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Method and apparatus for pumping and diluting a sample

a sample and method technology, applied in the direction of positive displacement liquid engines, instruments, machines/engines, etc., can solve the problems of reducing the reliability of test results and subsequent test results, affecting the accuracy of sample measurement, etc., to achieve high precision dilution, accurate flow rate, and easy control

Inactive Publication Date: 2006-05-18
THERMO FISHER SCIENTIFIC INC
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

"The present invention provides a pumping system for purging a sample to an analyzer for analysis. The system includes a buffer region for storing the sample, two pumps for purging the sample to the analyzer, and a flow switching means for controlling the flow of the sample. The system can accurately control the flow rate of the sample, reducing the likelihood of damage or contamination of the pump. The system also allows for automated dilution of the sample, increasing sample throughput and accuracy of analysis. The technical effects of the invention include improved accuracy and control of sample flow rate, reduced likelihood of pump damage or contamination, and increased sample throughput."

Problems solved by technology

Analysis equipment for analysing trace elements in liquids have a limited capability of measuring samples which have relatively high levels of dissolved solid material, or matrix (such as CaCO3 or dissolved salts in water, or the like).
Such high levels of matrix can have undesirable effects on the analytical equipment, for example, materials can be deposited on orifices, glassware and ion optical elements.
The dissolved solids can become deposited on components within the instrument, for example on the cones which sample the plasma and skim off a portion of the supersonic jet, thus significantly reducing the reliability of the test result and the results of any other subsequent test.
Such manual intervention is too cumbersome, time consuming and costly if many samples per day require analysis.
This requires considerable operator intervention.
Such a limit to the throughput of samples is undesirable and operator intervention is costly.
If the dilution is not maintained to a known level and within a relatively tight tolerance, the accuracy of the analysis results may be unacceptable.
Peristaltic pumps have a limited range of flow rates and the sample and diluent pumps often operate at the extremes of their flow rate range.
Also, the limited flow rate for peristaltic pumps limits the dilution factor by which the sample can be diluted; the maximum dilution occurring whilst the diluent pump operates at a maximum flow rate and the sample pump operates at a minimum flow rate.
If this rate is exceeded the instrument will become swamped with diluted sample which will cause problems in the spectrometer and have a detrimental effect on the analysis results.
Materials in the waste container are discarded and, since the high quality diluent necessary for accurate test results is relatively expensive, this wastage is an additional economic burden on test laboratories.
The inability to control the flow of diluent results in an uncontrolled dilution factor.
Problems arise with systems which rely on this arrangement.
For instance, there are limits to the dilution factor this system can provide, especially if the analyser requires the diluted sample to be pumped at a specific rate.
However, the problems associated with the system in FIG. 1 now become prevalent with the system, for example, diluent wastage.
Furthermore, contamination of the pump parts exposed to the sample during operation can cause subsequent samples to become contaminated, thus resulting in inaccurate analysis results.
This so called “memory effect” problem is particularly troublesome with highly sensitive analysis instruments.
As test instruments become more sensitive, this problem further increases.
(For example, we have found this problem has very little effect on analysis results when samples are tested using the relatively insensitive atomic absorption analysis instruments, but can be problematic when samples are tested using highly sensitive ICP-MS analysis tools).
Also, certain fluids can damage pump components.
Such damaged components can lead to inaccurate flow rates, or more seriously, render the pump unusable without lengthy repair or regular servicing.
However, peristaltic pumps have inadequate flow rate range and accuracy to dispense a sample solution at a sufficiently low flow rate to avoid discharging qualities of fluid to waste, as previously described.
Furthermore, the use of peristaltic pumps limits the dilution factor achievable, because of their limited effective flow rate range.

Method used

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  • Method and apparatus for pumping and diluting a sample
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  • Method and apparatus for pumping and diluting a sample

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Embodiment Construction

[0039] Referring to FIG. 3, a pump system 50 embodying the present invention is shown in schematic form. A sample 52 to be analysed is drawn from a container by an automatic sampler 54 along a first, or sample uptake pipe 56 to a valve, or pipe flow switch 58. The automatic sampler used in this embodiment is well known in the art and comprises a pump (not shown) and a probe 60. The probe is moveable to be inserted into a fluid in a container placed underneath the probe. Different containers can be placed on a carrousel (not shown) so that different samples or a washing agent 62 can be drawn into the pump system via the probe and automatic sampler pump.

[0040] The switch 58 comprises six input / output ports, A, B, C, D, E and F, and three internal pipes or conduits which each join one port with another. The switch is movable between two positions so that the flow of fluid from one pipe to another pipe can be switched from that pipe to a different pipe when the switch is moved. The swi...

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Abstract

A pumping apparatus (50) which isolates a sample (52) from a pump (72), thereby circumventing the so-called “memory effect” problem. The sample is pumped into an intermediary, or buffer region (64) using a first pump (54). The sample is displaced from this buffer region by pumping a second fluid (74) into the buffer region using a second pump (72). When the sample is displaced from the buffer region it proceeds to a mixer (78) where it can be diluted before analysis. The second pump is required to operate with a high degree of accuracy so that the sample is diluted by a consistent amount. Preferably, the second pump is a highly accurate piston pump.

Description

PRIOR APPLICATIONS [0001] This application claims benefit of Patent Cooperation Treaty Application Number PCT / GB2003 / 003564, filed Aug. 14, 2003, which claims priority from Great Britain Application Number 0218949.6, filed Aug. 14, 2002.FIELD OF THE INVENTION [0002] This invention relates to a method and apparatus for pumping a sample to analysis equipment and diluting the sample before it is analysed, or for any other reason. [0003] The invention is described herein with reference to liquid samples which require dilution before they are analysed in a mass spectrometer. However, the invention is not limited to liquid samples or mass spectroscopy and can equally apply to dissolved or suspended samples and any other test or analysis equipment. DESCRIPTION OF THE RELATED ART [0004] Analysis equipment for analysing trace elements in liquids have a limited capability of measuring samples which have relatively high levels of dissolved solid material, or matrix (such as CaCO3 or dissolved ...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): F04B3/00F04B5/00G01N1/00G01N27/62G01N1/10G01N1/38G01N35/08
CPCG01N1/38G01N35/08G01N35/1097
Inventor SHAW, PHILIP NEILMARRIOTT, PHILIP
Owner THERMO FISHER SCIENTIFIC INC
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