DE1805703U - HIGH PRESSURE LAMP. - Google Patents

Description

High pressure lamp The innovation concerns a high pressure lamp; in which it is through a Additional equipment is possible, aie horizontal installation position to realize.

High pressure lamps are discharge lamps for operation with direct current, the gas filling of which has a pressure of several atmospheres high luminance, they have found their way into many areas of technology.

For example, in scientific apparatus, pro-jection apparatus, Headlights and similar arrangements used xenon high pressure lamps as they are characterized by a light color that comes very close to the solar spectrum.

When such xenon high-pressure lamps are required to focus the emitted light, as it is, for. B. is the case with projection lamps or headlights, it is ach-ivierigt to achieve a degree of utilization that approaches one hundred percent utilization. The difficulties that arise will be described in more detail with reference to FIGS. 1-3: FIG. 1 shows the relative light intensity distribution of a Xenon high pressure lamp, with the curve as a solid of revolution think is. o the light utilization should now be almost 100%, the arrangement of the mirror A is only possible in the position according to FIG. Here, all rays can be captured and emitted in parallel with full utilization of the light intensity according to curve B largely without scattering, the rays surrounding the lamp body. a horizontal installation of the high pressure lamp. Such an arrangement was previously not possible; at most, a deviation of the lamp position from the vertical by 300 was permitted. When used in a horizontal position, as a result of the development of heat, the arc forming between the anode and the cathode could arch upwards and endanger the quartz body because of the temperatures that were too high as a result. In all cases one had to reckon with the bursting of the quartz body. Hence one is forced; either to install the lamps vertically, roughly as in Figure 2, which has the disadvantage that the luminous flux - even when using a spherical counter mirror C - is only relatively small due to the large scatter, or to arrange at least one field-stabilizing conductor parallel to the burning direction of the arc. The innovation relates to an arrangement of the latter type, in which the field-stabilizing conductor is attached outside the lamp body. It is characterized in that the conductor by means of insulating discs; one of which is attached to a reflector, with the high pressure lamp to one Unit is summarized. According to the innovation, the field stabilizing conductors designed and arranged to connect the anode of the lamp to the power source. The anode is preferred in this arrangement because it has the greater mass of both electrodes and is attached to the mirror opening for better radiation guidance. The stabilizing effect achieved by the invention on the arc occurs when a single conductor is arranged parallel to the axis of the lamp. In most cases, however, for reasons of symmetrical distribution of forces on a circle, measure the diameter in accordance with the breakdown voltage, several conductors will be provided. Preferably, three conductors are arranged offset from one another by 1200. Metals come into consideration as the material for the conductor or conductors; z. B. you can provide copper for this. In view of the high temperature and the relatively small distance between the conductor arrangement and the heat source, one becomes a heat-resistant one Metal, e.g. B. take an alloy steel. I. The innovation is shown on the basis of FIGS. 4 and 5, which show a schematic arrangement of the high-pressure lamp in side and front views. The xenon 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.

However, they supply connection cables 10 and a contact pin 11 the ano ae 6 with energy, while the cathode 4 via connection cable 12 and pin 13 is supplied. The three conductors 9 are arranged offset from one another by 1200. Their distribution over the circumference is shown in FIG. 5. The entire device described so far is combined into a structural unit and is fastened by means of a disk 14 to the reflector 15, which is preferably designed in the manner of a parabola. The diameter of the disk 14 is so measured that practically no light rays 16 impinge on it, while the size of the reflector 15 is chosen so that the outermost rays 17 are just captured. The entire arrangement is made like this. that the arc of the high-pressure lamp 1 is arranged in the focal point of the preferably parabolic reflector 15. The installation of the described arrangement in a horizontal burning position is particularly advantageous when the luminous flux has to be fully utilized, i.e. the greatest range is to be achieved with a given scattering.

As there are specific operating and ignition conditions for xenon lamps are prescribed, it should also be mentioned that the innovation according to the arrangement at a defined open circuit voltage, preferably in the amount of 80 volts, works. @ei this Voltage ensures reliable ignition of the lamp at all occurring temperatures in order to prevent the arc from flashing over to the quartz body.

Claims (8)

Protection claims 1. High pressure lamp, in which to enable a horizontal position of use parallel to the burning direction of the arc outside the lamp body is arranged at least one field-stabilizing conductor, thereby characterized in that the conductor (9) by means of insulating discs (7, 8, 14), of which one (14) is attached to a reflector (15) with the high pressure lamp (1) is combined into one structural unit. 2. High pressure lamp according to claim 1, characterized by the use several, preferably three, conductors (9) < 3. Hoca pressure lamp according to claim 2, characterized in that the conductors (9) are offset from one another by 1200. 4. High pressure lamp according to claim 1, 2 or 3, characterized in that that the field-stabilizing conductor (9) has an electrode, preferably the anode (5) t supply the high-pressure lamp (1) with energy. 5. High pressure lamp according to claim 1, characterized in that the The reflector (15) is parabolic. 60 high-pressure lamp according to claim 5, characterized by such a Arrangement of the disc (14) that the arc of the high pressure lamp 1 in the focal point of the parabolic reflector (15) is arranged 7. High pressure lamp according to claim 1 or one of the following, characterized in that the diameter the disc (14) is dimensioned so that no light beam impinges on it. 8. High-pressure lamp according to claim 1 or one of the following characterized by designing the reflector in such a way that all of them are seeded by the arc Rays hit him,