DE1190479B - Device for accelerating physicochemical processes in metal melts - Google Patents

Description

Device for accelerating physicochemical processes in metal melts The invention relates to a device for accelerating physico-chemical Processes in metal melts of over 800 ° C with the help of a mechanical stirring and Pump device consisting of a rotating central tube and a pump-like one Head.

A device for degassing liquids with a is known rotating conical body that is immersed in the melt. On the downward facing At the pointed end of the conical body, inflow openings are provided through which the melt is sucked in. The melt climbs under the action of centrifugal force up along the walls and enters through at the widest point of the cone-shaped Body-located outlet openings. This is intended to create the surface of the molten metal enlarged and thereby a rapid degassing can be achieved. With other well-known Devices are used to achieve rapid degassing of the surface through fountain-like Spraying of the melt enlarged, the liquid as a result of the action of a in the room in which the melt is sprayed, the prevailing vacuum in a riser pipe is promoted.

Electrodynamic ones are already used to mix metal melts Stirrers or vibrating pans used. In these facilities, the melt, before it can be treated, from the pan into the electrodynamic agitator or poured into the vibrating pan. When pouring, there is naturally a loss of temperature a. Re-pouring in the course of a work process is also undesirable additional work step.

The invention is now based on the object of providing a device create that is suitable for mixing up melts in large pans so that that with it similar successes as with electrodynamic agitators or with vibrating pans can be achieved.

The stirring device 2 according to the invention of the type mentioned at the beginning consists of a lower suction pipe and at least one on the side above the suction pipe arranged, substantially horizontal outlet pipe 9. Such a device can be easily placed on a pan. The melt is through the lower suction pipe as a result of the effect of a centrifugal force arising in the outlet pipe 9 sucked in and circulated in this way. The outlet pipe 9 also acts as a stirring device. Such an effect is not achieved with the known degassing devices, because the rotationally symmetrical bodies used there and immersed in the melt probably have a pumping effect, but not a stirring effect.

The invention turns the previously necessary casting into inductive Stirrers or in vibrating pans avoided, which means, on the one hand, no loss of temperature occurs and on the other hand the processing process because of the omission of an additional Operation is simplified.

An advantageous embodiment of the device according to the invention is characterized by a pump path that is at least 1511 / o the sum of the mean Depth and mean diameter of the weld pool. Experience has shown that achieved the best results with such a dimensioning of the device.

In the drawing is an embodiment of the invention Device shown. From the following description of this embodiment provide further details and advantages of the invention.

In a container, in this case a pan 1, there is a melt covered with slag and having a temperature above 800 ° C. The stirring device 2 according to the invention is immersed in the melt. This device consists of a T-tube which is attached to a vertical shaft 3 which is driven by a motor 5 via a gear 4. The motor and the gear are located on a base which in turn is fastened to the cover 6 of the pan 1. The lid is provided with seals at 7 and 8. As can be seen from the figure, the stirring device 2 consists of a vertical suction pipe and two horizontal outlet pipes 9 attached to it, which are usually shorter than the part of the vertical suction pipe located under the horizontal pipe in question. The stirring device 2 should be at a speed of at most 500 rev / min. rotate. However, this maximum value only comes into consideration for small pans. Furthermore, the sum of the vertical pipe and the horizontal pipe should be about 15% of the sum of the maximum mean diameter and the maximum mean depth of the melt. With these dimensions of the stirring device 2, an optimal reaction sequence is obtained, combined with limited wear and tear on the stirring device. With relatively little horizontal movement of the melt, it is advantageous to make a vertical movement of at least 25% of the maximum mean depth of the melt or, with a relatively short vertical movement, to generate a horizontal movement of at least 25% of the maximum mean diameter of the melt. Since the pump is quite large in relation to the liquid surrounding it, moderate speeds of rotation are also sufficient. At moderate speeds, centrifugal forces are still so great that the arrangement works effectively as a pump, ie sucks the liquid into the opening of the vertical tube and pushes it out again through the horizontal side tubes.

It is not necessary that the axis of rotation be perpendicular. the The inlet opening can also be arranged in the upper part of the vertical tube or both in the upper and in the lower part. Inlets can also be in different distances from the bottom or from the surface of the melt be. The pump can be arranged more or less eccentrically in the container. The outlet pipes can be directed a little upwards or downwards, they can also be attached at different heights.

The device can also be used to add liquid or gaseous substances to the melt. The additives can be added in such a way that only the part of the melt conveyed directly by the pump is influenced by them. The stirring device 2 shown in the drawing is for a pan filled with molten iron with a capacity of, for. B. 20 t constructed. This stirring device 2 operates at a speed of about 1 rev./sec., And its delivery rate is so large with an internal diameter of the suction pipe of 150 mm that the entire melt passes the vertical and horizontal part of the pump in a few minutes. At the same time, the melt is set in motion during the rotation of the stirring device 2 through the horizontal discharge pipes.

This simple design of the stirring device 2 is essential for the solution of the task, because the thermal and chemical stress is particularly great. The simple shape and the wall thickness of at least 10 mm and the radii of curvature of at least 1.0 mm give the stirring device 2 sufficient strength to meet these requirements during operation in metal or slag smelters. Therefore, the rotation speed should not exceed 500 rev / min. and the flow velocity of the liquid in the horizontal discharge pipes is at most 5 m / sec. be.

The agitation device can be manufactured in any known manner and must consist of a material that is stable in the relevant melt. Graphite is often well suited for iron melts. When the carbon content of the Melt should be low, e.g. B. at Carmen Stahlschmelzen, can be used as a material Fireclay or, at high temperatures, special fireclay or Silimanit are used will. This stirring device can also be used in pans with a protective gas atmosphere or can be applied under vacuum.

Claims (2)

Claims: 1. Device for accelerating physical-chemical processes in metal melts of over 800 ° C with the help of a mechanical stirring and pumping device, consisting of a rotating central pipe and a pump-like head, marked by a lower suction pipe (2) and at least one A substantially horizontal outlet pipe (9) arranged laterally above the suction pipe (2). 2. Device according to claim 1, characterized by a pump path which is at least 15111o the sum of the mean depth and mean diameter of the melt pool. Documents considered: German Patent No. 1051008; U.S. Patent No. 2,893,860.