SU1410658A1 - Device for introducing samples into liquid chromatograph - Google Patents

Description

one

KtlOfi

The invention relates to sampling devices for complex rastors in liquid chromatography and will be found. application in chemical, pharmaceutical and microbiological industries, as well as in biology and medicine.

The purpose of the invention is to improve the measurement accuracy of the value of the sample injected, automate the measurement process and eliminate sample contamination.

The drawing shows a diagram of the device input samples in the liquid chromatograph.

The device consists of a vessel 1 with a mobile phase, means 2 for supplying a mobile phase, a switching multi-way valve 3, a vessel 4 with a sample, divided into an empty membrane 5 into bands with the sample and a cavity B with a mobile phase, an additional vessel 6 , pressure sensor 7, additional stop valve 8, control device 9, valves 10 and 11,

A chromatographic column 12 is installed at the outlet. Vessel 4 is additionally equipped with an auxiliary valve 10, the valley of the sample injected and valve 11 for the valley of the mobile phase.

The device works as follows.

The mobile phase from vessel 1 is sucked in by means of the supply 2 and through channels 13 and 14 of the multi-way valve 3 is injected into the chromatographic column 12. I

For implementation, the input of the sample multi-way valve is switched so that the means 2 through the channels 15 and 16 inject the eluent into the lower cavity B of the vessel 4. At this time, the mobile phase is taken not from vessel 1, but from additional vessel 6 through additional valve 8. By As cavity B is filled, the separation membrane in la 5 is lifted and the sample from cavity A of vessel 4 through channels 1 and 14 is injected into the chromatographic column 12,

Since the pressure sensor 7 is connected to the lower part of the Additional vessel 6 and the cavity B to the upper (gas) cavity, it measures the pressure of the liquid column in the vessel 6 (in the particular case, cavity B can be connected to the atmosphere)

82 As the sampling phase is taken from condem 6, there is a change in the height of a crowd of fluid in it. This change in height multiplied by the cross-sectional area of the vessel (taking into account the density of the mobile phase) will be a measure of the volume of the injected sample.

The signal of the pressure sensor 7 is supplied to the control device 9, where it is compared at the comparison unit 18 with the dose value setting set at the block 19. At the moment of equal signal magnitude and the task setting signal, the comparison unit carries out the command for switching the taps. The mobile phase again flows from vessel 1 through channels 13 and 14 to column 12. At that time, by opening valves 10 and 11, a new sample of the sample is introduced into cavity A of chamber 4 by means of a syringe or pump 22, and cavity 11 is discharged from cavity B through valve 11 into vessel 6. The signal level of the pressure sensor is restored, valves 10 and 11 are closed, and the device is ready to enter very-. rare sample.

If the volume of vessel 4 is much larger than the volume of the injected sample, then topping up vessel 4 can be performed less frequently as required.

needs

 -.

Sample entry rate (

the strength of the means 2) can be determined by differentiating the signal of the pressure sensor 7 by the block 20; This speed is indicated by the measuring device 21,

The technical and economic effect of the proposed invention in comparison with the prototype consists in increasing the accuracy of measuring the value of the sample injected and increasing the degree of automation of the sample introduction process itself. To enter a sample, it is sufficient to issue a command, and the presence of an operator is not necessary. The device switches itself off after a sample of the desired dose is entered. In addition, the manufacture of sample vessels is simplified, their cost is reduced.

Claims (2)

Formula invented " 1. The device of input of tests in zhddkost-. a chromatograph containing a series-connected cylindrical vessel with a mobile phase, a means for supplying a mobile phase, a switching multi-way valve and a sample vessel. divided by a mobile element into two cavities, one of which is filled with a sample, and the other with a mobile phase, about t l. and that, in order to accurately measure the value of the sample injected and automate the measurement process, it is equipped with an additional cylindrical vessel, shut-off valve and pressure sensor, the mobile unit with a sample made in the form of a blunt membrane, an additional cylindrical vessel parallel to the cylindrical vessel with In a floating phase, an additional stop valve is installed between the additional cylindrical and main vessels of the mobile phase, the pressure sensor of one measuring cavity is connected to the lower part of the additional vessel, and the other to the upper gas cavity of the additional vessel of the mobile phase. 2. The device according to claim 1, 1 and 2, so that it is equipped with a measurement unit for the value of the sample to be injected and a control unit for switching the cranes. domb