DE197151C - - Google Patents

Description

IMPERIAL ή

PATENT OFFICE.

PATENT LETTERING

'- Yes 197151 CLASS 21 /. GROUP

in Berlin.

The invention relates to an arc lamp with a blow magnet for blowing out the arc is provided. The distinguishing feature is that this Blow magnet is located in a special line, which is the usual one, directly through the lamp or is connected in parallel through the known blow magnet leading current path and has less resistance than that path.

ίο This parallel line ensures that the blow magnet at any moment without interrupting the lamp circuit and can thus be switched on without sparking. Such sparking and from it resulting significant disturbances would be feared if, for example, the blow magnet in the Lamp circuit would be switched on and usually shorted. By the Parallel line has a lower resistance than the usual one leading through the lamp Current path, a safe transition of the current via the blow magnet is achieved, see above that the usual current is gone, which is not interrupted by switching on the blow magnet due to its higher resistance, it only carries a small amount of current.

Several exemplary embodiments are illustrated schematically in the drawing.
According to Fig. 1, the usual current path leads from the positive pole through the line α via the main current coil b, from here through line c directly to the positive carbon d, then via the negative carbon e through the line / to the negative pole. This usual current path, in which other common resistors, for example ballast resistors for series lamps or balancing resistors for the increasing carbon burn-off and finally also expediently in line c, a known blow magnet, can be switched on, is the special line g for the blow magnet h connected in parallel to blow out the arc. If this line is closed by contact i , most of the current flows through the blow magnet h, which is then excited enough to blow out the arc. It is apparent that the involvement of the parallel line is not off to an interruption of the normal current path is connected cdef, but this path is closed when turning on the blow-out magnets and is only interrupted when the arc is extinguished.

In the embodiment according to FIG. 2, a known blow magnet k is included in the line c of the usual lamp current path abcdef , but in such a way that only a few windings lie in this path. Another part h of the magnet windings lies in the parallel line g and is only switched on when this line is closed by contact i , so that the magnet is then reinforced by so much that it can blow out the arc.

A similar embodiment is illustrated by FIG. 3, only here two special magnet windings with different numbers of windings are provided, of which the weaker winding k is in the line c

of the usual circuit abcdef and feeds the known blow magnet of the lamp, while the stronger magnet winding h in the parallel line g is switched on and receives current to blow out the arc. This parallel line need not only be switched on towards the end of the coal consumption, but can also take place at any moment, for example, when the arc assumes an excessive voltage. This is usually the result of some kind of disturbance that prevents timely readjustment. As a result, however, the arc can easily get so close to the neighboring metal parts that it destroys them. To avoid such cases, if an excessively high arc voltage occurs, the contact i of the parallel line g can be used in a known manner

Way by changing the magnetic ratio in the main current coil b or the shunt coil / closed, so that the magnet h is excited and the arc is blown out.

The parallel line g does not need to open into the usual lamp path behind the blow magnet / 1, for example into line c (FIGS. 1 and 2), but can also lead directly to the negative pole through line m (FIG. 3). This means that the parallel line gm has even less resistance than if it were to lead through the electrodes behind the blow magnet. Since the parallel line gm will absorb most of the lamp current due to its low resistance, only a very low current level remains for the usual way abcdef and thus for the arc after this line is switched on. This is therefore very sensitive. and can be easily blown out.

So that a lower resistance is achieved in the parallel line g than in the usual current path, it is expedient to connect special resistors upstream of this usual current path. The main current coil b can serve as such, for example, because it is sufficient that the resistance difference between the two lines is only slight in order to safely send part of the current through when the parallel line g is switched on.

Claims (3)

Patent Claims: 1. Arc lamp with blow magnet to blow out the arc, in which The blow magnet lies in a special line that runs through all or part of the lamp or through it the known blow magnet leading current path is connected in parallel, thereby characterized in that this blowing circuit has less resistance than that path and is provided with a switch is, when switched on, the main current largely through the blow magnet flows, for the purpose of blowing out the arc without interrupting the lamp circuit. 2. Arc lamp according to claim 1, characterized in that in the usual, Current path lying between the branches of the blown current line Wider? Stands are switched on, so that the intended to be blown out through the blow stream line The current that flows after this line is switched on receives an even greater proportion of the current. 3. Arc lamp according to claim 1, characterized in that the main current coil serves as a series resistor for the usual current path, which is short-circuited by the blown current line. 1 sheet of drawings.