SU1681234A1 - Device for feeding liquid samples into capillary column - Google Patents

Abstract

The invention relates to the field of analytical instrumentation and can be used in analytical chemistry, biological research, molecular biology, biotechnology, medicine using high performance chromatographic and electrophoretic instruments in which capillary separation columns are installed. The purpose of the invention is to improve the accuracy and improve the reproducibility of the sample supply. The sample feeder to the capillary column contains a flow divider mounted at the column entrance, a metering unit, a tap switch and a mobile phase flow booster equipped with a drive. The flow booster has injection and suction chambers equipped with a common stem connected with the drive of the flow booster. The delivery chamber is connected to a suction chamber via a flow divider and a tap switch. The internal diameters of the suction and discharge chambers are made in the ratio of 0.95-0.99. 1 il.

Description

The invention relates to the field of analytical instrumentation and can be used in analytical chemistry, biochemical studies, molecular biology, biotechnology, and medicine using high performance chromatographic and electrophoretic instruments with capillary separation columns.

The purpose of the invention is to improve the accuracy and improve the reproducibility of the supply of nanoliter samples.

The drawing shows a General view of the device.

The device for supplying liquid samples to the capillary separation column 1 contains a divider 2 flow, installed

at the entrance to the column, the dispenser 3, the drain tank 4, the container 5 with a mobile phase, connected through a tap-switch 6 with a dispenser and a flow rate booster of the mobile phase, made in the form of a syringe pump with a delivery chamber 7, connected via a tap-switch and a dispenser with the inlet of the flow divider, the suction chamber 8 connected to the outlet of the divider, while the chambers are equipped with a common rod 9 with a drive (not shown) and the ratio of the inner diameter of the chamber 8 to the inner diameter of the chamber 7 is 0.95-0.99. The drainage tank 4 is connected via a tap switch to the suction chamber 8. The lower limit of the ratio of the diameters of the suction and delivery chambers

00

fo

W 4b

due to the sample supply circuit, the top - by design considerations. A change in the ratio of the diameters of the chambers within the specified limits makes it possible to introduce samples of 0.1–30 nl into the capillary columns.

The device works as follows.

A sample is introduced into dispenser 3. When the rod 9 moves in the direction of the entrance, the divider 2 is mobile, the phase from the chamber 7 through the tap-switch 6 enters the dispenser 3, captures the sample and feeds it to the flow divider 2. In the divide, the e-flow of the mobile phase is divided into two parts. The amount of sample injected into the capillary separation column is determined by the volume of the sample dosed and the ratio of the volume flow rates of the suction 8 and the discharge 7 chambers, which is provided by the difference in their internal diameters. A smaller portion of the sample (on the order of a few nl) is fed to column 1, and the remainder is drawn through divider 2 and tap switch b into chamber 8.

The volume of the injected sample is determined by the ratio:

/ -v / dS-ol VA - Udo. U2

where VA is the volume of the injected sample;

Vfl0 - dosing volume;

di is the diameter of chamber 8;

d2 chamber diameter 7.

After the piston in chamber 7 reaches the extreme position, the crane switch 6 is moved to another position, and the rod 9 changes direction of movement. neither In this case, the chamber 7 is filled with a mobile phase, and from the chamber 8, the mobile phase is discharged with the sample into the container 4.

The installation in the proposed device of an inducer of the flow rate of the mobile phase with the suction and discharge chambers interconnected through a flow divider eliminates the effect of a change in the hydraulic resistance of the capillary column when dividing the liquid flow. This ensures accurate and reproducible delivery of nano-liter samples to the capillary separation column due to the difference in volume flow rates of the mobile phase, which is determined by the difference in diameters of the suction and delivery chambers.

Claims (1)

Invention Formula A device for supplying liquid samples to a capillary column containing a divider flow, installed at the inlet to the column, metering device, tap-switch and a mobile phase flow rate booster, having a drive, characterized in that, in order to improve the accuracy and improve the reproducible ™ supply of nano-liter samples, the flow booster is equipped with a pressure and suction chambers having a common rod associated with a flow rate drive, while the discharge chamber through the flow divider and tap-switch are connected to the suction chamber, and the inner diameters of the suction and delivery chambers are made in the ratio of 0.95-0.99.