DE346774C - Electric metal vapor lamp with heat conduction between the electrodes - Google Patents

Description

Electric 1 metal vapor lamp with heat transfer between the electrodes. The invention relates to an electric metal halide lamp in which the migration of the mercury from the anode to the cathode and the other adverse consequences the temperature difference between anode and cathode by facilitating the transfer of heat between anode and cathode can be avoided. According to the invention, there is relief the heat transfer achieved in that the two electrodes of the lamp together be enveloped by a heat-balancing mass, which is made of highly thermally conductive, but substances independent of the mercury or amalgam forming the electrodes consists.

This mass is expediently in the immediate vicinity of the points at which the arc arises, arranged, whereby a heat balance between the electrodes.

This mass or capacity thus forms a temperature equalizer between the two poles. In addition, this mass stores a certain amount of heat and consequently also serves as a temperature controller for both electrodes together. As a result, a state of thermal equilibrium is formed shortly after the arc is ignited which suppresses the tendency for vapor to migrate from the anode to the cathode or at least considerably reduced.

In addition, by removing heat from the anode, this mass prevents their excessive heating and favored by the fact that they use this amount of heat Cathode transferred, the metallic evaporation at this cathode, whereby the useful effect the visible and ultraviolet radiation of the lamp is increased.

The drawing shows an embodiment of a metal halide lamp shown according to the invention in a longitudinal section.

The fluorescent tube i, in which the electric arc sprays, is like this bent that the starting point and the end point of the arc in the electrodes 2 and 3 are adjacent to each other. A holding space [is] arranged around the electrodes and filled with a substance or with a mixture of substances 5 in the The main thing is that they conduct heat well, such as gas under pressure or without pressure, mercury o. The like. This substance is introduced through an approach 6, which is subsequently closed can be. As explained above, this substance 5 serves as a temperature regulator and Temperature equalizer for the two electrodes. A same substance container as q. can also be common for several mercury lamps i.

The from q. and 5 formed mass can have any shape and any be composed. It is only subject to the condition that the combination has a certain thermal conductivity that envelops both electrodes and between this ensures sufficient heat exchange. Instead of two electrodes common heat capacity q. to arrange, you can also provide two separate covers, each of which surrounds an electrode and which are connected to one another by good heat conductors are connected, e.g. B. by metal rods, a thermally conductive liquid o. The like. The mass can also consist of a number of metallic wires or something else more or less stretchable elastic shell, which is embedded in any mixture can be, or also, for example, from an OOuarz or porcelain mass. By the arrangement according to the invention are intense arcs with high efficiency achieved without significant migration of mercury from the anode to the cathode, namely by means of a lamp of simple construction, limited dimensions and long service life, since none of the parts are exposed to excessive temperature. The lamps can In addition, anode and cathode of the same type are preserved, which is the construction and application simplified.

Claims (3)

PATENT CLAIMS: i. Electric metal vapor lamp with heat conduction between the electrodes, characterized in that the electrodes of the lamps are encased jointly by a heat-regulating compound which consists of substances which conduct heat well and are independent of the mercury or amalgam forming the electrodes. 2. Metal halide lamp according to claim i, characterized in that the heat-regulating Ground arranged in the immediate vicinity of the start and end point of the arc is. 3. Metal halide lamp according to claim i, characterized in that for several Lichtröhren the heat regulating M_ asse is common.