SU1341577A1 - Actuator of eluent flow rate for fluid chromatograph - Google Patents

Abstract

The invention relates to liquid chromatography and may find application in the analysis of mixtures of liquid substances. The aim of the invention is to simplify the design, reduce the size and increase reliability. The consumption booster has a source of bluent in the form of a variable volume tank. The variable volume tank is a bellows. The closed end of the bellows is provided with a pressure plate. When applying eluent to the column on the plate presses the lever connected to it and a fixed support. On one arm of the lever, a calibrated load is installed with the possibility of movement. When moving the load pressure on the bellows can be adjusted. The pressure plate is provided with guides located 1) 1 mi parallel to the axis of the bellows. 2 Il. § (L with 4 SP J

Description

The invention relates to liquid chromatography and may find application in the analysis of mixtures of liquid substances. Advantageously, the invention is intended to create a simple and cheap liquid chromatograph used as a teaching aid in schools, technical schools and other educational institutions,

The aim of the invention is to simplify the design, increase the reliability of monitoring and setting a predetermined value of the fluid pressure at the inlet to the chromatographic column.

FIG. 1 shows schematically a flow rate booster complete with a chromatographic column j in FIG. 2 is a scheme for refilling the working volume of the flow rate booster.

The flow booster comprises a fixed base 1 on which the bellows 2 is rigidly fixed, for example a single-layer bellows made of titanium alloy, reinforced with rings, filled with eluent, for example water. The head 3 of the bellows 2 through, the channel 4 for the supply of eluent is connected to the inlet of the chromatographic column 5., for example, a microcolumn having an internal diameter of dg 1 mm and a length of 5-10 cm, filled with sorbent particles. The input of the column 5 is connected to the detector 6, for example a UV detector. The end of the bellows 2 is rigidly connected to the pressure plate 7, which is equipped with guide rods 8, parallel to the axis of the bellows 2. The ends of the guide rods 8 are inserted into the 1-round direction of the sleeve 9 fixed on the fixed base 1. having a support 11 pivotally connected to the lever 10 and rigidly connected to the base 1. One arm of the lever 10 is pivotally connected to the pressure plate 7, 8. A calibrated load 12j KoTopijrfi can be displaced along the other arm of the lever Curing lever 10. Pd permit self-bias the load 12 along the lever arm is mounted a motor whose shaft 13J is coupled to

a two-way screw 14 with a nut 15 mounted on it with an emphasis 16 in contact with the load 12; The lever 10 is provided with a rotary stopper 17 for setting it in the initial position.

The entrance of the colony 5 is connected to the device 18 for the introduction of samples

 The device works as follows.

The bellows 2 is pre-filled with a suitable liquid and connected via channel 4 to the inlet of the chromatographic column. The calibrated weight 12 is set on the lever arm 10 to a position corresponding to the pressure applied to the inlet of column 5, for example, at a pressure of 35 kgf / cm. At the time of installation of the load 12, the lever arm 10 is resting on the rotary stopper 17. Before starting work, the stopper 17 retracts into side and load 12 begins to shift downwards. In this case, the lever 10 is displaced relative to the support point and, with its shoulder connected to the pressure plate 7, begins to squeeze the bellows 2 in the axial direction, developing a pressure in the internal volume of the bellows 2, the value of which is determined by the following equation:

R ,

  one . F

 9ftp

where m is the mass of the load 12;

1 is the length of the lever arm on which the load is mounted, 1 is the length of the lever arm connected to the pressure plate

7i

F is the effective cross-sectional area of the bellows. When the ratio of the arms of the lever 1, / 1 and the mass of the load m 10 kg, the value of the pressure developed by the bellows is

10 kg 51 cm / o, - / 2

R 43,6kgs / cm

3 cm-3.88 cm

The flow rate of eluent (water) through the microcolumn 5, filled with sorbent particles, is 10 µl / min. At this flow rate, the operation time of the flow rate drive until the displacement of the pressure plate 7 by the length of the maximum working stroke of the sypphone 2 (7.2 mm) will be 280 mNr, i.e. the continuous operation of the flow rate driver using i-iHHHMajibHoro by volume from among the limestone of single-layer ring-reinforced bellows with an eluent flow rate of 10 µg / min is 4 h 40 min. Then the lever 10 is set to its original position by fixing it with a rotating stopper 17, the syphon 2 is disconnected from the column-5 and re-filled with eluent using an ordinary medical syringe for these purposes.

To ensure the work of the flow rate driver with variable (increasing in time) pressure and correspondingly the eluent velocity in column 5, the device is equipped with a device for automatically displacing the load 12 along the lever arm 10, including the electric motor 13, the shaft of which is fitted with a two-way screw 14 with the a nick 15 with a stop 16 interacting with the load 12. For introducing a sample of the analyzed substances into column 5 any known sample introduction device 18 can be used, working as an interrupting flow eluent And without interruption. Interrupting the flow of eluent at the inlet of column 5, caused, for example, by turning the flow switch (not shown), does not change the pressure in the bellows 2, as the bellows 2 simultaneously performs the functions of a pressure regulator. The guide sleeves 9, in which the guide rods 8 are placed, exclude the possibility of bending the bellows 2 during its axial compression and at the same time serve as constraints on the movement of the pressure plate 7. Their replenishment with respect to the pressure plate 7 in the initial position of the lever 10 is determined by the maximum working stroke bellows under compression.

To ensure the possibility of adding the volume of the bellows 2 connected to column 5, an additional bellows 19 (see FIG. 2), filled with the same eluent as the bellows 2, is introduced into the flow rate. At that, channel 20 connected to the internal volumes of both bellows 2 and 19. In this channel, passing into the connecting tube 21, a valve 22 is installed, which is locked when the bellows 2 is compressed and unlocked during the return stroke of this bellows. A second valve 23 is installed at the inlet of column 5 in channel 4 for supplying eluent, which operates in the opposite direction to valve 22, i.e., unlocking

five

0

five

0

five

0

five

with its reverse; 1st course. The bellows 19, as well as the bellows 2, is provided with a pressure plate 24 provided with an actuator including a lever 25, a load 26 and an emphasis 27. The working volume of the bellows 19 exceeds the volume of the bellows 2. For example, if a single-layer titanium alloy bellows is used as the bellows 2, then as the bellows 19 can be used bellows 120-101-24-0,501 GOST 24553-81,

The filling of the bellows 2 is carried out as follows. Initially, the levers 10 and 25 are installed in the initial position, i.e. fixed by stops 17 and 27. The bellows 2 is disconnected from column 4 and from the bellows 19. A medical syringe (not shown) is used to fill the clips 2 and 19, as well as the transition channel 21. Then the bellows 2 and 19 are connected to the transition channel 21 and load the bellows 19 to expel air bubbles from the connecting lines. The bellows 2 is then connected to the inlet of the column 4, the lever 10 is removed from the l pore 17 and a pressure Pj is created in the bellows 2, which must exceed the pressure P in the bellows 19. At the same time, the valve 20 is closed and the valve 23 is unlocked, and the eluent from the bellows 2 squeezed into column 5. Next, the flow booster works as described above in describing the operation of the device at constant pressure at the inlet to column 5. After the working stroke of the bellows 2 has been exhausted (the pressure plate 7 comes in contact with the cylindrical bushings 9), the lever 10 smoothly transferred to the outcome th position. In this case, the valve 23 is locked, and the valve 22

unlock

:,

and silshon is filled

0

five

the eluent coming from the internal volume of the bellows 19 under the pressure P in the bellows 2. After filling the bellows 2, the lever 10 is removed from the stop 17, the bellows creates pressure, the valve 22 is closed, and the valve 23 is opened J and the eluent begins to flow into column 5. as the bellows 19 of a single-layer titanium alloy bellows, the maximum working stroke of which is 9.6 l: m. and the effective cross-sectional area is 94.5 cm, eEF

the eluent pass in the bellows 2 and 19 is enough for 142.4 hours of system operation at the flow rate of eluent through the Q column 10 μl / min. In this case, the bellows 2 is filled in as described above (by smoothly raising the lever 10 to the initial position) 32 times.

Formula and Invention

An eluent flow rate booster for a liquid chromatograph containing a variable volume tank for an eluent connected to the inlet of the chromatographic column and mounted on a fixed base, and a device for changing the volume of said tank, characterized in that, in order to simplify the design, reduce the size and increase reliability, the variable volume capacity is made in the form of a bellows, the closed end of which is provided with a pressure plate, and the device for changing the bushing is made in the form of a lever, mounted on a support connected to a fixed base, with a calibrated weight mounted on one arm of the lever and the other lever arm connected to a pressure plate, which is provided with guides parallel to the axis of the bellows.

78

Fi.G

18

Nz

Y

ten

17

fie.g

Editor E. Sligan

Compiled by L.Zharkova

Tehred M. Didyk Proofreader G. Reshetnik

Order 4431/49. Circulation 776 Subscription

B1 of the USSR State Committee

before inventions and discoveries 113035, Moscow, Zh-35, Raushsk nab. 4/5

Production and printing company, Uzhgorod, st. Project, 4

Claims (1)

The claims 10 Liquid chromatograph eluent flow inducer, comprising a variable volume container for the eluent connected to the input of the chromatographic column 15 and mounted on a fixed base, and a device for changing the volume of the indicated container, characterized in that, in order to simplify the design to reduce dimensions and improve reliability, the variable-capacity tank is made in the form of a bellows, the closed end of which is equipped with a pressure plate, and the device for changing the circuit is made in the form of a lever, mounted on a support connected with a fixed base, and on one arm of the lever is mounted with the ability to move the calibrated load, and the other shoulder of the lever is connected to the pressure plate, which is equipped with guides located parallel to the axis of the bellows. FIG. T