DE496254C - Electric light tubes - Google Patents

Description

It is already known to have electric fluorescent tubes attached to both ends To build electrodes in reflectors, for example for beacon purposes. In order to achieve the required light concentration Reach, it has already been proposed to use the central part of the fluorescent tube in a spiral or Shape helical shape, so that this primarily light donates the central part of the Tube squeezed into a narrow space enclosing the focal point of the reflector will.

The aim of the invention is to keep the light-emitting middle part of the fluorescent tube on yet To squeeze closer space than was previously possible and thus an even greater concentration of light and to get a far more intense beacon radiation.

For this purpose there is according to the invention the light-emitting middle part of the tube consists of a flat, closed on all sides, translucent container, the interior of which is continuous through partition walls winding discharge channel is divided.

Subsequent to the discharge channel, the electrodes open into the flat container leading outer tube parts of the fluorescent tube, so that the discharge from an electrode to the operation of the tube another through the enclosed tortuous channel of the shallow container developed. While in the earlier type of crowding of the middle part of the luminous tube, and thus the Entlad'ungs column, between every two adjacent turns the latter had two glass walls and another air gap is now between every two adjacent turns of the discharge column there is only one separating one There is a partition wall, which is of course a considerably more densely packed structure of light.

An exemplary embodiment is shown in FIG. 1 of the drawing a fluorescent tube designed according to the invention and built into a reflector housing is shown in a side view.

Fig. 2 shows the middle part of the fluorescent tube according to Fig. 1 in a perspective view.

Fig. 3 shows a differently designed fluorescent tube middle part in section.

The end parts 1, 2 of the in Figs. 1 and 2 The fluorescent tubes shown are expanded in the usual way to include the electrodes 3, 4 to be able to accommodate comfortably in it. At least one of the two electrodes is useful, In the example shown, the vertical lower electrode 3, as an elec-

electron-emitting glow electrode designed to operate the tube with higher currents and consequently achieve higher luminance levels. can. The end part ι of the fluorescent tube is provided with a base 5 which can be screwed into a socket 7 fastened in the interior of the reflector housing 6. The final provided with a glass window 8 RefLektorgehäuBe 6 is mounted on a post 9, where the ^a is mounted to supply the electrodes serving cable 10th The middle part of the fluorescent tube filled with base gases, noble gases, gas mixtures or a gas vapor mixture forms a flat cylindrical container 11, which is closed on all sides and which consists of ordinary glass as well as glass that is permeable to ultraviolet rays, such as uviol glass or particularly heat-resistant quartz glass can. In the embodiment according to FIGS. 1 and 2, the interior of the container 11 is divided into a spiral discharge channel 13 by a built-in, spirally wound intermediate wall 12. The end part of the enclosed discharge channel 13 lying in the middle of the container 11 is connected to the pipe end part 2 containing the electrode 4 'by means of a line of pipe stubs 14 opening into one end wall of the container 11. The other end part of the discharge channel 13 lying on the peripheral wall of the container 11 is connected by a pipe socket 15 opening into the peripheral wall to the other end part 1 of the fluorescent tube containing the electrode 3, so that a continuous discharge path is established from one electrode to the other Central part spirally extending turns are separated only by the small thickness of the built-in spiral partition 12 and are therefore extremely close to one another.

In the embodiment according to. Fig. 3 has the flat, closed on all sides and translucent Container 11 has a prismatic shape. From two opposing peripheral walls of the container 11 extend into the interior of the same partition walls 16, 17 in such a way that the interior becomes a serpentine discharge channel] 13 is divided. Pipe sockets in turn close to the end parts of this channel 13 14, 15, with dm the electrodes containing Rohrendteile are connected. In this case too, therefore, one is squeezed into an extremely narrow space Discharge path caused, the turns of which are also only due to the small thickness the partitions 16, 17 built into the container are separated.

The shape of the flat container forming the central part of the arc tube and the in this winding discharge channel achieved by built-in partition walls also be any other.

Claims (2)

Patent claims: i. Electric tube with electrodes and attached to both sides a central part compressed into a narrow space, characterized in that the light-emitting central part of the tube consists of a flat, all-round closed and waterproof container, its interior through partition walls into a continuously winding discharge channel is divided and in the subsequent to the end parts of the discharge channel '' the outer pipe parts leading to the electrodes open. 2. Electric fluorescent tube according to claim 1, characterized in that the flat container, which is closed on all sides, has a single, spirally wound partition. For this purpose ι sheet of drawings SERUN. PRINTED IN ÖEft HEtCHSDItUCKfiREt