DE1758842C3 - Loading device, in particular for closed electric furnaces - Google Patents

Description

The invention relates to a charging device for gas-tight electric furnaces which are provided with electrodes are, with a distributor filled via a transport device, with several connected to it, Feed pipes assigned to each electrode as well as with controlling Möller level indicators.

In the known charging devices of this type, the charging material slips into the bunkers and the feed pipes that are connected to these and open into the electric furnace. the Bunkers are usually fed by the buckets of an overhead conveyor or by conveyor belts. Because Due to the irregular consumption of the loading material, it is difficult to automate the loading process expensive. In order to save operating personnel, it must nevertheless be aimed for. Another disadvantage of these charging devices is that the many transfer points at the bunkers are not gas-tight and the escaping gas endangers the operating personnel.

An attempt was made to circumvent these disadvantages by using electrodes arranged in a triangle in the case of electric furnaces has only one bunker arranged centrally between the electrodes (DE-AS 11 26 626), all of which Feed pipes go out. In doing so, however, in particular those in the outer, the center distant area of the electric furnace leading Beschikkungsrohrc are strongly kinked, so that in them jams can easily arise. If you want to reduce these brands Ahkmckiingen, so muli the whole

Kiln system can be built higher. Because the circular bottom plate of the bunker because of the bunker surrounding electrodes must be relatively small, only a limited number of charging tubes can be connected. In the event of irregularities in the feed of the Möllers caused by stoppages must arise at the pipe bends, exists - especially because of the relatively low Number of loading rotors - the Gefaur that Different lateral pressures act on the brittle, self-baking electrodes and these break.

Other known proposals relate to loading devices for shaft furnaces (DE-PS 7 38 584 i-nd DE-AS 10 35 367), in which the Möller with the help an angled pipe rotatable about a vertical axis or a distribution chute in circular Fill is introduced. In the case of shaft furnaces, however, there is no problem with the Möller in the furnace chamber to distribute located electrodes, so that these proposals no suggestions for the design a loading device of the type mentioned above can be found.

The invention is based on the object of avoiding the above-mentioned disadvantages and a to create reliable, automatic loading equipment that distributes evenly of the Möllers around the electrodes, so that electrode breaks as a result of higher stress on one side Jo be avoided. The invention consists in that

a) the electrode from straight, vertically downwards, in the upper part to a bunker is surrounded by widening feed pipes and the bunkers are arranged adjacent to one another,

b) a ring connected to a rotary drive is provided above the bunkers, the feed hopper wearing,

c) between the feed hoppers and a stationary, annular cover and cup seals are arranged between the feed hoppers and the bunkers,

d) an inlet nozzle with conveyor belt and shut-off air curtain is fixed in the cover and

e) Level indicators and switches that control the bunkers and feed hoppers are provided are.

According to an advantageous embodiment of the invention, the number of feed hoppers corresponds to Number of bunkers.

In the drawing is an embodiment of the Subject of the invention shown in simplified form, namely shows

1 shows a vertical section through the upper part of a loading device assigned to an electrode,

FIG. 2 shows a section along the line II-II in FIG.
Fig. 3 is a section along the line HI-III in Fig. I.

To bo the electrode 1 of one of the three electrodes of an electric furnace, not shown, are arranged six bunker 2 ancinandergrenzerid to which, as shown in F i g. I can be seen, in each case a feed pipe 3 is connected in the feed pipe.

hi The bunkers 2 are supported by brackets 4 attached to them on U-beams b connected to the girders 5 of the bunker platform. I Jabove the bunkers 2 is a six Bcsi / hii'kiingstni'hier 7 comprehensive, sivh about

a plurality of wheels 8 rotatably arranged on a circular rail 9 supporting ring 10, whose Driven by one of a gear mechanism 11 and a motor 12 existing rotary drive takes place.

Above the ring 10 there is an inlet connection 13 and an annular cover 14, which is in the area of the inlet connection 13, as shown in FIG. 2 recognizable, is interrupted. In the upper opening of the inlet connection 13, protrudes into the pin conveyor belt 15, an air curtain 16 is arranged, which prevents the Prevents furnace gases. The same purpose is served by circular ones at the top and bottom of the Ring 10 cup seals 17 each arranged on the inside and outside.

The feed hoppers 7 are each provided at their lower end with a cone lock 18, the is held in the closed position via a rod 19 by means of a spring 20. For opening the cone lock 18 moves a plunger 21 of an adjusting device which is fixedly arranged above the annular cover 14 22 against the restoring force of the spring 20, the rod 19 with the cone of the cone lock. 18 after below. An adjusting device 22 is assigned to each of the six charging hoppers 7. To the passage of the Punches 21 are in the annular cover 14 or in the inlet connection 13 with gland seals provided bores 23 are arranged.

At the bunkers 2 are pholoelectrically acting Maximum and minimum level indicators 24, 25 provided. The minimum level indicators 25 control the Loading through the loading hopper 7, while the maximum level indicator 24 is a faulty one Prevent overfilling of bunker 2. In the same way, 7 maximum and 7 maximum and Minimum level indicators 26, 27 are provided. On the J5 outer circumference of the ring 10 is each in the middle Feed hopper 7, an electromagnet 28 is arranged, while in the plane of symmetry of the inlet connection 13 a magnetic switch 29 is provided which, when the ring 10 is at a standstill, one of the electromagnets 28 opposite. The rotary drive of the ring 10 is switched on by the minimum level indicator 27 and by the magnet switch actuated by the energized electromagnet 28 of the empty feed hopper 7 29, which simultaneously turns on the conveyor belt 15, turned off. A snap-in, not shown and locking device ensures that the feed hopper 7 is centered over the at standstill Bunkers 2 are fixed.

In Fig.3 are the bunkers? as well as the Loading hopper 7 is shown in an empty state. It can be seen from the right half of the illustration, like the bunker 2, and from the left half, like the charging hoppers 7 adjoin one another.

The automatic loading takes place as described below. The load 30 slides into the Bunkers 2 according to the consumption in the electric furnace due to gravity. Is it in one of the bunkers 2 has fallen below the height of the minimum level indicator 25, causes an emanating from this Impulse actuation of the cone lock 18 de «. currently assigned, full feed hopper 7. Immediately after completion of the emptying process and the subsequent closing of the cone lock 18 causes the minimum level indicator 27 to switch on the rotary drive of the ring 10 as well the excitation of the associated electromagnet 28, which when the empty feed hopper 7 arrives the inlet port 13 via the magnetic switch 29 the Rotary drive switches off again and at the same time the conveyor belt 15 switches on, which in turn after the end Filling process from a pulse from the Maximai riII level indicator 26 is stopped.

At the same time, the excitation current in the electromagnet 28 interrupted.

This completes the chain of the automatically successive processes of automatic loading.

The sequence of processes is usually repeated after a time interval from another bunker 2 outgoing. Should its minimum level indicator 25 already before the completion of the loading sequence described give an impulse, it is saved. In the event that the locking under the inlet port 13 The feed hopper 7 has just been emptied, the rotary drive remains switched off.

Another switching sequence of the automatic covering is of course possible. For example, the minimum level indicator can be used instead of the pulses 25 which the minimum level indicator 27 are stored.

The bunkers 2 are designed so that the feed stock in them is at least for two Hours is enough. In this line, any minor malfunctions can already be resolved without the operation of the electric furnace must be stopped.

For this purpose 2 sheets of drawings

Claims (2)

Patent claims: 1. Charging device for gas-tight electric furnaces, which are provided with electrodes, with a Distributor filled via a transport device, with several connected to it, each one Feed pipes assigned to the electrode as well as with controlling Möller level indicators, thereby gex indicates that a) the electrode (1) from straight, vertically pointing downwards, in the upper part to one Bunker (2) widening feed pipes (3) is surrounded and the bunker (2) adjoining one another are arranged b) a ring (10) connected to a rotary drive (11, 12) is provided above the bunkers (2), the feed hopper (7) carries, c) between the feed hoppers (7) and a stationary, annular cover (14) and between the feed hoppers (7) and the bunkers (2) cup seals (17) are arranged, d) in the cover (14) an inlet connection (13) with conveyor belt (15) and shut-off air curtain (16) is fixed and e) fill level indicators (24, 25, 26 and) controlling the bunkers (2) and feed hoppers (7) 27) and switch (29) are provided. 2. Loading device according to claim I, characterized in that the number of loading hoppers (7 ) corresponds to the number of bunkers (2).