DE507075C - Electric lamp in which a luminescent lamp is excited by body radiation - Google Patents

Description

Electric lamp in which a luminescence emitter through corpuscular radiation The invention relates to electric lamps in which a luminescent emitter is excited by corpuscular radiation and consists in the fact that the luminescence emitter contains the luminescent substances in colloidal distribution.

In the preferred embodiment of the invention, a transparent or translucent carrier serves as the carrier for the luminescent substances. colorless or colored body, in whose pores the luminescent substance is arranged. The carrier can be attached to the anode, the anti-anode, the anti-cathode or a special holder . be orderly.

The invention also extends to a method of manufacture the luminescence emitter for such lamps. The procedure consists in that the luminescent substances in colloidal distribution in silicates, such as in particular Water glass, suspended, precipitated with acids, washed and dried. The colloidal distribution of the luminescent substance has the advantage of being very large Light output. This increases with the size of the corpuscular rays hit surface of the luminescent body. Other means could be used reduce the grain size of the luminescent substances to only about 1/1 ohm. Distributed but according to the invention, the luminescent substance up to the colloidal state, i.e. up to about o, i & t grain size, i.e. up to 10 times the fineness one, since the surface increases inversely to the square of the linear particle dimensions, also about the ioo X ioo = io ooof the surface is accordingly the io ooof the light output. It has also been shown that such finely divided luminescent substances last for a long time and intensively afterglow.

Alkaline earth phosphors, especially fused together with colorless fluxes, can serve as luminescent lamps. For example, Cu, Rb, Mg, Bi and Ag serve as effective metals and a large number of salts, such as Na.So "INaC1 or Na, HPO" and the corresponding compounds of other metals, such as K, Li, B, are used as fusible additives , Ca, St, Sb. Balmain's luminous colors (Ca sulfide with a bismuth addition) can also be used, as can the oxides and carbonates of the alkaline earth phosphors. The alkali metal can be replaced by a number of other chemically related metals. Mixed "phosphors" such as BaBiK2B601.0 (after Lenard's abbreviated designation) can be used alone or as an additive to other phosphors. Furthermore, substances such as spades, cryolites, kaolins, chromium compounds, precious stones, semi-precious stones, diamonds, various quartzes and especially various alkali, alkaline earth and heavy metal silicates or their compounds with aluminum and magnesium as well as beryllium compounds, in particular oxides. Sulfides, uranium, thorium and similar compounds, also compounds of aluminum and beryllium and also alkaline earth metal compounds can also serve as phosphors Incidentally, the described composition of the luminescent lamps and the other design of the lamp do not form part of the invention, which consists only in the colloidal distribution of the luminescent substances in the luminescent lamp or in the pores of a carrier containing the luminescent substances.

The corpuscular rays can be cathode rays and anode rays are formed.

The lunuenescence radiator can form the anode, it can also form the shape ! have an anti-cathode or anti-anode. The cathode is expediently designed in such a way that that the cathode rays are concentrated on a more or less large spot on the anode will.

The lamps can already work with 100 volts. If the voltage is increased, the yield will be better. If you want to work below 500 volts, you use oxide cathodes or hot cathodes, as they are known for electron tubes. Dark red hot cathodes made from cesium can also be used. The power consumption for heating is only 1/10 of the total power requirement with correctly designed lamps. As electrode materials, all previously used for the same purpose in electron tubes can be used for both poles, e.g. B. molybdenum, Wolfrani, titanium, tantel or osmium. Since a high vacuum is advantageous for the lamp, it is advisable, as is also the case with generating a high vacuum, to use strong lamps and to ventilate the lamps in a known manner when current passes through the lamp.

The lamp can be operated with direct current or alternating current. When using alternating current is known because of the rectifier effect only used for one period. If you want to use both periods, you can use two Connect lamps in parallel to each other in such a way that each lamp has a half-period of the alternating current flows.

Claims (1)

PATENT FRUITS: i. Electric lamp in which a luminescence emitter is excited by corpuscular radiation, characterized in that the luminescence emitter contains the luminescent substances in colloidal distribution. -. Electric lamp according to Claim i, characterized in that the colloidal luminescent substance is distributed in the pores of a transparent or translucent, colorless or colored support arranged on the anode, anti-anode, anti-cathode or a special holder. 3. A method for producing luminescent lamps for electric lamps according to claim i and 2, characterized in that the luminescent substances are suspended in colloidal distribution in silicates, such as in particular water glass, precipitated with acids, washed and dried.