RU167838U1 - SPRAY SYSTEM POSITIONING DEVICE - Google Patents

Abstract

The utility model relates to the field of spectral analysis and relates to a device for positioning a spray system in a scintillation spectrometer. The positioning device includes a laser radiation source, a spacer with a hole installed in the exhaust pipe of the spectrum excitation source. The technical result consists in increasing the accuracy of positioning. 1 ill.

Description

The proposed utility model relates to the field of instrumentation for controlling the alignment of object openings and can be used, in particular, in spectral analysis for tuning spectral equipment, as well as in plasmatrons in which plasma is produced by the action of a microwave field on a gas stream ..

A device for monitoring the alignment / Patent of the Russian Federation No. 2242709 G01B 5/24, 2004 / The device comprises a housing, a mount, with which one end of the housing is mounted on the first shaft, a linear displacement meter with a T-shaped tip mounted on the second end housing with the possibility of contact with the second shaft.

Known installation for laser processing of materials / RF patent for utility model No. 94892 B23K 06/26/2010 / To improve the accuracy of the positioning of the beam and ensure the specified accuracy of processing parts, the installation for laser processing of products includes a laser radiation source 1, along the optical axis 2 which has a focusing lens 3 and a scanning device 4, containing optical wedges 6, 7 enclosed in a holder 5 and a holder rotator 8 with a drive 9. A scanning device 4 is placed between the focusing lens 3 and the working table 10.

Known scintillation atomic emission spectrometer / RF patent for PM No. 88143 G01J 3/443 2009 g / containing a source of spectrum excitation, a polychromator, a unit for forced uniform supply of a sample, a unit for converting a sample into a fine aerosol, mounted in front of a spectrum excitation source and an analytical registration system signals

The objective of the proposed utility model is to create a positioning device for the spraying system, which makes it possible to ensure that all components are on the optical axis of the polychromator and are strictly pine.

This object is achieved in that the positioning device of the spray system in a scintillation spectrometer, including a spectrum excitation source and a polychromator, contains a green laser source, a spacer with a hole installed in the exhaust pipe of the spectrum excitation source.

The device diagram is shown in FIG. one.

In a scintillation spectrometer, to prolong the evaporation of particles and a stable analytical signal by increasing the residence time in the radiation source, an extended cyclone-type plasma torch 135 mm long (plasma torch length 150 mm) is used; radiation is taken from the central zone of the plasma torch with a diameter of 3-4 mm.

In order to increase the degree of entry of particles contained in the sprayed liquid into the plasma, it is necessary to adjust the system (spraying needle, burner and polychromator) so that all its components are on the optical axis of the polychromator. The burner includes a plasma forming tube - 1 (internal diameter 26 mm), an exhaust pipe - 2 (with an internal diameter of 18 mm), which must be installed in one line, in addition, the spraying needle 3 of the ultrasonic atomizer was located strictly on the optical axis of the polychromator - 4. The outer diameter of the spray needle is 1.05 mm and the inner diameter is 0.75 mm. The diameter of the aerosol stream from the atomizer at a distance of 15 mm from the dusting end of the needle is about 1.5 mm.

To install (position) the spraying needle and plasma torch strictly on the optical axis of the polychromator, the following device is proposed, which includes a laser radiation source - 5, a spacer - 6 with a hole with a diameter of 1.5 mm, installed in the exhaust pipe of the burner.

The spacer is designed to accurately position the exhaust pipe relative to the plasma. When the tube alignment deviation is more than 0.5 mm, the shape of the plasma torch is distorted and the entry of particles into the plasma sharply worsens.

The device operates as follows:

First, a laser device is mounted on the optical axis of the polychromator and it is checked that the laser beam passes into the slit of the polychromator without interference, then the burner is brought out onto the optical axis so that the beam gives a spot of maximum brightness on the slots of the polychromator, then a spacer with a small hole is inserted using screws, adjusting the position of the exhaust pipe of the burner achieve the obtained brightness of the laser spot. The position of the plasma forming and exhaust pipes is fixed. Next, adjust the spray needle, the brightness of the beam passing through the spray needle (hole 0.75 mm) and spacer (hole 1.5 mm).

The laser radiation is directed through the burner to the slit of the polychromator, so that a bright light spot appears on the center of the slit cover. The laser device is mounted on the optical axis of the polychromator. Then insert a spacer with a small hole in the exhaust pipe of the burner, and the stain disappears, with the burner adjusting screws (not shown), a bright light spot appears on the cover. Then put the atomizing needle of the ultrasonic atomizer and, changing its position, achieve maximum illumination of the center of the gap of the gap. After adjustment, all devices are tightened and fixed.

The device makes it possible to precisely establish the source of spectrum excitation, the needle of the ultrasonic atomizer and the optical axis of the polychromator.

Claims (1)

A device for positioning a spray system in a scintillation spectrometer, including a spectrum excitation source and a polychromator, characterized in that it further comprises a laser device, a spacer with a hole installed in the exhaust pipe of the burner, which is a spectrum excitation source.

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