TH22365A - "Anode for arc furnace utilizing electrode parts" - Google Patents

Abstract

An electromagnetic arc furnace contains at least one electrode electric arc. The cathode is switched to and the electrode is switched to an anode (anode) electrode, including a seizure pad that conducts electricity. The lobes are bent together, unit one. Which contains refractory materials and does not conduct electricity It is located centrally above the conductive plate. And the second pack together Which consists of fireproof material, does not conduct electricity The second unit is set at the top. And by the trace of an electrically conductive butt plate There are many electrode fragments that join the center. Located between the first pack And the second unit, each of the many electrode parts. Including compacted packets that do not conduct electricity Which is a framework that will support large amounts of electrical conductors Vertically placed And conductivity Each person brings Was made of sheet metal And connected to the conductive bottom plate to obtain the top surface It has a low cross-sectional area that makes contact with the melting present in the furnace. Sheet making may be an important aspect of flat sheet layout. Or it can bend to obtain a pipe that is partially round or completely round.

Claims (5)

1. Arc furnace using direct current electricity That contains at least one electrode arc electrode The electrode is converted to the cathode (cathode) and the butt electrode is converted to the anode (anode). Each of the many electrode parts Contains a compact, non-conductive block It is a layout that rotates to receive a large number of vertically placed leads. And conductivity With each piece of the lead that is outlined to do at least part of the pipe. The conduit-shaped sub-piece is electrically connected to the conductive shield. To provide a floor in front of the upper perch Which has a low cross-sectional area In order to touch the melted contained in the furnace. 2. Arc furnace using direct current electricity. That contains at least one electrode arc electrode The electrode is converted to the cathode (cathode) and the butt electrode is converted to the anode (anode). Containing non-conductive refractory materials The square is centered above the conductive shield - the first set of tight loops. Containing non-conductive refractory materials The second set of tightly packed cubes is located on the top. And around the outer edge of the conductive shield - a large number of centralized electro parts. It is located between the first and second packed blocks, each with a large number of electrode components. Which includes a non-conductive, non-conductive mass Which is a framework to support the guides that are placed vertically And conduct electricity Each sub-conductor Made of sheet metal And connect electrically to the conductive bottom plate To make it the upper front floor Which has a low cross-sectional area To touch the melting contained in the furnace. 3. Arc furnace using direct current. That contains at least one electrode arc electrode The cathode is converted and the butt electrode is converted to an anode (anode) connected by busar laying. The bottom liner consists of at least a large portion of the non-conductive briquette, within which some conductive metal is inserted. The upper front floor of some of the conductive metals. It can be positioned in conductive contact with the melt, within which numerous electrode elements (1) are positioned vertically on the electric feed line. Made in the form of a plate together So that the contact of the coat area matches the same thing All of which make up the electrode rings. Where each electrode sub-element (1) some parts of the said metal conduct electricity It consists of a large number of leads (12) with a low cross-section. Run up in the direction above Through the briquette (2) the conductors are assembled in a radial arrangement, and the low frontal area of each such conductor is connected to the respective electrode parts. And the free front above (20) of the conductor shall be positioned in the contact position of the molten (17) within the furnace vessel. With a tightly cut lump like a thin tin (2) completely filled at least The area of the electrode element (1) above the buttplate (3), up to the surface (20) of the conductor (12), and with the electric current being taken from the bisbar arrangement (6). ) To the copper ring (4) in the lower wall of the lower container (19) and from there through the bottom plate (3) to the electrode part (1) 4. A manual arc furnace DC power According to the claim 1, where the filling is in the middle of the part without parts (18) and the radial outer space (21) between the ring of the electrode element (1) and the wall of the container (19) is further composed of a compacted block (2). DC electric arc According to the claim 1, in which the radial radial outer area (21) consists of a non-conductive lining brick 6. DC arc furnace According to the claim 1 where the cross-sectional area of the front floor (20) of the conductive part (12) is positioned in a conductive contact. The melting protection (17) is maintained for uniform diffusion. 7. A DC arc furnace. According to the claim 1 where the cross-sectional area of the front floor (20) of the conductive part (12) is positioned in a conductive contact. Protection against melting (17) will increase in the radial radial direction. 8. Arc furnace using direct current. According to the claim 1, in which the distance of the conductor (12) will be increased in the radial outward direction 9. Arc furnace using direct current According to the claim 1, where the distance of the lead part (12) in radial outward direction 1 0. DC arc furnace According to the claim 1 which the aforementioned section (12) consists of plates 1. 1. Arc furnace using direct current electricity. According to the claim 1 which the plate that made the conductor plate was bent 1 2. arc furnace using direct current According to the claim 1 which the aforementioned section (15) has the shape of a pipe 1 3. Arc furnace using direct current According to the claim 12 which the aforementioned section (16) has the shape of a half-cylindrical tube. 1 4. DC arc furnaces. According to the claim 13 of which at least one of the lead forms is a conduit. And the above half-cylinder (15,16) is attached to a circular foreground. And its semicircle is on the baseplate (11) of the electrode element (1) 1 5. A DC arc furnace. According to the claim 13, of which at least one number And the diameter of the lead (15,16) has the shape of a pipe Or pipes in a half-cylindrical shape is less in the direction of the radial star. 1 6. Arc furnace using direct current. According to the claim 1 where the spacer (14) is attached And to be in between the lead (12) 1 7. Arc furnace using direct current. According to the claim 1 of which the conductor (1) has a trapezoidal shape 1 8. DC arc furnace According to the claim 1 where the conductor (1) has the base area in the form of a circle 1 9. arc furnace using direct current According to the claim 1 in which the lead (12,15,16) is spread evenly It is on various electrode parts (1) 2 0. According to the claim that 1 in which the lead (12,15,16) is spread irregularly. Located on the electrode parts (1) 2 1. Arc furnace using direct current electricity According to the claim 1 where at least one number And the cross-sectional area of the front floor (20), the conductors (12,15,16) that were positioned in contact with the well (17) in the area of the center-center design of the furnace. Will have different characteristics regarding other areas of the electrode fragment (1) 2. 2. Arc furnace using direct current electricity According to the claim 1 where the cooling air input (5) is directed towards the lower central furnace area 2 3. Arc furnace using direct current electricity According to the claim 1 The stove consists of a bottom container. Which has the shape to accept the anode (anode) and the top container is located on the canode 2 4. Arc furnace using direct current electricity According to the claim 1, in which the conductors (12,15,16) are composed of metals that are essentially identical to the melts stored Which will do the aforementioned melt 2 5. Arc furnace using direct current electricity According to the claim 1, where the canode insulator is attached to the upper shell Located in the wall of the shell