがを積み上げた傾斜型のライニング構造が例示されている。
The conventional lining structure of converter lining bricks adopts horizontal stacking, round corner stacking, inclined stacking, etc. at the lower corner, horizontal stacking at the straight barrel section, horizontal stacking, inclined stacking, and reverse tilting at the throttle section. Stacking is applied.
These lining structures are variously selected in each part due to the ease of stacking bricks, the damage of bricks due to sacking, and other operational problems.
Among them, the lining structure proposed from the viewpoint of preventing damage to bricks due to cracking is, for example, inclined stacking or reverse inclined stacking in the throttle part, and round corner stacking in the lower corner part. .
The following patents are disclosed in relation to the structure of the throttle portion.
First, Patent Document 1 and Patent Document 2 illustrate an inclined stacked structure and a horizontal stacked structure.
Patent Document 3 exemplifies an inclined lining structure in which bricks are stacked perpendicularly to the throttle part skin surface.
 また、特許文献4には、水平積みのライニング構造が例示されている。
 また、特許文献5には、水平積みライニング構造が例示され、炉の軸線と絞り部鉄皮とのなす角度よりも、軸線と内張りれんが表面がなす角度が小さくなるように積み上げることを特徴とする特許が開示されている。
 さらに、逆傾斜積みライニング構造として、特許文献6の特許が例示されている。
 下部コーナー部に関する開示された特許は以下である。
 特許文献7は、下部コーナー部を水平積み構造にした例である。
 特許文献8は、同じくラウンドコーナー積みである。
 さらに、特許文献9は、傾斜積みになっている。
 また、これらに共通して直胴部は水平積みライニングになっている。
Further, Patent Document 4 exemplifies a horizontally stacked lining structure.
Further, Patent Document 5 exemplifies a horizontal stacking lining structure, and is characterized in that stacking is performed so that the angle formed by the surface of the axis and the lining brick is smaller than the angle formed by the axis of the furnace and the drawn iron core. Patents are disclosed.
Furthermore, the patent of patent document 6 is illustrated as a reverse-tilt stacking lining structure.
The disclosed patents relating to the lower corner are:
Patent document 7 is an example which made the lower corner part the horizontal stacking structure.
Patent Document 8 is also a round corner stack.
Furthermore, Patent Document 9 is inclined.
Further, in common with these, the straight body portion is a horizontal stacking lining.
実開昭61-159357号公報、Japanese Utility Model Publication No. 61-159357, 特開2003-231910号公報JP 2003-231910 A 実開平3-67050号公報Japanese Utility Model Publication No. 3-67050 特開平5-279719号公報JP-A-5-279719 特開平7-3321号公報Japanese Patent Laid-Open No. 7-3321 特開2006-200824号公報Japanese Patent Laid-Open No. 2006-200244 特開平9-263819号公報Japanese Patent Laid-Open No. 9-263819 実開平5-51941号公報Japanese Utility Model Publication No. 5-51941 特開2001-279319号公報JP 2001-279319 A
 以上の特許文献1~9は、絞り部、下部コーナー部等の個々の部分では、ある場合は、れんが損傷を抑制する効果を示すが、他の部位への影響を考慮したライニング構造には必ずしもなっていない。そのため、ある箇所で優れた効果を示しても、別の箇所で悪い影響を与えている可能性があり、場合によっては、悪い箇所が全体を律速してしまうこともある。したがって、全体として最適なライニング構造を検討することは非常に重要である。
 例えば、絞り部では、水平積みよりも傾斜積みの方が応力軽減が図られ、効果を示しているが、築炉時にれんががずれ落ちたり、使用中にれんがが抜けることがある。また、うまく築炉できたとしても、炉の稼動中の多くの時間は、絞り部の傾斜積みれんがに重力による下方に落ちる力が常に掛かるので、特に、れんがが損耗し厚みが薄くなる稼働末期では、れんがが抜け落ちることがある。さらには、本発明者らの研究により、そもそも絞り部の傾斜積みでは、れんがの亀裂に結びつく応力は軽減されるが、絞り部の水平積みに比べて絞り部のれんが間に隙間が生じやすい。一方、このような絞り部れんがの短命は、水平積みライニングの直胴部れんがにも影響を与え、直胴部れんがの脱落、早期損傷にも繋がっている。
Although the above Patent Documents 1 to 9 show the effect of suppressing brick damage in some cases, such as the narrowed portion and the lower corner portion, the lining structure considering the influence on other parts is not always necessary. is not. For this reason, even if an excellent effect is shown in one place, there is a possibility that it has a bad influence in another place, and in some cases, the bad place may rate the whole. Therefore, it is very important to consider the optimal lining structure as a whole.
For example, in the squeezed part, slanted stacking is more effective in reducing stress than horizontal stacking, and the effect is shown. However, bricks may fall off during building, and bricks may fall out during use. Even if the furnace can be constructed successfully, a large amount of time during the operation of the furnace is always subjected to the downward force due to gravity on the inclined pile at the throttle, so that the brick is worn out and the thickness is reduced. Then, brick may fall out. Furthermore, according to the research by the present inventors, in the first place, in the inclined stacking of the throttle portion, the stress associated with the crack of the brick is reduced, but a gap is easily generated between the bricks in the throttle portion as compared with the horizontal stacking of the throttle portion. On the other hand, the short life of such squeezed bricks also affects the straight barrel bricks of the horizontally stacked lining, leading to falling off of the straight barrel bricks and early damage.
 また、本出願人の出願による特許文献6は、かなりの効果を示し、絞り部れんがの脱落は見られなくなったが、その良い効果が直胴部れんがに及ぶものではないので、依然として従来と同様に、直胴部が損傷されていくことがある。また、今まで絞り部に律速され停炉していたものが、寿命が延びたとは言え、今度は直胴部の寿命に律速されることになる。
 さらに、下部コーナー部においては、ラウンドコーナー積みが最も優れたライニング構造であることは実炉での結果、あるいは、本出願人の発明者らの解析によって明らかにされている。しかし、このラウンドコーナー積みが他に与える影響は検討されたことがない。そこで本発明者らは鋭意検討し、確かにラウンドコーナー積みは下部コーナー部に生じる応力を緩和し、れんがの割れ損傷を抑制できるライニング構造が、一方で、直胴部に大きな応力を集中せしめ、直胴部の早期損傷の要因になることが判明した。
 また、直胴部のライニング構造は、主として水平積み構造が採用されているが、果たしてこれが最適の構造かどうかも、特に、他の箇所のライニング構造との関係で検討されたことがない。
 本発明は上記事情を鑑みて行なわれたものである。すなわち、全ライニングれんがの割れ損傷を抑制できる、全体として最適なライニング構造を得ることを目的とする。
Further, Patent Document 6 filed by the applicant of the present application shows a considerable effect, and the squeezing portion bricks are not dropped off. However, since the good effect does not extend to the straight body portion bricks, it is still the same as in the past. In addition, the straight body may be damaged. In addition, what has been rate-controlled by the throttle part until now and the furnace has stopped, will now be rate-controlled by the life of the straight body part, although the life has been extended.
Further, in the lower corner portion, it is clarified that the round corner stacking is the most excellent lining structure as a result of an actual furnace or by analysis of the inventors of the present applicant. However, the impact of this round corner stack on others has never been studied. Therefore, the present inventors have studied diligently, certainly round corner stacking relaxes the stress generated in the lower corner portion, and the lining structure that can suppress the cracking damage of the brick, on the other hand, concentrates a large stress on the straight body portion, It has been found that it causes early damage to the straight body.
In addition, the lining structure of the straight body portion is mainly a horizontal stacking structure, but it has never been examined whether this is the optimum structure or not particularly in relation to the lining structures in other places.
The present invention has been made in view of the above circumstances. That is, an object of the present invention is to obtain an optimal lining structure as a whole that can suppress cracking damage of all lining bricks.
 本発明による逆傾斜フルライニング構造は、炉の底部から順に炉底、下部コーナー部、炉底・下部コーナー境界部、直胴部、絞り部及び炉口を有する炉に形成されてなる炉の逆傾斜ライニング構造において、前記直胴部の鉄皮面上にあって前記炉底から炉口に向かい前記鉄皮面に沿って前記炉口方向である高さ方向に向かう第3高さ方向軸と前記直胴部の前記鉄皮面に対して垂直で炉内に向かう垂直方向軸とを設定したときに、前記下部コーナー部の内側に施工する第2内張りれんがの第2厚み方向中心軸が前記第3高さ方向軸より下方の第2高さ方向軸と前記垂直方向軸との間に位置するように前記下部コーナー部に位置する第2内張りれんがの一部または全部を積み上げ、前記炉底・下部コーナー境界部の内側に施工する第1内張りれんがが2個以上であり、前記第1内張りれんがの第1厚み方向中心軸が、前記炉底・下部コーナー境界部に接する炉底内張りれんがの第5厚み方向中心軸と交わるときの小さい方の角度が5度以上であるように、前記第1内張りれんがの一部または全部を積み上げ、前記直胴部の内側に施工する第3内張りれんがの第3厚み方向中心軸が、前記第3高さ方向軸と前記垂直方向軸との間に位置するように前記第3内張りれんがの一部または全部を積み上げ、前記絞り部の内側に施工する第4内張りれんがの第4厚み方向中心軸が、前記第3高さ方向軸より上方の第4高さ方向軸と前記垂直方向軸との間に位置するように前記第4内張りれんがの一部または全部を積み上げた構成であり、また、前記直胴部の内側に施工する第3内張りれんがの第3厚み方向中心軸が、前記第3高さ方向軸に垂直な断面において前記垂直方向軸に沿って炉内に向かう構成であり、また、前記第2~4厚み方向中心軸が前記垂直方向軸とのなす角度が5~45度の逆傾斜角度をなす構成であり、また、前記第1、第3、第4内張りれんがの第1、第3、第4炉内面に段差がない構成であり、また、前記炉が、転炉、AOD炉、溶銑予備処理炉の何れかとした構成である。 The reverse inclined full lining structure according to the present invention is the reverse of the furnace formed in the furnace having the furnace bottom, the lower corner part, the furnace bottom / lower corner boundary part, the straight body part, the throttle part and the furnace port in order from the bottom part of the furnace. In the inclined lining structure, a third height direction axis that is on the iron skin surface of the straight body portion and that is directed from the furnace bottom toward the furnace mouth and along the iron skin surface in a height direction that is the furnace mouth direction. When a vertical axis that is perpendicular to the iron skin surface of the straight body portion and that goes into the furnace is set, the second thickness direction central axis of the second lining brick to be constructed inside the lower corner portion is the A part or all of the second lining brick positioned at the lower corner portion is stacked so as to be positioned between the second height axis below the third height axis and the vertical axis;・ First lining to be constructed inside the lower corner boundary Is the smaller one when the first thickness direction central axis of the first lining brick intersects the fifth thickness direction central axis of the furnace bottom lining brick in contact with the furnace bottom / lower corner boundary. The third thickness brick central axis of the third lining brick that is partially or wholly stacked and constructed inside the straight body portion so that the angle is 5 degrees or more is the third height brick. A fourth thickness direction central axis of the fourth lining brick that is constructed inside the throttling portion is stacked in a part or all of the third lining brick so as to be positioned between the direction axis and the vertical direction axis, A configuration in which a part or all of the fourth lining brick is stacked so as to be positioned between a fourth height direction axis above the third height direction axis and the vertical direction axis, and the straight body Of the third lining brick to be constructed inside the section The thickness direction central axis is configured to be directed into the furnace along the vertical direction axis in a cross section perpendicular to the third height direction axis, and the second to fourth thickness direction central axes are the vertical direction axis and the vertical direction axis. The angle between the first, third, and fourth liner bricks has a step difference between the inner surfaces of the first, third, and fourth furnace bricks. In addition, the furnace may be any one of a converter, an AOD furnace, and a hot metal pretreatment furnace.
 本発明は以上のように構成されているため、次のような効果を得ることができる。
 すなわち、転炉、AOD炉、溶銑予備処理炉等の炉の内張りれんが積み構造を逆傾斜積みフルライニング構造にすることにより、築炉中にれんががずれたり抜け落ちることなく、容易に築炉できるので、施工時間を大幅に短縮する効果を得ることができ、また、ライニング全体において、使用中にれんがの膨張による応力集中が生じることなくれんがの割れ防止が図られ、さらに、れんが間に隙間が生じることなく、また、れんがの損耗が進み残厚が薄くなっても一気に脱落することがないので、炉寿命の延長と安定操業が可能になり、また、れんが損傷または抜け落ちに対して従来実施されていた補修作業、それに伴う補修材が必要ないので、炉寿命の延長効果と相まって炉の操業コストを大幅に削減できるようになった。
Since this invention is comprised as mentioned above, the following effects can be acquired.
In other words, by using a reverse lining stacked full-lining structure for furnace lining bricks such as converters, AOD furnaces, hot metal pretreatment furnaces, etc., the bricks can be easily constructed without shifting or falling off during the construction. The construction time can be greatly shortened, and the entire lining can be prevented from cracking without causing stress concentration due to expansion of the brick during use, and a gap is created between the bricks. In addition, since even if the wear of the brick progresses and the remaining thickness decreases, it does not fall off at a stretch, it is possible to extend the life of the furnace and ensure stable operation. Since the repair work and the accompanying repair material are not necessary, the operating cost of the furnace can be greatly reduced in combination with the effect of extending the life of the furnace.
本発明による直胴部ないし絞り部構造を有する炉の逆傾斜フルライニング構造を示す要部の断面図である。It is sectional drawing of the principal part which shows the reverse inclination full lining structure of the furnace which has a straight body part throttling part structure by this invention. 図1の要部の逆傾斜積の逆傾斜角度の決め方を示す全体構成図である。It is a whole block diagram which shows how to determine the reverse inclination angle of the reverse inclination product of the principal part of FIG.
 本発明は、炉の内張りれんが積み構造を逆傾斜積みとすることにより、築炉中のれんががずれたり抜け落ちることなく、容易に築炉できるライニングであること、使用時にれんがの膨張による応力集中が全ライニングれんがに生じることなく、れんがの割れ防止が図られるライニングであること、さらに、使用中にれんが間に隙間が生じることがなく、れんがの損耗が進み残厚が薄くなっても一気に脱落することがない構造を有する炉の逆傾斜フルライニング構造を得ることを目的とする。 The present invention is a lining that can be easily constructed without shifting or falling out of bricks during the construction of the furnace by setting the lining of the furnace lining bricks to reverse slope, and stress concentration due to the expansion of bricks during use. The lining is designed to prevent cracking of the bricks without causing any lining bricks. Furthermore, there is no gap between the bricks during use, and even if the bricks wear out and the remaining thickness decreases, the bricks fall off at once. An object is to obtain a reverse inclined full lining structure of a furnace having a structure that does not occur.
 以下、図面と共に本発明による逆傾斜ライニング構造の好適な実施の形態について説明する。
 通常、炉20のれんが積施工は、炉20の底部20aから上方に向かって行われる。すなわち、炉底内張りれんが4aからなる炉底4、第1内張りれんが30aからなる炉底・下部コーナー境界部30、第2内張りれんが5aからなる下部コーナー部5、第1切替れんが9aと第3内張りれんが6aからなる直胴部6、第4内張りれんが7aからなる絞り部7、戻しれんが10からなる炉口8で施工される。一例として、図1を使用して説明する。図1は、鉄皮1の内側に、パーマライニング2、ウェアーライニング3が施工されている。このパーマライニング2は、定形耐火物であるれんがでも、不定形耐火物であるキャスタブル、スタンプ材、充填材等でも、いずれでも良い。一方、前記ウェアーライニング3は所定の形状を持ったれんがである。これらのパーマライニング2、ウェアーライニング3は、炉20を図1のように立てた状態で、炉底4から施工され、炉底4、炉底・下部コーナー境界部30と順番に下から上に施工される。この炉底・下部コーナー境界部30は、炉底で生じたれんがの熱膨張による突っ張りを下部コーナー部5、さらにその上の直胴部6より上方に伝わることを抑制するライニング構造が最適であることが本発明者らの検討で明らかになった。このために炉底・下部コーナー境界部30のライニング構造は、当該部位に積まれる前記第1内張りれんが30aが2個以上であり、前記第1内張りれんが30aの第1厚み方向中心軸14aが、図1に示すごとく、炉底・下部コーナー境界部30に接する炉底内張りれんが4aの前記第5厚み方向中心軸14eと交わるときの小さい方の角度が5度以上であるようにライニングされるか、及び/または、炉底・下部コーナー境界部30の内側に施工する第1内張りれんが30aが2個以上であり、第1内張りれんが30aの第1厚み方向中心軸14aが、炉底・下部コーナー境界部30に接する第2内張りれんが5aの第2厚み方向中心軸14bと交わるときの小さい方の角度が5度以上であるようにライニングされることにより、炉底れんがの膨張による突っ張りが下部コーナー部の鉄皮側及び/または炉底の鉄皮側方向に働き、上方への働きを抑制できる。前記角度が5度以下だと、膨張による突っ張りが上方に向かうことになり好適ではない。
Hereinafter, preferred embodiments of a reversely inclined lining structure according to the present invention will be described with reference to the drawings.
Usually, brick construction of the furnace 20 is performed upward from the bottom 20 a of the furnace 20. That is, the bottom 4 of the furnace bottom lining 4a, the bottom / lower corner boundary 30 of the first lining 30a, the lower corner 5 of the second lining 5a, the first switching brick 9a and the third lining The straight barrel portion 6 made of brick 6a, the throttle portion 7 made of fourth lining brick 7a, and the furnace port 8 made of return brick 10 are applied. An example will be described with reference to FIG. In FIG. 1, a perma lining 2 and a wear lining 3 are constructed inside the iron skin 1. This permal lining 2 may be a brick that is a regular refractory, or a castable, a stamp material, a filler, or the like that is an irregular refractory. On the other hand, the wear lining 3 is a brick having a predetermined shape. The permanent lining 2 and the wear lining 3 are constructed from the furnace bottom 4 with the furnace 20 standing as shown in FIG. 1, and the furnace bottom 4 and the furnace bottom / lower corner boundary 30 are sequentially arranged from the bottom to the top. It is constructed. The furnace bottom / lower corner boundary 30 has an optimal lining structure that suppresses the propulsion caused by the thermal expansion of the brick generated at the furnace bottom from the lower corner 5 and further above the straight body 6 above it. This has been clarified by the study of the present inventors. For this purpose, the lining structure of the furnace bottom / lower corner boundary portion 30 has two or more of the first lining bricks 30a stacked on the part, and the first thickness direction central axis 14a of the first lining brick 30a is: As shown in FIG. 1, is the lining so that the bottom lining brick in contact with the furnace bottom / lower corner boundary 30 intersects the fifth thickness direction central axis 14e of 4a so that the smaller angle is 5 degrees or more? And / or there are two or more first lining bricks 30a to be constructed inside the furnace bottom / lower corner boundary 30, and the first thickness direction central axis 14a of the first lining brick 30a is the bottom / lower corner. By lining the second lining brick in contact with the boundary 30 with the second thickness direction central axis 14b of 5a so that the smaller angle is 5 degrees or more, the bottom of the furnace There workings bracing is iron skin side direction of the iron skin side and / or furnace bottom of the lower corner portion due to the expansion, can be suppressed work upward. If the angle is 5 degrees or less, the stretching due to expansion is directed upward, which is not preferable.
 続いて、下部コーナー部5の内側に施工する前記第2内張りれんが5aの第2厚み方向中心軸14bが第2高さ方向軸12bと垂直方向軸11との間に位置するように前記第2内張りれんが5aの一部または全部を積み上げ、このとき、前記第2厚み方向中心軸14bが前記垂直方向軸11とのなす角度が5~45度の逆傾斜角度16であるように積み上げる。このように積み上げることにより、下部コーナー部5で発生する膨張による突っ張りは、上方にスムーズに逃がすことができ、全体としての内張りれんがの損傷抑制に有効であることが本発明者らにより得られている。もし、スムーズに逃がすことができないと、その逆転した突っ張りが炉底に向かうことになり、また、上方に対しては、ライニングれんがの局部に応力が集中したり、あるいは、れんが間に隙間等を生じることになり、損傷を助長してしまうことになる。ここで、前記逆傾斜角度16が5度より小さいと、従来の水平積みと同様であり、下部コーナー部の損傷が大きくなり、逆傾斜角度16が45度より大きいと、操業中に炉を反転したときに、れんがが抜け落ちやすくなり好適ではない。 Subsequently, the second thickness brick central axis 14b of the second lining brick 5a constructed on the inner side of the lower corner portion 5 is positioned between the second height axis 12b and the vertical axis 11 so as to be positioned between the second height brick 12a. A part or all of the lining brick 5a is piled up, and at this time, the second thickness direction central axis 14b is piled up so that the angle between the vertical axis 11 and the reverse inclination angle 16 is 5 to 45 degrees. By stacking in this way, the present inventors have obtained that the tension caused by the expansion generated in the lower corner portion 5 can be smoothly released upward, and is effective in suppressing damage to the lining brick as a whole. Yes. If it cannot be released smoothly, the reverse tension will go to the bottom of the furnace, and upwardly, stress will concentrate on the local area of the lining brick, or there will be a gap between the bricks. Will occur and will promote damage. Here, when the reverse inclination angle 16 is smaller than 5 degrees, it is the same as the conventional horizontal stacking, and the lower corner portion is greatly damaged. When the reverse inclination angle 16 is larger than 45 degrees, the furnace is inverted during operation. When this is done, the brick is easy to fall off, which is not preferable.
 次に、下部コーナー部5まで施工したところで、直胴部6の施工になる。ここで、直胴部6または直胴部6及び絞り部7のウェアーライニング3の第3内張りれんが6aないし第4内張りれんが7aは、本発明の逆傾斜積みで施工される。さらに、その上が炉口8になる。このように積み上げることにより、直胴部6及び絞り部7で発生する膨張による突っ張りは、上方にスムーズに逃がすことができ、全体としての内張りれんがの損傷抑制に有効であることが本発明者らにより得られている。もし、スムーズに逃がすことができないと、その逆転した突っ張りが下部コーナー部5、炉底4等に向かうことになり、また、上方に対しては、ライニングれんがの局部に応力が集中したり、あるいは、れんが間に隙間等を生じることになり、損傷を助長してしまうことになる。 Next, when the construction is made up to the lower corner part 5, the straight body part 6 is constructed. Here, the third lining brick 6a to the fourth lining brick 7a of the wear lining 3 of the straight barrel portion 6 or the straight barrel portion 6 and the throttle portion 7 are constructed by the reverse slope stacking of the present invention. Furthermore, it becomes the furnace port 8. By stacking in this way, it is possible for the tension caused by the expansion generated in the straight body portion 6 and the throttle portion 7 to escape smoothly upward, and it is effective for suppressing damage to the lining brick as a whole. Is obtained. If it is not possible to escape smoothly, the reverse tension will be directed to the lower corner part 5, the furnace bottom 4, etc., and upwardly, stress will concentrate on the local part of the lining brick, or As a result, gaps or the like are generated between the bricks, and damage is promoted.
 前記下部コーナー部5のウェアーライニング3と直胴部6のウェアーライニング3との角度は異なってもよく、その場合は、下部コーナー部5のすぐ上に、直胴部6の逆傾斜積れんがを施工することができない。また、同様のことは直胴部6と絞り部7との間にも言える。そこで、下部コーナー部5と直胴部6との間に第1切替れんが9aを、直胴部6と絞り部7との間に第2切替れんが9bを用いることになる。この各切替れんが9a、9bは、1個または複数個を用いて、2つの部位間の角度の違いを調整している。また、絞り部7の上部まで積み上げ、炉口8で、再度水平に戻し、炉口8の鉄皮1に接するようにするれんがは戻しれんが10である。図1は最後の1個で上部戻しれんが10としている例であるが、複数個を用いても良い。
 前記直胴部6ないし絞り部7の逆傾斜積になっているウェアーライニング3の各内張りれんが5a~7aは、第2炉内面5aA、第4炉内面7aA、第2~第4背面5aB~7aBともに滑らかに積み上げても良く、あるいは、段差を付けて積み上げても良い。しかし、段の飛び出た箇所が使用中に割れやすいので、望ましくは、前記下部コーナー部5、直胴部6、絞り部7に施工した各内張りれんが5a~7aの炉内面5aA~7aAに段差がない施工がより良好である。
The angle between the wear lining 3 of the lower corner portion 5 and the wear lining 3 of the straight barrel portion 6 may be different. In this case, the reverse inclined brick of the straight barrel portion 6 is placed immediately above the lower corner portion 5. Cannot be constructed. The same can be said between the straight body portion 6 and the throttle portion 7. Therefore, the first switching brick 9 a is used between the lower corner portion 5 and the straight barrel portion 6, and the second switching brick 9 b is used between the straight barrel portion 6 and the throttle portion 7. Each of these switching bricks 9a and 9b is used to adjust the difference in angle between the two parts by using one or a plurality of switching bricks. In addition, the brick which is stacked up to the upper part of the throttle part 7, is returned to the horizontal state again at the furnace port 8, and comes into contact with the iron skin 1 of the furnace port 8 is returned brick 10. Although FIG. 1 shows an example in which the upper one is the last one, a plurality of upper return bricks may be used.
Each of the lining bricks 5a to 7a of the wear lining 3 which has an inversely inclined product of the straight body portion 6 or the throttle portion 7 has a second furnace inner surface 5aA, a fourth furnace inner surface 7aA, and second to fourth back surfaces 5aB to 7aB. Both may be stacked smoothly, or may be stacked with a step. However, since the protruding portion of the step is easily broken during use, it is desirable that there is a step on the furnace inner surfaces 5aA to 7aA of the respective inner bricks 5a to 7a applied to the lower corner portion 5, the straight barrel portion 6 and the throttle portion 7. No construction is better.
 前記下部コーナー部5、直胴部6、絞り部7に形成した各内張りれんが5a~7aによる逆傾斜ライニングにおける逆傾斜角度は次のようにして決める。
 前記直胴部6の鉄皮1に対して垂直に各炉内面5aA~7aAに向かう垂直方向軸11と下部コーナー部5、直胴部6、絞り部7の鉄皮1に沿って高さ方向に向かう高さ方向軸12とがなす間の角13を、下部コーナー部5、直胴部6、絞り部7に配設する各内張りれんが5a~7aの各厚み方向中心軸14b、14c、14dが通る配設の仕方が逆傾斜積みである。
The reverse inclination angle in the reverse inclination lining by the lining bricks 5a to 7a formed in the lower corner portion 5, the straight body portion 6 and the throttle portion 7 is determined as follows.
A vertical direction axis 11 directed to each furnace inner surface 5aA to 7aA perpendicularly to the iron skin 1 of the straight body portion 6 and the lower corner portion 5, the straight body portion 6, and the iron shell 1 of the throttle portion 7 in the height direction. The corners 13 formed by the height direction axis 12 toward the center are formed in the thickness direction central axes 14b, 14c, 14d of the inner bricks 5a to 7a disposed in the lower corner portion 5, the straight body portion 6, and the throttle portion 7, respectively. The manner of arrangement through which is passed is reverse slope stacking.
 なお、高さ方向軸12の逆方向と垂直方向軸11との間を各内張りれんが5a~7aの各厚み方向中心軸14b、14c、14dが通る施工は傾斜積になる。また、各内張りれんが5a~7aの各厚み方向中心軸14b、14c、14dと垂直方向軸11とのなす角度である逆傾斜角度16については、逆傾斜なら任意の角度で効果を発揮するが、望ましくは5~45度のときが最適である。また、5度よりも小さいと、本発明の目的である各内張りれんが5a~7aの割れ、各内張りれんが5a~7a間の隙間生成を抑制する効果が減じられ、各内張りれんが5a~7aの抜け落ちが生じやすくなる。しかし、45度を超えても、稼働時に各内張りれんが5a~7aが抜けないように、例えば、各内張りれんが5a~7aの上下面の両面または片面にダボ(図示せず)を設け、抜け落ち防止を図っても良い。さらに、直胴部6の内張りれんがの第3厚み方向中心軸14cが垂直方向軸11と同じ方向、すなわち、水平積みであっても効果を発揮するが、もっとも有効なものは、前述したように下部コーナー部5、直胴部6、絞り部7が全て逆傾斜積みの場合である。
 なお、本発明の施工方法は、転炉、AOD炉、溶銑予備処理炉等に用いることで効果を発揮する。
The construction in which the thickness direction central axes 14b, 14c, 14d of the lining bricks 5a to 7a pass between the opposite direction of the height direction axis 12 and the vertical direction axis 11 is an inclined product. Further, with respect to the reverse inclination angle 16 that is the angle formed between the thickness direction central axes 14b, 14c, 14d of the lining bricks 5a to 7a and the vertical axis 11, if the reverse inclination, the effect is exhibited at an arbitrary angle. The optimum time is 5 to 45 degrees. If the angle is less than 5 degrees, the effect of the present invention is to reduce the cracking of each lining brick 5a to 7a and the gap between the lining bricks 5a to 7a, so that each lining brick falls off 5a to 7a. Is likely to occur. However, dowels (not shown) are provided on both the upper and lower surfaces of each lining brick 5a-7a, for example, so that the lining bricks 5a-7a will not come out even when the angle exceeds 45 degrees. You may plan. Further, the third brick in the straight thickness direction of the straight barrel portion 6 is effective in the same direction as the vertical axis 11, that is, horizontally stacked, but the most effective one is as described above. This is a case where the lower corner portion 5, the straight body portion 6, and the throttle portion 7 are all reversely stacked.
In addition, the construction method of this invention exhibits an effect by using for a converter, an AOD furnace, a hot metal pretreatment furnace, etc.
 次に、本発明による炉の逆傾斜フルライニング構造を適用した複数種の炉を用いて実験した結果を表1の第1表に示している。 Next, Table 1 shows the results of experiments using a plurality of types of furnaces to which the reverse inclined full lining structure of the furnace according to the present invention is applied.
Figure JPOXMLDOC01-appb-T000001
Figure JPOXMLDOC01-appb-T000001
Figure JPOXMLDOC01-appb-T000002
Figure JPOXMLDOC01-appb-T000002
 第1表中の施工時間割合は、本発明と同じ炉で比較例として水平積みないし傾斜積施工を実施したときの直胴部ないし絞り部における準備を含めた施工時間で、本発明の同部位における準備を含めた施工時間を除したときの割合である。割合が100のとき、比較例と同等、数値の小さいものほど施工時間が短く良好であることを示す。
 第1表中の下部コーナー部、直胴部、絞り部れんが割れ損傷度合は、本発明と同じ炉で比較例として水平積みないし傾斜積施工を実施したときの直胴部ないし絞り部れんがの割れ損傷に起因した損傷速度(mm/ch)で、本発明の下部コーナー部、直胴部、絞り部れんがの割れ損傷速度を除したときの度合表示である。度合が100のとき、比較例と同等、数値の小さいものほど割れ損傷速度が小さく良好であることを示している。
 また、直胴部、絞り部れんが抜け落ち度合は、同様に本発明と同じ炉で比較例として水平積みないし傾斜積施工を実施したときの1炉代に渡る、それぞれ直胴部、絞り部れんがの抜け落ち本数で、本発明の絞り部れんがの抜け落ち本数を除したときの度合表示である。度合が100のとき、比較例と同等、数値の小さいものほど抜け落ち損傷速度が小さく良好であることを示している。
 従って、第1表から分るように、本発明の実施例は、いずれも比較例よりも優れている。
The construction time ratio in Table 1 is the construction time including preparation in the straight body part or the drawing part when horizontal stacking or inclined product construction is carried out as a comparative example in the same furnace as the present invention. It is the ratio when the construction time including preparation in is divided. When the ratio is 100, the smaller the numerical value, the same as the comparative example, indicating that the construction time is shorter and better.
The degree of damage to the cracks in the lower corners, straight barrels, and squeezed parts in Table 1 is the cracks in the straight trunks or squeezed bricks when horizontal stacking or sloping stacking is implemented as a comparative example in the same furnace as the present invention. It is a degree display when the damage rate (mm / ch) resulting from the damage is divided by the crack damage rate of the lower corner portion, straight body portion, and drawn portion brick of the present invention. When the degree is 100, it is the same as the comparative example, and the smaller the numerical value, the smaller the crack damage rate and the better.
In addition, the degree of dropout of the straight body part and the throttle part brick is the same as that of the present invention in the same furnace as a comparative example. It is a degree display when the number of omission bricks of the present invention is divided by the number of omissions. When the degree is 100, it is equivalent to the comparative example, and the smaller the numerical value, the smaller the drop-off damage rate and the better.
Therefore, as can be seen from Table 1, all the examples of the present invention are superior to the comparative examples.
 従って、前述の通り、本発明による逆傾斜フルライニング構造の要旨をまとめると、次の通りである。
 すなわち、炉20の底部から順に炉底4、下部コーナー部5、炉底・下部コーナー境界部30、直胴部6、絞り部7及び炉口8を有する炉20に形成されてなる炉の逆傾斜ライニング構造において、前記直胴部6の鉄皮面1a上にあって前記炉底4から炉口8に向かい前記鉄皮面1aに沿って前記炉口方向である高さ方向に向かう第3高さ方向軸12cと前記直胴部6の前記鉄皮面1aに対して垂直で炉内に向かう垂直方向軸11とを設定したときに、前記下部コーナー部5の内側に施工する第2内張りれんが5aの第2厚み方向中心軸14bが前記第3高さ方向軸12cより下方の第2高さ方向軸12bと前記垂直方向軸11との間に位置するように前記下部コーナー部5に位置する第2内張りれんが5aの一部または全部を積み上げ、前記炉底・下部コーナー境界部30の内側に施工する第1内張りれんが30aが2個以上であり、前記第1内張りれんが30aの第1厚み方向中心軸14aが、前記炉底・下部コーナー境界部30に接する炉底内張りれんが4aの第5厚み方向中心軸14eと交わるときの小さい方の角度が5度以上であるように、前記第1内張りれんが30aの一部または全部を積み上げ、及び/または、前記炉底・下部コーナー境界部30の内側に施工する前記第1内張りれんが30aが2個以上であり、前記第1内張りれんが30aの第1厚み方向中心軸14aが、前記炉底・下部コーナー境界部30に接する前記第2内張りれんが5aの第2厚み方向中心軸14bと交わるときの小さい方の角度が5度以上であるように、前記第1内張りれんが30aの一部または全部を積み上げ、前記直胴部6の内側に施工する第3内張りれんが6aの第3厚み方向中心軸14cが、前記第3高さ方向軸12cと前記垂直方向軸11との間に位置するように前記第3内張りれんが6aの一部または全部を積み上げ、前記絞り部7の内側に施工する第4内張りれんが7aの第4厚み方向中心軸14dが、前記第3高さ方向軸12cより上方の第4高さ方向軸12dと前記垂直方向軸11との間に位置するように前記第4内張りれんが7aの一部または全部を積み上げた構成よりなると共に、前記直胴部6の内側に施工する第3内張りれんが6aの第3厚み方向中心軸14cが、前記第3高さ方向軸12cに垂直な断面において前記垂直方向軸11に沿って炉内に向かい、前記第2~4厚み方向中心軸14b、14c、14dが前記垂直方向軸11とのなす角度が5~45度の逆傾斜角度16をなし、前記第1、第3、第4内張りれんが5a、6a、7aの第1、第3、第4炉内面5aA、6aA、7aAに段差がないようにした構成である。
Therefore, as described above, the summary of the reverse inclined full lining structure according to the present invention is summarized as follows.
That is, the reverse of the furnace formed in the furnace 20 having the furnace bottom 4, the lower corner part 5, the furnace bottom / lower corner boundary part 30, the straight body part 6, the throttle part 7 and the furnace port 8 in order from the bottom part of the furnace 20. In the inclined lining structure, there is a third on the iron skin surface 1a of the straight body portion 6 and from the furnace bottom 4 toward the furnace mouth 8 and along the iron skin surface 1a in the height direction which is the furnace mouth direction. A second lining to be constructed on the inner side of the lower corner portion 5 when the height direction shaft 12c and the vertical direction shaft 11 that is perpendicular to the iron skin surface 1a of the straight body portion 6 and goes into the furnace are set. The brick 5a is positioned at the lower corner portion 5 such that the second thickness direction central axis 14b is positioned between the second height direction axis 12b below the third height direction axis 12c and the vertical axis 11. Stack some or all of the second lining brick 5a There are two or more first lining bricks 30a to be constructed inside the furnace bottom / lower corner boundary portion 30, and the first thickness direction central axis 14a of the first lining brick 30a is the furnace bottom / lower corner boundary portion 30. Stacking part or all of the first liner brick 30a so that the smaller angle when the furnace bottom liner brick in contact with the fifth thickness direction central axis 14e of 4a intersects with 5 degrees or more, and / or There are two or more first lining bricks 30a to be constructed inside the furnace bottom / lower corner boundary 30, and the first thickness direction central axis 14a of the first lining brick 30a is the furnace bottom / lower corner boundary. The first lining brick 30a has a smaller angle of 5 degrees or more when the second lining brick in contact with the portion 30 intersects the second thickness direction central axis 14b of the 5a. 3rd thickness direction central axis 14c of the 3rd lining brick 6a which piles up a part or all and constructs inside the straight body part 6a is located between the 3rd height direction axis 12c and the perpendicular direction axis 11 The third lining brick 6a is partially or wholly stacked, and the fourth thickness brick central axis 14d of the fourth lining brick 7a applied to the inside of the throttle portion 7 is more than the third heightwise axis 12c. The fourth lining brick 7a is partly or wholly stacked so as to be positioned between the upper fourth height direction axis 12d and the vertical direction axis 11, and on the inner side of the straight body portion 6. The third thickness direction central axis 14c of the third lining brick 6a to be applied is directed to the furnace along the vertical direction axis 11 in the cross section perpendicular to the third height direction axis 12c, and the second to fourth thickness directions Central axes 14b, 14 c and 14d form a reverse inclination angle 16 of 5 to 45 degrees with respect to the vertical axis 11, and the first, third and fourth lining bricks 5a, 6a and 7a are first, third and third. The four furnace inner surfaces 5aA, 6aA, and 7aA have no step.

Claims (5)

  1.  炉(20)の底部から順に炉底(4)、下部コーナー部(5)、炉底・下部コーナー境界部(30)、直胴部(6)、絞り部(7)及び炉口(8)を有する炉(20)に形成されてなる炉の逆傾斜ライニング構造において、前記直胴部(6)の鉄皮面(1a)上にあって前記炉底(4)から炉口(8)に向かい前記鉄皮面(1a)に沿って前記炉口(8)方向である高さ方向に向かう第3高さ方向軸(12c)と前記直胴部(6)の前記鉄皮面(1a)に対して垂直で炉内に向かう垂直方向軸(11)とを設定したときに、
     前記下部コーナー部(5)の内側に施工する第2内張りれんが(5a)の第2厚み方向中心軸(14b)が前記第3高さ方向軸(12c)より下方の第2高さ方向軸(12b)と前記垂直方向軸(11)との間に位置するように前記下部コーナー部(5)に位置する第2内張りれんが(5a)の一部または全部を積み上げ、
     前記炉底・下部コーナー境界部(30)の内側に施工する第1内張りれんが(30a)が2個以上であり、前記第1内張りれんが(30a)の第1厚み方向中心軸(14a)が、前記炉底・下部コーナー境界部(30)に接する炉底内張りれんが(4a)の第5厚み方向中心軸(14e)と交わるときの小さい方の角度が5度以上であるように、前記第1内張りれんが(30a)の一部または全部を積み上げ、
     前記直胴部(6)の内側に施工する第3内張りれんが(6a)の第3厚み方向中心軸(14c)が、前記第3高さ方向軸(12c)と前記垂直方向軸(11)との間に位置するように前記第3内張りれんが(6a)の一部または全部を積み上げ、
     前記絞り部(7)の内側に施工する第4内張りれんが(7a)の第4厚み方向中心軸(14d)が、前記第3高さ方向軸(12c)より上方の第4高さ方向軸(12d)と前記垂直方向軸(11)との間に位置するように前記第4内張りれんが(7a)の一部または全部を積み上げた構成よりなることを特徴とする逆傾斜フルライニング構造。
    In order from the bottom of the furnace (20), the furnace bottom (4), the lower corner (5), the furnace bottom / lower corner boundary (30), the straight body (6), the throttle (7), and the furnace port (8) In the reverse inclined lining structure of the furnace formed in the furnace (20) having the above, on the iron skin (1a) of the straight body part (6) and from the furnace bottom (4) to the furnace port (8) A third height direction axis (12c) facing in the height direction that is the furnace port (8) direction along the iron skin surface (1a) and the iron skin surface (1a) of the straight body portion (6) With a vertical axis (11) that is perpendicular to the
    The second thickness direction central axis (14b) of the second lining brick (5a) to be constructed inside the lower corner portion (5) is a second height direction axis (below the third height direction axis (12c)). A part or all of the second lining brick (5a) located in the lower corner part (5) so as to be located between the vertical axis (11) and 12b),
    There are two or more first lining bricks (30a) to be constructed inside the furnace bottom / lower corner boundary (30), and the first thickness direction central axis (14a) of the first lining brick (30a) is The first angle is set so that the smaller angle when intersecting the fifth thickness direction central axis (14e) of the furnace bottom lining brick (4a) in contact with the furnace bottom / lower corner boundary (30) is 5 degrees or more. Stack some or all of the lining brick (30a)
    The third thickness direction central axis (14c) of the third lining brick (6a) to be constructed inside the straight body portion (6) is the third height direction axis (12c) and the vertical direction axis (11). A part or all of the third lining brick (6a) is stacked so as to be located between
    The fourth thickness direction central axis (14d) of the fourth lining brick (7a) to be constructed inside the throttle part (7) is a fourth height direction axis (above the third height direction axis (12c)) ( A reverse inclined full lining structure characterized by comprising a configuration in which a part or all of the fourth lining brick (7a) is stacked so as to be positioned between 12d) and the vertical axis (11).
  2.  前記直胴部(6)の内側に施工する第3内張りれんが(6a)の第3厚み方向中心軸(14c)が、前記第3高さ方向軸(12c)に垂直な断面において前記垂直方向軸(11)に沿って炉内に向かうことを特徴とする請求項1記載の逆傾斜フルライニング構造。 The third thickness direction central axis (14c) of the third lining brick (6a) to be constructed inside the straight body portion (6) is the vertical axis in a cross section perpendicular to the third height direction axis (12c). The reverse inclined full lining structure according to claim 1, wherein the structure is directed into the furnace along (11).
  3.  前記第2~4厚み方向中心軸(14b,14c,14d)が前記垂直方向軸(11)とのなす角度が5~45度の逆傾斜角度(16)をなすことを特徴とする請求項1又は2記載の逆傾斜フルライニング構造。 The angle formed by the second to fourth thickness direction central axes (14b, 14c, 14d) and the vertical direction axis (11) forms an inverse inclination angle (16) of 5 to 45 degrees. Or the reverse inclination full lining structure of 2.
  4.  前記第1、第3、第4内張りれんが(5a,6a,7a)の第1、第3、第4炉内面(5aA,6aA,7aA)に段差がないことを特徴とする請求項1ないし3の何れかに記載の逆傾斜フルライニング構造。 The first, third and fourth liner bricks (5a, 6a, 7a) have no step on the first, third and fourth furnace inner surfaces (5aA, 6aA, 7aA). The reverse inclination full lining structure in any one of.
  5.  前記炉(20)が、転炉、AOD炉、溶銑予備処理炉の何れかであることを特徴とする請求項1ないし4の何れかに記載の逆傾斜フルライニング構造。 The reverse inclined full lining structure according to any one of claims 1 to 4, wherein the furnace (20) is any one of a converter, an AOD furnace, and a hot metal pretreatment furnace.
PCT/JP2009/050181 2008-05-20 2009-01-09 Inversely inclined full-lining structure WO2009142028A1 (en)

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Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS555032U (en) * 1978-06-23 1980-01-14
JPH0682164A (en) * 1992-09-07 1994-03-22 Toshiba Ceramics Co Ltd Cylindrical industrial furnace
JP2000035287A (en) * 1998-07-16 2000-02-02 Ngk Insulators Ltd Refractory brick and method for executing refractory brick
JP2006200824A (en) * 2005-01-20 2006-08-03 Shinagawa Refract Co Ltd Reverse inclination lining structure for furnace having contraction part structure

Patent Citations (4)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPS555032U (en) * 1978-06-23 1980-01-14
JPH0682164A (en) * 1992-09-07 1994-03-22 Toshiba Ceramics Co Ltd Cylindrical industrial furnace
JP2000035287A (en) * 1998-07-16 2000-02-02 Ngk Insulators Ltd Refractory brick and method for executing refractory brick
JP2006200824A (en) * 2005-01-20 2006-08-03 Shinagawa Refract Co Ltd Reverse inclination lining structure for furnace having contraction part structure

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