DE509622C - Electric arc lamp with an internally cooled hollow ring as cathode and an arc set in circulation by a magnetic field - Google Patents

Description

The invention relates to an electric arc lamp with an internally cooled hollow ring as a cathode and an arc set in circulation by a magnetic field. Such arc lamps are z. B. in that U.S. Patent 342,988.

In the known designs, the ring-shaped cathode is supported by a support held, applied to the circumference of the arc current traversed turns are. These generate a magnetic field parallel to the carbon electrode, which in turn is a Creates force that causes the arc to circulate around the crater.

Such an arrangement is excellent for low currents (e.g. 25 amps) suitable; at higher currents, however, the arc shows insufficient stability. It has been found that this results from a strong tendency for the arc to wrap around the cathode front. the electrodynamic forces try to bend the bow forward, and this results in the bow tearing off.

Since these phenomena do not occur with small cathodes, as they do for currents up to about 25 amps are common, it is believed that the reason for the poor functioning of the arc in the large diameter of the field winding liasjt. Because high currents require strong coals, which in turn require a long arc, which in turn requires a large amount of coolant and thus ultimately a corresponding one requires a large cathode. However, the larger the winding diameter, the more uniform the field in the middle, and this results in instability.

By using a small diameter winding, a field is obtained which decreases sharply in front of and behind the crater, and its lines of force on both sides of the Center diverge.

The invention consists in that the field winding in the cavity of the cathode is housed, in which the coolant is located. By this measure the winding diameter can be kept very small.

Very little space is lost for the coolant because only a few turns are required and the wire can get a small diameter, since it is is vigorously cooled. Its isolation presents no difficulties, since it is ohmic

Voltage drop on such a short wire length is not even 0.1 volts. There is therefore no electrolysis of the water, and the discharge currents through the water are only a fraction of the total flow. Practice has confirmed that when the winding is housed inside the cathode, the arc for large as well as for low currents has the same shape: the flame is short and runs quickly over the crater rim without having the slope / leading. From this it follows a stability, ignition reliability and a light effect of the crater, as it has only been before was found in small arcs that work on the same principle.

In the accompanying Fig. 2, the subject of the invention is in one embodiment shown schematically, whereas Fig. ι illustrates an earlier embodiment.

The ring cathode a, in the interior of which the coolant circulates, contains a winding ß, one end of which - by soldering or other suitable manner - is connected to the cathode body b , while the other end of the winding exits the cathode through a sleeve c tight fittings, insofar as they are in contact with the wire, are made of insulating material.

The winding accommodated within the coolant can either be enamelled or be bare. This latter embodiment is possible because of the resistance of the coolant compared to the winding is extraordinarily high and consequently the dissipation of the current into the coolant is negligibly small.

Claims (2)

Patent claims: 1. Electric arc lamp with an internally cooled hollow ring as cathode and an arc set in circulation by a magnetic field, characterized in that that the field winding is arranged in the cavity of the cathode itself in the immediate vicinity of the anode end. 2. Electric arc lamp according to claim i, characterized in that the Field winding directly into the coolant contained in the interior of the hollow ring immersed. 1 sheet of drawings