SU993033A1 - Diffusion micro-weigher - Google Patents

Description

This invention relates to metering devices and is intended for high-precision gas analysis in mass spectrometric and chromatographic studies, as well as other gas research methods applied to laboratory and industrial analysis in chemical, petroleum and other industrial fields and in scientific research.

A dynamic dosing unit is known, in which saturated vapor of a liquid is diffused into a diluent gas stream, which makes it possible to obtain vapor-gas mixtures in the range of small microconcentration P t -

A disadvantage of the known dispenser is the low accuracy of the counting of the quantity; dosed substance.

The closest in technical essence to the present invention is a diffusion dispenser, comprising a housing with a seal, a diffusion assembly in the form of a membrane, a restrictor. the area of diffusion and filling and drainage pipes. In the dispenser operation scheme, the saturated vapors of the analyte diffuse through the membrane and are transported by the diluent gas. The concentration of the diffused vapor is determined by the photocolorimetric method and is confirmed by weighing the dispenser for a certain period of time T2.

The substance is fed into the metering unit through a filling nozzle with an open drainage nozzle, after which the nozzles are sealed with nuts. Due to low

The 10 sealing properties of the nuts are the last, after several tens of cycles open-closed, wear out and an uncontrollable gas leak occurs.

15

The overpressure created by the diffused substance in the gap between the diffusion area limiter, molded as a removable perforated plate, and the diffusion node membrane, decreases the diffusion area, i.e., affects the reproducibility of the concentration of diffused vapor – gas mixtures, which reduces the range of dosage concentrations. .

The purpose of the invention is to expand the dosage range by varying the concentrations of the vapor-gas mixture. .

The goal is achieved by

30 that the dispenser is provided with an intermediate

the container with the diluent gas inlet nozzles, while the diluent gas tank is installed in the upper part of the housing, and the dosing tank is installed in the lower part, the diluent gas tank and the dosage container connect the Nene to the housing with sealing sleeves, and the diffusion unit is in the form of two nozzles mounted on both sides of the intermediate tank coaxially.

In addition, the dosing container is made in the form of a removable glass with a scale of the weight of the substance to be dosed, and the sealing sleeve is in the form of a pressed non-metallic sleeve, the profile of the sealing surface of which is formed by a truncated hollow cone

The drawing shows the proposed diffusion microbatcher.

Diffusion microbagger housing 1, made in the form of a two-cylinder with a through-hole combination, intermediate tank 2 with fittings 3 and 4 for the input and output of the diluent gas. On both sides of the intermediate tank 2, through the seals 5, the nozzles b and 7 of the diffusion unit are tightly mounted. Top and bottom of housing 1 are installed, respectively, a diluent gas tank 8 with channels 9 and 10 for transporting diffused vapors and a dosing tank 11 made in the form of an easily removable glass beaker, calibrated in units of the weight of the product to be dosed. The containers 8 and 11 are hermetically tightly connected to the housing 1 by means of a sealing sleeve made in the form of a nonmetallic sleeve 13 pressed by a nut 12, the profile of the sealing surface of which is formed by a truncated hollow cone.

 Diffusion microdosing works as follows,

A certain amount of the analyte is poured into the dosing container 11, installed at the bottom of the housing 1 and sealed with a sealing sleeve 13 and a nut 12. The diffusion microbatcher prepared for operation is thermostatted, for example, in a water ultrathermometer with an accuracy of 0. The vapor of the analyzed product, located under the spinneret b, diffuses through it into the intermediate tank 2, creating in its volume a known concentration.

From the intermediate tank 2 through the die plate 7, diffused vapors of a given concentration fall into the tank 8 and are transported by a diluent gas, for example, air or nitrogen from channel 9 to channel 10.

To prepare a vapor-air mixture with a dosing product concentration lower than the dosing capacity at the lowest thermostat temperatures f from 0 to 10 ° C) and the minimum diameters of the nozzles b and 7 (of the order of 0.08 mm), through the intermediate tank 2 from the fitting 3, a small (in the order of 50 ml / h) and a stabilized diluent gas stream, which can be emitted, for example, through an absorber (not shown) is passed through the nozzle 4.

The concentration of the diffused vapors of the dosed product at the outlet of the microbatcher after the establishment of a stationary diffusion flow is determined by any known method and confirmed by weighing the dosing tank 11.

Claims (2)

1. A diffusion microdosing unit containing a housing with seals and a diffusion unit, characterized in that, in order to expand the dosing range by varying the concentrations of the vapor-gas mixture, it is equipped with an intermediate tank with dilution gas inlet and outlet fittings the diluent gas tank, and in the lower part, the metering tank, the gas diluent tank and the metering tank are connected to the housing with sealing sleeves, and the diffusion unit is made in the form of two dies, on both sides of the intermediate tank coaxially. 2, Microdosing device according to claim 2, characterized in that the dosing container is made in the form of a removable cup with a scale of the weight of the substance to be dosed, and the sealing sleeve in the form of a pressed non-metallic sleeve, the profile of the sealing surface of which is formed by a truncated hollow cone. Sources of information taken into account in the examination 1.Kollerov D.K. Metrological basis of gas analytical measurements. M., Standardizdat, 1967, p. 174. 2. USSR Author's Certificate No. 582457, cl. G 01 F 13/00, 1974 (prototype).