DE3614954A1 - Sampling device with a pipette - Google Patents

Abstract

The invention relates to a device for taking, by means of remotely operated manipulators, certain liquid quantities from a vessel and introducing these into another vessel. It comprises a pipette tube with a pipette, and a line connecting the pipette to the pipette tube. A pressure sensor for measuring the pressure prevailing in the line is located in this line.

Description

The invention relates to a device for manipulators remote removal of certain amounts of liquid from one container and entering it into another Container with a pipette having a pipette tube and one connecting the pipette to the pipette tube Management.

Devices of the type mentioned are regular part of a sample distribution system used for distribution and evaluation of samples with different Condition is provided. Here come as samples especially whole blood, serum, cerebrospinal fluid, urine, punctate etc. into consideration. As part of examining the samples various tests are carried out, it is common required these samples, i.e. the primary distribution, to distribute into other tubes. The distribution of the samples is carried out regularly as follows:

After the pipette tube into the sample of the primary distribution has been immersed, the test tube becomes a the intended amount of the sample is taken and Tubes distributed. Experiments have shown that not only the fluidity, but also the behavior of the samples can be different in the atmosphere. There are samples their physical properties and chemical Practical composition of laboratory conditions are independent. This is e.g. the case with urine, while  in some other samples the properties almost change change in an uncontrolled manner, even if the Examination conditions remain unchanged. Vary the properties of a sample, especially its Flowability during sample distribution, then it can to block the pipette tube, which is regularly a Cannula with a very small diameter come. Known sample distribution systems also work among these Conditions continue, without the error that occurs to register. Does it happen during the removal of the Sample from the primary distribution for constipation Pipette tube, then it can be expected that through the Constipation errors lead to unusable results of the overall investigation.

It is therefore an object of the invention, the known device so continue to form that the blockage of the pipette tube or the pipette device immediately after constipation is noticeable.

The task is in a generic Device of the type mentioned in the invention solved in that in this line a pressure sensor for Measuring the pressure prevailing in the line arranged is.

The essential essence of the invention is therefore that the pressure in the line is monitored, by means of a simple device, the measured values in a central control unit to which the Device is regularly connected to be evaluated. Here, the in the central control unit stored pressure values for the intended samples were determined experimentally with the actual pressure values  compared. It has been shown that although the experimental determined vacuum and overpressure values with a certain errors are afflicted that the difference between the negative pressure in case of constipation and the Target negative pressure or the positive pressure and the target positive pressure is so great that there are no false positives that matter would fall. This is how it works in detail proceeded that all in the central control unit Data of the samples to be examined are stored; this also includes fluidity and pressure increase or waste that is in the proper operation of individual Samples was registered. So that's the pipette tube clogged, then the central control unit registers a negative pressure or overpressure value that is outside the stored pressure interval. Such pressure values can be used as a control signal for a warning device serve.

You can see that in this way not only a quick, but also a reliable fault location is possible.

Further expedient and advantageous measures of the invention emerge from the subclaims.

In the device according to the invention, the line is regularly connected to a dilutor. A dilutor is a mechanical device for recording a set Sample quantity and delivery into a reaction tube with addition a lot of reagent from a reservoir. For example 0.1 ml sample was taken and diluted with 1 ml reagent. Here the dilutors are equipped with two syringes; the first draws up the sample while the second reagent comes out of the The reservoir is removed. The sample will come back in the second step dispensed by the pipette syringe, and after switching  A valve is used to dispense the reagent. Because the reagent usually added in multiple excess results there is also a good rinsing effect of the pipette syringe.

In the case of a device with a dilutor, it is expedient to if the pressure sensor in the the pipette tube with the dilutor connecting line is arranged.

The device is connected to a central control unit to evaluate the measured information and taxes connected to the sample distribution, then it is advisable if the control unit has a comparator that compares the target pressure with the actual pressure of the line. Here the measures can also be taken so that at a Device whose dilutor has two syringes, one of which one is used to take the sample while the other as a reagent adding device to the sample is formed, the syringes with respect to the line are connected in parallel and that the pressure sensor in the T- Piece that connects the syringes to the line is. It is for taking and delivering the samples useful if between the pressure sensor and the second Syringe a one-way valve is arranged.

It can be seen that the measures according to the invention the generic device with technically simple Functional means has been expanded so that the desired Constipation detection instantly, quickly and conveniently can be determined without errors. Since it is the additionally installed technical means (pressure sensor, Valve) around mature and tried and tested components is also correct operation of the device ensured.

An embodiment of the invention is in the drawing shown and is described in more detail below. It demonstrate:

Fig. 1 shows a part of a sample distribution system with a pipette tube, and a diluter,

Fig. 2 shows the part of the dilutor shown in Fig. 1 with II enlarged and shown schematically, and

Fig. 3 is a voltage graph for constipation and normal pipetting.

In Fig. 1, 14 16 is a device for remotely actuated by means of manipulators 10 removing certain quantities of liquid from a container 12, and inputting shown this to another, not shown in detail container. The device has a pipette tube 20 which is supported by a boom 22 . The boom 22 can perform reciprocating movements in the direction of the double arrows 24 and 26 . In the context of the entire sample distribution system, the manipulator 10 can perform circular movements, not yet shown. The device also has a line 30 which connects the pipette tube 20 to the dilutor 32 .

It can be seen (see FIG. 2) that the dilutor 32 is equipped with two syringes 34 , 36 which are connected to the line 30 . The two syringes 34 , 36 are connected in parallel with respect to the line 30 and have a pressure sensor 38 and a valve 40 . The pressure sensor 38 measures the pressure conditions prevailing in the syringe 34 , while the valve 40 is designed as a one-way valve which allows the reagent liquid to flow in the direction of the arrow 42 . The dilutor 32 is connected to a control unit, not shown, for evaluating the measured information and controlling the sample distribution, this control unit having a comparator, not shown, which compares the setpoint pressure with the actual line 30 pressure.

The device works as follows:

The manipulator 10 moves the pipette tube 20 into the tube 12 of the primary distribution. As shown in FIG. 3, there is no pressure in line 30 , cf. Area ( 1 ). Thereafter, an intended amount of the sample is taken from the tube 12 . During this suction phase there is negative pressure in the line 30 (cf. FIG. 3, area ( 2 ). The valve 40 is then switched over (area ( 3 ) of the voltage graphic) and the sample is distributed into other tubes overpressure (line ( 4 ) of the tension graph) on line 30. After the intended amount of the sample has been dispensed, there is no more pressure on line 30. As the tension graph clearly shows, the pressure differences are during the constipation and during normal Pipetting is very different, so that there is no overlap between these pressure ranges, so the blockage can be identified by the error-free comparator.

The part of the dilutor shown in FIG. 2 shows that the sample flows into the first syringe 34 during the suction phase (arrow 50 ). Then this sample is diluted with reagent. In the second step, the sample is dispensed again in the direction of arrow 52 through the pipetting tip. After switching the valve 40 , the reagent is also pressed through the pipette tube 20 . Since the reagent is usually added in a multiple excess, there is also a good rinsing effect of the pipette tip 42 .

Claims (5)

1. Device for the remote removal of certain amounts of liquid from a container by means of manipulators and inputting them into another container with a pipette having a pipette tube and a line connecting the pipette to the pipette tube, characterized in that in this line ( 30 ) a pressure sensor ( 38 ) is arranged to measure the pressure prevailing in the line. 2. Device according to claim 1, the line of which is connected to a dilutor, characterized in that the pressure sensor ( 38 ) is arranged in the line connecting the pipette tube ( 20 ) to the dilutor ( 32 ). 3. Device according to one of claims 1 or 2, with a central control unit for evaluating the measured information and control the Sample distribution, characterized,  that the control unit has a comparator, which compares the target pressure with the actual pressure of the line. 4. Apparatus according to claim 2 or 3, the dilutor of which has two syringes, one of which is used for taking the sample, while the other is designed as an addition device for reagent into the sample, characterized in that the syringes ( 34 , 36 ) are connected in parallel with respect to the line ( 30 ), and that the pressure sensor ( 38 ) in the T-piece, which connects the syringes ( 34 , 36 ) to the line ( 30 ), is connected. 5. The device according to claim 4, characterized in that a one-way valve ( 40 ) is arranged between the pressure sensor ( 38 ) and the second syringe ( 36 ).