• 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:
    The present invention relates to a baking furnace for continuous production of elongated carbon bodies having uniform cross section, the baking furnace being intended to be moved continuously or substantially continuously in relation to a casing containing unbaked carbonaceous electrode paste with a speed which corresponds to a preset baking speed for the carbon body. The baking furnace comprises an outer steel shell (5) and a refractory lining (6) arranged on the inside of the shell (5), said refractory lining (6) defining a combustion chamber (7). A cooling chamber (16) is arranged between the upper part (15) of the refractory lining (6) and the casing (3). Above the cooling chamber (16) there is provided gas sealing means (23). An off-gas channel (11) is arranged below the refractory lining (16). <IMAGE>
    公开号:SU1440358A3
    申请号:SU864027979
    申请日:1986-08-21
    公开日:1988-11-23
    发明作者:К.Даль Эрик;Ватланд Арнфинн;Т.Вегге Олаф
    申请人:Элкем А/С (Инофирма);
    IPC主号:
    专利说明:

    The invention relates to metallurgy, in particular to sintering furnaces, for the continuous manufacture of elongated graphite rods of constant cross section, for example graphite electrodes for electric melting furnaces, fuse blocks, anode and cathode cells in electrolytic cells for the production of aluminum. .
    The purpose of the invention is to improve the reliability of the furnace by reducing the build-up of solid material in the upper part of the furnace,
    Figure 1 shows a sintering furnace, a vertical section; figure 2 - the upper part of the furnace.
    The sintering furnace for the manufacture of elongated graphite rods 1 is raced / laid around the case 2 for the graphite rod 1. The section of the case 2 corresponds to the section of the graphite rod.
    The unsaturated carbon-containing electrode paste 3, consisting of graphite material and a carbon-containing binder, is fed into the casing 2. Heating the electrode paste 3, the paste can be made in a furnace, sintered into a solid graphite rod 1. The casing 2 is preferably perforated (not shown). ) In order for the gases entering during the heating of the electrode paste to flow through the perforations into the sintering furnace. The furnace contains an external kolsuh 4 and refractory lining 5, which form the combustion chamber 6. The latter is heated to the temperature necessary for sintering with, at least, one burner 7 for solid, liquid or gaseous fuels. The burner or burners 7 are preferably mounted tangentially with respect to chamber 6. of combustion. The burner has feed pipes 8 and 9 for fuel and air. Under the refractory lining 5 there is a channel 10 for removal of gases from the furnace. Waste gas is pumped out of channel 10 through exhaust pipe 11. Valve 12 is installed in exhaust pipe 11 to regulate the volume of gases, the output of the ish from the furnace.
    In channel 10, a central hole is made with a diameter slightly larger than the diameter of the sintered graphite rod 1. Thus, between
    j Q
    five
    A gap 13 is formed at the furnace 10 and the casing 2 of the graphite rod 1. When the furnace is operating, outside air is sucked in through the gap i3j, thereby forming a seal that prevents the penetration of gases from the combustion chamber 6 into the environment through the gap 13.
    In the upper part 14 of the refractory lining 5 of the furnace there is a hole for the casing 2. This hole has a slightly larger section than the cross section of the casing 2 o In the annular gap between the upper part 14 of the refractory lining 5 and the casing 2 a cooling chamber 15 is installed to circulate the cooling medium. The cooling chamber 15 is provided with a supply pipe 16 and a drain pipe 17 for a cooling agent, for example water. The cooling chamber 15 may be divided into sections and each section may be provided with internal walls (not shown) to create a cooling flow through the chamber 15 °.
    Camera 15 is installed so that its. the lower end is approximately flush with the lower end of the upper part 14 of the refractory lining 5. The cooling chamber extends up to a level at least above the upper end of the upper part 14 of the refractory lining 5,
    The cooling chamber 15 is attached to the outer casing 4 of the furnace by means of an annular plate 18, which is fastened to the casing with 4 bolts. nineteen.
    If the furnace is used for sintering a graphite electrode directly entering the electric smelting furnace, electrical insulation 20 is installed between the casing 4 of the furnace and the ring plate 18,
    Above the cooling chamber 15, a guide ring 21, made of steel bar, etc., is mounted. The pick-up ring 21 serves to guide the casing 2 relative to the furnace. A sealing means is installed over the guide ring 21 to prevent gas from escaping between the casing 2 and the furnace.
    The sealing means (FIG. 2) contains a lower annular plate 225 fixed on the cooling plate 15 o. Two vertically extending flanges 23 and 24c Inter are attached to the plate 22, and, they have an i-bend installed
    gasket 25, made out of the material, 1-1 high melting point. The upper end of the gasket is fixed between the annular vertical flanges 26 and 27, which are attached to the second annular plate 28; The latter is attached to the flange 23 by a set of threaded bolts 29 with handles 30. By adjusting the distance between the first 22 and second 28 plates by turning the handle 30, you can tighten or loosen the flexible gasket 25, In addition, you can adjust the local tension the same gasket 25 around the circumference of the casing 2 by manipulation with the handles 30,
    During operation, the sintering furnace is continuously or substantially continuously moved relative to the casing 2 at a speed that corresponds to a predetermined sintering speed for the graphite rod 1. When the casing 2 with the unsaturated electrode paste 3 is introduced into the furnace, the electrode paste heats up, becomes liquid, after which it is baked into a solid graphite rod.
    During sintering, carbon-containing gases penetrate from the electrode paste into the furnace through perforations in the casing 2. Most of the gases immediately burn, combining, with the air blown into the furnace. At the same time, a part of these gases is condensed in the cooling zone 31 on the lower vertical part of the cooling chamber 15j where the temperature is kept below 400 ° C with a cooling agent circulating through the cooling chamber. Since the temperature in the chamber is kept in the range from 700 to 1300 ° C, some of the gases that are in contact with the cooling zone 31 are condensed. The temperature in the zone of the cooling chamber 15 is so low that the condensed gases do not coke, the Condensate drips down into the combustion chamber, where the droplets immediately burn. In addition, the cooling chamber maintains a low gas temperature in the annular space between the casing 2 and the cooling chamber. Thus, the gasket 25 is protected from exposure to high temperatures, which prolongs its service life.
    Pre, tamping furnaces can work for a long time without difficulty.
    five
    -jg 15
    20 25
    ZO ,, g o 5 -
    five
    in operation, caused by the build-up of deposits of skokavsavshego material. In addition, a good seal between the graphite rod and the furnace is achieved, which minimizes the possibility of leakage of hazardous gases from the furnace B to the environment.
    权利要求:
    Claims (8)
    [1]
    1. A sintering furnace, mainly for the continuous manufacture of graphite rods with a uniform cross section, containing a heating chamber, a cooling chamber, inlet and inlet branch pipes, and a good tool. that, in order to increase the reliability of the kiln by reducing the build-up of solid material in the upper part of the kiln, it is equipped with a combustion chamber made of a refractory lining enclosed outside by a steel casing and a gas outlet channel located under the refractory lining, and the inlet is located in the upper part of the casing, and the cooling chamber is installed between the upper part of the refractory lining and the casing, with the sealing means installed above the cooling chamber.
    [2]
    2, Furnace pop. 1; 0, which differs from the bottom, the end of the cooling chamber is flush with the HHscHiiM end of the upper part of the refractory lining.
    [3]
    3, The furnace is pop, characterized in that it is provided with a guide ring for the casing mounted above the cooling chamber.
    [4]
    4, The furnace according to claim 1, characterized in that the sealing means has a gasket with adjustable vertical lower and upper flanges, between which a gasket is installed.
    [5]
    5. Furnace over Po4, characterized in that the lower and upper flanges are made with adjustment bolts,
    [6]
    6. Bake pop, 1, characterized by the one that is equipped with at least one burner for solid, liquid or gaseous fuel.
    [7]
    7. The furnace according to claim 6, which is different from those} that the burner is installed tangentially relative to the combustion chamber.
    [8]
    8. A furnace according to claim 1, characterized in that it is equipped with at least one pipe for supplying air to the combustion chamber.
    // Yu
    Phia.2
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    同族专利:
    公开号 | 公开日
    DE3626889C2|1987-07-09|
    DE3626889A1|1987-03-05|
    ES2001112A6|1988-04-16|
    NO853320L|1987-02-23|
    JPS6247988A|1987-03-02|
    CS613186A2|1990-09-12|
    FI863158A0|1986-08-01|
    JPH0247679B2|1990-10-22|
    GR862165B|1986-12-23|
    BR8603977A|1987-03-31|
    PL153132B1|1991-03-29|
    GB2179727A|1987-03-11|
    AU582008B2|1989-03-09|
    AU6168386A|1987-02-26|
    SE8603514L|1987-02-23|
    CN1005285B|1989-09-27|
    JPS6246184A|1987-02-28|
    FI82309B|1990-10-31|
    PH22714A|1988-11-28|
    NZ217238A|1988-05-30|
    NL187331C|1991-08-16|
    CS274280B2|1991-04-11|
    NL187331B|1991-03-18|
    YU44926B|1991-04-30|
    IN168474B|1991-04-13|
    ZA865788B|1988-03-30|
    FI863158A|1987-02-23|
    IT8621427D0|1986-08-06|
    GB8620241D0|1986-10-01|
    BE905309A|1986-12-16|
    DD248862A5|1987-08-19|
    FR2586472B1|1988-09-09|
    IS1349B6|1989-03-20|
    FR2586472A1|1987-02-27|
    CA1289311C|1991-09-24|
    PL261089A1|1987-06-29|
    NO157078B|1987-10-05|
    NO157078C|1988-01-13|
    IT1197849B|1988-12-06|
    SE8603514D0|1986-08-20|
    MX168408B|1993-05-24|
    CH671667A5|1989-09-15|
    SE462313B|1990-05-28|
    PT83207B|1992-10-30|
    PT83207A|1986-09-01|
    FI82309C|1991-02-11|
    GB2179727B|1989-08-02|
    NL8602085A|1987-03-16|
    YU144586A|1988-12-31|
    IS3127A7|1987-02-23|
    TR22597A|1987-12-16|
    CN86105225A|1987-02-18|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    US2090693A|1934-12-28|1937-08-24|Carborundum Co|Method of graphitizing carbon bodies|
    FR1510840A|1966-07-05|1968-01-26|Kaiser Ind Corp|Process for the preparation of a continuous electrically conductive element|
    FR2534240B1|1982-10-06|1984-11-23|Savoie Electrodes Refract|
    CS276710B6|1983-12-02|1992-08-12|Elkem As|Process of continuous manufacture of elongated carbon bodies|DE8811140U1|1988-09-03|1988-10-13|Wilkinson Sword Gmbh, 5650 Solingen, De|
    IT1243899B|1989-11-14|1994-06-28|Elkem Technology|PROCEDURE AND MEANS FOR THE CONTINUOUS PRODUCTION OF COAL BODIES.|
    FR2656361B1|1989-12-22|1992-04-30|Manouvrier Pierre|WALL WITH VARIABLE GEOMETRY.|
    DE10323203A1|2003-05-22|2004-12-23|Wacker Polymer Systems Gmbh & Co. Kg|Use of silane-functional polyvinyl alcohols in primers for release papers and films|
    CN104041180B|2011-11-11|2016-02-03|电化株式会社|End detecting device and self-baking electrode upper end management method on self-baking electrode|
    CN109297851B|2018-11-14|2020-03-31|西安交通大学|Simulation experiment device and test method for high-temperature calcination reaction of fixed bed|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    NO853320A|NO157078C|1985-08-22|1985-08-22|Electrode baking oven.|
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