• 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:SU1215607A3
    申请号:SU833571173
    申请日:1983-03-11
    公开日:1986-02-28
    发明作者:Белоччи Рио;Гурмель Ив;Пиеррель Мишель
    申请人:Понт-А-Муссон С.А. (Фирма);
    IPC主号:
    专利说明:

    about one third of the thickness of the crystal-piezer thickness.
    P. The device according to PP. 7-10, t - characterized by the fact that the ring is made of alumina fiber.
    The invention relates to metallurgy, more specifically to the continuous casting of metals and alloys,
    The aim of the invention is to increase the stability of the casting process and improve the quality of the cast pipe.
    FIG. shows the device j paspes; Fig. 2 shows a node for connecting a cristoshzatlra with a container, a section on a zoomed scale; 3-5, the same, embodiments.
    The dp device for continuous casting of a thin-walled cast-iron pipe contains a container I for molten metal with lining 2 of refractory material, for example, apyumos or rolled refractories, which has a discharge port 3 in the lower part of a cilidric shape. Inside the outlet 3 there is an upper part 4 of the cylindrical sleeve 5 of the mold b, as well as a mandrel 7, made of graphite and having a heating element 8, such as a copper inductor in the form of a coil. The cylindrical sleeve 5 is also thickened with grades 48, is located coaxially with the mandrel 7 and forms with the latter a narrow tubular hole 9, the width of which corresponds to the thickness of the pipe being cast. The mold 6 is placed under the tank, provided with a cooling blade 10 docked with the cylindrical sleeve 5j n attached to the bottom of the tank with the help of a flange 11 and stem 12. The cooling jacket 10 is made in the form of a hollow cylinder and water or low-pressure liquid metal can be used as a cooler melting point. The device also contains two pairs of faces 13 and 14 for pulling the pipe, two of which are located one after the same side of the pipe, connecting
    12, The device according to nn.i-llj is characterized in that the bevel has a height at least equal to the thickness of the crystallizer liner, preferably 1.5 times the thickness of the crystallizer liner.
    are not chain driven 15 and Gfkzod TC in vrashenie step by step, that is, with the stop group of the engine - gear 16,
    The upper part 4 of the cylindrical sleeve 5 of the mold Ect. Hshen as a narrow annular bevel (Fig. 1 and 2) 5 whose bottom surface is located at the level of the plane of contact is the container with the cooling jacket of the mold. The bevel is made of graphite and has the shape of a truncated cone 5 whose base is made with rounding. Around the bevel
    A ring 17 of heat-insulating refractory material is installed in contact with the lining of container 1, namely: the ring 17 is placed in the meddu space of the bevel and the inner wall of the outlet of the container and reaches the upper level of the bevel. The aluminosilicate can be used as a refractory ring .17 , obladkgpziy
    good insulation properties vag-sh.
    In another embodiment of FIG. 3), the upper part 4 is dithindric-. The sleeve 5 is filled with a cylindrical
    forms with a central annular recess 18j, in which a ring 17 of heat insulating material is placed. Internal walls of the annular Eeymkk 18 have insignificant
    taper and are in close contact with the ring 17 made of thermal insulation material,
    In accordance with the option of izobre-;
    the shade of figure 4 on the outer side of the upper part 4 of the cylindrical sleeve 5 is the annular cavity 19 of the concave u; lx is one-and-a-half in shape, of which ring 7 of insulating material is placed;
    According to the embodiment of FIG. 5, the upper part 4 of the cylindrical sleeve 5 is made with two concentric annular cavities 20 and with a separating bridge 21 between them, forming a lateral edge. Concentric rings 17 made of refractory material are placed in annular cavities of 20 rectangular sections.
    In addition, the bevel radial width is approximately one third of the thickness of the crystallizer sleeve, and the height of the bevel is at least equal to the thickness of the crystallizer sleeve, preferably 1.5 times the thickness of the crystallizer sleeve. Ring 17 can also be made of alumina fiber or aluminosilicate concrete,
    The device works as follows.
    The device is intended for casting a thin-walled cast-iron pipe, in which the ratio of thickness to diameter is less than 10%, and the thickness does not exceed 5 mm on the order of 3 mm. Molten iron from the tank 1 through the outlet 3 enters the gap between the cylindrical sleeve 5 and turf 7. The process of crystallization of the pipe shell begins to occur mainly due to the jacket 10 cooling the mold 6 at the level of contact of the bottom of the tank with the cooling jacket 10 and ends at the exit from the mold. By making the top 4 of the sleeve
    mold in the form of a bevel, around which is placed a ring 17 of insulating material, and due to the heating of the mandrel 7 in the upper portion of the sleeve, the crystallization process is not
    occurs, which ensures the stability of the pouring process. A cast iron pipe is drawn out of the mold with the help of two pairs of rollers 13 and 14, two of which are driven,
    The advantage (of the proposed device is that it is possible to eliminate the clogging of its entrance part and to eliminate the formation
    rings on the surface of the cast pipe, which increases the stability of the casting process and improves the quality of the cast pipe.
    .w
    7 8
    Fig.Z
    fO
    5
    权利要求:
    Claims (12)
    [1]
    D. DEVICE FOR CONTINUOUS CASTING OF A THIN-WALLED IRON PIPE, containing a lined container with a lower outlet, a mold installed under it with a cooling jacket and a mandrel with a heating element, the mold having a cylindrical sleeve, the upper part of which is made in the form of a protrusion, distinguish it from the fact that, in order to increase the stability of the casting process and improve the quality of the pipe being cast, it is equipped with a ring of heat-insulating material installed around the protrusion of the crystallization sleeve and contacting a lined container and the liner protrusion has at least one narrow annular chamfer, the lower surface of which is located in the plane of contact with the tank bottom level of the mold cooling jacket.
    [2]
    2. The device according to claim 1, characterized in that the bevel is made of graphite.
    [3]
    3. The device according to claims 1 and 2, characterized in that the bevel has the shape of a truncated cone, basically ~! which is rounded off.
    [4]
    4. The device according to claims 1 to 3, characterized in that the ring is made of refractory material.
    [5]
    5. The device according to claims 1 to 4, characterized in that the ring of heat-insulating material is placed in the space between the bevel and the inner wall of the outlet of the vessel and reaches the upper level of the bevel.
    [6]
    6. The device according to claims 1-4, wherein the protrusion of the sleeve is cylindrical in shape with a central annular recess, c. which placed a ring of refractory material.
    [7]
    7. The device according to claims 1 and 2, characterized in that at least one annular cavity is formed on the outside of the bevel, forming an upper protrusion, while a ring of heat-insulating material is placed in the annular cavity.
    [8]
    8. The device according to claim 7, characterized in that the annular cavity is concave and one and a half toroidal.
    [9]
    9. Device pop. 7, characterized in that the bevel is made with two concentric annular cavities and with a dividing jumper between them, forming a side rib.
    [10]
    10. The device according to claims 1 to 9, characterized in that by. The total bevel width is
    SU ... 1215607 approximately one third of the thickness of the mold sleeve.
    [11]
    11. The device according to paragraphs. 7-10, characterized in that the ring is made of alumina fiber.
    [12]
    12, The device according to claims 1-11, characterized in that the bevel has a height of at least equal to the thickness of the mold sleeve, preferably 1.5 times greater than the thickness of the mold sleeve.
    类似技术:
    公开号 | 公开日 | 专利标题
    SU1215607A3|1986-02-28|Device for continuous casting of thin-walled cast-iron pipe
    US3780789A|1973-12-25|Apparatus for the vertical multiple continuous casting of aluminum and aluminum alloys
    US3342252A|1967-09-19|Mandrel for continuous casting mold
    US5052469A|1991-10-01|Method for continuous casting of a hollow metallic ingot and apparatus therefor
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    US6179042B1|2001-01-30|Non-hot crack bottom block for casting aluminum ingot
    SU564783A3|1977-07-05|Device for supplying metal under melt level in crystallizer
    SU1130431A1|1984-12-23|Device for casting hollow ingot
    SU822979A2|1981-04-23|Apparatus for casting hollow ingots
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    US3678990A|1972-07-25|Apparatus for continuous casting of hollow bar
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    JPH07106426B2|1995-11-15|Continuous casting method for hollow ingot
    US3166806A|1965-01-26|Method of and apparatus for pouring ingots
    SU1069928A1|1984-01-30|Core for producing hollow ingot
    JP3256793B2|2002-02-12|Method and apparatus for preventing component mixing and reducing shrinkage holes in continuous casting of dissimilar steels
    SU950479A1|1982-08-15|Vertical-slot gating system for casting moulds
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    US4901783A|1990-02-20|Continuous casting apparatus
    同族专利:
    公开号 | 公开日
    BE896139A|1983-09-12|
    GB2116466A|1983-09-28|
    SK278292B6|1996-08-07|
    CH654503A5|1986-02-28|
    YU44096B|1990-02-28|
    UA6078A1|1994-12-29|
    IT8353050V0|1983-03-11|
    RO86288B|1985-03-31|
    IN158610B|1986-12-20|
    DE3363143D1|1986-05-28|
    CZ279230B6|1995-02-15|
    JPS6238065B2|1987-08-15|
    AU1193783A|1983-09-15|
    PL240969A1|1983-11-07|
    US4506723A|1985-03-26|
    RO86288A|1985-03-15|
    EP0088980B1|1986-04-23|
    SI8310507A8|1995-04-30|
    DD208564A5|1984-04-04|
    KR880002066B1|1988-10-14|
    AU554716B2|1986-08-28|
    IT8367275D0|1983-03-11|
    CA1201868A|1986-03-18|
    JPS58168456A|1983-10-04|
    BR8301236A|1983-11-22|
    IT1159367B|1987-02-25|
    GB2116466B|1986-04-03|
    MX159487A|1989-06-16|
    SE8301221D0|1983-03-07|
    SE8301221L|1983-09-13|
    AT19363T|1986-05-15|
    HRP930747B1|1996-04-30|
    EG15354A|1986-06-30|
    FR2523006A1|1983-09-16|
    KR840003965A|1984-10-06|
    EP0088980A1|1983-09-21|
    GB8303711D0|1983-03-16|
    FR2523006B1|1984-04-27|
    ES520523A0|1983-12-16|
    ES8401347A1|1983-12-16|
    YU50783A|1985-12-31|
    PL135939B1|1986-01-31|
    引用文献:
    公开号 | 申请日 | 公开日 | 申请人 | 专利标题
    FR1480828A|1966-03-16|1967-05-12|Anaconda American Brass Co|Apparatus and method for continuous casting of metal tubes|
    GB1235112A|1967-06-19|1971-06-09|Consolidus Ltd|Improvements relating to continuous casting apparatus|
    FR2415501B1|1978-01-27|1982-04-02|Pont A Mousson|JPS59215251A|1983-05-23|1984-12-05|Kuroki Kogyosho:Kk|Continuous casting method of metallic pipe|
    FR2557820B1|1984-01-10|1987-05-07|Pont A Mousson|LIQUID METAL SUPPLY DEVICE FOR VERTICAL CONTINUOUS CASTING INSTALLATION OF A METAL TUBE, PARTICULARLY IN CAST IRON|
    GB8401976D0|1984-01-25|1984-02-29|Imi Refiners Ltd|Casting apparatus|
    FR2573683B1|1984-11-26|1987-01-02|Pont A Mousson|LIQUID METAL SUPPLY SYSTEM WITH LIQUID METAL TEMPERATURE CONTROL FOR THE CONTINUOUS CASTING OF A CAST IRON PIPE|
    JPS649905B2|1984-12-06|1989-02-20|Nippon Light Metal Co|
    JP2692142B2|1988-06-10|1997-12-17|石川島播磨重工業株式会社|Semi-solid metal slurry production equipment|
    FR2751250B1|1996-07-17|1998-08-21|Pont A Mousson|DEVICE FOR CLAMPING A CASTING TABLE OF A VERTICAL CONTINUOUS CASTING MACHINE OF PIECES, IN PARTICULAR TUBES, IN CAST IRON|
    DE19918228C2|1999-04-22|2002-08-14|Daimler Chrysler Ag|Method of manufacturing blanks for cylinder liners|
    RU2008125799A|2005-11-30|2010-01-10|ЭДВАНСД ИНТЕЛЛЕКЧЭЛ ХОЛДИНГС ПиТиУай ЛТД |DEVICE FOR LAYING EXTENDED ELEMENTS|
    EP2336094A1|2009-12-21|2011-06-22|Mapei S.p.A.|"Superplasticizers for concrete and cement materials and process for producing the same"|
    BR102017015433A2|2017-07-18|2019-03-26|Tupy S.A.|SYSTEM FOR PRODUCTION OF AN IRON COMPONENT BY CONTINUOUS FOUNDRY|
    法律状态:
    优先权:
    申请号 | 申请日 | 专利标题
    FR8204195A|FR2523006B1|1982-03-12|1982-03-12|
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