DE2104561A1 - Method of opening the sliding nozzle of a ladle - Google Patents

Description

DR. BERQ DIPL.-INQ, STAPF

PATEN "ArJWALTE β MÜNCHEiSl 80, MAUERKIRCHERSTR 45

Lawyer file 2o 6o7 ^ *****

Japan Special Steel Co., Ltd Tokyo / Japan

Method of opening the sliding nozzle of a ladle

The invention relates to a method for opening the nozzle bore of a sliding nozzle arrangement or a sliding slide valve (hereinafter referred to as "sliding nozzle") in a ladle for pouring off molten metal, such as molten steel, and further relates to a sliding nozzle having means for opening the nozzle bore.

The present invention will be explained with reference to the accompanying drawing, in which show:

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Pig. 1 to 4 cross sections through a common

Sliding nozzle for a ladle, which is used for filling, opening the nozzle hole and Represent semolina sections of the facility,

Figures 5 and 6 are cross-sections of one of the present invention Sliding nozzle in various operating positions and

Figure 7 is a cross-section of another embodiment of the device according to the invention.

In the case of a ladle with a conventional sliding nozzle, it is common practice to use different introduce solid ceramic materials A into the nozzle bore 3, as shown in Fig. 1, before molten Metal, such as molten steel, is poured into the ladle to prevent the molten metal, like steel, enters the nozzle bore 3 and solidifies there. The filling material must therefore be used at the beginning of the pouring process mechanically removed through the lower end of the nozzle with external force, or it will melted out by melting with the aid of an oxygen lance 5 or the like, as shown in FIG. Only the molten steel can flow out. Also contaminate

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the filler parts or the oxides formed during the opening of the bore at the beginning of the pouring process molten steel, so that it is necessary to use some of the molten steel at the beginning of the casting as Discharge waste.

Also, once the nozzle bore is opened, f

it is necessary to move the lower stone plate 1 to close the upper nozzle hole 3 and to prevent the outflow 4 of molten steel when a casting is repeated after interruption in different places. In this case, with the upper nozzle opening 4 completely closed, the steel entering the nozzle bore 3 of the upper nozzle 2 immediately solidifies to form a solid layer B near the mouth # of the upper nozzle, as shown in Fig. 3, and this layer λ blocks the mouth and prevents it from being poured again. It is therefore necessary every time the mouth is clogged to open the bore using an oxygen lance 5 or the like (see. Fig. 2), or to keep the nozzle mouth 4 slightly open during the interruptions, so that the molten steel , as shown in Fig. 4, can drip out.

In addition, at the end of the pouring, especially at Stop pulling molten steel, the nozzle

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Hole in turn completely closed, liquid material remaining in the semolina pan, for example slag or liquid material remaining in the slag
Steel gets into the upper nozzle orifice and solidifies
there. The elimination of this solidified material is
with damage to the refractory material, in particular the upper nozzle 2 and the upper fixed plate 6
associated, so that difficulties arise for repeated use of the refractories of the sliding nozzle.

The object of the invention is to provide a method for opening the nozzle bore while avoiding the disadvantages indicated a sliding nozzle, as well as a sliding nozzle with a device for opening the nozzle bore.

The present invention provides for opening a nozzle bore of a sliding nozzle for a ladle for treating molten steel, the sliding nozzle being an am
Having an upper nozzle attached to the ladle bottom and a slidable lower nozzle, a method in which gas is injected into the nozzle bore of the nozzle from the lower jinde of the nozzle attached to the ladle bottom,

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so that the molten material is prevented from solidifying in the nozzle bore.

Furthermore, a device for opening the nozzle bore of a sliding nozzle is provided according to the invention, in which the Slidable nozzle has an upper nozzle attached to the bottom of the ladle and a lower slidable nozzle, wherein a device connected to a source of gas in the lower part of the upper nozzle or in a fixed one Plate for blowing gas into the upper nozzle hole is provided when the nozzle opening is closed.

The present invention is to be explained with reference to an embodiment shown in the drawing.

5, which shows an embodiment of a sliding nozzle according to the present invention, is a floor nozzle 13 inserted with a nozzle bore 15 into a lining of a pouring ladle bottom 17. The lower area the floor nozzle is fixed to an upper fixed plate 12 with a nozzle bore 15 of the floor nozzle 13 continues and connected with it cooperating opening. Under the upper fixed plate 12, a lower one is horizontal

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Slidable sliding plate 9 is provided, which in one piece is connected to a lower nozzle 8, which has a nozzle bore 10 with a lower diameter of the Bore of the upper nozzle 15 has a corresponding diameter. The lower slide plate 12 is provided with a gas injector 11, through which gas is blown through a line 16 from the gas source into the nozzle bore 15 is to keep the nozzle bore 15 and the opening 14 open. The gas injection device 11 is at closed sliding nozzle under the opening 14 of the upper fixed plate 12 and can be made of porous, gas-permeable, refractory material, such as a porous one used in a desulfurization device for steel Plug exist.

The method according to the invention runs using the above device according to the invention, for example as follows.

If from the gas injection device connected to the gas source 11 before the introduction of molten steel An inert gas, such as argon, is blown into the ladle from a melting furnace, is caused by the gas pressure itself when the ladle is filled with molten steel,

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prevents liquid steel from flowing in, so that no material accumulates. In this way, the Prevents the formation of a solidified layer and the opening required for pouring out molten material Steel from the ladle into the molds can be done immediately. The blown gas rises through the molten steel in the form of bubbles from the top of the bottom nozzle 13 of the ladle. with a strong Stirring effectiveness, which the drop in temperature i of the molten steel around the floor nozzle. 13 of the ladle prevents and the molten steel by removing residues of non-metallic inclusions and favoring the formation of slag cleans.

At the beginning of the pouring process, the lower one is shown in FIG Slide plate 9 shifted horizontally. Simply by aligning the nozzle bore 15 of the nozzle of the pouring ladle bottom 13 on the nozzle bore 10 of the lower nozzle 8 can the molten steel without any opening or a Dissolving out a filling and without the risk of mixing in impurities due to such an opening of the bore, be poured instantly.

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When "must be interrupted after the start of AlDgießens the Abgußstrom because of a necessary for pouring position change or other reason, and the lower slide plate 9 is brought to the full closing of the nozzle bore 15 back into the position shown in Pig. 5, immediately injecting the gas from the gas injection device 11. As a result, the molten steel in the nozzle 13 is pushed upwards by the gas pressure and is prevented from solidifying in it, and a required opening can be kept free for subsequent re-pouring Desire or requirement that the pouring stream is frequently interrupted or released.

Even when the molten steel is poured off and the slag flows out, the molten slag will be in the nozzle bore 15 and the stuck in the slag steel by moving the immediately thereafter Slide plate removed in the closed position of the nozzle so that it becomes possible to add new liquid metal more than twice from the furnace without interruption and new cutting time to obtain, with the remaining melted material remains there in the pouring ladle or is poured out beforehand by tilting the pouring ladle once.

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As described above, the present inventive method of holding open or opening the bottom nozzle of a ladle in a sliding nozzle is easy to implement and extremely useful and has the remarkable advantage that the refractory material of the sliding surfaces, the upper fixed plate and the lower sliding plate in front of a damage is kept at high temperatures also lempe- μ.

Instead of porous stone, a water-cooled nozzle of metal are det with small pores or a nozzle made of graphite or the like USAGE _T for the gas injection. According to FIG. 7, in which another embodiment of the invention is shown, a gas injection device 11 in the form of a socket or sleeve made of porous, refractory material is provided to form the opening 14 of the fixed plate 12 and is connected to a gas line 16 ' . This embodiment is just as useful for working according to the method according to the invention as that of the first embodiment. The gas injection device 11 ′ can also be provided at the lower end of the nozzle bore 15.

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As can be seen from the above description, are noteworthy Advantages of the invention given in that the work to open the bore of the upper nozzle in a sliding nozzle, which was previously considered to be one of the most difficult and laborious jobs, noticeably easier is. The refractory material of the sliding nozzle can be used repeatedly more than twice, so that the temporal and labor for casting ingots by means of a sliding nozzle is significantly reduced.

In summary, the invention creates a method for opening a sliding nozzle or a slide gate valve a ladle for treating molten metal, in which a floor nozzle of a ladle is inserted into the nozzle bore Gas is blown in, as well as a sliding nozzle or a slide valve with a gas injection device, which is arranged below the floor nozzle of a ladle and through which gas, for example inert gas, is blown into the nozzle bore.

Claims

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Claims (1)

- li - a tent claims 1. Method of keeping the nozzle opening of a sliding nozzle open or a slide gate valve of a ladle for treating molten metal, thereby 'characterized in that to prevent the solidification of molten material in the nozzle opening in the Nozzle opening of the bottom nozzle of the ladle, gas blown in f will. 2. The method according to claim 1, characterized in that the injection of gas is started before the molten one Metal is brought into the ladle from a melting furnace. 3. The method according to claim 1 or 2, characterized in that the gas is an inert gas such as argon. 4c sliding nozzle or sliding gate valve closure of a pouring ladle with a floor nozzle and a nozzle displaceable below the floor nozzle under a fixed plate, thereby characterized in that a gas: i; injection device (11) is provided under the floor nozzle (13). 109886/1084 5. sliding nozzle or sliding valve closure according to claim 4, characterized in that the gas injection device (11) ~ in or on the movable nozzle (8) under the floor nozzle (13) is provided. 6. sliding nozzle or slide valve closure according to claim 4, characterized in that the gas injection device (11) is provided in the fixed plate (12). 7. sliding nozzle or slide valve closure according to one of claims 4 to 6, characterized in that the gas injection device (11) is made of porous, fireproof material. 8. sliding nozzle or slide valve closure according to one of claims 4 to 6, characterized in that the gas injection device (11) is a water-cooled Lietall nozzle. 9. sliding nozzle or sliding slide valve closure according to claim 4, characterized in that the gas Kinblaseinrichtung (11) has the shape of a sleeve. 10t sliding nozzle or sliding valve closure according to one of the Claims 4 to 9, characterized in that the gas injection device (11) is connected to a gas source. 109886/1084 Blank page