EP0066775A1 - Blow orifice or tuyere for injection of gas and/or of liquid or powdered material into molten metals - Google Patents

Abstract

A blow opening or nozzle that is used to blow gas and / or liquid or powdery material into metallic melts. The blow opening is made in a hole in the wall (1) of a metallurgical vessel (e.g. ladle or furnace). A body (3) with a continuous channel (13) is accommodated in this hole. The body (3) is provided at its end facing the melt with a cover (6) for closing the channel (13) against the melt. This cover can be pressed into the melt by the pressure of a gas, a liquid or powdery material supplied through the channel (13). The body (13) is provided at its outward end with a closure device through which a ball (11) can be pressed into the channel (13), which blocks this channel, so that no melt can flow out.

Description

The invention relates to a blow opening or nozzle for blowing gas and / or liquid or powdery material into metallic melts according to the preamble of claim 1.

In such a metallurgical vessel (pan, furnace or converter) one would like to supply gaseous, liquid or solid substances below the surface of the melt, for example gas for stirring the melt, solid powdery material which is transported by gas, gaseous, liquid or solid reactants or alloy additives.

A blow opening for performing such a blowing is known from DE-OS 25 03 672.

In ladle metallurgy, injection into molten steel, for example, is an important technique. Blow openings of various types (see above) are already known for this. A problem with such blow openings is to prevent melt from escaping, as well as preventing accidental blockages and the like.

Lances are often used to blow into the melt; however, one would like to be able to blow in such a way by means of a nozzle placed under the melt surface, preferably in the vicinity of the pan bottom, whereby at the same time the melt is stirred. The blowing should or can happen at the same time as the heating or a possible vacuum treatment, which is difficult to carry out with lances.

The invention has for its object to develop a blow opening of the type mentioned, with which the problems recorded above are solved.

To solve this problem, a blow opening or nozzle according to the preamble of claim 1 is proposed, which according to the invention has the features mentioned in the characterizing part of claim 1.

Advantageous embodiments of the invention are mentioned in the subclaims.

By means of such a blow opening, gas, for example stirring gas or gaseous, liquid and / or powdery material, for example for refining, reducing or adjusting alloys, can be blown into the melt. A nozzle can be provided in which gas and / or material have a flow velocity of 80 to 90 m / s. At the beginning of the blowing in, the plug can be pressed into the melt with a relatively moderate gas and / or material pressure. The rear closure device can be quickly pressed into the channel, for example when treatment has ended or when a quick shutdown is required.

On the basis of the embodiment shown in the figure, the invention will be explained in more detail.

1 denotes the wall of a metallurgical vessel and 2 denotes a perforated brick or a ramming mass cutout with a hole made therein for receiving a nozzle mouthpiece 3, which is provided with a continuous channel 13. A holder 4 is fastened to the outside of the vessel, for example by welding or screwing. In order to obtain a seal between the perforated brick 2 and the mouthpiece 3, a thin, porous, highly fire-resistant fiber paper 5 is attached around the mouthpiece 3: a cover 6 or a plug, which consists of refractory or hard-melting material, is with a suitable joint material attached to the nozzle mouth. The plug can possibly also be inserted loosely into the nozzle mouth, for example by means of a guide piece or the like molded onto the plug. The nozzle 3 is fixed in position by a threaded cover 7, and a removable closure 8 is screwed into this cover.

In a side channel of the threaded cover 7, a locking ball 11 and an impact mechanism 10 are arranged, which can quickly push the ball 11 into the outwardly directed channel mouth 13 to close it. A lock 12 prevents the ball 11 from being pushed in unintentionally.

If an injection of gas and / or liquid and / or powder is to take place, the closure 8 is removed and a gas and / or powder line 9 is connected. By increasing the gas pressure, the cover or plug 6 is pressed into the melt and the injection process begins. If treatment is to be stopped, a pulse is exerted by the pulse device 10 on the ball 11, which pushes the ball past the lock 12. The ball 11, the diameter of which is larger than that of the narrowest point in the channel 13, then blocks the gas flow in the nozzle 3, and the steel which penetrates through the nozzle mouth solidifies to a plug here. The gas line 9 can now be removed and, for the sake of safety, the closure 8 is screwed in. The angle between the wall and the nozzle can be chosen depending on which function is most important, that is, whether it is primarily to be agitated or primarily to be refined, etc. The configuration of the nozzle can also depend on the priority function.

The blow opening or the nozzle according to the invention can also be used to stir the melt, with a good stirring and a smooth melt surface being obtained when blowing in powdery material, thereby reducing disturbances of the electrode control in electric furnaces.

The invention described above can be varied in many ways within the scope of the generally disclosed inventive concept.

Claims (5)

1. Blow opening or nozzle for blowing gas and / or liquid or powdery material into metallic melts, e.g. Melting steel, the blowing opening being able to be fixed in a hole in the wall of a metallurgical container (for example a ladle or furnace wall), characterized in that the blowing opening contains a body (3) which extends through the wall and is provided with a continuous channel (13) that this body is provided at its melt-facing end with a cover or plug (6) for closing the channel against the melt, that the cover or plug (6) can be pressed into the melt by gas, liquid or material pressure in the channel and that the channel is provided at its other end with closure devices (11) which can be inserted into the channel and prevent melt from flowing out of the metallurgical container. 2. Blowing opening according to claim 1, characterized in that the closure device contains a ball mounted laterally of the channel (11), which can be inserted into the channel by means of an impact mechanism (10) or another impact pulse device. 3. Blow opening according to claim 1 or 2, characterized in that the cover or the plug (6) consists of a plate with a guide piece, which consist of fire-resistant or difficult to melt material, and that the guide piece fits into the channel mouth (13) and is assembled with it or can be pushed loose into it. 4. Blow opening according to one of the preceding claims, characterized in that a further closure device (8) is attached behind the closure device. 5. Blow opening according to claim 4, characterized in that the channel is provided at its end facing the closure device (8) with threads, grooves or slots which in a connecting pipe (9) for gas and / or powder and possibly also in the closure device fit.

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