RU2035987C1 - Dosing apparatus for steam and gas and gas mixtures - Google Patents

Abstract

FIELD: chemical industry. SUBSTANCE: apparatus has a housing, sources of the impurity steam, a dilution regulator and a starter. The sources of the steam of impurities are disposed in exchangeable cartridges inserted hermetically into the cradles made outside the housing and constructionally connecting the dilution regulator with the starter. The set of exchangeable cartridges can contain impurities with different physical and chemical properties and with different certified values of the equiponderant concentration from 10^-4 to 10^-11 of the volume fraction. The dilution regulator additionally dilutes the impurity in the range of three orders, with the dilution coefficient being read off to the device scale. EFFECT: enhanced procedure of the gas analysis. 2 cl, 3 dwg

Description

 The invention relates to techniques for gas analysis, in particular to devices for dispensing gas impurities, and can be used for verification or certification of detectors and gas analyzers in virtually any range of concentrations of gas impurities with a variety of physico-chemical properties.

 The aim of the invention is to improve the operational properties of the device.

 In FIG. 1 shows a device for the preparation of vapor-gas mixtures, section; figure 2 section aa in figure 1; figure 3 view B in figure 2.

 The device comprises a metal housing 1 of two parts, sealed with a fluoroplastic sleeve 2 using a thread with a union nut. In the sleeve is a movable rod 3 with a groove 4 of variable cross section, which serves as a regulator of the fraction of the carrier gas stream.

 The rod is connected by a worm gear 5 with a handle 6, the position of which is determined on a scale 7. In the upper part of the housing there is a trigger device for the valve plug 8 with two annular grooves 9 and a longitudinal groove-jumper 11. The inlet fitting 12 is connected by a tube 13 to the lower part of the housing, and through the narrowing 14 is communicated with the upper annular groove. The outlet fitting 15 is connected to the lower groove. The lower receiving slots 16 are in communication with the space under the tap at the level of the filter fabric 17. The upper slots 18 are located at the level of the valve plug between the grooves 9. Replaceable cartridges 19 are inserted by two fittings into each pair of sockets 16 and 18. The cartridges contain sorbent 20 between the grids 21. Sorbent covered with a dust swab 22.

 The receiving sockets 16 and 18 are made in the form of fluoroplastic sleeves with annular elastic gaskets located inside 23. The inlet fitting 24 and the output 25 of replaceable cartridges have a diameter equal to the diameter of the fluoroplastic sleeves. The bases of the fittings 24 and 25 are made of a larger diameter for airtight insertion into the ring gaskets.

 The entire device is mounted on a tripod rack (not shown).

 The device operates as follows.

 The main stream of pure gas (usually from 0.3 to 3 l / min) enters through the nozzle 12 and leaves through the nozzle 15 with a pressure drop across the restriction 14. The proportion of the main stream branched to pass through the cartridge with a layer of sorbent (impurity carrier) passes through the tube 13, the capillary channel formed by the groove 4 on the rod 3 and the wall of the sleeve 2, and through the fittings of the replaceable cartridge 19 it enters the main stream in the longitudinal groove 11 of the valve 8. In the layer of sorbent 20 of the replaceable cartridge 19, this fraction acquires an equilibrium impurity concentration and additionally diluted clean flow in groove 11.

The cross-section of the bypass capillary channel regulating the branch share has the shape of an equilateral triangle and changes its depth along the entire length of the stem according to the logarithmic law. The certification schedule of the device lgK _p , depending on the reading of n revolutions of the position scale, the risks of the pen are checked by independent methods: by flow penic by comparing with a cascade diluent of gas impurities or with the readings of aerosol photometers. All three methods give quite satisfactory convergence of the results. Between the extreme positions of the rod, K _p changes by approximately 4 decimal orders, and in the range of 3 orders, there is a linear dependence logK _p ≈n. Cartridges with various impurities are stored in a numbered sliding cash register with short-fitting fittings using a fluoroplastic tube.

 The cartridges inserted into the device are inoperatively stored in the position of the groove 11 on the valve plug in the gap between the inlet receiving sockets.

Claims (3)

 1. DEVICE FOR DOSING STEAM-GAS AND GAS MIXTURES, comprising a housing with inlet and outlet fittings of the carrier gas, an impurity source, a regulator of the proportion of the carrier gas stream branched to the source, and a starter for connecting the source, characterized in that, in order to improve operational properties of the device, the input and output fittings are made in the form of sockets, the input are located behind the regulator, the output is at the level of the starting device, and the impurity sources are made in the form of replaceable cartridges with two fittings, seal but sealed in the input and output jacks.  2. The device according to claim 1, characterized in that the starting device is made in the form of a valve with a stopper having two annular grooves made at the level of the carrier gas inlet and outlet sockets, interconnected by a longitudinal jumper groove.  3. The device according to claim 1, characterized in that the sockets have fluoroplastic sleeves and annular elastic gaskets, and the nozzles of removable cartridges have an outer diameter in the end part corresponding to the diameter of the fluoroplastic sleeves, and the base of the nozzles are made of a larger diameter for sealing in the annular elastic gaskets.

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