DE2538451A1 - SAMPLE FEEDER FOR AUTOMATIC ANALYSIS SYSTEMS - Google Patents

Description

Patent attorney

Jk.-hq. Wilbsira Rcichel

Dipl-Ing. Woligang Rcichel

6 Frankfurt a. M. 1

Paiksirasse 13

8273

Technicon Instruments Corporation » Tarrytown, NY VStA

Sample feeder for automatic analysis systems

The invention relates to a sample feeder for automatic analysis systems.

Automatic liquid analysis systems for
selectively treat and analyze a wide variety of
successive fluid samples are from the
U.S. Patents 2,797,149 and 3,241,432 are known. In
Such analysis systems are several liquid samples in succession as a continuously flowing stream
supplied, mixed with reagents and then analyzed for special substances. The successive liquid samples in the flowing stream are at least through
separated by a burst of air, the volume of which is sufficient to fill the entire cross-section of the conduit through which the flow is directed. The presence of the air bursts avoids, or at least greatly reduces, contamination between the successive liquid samples in the stream. The air thrusts

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keep the successive samples in a separated state and wash from the inside of the conduit the remainder of a previous sample.

From British patent specification 978 794 a sample delivery device is known in which between successive Liquid samples a wash liquid is sucked in from the adjacent samples separated by a burst of air. The volumes to be analyzed of the successive liquid samples are thus separated from each other by at least one Washer fluid thrust and two the cross section of the line filling ventilation thrusts separated. Each burst of air is used to clean the inner wall of the line pipes, to remove adhering sample residues. The following The washing liquid surge takes the sample residues with it. For supplying the washing liquid thrust between successive ones Liquid samples, a washing liquid container is provided, in which a sampling probe between dipping in successive liquid samples.

A sample feed device for a continuously flowing analysis system is characterized according to the invention from through a sampling tube which, in use, extends axially into another tube, the diameter of which is larger than that of the extraction pipe and through which a main flow that through the immiscible Fluid subdivided fluid flows, and through such an arrangement that an axial portion of the segmented Main stream is discharged into the extraction pipe, wherein the partial flow discharged through the extraction pipe has a smaller volume than the main flow, but essentially is divided at the same intervals as the main flow through the fluid.

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According to a preferred development, a sample supply device contains a suction pipe, a carrier for Several liquid sample containers, a washing liquid supply device, which in a certain position opposite the sample container support is arranged and which has a tube through which a main flow from the Washing liquid flows continuously, which is segmented by an immiscible fluid, for example gas bubbles is, and a device that moves the suction tube into and out of the sample container and the suction tube between successive movements in the sample container in the axial direction in the moves the segmented washing liquid flow leading tube and takes it out of it to an axial proportion of the segmented washing liquid flow into the suction pipe, the partial flow formed from the portion is segmented in a similar way to the main stream of washing liquid, but a smaller volume than this has.

A method of obtaining a liquid stream segmented by an immiscible fluid for a continuously flowed through analysis system is characterized according to the invention in that a main flow of the liquid segmented by the immiscible fluid is passed through a first tube, that is a sampling tube is brought into an axial position relative to the first tube with a smaller diameter than the first tube and that an axial portion of the segmented main flow is withdrawn along the extraction tube, the withdrawn Share has a volume that is smaller than the volume of the main flow, but practically in through the fluid the same distances as the main stream is segmented.

A preferred embodiment of the invention is described with reference to drawings. It shows:

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1 shows a schematic representation of part of a sample feed device and

2 shows an enlarged longitudinal section through the washing fluid supply device of the device.

The sample delivery device shown is that known from British Patent 978,794 similar, but the washing liquid container of the known device is represented by that shown in FIG Washer fluid s ^ supply device replaced.

The sample feed device shown contains a sample carrier which is designed as a turntable and carries several removable sample beakers 2. The rotary table is further rotated stepwise from ^f a suitable non-illustrated drive mechanism, a sampling probe 3 darzubieten the sample cup successively at a sample supply station. 4 The sample probe is arranged laterally next to the sample containers 2 in such a way that it can be swiveled between a position above the containers 2 and a position above the washing liquid supply device-5 and also moved up and down, so that it can be moved 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 6 with a U-shaped section 7, whose bucket leg 7A has an upwardly open truncated cone Föraaiges End§ 8 and in an outer housing 9 is housed.

line washing liquid W with a wetting agent is applied -for example with the aid of a peristaltis Pump P is pumped through line 6. Via a line

t.us-8.-! 1/07 2 2

Air A or another gas is periodically introduced into the washing liquid, so that a segmented by air Washer fluid flow through the U-shaped Section 7 flows. The integrity of the air bubbles is preserved. The periodic introduction of air can for example be carried out with a mechanism such as that disclosed in the British patent 1 123 122 is known.

The suction probe 3 contains a tube 11 which is arranged such that it extends axially into the leg 7A of the conduit 6, and has an outer support which, when the probe probe as shown 2 is inserted into the line 6, the line above the tip of the probe probe partially to limit the flow of wash fluid through line 6 above the tip of the sample probe.

During operation, the probe 3 is connected to the peristaltic Pump is connected and is immersed in a sample container 2 at the sample feed station to dispense sample liquid suck in. After a predetermined period of time, the sample probe is lifted out of the sample container, pivoted over the washing liquid supply device and then immersed axially in the leg 7A. The funnel-shaped end 8 of the leg 7A represents ensure that the probe is guided axially. During the time the. Sample probe from sample container to Washer fluid supply device is moved, the sample probe sucks in air. Then the sample sucks you in axial proportion of the segmented washing liquid flow for a predetermined time and is then in the next Sample container submerged, which in the meantime has been advanced to the sample feed station. To this Way are successive samples through one

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Wash liquid stream separated from each other, the through a selected one. Number of air bubbles is segmented. The resulting stream becomes the analysis part of the system fed .. The number of air bubbles in which the The flow of washing liquid separating liquid samples from one another is controllable and depends on the speed away,; with which the air thrusts are immersed in the line 6 and from, the immersion time of the probe in the leg 7A.

The washer fluid flow not coming from the sample probe? asigesaiigt, flows past the tip of the probeson ^ e into the funnel-shaped end - β des

Ijf * I> place separates the air from the

cLie through an overflow 13 to the drain

The peristaltic pump, for example a peristaltic pump, can produce pulses in the segmented current flowing through section 7 of the line β , the effect of which is that the speed of the current is momentarily reduced at predetermined time intervals. The air is preferably at the same time. introduced into the current when the impulses occur, in order to _{reduce the effects of the impulses j} ^ ■ Furthermore, the distance between the junction is dgcr ;. Lines 6 and 10 _; . and the tip: the sample probe inserted in the leg 7A is preferably selected such 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 sample probe, which would otherwise lead to irregular sizes of the sucked air bubbles.

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In some applications there are irregularities caused by immersing or withdrawing the probe can be caused in or out of the leg 7A, not critical. However, it is preferred that the Relate the speed of the probe to the speed of the air bubbles in the leg 7A and lifting the sample probe at a time when the tip is in a wash liquid surge. 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 sufficient to ensure that the integrity of those sucked into the probe probe 3 Air bubbles are maintained and that the air bubbles in the leg 7A in the area of the tip of the probe don't just break apart.

The device described prevents or reduces the contamination between successive samples with the help of a simple and relatively inexpensive washing liquid supply device for segmenting of the washing liquid flow. The device is special useful in "yes / no" tests, for example Complement fixation reactions, antibody fluoroscopy tests and automated reagent tests.

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Claims (9)

Claims My sample feeder for feeding one through one immiscible fluid segmented liquid flow to one after the continuous flow principle working analysis system with a removal tube through which the current supplied to the analysis system flows, characterized by a further tube (6) with a diameter which is larger than the diameter of the extraction tube (11), as well as by an arrangement (P, 10), which by the further Pipe (6) conducts a continuous main stream of the liquid segmented by the immiscible fluid, and in that the extraction pipe (11) extends axially into the further pipe (6) and one of the main flow removes axial portion, which has a smaller volume than the main flow and essentially in the same Intervals how the main stream is segmented. 2. Device according to claim 1, characterized geke η η is characterized in that the sampling tube (11) alternates between a sample liquid source (2) and the further pipe (6) is movable. 3. Device according to claim 2, characterized in that a carrier (1) known per se for several liquid sample containers is provided, which represent the sample liquid source that the main stream one is segmented washing liquid flow by an immiscible fluid, for example a gas, and that a device is available which the extraction pipe (11) 9811/0723 253845 moves into the sample container (2) and withdraws from them and which the sampling tube between successive Movements in the sample container dips axially into the further tube (6) and pulls it out of it. 4. Apparatus according to claim 2 or 3,
characterized in that the end of the further pipe (6) is designed as a funnel-shaped section (8) which guides the extraction pipe (11) when it enters the further pipe (6). 5. Device according to one of claims 1 to 4, characterized in that that the extraction tube (11) is encased at its end by a support tube (12) which partially supports the further tube (6) locked to maintain segment integrity. 6. Device according to one of claims 1 to 5, characterized in that that the further tube (6) has a substantially U-shaped section (7), of which one leg (7A) is open at its end to receive the extraction tube (11). 7. Device according to one of claims 1 to 6, characterized in that that a third tube (10) is provided, through which the segmenting fluid intermittently into the liquid is initiated. 9811/0723 8. Apparatus according to claim 7, characterized in that the distance between the end of the third tube (10) and the end of the extraction tube (11) is selected such that that the segmenting fluid is introduced into the liquid when the end of the extraction tube (11) with a liquid segment in the further pipe (6) coincides. 9. A method of obtaining a liquid stream segmented by an immiscible fluid for a analysis system working according to the continuous flow principle, characterized in that a main stream of the immiscible through the Fluid segmented liquid is passed through a first tube that has a sampling tube opposite one another the first tube of smaller diameter is arranged axially to the first tube and that an axial portion of the segmented main flow is withdrawn along the extraction pipe, in such a way that this portion has a smaller volume compared to the main flow, but practically in the same due to the fluid Intervals how the main stream is segmented. 6098 11/0723