DE1098607B - High pressure lamp - Google Patents

Description

GERMAN

The invention relates to a high-pressure lamp with at least one field-stabilizing conductor in parallel to the discharge path and outside the lamp body, especially for horizontal use.

If the requirement is made for high pressure lamps to focus the emitted light, as it is, for. B. is the case with projection lamps or spotlights, it is difficult to achieve a degree of utilization which is approaching one hundred percent alluvial use. The difficulties that arise should be on hand! the Fig. 1 to 3 are described in more detail:

1 shows the relative light intensity distribution of a Xenoni high-pressure lamp, the curve being thought of as a body of revolution. If the light utilization is now to be almost 100%, the arrangement of the mirror A is only possible in the position according to FIG. 3. Here, all rays can be captured and emitted in parallel, making full use of the light intensity according to curve B, largely without scattering, the rays bypassing the lamp body. When used in headlights and the like, this mirror arrangement requires the high-pressure lamp to be installed horizontally. Such an arrangement was initially not possible, since at most a deviation of the lamp axis from the vertical by 30 ° was specified as permissible. When used in a horizontal position, the arc that forms between the anode and cathode can curve upwards as a result of the development of heat and endanger the quartz body because of the temperatures that are too high as a result. In all cases, the Ouarz'körpers must be reckoned ^one of the burst. Therefore, one is forced to either 'install the lamps vertically, as shown in FIG. 2, which has the disadvantage that the luminous flux - even when using a spherical counter mirror C - is only relatively small because of the large scatter, or parallel to the burning direction of the arc to arrange at least one field-stabilizing conductor.

Arrangements with a field stabilizing conductor parallel to the burning direction of the arc are known. Thus, for example, be mentioned high-pressure lamps, in which ¹ of the conductor in the interior of the lamp bulb is located, or those in which the conductor is disposed outside of the glass bulb, the lamp with an additional housing, preferably, is surrounded from glass. Arrangements are also known in which the field-stabilizing conductor or magnetic coils are arranged as stabilizers without further protective devices outside the lamp bulb.

The invention relates to an arrangement in which the field-stabilizing conductor is outside the lamp body is appropriate. This is what makes it a high-pressure lamp

Applicant:

LICENTIA Patent Administration - G. m. B. H., Frankfurt / M., Theodor-Stern-Kai 1

Wolfgang Höpfner, Hamburg-Fuhlsbüttel,

and Erwin Hass, Berlin-Wilmersdorf,

have been named as inventors

draws that guided parallel to the optical axis of a parabolic mirror to the anode of the high pressure lamp Head by means of insulating discs, which at the same time support the high-pressure lamp and its largest, im The shadow of the cathode, which closes the apex opening of the reflector, closes with the high-pressure lamp are summarized in an easily replaceable unit.

Such an arrangement grants not only a maximum utilization of light but also the possibility of the light and - especially with regard to the correspondence of the focal point of the parabolic mirror arrangement with the focal point of the high-pressure lamp - reliable replacement of the structural units as well as a increased mechanical protection for the arrangement through conductors and insulator washers.

The stabilizing effect achieved by the invention on the arc occurs when a single Head is arranged parallel to the axis of the lamp. In most cases, however, you will be for reasons symmetrical distribution of forces on a circle, the diameter of which is determined according to the flashover voltage, provide several conductors. Preferably three conductors offset from one another by 120 ° are arranged.

Metals can be used as the material for the conductor or conductors, e.g. B. you can provide copper for this. In view of the high temperature and the relatively small spacing of the conductor arrangement from the heat source is a heat-resistant Meh tall, z. B. an alloy steel, take.

The invention is illustrated in FIGS. 4 and 5, which show a schematic arrangement of the high-pressure lamp in FIG Show side and front views are shown.

The high pressure lamp 1 consists of a quartz body 2, the connection base 3 for the cathode 4 and the connection base 5 for the anode 6. By the

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Slices 7 and 8 become the ladder 9 in a particular Maintained distance from the high pressure lamp 1. They supply via connection cable 10 and one Contact pin 11 the anode 6 with energy, while the cathode 4 via connecting cable 12 and contact pin 13 is supplied. The three conductors 9 are attached offset from one another by 120 °. Your distribution 'on the The circumference of the circle is shown in FIG. 5. The entire device described so far is combined into one structural unit and is attached to a parabolic mirror 15 by means of a disk 14. The diameter of the Disk 14 is dimensioned so that 'practically no light rays 16 impinge on it, while the size of the parabolic mirror 15 is chosen so that the outermost Rays 17 can just be detected. The entire arrangement is made so that the arc the high pressure lamp 1 is arranged at the focal point of the parabolic mirror 15.

The installation of the described arrangement in a horizontal burning position is particularly advantageous if the luminous flux must be fully utilized, i.e. the greatest range can be achieved with a given spread target.

Since certain operating conditions and ignition conditions are prescribed for xenon lamps ¹ , it should also be mentioned that the arrangement according to the invention operates at a defined open circuit voltage, preferably at a level of 80VoIt. With this voltage, the reliable ignition of the lamp is guaranteed at all occurring temperatures and a flashover of the arc to the quartz body is prevented.

Claims (3)

Patent claims: 1. High pressure lamp with at least one field stabilizing conductor parallel to the discharge path and outside the lamp body, in particular for horizontal position of use, characterized in that that parallel to the optical axis of a parabolic mirror (15) to the anode (6) of the high pressure lamp (1) guided conductors (9) by means of insulating discs (7, 8, 14), which are also the high-pressure lamp and the largest (14) in the shadow of the cathode is the apex opening the reflector (15) completes, with the high-pressure lamp to an easily exchangeable unit are summarized. 2. High pressure lamp according to claim 1, characterized by the use of several, preferably three ladder (9). 3. High pressure lamp according to claim 2, characterized in that the conductors (9) against each other by 120 ° are offset. Considered publications:
German Patent Nos. 654 345, 1 012 688;
British Patent Nos. 421 043, 448 707,
881 1 sheet of drawings © 109 508/172 1.61