前苏联专利SU1722220A3 Cut-off or control member for discharging liquid metal from metallurgical vessel

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权利要求

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引用文献

法律状态

优先权

专利摘要:
The invention relates to metallurgy and can be used to discharge metal from a metallurgical vessel, such as a tundish. The purpose of the invention is to increase reliability. The locking and / or adjusting device comprises a rotor 3 and a stator 2, which are concentric tubes. On the axial section H, they have sealing surfaces A and B. Coefficients
公开号:SU1722220A3
申请号:SU894614415
申请日:1989-06-21
公开日:1992-03-23
发明作者:Брюкнер Раймунд；Гимпера Хосе
申请人:Дидиер-Верке Аг (Фирма)；
IPC主号:

专利说明:

The invention relates to metallurgy and can be used to discharge liquid metal from a metallurgical vessel, such as a ladle.
The aim of the invention is to increase the reliability of operation.
Figure 1 shows the bucket, a section along the locking organ; figure 2 - node I in figure 1.
The locking and / or regulating body 1 comprises a tubular stator 2 and a rotor 3, made of heat-resistant ceramic material,
The stator 2, which is air- and melt-tightly embedded in the lining 4 of the intermediate tank 5, enters the nozzle 6, from which, with the open locking / or regulating body 1, the melt is released from the internal space of the intermediate tank 5.
The rotor 3 is rigidly connected by bolts 7 to the holder 8, which is connected by means of a cardan mechanism 9 to the driving lever 10. The driving lever 10 is mounted on the bearing rack 11 of the intermediate tank 5 and at its outer end contains a lever arm 12, through which the driving lever 10 and the gimbal mechanism 9 can transmit torque to the holder 8 and thus to the rotor 3 of the locking and / or regulator 1.
Due to this, the rotor 3 is able to rotate relative to the stator 2 in both directions of rotation around the longitudinal axis 13.
Both the stator 2 and the rotor 3 have two through holes 14 or 15 diametrically located relative to each other, which in the open position of the locking and / or regulating member 1 are located in the axial direction. The stator 2 and the rotor 3 on the axial section H have each sealing surfaces A and B in the form of a circular cylinder, tightly fitted to each other. The diameters of both sealing surfaces are chosen so that an annular gap g is formed between surfaces A and B.
The outer diameter of the stator 2 outside the axial portion is approximately 73 mm, and the rotor diameter is about 93 mm.
The internal diameters of the stator 2 and the rotor 3 are 33 or 44 mm. In the axial section H, the average diameter in the area of the annular gap d is about 63 mm.
The stator 2 and the rotor 3 are made of high-alumina baked heat-resistant material of the following composition, wt.%:
ALO70
Zirconmullit20
Carbon 10
The stator 2 and the rotor 3 are made of the same material and therefore both heat resistant parts have the same coefficient of expansion.
The diameters of the sealing surfaces A and B are chosen so that the difference between them in the cold state is approximately 0.4 mm. The annular gap d between the two sealing surfaces is 0.2 mm.
Before insertion of the locking and / or regulator 1, graphite grease is applied to the sealing surfaces, so that after this operation the diameters of the sealing surfaces A and B differ only by approximately 0.25 mm. The annular gap d is about 0.125 mm.
Under such conditions, in the case of an empty intermediate tank in a cold state, the rotor 3 can rotate freely using the drive lever 10 relative to the stator 2.
The locking and / or regulatory authority works as follows.
The stator 2 with the rotor 3 is uniformly heated to 950 ° C, after which the steel is poured into the inner space of the intermediate tank.
After that, standard liquid steel was cast at 1560 ° C. At the time of steel casting, the rotor 3 is rotated relative to the stator 2 in order to more or less close the through holes of 14 and 15 of the two parts and thereby regulate the flow of the melt flowing from the intermediate tank 5. The rotor 3 is rotated several times until the through holes 14 and 15 completely break the melt flow.
Casting steel through the locking and / or regulator 1 into four buckets will take about 4 hours of working time. With each casting, it is ensured that the level of the melt is lowered only so that the axial portion H of the locking and / or regulator 1 remains immersed in the molten metal. Thus, it is not allowed that outside air can penetrate through the through holes 14 and 15 or through the annular gap d.
During the entire working process, the rotor 3 can be manually rotated by hand relative to the stator 2 when applying for this small effort.
After expiration of the working time (about 4 hours), the elements of the locking and / or regulatory body 1 are dismantled and inspected in order to detect possible metal infiltrations. It was found that during operation in the area of the annular gap 5 there were no significant metal infiltrations.
The use of the invention will ensure reliable operation of the locking and / or regulatory authority, as well as increase its service life.

权利要求:
Claims (4)
[1]
Claim 1. A locking and / or regulating body for discharging liquid metal from a metallurgical vessel containing fixed and mobile heat-resistant parts. Tubes made in the form of concentrically arranged pipes with openings for the passage of the melt
the movable part is installed with the possibility of rotation and / or axial displacement, and the sealing surfaces of the heat-resistant parts are cylindrical, characterized in that
In order to increase reliability in operation, the heat-resistant parts of the organ are made of materials, the expansion coefficient of which is chosen so that in the cold state between the sealing surfaces of the heat-resistant parts form a gap of 0.05-0.7 mm, and in the working state they have a dense nozzle .
[2]
2. The organ of claim 1, wherein the expansion coefficients of the materials of both heat resistant parts are equal to each other.
.
[3]
3. Body according to claim 1, characterized in that the gap between the sealing surfaces at least in the area of the holes
for the passage of the melt has the same value.
[4]
4. The organ of claim 1, wherein the gap between the sealing surfaces has the same magnitude as
all their axial section.

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同族专利:

公开号 | 公开日

CN1019458B|1992-12-16|

EP0356618A1|1990-03-07|

EP0356618B1|1992-11-11|

CA1340550C|1999-05-18|

KR900002869A|1990-03-23|

JPH0270374A|1990-03-09|

GR3006459T3|1993-06-21|

DE3826245C2|1991-05-23|

US4966314A|1990-10-30|

JP2764615B2|1998-06-11|

DE3826245A1|1990-02-08|

ZA893952B|1990-02-28|

BR8903810A|1990-03-20|

KR960013887B1|1996-10-10|

ES2035411T3|1993-04-16|

DE58902680D1|1992-12-17|

AT82173T|1992-11-15|

CN1039748A|1990-02-21|

引用文献:

公开号 | 申请日 | 公开日 | 申请人 | 专利标题

DE1558285A1|1921-05-15|1970-05-06|Weinreich Dr Ing Wolfgang|Bottom closure for pouring pans|

US3651998A|1970-09-23|1972-03-28|Metallurg Exoproducts Corp|Nozzle for a pouring ladle|

GB1380121A|1972-04-08|1975-01-08|Dyson Ltd J J|Containers for molten metal|

SU1072995A1|1982-08-25|1984-02-15|Алтайский Ордена Ленина Тракторный Завод Им.М.И.Калинина|Wicket taper refractory gate|

JPS59157756U|1983-04-04|1984-10-23|

JPS617563U|1984-06-20|1986-01-17|

DE3540202C1|1985-11-13|1986-11-27|Brown, Boveri & Cie Ag, 6800 Mannheim|Inflow regulating element for mould level control in a continuous casting plant|

ES2037766T3|1987-08-03|1993-07-01|Didier-Werke Ag|ROTATING CLOSURE FOR FUNDAMENTALALLY VERTICAL BLEEDING OF A LIQUID MASS OF MELTED METAL FROM A METALLURGICAL CONTAINER.|

DE3731600C2|1987-09-19|1990-08-23|Didier-Werke Ag, 6200 Wiesbaden, De|DE3934601C1|1989-10-17|1990-10-04|Didier-Werke Ag, 6200 Wiesbaden, De|

DE3934602C1|1989-10-17|1991-04-11|Didier-Werke Ag, 6200 Wiesbaden, De|

DE3939241C2|1989-11-28|1994-09-01|Didier Werke Ag|Locking and / or regulating device|

US5230813A|1989-11-28|1993-07-27|Didier-Werke Ag|Stator and rotor members for use in apparatus for closing and/or regulating the discharge or tapping of molten metal|

DE19543058C2|1995-11-10|2001-01-04|Sms Demag Ag|Method and device for closing a tap hole|

WO2011009579A1|2009-07-20|2011-01-27|Fuchs Technology Holding Ag|Sealing and filling device for a metallurgical furnace, metallurgical furnace, and method for tapping the metallurgical furnace.|

DE102009033934B3|2009-07-20|2011-02-03|Fuchs Technology Holding Ag|Device for temporarily sealing a tap hole, which has a first internal diameter and is provided in the bottom of a metallurgical furnace, for filling the tap hole with free-flowing fire-resistant compound, comprises sealing and filling pipe|

CN106247806A|2016-09-17|2016-12-21|天津立中汽车铝合金配件有限公司|A kind of aluminum liquid stream rotary device for wheel hub casting|

CN106323009A|2016-09-17|2017-01-11|天津立中汽车铝合金配件有限公司|Molten aluminum discharging device of hub casting and melting furnace|

法律状态:

优先权:

申请号 | 申请日 | 专利标题

DE3826245A|DE3826245C2|1988-08-02|1988-08-02|

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