PL33795B1 - - Google Patents

Description

The invention relates to discharge lamps with a luminous material and to a method of making such material. Dutch Patent No. 68219, it has been proposed to use a luminous material in discharge lamps which is composed of magnesium oxide, silicon dioxide and titanium dioxide, and specific ratios of the three oxides are given. Such material luminous in blue when they hit nan electrons, and gives great efficiency in converting energy of hitting electrons to blue light. Polish patent No. 33654 describes a discharge lamp with a luminous material which is made of silicon dioxide, titanium dioxide and one or more oxides of calcium, strontium, cadmium, sodium or lithium, possibly including magnesium oxide. The specific ratios of these oxides are also given therein. These materials glow blue when exposed to electrons or shortwave ultraviolet rays. In addition, other luminous materials are known which contain titanium or titanium dioxide. The invention also relates to the use of luminous materials which make it possible to transform the energy of electrons or short-wave ultraviolet rays into light from blue to green. Attempts are made in this direction to increase the number of these materials, so that for a specific purpose it is possible to choose from a greater number of materials, and it is possible to perfectly apply the special properties of the selected material without the need to introduce one or more no The discharge lamp according to the invention comprises one or more luminous materials which are made of titanium dioxide, one or more zirconium, hafnium, thorium, germanium or tin oxides, optionally together with basic and acid oxides. Basic oxides which can be used in the luminous materials are sodium, potassium, rubidium, cerium, lithium, barium, calcium, strontium, magnesium, beryllium and zinc oxides. Acid oxides, on the other hand, are, for example, S02, Bi, Os, P2 O5, and SiO. The amount of the titanium oxide is expediently chosen to be at least 0.001 mole% and at most 50 mole% of the total. the amount of oxides of titanium, zirconium, hafnium, thorium, silicon, germanium and tin. Materials in which these oxides are matched in this ratio show the greatest efficiency in converting energy of striking rays or electrons into light. As an example of lamps Discharge lamps should be mentioned Braun lamps and discharge lamps with vapor of mercury. In the lamps of the first group, light is caused by electrons, and in the latter - by ultraviolet rays. In lamps according to the invention of the stack, there is a tetravalent titanium, which in the crystalline lattice of the material partially replaces the atoms of the above-mentioned elements (zircon, hafnium , thorium, silicon, germanium or tin). In this way, the amount of titanium present in the material can be much greater than that normally used in activators in a luminous material. In one lamp according to the invention, the materials listed below are used. 1. Zirconium oxide, activated 0.001 - 10

Claims (4)

1. Claims v 1. A discharge lamp with one or more luminous materials, characterized in that the material or materials are made of titanium dioxide, one or more zirconium, hafnium, thorium, germanium or tin oxides, or including acid or basic oxides. 2. A discharge lamp according to claim 1, characterized in that the acid oxides are composed of sulfur trioxide, boron trioxide, phosphorus pentoxide or silicon dioxide. 2. The discharge lamp according to claim 3. I, characterized in that the basic oxides are formed from one or more oxides of sodium, potassium, rubidium, cesium, lithium, barium, calcium, strontium, magnesium, beryllium or zinc. 4. The discharge lamp according to claim The method of any of claims 1 - 3, characterized in that the amount of titanium dioxide is at least 0.001