SU1096501A1 - Device for measuring metering pump volume - Google Patents

Abstract

A DEVICE FOR MEASURING A VOLUME OF A DISPENSER containing two vessels for a working fluid, a scale, a three-way valve, characterized in that, in order to improve measurement accuracy, a tube for connecting a dispenser is connected to one of the three-way valve fittings, and the other two are connected to vessels for a working fluid one of which is mounted on the scales, and the volumes of the tube for connecting the dispenser and the three-way valve are not more than the maximum dosed volume. | CO

Description

The invention relates to analytical instrumentation and can be used to measure small volumes of dispensing syringes used in gas and thin-layer chromatography, syringe pumps used in liquid chromatography, and also syringes used for medical purposes. A device for measuring small volumes of syringe dosing is known, containing a scale, a vessel for working fluid, in which the measured volume of the syringe is filled with a liquid of known density and the mass of this liquid is determined by weighing after displacing it into the vessel 1J. The drawback of the device is the low measurement accuracy due to the presence of air bubbles in the dose of liquid. The closest to the invention of the technical essence and the achieved result is a device for measuring the volumes of dosing devices containing communicating vessels, filling line of vessels with working fluid, trap, adsorber, flow meter, inert pelvis cylinders, pan weights and three-way C 2 J. valve. The disadvantages of the known installation are low measurement accuracy and design complexity. The purpose of the invention is to improve the measurement accuracy. This goal is achieved by the fact that in a device for measuring the volume of the dispenser containing two vessels for the working fluid, a scale, a three-way valve, a tube for connecting the dispenser is connected to one of the fittings of the three-way valve, and the other two are connected which is installed on the scales, with the tube volumes, the dl of the connection of the dispenser and the three-way valve being made not more than the maximum dosing volume. The drawing shows a device for measuring the volume of the dispenser. The device contains a pipe 1, connected: with a needle of a measuring syringe (metering device) 2 with a three-way valve 3, a tube 4 connecting the vessel 5 with the working fluid mounted on the balance 6, and a pipe 7 connecting the three-way valve 3 with the vessel.8 . The part of the tube 4 connecting the vessel 5 with the passage fitting 9 mounted on the body of the balance 6 is made of an elastic capillary, for example a fluoroplastic. The vessels 5 and 8 with the working fluid communicate with the atmosphere through filters 10, filled with an adsorbent that absorbs vapors of the working fluid, for example, using carbon tetrachloride or methyl iodide as the working fluid. A vessel 11 is installed on the right pan of the scale to compensate for the weight of the vessel 5 with liquid. The device works as follows. The needle of the measured syringe 2 is connected to the tube 1. The syringe is positioned needle up and the valve 3 is in the position connecting the tubes 1 and 7. Type the working fluid in the syringe, switch the valve (see drawing) and squeeze the fluid into the vessel 5 The proposed operations are repeated several times until all the lines are filled with the working fluid, which is determined by the termination of air bubbles in the vessel 5. Then the valve is set to positions 1-7 and balanced on the weights with the help of weights . In order to take into account the influence on the results of weighing the elastic capillary connected to the vessel mounted on the scales, the readings of the optical scale of the scales are determined, for which a load of 10 mg is established using the kettlebell gear and the readings of the optical scale are taken. The sensitivity coefficient of the balance is determined by the ratio of the number of small divisions of the scale to the weight of 10 mg, which is taken into account later when translating the readings of the scale into mg. A prescribed amount of dosing is drawn into the syringe and, turning the valve in position 1-4, dispense the contents of the syringe 2 into the vessel 5, balance and read the balance. The measured dosing volume of the syringe at the proposed facility is determined by the increase in the mass of the liquid in the vessel 5. The dosing volume is carried out at the H-temperature of the experiment according to the known plot number 10965014

working fluid. In the measurement, the volumes of the tube 1, the three-way scientific research institute of the volumes of micro-syringe spraying, the screen 3, and the dispensed volume of the syringe carry out multiple dosage-such that the totals, then take the readings of the volume of the tube 1 and three-way weights, the maximum volume of the bath is determined by dividing the method, which excludes the error due to the volume obtained by the number of doses of gas pusphey per dosed dose. The volume when the dose is taken from the vessel 8.

Claims (1)

DEVICE FOR MEASURING VOLUME OF THE DOSER, containing two vessels for the working fluid, scales, three-way valve, characterized in that, in order to increase the accuracy of measurement, a tube for connecting the dispenser is connected to one of the fittings of the three-way valve, and the other two are connected to the vessels for working fluid , one of which is mounted on the scales, and the tube volumes for connecting the dispenser and the three-way valve are made no more than the maximum dosed volume.