• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:

    公开号:SU1255057A3
    申请号:SU813300250
    申请日:1981-06-24
    公开日:1986-08-30
    发明作者:Хедль Фриц;Кассеггер Фридрих
    申请人:Арбед Са (Фирма);
    IPC主号:
    专利说明:

    2. The structure according to claim 1, which is in such a way that the metal plate is freely attached to the refractory element.
    3. Constructions on PP. 1 and 2, it is associated with the fact that the blocks are equipped with at least one pair of metal plates placed one next to the other.
    4. The design of claim 3, about tl and - often with the fact that between me1
    The invention relates to gas-permeable refractory structures for supplying gas to a tank through its lining for treating metal.
    The purpose of the invention is to simplify the design and increase its service life.
    Figure 1 shows the proposed construction; 2-7 are blocks, exemplary embodiments; 8 shows a pressed-in pair of inserts; Fig. 9 shows the construction with the units installed as shown in Fig. 6; figure 10 is the same, with the blocks installed as shown in figure 7.
    Construction 1 (Fig. 1) comprises a metal case 2, consisting, for example, of plates welded to each other, with two blocks 3 installed in it (two rows of six pieces each. Each block 3 has pressed with There, the metal plates 4 and the non-reinforced side surface lie tightly against the inner side of the metal body 2, thereby preventing undesirable gas flow along the metal body.
    A plate 5 is installed between the two rows of blocks 3, along which, like the metal plates 4 of blocks 3, gas can flow. Instead of a sheet plate 5, you can also install a pair of plates. Sheet plate 5 or a pair of plates can be provided with additional layers.
    Blocks 3 are separated from the front side of the metal body 2 by two strips 6 installed on the inner 55057
    Tall plates of lara layers are spaced, made in the form of wire, metal strips or from combustible or evaporating inserts.
    5. Design by p. 1, that is, in the longitudinal side of the refractory non-porous material, profiled surfaces with grooves or grooves are made.
    The inner side of the metal housing 2 and fixed to it by spot welding. To this side, the cold side is tightly welded 5 onto the end plate 7, fitted with a fitting for connecting pipe 8. The space left between the end plate 7 and the end faces of the segments is the distribution 10
    chamber for gas.
    Opposite the face plate 7 side. is the fire side of the structure and can be covered with a protective sheet. The latter is applied in
    5, when the surrounding lining of the metal treatment tank contains resins or similar carburizers, and serves to prevent the penetration of resins and the like. at
     gas-conducting seams of the structure and their seizure during heating of the tank. The protected sheet at the beginning of the work melts and releases the seams. On the fire face side of the structure, a bracket can be installed with which the structure is pushed onto the crane hook.
    Figures 2 to 4 show blocks 3 pressed with metal plates 4, 9, 10 on two, three or four longitudinal surfaces. The plates can be provided with nashtamped, entering the refractory material with fingers 11 for better connection with the refractory material. The block 3 in FIG. 5 has a metal plate 4 pressed together with it and a second metal plate fixed to it by means of spot welding.
    five
    plate 12. The blocks shown in FIG. 2-5, can be installed in the design of figure 1.
    Block 3, shown in FIG. 6, is provided with a profiled, in particular corrugated, metal plate 13 on one longitudinal surface, and a flat metal plate on the opposite side. When two such blocks 3 are assembled, KaHaj & i along the profiles for the passage of gas.
    Block 14 shown in FIG. 7, can replace the three units 3 in the structure of FIG. The block 14 is equipped with an i-shaped metal plate 15 pressed together with it, and two pairs of sheet inserts 16, which are located all over the spine, but only part of the width of the block 14. Depending on the required gas permeability, the inserts 16 can be made in the form of smooth sheet strips or, as shown in fig. 8, sheet strips with spaced elements, such as wedges or thickenings 17. To improve the connection between the mass of bricks and inserts 1.6, they can be provided with fingers 11.
    The design 1 shown in Fig. 1 comprises a metal body 2 in which twelve blocks are installed, arranged in two rows of six pieces each. Each block is provided with profiles located on a longitudinal surface, while in the upper blocks the profiles have the shape of grooves, and in the lower blocks they have the form of corrugations. However, in practice, the same type of profiles is used in all blocks.
    Flat sheet plates are installed in the gaps between two blocks of the same series, but inserts can also be provided with profiles. An inset in the form of a pair of sheet plates is shown between the two rows.
    The structure 1 depicted in FIG. 1 contains a metal body 2 in which four blocks 14 are installed. The blocks 14 with the metal plates 15 pressed together with them the metal plates 15 adjoin each other, and the unreinforced longitudinal surfaces of the blocks adjoin the inner side of the case .
    manufactured, for example, from welded to each other plates.
    Sheet steel can be used as a material for metal inserts, for example, with a thickness of 0.5-3 mm, which, if necessary, can be used with a protective coating.
    The construction according to the invention has sufficient gas permeability, and the gas is supplied through the gaps between the individual g-Eu blocks and between the metal inserts. The blocks themselves have practically no gas permeability, and therefore the refractory material used for the structures may correspond to the refractory material of the remaining body lining. As a consequence, the gas-permeable structure has the same durability as that surrounding it, and, therefore, prevents its premature renewal.
    In accordance with the invention, a metal plate (either in the form of metal sheets on the segments, or in the form of metal plates installed between the segments of the metal plates) is usually provided in each gap of the structure through which the gas must pass, which prevents the penetration of metal from the molten bath into the gap for example in the case of cast iron processing. This phenomenon can be explained by the fact that metal plates installed in gas permeable gaps have a cooling effect and quickly remove heat to the cold end side of the structure. As a result, the penetrated metal freezes at a short distance (several centimeters. In the gaps without metal plates or coatings, the metal was propelled to a cold end surface.
    The structure can operate without gas supply. At the same time, a certain amount of metal penetrates the narrow gap between the gaskets of the pair; however, when the gas supply is turned on again, the penetrated metal is blown out of the structure again and the original gas permeability is restored. It remains basically the same throughout the entire service life of the structure.
    eleven
    five
    FIG. 2
    73
    shtt
    (rig. 3
    f
    iput.f
    FIG. five
    FIG. 7
    eleven
    FIG. 8
    FIG. 9
    Editor A. Ogar
    Compiled by A.P. Tibratov
    Tehred I. Veres Corrector A.Zimokosov
    Order 4734/60 Circulation 552Subscription
    VNIIPY USSR State Committee
    for inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab., 4/5
    Production and printing company, Uzhgorod, Projecto st., 4
    权利要求:
    Claims (5)
    [1]
    I. FIRE-RESISTANT GAS-PERMEABLE DESIGN FOR GAS SUPPLY THROUGH A MELT TANK FOR MELTING METAL, containing a metal body, refractory elements installed in the body, metal sheet material placed in the refractory elements with the formation of gaps, characterized in that, with the aim of simplifying the design, to simplify the construction time service, the refractory element is made of at least two gas-tight blocks of rectangular cross section from refractory calcined or unbaked material, bonded or chemical Karbjurizator associated ski such as pitch, tar or synthetic resin, wherein at least one of the one adjacent to the other sides of these blocks is placed a metal plate, and on the front side of the structure installed pipe and distribution chamber for supplying gas.
    Fig. F “SU <„> 1255057 A 5
    [2]
    2. The construction by π. 1, due to the fact that the metal plate freely adheres to the refractory element.
    [3]
    3. The construction according to paragraphs. 1 and 2, characterized in that the blocks are provided with at least one pair of metal plates located one next to the other.
    [4]
    4. The construction according to claim 3, characterized in that between the metal plates of the pair of layers there are spacers made in the form of wire, metal strips or from combustible or vaporized inserts.
    [5]
    5. The design according to p. 1, which is characterized in that profiled surfaces with grooves or corrugations are made from the longitudinal side in the refractory non-porous material.
    类似技术:
    公开号 | 公开日 | 专利标题
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    US2802656A|1957-08-13|Element for insulating the surface of a molten product
    CN212620109U|2021-02-26|Fireproof lining for isolating smoke penetration
    EP0300064B1|1991-04-17|Blast furnace hearth
    CA1331282C|1994-08-09|Heating vessel lid construction
    EP0107878A1|1984-05-09|Coke oven battery
    同族专利:
    公开号 | 公开日
    ES259132Y|1984-03-16|
    EP0043338A1|1982-01-06|
    PL132680B1|1985-03-30|
    BR8103982A|1982-03-09|
    PT73175A|1981-07-01|
    CA1177643A|1984-11-13|
    DE3172127D1|1985-10-10|
    CS386581A2|1985-07-16|
    RO82232A|1983-08-03|
    EP0043338B1|1985-09-04|
    AU539352B2|1984-09-20|
    US4395026A|1983-07-26|
    ES259132U|1983-07-16|
    DD159783A5|1983-04-06|
    CS241483B2|1986-03-13|
    PL231843A1|1982-03-15|
    AU7216481A|1982-01-07|
    RO82232B|1983-07-30|
    PT73175B|1982-09-01|
    IN155938B|1985-03-23|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    LU54172A1|1967-07-26|1969-05-21|
    DE2205656C3|1972-02-07|1976-01-02|Uralskij Nautschno-Issledowatelskij Institut Tschernych Metallow, Swerdlowsk |Ladle for blowing metal through with gas|
    SE392479B|1974-03-20|1977-03-28|Asea Ab|FORMA AT METALLURGIC CONVERTERS AND MELTING OVEN|
    FR2455008B3|1979-04-25|1982-02-26|Siderurgie Fse Inst Rech|
    DE8028296U1|1980-10-23|1981-05-27|Arbed S.A., Luxembourg|Gas-permeable masonry body made of refractory material|LU82597A1|1980-07-09|1982-02-17|Arbed|FIRE-RESISTANT, GAS-PERMEABLE CONSTRUCTION|
    LU83247A1|1981-03-23|1983-02-22|Arbed|METHOD AND DEVICE FOR TREATING METAL MELT IN THE METALURGICAL PROCESSES|
    LU83313A1|1981-04-22|1983-03-24|Arbed|METHOD AND DEVICE FOR THE DIRECT PRODUCTION OF LIQUID IRON|
    LU83314A1|1981-04-24|1983-03-24|Arbed|METHOD AND DEVICE FOR DESULFURING IRON MELT|
    LU83826A1|1981-12-09|1983-09-01|Arbed|METHOD AND DEVICE FOR THE DIRECT PRODUCTION OF LIQUID IRON|
    US4462576A|1982-02-24|1984-07-31|Didier-Werke Ag|Apparatus for supplying gas through the wall of a metallurgical container|
    LU84167A1|1982-05-25|1983-11-23|Arbed|FIRE-RESISTANT, GAS-PERMEABLE CONSTRUCTION|
    CA1206752A|1982-06-18|1986-07-02|Jean Goedert|Method and device for draining metallurgical vessels|
    FR2538410B1|1982-12-24|1988-04-29|Siderurgie Fse Inst Rech|REFRACTORY ELEMENT AND NOZZLE HOLDER AND METHOD FOR PREVENTING REFRACTORY WEAR USING THE SAME|
    LU85131A1|1983-12-12|1985-09-12|Arbed|GAS-PERMEABLE CONSTRUCTION BODY MADE OF FIRE-RESISTANT MATERIAL|
    AT382889B|1984-03-15|1987-04-27|Voest Alpine Ag|RINSING DEVICE FOR A METALLURGICAL VESSEL|
    US4754954A|1986-01-29|1988-07-05|Lazcano Navarro Arturo|Refractory device for introducing a gas into a molten metal and a method for making the device|
    AT384034B|1986-02-03|1987-09-25|Voest Alpine Ag|RINSING DEVICE FOR A METALLURGICAL VESSEL|
    CA2091280C|1991-06-18|1996-06-11|Michael D. Ii Labate|Device for directional gas distribution into molten metal|
    JP3613686B1|2003-07-25|2005-01-26|日本坩堝株式会社|A ladle for molten metal transportation and a method for discharging molten metal|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    LU82553A|LU82553A1|1980-06-25|1980-06-25|FIRE-RESISTANT, GAS-PERMEABLE CONSTRUCTION|
    LU82554A|LU82554A1|1980-06-25|1980-06-25|FIRE-RESISTANT, GAS-PERMEABLE CONSTRUCTION|
    LU82552A|LU82552A1|1980-06-25|1980-06-25|FIRE-RESISTANT, GAS-PERMEABLE CONSTRUCTION|
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