AT505494A1 - DEVICE ON STOVES - Google Patents

Description

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The invention relates to a device on hearth furnaces. More particularly, the invention relates to a burner dome for hearth furnaces for keeping liquid aluminum warm and for remelting aluminum scrap in hearth furnaces.

To keep warm aluminum baths hearth furnaces of different types are used.

This is usually used as an energy source of natural gas or fuel oil.

The burners operated with natural gas or fuel oil are installed in the area of the oven ceiling or the oven wall of the stove oven.

The burners can be gas / oil / air or gas / oil / oxygen or finally gas / oil / air / oxygen burners. The flame forming during operation of the burner extends directly over the bath surface of the liquid melt, so that it comes to the formation of waves on the bath surface under the action of the gases in the flame. Thus, due to the air contained in the furnace chamber and the oxygen contained therein, the oxidation of the molten aluminum is increased, so that it comes to not inconsiderable losses of aluminum. These losses are between 0.2% and 0.4% for known hearth furnaces operated with gas / oil flames.

Furthermore, the direct influence of the flame on the bath surface (surface of the molten aluminum) leads to strong local overheating of the bath. This enhances corundum formation.

Object of the present invention is to provide a device of the type mentioned, in particular a burner dome for hearth ovens of the aforementioned type, which avoids the disadvantages mentioned above and in particular allows gentle treatment of aluminum or aluminum scrap in hearth furnaces.

This object is achieved with a device (burner dome), which has the features of claim 1.

Preferred and advantageous embodiment of this invention are the subject of the dependent claims.

Thus, the invention relates to a device, e.g. in the form of a burner dome with the liquid aluminum kept in hearth furnaces or the remelting of aluminum scrap in hearth furnaces can be carried out so that the metal or aluminum scrap contained in the hearth furnace does not come into contact with an open flame.

The fact that according to the invention the burner is arranged in a burner dome, which is placed on the furnace, in particular the furnace roof, it is achieved that the flames of the burner, which for the

Keeping heat of molten aluminum or the remelting of aluminum scrap needed heat, with the molten aluminum does not come into direct contact.

It is particularly advantageous if the burner is arranged in one embodiment so that the steel plates of the construction are at this point as tangents at right angles to each other, preferably the flame outlet from the burner tube is tangential.

If the flame is directed in a rotational movement due to the shape of the burner dome, results in a, for solving the problem of the invention, advantageous rotational movement of the flame and the fuel gases.

The required high temperature resistance of the device, in particular of the burner dome, results if, according to one embodiment of the invention, the burner dome is designed so that the special concrete has a flame resistance of over 1600 ° C. and has low erosion relative to the flame. On the one hand a temperature resistance up to 1600'C and on the other hand low erosion is achieved due to the high flame speed.

In the embodiment of the invention, in which the height and the diameter of the burner dome is dependent on the power, it is achieved that the flame only reaches a certain length because of the burner dome size and does not protrude into the oven space. This has the advantage that only the hot gases flow into the furnace chamber.

In a possible embodiment of the invention it is provided that the length of the flame is monitored by the optical flame control. When exceeding the predetermined limit, a control mechanism for setting the flame length is triggered.

According to a further embodiment, it is provided that the burner is temperature-controlled via the measuring probes, while, for example, the burner output is regulated by at least one temperature measuring probe.

In one embodiment, it is provided that the burner can be swung over the axis by 90 '. This allows the burner to be set optimally and is easily accessible for maintenance.

If, according to a proposal of the invention, it is provided that the dome cover is made obliquely downwards from the burner opening, the flame is forced down in a screw movement.

A particularly advantageous, preferred feature of the invention is that the parameters for flame length and furnace temperatures exceed measured values. · · · · · ·

• • • • ··· 3 probes can be monitored in a freely programmed controller and the process can thus also be controlled.

Further details, features and advantages of the invention will become apparent from the following description of a schematically illustrated in the drawings embodiment of the device according to the invention, using the example of a burner in the following description.

1 shows a burner dome according to the invention in section and FIG. 2 shows the burner dome in section and in plan view.

A burner dome 1 according to the invention has a hood 3 made, for example, of steel, which has a flange 5, by way of which the hood 3 is fastened to the furnace roof 7, an opening 9 being covered in this manner.

Inside the hood 3 of the burner dome 1 is provided with an insulation 13 and a lining 11, in particular refractory concrete with a temperature resistance up to 1600'C is preferred. This ensures that the burner dome 1 reaches a maximum outside temperature of 70 * C.

A burner 15 is inclined to the axis of the cylindrical wall 17 of the hood 3 at an angle 19, so that the axis 21 of the burner 15 is parallel to the inclined inner surface 23 of the ceiling of the burner dome 1.

Furthermore, the burner 15 is fixed to the wall 17 of the hood 3 so that the axis 21 of the burner 15 is aligned tangentially to the wall 17 of the hood 3 (Fig. 2). It is so that the burner 15 is arranged so that the emerging from its burner tube flames enter tangentially into the interior of the hood 3, along the inner surface 11 in the dome 3. In the region of the hood 3 of the burner dome 1, in which the burner 15 is arranged, the wall 17 deviates from the cylindrical shape and there are provided at an angle of 90 'to each other wall portions 27 and 29, which tangentially into the wall 17 of Go over hood 3.

In particular, it can be provided that the burner 10 is pivotally mounted and can be pivoted out of the hood 3, for example, via a pivot axis 31 for the purpose of maintenance and cleaning.

The ignition of the burner 15 is preferably carried out automatically and can be controlled by temperature measuring probe 33 and 35.

Once the burner 15 is in operation, that is ignited, the flame spreads helically downward due to the oblique inside 23 of the ceiling and the cylindrical shape of the shell of the burner dome 1, as indicated by the lines in Fig. 1 and Fig. 2 is.

It is preferred that the burner 15 is set so that the length of the flames is not greater than the side length or the side surface of the hood 3 of the burner dome 1. For this purpose, an optical flame length measurement 37 is provided. When the length of the flame is exceeded, the power of the burner 15 is correspondingly corrected downward by a controller.

At the bottom of the furnace roof 7 lying end of the hood 3 of the burner dome 1 only more hot exhaust gases (no flames) flow out at a temperature of about 1000'C, and enter through the opening 9 in the hearth furnace.

The hot gases flow through the furnace chamber uniformly, so that there is a good heat distribution over the Badoberläche the liquid aluminum in the hearth furnace, without causing waves in this, as is the case in the prior art.

In summary, an embodiment may be described as follows:

To keep molten aluminum in a hearth furnace warm or to melt aluminum scrap in a hearth furnace, at least one burner 15 is provided. The burner 15 is arranged in a burner dome 1, which is placed on the furnace roof 7. The burner 15 is aligned with respect to the substantially cylindrical burner dome 1 so that the flames and the fuel gases move in the burner dome 1 helically up to the opening 9 in the furnace roof 7, over which the burner dome 1 is arranged. This ensures that no flames get into the interior of the hearth furnace and come into contact with the molten aluminum, which has the advantage that the oxidation of the molten aluminum reduces and also the formation of corundum is obstructed.

Vienna, 9th July 2007 Alumonte GmbH represented by: PATENTANWÄLTE DIPL.-ING.J4ANFRED BEER DIPL-ING. REIW4RD HEUENBERGER through:

Claims (20)

BEER & PARTNER PATENTANWÄLTE KEG 1070 Vienna, Lindengasse 8 ·· ··· ♦ ··· ·········· 2. Device according to claim 1, characterized in that the burner dome (1) on the ceiling (7) of the hearth furnace via a flange (5) attached, for. bolted or welded, is. 3. Apparatus according to claim 1 or 2, characterized in that the axis (21) of the burner (15) with respect to the wall (17) of the burner dome (I) is aligned tangentially. 4. Apparatus according to claim 3, characterized in that the wall (7) of the hood (3) of the burner dome (1) is substantially cylindrical jacket-shaped and that in the region of the attachment of the burner (15) on the burner dome (1) level, in Angle of 90 'to each other wall parts (27, 29) are provided. 5. Apparatus according to claim 3 or 4, characterized in that the axis (21) of the burner (15) is aligned so that its flames from the burner tube tangentially enter the burner dome (1). 6. Device according to one of claims 3 to 5, characterized in that the burner (15) emerging flames in the burner dome (1) perform a rotational movement, in particular a helical motion. 7. Device according to one of claims 1 to 6, characterized in that the burner dome (1) is lined inside insulating. 8. The device according to claim 7, characterized in that the burner dome (1) is internally lined with an insulating layer (13) and a delivery (II) made of refractory concrete. 9. Apparatus according to claim 7 or 8, characterized in that the outside of the burner dome (1) has a temperature of at most 70'C. July 9, 2007 S149-7ooo-pAT B / mk / K Alumonte GmbH in Unterpremstätten. 1. Apparatus for keeping molten aluminum and for melting aluminum scrap in a hearth furnace, characterized in that on the hearth cover (7) an opening (9) is arranged in this covering a burner dome (1), and that on the burner dome (1) a burner (15) is arranged, whose outlet opening points into the interior of the burner dome (1). 10. Device according to one of claims 8 or 9, characterized characterized in that the concrete used as lining (11) has a flame resistance up to a temperature above 1600 ° C and has low erosion relative to the burner flame. 11. The device according to one of claims 1 to 10, characterized in that the height and diameter of the burner dome (1) are selected so that the flame exiting the burner (15) exits exclusively in the interior of the burner dome (1). 12. The apparatus according to claim 11, characterized in that only hot exhaust gases from the burner dome (1) through the opening (9) flow into the furnace chamber. 13. Device according to one of claims 1 to 11, characterized in that a flame control (37) is provided, which monitors the length of the flame. 14. The apparatus according to claim 13, characterized in that the flame control (37) is an optical flame control. 15. Device according to one of claims 1 to 14, characterized in that the burner (15) via measuring probes (33, 35) is temperature-controlled. 16. Device according to one of claims 1 to 15, characterized in that the burner (15) about a to the axis of the burner dome (1) substantially parallel axis (31) by 90 " is pivotable. 17. Device according to one of claims 1 to 16, characterized in that the inner surface (23) of the ceiling of the burner dome (1) to the axis of the jacket (7) of the burner dome (1) is inclined. 18. The apparatus according to claim 17, characterized in that the inner surface (23) is oblique such that the height of the burner dome (1) from the junction of the burner (15) away is smaller. 19. The apparatus of claim 17 or 18, characterized in that the axis (21) of the burner (15) to the inner surface (23) of the ceiling of the burner dome (1) is aligned substantially parallel. 20. Device according to one of claims 1 to 19, characterized in that the flame length and the Ofenraumtempertur monitoring probes (33, 35, 37) are provided and that the measuring probes (33, 35, 37) with a freely programmable controller, for flame length and furnace room temperature are connected. Alumonte GmbH represented by: PATENTANWÄLTE D1PL.-TNG. MANFRED BEER