DE2408543A1 - Analyser with automatic mechanism in body - moves several test tube systems in rack simultaneously to measuring point - Google Patents

Abstract

The automatic mechanism consecutively measures automatically at certain time intervals all the test tube systems in the test tube system rack. The specimens are automatically displaced simultaneously from the tube in the test tube system into other tubes corresponding to those in the system by means of controlled pressure. After measurement the specimens are moved back out of the other tubes by operation of a suction action into the tubes of the test tube system. Before the following measuring operation the other tubes are rinsed once or several times either with water or with an appropriate reaction solution.

Description

Analyzer.

This invention relates to an analyzer in the body of which one automatic mechanism is located, the multiple located in the sample tube system rack tube systems moved at once to the measuring point at which the test tube system is automatically connected to the analyzer's tube system every time, and that all sample tube systems located in the sample tube system frame at certain time intervals treated one after the other.

The main use of the classic spectrophotometer is nowadays the concentration analysis. Many of the spectrophotometers in the LIan (iel often only work in the range of visible light, which affects the usability of the device restricts. The spectrophotometers offer more extensive use which can be measured in both the ultraviolet and the visible range can. You can also measure a sample every time with these devices.

Since recently the measuring speed of the spectrophotometer has impaired the workers in many work methods, this fact has been taken into account. Using fiber optics, spectrophotometers have been constructed in which one can measure multiple samples in the same tube device without moving the iris. The field of application of such apparatus is small, since it is not possible to carry out measurements in the W area, because the tube material is often made of plastic, and in addition, the tube devices are changed by hand, which slows down the operation.

The absorption of certain tube materials is shown above.

The abscissa is the wavelength in millicrons.

The illustration shows that when using a tube made of UV quartz with the same tube Measurements in both ultraviolet and visible Area can extend. (Truillo, E.F. Model DK-A Ratio Recording Spectrophotometers (Instruction book) Beckman Instruments, Sullerton, Galifornia 1963) In the illustrated here Invention, several quartz tubes and fiber optics are needed. The invention Analyzer is mainly characterized by using the pressure system the samples from the tube (13) of the sample tube system automatically and simultaneously to the tubes corresponding to the tubes of the sample tube system, and that after measuring the samples from the tubes by activating the suction system in the tubes of the Fr @ tubing system are set back, and the tubes before the following sample tube systems measure one or more times either with water or the reaction solution in question are washed. You can do this with the analyzer Measure multiple samples in both the UV and the visible range at the same time; The samples to be measured are in the tubes of the sample tube system, That Proberöhrens-steja, which is part of Finnish patent application ITrf 358/72 including a disk and several test tubes in it. In the analyzer according to the invention the sample tube system is moved to the measuring point at which the tubes of the sample tube system connected to the appropriate quartz tubes, and the samples are placed in the Tubes offset. After measuring, the samples are placed in the tubes of the sample tube system is moved back and the following sample tube system is moved to the measuring point.

Everything shown above happens automatically, which is the operation accelerated.

The analyzer can be connected to the automatic data processing system (computor) according to the following scheme, which usually includes a data processing machine and a delivery plant. ANALYZER COMPUTOR DELIVERY PLANT 1 to 3 an exemplary embodiment according to the invention of the construction and the function of the analyzer is explained.

Pig. 1 shows schematically how the automatic mechanism of the rack / Analyzer the sample tube system / 1 offset so that the in the sample tube system frame located sample tube systems 2 are moved one after the other to measuring point 3, on which the automatic mechanism removes the tubes (here 9 tubes) of the test tube system with the corresponding quartz tubes (here 9 tubes) combined, and the samples are automatically moved from the tubes of the test tube system into the corresponding tubes. After measuring the samples, the samples are automatically inserted into the tubes of the sample tube system set back. If necessary, the tubes are automatically washed and the following The test tube system is moved for measurement.

lig. 2a is shown schematically how the radiation from the light source 4 (eg hydrogen or tungsten lamp) via the fiber optics 5 to the tubes 6 and from there further through the intermediary of the fiber optics 7 Detector or detectors 8 go to the data processing machine and delivery plant 9.

As an alternative, the light source + is the center in FIG. 2 b of a circle and the tubes 6 shown as its circumference, with the light without Fiber optics from the light source 4 go directly via the tubes 6 to the detectors 8 can.

In Fig. 3 is an inventive @ analyzer when combining the Crystalline tubes with the tubes of the test tube system shown and the automatic actuation in the different phuses: I The first trial tube system of the trial tube system frame 1 (Fig. 1) is offset to the measuring point 3 (Fig. 1) II The support 10 at Ivtesspunkt lifts the tubes 13 of the trial tube system airtight against the continuation support 11 of the corresponding quartz tubes 6 III Through the openings 12 pressure is applied to the Tubes 13 of the Irootube system passed, with part of the solution of the tubes 13 flows in the test tube system to the corresponding tubes 6. When using a With such a pressure system, the tubes are filled completely and without being spilled No annoying air bubbles are created when measuring.

IV Measuring the solutions in the tubes V Sucking through the openings 12, whereby the measured solution from the tubes into the corresponding Tubes is moved back.

VI wash solution from openings 15 in ;; the tubes 6 VII The snack solution the tubes (water or the relevant Reaction solution) becomes off the openings 16 sucked and remaining residues of small amounts of washing solution through the tubes 17 by means of the suction tubes 12, the lower parts of the tubes 6 and the tubes 17 are cleaned. The washing can be done several times if necessary will.

VIII The trial tube system is inserted into the trial tube system frame with the aid of support 10 moved back, and the following sample tube system is moved to the measuring point.

The foregoing showed how to use the analyzer while measuring which can use absorbances or transmittances of certain wavelengths, whereby the concentration of the measured solutions is clearly obtained.

Apparatus The can also be provided with a program whereby the analyzer first adds incubation solution to the enzyme solution in the tubes of the sample tube system at the desired wavelength and then transfers the samples from the tubes of the sample tube system to the corresponding tubes. In their tubes, which can be thermally regulated, the enzyme reactions are allowed to happen and the analyzer measures, for example, the absorbances at certain time intervals or after a certain time, which the data processing machine can handle in the usual way.

Thirdly, the analyzer can be used to generate spectra from several spectra, if necessary Measure samples simultaneously in the visible and UV range.

Fourth, the analyzers can be used as spectrophotometers as well by programming the "pipe activation" automatically one or more different ones Solutions to the sample tubes. system of the sample rack system or also dilutions run from one trial tube system to another.

The illustrated analyzer doesn't just do the laboratory work More versatile, but also faster, because the analyzer automatically racks the entire sample tube system @treated. Several sample tube systems can be located in the trial tube system rack and several tubes in a test tube system. In the sample tube system shown here there are nine tubes.

In the analyzer according to the invention can also easily be a Sample tube system frame replacing conveyor arranged that the sample tube systems moves along a certain path to the measuring point. At the sponsor you can have a certain Periodically the sample tube system either manually or automatically reagent add and e.g. run out Enzyn incubations in the test tube system that the conveyor has moved to the thermoregulation point if necessary.

Claims (3)

Patent claims: 1. Analyzer, in the body of which there is an automatic mechanism is located, the several sample tube systems located in the sample tube system frame (1) (2) at the same time offset to the measuring point (3) at which the sample tube system is placed each time is automatically connected to the tube system of the analyzer, and automatically all sample tube systems located in the sample tube system frame at certain time intervals measures one after the other, thus g e k e n n n -mark that by using the pressure system from the tube (13) of the sample tube system the samples automatically and at the same time to the tubes (6) corresponding to the tubes of the sample tube system be moved, and that after the measurement, the samples from the tubes by actuation of the suction system are returned to the tubes of the sample tube system, and that the tubes measure either one or more times before the following sample tube system be washed with water or the reaction solution in question. 2. Analyzer according to patent claim 1, thereby g e k e n n z e i chn e t that quartz tubes are used as tubes (6), whereby you can measure in the Pull out tubes in the UV and visible range on several samples at the same time can, and that the radiation from the light source via the tubes to the detector or the detectors is controlled directly or by means of fiber optics. 3. Analyzer according to patent claims 1 and 2, thereby g e -k e It is not noted that the reagent metering and the expansions with the help of the Tube system can be edited directly. L e r s e i t e