RU2085871C1 - Device for spectral excitation - Google Patents

Abstract

FIELD: instruments for spectral analysis. SUBSTANCE: device has six electrodes which are located around circle and are connected to six-pole power supply which provides possibility to ignite high-voltage, low-current discharge between tips of electrodes. Axes of electrodes are located on cone surface which generatrix is at acute angle to axis of plasma torch. Axes of channels are located on articulated cone surfaces of tube and housing, in which lower part filter is rigidly mounted. Cylindrical surfaces, inner surface of housing and external surface of tube provide ring chamber in which radiators are located. Inner diameter of tube is less than distance between ends of opposite electrodes. EFFECT: increased functional capabilities. 1 dwg

Description

 The invention relates to electrical discharges used for the evaporation of matter and the excitation of spectra in emission spectral analysis.

A device for producing a multi-electrode arc discharge in spectral analysis containing three electrodes horizontally located at an angle of 120 ^o [1]
The closest in technical essence to the claimed is a device for exciting the spectrum, containing six placed around the circumference of the electrodes connected to a six-phase power source, capable of igniting between the working ends of the electrodes high voltage low-current discharge, and the working ends of the electrodes are placed in the same horizontal plane at the same distance R each relative to another, also related to the phase current of the phase source. ratio of R≅100≅I _phases. . [2]
A disadvantage of the known device is the contamination of the surface of the electrodes during the axial supply of fine aerosol, which leads to the appearance of the effect of "memory".

 The invention is aimed at reducing the effect of "memory".

 To this end, in a known device comprising six circumferentially placed electrodes connected to a six-phase power supply, configured to ignite between the working ends of the electrodes a high-voltage low-current discharge, which are placed at the same distance R relative to each other, connected with the phase current of the phase source. ratio of R≅100 phases. the axes of the electrodes are located on a conical surface, the generatrix of which is an acute angle with the axis of the plasma torch, in the channels, the axes of which are located on the mating conical surfaces of the casing and the tube, and the cylindrical surfaces, the inner casing, and the outer tube form an annular chamber in which the radiators are located, this inner diameter of the tube is made less than the distance between the ends of the opposite electrodes.

 This arrangement of the electrodes improves the aerodynamics of the blower, ensuring their protection against contamination, and, thereby, reduces the effect of "memory".

 The drawing shows a diagram of the proposed device in the context of the axes of oppositely located electrodes.

 The device contains six electrodes 1 connected to a high-voltage six-phase power source (not shown) generating a high-voltage discharge, forming a plasma tent 2, into which the aerosol under investigation is fed 3. The axes of the 4 electrodes 1 are located equidistant on the conical surface, which forms an acute angle with the axis 5 of the plasma torch 2. The electrodes 1 are located in cylindrical channels 6 formed by the walls of the tube 7 and the housing 8. The axis of the channels 6 are located on the mating conical surfaces of the tube 7 and 8 and the housing and coincide with the axes 4.

 The cylindrical surface 9 and 10 of the housing 8 and the tube 7 form an annular chamber 11.

 In the lower part of the housing 8 there is a cylindrical filter 12. In the annular chamber 11 there are radiators 13 mounted together with the tube 7 and the filter 12 on a plateau 14.

 The inner diameter of the walls 15 of the tube 7 is made less than the distance between the ends of the opposite electrodes 1.

The working ends of the electrodes 1 are connected with the phase current of the source of I _phases. ratio of R≅100 I _phases.
When voltage is applied to the electrodes 1, a high-voltage discharge is ignited with a current flowing between adjacent and diametrically opposite electrodes 1, forming a plasma torch 2. The analyzed aerosol 3 is supplied to the base of the torch 2. Aerosol flow 3 diaphragmed by the inner walls 15 of tube 7, whose inner diameter is less than the distance between the ends of the opposite electrodes, is introduced into the torch 2 without contact with the working surfaces of the electrodes 1.

 This is ensured by the arrangement of the axes of the electrodes 1 at an acute angle 15 of the axis 5 of the torch 2, which makes it possible to form an effective annular air flow 15 supplied along the surface of each of the electrodes 1, preventing contamination of their tips by particles of a controlled aerosol 3. The protective flow 16 is activated by heating the atmosphere in the chamber 12 radiators 13, in which the electrodes are placed 1. The formation of streams 16 is carried out by cylindrical channels, the axes of which are located on the mating conical surfaces of the end face t Ubus 7 and housing 8. The stream 16 is cleaned of possible air pollution by an annular filter 11, which is hermetically mounted with the housing 8 on a plateau 14.

 An example of the device.

 The device is made in the form of a spectrum excitation source containing six copper electrodes 1 with a diameter of 3 mm, sharpened at the end, with an acute angle at the apex, mounted on copper brackets equipped with a set of washers that comprise radiators located inside a 100 mm textolite body; tube alundum.

The power source is a single-phase transformer battery providing U _peak. 10 sq. and I _phases. depending on battery power: at I _phases. = 0.04 A the working area of the plasma tent is 40 mm with a diameter of a circle formed by the tips of the electrodes, 22 mm.

Claims (1)

 A device for exciting a spectrum comprising six circumferentially placed electrodes connected to a six-phase power source configured to ignite a high-voltage low-current discharge forming a plasma torch between the working ends of the electrodes, the electrodes being installed so that their working ends are placed at the same distance R from each other other, and the numerical value of R is selected depending on the magnitude of the current I of the phases of the source phase, characterized in that it further comprises a housing, tube, ring fil р and radiators, while the tube is placed inside the case so that the inner cylindrical surface of the case and the outer cylindrical surface of the tube form an annular chamber, the upper part of the body and the upper part of the tube form channels whose axes are located on the mating conical surfaces of the tube and the body, the electrodes are installed in annular chamber so that the working ends of the electrodes are placed in the channels and the axis of the electrodes are located on a conical surface, the generatrix of which is an acute angle with the axis of the plasma On the torch, the inner diameter of the tube is less than the distance between the working ends of the opposite electrodes, the radiators are placed in the annular chamber, and the annular filter is sealed in the lower part of the housing.