WO2003012150A2 - Method for the application of thin-layer metallic slags to an endless circulating conveyor belt - Google Patents

Abstract

A method for the application of thin-layer metallic slags to an endless circulating conveyor belt (2) is disclosed, whereby the molten slag is filled in an intermediate chamber (3) which may be heated by means of a burner (18) and then poured onto the conveyor belt (2), optionally being dosed by means of a distributor (20). According to the invention, advantageous operating conditions may be achieved, whereby the rotationally symmetrical intermediate vessel (3) is rotated about the rotation axis thereof after tilting about a horizontal tilting axis (6) for the heating of the charged slag by means of the burner (18), before the slag, pre-heated to a pre-determined temperature is poured from the filling opening (4) in a dosed manner, by a further tilting of the intermediate vessel (3) about the horizontal tilting axis.

Description

Process for thin-layer application of metallurgical slags on an endless rotating conveyor belt

The invention relates to a method for thin-layer application of metallurgical slags to an endlessly rotating conveyor belt, the molten slag being filled via a filling opening into an intermediate vessel which can be heated with the aid of a burner and then metered from the intermediate vessel onto the conveyor belt, optionally metered via a distributor.

In order to be able to obtain high-quality building materials from metallurgical slags, the molten slags are either cooled slowly under crystalline solidification or rapidly to amorphous or glassy solidification. For crystalline solidification, it is known (EP 1 083 236 A1) to pass the molten slag into an intermediate vessel from which the slag is discharged in a metered manner via a slag stopper and poured evenly onto a trough belt via a distributor. The poured slag cools slowly on the trough belt, the dry cooling used on the one hand allowing simple heat recovery without polluting the environment and on the other hand leading to a crystalline slug which can advantageously be processed further. For amorphous solidification, the molten slag is poured in thin layers onto a plate-shaped conveyor belt, over which the slag is rapidly cooled. This requires a corresponding re-cooling of the conveyor belt. A prerequisite for uniform cooling under crystalline and amorphous solidification conditions is, however, that the molten slag can be poured from the intermediate vessel in a uniform, adapted thin layer onto the conveyor belt, which requires correspondingly high slag temperatures. Although the intermediate vessel is heated by a burner before it is charged with molten slag, a continuous thin liquid of the slag can be removed during the gradual process Emptying the tundish cannot be ensured. Premature cooling of the slag on the surface and shell formation in the bottom and wall area of the intermediate vessel must be expected, which can lead to freezing of the bottom-side slag plug. This applies in particular to steelworks slags with high melting points or electric furnace slags with a foamy consistency.

It is known (DE 15 83 288 C) to use a rotationally symmetrical vessel, which is rotated about its axis of rotation, for reducing melting scrap, which is coldly used in a metallurgical vessel together with a carbon supplier and a slag former and melted with the aid of a burner can be pivoted about a horizontal pivot axis running transversely to the axis of rotation between an upright filling position, an inclined intermediate position for melting the starting materials and a pivoted-away tilting position for casting. By rotating the vessel around its axis of rotation, an advantageous introduction of the heat generated by the burner into the feedstocks can be achieved, but no teaching can be drawn from such prior art as to how evenly poured off the molten slag for further processing in a thin layer an endless conveyor belt can be poured on.

The invention is therefore based on the object of designing a method for thin-layer application of metallurgical slags to an endlessly rotating conveyor belt of the type described at the outset in such a way that the possible advantages with dry cooling of the slag poured onto the conveyor belt are advantageous both in terms of crystalline and in terms of amorphous solidification the slag and heat recovery can be used advantageously.

The invention solves the given tasks in that the rotationally symmetrical intermediate vessel for heating the filled slag is rotated with the help of the burner after an inclination about a horizontal pivot axis about its axis of rotation before the slag preheated to a predetermined temperature is poured out metered by a further inclination of the intermediate vessel about the horizontal pivot axis through the filling opening.

By using a rotationally symmetrical intermediate vessel for receiving the slag to be poured with a common filling and emptying opening, there is no longer any need to provide plugs or slides for pouring out the molten slag, thus avoiding the disadvantages associated with such plugs or slides. In addition, there is a simple construction with the advantageous possibility of raising or maintaining the slag temperature to a predetermined value, because the slag filled into the intermediate vessel can advantageously be heated via the burner during the rotation of the intermediate vessel about its axis of rotation. The rotation of the intermediate vessel during burner operation not only requires a corresponding circulating movement of the slag melt, but also leads to uniform heating of the intermediate vessel and the slag, if the surface of the slag bath extends to the filling opening with an appropriate safety distance, taking into account an appropriate safety distance , If the intermediate vessel is increasingly inclined after the slag has been heated to the desired casting temperature, the molten slag can be poured from the intermediate vessel evenly and in doses onto the conveyor belt in order, if necessary, to ensure a thin-layer application of slag onto the rotating, possibly cooled conveyor belt with the interposition of a distributor , The pivoting adjustment of the intermediate vessel about the horizontal pivot axis required for the metered pouring out of the slag can be ensured in a comparatively simple manner by control technology.

Since a metallic portion must be expected in the case of metallurgical slags, which accumulates in the intermediate vessel due to sedimentation in the bottom area, the remaining amount of slag can be poured onto the conveyor belt, which contains the metal melt enriched therein before the intermediate vessel is reloaded with slag is emptied. The intermediate vessel can thus be completely emptied before each loading, so that the The risk of shell-like slag deposits increasing in size from time to time in the floor or wall area of the intermediate vessel can be easily countered.

Although the burner can be arranged in different ways, there are particularly simple conditions on the one hand with regard to heating the slag and on the other hand with regard to emptying the slag if the slag is heated from the outside through the filling opening of the intermediate vessel via the burner, because in this case the burner is arranged in a fixed position can and does not stand in the way of emptying the tundish. It is only necessary to ensure that the burner is only switched on when the filling opening of the intermediate vessel is aligned with the burner so that its flame is directed through the filling opening into the intermediate vessel. This means that for heating the slag via the burner, the intermediate vessel is advantageously pivoted from an upright filling position about the horizontal pivot axis into an intermediate position in which the slag level reaches the edge of the filling opening up to a safety distance. From this intermediate position, the vessel is then pivoted further for the metered pouring out of the molten slag, so that the slag melt can flow out over the edge of the filling opening. If necessary, the burner can also be switched on during the pouring process, as long as its flame is directed against the slag level.

The method according to the invention is explained in more detail with reference to the drawing. Show it

1 shows a device for the thin-layer pouring of molten slag onto an endlessly rotating conveyor belt in a schematic plan view, partly broken open, and

Fig. 2 shows this device in a side view.

With the aid of the device shown, molten slag is to be poured in a uniform, thin layer 1 onto an endlessly rotating conveyor belt 2, which is built up from individual plates which are articulated to one another is. For this purpose, an intermediate vessel 3 is provided with a corresponding refractory lining for receiving the molten slag to be poured, which is introduced into the rotationally symmetrical intermediate vessel 3 via a filling opening 4 and also emptied again. For this reason, the intermediate vessel 3 is pivotally mounted about a horizontal pivot axis 6 running transversely to the axis of rotation 5. In addition, the intermediate vessel 3 can be rotated about the axis of rotation 5. In design terms, these movements are made possible by holding the intermediate vessel 3 with a shaft 7 coaxial with the axis of rotation 5 in a pivot bearing 8 of a frame bracket 9, which is itself mounted in pivot bearing 10 coaxially with the pivot axis 6. A motor 11, for example a hydraulic drive, which is arranged on the frame bracket 9 and is in drive connection with the shaft 7, is used to drive the intermediate vessel 3 about the axis of rotation 5 / the swivel drive for the intermediate vessel 3 consists of a shaft stub 12 with the Rack bracket 9 connected toothed segment 13, which meshes with a drive gear 14. The drive for this drive gear 14 is not shown for reasons of clarity.

As can be seen in FIG. 2, the intermediate vessel 3 is pivoted out of an upright pivot position 15, indicated by dashed lines, for filling the molten slag into an intermediate position 16 drawn with solid lines, in which the mirror 17 of the slag melt taking into account a safety distance to the lower one Edge of the filling opening 4 is sufficient. In this intermediate position 16, the filling opening 4 of the intermediate vessel 3 is opposite a burner 18, via which the slag in the intermediate vessel 3 is heated to a predetermined pouring temperature, with the simultaneous rotation of the intermediate vessel 3 about its axis of rotation 5.

If the intermediate vessel 3 is pivoted further via the drive gear 14 after the melt has been heated into a pouring position 19 indicated by dash-dotted lines, then the melt flows out of the intermediate vessel 3 at the predetermined pouring temperature via the filling opening 4 from the intermediate vessel 3 in order to on the conveyor belt 2 To form slag layer 1. With small layer widths, the slag can be poured from the intermediate vessel 3 directly onto the conveyor belt 2. will be. In the case of larger layer widths, it is advisable to provide a distributor 20 via which the pouring jet is fanned out accordingly. This distributor 20 can also be heated in order to avoid cooling of the slag in the region of the distributor 20 which impairs the uniform layer structure. Distributed over the entire width, cross-sectionally V-shaped overflows give single channels with little heat radiation, so that these channels flow together on the conveyor belt 2 to form a uniform thin slag layer 1.

Since sedimentation of the molten metal contained in the molten bath must be expected, it is advisable not to pour the molten bath completely onto the conveyor belt 2, but only up to a remaining amount to cover this remaining amount with the enriched molten metal before the intermediate vessel 3 is recharged empty from the intermediate vessel 3. For this purpose, the intermediate vessel 3 only needs to be pivoted so far that this residual amount can be emptied into a corresponding collecting vessel 21.

The burner 18 is operated as a function of the respective slag temperature in such a way that the pouring temperature of the slag is as constant as possible. This means that the burner 18 may also be switched on during the casting process, which is possible as long as the burner flame is directed through the filling opening 4 against the melting level 17.

Claims

Patent claims: 1. A method for thin-layer application of metallurgical slags to an endlessly rotating conveyor belt, the molten slag being filled via a filling opening into a intermediate vessel which can be heated with the aid of a burner and then metered onto the conveyor belt from the intermediate vessel, optionally metered via a distributor, characterized in that the rotationally symmetrical intermediate vessel (3) for heating the filled slag with the help of the burner (18) after an inclination about a horizontal pivot axis (6) about its axis of rotation (5) is rotated before the slag preheated to a predetermined temperature by a further inclination of the Intermediate vessel (3) is poured out metered about the horizontal pivot axis (6) via the filling opening (4). 2. The method according to claim 1, characterized in that the slag is poured onto the conveyor belt (2) to a residual amount, which is emptied with the metal melt enriched therein before a new loading of the intermediate vessel (3) with slag. 3. The method according to claim 1 or 2, characterized in that the slag is heated from the outside through the filling opening (4) of the intermediate vessel (3) via the burner (18). Linz, on August 2, 2002 Dipl. - Ing. Anton Hulek