PL146B1 - A method of concentrating the light arc of an alternating current, drawn by means of a DC magnet to any length, on the smallest reactive surface. - Google Patents

Description

The object of the present invention is a method which makes it possible to produce as large a ratio of the Union's arc elongation to the reaction surface as possible, as well as a device for carrying out the process. The method consists in the following: between two liens in one plane the electrodes ignite the light gap of the alternating current and extend it to any length by means of a DC magnet, which is adjusted so that the lines of force pass vertically or approximately vertically through the plane of the electrodes. When expanding the arc during one current change or in in a shorter time, the arc riser is forced to evacuate at least one electrode halfway away from the point of ignition of its external circuit and to return completely or partially to the point of ignition. Depending on the momentary direction of the current, this journey takes place from the point of view. ¬ smoking it one way then the other. If the hatch riser exceeded half of the outer circumference electrode, it travels, regardless of the side from which the current comes, partly at equal lengths. For this reason the hatch also widens, whichever direction the current comes from, partly on even planes. The farther beyond a half of the outer circumference of the electrode the riser of the light arc is forced to evolve, the greater the greater than the entire surface filled with the light gap, the part which remains free and the greater regardless of the current direction of the current. Thus, the ratio of the linear elongation of the arc to the reaction surface. If the light arc stepper is brought out in the specified manner beyond half of the outer circumference of the electrode on only one electrode, the described arc concentration arises only on one side on this electrode, while the arc stepper on the other electrode if the direction of the current is unequal, it will never travel the same length. However, it is possible to force the riser and the second electrode to travel beyond half of its external circumference in a similar way, so that the concentration becomes bilateral. The simplest way to perform the described procedure is to place both electrodes side by side and in one the plane, and the DC magnet is positioned so that the lines of force pass vertically or approximately vertically through the plane of the electrodes. Then the electrode on which the riser of the light arc is to travel beyond half of the outer circumference is made very short in relation to the factors determining the linear extension of the arc. Then, according to the invention, the riser of the arc, which expands strongly in relation to the length of the electrode, travels beyond half of the outer circumference of the short electrode. If one is to force the second riser to travel in the same way up to half of the outer circuit of the second electrode, then the second electrode is also made short in relation to the factors determining the linear elongation of the arc. a device, consisting of a source of current, two electrodes mounted side by side and in one plane, and a magnet with a direct current which is positioned so that its lines of force pass vertically or approximately vertically to the plane of the electrodes at - why at least one of the two electrodes is so small in relation to the factors determining the linear elongation of the arc, - 2 - • that the widening of the gap can travel with its riser up to half its outer circumference. In addition, the fixation of the electrodes is special; In order that the riser of the arc does not encounter an obstacle during its journey, the handle of the electrode cannot, as hitherto, be made as an extension of it, i.e. in other words it cannot lie in the plane of the electrodes. According to the invention, it is led from the side to the electrode .If the travel of the arc riser beyond half of the outer circumference of the electrode is also to take place on the other electrode, the electrode is also made to be suitably short in relation to the factors determining the linear elongation of the arc. Similarly, with this electrode, the holder is fed from the side. In particular, the electrodes can be made in various ways; however, the three designs are most suitable. These, however, are shown in the attached figure, which also shows schematically how it works. In all three figures, the constant current magnetic field lines intersect the plane of paper perpendicularly or approximately perpendicularly. In Fig. 1, a very short electrode ab is positioned vertically with respect to the second electrode cd e. The light arc of the alternating current ignites at bd and expands according to the momentary direction of the current or as indicated by full lines, while the expansion takes place in the direction indicated by arrows or towards the side marked with dashed lines. The riser lit by the light duke, moving along the electrode until it moves under the influence of the magnetic field, for one change of current or in a shorter time, through the left edge of the electrode to a, and from there through the right edge of the electrode to places of inflammation; during this time, the second step of the light arc follows the electrode cde towards c. Fig. 2 shows two electrodes of equal shape in the form of the letter V, Tebard, short electrodes f, ghi and, L, /, are arranged with respect to each other in such a way that the light gap ends at places ng, k} and expands depending on the moment ¬ In the direction of the current in the direction of the arrow along the path, drawn with full or relatively dashed lines. 3 shows two short straight electrodes m, n and o, f and f that are aligned in the same straight line. With this design, the light beam lights up in place, they expand in a way also marked by full and dashed lines. For technical movement, it is advantageous according to the invention, and it is possible, by appropriate selection of the magnetic field strength, to arrange the light gap in a single current change. it continued to extend linearly, such that, for example, in Fig. 1, one light arc riser travels completely or nearly all around the small electrode, and in Figs. 2 and 3, both light arc risers around both electrodes. The ratio of the reaction area to the linear elongation of the arc 4 to 5 times lower is obtained in this way, for example in the embodiment according to FIG. PL

Claims (9)

Patent claims. 1. * The method of concentrating the light arc of the alternating current on the smallest possible reaction surface, pulled out by means of a constant current magnet to any length, characterized by the fact that it forces the riser of the light arc, lit between two placed next to each other - 3 - and in one plane with electrodes and an extended magnetic field directed perpendicular or approximately perpendicular to that plane to travel within one current change or in a shorter time on at least one electrode and beyond half of its total outer circumference. 2. A method according to claim 1, characterized in that the light hatch is forced to travel as defined in claim 1. 1, by using an electrode correspondingly reduced to the factors determining the linear elongation of the arc. 3. The method of claim 1, characterized by forcing the light hatch to travel, as defined in claim 1 1 on both electrodes by using two electrodes correspondingly small in relation to the factors determining the linear elongation of the arc. 4. A device for making the floor according to claim 1 and 2, characterized by the combination of a current source, two unconnected electrodes placed side by side and in one plane, and a constant current magnet which is positioned so that its lines of force intersect the plane of the electrodes perpendicularly or approximately perpendicular, as well as by the fact that one of the electrodes is, in relation to the factors determining the linear elongation of the arc, so small that the riser of the light arc of the alternating current, lit between the electrodes, on expansion travels up to half of the outer circumference of the electrodes. 5. Device for planks, claim 4 for carrying out the method of claiming claim 1 and 3, characterized by the fact that both electrodes in relation to the factors determining the linear arc elongation are so small that the riser of the light arc ignited between the electrodes travels along both electrodes up to half of their external circuit. 6. Device for planks, claim 4 and 5, the area characterized by the fact that each of the electrodes about which the riser of the light arc is to travel is fixed on a holder which is brought to the electrode in such a way that its direction intersects with the plane of the electrodes. 7. Device for planks, claim 4 and 6, characterized by a combination of short and long electrodes, with the short electrode positioned perpendicular to the long electrode and such that the axis of the short electrode approximates the middle of the long electrode. 8. Device for planks, claim 4 and 6, characterized by the combination of two short V-shaped electrodes which are pointed facing each other. 9. Device according to claims 4 and 6, characterized by the combination of two electrodes arranged in the same axis. To the patent description N2 146. Jtg.S Fig.% J ZAM.IMF.KOZUASKICH W WUSZMflE PL