DE2538451C2 - Device for withdrawing part of a liquid flow segmented by an immiscible fluid - Google Patents

Description

The invention relates to an apparatus for removing part of a fluid that is immiscible segmented liquid flow and for supplying the removed part to one after the continuous The analytical system operating on the flow principle, containing a flow through which the liquid stream flows first tube, which has a larger diameter than the diameter of a sampling tube and an arrangement for conveying the flow of liquid through the first tube.

Such a device is known from DE-OS 20 46 120 There, the entire segmented liquid flow passed through the first pipe enters the analysis system connected extraction tube, namely

through a side opening provided in the extraction tube. For this purpose, the first tube is firmly connected to the extraction tube in such a way that the diameter The larger first tube encases the extraction tube in the area of the side opening The free open The end of the extraction pipe protrudes beyond the casing formed by the first pipe. Should at this known device avoided for some reasons that the entire segmented liquid flow The segmented liquid flow flowing through the first tube must enter the extraction tube be switched or switched off.

On the other hand there are liquid analysis systems working according to the continuous flow principle for the selective treatment and analysis of a large number of successive liquid samples known from U.S. Patents 2,797,149 and 3,241,432 In these analysis systems several liquid samples are taken one after the other as continuous flowing current can be passed through the system, mixed with reagents and then on special Substances analyzed The liquid samples in succession in the flowing stream are at least separated from each other by a burst of air, the volume of which is sufficient to cover the entire cross-section of the To be filled in line through which the current is conducted. The presence of the bursts of air creates a contamination avoided or at least avoided between the successive liquid samples in the stream greatly reduced The air thrusts keep the

.50 of the following samples in a separated state and wash the inside of the line Remainder of a previous sample.

From British patent specification 9 78 794 a sample delivery device is disclosed known, in which a washing liquid surge between successive liquid samples is sucked in, which is separated from the adjacent samples by a push of air. The to analyzing volumes of the successive liquid samples are thus from each other by at least a washing liquid thrust and two air thrusts filling the cross-section of the line are separated. Each push of air is used to clean the inner wall of the conduit pipes to remove sample residues adhering to them to remove. The subsequent push of washing liquid takes the sample residues with it. To feed the A washing liquid container is a washing liquid push-up between successive liquid samples provided, in which a sampling probe between

see immersion in successive liquid samples is immersed.

The invention is based on the object of a device according to the preamble of the patent claim 1 to create the possibility of the segmented liquid flow directed through the first pipe split while maintaining the segmentation pattern.

This task is solved by the features in the characterizing part of claim 1 as claimed Solution offers the additional advantages that regardless of the proportion of the removal, the originally segmented Liquid flow in the first tube can continue to flow and is neither switched off nor switched over In addition, the subject matter of the invention can be implemented in a simpler manner especially since there is no side entry opening in the extraction tube

{[ Preferred developments and expedient configurations of the invention are characterized in the subclaims. The subject matter of the invention is preferably used in a sample feeder
i j. A preferred embodiment of the invention

ijj is described with reference to drawings. It shows
>.;' F i g. 1 is a schematic representation of part of a sample delivery device and

: ■■: FIG. 2 an enlarged longitudinal section through the washing liquid supply device of the device.

• The sample introduction device shown is the one from the

British patent 9 78 794 known device similar-

■; borrowed -5, but the washing liquid container is the loading [■ ;, known device is replaced by that shown in the Figure 2 washing fluid supply means
.. The sample feed device shown contains a - sample carrier, which is designed as a turntable and: ■ carries several removable sample cups 2 The turntable is rotated step by step by a suitable, not shown drive mechanism in order to successively present the sample cups to a sampling probe 3 at a sample feed station 4. The sample probe is arranged laterally next to the sample containers 2 in such a way that it can be pivoted between a position above the containers 2 and a position above the washing liquid supply device 5 and can also be moved up and down in order to move into or into a sample container at the sample supply station To be able to immerse washing liquid supply device 5.

The washing liquid supply device 5 contains a line (tube) 6 with a U-shaped section 7, one leg TA of which has a frustoconical end 8 that is open at the top and is accommodated in an outer housing 9.

A washing liquid Wxnw a wetting agent is pumped through the line 6, for example with the aid of a peristaltic pump ρ. Via a line (pipe) 10, air A or another gas is periodically introduced into the washing liquid so that a through ■; Air segmented washing liquid flow through the U-shaped section 7 flows. The integrity of the air bubbles is retained. The periodic introduction of air can be carried out, for example, with a mechanism such as is known from British patent specification 11 23 122.

The sample probe 3 includes a tube 11 which is arranged such that it extends axially into the leg TA of the conduit 6, and has an outer support 12 which, when the sample probe as shown in FIG. 2 inserted into the line 6, the line above the tip of the sample probe is partially closed in order to limit the flow of washing liquid through the line 6 above the tip of the sample probe.

During operation, the sample probe 3 is connected to the peristaltic pump and is immersed in a sample container 2 at the sample feed station in order to suck in sample liquid. After a predetermined period of time, the probe is lifted out of the probe, pivoted over the washing liquid supply device and then dipped axially into the leg TA. The funnel-shaped end 8 of the leg TA ensures that the probe is guided axially. During the time in which the sample probe is moved from the sample container to the washing liquid supply device, the sample probe sucks in air. The sample then sucks in an axial portion of the segmented washing liquid flow for a predetermined time and is then immersed in the next sample container, which in the meantime has been advanced to the sample supply station. In this way, successive samples are separated from one another by a washing liquid flow, which is segmented by a selected A 'number of air bubbles The resulting flow is fed to the analysis part of the system The number of air bubbles in the washing liquid flow separating the liquid samples is controllable and depends on the speed with which the air thrusts are introduced into the line 6 and the immersion time of the probe in the limb TA.

The washing liquid stream that is not sucked in by the sample probe flows at the tip of the sample probe past into the funnel-shaped end 8 of the pipe section 7. There, the air separates from the washing liquid, which flows through an overflow 13 to the drain

The peristaltic pump, for example a peristaltic pump, can produce impulses in the segmented current flowing through section 7 of line 6, the effect of which is that the speed of the current is momentarily reduced at predetermined time intervals. The air is preferably introduced into the stream at the same time as the impulses occur in order to reduce the effects of the impulses. Furthermore, the distance between the junction of the lines 6 and 10 and the tip of the probe inserted into the leg TA is preferably chosen so that a pulsation of the washing liquid flow does not cause any change in the flow rate when an air bubble coincides with the tip of the probe, which would otherwise be irregular Sizes of the sucked air bubbles would result.

In some applications, irregularities that can be caused by immersing or pulling the probe probe into or out of the limb TA are not critical. However, it is preferred to relate the speed of the probe probe to the speed of the air bubbles in the limb IA and to raise the probe probe at a time when the tip is in a surge of washing liquid. This helps to maintain a constant air bubble size.

The one caused in the device described above the tip of the probe 3 by the outer support 12 Restriction is enough. to ensure that the integrity of the air sucked into the probe 3

bubbles is maintained and that the air bubbles in the leg TA do not simply break apart in the area of the tip of the probe.

The device described prevents or diminishes the contamination between consecutive 5 samples using a simple and proportionate little expensive washing liquid supply device for segmenting the wash liquid flow. That The device is particularly useful for "yes / no" tests, for example complement fixation reactions, antibody 10 fluoroscopy tests and automated reagent tests.

1 sheet of drawings

15th

20th

25th

50

55

60

65

Claims (7)

Patent claims: 1. Device for removing part of a liquid stream segmented by an immiscible fluid and for feeding the removed part to an analysis system operating on the continuous flow principle, containing a first tube through which the liquid stream flows and which has a larger diameter than the diameter of a removal tube , and an arrangement for conveying the flow of liquid through the first pipe, characterized in that the open end of the extraction pipe (11) is inserted axially to the first pipe (6) into this first pipe (6) in such a way that an axial end seen in the direction of flow Portion of the segmented liquid flow passed continuously through the first pipe (6) by the conveyor arrangement (P, 10) is withdrawn and the segmentation of the withdrawn portion in the withdrawal pipe (11) corresponds to that of the liquid flow in the first pipe (6), while not removed portion of the segmented liquid flow flows past the open end of the extraction tube (11) 2. Apparatus according to claim 1, further comprising a Sample liquid source, characterized in that it is not firmly connected to the first tube (6) Sampling tube (11) alternating between the sample liquid source (2) and the first tube (6) movable isu 3. Apparatus according to claim 2, tti which a carrier is provided for several liquid sample containers, which represent the sample liquid source .- *, and the segmented liquid flow is a washing liquid flow segmented by a gas, characterized in that a device is provided which the sampling tube ( 11) moves into the liquid sample container (2) and pulls it out of them and the sampling tube (11) dips axially into and out of the first tube (6) between successive movements in the liquid sample container (2). 4. Apparatus according to claim 2 or 3, characterized in that the end of the first tube (6) as a funnel-shaped section (8) is formed, which the extraction pipe (11) when entering the first Pipe (6) leads. 5. Device according to one of claims 1 to 4, characterized in that the extraction tube (11) is sheathed at its open end by a support tube (12) which partially closes the first tube (6). 6. Device according to one of claims 1 to 5, characterized in that the first tube (6) has a U-shaped section (7), of which the one leg (7A) is open at its end to the extraction tube (11 ) to record. 7. Device according to one of claims 2 to 4, characterized in that a third tube (10) is provided through which the segmenting fluid is intermittently introduced into the liquid, and that the distance between the end of the third tube (10) and the open end of the extraction tube (It) is chosen such that the segmenting fluid is introduced into the liquid when the open end of the extraction tube (11) coincides with a liquid segment in the first tube (6)