DE1127517B - Electrode holder - Google Patents

Description

Electrode holder The invention relates to a holder for continuously burning furnace electrodes with one over the electrode material stretching coat.

In melting furnaces, each electrode is usually provided with a holder, through which electrical current is introduced to the electrode and which also serves to to automatically raise or lower the electrode with its socket, which is caused by a winch, a hydraulic pressure cylinder or the like depending on the change in current value takes place in order to obtain an essentially <constant energy output in the furnace. Furthermore, there is the lower and effective end of each electrode during the normal melting process is gradually consumed, it is to compensate for this consumption and to make it possible lowering the lower end of the electrode to a predetermined minimum distance common for furnace firing, the electrode by welding an additional To extend the jacket attachment and by tamping in additional electrode material, whereby the electrode in. The holder and / or the holder along the electrode can slide upwards. To such a controlled relative movement between the bracket and to enable the electrode, it is known to place a drum one above the Electrode attached winch to wind a steel band, which after each additional Welding a. Coat attachment on or on the outer surface of this attachment is welded on. Therefore the electrode is carried by the winch by means of the tape, so that either the electrode is lowered by unwinding the tape from the drum and / or the holder can be lifted upwards along the jacket.

In contrast, the object of the invention is to provide an improved holder for creating electrodes that can be used quickly and easily even from a remote position is to be operated in order to be able to grasp or let go of the electrode at will. To Another goal is the relative movement between the holder and the electrode be easily controllable. Also a reduction in wear or Damage to the holder or electrode guaranteed as a result of the relative movement be.

According to the invention, a holder is provided to solve this problem, which is characterized by a system of freely movable radially to the electrode jacket and electromagnetic pole pieces and mounted on the furnace in a ring around the jacket by at least one system from inside the electrode jacket in the area of one counter plates provided for each pole shoe system, which when the magnetic pole shoes are excited with these under the influence of the magnetic effect with the electrode jacket lying in between get in touch and hold him tight.

The holder can consist of two superimposed groups of electromagnets with opposing counter plates, with one group on the furnace stored and the other also longitudinally displaceable with respect to the jacket and relative is movable to the first group. Preferably there is each group of electromagnets from a single toroidal coil enclosed in a non-magnetic housing is, and from a number of U-shaped pole pieces, which the housing with their radially include inwardly facing legs at a distance from each other.

A holder of the invention designed in this way is simple and easy to actuate, in particular a precise regulation of the relative movements one electrode. The electrode movement can be electromagnetic in this case Bracket can also be done from a remote location, which also makes a better one monitoring of the electrodes of one or more melting furnaces is made possible. aside from that this holder interferes with the elongation of the continuously burning electrodes no longer.

In addition, the individual magnets can easily be connected to battery or other low-voltage circuits in order to reduce the risk of the electrodes slipping through in the event of a power failure, as such a power source can also be provided in order to automatically operate in the event of failure of the main circuit to kick. The drawing shows exemplary embodiments of holders according to the invention. It shows FIG. 1 a view of the upper end of a continuously burning electrode in its holder, FIG. 2 a cross section along the line 11-II of FIG. 1, in an enlarged view, FIG. 3 shows a cross section along the line III-III according to FIG. 2, FIG. 4 shows a view similar to FIG. 1 of a modified holder, FIG. 5 shows a cross section along the line VV of FIG Fig. 4; in an enlarged view; and FIG. 6 shows a cross section along the line VI-VI in FIG. 5.

In. In the drawings, 1 is the top of a cylindrical shell a continuously burning electrode, which is supported by a holder during operation 2 is detected. The holder is supported on a perforated platform 3. The platform is supported by rams 4 of hydraulic pressure cylinders, which under the platform and the detected electrode under the control of a known mechanism automatically depending on a change in the electrical power fed to the electrode Increase or decrease the current so as to produce a substantially constant energy output within the furnace. It is clear that these pressure cylinders also go through other suitable organs for raising and lowering the platform can be replaced: A ring or the like is preferably around the outer surface of the electrode jacket (not shown) for the power connection of the electrode. The ring is like that on the Suspended underside of the platform that it moves with the platform.

The holder 2 according to FIGS. 1 to 3 consists of two annular and superposed groups 5 and 6 of electromagnets. These groups are; around the jacket 1 over the electrode material pulverized inside the jacket arranged. The lower group of magnets 5 is on the platform 3 around the opening which protrudes from the jackets, and the upper magnet group 6 is at a distance above the lower Group by means of rods 7 of a system of pneumatic or hydraulic cylinders 8 stored.

Each group includes a desired number; z. B. eight, of U-shaped Pole shoes 9, which are arranged at equal intervals around the electrode and their Thigh one. single toroidal coil that is essentially concentric to the jacket non-magnetic metal housing 10 is included. The centerpieces of the pole pieces extend parallel to the outer surface of the coil housing, and their Legs run horizontally above and below this housing to the electrode jacket. The pole pieces of the lower group sit slidably on the platform, with on a cylinder 8 is attached to each of these pole pieces and each pole piece of the upper one Group movable on a piston rod? of the corresponding cylinder.

The pole pieces of the lower group are -from one of the three rings 11 worn, which is attached to the electrode jacket by being perpendicular to the platform Stand 12 are arranged concentrically. The pole pieces of the upper group are surrounded by the other two rings 11. The inner diameter of these rings is so large that each pole piece is free enough to allow limited radial movement run to or from the electrode jacket, so that the pole pieces of these groups in or come out of contact with the jacket. This radial movement is preferred kept to a minimum; around the air gap between the pole faces and the mantle surface to diminish. If necessary, this movement can also be neglected, see above that the pole faces do not noticeably move away from the mantle surface when the Magnets are demagnetized.

If necessary, the contact surfaces of the legs can have several pole pieces with a high coefficient of friction material (not shown) such as rubber; thermosetting Be coated with plastics or asbestos compounds; so the inclination of the electrode, to slide down by their own weight when gripped by the bracket is to diminish. Additionally can. for the same purpose the outer surface the electrode jacket can also be roughened by processing it accordingly: How As shown in Figures 2 and 3, there are two groups 13 and 14 of magnetic backing plates 15 suspended from rods 16 inside the jacket. Change the plates in each group with inwardly projecting radial ribs 1 a, which run along the inner surface of the jacket are provided. The plate group 13 is the lower magnet group 5 and the plate group 14 is assigned to the upper magnet group 6. The bars 16 are suspended on a ring 17 of a traverse 18, which is with on the upper ends of the Pillar 20 mounted radial arms 19 is provided. The pillars are vertical on platform 3.

The upper end of the rod protrudes through a corresponding hole in the ring and is provided with an annular groove or groove, in which a disc 21 with a Slot engages from one width of the groove. So the bars are through the discs carried.

The lower end of each rod penetrates a corresponding counter plate each group 13 and 14. The counter plate of the lower group 13 sits on a nut or a disk 22 of the rod and the corresponding counter-plate of the upper group on a coil spring 23; around the rod between the two counter plates (Fig. 3) is arranged. The surfaces of the counter plates 15 can also be made with a material be coated with a high coefficient of friction.

The coils in the housings 10 are wound so that when switched on of the electric current at the contact surfaces of the pole piece legs are opposite Polarity is induced. Consequently, after the coil circuits are closed the pole shoes and the opposing counter plates with the outer and inner, respectively Surface of the jacket 1 come into magnetic contact so that the latter is firmly gripped without the risk of deformation of the jacket. Usually you can either one or both coil circuits are closed so that the holder and Electrode with the platform raised or lowered when the latter is through the punch 4 is moved.

If it is necessary, however, place the electrodes inside the holder lower in order to compensate for the lower end of the electrode after consumption, so will the coil of the upper group of magnets is energized, while the coil of the lower group of magnets quite or is partially demagnetized and the piston rods 7 are retracted from their respective cylinders 8. Because the weight of the electrode and the upper magnet and counter plate groups together suffice, the springs 23 squeezing together implies a complete or partial demagnetization of the lower magnet group and the retraction of the piston rod 7 the electrode in the Stand to slide down, up to the limit of the upper group with the cylinders B. After lowering the electrode, the coil becomes the lower Magnet group energized while the coil of the upper magnet group is being demagnetized and the piston rods 7 are extended from their respective cylinders to the upper magnet group to its original distance to the lower magnet group to raise. The springs 23 also expand to the original distance between to restore the upper and lower groups of counter plates.

If it is necessary to lengthen the electrode jacket, a Hook 24 of an elevator (not shown) on the crown of a bracket 25 of the ring 17 hung, and the discs 21 are released from the grooves of the rods 16; on what the hook is raised to lift the crossbeam from the pillars 20. On that an additional jacket attachment can be placed over the rods on the jacket 1 and be welded together with this. The traverse can then be reattached to the pillars and the disks are connected with bars. Before or after filling and pulping The hook 24 can be unhooked again from additional electrode material.

Because the handle exerted on the electrode jacket by the holder according to the intensity of the in the pole pieces when closing one or of the two coil circuits induced magnetic field is limited and the field intensity can be changed by regulating the current loads on the coils, it follows that that either one or both magnet groups are excited with their counter plates can to the jacket by actuating associated with the coil circuits To grasp or let go of control organs from some remote location. Because about it in addition, the displacement or sliding of the electrode shell relative to each magnet group by reducing the intensity of the induced magnetic field in the pole pieces is made possible, it follows that such straight motion or sliding is accurate and can be precisely controlled, and this with the least amount of wear and damage the bracket or the jacket.

The embodiment shown in Figures 4-6 comprises a single one Group of electromagnets 26, which are arranged on the outside of the electrode jacket, and a single group of counter-plates hanging from bars 16 in the interior of the jacket 27

Each pole piece has a contact surface corresponding to the outer one The contour of the jacket is curved and includes an induction coil 28. The coil circuits several magnets are connected in parallel so that, for example, if one of them fails Pole piece, the bracket is not put out of operation or by the bracket grip exerted on the jacket by controlling the current in each coil individually and can be changed independently of the other coils. Finally can too any pole piece removed from the bracket and replaced with a new pole piece without Interruption of the bracket.

Each pole piece is pivotably mounted on the platform 3 by a pair of levers 29 on both sides of the pole piece. Each lever is rotatably connected at its ends to the pole piece and: a corresponding support arm 30, which extends over the magnet towards the electrode on a standing arm of a U-shaped stand 31 , the base plate of which is fastened to a bearing ring 32. This bearing ring is arranged parallel to the surface of the platform by an intermediate ring 33 made of rubber or electrically insulating material. The movement of the pole pieces to and from the electrode is limited by a stop bracket 34 attached to and between the arms of the corresponding post 31.

If desired, the contact surfaces of the pole pieces with a Coated material with a high coefficient of friction. Also the stop bracket can be arranged so that a contact separation between these surfaces and the jacket surface is prevented, and can consist of electric vibrators.

The counter plates are suspended from an upper ring by rods 16 and alternate with elongated ribs 1 ca, which are provided inside on the jacket surface, so that the surfaces coming into contact with the jacket, which are curved in accordance with the inner contour of the jacket tend to remain in contact with the inner surface when the pole pieces are demagnetized. If necessary, the number of counter-plates can be a multiple or a part of the number of pole pieces, so that one or more plates is intended for one or each plate for two or more pole pieces. The curved surfaces can be coated with friction material.

Usually the coil circuits are all pole pieces during the Furnace operation closed, and each coil is fed with an equally strong current, so that a magnetic field of a corresponding maximum strength is induced and the Jacket is securely grasped between the pole pieces and counter plates, so that the platform, to move the holder and the electrode together if the platform a change in the current to the electrode is increased or decreased.

However, there is a movement around the electrode within the holder below to allow if this to compensate for the consumption at the lower end of the electrode is necessary, any known and suitable means can be provided, whereby the current load in the circuit and thus the density of the magnetic field created by the pole piece groups on any one desired value is reduced between the maximum and a predetermined minimum can be; to change the handle on the coat. The reduction in electricity load to lower the electrode can be done in all coils at the same time, preferably is only used in certain coils while maintaining the maximum load in the remaining coils, the excitation is reduced, so that a larger control range electrode movement is achieved. Funding can also be provided be to after a downward movement of the electrode as a result of the reduction in current load in all or some of the coils the original current load is automatically restored manufacture in each coil. For example, the bracket can be with one or more Wheels (not shown) may be provided, which are attached to the electrode casing during an electrode movement roll off. Each wheel is designed so that it rotates around one selected range of different angles actuated a relay to the original Restore current load.

Fig. 4 also shows a modified mechanism for suspending the rods 16. This mechanism comprises an annular support 35 with a number of bushings 36 corresponding to the number of rods, which are fitted on the outside at a corresponding distance, a smaller number of radially protruding lugs 37, each between two cans are arranged; and a generally U-shaped arched and outwardly extending web 38. The upper ends of the individual rods 16 are secured in the sleeves and the lower end of a rod 39 is releasably connected to the crown of the web. The upper end of the rod 39 passes through a transverse beam 40 which rests on the upper ends of the pillars 20.

Radial to each nose 37 are pneumatically or hydraulically operated Cylinder 41 hinged inside the ring 42, which is slightly below the pillar 20 the height of these lugs is attached. The outer ends of the piston rods of the cylinders carry pawls 43, which are hinged on a smaller ring 44 protruding are. This ring is attached concentrically to the underside of the bearing ring 42.

Should the electrode jacket be welded to an additional one Section are put on to extend the electrode jacket, so the Piston rods extended so as to match the pawls 43 with the underside of the Lugs 37 engage the rod 39 from the web 38 and the crossbeam 40 to solve and remove, for example, by the hook of a winch. The support ring is then carried by the pawls. When removing the rod 39 can Place the jacket attachment with its lower edge over the web and around the support ring, whereupon the rod 39 is connected again to the web. The cylinders 41 are then: actuated to decouple the pawls from their lugs; and the section can be lowered down until it meets the top edge of the existing mantle comes into contact for later welding.

Claims (9)

PATENT CLAIMS: 1. Holder for continuously burning furnace electrodes with a jacket extending over the electrode material, characterized by a system of electromagnetic pole shoes (9; 10 or 26, 28) which are freely movable radially to the electrode jacket (1) and are mounted on the furnace in a ring around the jacket. and by at least one system of counter plates (15 or 21) provided inside the electrode jacket in the area of each pole shoe system, which when the magnet pole shoes (9, 10 or 26, 28) are excited with them under the influence of the magnetic effect with the electrode jacket lying in between get in touch and hold him tight. 2. Holder according to claim 1, characterized in that two overlaid groups (5, 6) of electromagnets (9, 10) with opposite Counter plates (15) are provided, one group (5) being mounted on the furnace and the other group (6) is also longitudinally displaceable with respect to the jacket and relative is movable to the first group. 3. Holder according to claim 1 or 2, characterized in that that each group of electromagnets consists of a single toroidal coil, which is in a non-magnetic Housing (10) is enclosed, and a number of U-shaped pole pieces (9) consists, which the housing with their radially inwardly pointing legs at a distance embrace each other. 4. Holder according to claim 1 or 2, characterized in that that each magnet of each group is provided with a corresponding coil and several Coils of each group connected in parallel with an electrical power source are. 5. Holder according to one of claims 1 to 4, characterized in that the radial movement of the pole pieces with respect to the electrode jacket is limited. 6. Holder according to claim 5, characterized in that the radial movement is such is limited that the pole pieces with the electrode jacket even in the non-excited state stand in touch. 7. Holder according to one of claims 1 to 6, characterized in that that the contact surfaces of the magnets, the pole pieces and / or the counter plates with Friction material are coated. B. Holder according to claim 4, characterized in that that each coil circuit in terms of its current load independent of the other coil circuits is changeable. 9. Holder according to one of the claims 1 to 8, characterized in that the counter plates are carried by rods (16), which protrude beyond the upper end of the electrode jacket and which have a carrier are connected, which is arranged at such a distance above the upper edge of the jacket is that an additional cylindrical jacket section around the rods on the jacket (1) can be attached and then welded to extend the electrode.