DE447592C - Electric vacuum incandescent lamp - Google Patents

Description

Electric vacuum light bulb. It is well known for the generation or Improvement of the incandescent lamp vacuum when the lamp is switched on for the first time or when so-called clear burning, the disappearance of the gas residues is of the greatest importance. It is also known that this disappearance is caused by the ionization of the gas residues that is accompanied by a blue light phenomenon, the so-called Edison effect, is promoted quite substantially, while in the absence of ionization it is only disproportionate goes slower.

In the ordinary vacuum lamps with a small distance from each other arranged power supply wires and 'a voltage amounting to over 100 volts this ionization comes about easily because the emitted from the incandescent bodies negative electrons (thermions) in the direction of the conductor pieces of higher potential are accelerated and when they collide with the gas molecules, the latter ionize. It follows - and the observation confirms this conclusion - that the ionization is strongest at those points that are close to each other Conductor pieces the greatest potential difference is present, i.e. in ° the usual Incandescent lamps between the power supply wires or the subsequent incandescent body parts.

On the other hand, a lamp contains the power supply wires far away from each other, no ionization at all, current because in the The lamp does not have the electrical field strength required for impact ionization anywhere. This is e.g. B. the case with the known tubular incandescent lamps, their power supplies are attached to the two tube ends. The Edison effect can be seen in these lamps do not evoke at all.

This is why one was previously involved in the manufacture of this type of incandescent lamp forced to let the lamps "pre-burn" for hours in order to improve the vacuum, but without achieving the quality of the vacuum that can be achieved with the Edison effect. Experience shows that the residual gases are adsorbed on the balloon walls but is the retention of the adsorbed Gas residues in this case a significantly weaker one than when the formation of the gases by an ionization process was accelerated.

According to the present invention, this disadvantage can be solved in a very simple manner Way are controlled by namely a conductor piece along the incandescent body support frame is attached, one end of which is connected to the one power supply wire is, the other end, however, in the vicinity of the other power supply wire ends freely or is isolated from it. It is achieved in that, since between the free end of this wire and between those near it Incandescent parts have a potential difference equal to the lamp voltage, there an electric field strength sufficient to produce the impact ionization is created so that the Edison effect can occur just as easily and quickly as in one normal incandescent lamp with adjacent power supply wires. The one after the The type of tube lamps produced mentioned behave in terms of occurrence the Edison effect is no different from ordinary light bulbs.

Instead of the incandescent body support frame made of insulating material (Glass rod, glass tube) to attach a corresponding piece of conductor; you can too produce the support frame in a known manner from metal. It can z. B. consist of a continuous metal wire, according to the invention with the one end is conductively connected to one power supply wire, to the other At the end, however, led to the vicinity of the other power supply wire and of course insulated from this second power supply wire and from the luminous element itself is. For the purpose of fastening the holder wires on the support frame and at the same time Isolation of the latter from the incandescent body is provided in this support frame also known per se with melted at appropriate intervals Glass beads into which the holder wires are inserted.

The illustration serves to explain the new light bulb. The incandescent body c of the tubular incandescent lamp receives the current in a known manner through the current guide wires a and b. The wire d, which is also known per se, is used as the support frame for the incandescent body and is attached to the spike-like extensions f1, f2 of the feet e1 and e2 and provided with the spiral g to enable elastic support. On this support frame, the known glass beads 1 are attached, into which the holder wires tn - insulated from the wire d - are inserted. The suspension wire d is in place! according to the invention by means of the piece of wire h with the current feedthrough wire b electrically connected, so that the support wire is at the potential of the power supply wire b. At the point k, those parts of the incandescent body and the support wire are close to one another which have the same potential difference as the two power supply wires a and b. When the lamp is switched on, the clear burning process is started with the appearance of the well-known blue light phenomenon, the so-called Edison effect. insert at this point.

Claims (1)

Claim: Electric vacuum incandescent lamp with two widely spaced power supply wires, a thread carrier made of conductive material and a straight incandescent body, in particular a tubular incandescent lamp, characterized in that one power supply wire is electrically connected to the carrier of the straight incandescent body.