DE1128581B - Power operated holding and feeding device for furnace electrodes - Google Patents

Description

Power-operated holding and feeding device for furnace electrodes Die The invention relates to a power-operated holding and feeding device for furnace electrodes in electric smelting, smelting and refining furnaces.

Electric smelting, smelting and refining furnaces use im Operate one or more electrodes that are suspended above the furnace and protrude vertically into it. These electrodes are continuously related to the The load in the oven is adjusted to keep the power supply within narrow limits to regulate. Usually, a plurality of electrodes are used, and these are often quite large, about 75 cm or more in diameter and length up to 3 m or more. Such electrodes are of two known types, namely preformed and self-burned electrodes. The preformed electrodes can be made of carbon or Consist of graphite. The preformed carbon or graphite electrodes are harder and generally have a diameter tolerance of up to -2%, which in use a power-operated version additional difficulties arise, which by the version described below can be overcome. The application of several weaker electrodes and their individual holding and adjustment devices Subject to space restrictions above the furnace, so that a simplified compacted The form of an electrode holder for heavy electrodes is highly advantageous is.

There are already holding devices known by a pressing device have clamping shoes that can be pressed against the electrode with a pressure medium drive. The pressure medium drive is made by hydraulic cylinders with a circular Cross-section supplied, which are diametrically opposed to each other with respect to the electrode. This arrangement has a considerable amount of space in the radial direction, what for the furnace design is often very disadvantageous. According to the invention, this is radial The space requirement is significantly reduced by the pressure medium drive through the electrode surrounding cylinder of annular cross-section with reciprocating annular piston therein will. Such a cylinder charges less in the radial direction over the electrode surface or via the electrode holder. In addition, the drive enables the pressing device through a single cylinder coaxial with the electrode a uniform Force distribution on the clamping jaws. If these are also used for power supply, the even pressure on the jaws also makes the Contact resistances and thus the current distribution as well as the heating at the transition points.

This invention and other inventive concepts emerge from the following Description in conjunction with the drawings. In the latter, Fig. Figure 1 is a side view of the electrode, power socket, and actuation mechanism for this; Figure 2 is a cross-section on line II-11 of Figure 1; Fig.3 is a cross section through the actuating cylinder of the socket along the line III-III of Fig. 2; Figure 4 is a cross section through the device along the line IV-IV of Fig. 1 and represents the type of suspension of the power-operated socket on the actuating cylinder dar; Fig. 5 is a cross-section through the device along the line V-V of Fig. 1 and shows the attachment of the contact shoes and the pressure ring for this; Figure 6 is a larger side view of the mechanism as seen from the line VI-VI in Fig. 1, and represents the manner of supplying electrical current to the contact shoes and of cooling water for them.

Reference is now made in detail to the drawing.

1 denotes the device as a whole, consisting of a cylinder 2 actuated by hydraulic fluid, supported by some kind of suspension such as the rope egg 3, clamping jaws or shoes 4, which are arranged on opposite sides of an electrode 5 and on the cylinder by means of downwardly leading pipes 6 are suspended, while the jaws or shoes with the electrode: are held in contact by a pressure ring 7 suspended on the cylinder piston by means of actuating rods 8. According to FIGS. 1 and 3 of the drawing, the cylinder 1 consists of an essentially circular head part 9, a bottom part 10 and separated from one another by a space; with the 'parts 9 and 10 connected side walls11-urid @ 12.-This cylinder can be assembled from parts. or be cast; in the drawing the assembled construction is shown. The top and bottom parts 9 and 10 of the cylinder can be designed as a sheet metal construction; an annular part 13 and 14 is welded to each or fastened by other suitable means, and the outer cylinder wall 11 abuts against the parts 13 and 14, on which they are also in a suitable manner, e.g. B. is attached by welding. Inner wall 12 is attached similarly. Within the cylinder, between the side walls 11 and 12, there is a mating piston 15 which is fitted with any suitable seal, e.g. B. the known sealing rings 16 and 17 is provided. In order to create a connection between the side walls of the cylinder and its top and bottom parts that is tight against the liquid pressure; can be any suitable seal, such as. B. the sealing rings 18 and 19 shown can be used. The piston 15 is actuated by means of liquid pressure which can be supplied through inlets 20 and 21 attached to the head part 9 and the bottom part 10, respectively. Since the cylinder can be operated in any direction, the inlets 20 and 21 also serve as pressure outlets for the corresponding sides of the piston 15: Actuating rods 8 are attached in any way in the piston 15, e.g. B. by a screw connection 22; they move freely through the ring 14 and the bottom part 10. A suitable packing 23 surrounds the actuating rods 8 on the lower end face of the part 10; as shown. As clearly shown in Fig. 2, these operating rods 8 are preferably four in number. The head part 9 and the bottom part 10 of the cylinder can be connected to one another by any means, e.g. By means of the rods 24 penetrating the parts and held in place by nuts 25. The cylinder is suspended above the furnace by suitable means, e.g. B. by means of the ropes 3, which pass through the tabs 26 of the head part 9 and are fixed there by suitable means, such as the nuts 27. The electrode 5 is attached within the cylinder inner wall 12 at a distance therefrom.

As shown in FIGURES 1 through 4, the clamping jaws 4 are suspended from the bottom of the cylinder by means of the downward-leading pipe 6 through a suitable connection or console 28; this can be a part with a rectangular cross section, as shown, which is fastened to the underside of the cylinder base part 10 by fastening means 29 and contains slots 30 with transverse openings 31 lying in the vertical direction. The depending tubes 6 are preferably hollow except for a full end part 32 which protrudes into the slots 30 and in which they have a suitable opening through which a pin 30 located in the transverse opening 31 protrudes in order to connect the tube to the bracket 28. The lower ends of the tubes 6 are connected to the jaws 4 by any suitable means, e.g. B. the screw connection 34. The clamping jaw 4 consists of a head part 35 and a part 36 depending therefrom with a substantially vertical concave inner surface 37, which corresponds to the diameter of the electrode 5, and a wedge-shaped outer surface 38 against which the pressure ring 7 rests. The shoe 4 has an inner cavity 39 through which cooling water flows from the downwardly leading pipes 6; There are two such pipes for each shoe, one of which is responsible for the water supply and the other for the water drainage.

The pressure ring 7 is suspended from the piston 15 by means of the actuating rods 8. The pressure ring is a hollow cylindrical part with a cylindrical outer surface 40 and a conical inner surface 41, which corresponds to the wedge-shaped outer surface 38 of the clamping jaws 4. -In the interior, the pressure ring has a cavity 42. At least two of the actuating rods 8 are preferably hollow and with water inlets 43 and Provided water outlets 44 to the corresponding water supply and drainage lines 45 and 46 are connected. The water flows through the cavity 42 of the ring 7 to effect water cooling as required. As shown in FIG. 5 of the drawing, the clamping shoes 4 are provided with recesses 47 on the outer circumference of their head part 35 , which create space for the actuating rods 8. The electrode 5 is supplied with electrical energy through the clamping shoes 4 via the downwardly leading pipes 6 by means of a clamp 48 to which the cables 49 and 50 are connected. The clamp 48 can be of conventional two-part construction and have notches with which it surrounds the tubes 6; it can be clamped together by any suitable means, such as bolts 51. The cables 49 and 50 for the power supply can be of a known type with a central tube which supplies the electrical power to the clamp and an outer tube which is eccentric thereto and which is connected to the tubes 6 leading downwards. Water flowing through the outer parts of the pipes 49 and 50 is fed to the pipes 6 and discharged from them by means of the connections 60 connected to sleeves.

The operation of the device will now be described. She is common suspended above the furnace by means of the ropes 3, which extend upwards to a control device, not shown, which the socket and the electrode decreases to the extent that this is consumed in order to increase the power supply to the furnace rules. When a sufficient part of the electrode protruding from the socket is consumed the power clamp is released and the electrode is passed through the clamp lowered the required length, whereupon the clamp is again attached to the electrode is created. While changing the relative position between the electrode and the clamp is connected to a suitable device (not shown) with the upper End of the electrode connected to carry this while the clamp is off the electrode is released and is moved into a new clamping position on the electrode. The loosening and reattachment of the force clamp with respect to the electrode is quick; in the case of a continuously operating furnace, the preferred mode of operation would be that first the electrode is held independently in the working position, such as mentioned above, then the power clamp from the electrode solved and by means of the ropes 3 the clamp opposite the electrode upwards into the new clamping position is moved.

In the arrangement of Figures 1 and 3 of the drawings and assuming that the electrode is carried by the clamp, a fluid pressure supplied under the piston 15 of the cylinder 1 through the inlet 21 applies an upward force by means of the actuating rods 8 the pressure ring 7 to keep the shoes 4 in good electrical contact with the electrode and to exert sufficient pressure on them so that they remain in a fixed position relative to the shoes. When it is desired to move the clamp relative to the electrode, the electrode 5 is first temporarily supported or suspended by holding means (not shown); thereupon the fluid pressure in the cylinder below the piston 15 is released, and fluid pressure above the piston 15 is supplied through the inlet 20 to move the piston downwards, thereby driving the actuating rods 8 and the pressure ring 7 with it. When the wedge surface 41 of the pressure ring moves downward, it releases from the shoes 4 and allows them to swing freely away from the electrode. For this purpose, the hanging tubes 6 have a limited pivotability about their support pins 33. Fluid pressure is then re-admitted into the cylinder below the piston 15 and discharged from the cylinder above the piston 15 to move the piston, the actuating rods and the pressure ring 7 upwards with respect to the shoes 4 and the shoes inwards against the electrode to press, so that the necessary electrical contact and the mechanical load-bearing force between the shoes and the electrode is produced. The temporary support from the electrode is then released and the downward advance of the electrode is continued by means of the cables 3.

The force clamp considered here is used with electrodes that have considerable length in relation to their diameter, and the electrode diameter is up to 75 cm and more. These electrodes are therefore quite heavy and in the preformed design quite rigid. It must therefore be used both to produce good electrical Contact as well as to create physical support from the jaws or - considerable pressure is exerted on the electrode. As before specified, the electrodes have a customary tolerance of up to -f- 2% in diameter, so that the amount of pressure that is required to be physical by means of the clamp shoes Bringing hold and electrical contact, from electrode to electrode from the same Trade diameter and can change at points offset along the electrode. Since the cylinder and the piston enclosed in it hold the electrode in a certain Surrounding dimensional ratio, the pressure area of the piston in the cylinder increases when the The diameter of the electrode increases. There is therefore always adequate pressure available to the required interaction of the pressure ring and the clamping shoes to ensure the desired electrical contact and physical support the electrode.

The power clamp can either be used in conjunction with the top closed or with open-top ovens, depending on the particular operations, to be carried out in the oven. If the clamp is closed on an oven Ceiling is used, it is common with water cooling of the live parts adequately protected from the heat of the oven. If it is, however, with an open top Oven is used, so it is usually desirable to have other parts or the whole Cool clamp with water. As shown in Fig.1 and 6 of the drawing, both the clamping shoes and the pressure ring by a continuous stream of water cooled by the pipes 6 leading downwards and the support rods 8. In the case of severe Working conditions may also appear to be desirable, the cylinder 2 with water to cool. This can be done in a variety of ways (not shown in the drawing) happen. A useful implementation would be that the outer side wall 11 and the cylinder base 10 are surrounded by a hollow jacket through which a available coolant, such as water, is continuously circulated.

The foregoing is a preferred embodiment of the invention described; those skilled in the art will recognize many possible modifications to the one particularly illustrated Recognize construction. The execution details particularly described are therefore only intended for explanation and have no restrictive meaning as far as they are not necessary for the fulfillment of the purpose of the invention.

Claims (3)

PATENT CLAIMS: 1. Power-operated holding and feeding device for furnace electrodes with by a pressing device with pressure medium drive to the Electrode pressable clamping shoes, characterized in that the pressure medium drive the pressing device by a ring-shaped cross-section surrounding the electrode Cylinder is produced with reciprocating annular piston therein. 2. Apparatus according to claim 1, characterized in that the clamping jaws are hollow and suspended from the annular cylinder in a manner known per se by means of tubes through which a coolant is supplied to their cavity. 3. Device according to Claim 2, characterized in that the coolant pipes also act as power lines designed for the clamping jaws serving as power connections in a manner known per se are. Documents considered: German Patent No. 827,382; Swiss U.S. Patent No. 244184; USA: Patent No. 2,297,484.