DE1508092C - Block pressed from scrap metal for loading round electric furnaces - Google Patents

Description

1 2

The invention relates to a fixed from scrap or me- quarters to one eighth of the block diameter

tall waste pressed block for charging of add and the cross-sectional shape z. B. trapezoid

round electric oven. shaped, square, rectangular or semicircular

A known press device for molding to form.

Scrap blocks consists essentially of a 5 The main feature of the pressing device for Forhohlzylindischen press or die housing and men of the metal scrap block according to the invention is a pressing tool, whereby the on the device the arrangement of a plurality of; raised embossing made scrap blocks are solid and afford on the inner surface of the press housing to have a cylindrical shape. A normal, general formation of the grooves of the block. By means of such a common electric furnace, which consists of a pressing device, it is possible to form a new metal, hollow cylinder-shaped furnace housing and an additional scrap block according to the invention.
number of electrodes that are in the furnace housing an An embodiment of the invention will be brought to so that the melting is explained in more detail by a hand of drawings .. It shows
Bringing the electrodes into contact with the top Fig. 1 is a perspective view of the metal ends of the blocks being set in motion. From this 15 scrap blocks,

The reason is during the melting process of FIG. 2 a plan view of a pressing device block in the electric furnace which is relatively easy to form the block with the block middle part running in vertical section and provided pressing tools and press housings in the axial direction.
melted rapidly, while the outer circumferential Fig. 3 is a plan view of the press housing,
part of the block tends to be unmelted in hollow ao F i g. Figure 4 is a view of the surface of the press mill to remain cylindrical in shape. To get the melting tool from below,

Completing the process has complicated figs. Fig. 5 is a partial plan view of another and prone method of entering the practice embodiment of the press housing;
found. Here, the unmelted part is shown in FIG. 6, a partial plan view of another gas cutting device or the like
cut. These pieces then fall into the in the. F i g. 7 is a schematic representation of the molten metal located in the melting tank, where- process in an electric furnace,
is continued by the melting process. Since the metal scrap block 1 according to FIG. 1 this cutting work close to the highly heated furnace is inherently solid and essentially cylindrical and consists of being carried out, it is very dangerous for the workers pressed and shaped in this way iron. Furthermore, this cutting process means falling off. Its outer circumference is associated with four grooves 2, which is a considerable waste of work and requires a cross-sectional shape similar to that of a trapezoid, in addition, a great need for oxygen. is formed. There are clearances between the grooves 2. Furthermore, the same size was maintained for conventional ovens. Furthermore, they run beaten to use more electrodes and to arrange these 35 parallel to each other from one end of the block 3 to in positions that correspond to the unmelted to the other end of the block 4 in the direction of the Preßvor-parts of the block and their areas went. Sweep over the depth of the grooves 2 in the radial direction. However, it is difficult not only in terms of the construction, which corresponds to about a fifth of the diameter of the structure, but also for the safety of Block 1.

the furnace walls undesirable, multi-rod elec- 40 The block 1 is to be arranged in its entirety as close as possible to the inner wall of the effectively and economically opened furnace in an electric furnace. In addition, it is extremely uneconomical in terms of power consumption, as the following description reveals. According to FIG. 7 is the block 1 in an electrode to increase the number of electrodes. TroofenP inserted with the end 3 pointing upwards The invention is based on the object of scrap 45 (Fig. 1). The electrode rods E are introduced from above into blocks for further processing in electric furnaces to the furnace, the lower ends of which create the electrodes that are effectively and economically lowered onto the upper end 3 of the block 1 without the need for additional cutting work. By turning on the required can be melted. This task is set in motion according to the invention by 50 zeß, in the course of which the central part of the block of round electric furnace, which extends in the axial direction into a pressed metal scrap block for charging, begins to melt first of approximately the same. In the process, the diameter collects like the furnace crucible, which, through molten material at the bottom of the melting tank, forms an essentially cylindrical shape with a furnace housing. The axially central part of the plurality of parallel to one another in the pressing direction 55 blocks is characterized in the direction of the extension of the electrode block extending grooves, trodenal rods. The melting process progresses slowly from one end to the other over the outward, to eventually extend into the area of the outer periphery of the block. To get the pressed grooves 2, whereby the outer circumferential blocks according to the invention are effectively and economically melted at the melting part of the block, which until then in an unmelted process in an electric furnace tended to remain in its entirety in a very hollow cylinder shape is cut into four pieces C on the grooves 2. Dardic arrangement of the mentioned grooves attributed to slipping the piecesC under the influence of their is. Dead weight in the number, depth and cross-sectional shape of the grooves located at the bottom are melted material down where they are naturally formed so that they are all melted the transfer of the block 05 way,
from the pressing device into the electric furnace and the As mentioned above, ingots are favored after the melting process. In particular, it is naturally and completely internally expedient to melt the groove depth to an amount of half the electric furnace, being at all

3 4

no part remains unmelted the blocks worn compared to traditional gear. To this end are the lower ones Blocks a particularly effective implementation of the ends of the ram 22 of the. Oil pressure cylinder 21 Melting process and a considerable saving attached to a support ring 23 on which the oil-electric Drive power for the electric furnace. 5 pressure cylinder 24 for the point press die 20

The fact that the depth of the grooves 2 of the tikal are attached. The Punktpreßstempel 20 each Block within a range of approximately one cylinder 24 can slide the support ring 23 through a quarter penetrate up to an eighth of the block diameter so that it lies back and forth in the ring, is advantageous. If the groove depth can be moved out to sem, low, this makes it more difficult to divide the un- io The support ring 23 has four on its surface fused block parts, whereby the effective, legs 25 are provided, which protrude upwards from one another at equal intervals from economic and complete melting of the blocks. The top of each is prevented. If the groove depth is too great, the legs are attached to a ram 22. Zwi blocks too fragile, making their handling see the legs there are grooves 26 that are cover the possibilities when removing from the press front 15 with corresponding grooves in the support ring 23, direction and during transport. These grooves are designed in such a way that they

Subsequently, a pressing device for the molding 7 of the press housing will grip around when the press

The process is described in more detail. Relative to the housing and

The pressing device according to the invention consists of the pressing tools, the support ring 23 is so designed essentially consists of a press housing and press ao that its outer diameter is just that large tools. The press housing 5 (Figs. 2 and 3), des- is that it was still inserted into the press housing 5 one end is completely open, is made of steel, is the can. The diameter of the press disk is also essentially cylindrical and carries on its just so large that it can be inserted into the press housing inner surface 6 is four welded protruding bar without touching an embossing bar 7. Embossing strips 7 made of steel, which are at the same distance 25 on the mounting base 27 are two parallel guides attached to each other in the pressing direction of the housing rails 28, which in the direction of the sub-opening 8 go through to the bottom 9. Number, protruding radial side of the pressing device. The press housing The height and cross-sectional shape of the embossing strips 7 is slidable on the stand alone determined from the point of view that the strengthens that two guides 29 on the underside of the Pressing process, the loosening of the block from the press 30 press housing are arranged, which the rails housing and the melting process as effectively as possible 28 include. . can be carried out. The height of the embossing In operation, the scrap iron is in the pressure bars is in particular about a fifth of the housing 5 is filled. Then the case is in Inside diameter of the above example he moves his pressing position. Then the press mentioned Press housing. However, it is generally 35 disk 11 and the support ring 23 in the press housing 5 expedient to lower the effective range of altitude by adding a hydraulic fluid dimension of the embossing strips to a quarter until one is let into the oil pressure cylinder 12, 21. Here-eighth of the inside diameter of the housing. at the pressing process is completed. After that, will The cross-sectional shape of the embossing strips is trapezoidal - initially the press disk 11 in its starting position Hch, however, can be any other cross-sectional shape such as 40 withdrawn in which the motor 17 is clipped. B. a square, rectangular or semicircle is tet so that the press disc is easily rotated, shaped can be used. The pressing process is then carried out in the same way

The pressing tools and are then repeated several times. On the other hand, everyone will with devices connected to them, the point press ram 20 is extended and written back again. Although pressing tools are drawn according to the invention. This becomes multiple in the same way dung in a well known manner or repeated with certain times by adding a hydraulic fluid Changes in the future within the scope of the invention will be introduced into the oil pressure cylinder 24. As a result can be applied, the present here of this series of pressing processes is going to each scrap embodiments of pressing tools mixed with a piece and in a completely compact Number of plungers that are pressed through the hydraulic fluid 50 form

keitsylinder, such as B. Oil pressure or hydraulic After completion of the pressing process, the pressing

Cylinder, are moved and the upper press housing 5 is moved outward, and a block is so

surface with a concavo-convex part containing, taken as it is shaped. That way

rotatable press disk are provided. The block produced is as described and in Fig. 1

According to FIGS. 2, 4 and 5, oil pressure cylinders 12 55 are shown, cylindrical and with four grooves 2 on their

for lifting the rotatably mounted press disk 11 provided Nem outer circumference. Since every piece of scrap

mixed up in a vertical orientation by a carrier 10 and completely compressed

a gate-like frame F held. The lower one is it is easy to move the block or to

Ends of the plunger 13 of the pressure cylinder 12 are transported.

attached to a support block 14. The above 60 The fact that in the pressing device the height Part 15 of the press disk 11 is cross-shaped; of the embossing strips about a quarter to an eighth of the the shaft 16 attached to the press disk is rotatable inside diameter of the press housing is for stored in a bar and attached hanging. The engine 17 which, making special blocks desirable, to rotate the press disk is on the support block. If the height is too great, so will 14 attached. The rotation of the motor is based on blocks that are disadvantageously easy to break Press disk 11 is adjusted by a with the motor shaft; they also provide during pre-press bonding Pinion 18 and one with the head of the press gear represent an obstacle. When the height of the embossing disk connected large gear 19 transmitted. production is too low, so production is such

Blocks are impossible that are to be completely melted as effectively as economically.

According to the type and material properties of the metal scrap to be processed or because of the construction of the spinning tools or perhaps for other reasons, circumstances may arise in which the aforementioned embossing strips are removed and replaced by other strips should be whose height and cross-sectional shape differ from the mentioned embossing strips. To this to be able to take into account, a press housing is proposed which is detachably connected to the embossing strips is. In Fig. 5, some or more projections 30 are shown adjacent to one another, which as Support means are arranged on both sides of the position in which an embossing bar is to be inserted is. If an embossing bar 7 α has been attached with its base between the projections, so a movement of the embossing bar in · the circumferential direction prevented by the proppants. There is no disturbance whatsoever during the filling of the scrap and not even during the pressing process, although the same result is achieved as this above has been described. In the present case, it is advantageous to use the inner surface 6 of the press housing taper slightly towards its bottom 9 by creating a slight angle of inclination will. As proppants, other means, such as. B. Screws to attach the embossing strips on Press housing can be used.

It is also possible to obtain without such support means the same object as in the preceding examples, with a Preßgehäuse, 'which includes a fitting in a predetermined position on the inner wall 6 of the Preßgehäuses embossing bar la, as shown in Fig. 6 . In such a press housing, it is necessary that the housing inner surface 6 is designed to be inclined, as mentioned above.

In the case of the press housing with the detachable or adjacent embossing strips, it is possible to make them from one to choose another material, for example wood, which is at a lower temperature than the The melting point of the scrap metal burns. When the blocks are then removed from the press housing after they have been formed, it is evident that that the embossing bar 7 α is lifted out of wood together with the block with the embossing bar is clamped together. The wooden embossing bar can be detached from the block and used again. The block can, however, also after being removed from the press housing together with the sticking wood into the electric furnace and melted together with the wood, which then burns in the melt.

Claims (2)

Patent claims: 1. Block pressed from metal waste for charging round electric furnaces, marked by a substantially cylindrical shape of approximately the same diameter like the furnace crucible with a plurality of parallel to each other in the pressing direction of the block (1) running grooves (2), which extend from one (3) to the other end (4) over the outer circumference of the block (1) extend. 2. Block according to claim 1, characterized in that the depth of the grooves (2) is approximately one Quarter to one eighth of the block diameter 1 sheet of drawings