DE568032C - Method for generating a point-shaped radiation source of high intensity in the ultraviolet area - Google Patents

Description

Method for generating a point source of high radiation Intensity in the Ultraviolet Region It is desirable for numerous purposes. small-scale Generate sources of radiation of great intensity. In particular, be used for photochemical Purposes point-shaped emitters with a high content of ultraviolet rays are required. 1lit the known means for generating ultraviolet rays, first of all This task is in line with the metal halide lamps used for this purpose not or only very uneconomical to solve, as with these known devices a practically point source of radiation just by fading out a small one Section is to be achieved from the ribbon-shaped arc.

The invention makes use of the phenomenon that the light intensity of the electrical spark is a multiple of the intensity of the arc, also from the further fact that the spark spectra of almost all metals have different spectral lines than the corresponding arc spectra. For example is on a number of metals, such as magnesium, aluminum and silver. the spark spectrum shifted towards the ultraviolet side in relation to the arc spectrum, while others Metals such as mercury, a reverse direction, i.e. 1i. after the red side have a shifted spark spectrum.

It has already been tried Funkenstreklkt-n use single spark and radio chains over AIIS metals as light sources, for example, spectroscopic purposes to loading. However, this experience always had the disadvantage that once it was not possible to generate a pure spark spectrum. since the spectrum generated represented a transition from the spark to the arc spectrum, because normally every spark is followed by an arc after ionization of the gas path between the electrodes; on the other hand, the spark sequence was relatively slow, so that long periods of darkness occurred between the individual sparks.

The invention overcomes this difficulty and makes it practical continuous radiation generated by an intense ultraviolet radiation. According to the invention, a material is used for the electrodes, which is a significant has a shifted spark spectrum towards the ultraviolet side, and the spark gap operated in such a way that arcs are formed following the individual sparks is avoided. This can be done, for example, by the actual Upstream of a spark gap, which suppresses arcing, the further advantage of a greater radio egg density being achieved as the further available electrical energy, normally called that of the spark connected arc is consumed, exploited for the generation of further sparks will.

The use of extinguishing spark gaps for regulation the discharge process has become known in a method that the light effect generated in fluorescent tubes. This procedure is therefore not the spark discharge described in the invention.

Other ultraviolet emitters that work with spark discharge see one considerable length of the spark with a very slow discharge sequence, so that neither the point shape of the radiator nor its radiation continuity exist are.

The with are also completely different from the subject matter of the invention Capacitor and spark gap working devices that feed a fluorescent tube and in which a change in the currents passing through affects the luminous color shall be.

To avoid oxidation of the electrode surface, the Spark gap according to the invention in an atmosphere that prevents oxidation, for example of noble gases, enclosed because of a gradual oxidation of the electrodes Exclude uniformity of the spark generated or the radiation generated thereby and at the same time the danger of the spark wandering through oxidation of individuals Particles of the electrode surface would exist. But it is quite possible to use the electrodes without protective cover and without protective gas. Of course it is also possible in a further development of the invention instead of a strong ultraviolet Radiation also includes those with high levels of red and infrared rays produce, if one selects materials for the electrodes, their spark spectrum is shifted to the infrared side.

The invention makes it possible for the first time in a very economical manner a practically continuous high intensity point source of ultraviolet radiation to produce and thus means a considerable technical for numerous purposes and economic progress.

Claims (1)

PATHNT APPLICATION: i. Method for generating a point-shaped High intensity radiation source in the ultraviolet region, characterized in that that via a spark gap made of metals opposite to their arc spectrum have a shifted spark spectrum towards the ultraviolet side. like for example Magnesium, aluminum or silver, electrical discharges full of very high frequencies are generated in which the discharges generally following arcs can be suppressed by an upstream extinguishing spark gap. a. contraption for carrying out the method according to claim i, characterized in that the Spark gap in an atmosphere that prevents the electrodes from oxidizing : Sheath made of: material that is permeable to ultraviolet rays, in particular quartz glass, is arranged.