DE1179075B - Device for heating metal baths, especially zinc baths - Google Patents

Description

Device for heating metal baths, in particular galvanizing baths The invention relates to a device for heating metal baths, especially galvanizing baths, with one or more immersion heaters from opposite the metal bath of corrosion-resistant material.

For weld pools, e.g. B. Galvanizing baths; come mainly at the moment walled-in steel tubs that are heated from the outside are used. Such Experience has shown that tubs are relatively short due to the formation of hard zinc Lifespan. The hard zinc that builds up on the walls of the tub is reduced In the course of the use of the tub, the heat transfer increases. It must therefore be the The temperature of the outer wall can be increased to bring the galvanizing bath to the required level Maintain working temperature, which in turn puts more stress on the tub and ultimately leads to the breakthrough of the tub wall.

A number of proposals have become known, ceramic galvanizing tubs to use and to heat the bath from the surface. To this end are so-called heating mantles have been provided, which are provided with gas or oil burners and completely or partially cover the galvanizing bath.

Such a surface heating is not possible in practice Beer desired success has been achieved. The performance of a surface-heated ceramic tub remains significantly behind that of an externally heated steel tub. At the A zinc ash layer is formed very quickly through oxidation on the heated surface, which has an insulating effect and the heat transfer between the heating hood and the metal bath and thus also degrades the performance.

The temperature gradient between the heating mantle and the metal bath is allowed practically do not exceed 400 ° C, since with a higher temperature gradient the Zinc ash formation becomes even stronger and even an evaporation of the zinc occurs can. The heating efficiency is therefore very low. The usage of Recuperators for partial recovery of the exhaust gas heat is not possible because the recuperators quickly move through the airborne dust carried by the exhaust gases To add time.

Finally, there are different ones made of ceramic masonry Galvanizing furnaces for weld pools with immersed in the bath through which heating gases flow Metal pipes became known. In a known galvanizing furnace of this type Immersion heating elements used, which are in with a good heat conductive material, such as Lead, filled and optionally n-it a protective coating, e.g. B. from email, coated Heating pockets are located and which are immersed in the zinc bath. With another The galvanizing furnace is a combustion chamber for the heating tubes immersed in the bath assigned to control the temperature of the heating gases, which are detachable from the combustion chamber and heating pipes connected to the exhaust gas ducts. The heating pipes can on the inside needle-shaped or bolt-shaped projections to enlarge the heat transferring Have surface.

In the known ovens, the heating pipes are made of wrought iron. The heating efficiency of such metal heating pipes is comparatively low. In addition, such metal pipes can and are easily deformed during operation especially at least as well as the externally heated metal tubs a strong one Exposed to attack so that their service life is very short.

There are known electrically heated immersion heaters for galvanizing baths, which should bring the bath to the desired temperature and keep it there. The known immersion heaters are completely submerged in the bath and in an annular shape Metal case included. Preferably three such immersion heaters are one above the other arranged. It is, after all, a facility for casting metal, such as, steel, Known in a mold, a heating electrode is used in its upper part or attachment is made from a block of heat-resistant material, such as magnesium oxide, with a inner core, z. B. graphite. The heating electrode transfers some of its heat by conduction to the upper layers of the liquid Metal in the mold and prevents these layers from cooling too quickly and Blowholes arise in the casting. Also these known facilities are not suitable for solving the problem underlying the invention.

The purpose of the invention is to create a device for heating of metal baths, especially galvanizing baths, which have the disadvantages of the known Metal pipe immersion heating elements do not have and with high heating efficiency have a service life that is sufficient for practical operation.

The device according to the invention is characterized in that the part of the immersion heater that is immersed in the metal bath consists of a closed bottom Hollow body is made of graphite, which is supported by a head provided with a reinforcement of refractory material is supported above the metal bath, where appropriate the head is arranged to be pivotable about an axis of rotation by means of a support arm.

The hollow body of the immersion heater is preferably bell-shaped Shape and is conveniently connected to the head in an easily detachable manner, e.g. B. according to Art a bayonet lock. The head can be heated electrically and to this Purposes carry heating elements or have a burner, with the combustion of the Heating medium (gas or oil) takes place inside the hollow body. The heat of combustion becomes fast through the wall of the hollow body due to its high thermal conductivity transferred to the metal bath. The combustion gases leave the combustion chamber in the hollow body through channels provided within the burner head. On the A recuperator can be provided in the burner head, in which the outflowing combustion gases preheat the combustion air and / or the heating gases.

The immersion heater, which is made of graphite, is removed from the molten one Metal practically not attacked and under various working conditions also not deformed. Since the temperature gradient between the combustion chamber in the Immersion heater and the metal bath can be kept very high is the heating of the bath is much more effective than, for example, with surface-heated tubs.

When using a hollow body made of graphite, the coefficient of thermal conductivity is about 2.5 times that of steel pipes or a steel tub.

The immersion heater is expediently arranged so that it is easy can be removed from the metal bath. He can z. B. from a cantilever, hydraulic operated suspension device, which can be pivoted about an axis, which runs outside the tub of the metal bath.

In the device according to the invention, a plurality of those described can be used Immersion heater be provided. These immersion bodies are expediently next to one another connected to a unit that can be swiveled out or in as a whole.

To increase work performance and for rapid temperature equalization stirrer blades can be provided within the metal bath, which are expediently provided with the said suspension device are connected. This is achieved with these impellers hot metal from the vicinity of the immersion heater is quickly conveyed into the work area.

The invention is explained in more detail, for example, with reference to the drawing.

F i g. Figure 1 is a cross-section through a ceramic galvanizing tub with three immersion heaters according to the invention; F i g. 2 is a longitudinal section according to the line 11-11 of FIG. l and shows the three immersion heaters arranged side by side.

According to FIGS. 1 and 2, 1 is a lined with refractory material Tub of a galvanizing bath, over which three immersion heaters are arranged, each of which in the metal bath with the bell-shaped, made of burnt graphite Hollow body 2 is immersed. The hollow body 2 is provided with a reinforcement 5 Head 3 carried, in which there is a burner nozzle 4 and with channels 9 for the discharge of the combustion gases from the combustion chamber 2 ', from the hollow body 2 is included, is interspersed. The armored burner head 3 is of a Cantilever arm 6 carried around an axis of rotation 7 by means of a piston and cylinder device 8 can be pivoted out and in via a link 8 '.

In the embodiment shown, a recuperator 10 is arranged on the burner head 3. A line 11 for the supply of combustion air leads to the recuperator 10. Furthermore, a line 12 for the heating medium supply to the burner nozzle 4 is provided.

The heat from the combustion gases can also be recovered in other ways will. The combustion gases, which are dust-free, can be used for heating associated metal heating furnaces that are operated at a lower temperature, application Find.

A stirrer blade is attached to the unit that includes the immersion heater 13 with shaft 14, which is driven by an electric motor 15, structurally connected. The agitator blade 13 and the part of the shaft 14 that is immersed in the metal bath are made expediently made of electrographite.

In the embodiments shown in the drawing, the bell-shaped Hollow body 2 releasably connected to the burner head 3 in the manner of a bayonet lock, so that it can be changed easily.

The device according to the invention is general for molten metal baths suitable and can, for example, also with advantage in injection molding and die casting machines be used, where work must be done in the absence of air and the light metals to process. The device according to the invention can be used for melt pools of any size be used; the size of the bath determines the number of immersion heaters or Immersion heaters.

If the immersion heater is heated electrically, it is convenient to arrange a set of resistance heating elements on the head, which protrude into the cavity enclosed by the hollow body 2.

Movable melting tanks or small crucibles can be used for special purposes be provided, in which the immersion heater according to the invention is suspended in such a way are that the tubs or crucibles can be hermetically sealed. The molten bath can then be piped to an injection or casting mold be guided.

Claims (7)

Claims: 1. Device for heating metal baths, especially galvanizing baths, with one or more immersion heaters from opposite the metal bath corrosion-resistant material, characterized in that the in the Metal bath immersed part of the immersion heater made of a hollow body closed at the bottom (2) consists of graphite, which is supported by a head (3) provided with a reinforcement (5) of refractory material is supported above the metal bath, where appropriate the head (3) is arranged to be pivotable about the axis of rotation (7) by means of a support arm (6) is. 2. Apparatus according to claim 1, characterized in that the hollow body (2) is bell-shaped. 3. Apparatus according to claim 1 or 2, characterized characterized in that the hollow body (2) is easily detachably connected to the head (3) is. 4. Device according to one of claims 1 to 3, characterized in that a burner is arranged in the head (3). 5. Device according to one of the claims 1 to 3, characterized in that electrical heating elements are arranged in the head (3) are. 6. Device according to one of claims 1 to 4, characterized in that a recuperator (10) is arranged on the head (3) carrying the burner. 7. Device according to one of claims 1 to 6, characterized by the arrangement of one or more agitator blades (13). Documents considered: German utility model No. 1 745 086; British Patent No. 583 055; USA. Pat. No. 1918 734th