CS250309B1 - Device for measuring mobile phase pressure in microcolumn high performance liquid chromatography - Google Patents

Abstract

The solution concerns a device for measuring the pressure of the mobile phase in microcolumn high-performance liquid chromatography. The essence of the solution lies in the fact that a resistance tensioenometer is glued to the driving plate of the plunger or piston of the linear dispenser, connected to a resistance bridge powered by a stabilized source, while the output from the bridge is connected to the input of the calibration amplifier, to which a pressure display is connected. The advantage is the elimination of contact of the pressure sensor with the corrosive mobile phase and simplicity.

Description

The present invention relates to a device for measuring the pressure of a mobile phase in microcolumn high performance liquid chromatography.

The principle of the solution consists in that a resistive strain gauge, connected to a resistor bridge powered by a stabilized power supply, is attached to the plunger or plunger of the linear dispenser, the bridge output being connected to the calibration amplifier input to which the pressure display is connected.

The advantage is to avoid contact of the pressure sensor with the corrosive mobile phase and simplicity.

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SUMMARY OF THE INVENTION The present invention provides a device for measuring mobile phase pressure in microcolumn high performance liquid chromatography using tensile stress measurement in a drive foil using resistance strain gauges.

In microcolumn high performance liquid chromatography, it is necessary to measure the mobile phase pressure up to approx. 30 MPa and moreover, the pressure sensor coming into contact with the mobile phase must not be corrodable. Stainless steels are also not corrosion-friendly for the perspective use of mobile phases with chlorides. The above-mentioned drawbacks solve, at least for the linear dispensers of the mobile phase with the transfer by means of a wound foil, the device according to the invention which consists in that one or more resistive strain gauges connected to the carrier foil (or two foils) a resistor bridge powered by a stabilized power supply, the output of the resistor bridge being connected to an input of a calibration amplifier to which a pressure display is connected.

The accompanying drawing shows an example of an apparatus according to the invention. The plunger 2 of the dispenser is pushed into the roller 10 u309 by the seeder 12 mounted on the entrainment blades 1, which are wound and anchored on the shafts 8 and 9. One resistive strain gauge 3 is glued to the foil 1 and the compensating strain gauge 11 is glued to the carrier body 12. and 11 are connected to adjacent branches of the resistor bridge 4, powered from the stabilized power supply 5. The output of the diagonal bridge 4 is connected to the input of the calibration amplifier 6. The output of the calibration amplifier 6 is output to the pressure display 7 (two digit digital voltmeter).

The device works as follows. During the working stroke, the entrainment blades 1 are wound on a shaft 8 and pulled along with a carrier 12 which pushes the plunger 2 into the cylinder 10. The tensile stress in the entrainment blades 1 is converted by means of strain gauges 3 and 11 and a resistance bridge 4. the amplifier 6 so that its numerical value read on the display 7 corresponds to the pressure of the mobile phase in the cylinder 10.

The advantage of the device is the complete elimination of contact of the pressure gauge components with the mobile phase and simplicity. The measurement error due to friction in the cylinder seal is negligible.

Claims (1)

PftEDMĚT Apparatus for measuring the mobile phase pressure in microcolumn high performance liquid chromatography, characterized in that one or more resistive strain gauges of the findings (3) connected to a resistive bridge (1) are glued to the carrier or pulley (1) of the pusher or piston (2) of the linear dispenser. 4), powered by a stabilized power supply (5), the output of the resistance bridge (4) being connected to the input of the calibration amplifier (6) to which the pressure display (7) is connected.