FI60139B - ANORDNING FOER ATT FLYTTA ELLER SPAEDA UT VAETSKOR OCH / ELLER TOEMMA ELLER TVAETTA REAKTIONSKAERL - Google Patents

Description

[53r * l ANNOUNCEMENT, η <1ζο Μα IBj (11) UTLÄGGNI NGSSKMFT 60139 • s® (45) ^ ^ (51) Kv.lk.3 / lnt.CI.3 B 01 L 11/00 FINLAND — FINLAND (21 ) PttMitdlwkwmtt - Ptt «ntan * 6knlng 791316 (22) Hakamftplivi - Anaeknlnpdif 23.0¼.79 '' (23) Alkuplivt — Glltighctsdai 23.0U.79 (41) Tullut lulkMcal - Bllvit offvntllg 2U. 10.80

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Patent · och registerstyrelsen AnsMun utlagd oeh utl.tkriftan pubtkarad 31.08.8l (32) (33) (31) Requested privilege * - Begird prlorltet (71) Limited partnership Finnpipette Osmo A. Suovaniemi, Pulttitie 9, 008l0 Helsinki 8l, Finland-Finls FI) (72) Osmo A. Suovaniemi, Helsinki, Pertti Ekholm, Helsinki, Timo Haikonen,

Espoo, Esko Jurvanen, Espoo, Johan Järnefelt, Helsinki, Esko Kaukanen,

Espoo, Paul Partanen, Helsinki, Aarto Salo, Helsinki, Elsi Tuominen,

Helsinki, Heikki Virta, Helsinki, Finland-Finland (Fl) (7U) Ruska & Co (5U) Apparatus for transferring or diluting liquids and / or for emptying or washing reaction vessels - Anordning för att flytta eller späda ut vätskor och / eller tukma eller This invention relates to an apparatus for transferring or diluting liquids and / or for emptying or washing reaction vessels by suction and evacuation of liquids, the apparatus comprising at least two tubes connected to a cylinder-piston device or other pump, arranged in close proximity in close proximity to each other.

In the field of clinical chemistry, and microbiology in particular, there are many assays that require the processing of large numbers of samples.

It is still very common for sample and reagent transfers to occur one at a time. However, devices have been developed (e.g., a multichannel Finnpipette) that can transfer multiple samples or reagents simultaneously. Sample transfer and dilution remains a major problem, although some devices (e.g., Finnpipette-9 Diluter / Dispen-ser) have sought to eliminate this inconvenience by pipetting and diluting multiple samples simultaneously.

A very big problem is that the degree of automation in the equipment in use is low, which means that the proportion of human error is high and the use of 601 39 2 manpower increases the costs. Further available equipment exhibits contamination of samples and / or reagents when using the same container for pipetting samples and reagents or for pipetting and diluting samples with reagent.

In some recently developed and implemented assays (e.g., radioimmunoassay, RIA, and enzyme immunoassay, EIA), it is necessary to perform many washes of reaction vessels at different stages of the assays. There is no equipment available that can economically, quickly and safely wash multiple reaction vessels or cuvettes simultaneously.

In the apparatus according to the following invention, the above disadvantages have been avoided.

The device according to the present invention is characterized in that the tip provided with the inlet and outlet of at least one tube is located higher than the tip provided with the inlet and outlet of at least one other tube, and that the lower edge of the upper end is inclined so that its lower end the part is higher than its outer part, whereby liquid can be drained from the opening of the upper tip along the tip of the tube extending lower.

The device according to the invention enables the simultaneous automatic transfer and / or dilution of several samples, as well as the emptying of several sample containers or cuvettes and their subsequent filling and emptying with washing liquid one or more times.

The invention and its applications are described in more detail below with reference to the accompanying drawings, in which Figure 1 shows the suction tubes of a device according to the invention in a side sectional view, Figure 2 shows a detail of the tube tips of Figure 1, the tips offset, Figure 3 shows a tip of an alternative embodiment; device according to the invention, Figure 5 shows a top view of the device of Figure 4, and Figure 6 shows a diagram of the application of the device according to the invention.

5,60139

Figure 1 shows an embodiment in which the vertical tips 1 and 2 of the suction tubes are nested so that the tip 1 of the inner tube extends lower than the tip 2 of the outer tube. Each tube is connected to its own cylinder 3 and 4 into which liquid can be sucked and removed by pistons 5 and 6. Instead of pistons, a hose pump or other similar arrangement can also be used as the suction and pump system.

In Fig. 2, the inner tip 1 is pushed somewhat lower than the outer tube 2. The lower edge 7 of the tip of the inner tube is further bevelled. In this case, liquid can be sucked through the tip, even at the very bottom of the container.

Figure 3 shows the tip parts 1 and 2 of the pipes, which are arranged in parallel, one next to the other. The tip of the tube 1 extends lower than the tip of the tube 2. The lower edges 7 and 8 of the tips of both tubes are chamfered. The oblique edge 8 of the upper tube 2 is oriented so that the part facing the second tube 1 is higher than the part of the lower edge 8 away from the tube 1. In this case, the liquid discharged from the pipe 2 can be drained onto the outer surface of the pipe 1.

Figures 4 and 5 show diagrammatically an embodiment of an apparatus using three pairs of tips 1, 2 fitted to the arm 9. All three lower extending tubes 1 are connected to one piston and the three upper ends of the tube 2 are connected to another piston (pistons not shown in the figure}. 9 is pivotally attached at one end 1Q to the body of the device, so that the tips 1 and 2 can be raised and lowered, and each of the three tubes 1, 2 can also have its own pistons or other suction and discharge devices.

The carriage 11, which can be moved in the direction of the device (to the left of the position shown in the figure}, is fitted with washing solution tank A, reagent tank B, sample cuvette C, waste vessel or piping D and measuring cuvette E. Cuvettes C and E comprise nine cuvettes in three rows so that three pairs of tips 1, 2 can be fitted to the cuvettes in one row at a time.The carriage 11 can be moved to obtain a desired vessel A to E at the tips 1, 2. The transfer can be performed fully automatically in a pre-programmed manner. matched fluid transfer systems can operate fully automatically with suction or drainage at the tips according to a suitable program.

4 60139 In the present invention, multiple samples are transferred or diluted simultaneously by aspirating the samples into corresponding sample tips 1, which, if necessary, have previously been aspirated with sample tip wash and / or sample dilution reagent. If necessary, the tube 2 next to (Fig. 3) or around (Figs. 1 and 2) can be filled with the sample tips 1 at the same time as the washing or diluting solution of the outside of the sample tip. The height difference h of the tips of adjacent or · nested pipes can be fixed or adjustable. In the emptying step, the sample first comes out and, if necessary, is followed by a certain amount of reagent either from the sample tip 1 or from the tube 2 adjacent to the sample tip, or both, whereby the sample tip 1 must be rinsed both inside and out. The step after emptying the sample may also be a simple washing step, in which the desired amount of washing liquid pre-sucked into the sample tips 1 and / or the surrounding or adjacent tip 2 is injected into a suitable container. Of course, the above functions can be combined by sucking reagent into one tip and washing liquid into the other.

According to the present invention, the reaction vessels can be emptied and washed as follows. In the first step, a suitable amount of washing solution is sucked from the vessel into the surrounding or adjacent tube 2 of the reagent tube 1. In the second step, the reaction vessel is emptied by the suction force of the reagent tube 1, and immediately thereafter, washing liquid is injected into the reaction vessel from the tube 2 surrounding or adjacent to the reagent tube. Similar steps take place in the following reaction vessels, after all the reaction vessels have been passed in the above-mentioned manner, the contents of the reagent tube are emptied into a suitable basin and the washing cycle can be restarted if necessary. When using a hose pump or other flow-through system, washing fluids can go directly into the waste container.

Figure 6 schematically shows steps 1-5 of the process to be performed in the device according to Figures 4 and 5. The process takes place as follows: 1. The tips are immersed in the washing liquid and the washing liquid is sucked from the vessel A through an external pipe.

2. Immerse the middle tip in the reagent and aspirate the reagent into the container from vessel B.

5 60139 3. External cleaning of the tips in the waste container D. The washing liquid comes from the external pipe.

4. Sampling into the center tube from vessel C. If desired, an air bubble between the reagent and the sample can be drawn into the center tube before aspirating the sample.

'5' · The sample is dispensed from the middle tube into vessel E. The desired amount of reagent is dispensed from the same tube onto the sample · 6. Same as step 3, ie washing outside the tips.

7- Take a new sample in the middle tube, etc.

The system can be expanded by increasing the number of nested or parallel pipes. For example, two parallel kkrks terminating at different heights and a third pipe arranged around them can be used, which terminates higher than each inner pipe. It is also possible to fit concentrically nested e.g.

Parallel! the tubes do not necessarily have to be attached to each other, but it is sufficient that the opening of the upper end of the tube is located so close to the lower extending tube that liquid can drain from the upper tip to the outer surface of the other tube. The parallel tubes do not necessarily have to be parallel, but more preferably they are both vertical or nearly vertical. In any case, the tip portion of the lower-extending tube that is flushed by the second tube is vertical or nearly vertical.

i

Various reagents, washing liquids, etc. can be dispensed and sucked from the tubes. Some or some of the tubes can also be used to introduce gases, e.g. drying air, to or from the tubes.

The system can also be used to level liquid surfaces in containers of different volumes or in containers of the same volume that already contain different amounts of liquid.

It is also possible to use the system so-called. to empty and / or wash the sample wells in the well plate.

Claims (3)

601 39 6 An apparatus for transferring or diluting liquids and / or for emptying or washing reaction vessels by suctioning and draining liquids, the apparatus comprising at least two means connected to a cylinder piston device (3, 5; 4, 6} or another pump, arranged in close proximity to each other in a more suitable manner. pipe tip (1, 2), characterized in that the tip (2) with an inlet and outlet opening of at least one pipe is located higher than the tip (1) with an inlet and outlet opening of at least one other pipe, and that the tip (2) of the pipe ending higher the lower edge (8) is inclined so that its part towards the lower extending tip (1) is higher than its outer part, whereby liquid can be drained from the opening of the upper tip (2) along the tip (1) of the lower extending tube. Device according to Claim 1, characterized in that the position of the tip of one or more tubes in relation to the tip * of the other tube is adjustable in height. Device according to Claim 1, characterized in that the lower edge (7) of the tip (1) of the lowest extending tube is inclined.