DE3201608A1 - Feeder for electric furnaces for charging iron sponge - Google Patents

Abstract

The invention relates to a feeder for electric furnaces, in particular for continuous feeding with iron sponge, lime, limestone, coal or other materials, at least one proportioning bunker (14) being provided which interacts with at least one feeding and transporting line (19) which is in turn connected to an opening in the electric furnace (22), preferably in the cover thereof, this feeding and transporting line (19) interacting with an injector (17) for pressure fluid, and advantageously activators (20) and, if appropriate, proportioners (26) being provided. <IMAGE>

Description

Feeder for electric ovens for feeding

Sponge iron The invention relates to a feeder for electric ovens, especially for continuous charging with sponge iron, lime, Limestone; coal or other used materials, be it in the form of granules or as a powder.

The feeder according to the invention can with the so-called fourth and fifth openings in the ceiling of an electric furnace cooperate or also with other such openings.

One usually uses one to load such electric furnaces different systems. One of them provides for a plurality of belts for feeding to use or to use the height of the roof as a starting base, under the the electric furnace is set up.

This system is very complicated and difficult to develop and also contains many nuances, such as an important preoccupation with time and space, a significant amount of energy and a significant amount of maintenance and maintenance.

Another well-known system, known by the name "Tamsa", sees a feeder with the door of the furnace or with an opposite one Cooperating opening on the wall of the furnace, this feeder stationary or is rotating and can optionally be cooled from the outside.

This system is discontinuous and has significant difficulties by interacting with the open Oven door, which advantageously should be closed.

To top it all off, this system takes up a lot of space in the area of the furnace.

There is also a system known by the name "Contimelt" which has at least one elevator and a plurality of distribution pipes which Let the material to be loaded sink into the oven.

This system, too, has disadvantages, since it is heavily used of volume and space is present, apart from an insufficient distribution of the material.

This system has further disadvantages because it requires a lot of space and volume used and leads to an uneven distribution of the sponge iron. About that In addition, there is an increase in costs when you put a limit on the furnace loading with a sponge iron.

The invention has therefore set itself the task of a feed to create that in a continuous manner or optionally also discontinuously an exact dosage of the quantities to be dispensed, especially sponge iron, is guaranteed.

The solution to this problem has now been found in that at least a dosing hopper is provided, which is provided with at least one supply and transport line cooperates, which in turn is verbuten with an opening in the electric furnace, preferably in its ceiling, this supply and transport line with an injector for Pressing fluid interacts and advantageously activators and possibly dosers are provided.

Another design provides that the dosing bunker minimum can be temporarily put under pressure.

According to another design, the dosing bunker can be left open at the top.

Another design according to the invention is that the supply and transport pipe directly cooperates with the feed opening in the electric furnace is arranged; if necessary, the supply and transport line can be operatively connected stand with a control and control chamber, in front of the connection of the supply line to the opening of the oven.

In some cases it is advantageous to use the supply and transport line turn on at least one activator.

In some cases it is advantageous for the purposes of the invention to use the metering bunker to interact with any dosing device.

In the design according to the invention, the supply line is in the vicinity the inlet opening into the furnace has a cross-sectional enlargement or another Makeshift to increase the speed of the material flow and the pressurized gas flow Reduce.

The compressed gas flow should advantageously not be in the interior of the Furnace are initiated if the fluid is not at least an inert one Gas trades. Another variant gives the possibility of the fed into the furnace Bringing material into a rotational movement. You can get the end part of the pipe like this train that it is able to impose a rotational movement on the exiting material.

The supply line advantageously goes into the interior of the circumference, which thereby forms the electrodes. The materials that are in conflict are fed together, should advantageously follow one another, first Sponge iron, then lime, then limestone, etc., etc. In a dosing bunker, the different materials are passed through and then introduced into the furnace will. The materials can be premixed, or mixed, or can be made as a mix on the go.

With the device according to the invention, the materials can be weighed or dosed and can then continuously or possibly at time intervals the other materials are fed.

Further features of the invention emerge from the following description of an embodiment in connection with the drawing and the claims.

There show, in schematic sketches, Fig. 1 an example of an inventive Device with a dosing bunker, Fig, 2 a device with three dosing bunkers, 3 shows a variant of the device according to FIG. 1 with a bunker open at the top, 4 shows a variant of FIG. 2, FIG. 5 shows the inlet in a simplified representation the supply line and 6 shows a possibility of conical design the supply line.

The same parts or parts with the same functions become, with the same Numbering provided.

In Figure 1, a bunker 10 is shown, which is made of elastic elements 11 is supported and carried by a frame 12. Below the silo 10 is in cooperation with this a dosing hopper 14, with the interposition of a Valve 13, arranged. The dosing bin 14 receives a line 15 through which a pressure medium is supplied which is suitable for the bunker 14 under pressure to set so that it can be loaded with the desired amount of material. Of the In the example shown in FIG. 1, bunker 14 is supported by support legs 18, which are laid down on the ground. At the location of the support legs 18 or within the same Weighing devices can be provided, suitable for weighing or the amount of material to dose, which is present in the bunker 14 or withdrawn from the bunker 14 will.

At the lower end of the bunker 14 a connection line 16 is attached, to which an injector 17 for the pressure fluid is connected. To the connection line 16 connects the supply and transport line 19, in which one or more activators 20 can be switched on. The activators 20 have the task of the extent of the integrate compressed air or other gases inside the pipeline, because they can be switched on at various points along the pipeline and especially in subsidence of the strand, which causes large losses in the feed result.

The activators 20 can be built from two coaxial tubes, one of which precedes the other see is where the difference between the two diameters should be small, creating the annular chamber becomes relatively small between the two pipes. The compressed air, or something else Gas, will flow into this annular chamber; this is only open at the side the direction of flow of the materials to be transported inside the go through the central line; a special shape in the inlet of this tube helps to reduce feed losses in the activator 20.

The supply and transport line 19 in the one shown in FIG Example, provides a control and control chamber 21, which is before entering the opening 23 is provided on the ceiling of the ElektrooSens 22 or on another Part of the furnace.

The opening 23 can be the fourth or fifth opening, as is normally the case are provided in the ceilings of the ovens, but any other openings can also be used Find uses that are attached to other parts of the furnace.

After the solution according to FIG. 1, the material comes out of the storage container 10 in the dosing bunker 14 via the valve 1 At the moment when the desired Amount of material has entered the dosing container 14, the supply is interrupted and the inner chamber of the bunker 14 is pressurized thanks to the line 15. As a result of the pressure present in the inner chamber of the dosing hopper 14, there is a tendency the material to flow to the port 1 ¢, the movement in the supply and transport line 19 is still supported by an injector 17.

The material flowing into the dosing hopper 14 can be weighed periodically thanks to the loading elements or other measuring or metering elements or weighing devices as provided.

These materials can be dosed continuously in which case the Dosing bunker must have a slightly different design and one dimension that possibly intended for a lesser content.

In Figure 2, a battery of storage containers 10 is shown, the interact with suitable dosing bunkers 14, be it also a dosing bunker 14, which is in operative connection with suitable weighing and / or dosing devices 26, which are shown in the example shown as loading elements are.

Each of the dosing bunkers, as shown in Figure 2, works with the help of a dedicated line 119 to the common supply and transport line 19 out, wherein activators 20, as outlined in the example, can be provided.

After the solution, as shown in FIG. 2, any number of storage containers and / or of metering bunkers 14 are provided.

As the solution according to Figure 2 shows, it is not necessary that the Strict 119 are switched on at the base, but they can also be used in any Any portion can be connected to the pipeline 19 before this to the Opening 23 arrives.

In Figures 3 and 4, an open silo is shown, the bunker 114 is in operative connection with the silo 10, with the interposition of a metering valve 13th

These bunkers 114 can be independent or self-contained sen are in a single multiple bunker 114.

Each bunker 114 in the example of Figure 4 can be equipped with a vibrator 27 (see Figure 3) to facilitate the discharge of the material.

The bottom of each bunker 114 in the example shown is the same that as shown in figure.

According to the example of Figure 4, the supply and transport lines go 119 together into line 19.

In the figure 5 an advantageous position is sketched for the entrance the supply and transport line 19 in the ceiling of the furnace 22.

According to this solution, the inlet opening for the line 19 is in the Inside the circumference, which is given by the electrodes 24, provided so that the material is brought into the center of the working zone of these electrodes 24.

The end of the line 19 can widen conically or the diameter change or have a similar shape so as to prevent the material from entering the Favor interior of the electric furnace.

In Figure 6, a widening part of the line 19 is shown, which merges in the end part 24 into a spiral 25 inside.

If necessary, one can also proceed in the same way with the material supply, that the transport fluid does not enter the furnace, but is sucked off in the chamber 21 will.

If the fluid is non-oxidizing, it can, at least partially, enter the oven with.

Various preferred solutions are shown above and have been described, but of course there are modifications within the scope of the technical conditions possible. You change the proportions and dimensions and also one or the other Add, omit or integrate part. One can also make a corresponding development provide the supply and transport Lei'-ung 19 and an interaction of the additional Transport lines 119 with the main line 19 in a corresponding intermediate line.

The dosing bunkers can be used both open and closed find, but you can also use other types of bunkers, be it just them to serve to dose the brought material and to transport it and further add devices for material metering. The bunkers can e.g. cylindrical, rectangular or any other shape.

Claims (7)

Claims 1) Feeder for electric ovens, in particular for continuous loading with sponge iron, lime, limestone, coal or others used materials, be it as granules or as powder, characterized that at least one dosing hopper (14) is provided, which is equipped with at least one feed and transport line (19) interacts, which in turn with an opening in the electric furnace (22) is connected, preferably in the meantime ceiling, this supply and transport line (19) cooperates with an Inåektor (17) for press fluid and advantageously Activators (20) and possibly dispensers (26) are provided. 2) Device according to claim 1, characterized in that the dosing hopper (14) can be put under pressure at least temporarily. 3) Device according to claim 1, characterized in that the dosing hopper (14) are open at the top. 4) Device according to claim 1 and one or the following claims to claim 3, characterized in that the supply and transport line (19) interacts directly with the feed opening t24) arranged in the electric furnace (22) is. 5) Device according to claim 1 and claim 2 or 3, characterized in that that the supply and transport line (19) in operative connection with a control and control chamber (21) is before the connection of the supply line in the opening (24) of the furnace (22) takes place. 6) Device according to claim 1 and one or other of the following Claims, characterized in that in the supply and transport line (19) at least one activator (20) is switched on. 7) Device according to claim 1 and one or more of the following Claims, characterized in that the metering bunker (14) with any metering devices (26) work together.