DE683162C - Electric lamp with impact radiation - Google Patents

Description

Electric lamp with impact radiation It is known by electron impact to generate visible and ultraviolet light on layers of suitable materials (Impact radiation). This process is also already in use for generating light electric lamps have been proposed. You have an electron source in one Glass bell housed and has the glowing under the influence of the electrons Substances arranged on the inner wall of the bell or on special anodes. As suitable A number of chemical compounds have been known for a long time. In many cases these are the same as those under the influence of ultraviolet light to shine. With this application of the substances to generate light, there is now a fundamental difficulty noticeable. This is generally the very minor one electrical conductivity of these luminous substances. This deficiency is also already there have been recognized, and additions of conductive materials, such as metals or conductive materials Sulfides or selenides are suggested. These conductive ones mixed in in the form of powder However, fabrics are dark in color and swallow what is created in the layer Light almost perfect. For this reason one was not allowed to use too much of the powder apply to get light; on the other hand, however, then became the purpose of the admixture of the powder, namely a sufficiently effective discharge for the current, is not achieved. The also proposed fine network. made of metallic conductors (wire mesh) was also not sufficient for the purpose, as the mesh size was not necessarily too large was allowed to grow small.

According to the present invention, this disadvantage of the previous one This eliminates impact radiation lamps and ensures adequate current dissipation with practically unaffected light emission achieved in that inside .of the lamp vessel under the impact of electrons, light or UV radiation emitting substance is attached to a layer of zinc oxide or niobium pentoxide. These substances are namely. borrowed electrically conductive and almost completely translucent. The application of these oxides as a special dissipative layer for this purpose was not yet known, although the properties of zinc oxide itself are based on work by O. F r i t s c h, Ann. d. Physik V, 22, 1935, 375. The zinc oxide z. B. is on the inner wall of the bell or on a special surface within the Glass bell attached, and then on the zinc oxide layer is the one under the electron impact creates a radiant layer. The light radiation can in this case :; white Zinc oxide penetrate and without white! teres get to the outside. Such a lamp ' gives the impression of a frosted glass bulb # N. so has the advantage of being even Distribution of radiation. -Both the proposed arrangement ensures that that every tiny particle of the layer of the radiating substance immediately appears a light, transparent or reflective layer of a conductor for the electric current is so that both light emission and current dissipation, can go on undisturbed.

In general, the zinc oxide will be found on the inside wall of a bell jar accommodate. But you can also put it on a specially designed for this purpose Attach the glass plate and provide it with conductors. The derivatives and connections do not cause any problems with the electrodes. It can e.g. B. by 1_lberzug a spot on the glass surface with metal powders and baking these powders a A very good conductive layer is produced and the lead wire is soldered onto it will.

Since the zinc oxide is a white body, the visible light is very much reflects well, a metallic base can also be placed inside the lamp vessel are arranged, which one then expediently used as an anode and which in turn then the conductive zinc oxide layer and also the layer to be excited carries.

In general, the zinc oxide is already sufficiently conductive when it is dusted onto the wall of the bell in the form of a dense powder or produced by oxidation of a vapor-deposited zinc metal coating. In the vacuum, the zinc oxide then easily receives a resistance that is sufficiently low for the present purpose, in the order of about i ... io ohm cm. If necessary, chemical reducing agents, such as traces of organic binders, used in small amounts, for the zinc oxide powder or by using gaseous reducing agents such as hydrogen, the conductive state of the zinc oxide, which is extremely small, can hardly be detected Deficiency of oxygen originates, generates or improves and approximately achieve the resistance specified above. Niobium pentoxide also fulfills the purpose of the invention. All substances previously used for impact radiation can be used for the light emission. To reduce the space charge, a small amount of gas is often in the discharge vessel advantageous.

A cataphoretic process can also be used to apply the layer to be used.

Claims (2)

PATENT CLAIMS: i. Electric lamp with impact radiation, thereby characterized in that inside the lamp vessel a under the impact of electrons Substance emitting light or UV radiation on a layer of zinc oxide or niobium pentoxide is appropriate. 2. Method of making a. Lamp according to claim i, characterized in that marked; that the zinc oxide or the niobium pentoxide so long under oxygen deprivation, expediently in the vacuum, is heated until there is sufficient electron conductivity having.