DE2450123B2 - DEVICE FOR MOVING AND DISTRIBUTING THE BATCH WITHIN AN ELECTRIC MELTING FURNACE - Google Patents

Description

The invention relates to a device for movement and distributing the charge within an electric furnace.

In the majority of the smelting processes used in elekfrischen Melting furnace take place, it is advantageous if the possibility is given by piercing or otherwise movement of the charge that has been placed in the furnace is to effect.

It is also known that a rotational movement of the furnace vessel together with a mechanical Pricking or leveling the surface of the batch has a beneficial effect for manufacturing, for example of silicon metal and alloys rich in silicon. Through the rotation of the furnace vessel the formation of incrustations and bridges in the furnace is reduced to a certain extent, whereby at the same time a better heat distribution and a more even wear of the lining material is achieved. For these reasons, closed melting furnaces are not used, i.e. furnaces without a furnace roof or furnace cover, used for the production of silicon metal and alloys that are rich in silicon, whereas a number of other smelting processes have closed furnaces that have a furnace roof have, are used.

It is also known that the sinking or slipping of the charge over the cross-sectional area of the Oven geiaßes seen is very different. The consumption of the batch is greatest within one of the triangular area formed by the electrodes and decreases in the outward direction towards the edge of the furnace vessel there. This is a commonly observed tendency, but it has been shown to some extent by others Factors can be influenced. These factors include the extension of the tapping surface, the Arrangement of the gas vent and the segregation of the batch. Such uneven consumption the charge or the loading leads to disadvantages during the melting process. The extent this difficulty varies widely depending on the type of furnace and the kind of melt product.

The dust concentration is for example in areas in which the consumption of the batch is low, i.e. in those areas in which the batch or loading is more or less immobile, be very high. High dust concentration leads to too low Gas permeability in the sections that are rich in dust, so that the gas distribution and thus the Heat distribution in the charge becomes uneven, with a high load on the gas at the same time is given with dust. Such a low gas permeability and gas distribution in turn causes a eerinee pre-reduction of the solid charge in the furnace, and an uncontrolled formation of incrustations is obtained and bridges, which can lead to gas build-up and explosions. The conditions in the Furnaces in terms of electrical resistance will vary widely, as will current not desired paths will take. There is also the risk that so-called wrong floors as well as blockages in the Furnace vessels arise, which in turn leads to incorrect immersion of the electrodes. Further the drainage between the electrodes will be small and the tapping conditions will be more difficult. The influence of these disadvantages and their extent will depend on the type of melting process and the Strongly change the melt product.

The invention is therefore to be regarded as the underlying task, a simply structured and simple To create a device to be operated with which it is possible in a simple manner to use the in the furnace vessel of the electric furnace input an approximately horizontal movement towards to lend the furnace center.

This object is achieved according to the invention by a device which is characterized in that within the furnace vessel of the electric melting furnace in a coaxial arrangement at least one of outside rotatable or pivotable tube is used, attached to the inside of conveyor or guide elements are.

With such a device is achieved with elimination of the aforementioned disadvantages that if the loading in the furnace areas, in which it is known that there is very little displacement of the Charge is given, a movement in the direction of the furnace center or the middle of the furnace is abandoned the possibility is opened up of a fairly even consumption of the batch over the entire period To achieve cross-section of the furnace vessel. As is known, the consumption of the batch is the highest in the central areas of the furnace and is low in the peripheral areas of the furnace vessel, in particular in those peripheral areas that are located between the electrodes. The batch imparted horizontal movement implies that it will be possible to a certain extent determine which section of the loading area should have the fastest shift. Through this approximate Horizontal movement of the peripheral areas of the batch towards the center of the furnace mechanical piercing measures and devices in those processes in which a piercing is necessary is, dispensable and improvements of the melting processes, which in non-rotating, closed ovens are carried out.

A further development of the device according to the invention is that the conveying and guide elements are arranged in the lower region of the tube.

This feature is particularly useful when using several coaxially arranged in the furnace vessel Pipes of importance.

A further development of the device according to the invention consists in the fact that the diameter of the the lining of the furnace vessel adjacent tube is chosen so that between the tube and the lining Annular space is left.

This makes it possible to enter the feed and / or feed components into the annular space left between the lining and the pipe.

A further development of the device according to the invention is that the conveying or guide elements Have segment shape.

^In order to keep the torque of the pipe at a reasonable level, the batch shift should not be too high. The amount of feed that will be moved is determined by the change in the speed of rotation or pivoting movement of the pipe. The conveying or guide elements can be arranged in such a way that it is possible to change the movement or displacement of the loading caused by them during operation of the oven. The surface of the conveying or guide elements, which is in contact with the load, is designed so that an inwardly directed compressive force is exerted on the load.

The device according to the invention also opens up the possibility of distributing feed or Batch components that did not exist before. The components can be entered in the scope and then by the device according to the invention at a predetermined level in Towards the middle of the furnace. This makes it possible to set the resistance conditions and to improve as well as to operate the furnace at higher voltage.

The use and consumption of fines can also be increased by placing the fine material in the peripheral area is added to the furnace and brought into the reaction zone by means of the pipe. To this Way, the batch will retain its porosity in the outer sections, and the dust pollution of the Gases will not increase significantly. Through the use of the method and device according to the invention, the risk of sudden break-ins and gas explosions is also reduced.

In the event that a certain feed component is to be transported towards the middle of the furnace, this can be accomplished by the diameter of the cylindrical tube in relation to the diameter of the furnace vessel so much is chosen smaller so that an annular channel is formed between the tube and the furnace vessel. The one under consideration Batch components can then be entered in this annulus at the points where the Batch component is to be introduced in the direction of the furnace center. Are conveying or guiding elements applied, which are attached to the pipe that they are a tangent to the lower end of the Pipe, then the conveying or guiding elements are created by the rotation of the pipe of this batch component, which is located in the annulus, give a horizontal movement towards the middle of the furnace. This & 5 Tangential elements can be adjustable so that the movement of the component in question is based on The furnace center can be adjusted to independently of other components, such as the component Coal or carbon, in this way, carbon can very quickly enter the active zone of the Oven.

With reference to the drawings, an embodiment according to the invention - in a schematic manner shown - explained in more detail.

Fig. 1 shows a longitudinal section of an electrical Melting furnace and

F i g. FIG. 2 is a plan view of the furnace according to FIG. 1 with arranged device according to the invention.

In Fig. 1 is a furnace vessel 1 with furnace lining 2 and electrodes 3, which are provided here in a triangular arrangement are shown. Not shown in the drawing are the means of charging the furnace, such as Feed hopper and loading or conveying chutes. In furnace vessel 1 of the melting furnace is below the solid charge or the Möllers 5, a molten bath 4 is shown.

In the furnace vessel 1 is a tube 6, the diameter of which is smaller than that of the furnace vessel 1, with a conveyor or Guide elements 7 provided, rotatably or pivotably arranged. The conveying or guide elements 7 are within of the tube 6 and cause a movement of the load in the direction of the furnace center. In the F i g. 1 and 2, the conveying or guide elements 7 have the shape of segments, but can with regard to the furnace and the load in question, there are also other ways of moving the load Appropriate training for the conveying or guide elements 7 is applied in the direction of the furnace center will. The height and width of the segments essentially determine the displacement of the materials. A relative speed between circle segments which are arranged on one and the same tube 6 are is not given.

In the drawings, the tube 6 is supported on the edge of the furnace by means of brackets 8 and by means of wheels or rollers 9, which are arranged on the arms 8 and can run on an annular roller track 10, movable on the electric melting furnace. The rotating or pivoting movement of the tube 6 can be achieved by application known devices, such as gear drive or hydraulic cylinder, achieved will. In Fig. 2 hydraulic cylinders 11 are shown, which are used to give the ring tube 6 an oscillating To give movement.

In the event that a plurality of coaxially arranged tubes 6 are used in a furnace vessel 1, care must be taken to bear that the horizontal force originating from each tube 6 or from the horizontal force arranged on the tubes 6 Conveyor or guide elements 7 exerted force each below the edge of the towards the center arranged, adjacent pipe acts on the feed.

The device for moving and distributing the charge in the electric melting furnace is shown in here Connection with electric reduction furnace is described, but this is also the case with other furnace types soft a horizontal movement of the load is desired, can be used.

1 sheet of drawings

Claims (4)

Patent claims: 1. Device for moving and distributing the charge within an electric melting furnace, characterized in that inside the furnace vessel (1) of the electric melting furnace at least one tube (6) that can be rotated or pivoted from the outside is inserted in a coaxial arrangement the inside of which conveyor or guide elements (7) are attached. 2. Apparatus according to claim 1, characterized in that the conveyor or Leitelernente (7) in the are arranged in the lower region of the tube (6). 3. Apparatus according to claim 1 or 2, characterized in that the diameter of the liner of the furnace vessel (1) adjacent tube (6) is chosen so that between the tube (6) and the lining an annulus is left. 4. Apparatus according to claim 1, 2 or 3, characterized in that the conveying or guide elements (7) Have segment shape.