SU449398A2 - Spectral high-intensity lamp - Google Patents

Description

one

The present invention relates to a class of gas-discharge light sources, in particular to spectral high-intensity lamps emitting narrow resonance lines of various chemical elements. Such light sources are used in various spectrophotometric devices, for example, in devices for atomic adsorption analysis.

According to the main author. St. No. 264551 is a well-known spectral high-intensity lamp in which disk electrodes made of metals, whose spectrum is to be obtained, are placed between the oxide cathode and the anode, and placed in ceramic cups open from the side of the longitudinal axis of the plasma cord. In these disk electrodes, central holes are provided, which have a variable diameter, increasing from the cathode of the arc discharge to the anode. Between these disk electrodes and the anode, a glow discharge is ignited and maintained, which, due to the cathode sputtering effect, ensures that a large concentration of atomic vapor is obtained inside these holes. Atomic vapor is excited in the positive column of the arc discharge passing through the holes in the disk electrodes.

The disadvantage of this lamp is that it does not provide the necessary stability of the light parameters.

During the glow discharge operation, due to the cathode sputtering effect, an intensive sputtering of the disk electrode material occurs. Spray products are deposited on all parts of the assembly and flask. There is also dusting of the outer surface.

ceramic cups to form a continuous conductive metal film. As a result of this, after several hours of lamp operation, a spontaneous transfer of the glow discharge to the metallized surface of the ceramic cup, which has the potential of a disk electrode, occurs. This causes a significant intermittent change in the electrical and light parameters of the lamp.

1 of the invention is to improve the stability of the light parameters of the lamp.

The problem is solved by making the base of the disk electrodes with an annular groove extending

under the ceramic cup and ensuring the formation of a gap between the base of the disk electrode and the cup. It is advisable to choose the size of the gap and annular groove depending on the pressure of the buffer gas.

As a result of a rupture in the metallized surface of the ceramic cup, which prevents the potential of the disk electrode from arising on it, the light and electrical parameters of the lamp are stable during the whole service life.

FIG. 1 shows a spectral high-intensity lamp emitting spectra of copper, manganese, and chromium; in fig. 2 - cathode assembly.

The lamp is a cylindrical glass cylinder 1 with a flat window 2 for exiting the radiation, made of a material that is transparent in the wavelength range of 0.2-2 µm. The anode 3, the effective thermal cathode 4, and the disk electrodes 5, placed in the ceramic plates 6, are assembled on a flat glass leg 7 using mica disks 8. One of the disk electrodes is made of copper-manganese alloy, and the inner surface of the central hole of the other is covered pure chrome. The pins of the legs, on which the assembly is assembled, are placed in ceramic tubes 9. The lamp is provided with a base 10 with dimensions and pins arranged under a standard lamp panel. There are a through hole 11 and a circular groove 12 in the disk electrodes, where the nickel tape or wire is welded to implement the current lead from the leg pin.

The bases of the disk electrodes are made with an annular groove 13 and an annular protrusion 1.4, which is disposed with a gap 15 in the central hole 16 of the ceramic cup. The internal volume of the lamp is filled with buffer gas to a pressure of 4-6 mm Hg. Art. Between the disk electrodes 5 and the anode 3, a glow discharge is ignited, due to the cathode sputtering effect.

obtaining inside the holes 11 in the disk electrodes a certain concentration of atomic vapor which is excited in the positive column of the arc discharge passing through the holes of these electrodes.

Subject invention

Claims (2)

1.Spectral high-intensity lamp according to ed. St. No. 264551, characterized in that that, in order to improve the stability of the light parameters of the lamp, the bases of the disk electrodes are made with an annular groove, extending under the ceramic cup and forming a gap between the base of the disk electrode and the cup. 2. The lamp according to claim 1, characterized in that, in order to eliminate the cathode sputtering effect in the gap, the size of the gap and annular groove is selected in depending on the pressure of the buffer gas. shh Fig 1 7.5 srig 2