LU500336B1 - Well Carrier Device for a Dispensing Device - Google Patents

Abstract

The invention relates to a well carrier device for a dispensing device for dispensing a liquid sample, with a well carrier that comprises a coupling means for connecting with a rotating drive of the dispensing device in a rotationally fixed manner. The well carrier device is characterized in that the well carrier device comprises at least one holder element for holding at least one well for receiving a liquid sample, wherein the holder element is detachably connected to the well carrier.

Description

Well carrier device for a dispensing device The invention relates to a well carrier device for a dispensing device for dispensing a liquid sample, with a well carrier that comprises a coupling means for connecting with a rotating drive of the dispensing device in a rotationally fixed manner. Additionally, the invention relates to a dispensing device for dispensing a liquid with such a well carrier device. Dispensing devices for dispensing fluids are already known. Said dispensing devices can use either air pressure or positive displacement to dispense fluids in a controlled way. Air pressure-based dispensing devices use air pressure that is outputted by an air compressor or a similar device and push on a piston or piston-like component that in turn push a fluid in a barrel out of the nozzle. Positive displacement dispensing devices on the other hand do not use compressed air. They usually push a piston inside a barrel by means of a mechanical force that can be generated by electric stepper motors. They are ideal for instance for fluids that change viscosity over time generally and for precise control of flow rate and volume of the dispensed fluid. A dispensing device is known that comprises a dispensing head used for dispensing a liquid sample located in a well. The well is carried by a well carrier that is arranged in a receiving means of the dispensing device and has a circular cross section. The well carrier is connected with a driving unit of the dispensing device and can be rotated between different positions, in particular between a dispensing position and an insertion position. The well can be inserted into a receiving portion of the well carrier in a detachable manner. In the receiving portion only a part comprising the receiving portion protrudes from a housing of the dispensing device. After inserting the well into the receiving portion the well carrier is rotated in the dispensing position and the liquid sample is dispensed by the dispensing head into a target carrier that is arranged below the well carrier.

After a dispensing process the well carrier is rotated back into the insertion position. If the user wants to use the same well for a further dispensing process the user refills the well with the liquid sample. However, the receiving portion and thus, the well only protrudes slightly from the housing of the dispensing device so that the refill process is cumbersome and time consuming. Additionally, the housing makes the well change difficult if the user has to detach the well if e.g. another liquid sample shall be dispensed.

The object of the invention is to provide a well carrier device by means of which the refill process and the well exchange can be easily made and do not require much time.

The object is solved by a well carrier device as mentioned above that is characterized in that the well carrier device comprises at least one holder element for holding at least one well for receiving a liquid sample, wherein the holder element is detachably connected to the well carrier.

The inventive well carrier device has the advantage that a holder element is provided that is detachably connected to the well carrier. This has the advantage that the holder element can be detached from the well carrier when a liquid sample shall be refilled and/or when the well shall be replaced from the well carrier. Thus, a housing of the dispensing device does not hinder refilling or a well change so that the refill and/or exchange process is less cumbersome and less time consuming than in the embodiment discussed above.

As “detachably connected” it is understood that the holder element can be detached from the well carrier without destroying the holder element and/or the well carrier. After the holder element is detached it is possible to connect the holder element again to the well carrier.

A well is a fluid reservoir with a hole at its bottom. The well is capable of holding and releasing a liquid sample onto a target plate only when a well-defined pressure pulse is applied on top of the well. When there is no pressure pulse applied on the well, no liquid sample is released since capillary forces keep the liquid sample in the cavity. A well can be made out of polymers (e.g., polypropylene), metals (e.g., aluminium, copper) and/or glass. When a pressure pulse is applied on top of the well a droplet is released on a target carrier arranged below the well.

The hole of the well can have a diameter between 60um (micrometre) and 200um, in particular 100um. The dispensed liquid sample can be a droplet and/or have a volume of at least 10 nanoliters. Larger volumes are achieved by applying up to 100 pulses per second on the well. The maximum volume of the dispensed liquid per well is the well volume. The well can have a volume between 80 microliters to 500 microliters.

The liquid sample depends on the usage field of the dispensing device. The liquid sample can contain a liquid and at least one biological particle. The biological particles may be microorganisms such as bacteria, archaean, yeast, fungi, and viruses or cells, DNA, RNA, or proteins. The liquid sample may have a single or multiple of the aforementioned biological particles. The liquid can promote the growth of the biological particles, in particular cells, arranged in the liquid. Alternatively, the liquid sample can comprise merely liquids, e.g. one or more chemical reagents. The holder element can be any component that is capable to hold a well. As is explained below the holder element can be configured to hold several wells. According to an embodiment of the invention the well carrier device can be disc shaped. Additionally, the well carrier device can have a circular shape in cross section. Such a well carrier device has the advantage that it is compact resulting in a compact receiving space in the dispensing device. The connection between the well carrier and the holder element can be made such that the holder element can be tool free detached from the well carrier. That means, no tools has to be used to detach the holder element from the well carrier. Likewise, no tools are needed to connect the holder element to the well carrier. The well carrier can have a connecting portion for connecting with the holder element, wherein the connecting portion can be arranged at the edge of the well carrier and/or the connecting portion extends along a part of the circumference of the well carrier. Such connecting portion has the advantage that the holder element can be easily detached form the well carrier. In particular, it is possible to easily detach the holder element from the well carrier when the well carrier device is arranged in an insertion position. In said position at least a part of the holder element protrudes from a housing of the dispensing device so that a user can easily grasp the holder element.

An extension of the connecting portion in axial direction can be smaller than an extension of the remaining part of the well carrier. This enables that in connected state of the holder element with the well carrier an upper side of the holder element is flush with an upper side of the well carrier and/or a lower side of the holder element is flush with a lower side of the well carrier. Such a well carrier device has a compact structure in axial direction.

The direction indications “axial”, “tangential” and “radial” used in this application refer to a rotation axis of the well carrier device. The well carrier device is rotated along the rotation axis when it is inserted in the dispensing device.

The well carrier, in particular the connecting portion, comprises at least one magnet for magnetically connecting the holder element to the well carrier. In particular, the well carrier, comprises more, in particular, two magnets that are arranged at the ends of the connecting portion, respectively. Thus, it is possible to detach the holder element from the well carrier or to attach the holder element to the well carrier in a simple way without performing further working steps.

The coupling means is a portion that is configured to provide mechanical connection between the well carrier device and the rotating device of the dispensing device. The rotating device can comprise a motor and is used to rotate the well carrier device in different positions as it is discussed below. The coupling can be a frictional connection or a positive connection.

According to an embodiment the well carrier can comprise at least one opening for receiving a fixing means of the dispensing device during a dispensing process. The well carrier device has to be fixed during the dispensing process in order to secure that a dispensing line of a dispensing head can be arranged fluid-tight on the well. The fluid- tight arrangement is necessary in order to secure that a droplet with a predetermined volume can be dispensed from the well.

The number of openings corresponds with the number of wells that can be attached to the holder element. Each opening can be assigned to one well. Thus, it is possible to fix the well carrier device independent on the position of the well carrier device, i.e. independent which well is used in the dispensing process.

According to an embodiment the well carrier can comprise at least one lighting means. The lighting means can be arranged and/or orientated such that it lightens the holder element. In particular, the lighting means is used to lighten the well during a dispensing process. Thus, the dispensing process can be well observed and/or monitored. Alternatively or additionally, the lighting means lightens the well after a dispensing process. In particular, the lighting means lightens the well when the well carrier device is

> LU500336 rotated in a position in which the wells are visible for a user, e.g. when the well carrier device is rotated in an insertion position. The lighting means can be arranged at a front face of the connecting portion. The front face of the connecting portion corresponds to the surface of the connecting portion that faces the well or wells when the holder element is connected to the well carrier. Additionally, the front face correspond with the outer rim of the connecting portion. The number of lighting means can corresponds with the number of wells that can be attached to the holder element. Thus, it is possible to observe and/or monitor each well during the dispensing process. According to an embodiment the holder element can be arc-shaped and/or hold several wells. Holding several wells increases the efficiency of the dispensing process as the user does not have to refill or exchange the well after each dispensing process.

The holder element can be formed such that it does not cover a well bottom, in particular a hole arranged at the well bottom. Thus, it is possible that liquid sample is released from the well without being hindered by the holder element. That means, the released liquid samples falls into a target carrier arranged below the well carrier device without being hindered by the holder element, in particular a lower plate of the holder element. The holder element can have a holding portion for holding a well or can have several holding portions for holding a well, respectively. The holding portion is designed such that the well is insertable from an axial direction and/or a radial direction into the holding portion. In particular, the holder element can be inserted into the holding portion selectively along the axial direction or the radial direction. The holding portions can be arranged offset to each other, in particular along an arc line. The holding portion can comprise a u-shape in cross section. In the end, the holding portion enables that the well can be attached in a simple way to the holder element even if the holder element remains attached to the well carrier. The holder element can have an upper plate and a lower plate that are arranged offset to each other. Both plates can be arranged in axial direction offset to each other. Additionally, both plates can have an arc shape and/or can be identically formed. Both plates have recesses for receiving one well, respectively. Said recesses are part of the holding portion. In a cross section comprising a plane orthogonal to the axial direction, the recesses can have a u-shape.

The upper plate and the lower plate can be connected with each other by means of at least two bars. À bar extends in axial direction and is connected at one end with the upper plate and at another end with the lower end. Both bars are identically built. The upper plate and lower plate can run parallel to each other, i.e. the axial distance between the upper and lower plate remains constant and/or a plane comprising the upper plate and a plane comprising the lower plate exist that are parallel to each other.

The bar can comprise at least one magnet for magnetically connecting the holder element to the well carrier. The holder element can be directly connected with the well carrier. In particular, the holder element can be directly connected with the well carrier by means of the magnets of the holder element and of the well carrier.

The holder element can be formed such that it is connectable with the well carrier by moving it in radial direction. In particular, the holder element and/or the well carrier can be formed such that it is only possible to attach the holder element to the well carrier or to detach the holder element from the well carrier by moving the holder element in radial direction. The radial direction for attaching the holder element to the well carrier is opposite to the radial direction for detaching the holder element from the well carrier. The well carrier device can be designed such that several holder elements each holding one or more wells can be attached to the well carrier or detached from the well carrier.

Each holder element can be attached to the well carrier or detached from the well carrier independent of the other holder elements. The holder elements can be formed identically to the holder element discussed above. The well carrier device, in particular the well carrier, can comprise at least one sensor for, in particular automatically, sensing whether the holder element is attached to the well carrier. If the holder element is not attached to the well carrier, a control unit can prevent that the well carrier is rotated when it is inserted into the dispensing device. Additionally, the well carrier device, in particular the well carrier, can comprise at least one sensor for, in particular automatically, sensing whether a well is inserted in a holding portion of the holder element. Such a sensor has the advantage that the well carrier

/ LU500336 device can automatically be rotated into a position in which the dispensing head can be brought in contact with a well. That means, the well carrier device will not be rotated to a position in which no well is arranged below a dispensing head.

A particularly advantageous dispensing device for dispensing a liquid sample comprises a well carrier device as discussed above. Additionally, the dispensing device comprises a rotating drive that is connected with the well carrier device in a rotationally fixed manner. Thus, the rotating drive sets the position of the well carrier device by rotating the well carrier device. Moreover, the dispensing device comprises a dispensing head for dispensing liquid sample located in a well of the well carrier device. As a connection in a rotationally fixed manner, a connection is understood that secures that the well carrier device is rotated when the rotating drive rotates. In particular, both parts rotate in the same direction due to the rotationally fixed connection.

The dispensing head can have dispensing lines that in a dispensing process are arranged on the well in a fluid tight manner. Additionally, the dispensing head is configured such that it applies a pressure on the liquid sample in the well in order to dispense liquid sample from the well.

The dispensing device can have a plate with a receiving. The receiving is a plate recess and used for receiving the well carrier device. The receiving has a front opening. The front opening is formed such that the well carrier device protrudes from the receiving opening when the well carrier device is arranged in the receiving of the plate. The well carrier device, in particular the holder element extends through the front opening when the well carrier device is arranged in the insertion position. The dispensing device can comprise a control unit that controls the rotating drive such that the well carrier device can be rotated in at least one of an insertion position, a dispensing position and a parking position. In the insertion portion the holder element can be removed from the well carrier or connected with the well carrier. In the dispensing position the dispensing head can dispense a liquid sample located in the well held by the holding element. In the parking position the holder element is arranged within a housing of the dispensing device. Thus, in the parking position a contamination of the liquid sample located in the well or wells by dust or other materials is easily prevented.

Additionally, the control unit can control the rotating drive such that the well carrier device can be rotated in different filling positions. A filing position is a position in which the well to be filled is located centrally outside the device. In the filing position the respective well protrudes furthest from the housing of the dispensing device. Thus, the well can be easily filled. Each of the wells of the holder element can be rotated into a filling position.

The dispensing device can comprise a fixing means which protrudes in the opening of the well carrier during a dispensing process. The fixing means can be a pin that is arranged in the dispensing head.

The holder element can be connected to the well carrier or detachable from the well carrier when the well carrier is arranged in the receiving of the dispensing device. Thus, the connection or detaching of the holder element can occur without the need to have an access to the interior of the dispensing device. In particular, it is not necessary to open a housing of the dispensing device to have a better access to the wells holded by the well carrier device. Particularly advantageous is the use of a well carrier device as described in a dispensing device for dispensing liquid.

In the figures, the subject-matter of the invention is schematically shown, wherein identical or similarly acting elements are usually provided with the same reference signs. Figure 1 a perspective view of the well carrier device, Figure 2 a perspective view on a holder element holding wells, Figure 3 a perspective view on the holder element without wells, Figure 4 a view on a part of the dispensing device with the well carrier device in its insertion position, Figure 5 a view on a part of the dispensing device with the well carrier device in its dispensing position.

Figure 1 shows a well carrier device 1 for a dispensing device 2 shown in figure 5 wherein the well carrier device 1 is shown in a disassembled state. The well carrier device 1 comprises a well carrier 3 that comprises a coupling means 4 for connecting with rotating drive 24 shown in figure 4 of the dispensing device 2. The coupling means 4 is formed such that a connection in a rotationally fixed manner can be realized between the well carrier device 1 and the rotating drive. That means, the well carrier device 1 is rotated by means of the rotating drive 24. Moreover, the well carrier device 1 comprises at least one holder element 5 for holding at least one well 6 for receiving a liquid sample. The holder element 5 is configured to hold twelve wells 6. However, other non-shown holder elements 5 can hold more or less than 12 wells. The holder element 5 is detachably connected to the well carrier 3. The wells 6 are arranged at the outer rim of the holder element 5. The well carrier device 1 has a disc-shape and a circular cross section when the holder element 5 is connected with the well carrier 3. The well carrier 3 has a connecting portion

7. The connecting portion 7 is arranged at the outer rim of the well carrier 3 and extends in a circumferential direction of the well carrier 3. In particular, the connecting portion 7 extends about 170° in the circumferential direction of the well carrier 3.

At one end of the connecting portion 7 a magnet 8 is arranged. Likewise, a magnet 8 is arranged at another end of the connection portion 7. Lighting means 10 are arranged at a front face of the connecting portion 7. The lighting means 10 are arranged offset to each other in the circumferential direction of the well carrier 3. The magnets 8 are also arranged at the front face. The extension of the connection portion 7 in axial direction is smaller than the extension of the remaining part of the well carrier 3. Thus, in an assembled state of the well carrier 3 an upper side of the well carrier 3 is flush with an upper side of the holder element 5. Additionally, an lower side of the well carrier 3 is flush with a lower side of the holder element 5 when the holder element 5 is connected with the well carrier 3. The well carrier 3 comprises several openings 9 that are arranged offset to another in a tangential direction T. A fixing means of a dispensing head of the dispensing device is inserted into the opening 9 during a dispensing process in order to fix the well carrier device 1 in a predetermined position. Each of the openings 9 is assigned to one well 6.

That means, the number of openings 9 corresponds to the number of holding portions 11 of the holder elements 5 which can hold a well 6, respectively. The holder element 5 can be detached from the well carrier 3 by moving the holder element 5 along a radial direction R. Likewise, the holder element 5 can be connected to the well carrier 3 by moving the holder element 5 along the radial direction R wherein the direction is opposite to the radial direction R for detaching the holder element 5 from the well carrier 3.

Figure 2 shows a perspective view on a holder element 5 holding wells 6 and Figure 3 shows a perspective view on the holder element 5 without wells 6. The holder element 5 comprises an upper plate 12 and a lower plate 13 that are arranged offset to each other along an axial direction A. Additionally, the holder element 5 comprises three bars 14. The bar 14 is connected at one end with the lower plate 13 and at the other end with the upper plate 12.

The bars 14 are arranged offset to each other along the tangential direction T of the holder element 5 and/or are built identically. Thus, free space remains between the upper plate 12 and the lower plate 13. This enables that the wells 6 can be lightened by the lighting means 10 arranged at the connection portion 7.

The bars 14 that are arranged at the respective end of the holder element 5 comprises a magnet 15, respectively. The remaining bar 14 arranged between the two bars 14 in the tangential direction T does not comprise a magnet. The magnets 15 are used to magnetically connect that holder element with the magnets 8 arranged in the connection portion of the well carrier 3.

As is seen from figure 3 the holder element 5 comprises several holding portions 11. Each of the holding portions 11 can hold one well 6. The holding portions 11 are arranged offset to each other along the tangential direction T of the holder element 5. The holding portions 11 are built such that the well 6 can be inserted by moving the well 6 along the axial direction A and/or the radial direction R. The holding portions 11 are formed by recesses formed in the upper plate 12 and the lower plate 12.

Figure 4 shows a view on parts of the dispensing device 2 with the well carrier device 1 in its insertion position. In said position the holder element 5 can be connected to the well carrier 3 or detached from the well carrier 3.

The dispensing device 2 comprises a plate 23 with a receiving 21 in which the well carrier device 1 is inserted. The receiving 21 has a front opening 22. The front opening 22 is arranged in a non-shown housing of the dispensing device 2 and arranged such that the holder element 5 passes through said front opening 22 by its movement away from the well carrier 3 or to the well carrier 3. That means, the extension of the front opening 22 in tangential direction T is so broad that the holder element 5 can pass through it. Moreover, the dispensing device 2 comprises a dispensing head 20. The liquid sample located in the well 6 can be dispensed by the dispensing head 20. Figure 5 shows a view on a part of the dispensing device 2 with the well carrier device 1 in its dispensing position. In the dispensing position the well carrier device 1 is rotated by the rotating device 24 of the dispensing device 2 such that the dispensing head 20 can dispense liquid sample from the well 6 into a non-shown target carrier. In the dispensing position it is not possible to detach the holder element 5 from the well carrier

3.

Reference Signs 1 Well carrier device 2 Dispensing device 3 Well carrier 4 Coupling means 5 Holder element 6 Well 7 Connecting portion 8 Magnet in well carrier 9 Opening 10 Lighting means 11 Holding portion 12 Upper plate 13 Lower plate 14 Bar 15 Magnet in bar Dispensing head 21 Receiving 20 22 Front opening 23 Plate 24 Rotating drive A Axial direction R Radial direction T Tangential direction

Claims (23)

Patent Claims

1. Well carrier device (1) for a dispensing device (2) for dispensing a liquid sample, with a well carrier (3) that comprises a coupling means (4) for connecting with a rotating drive of the dispensing device (2) in a rotationally fixed manner, characterized in that the well carrier device (1) comprises at least one holder element (5) for holding at least one well (6) for receiving a liquid sample, wherein the holder element (5) is detachably connected to the well carrier (3).

2. Well carrier device (1) according to claim 1, characterized in that a. the well carrier device (1) is disc shaped and/or in that b. the well carrier device (1) has a circular shape in cross section and/or in that C. the connection between the carrier device (3) and the holder element (5) is configured such that the holder element (5) can be detached tool free from the well carrier (3).

3. Well carrier device (1) according to claim 1 or 2, characterized in that the well carrier (3) has a connecting portion (7) for connecting with the holder element (5), wherein a. the connecting portion (7) is arranged at the edge of the well carrier (3) and/or wherein b. the connecting portion (7) extends along a part of the circumference of the well carrier (3) and/or wherein C. an extension of the connecting portion (7) in axial direction (A) is smaller than an extension of the remaining part of the well carrier (3) in axial direction (A).

4. Well carrier device (1) according to one of the claims 1 to 3, characterized in that the well carrier (3), in particular the connecting portion (7), comprises at least one magnet (8) for magnetically connecting the holder element (5) to the well carrier (3).

5. Well carrier device (1) according to one of the claims 1 to 4, characterized in that the well carrier (3) comprises at least one opening (9) for receiving a fixing means of the dispensing device (2) during a dispensing process.

6. Well carrier device (1) according to claim 5, characterized in that the number of openings (9) corresponds with the number of wells (6) that can be attached to the holder element (5).

7. Well carrier device (1) according to one of the claims 1 to 6, characterized in that the well carrier (3) comprises at least one lighting means (10).

8. Well carrier device (1) according to claim 7, characterized in that a. the lighting means (10) is arranged at a front face of the connecting portion (7) and/or in that b. the number of lighting means (10) corresponds with the number of wells (6) that can be attached to the holder element (5) and/or in that C. the lighting means (10) is arranged and/or orientated such that it lightens the holder element (5), in particular the well (6).

9. Well carrier device (1) according to one of the claims 1 to 8, characterized in that the holder element (5) is arc-shaped.

10. Well carrier device (1) according to one of the claims 1 to 9, characterized in that the holder element (5) is formed such that it does not cover a well bottom, in particular a hole arranged at the well bottom.

11. Well carrier device (1) according to one of the claims 1 to 10, characterized in that the holder element (5) has a holding portion (11) for holding a well (6), wherein the holding portion (11) is designed such that the well (6) is insertable from an axial direction (A) and/or a radial direction (R) into the holding portion (11).

12. Well carrier device (1) according to one of the claims 1 to 11, characterized in that holder element (5) has several holding portions (11) wherein the holding portions (11) are arranged offset to each other, in particular along an arc line.

13. Well carrier device (1) according to one of the claims 1 to 12, characterized in that the holder element (5) has an upper plate (12) and a lower plate (13) that are arranged offset to each other.

14. Well carrier device (1) according to claim 13, characterized in that a. the upper plate (12) and the lower plate (13) are connected with each other by means of at least two bars (14) and/or in that b. the upper plate (12) and lower plate (13) run parallel to each other.

15. Well carrier device (1) according to claim 14, characterized in that the bar (14) comprises at least one magnet (15) for magnetically connecting the holder element (5) to the well carrier (3).

16. Well carrier device (1) according to one of the claims 1 to 15, characterized in that in a connected state of the holder element (5) with the well carrier (3) an upper side of the holder element (5) is flush with an upper side of the well carrier (3) and/or a lower side of the holder element (5) is flush with a lower side of the well carrier (3).

17. Well carrier device (1) according to one of the claims 1 to 16, characterized in that the holder element (5) is formed such that it is connectable with the well carrier (3) by moving it in radial direction (R).

18. Dispensing device (2) for dispensing a liquid sample with a well carrier device (1) according to one of the claims 1 to 17, a rotating drive that is connected with the well carrier device (1) in a rotationally fixed manner and a dispensing head (20) for dispensing liquid sample located in a well (6) of the well carrier device (1).

19. Dispensing device (2) according to claim 18, characterized in that the dispensing device (2) has a plate (23) with a receiving (21) comprising a front opening (22), wherein the well carrier device (1) is arranged in the receiving (21) and protrudes from the front opening (22).

20. Dispensing device (2) according to claim 18 or 19, characterized in that the dispensing device (2) comprises a control unit that controls the rotating drive (24) such that the well carrier device (1) is rotated in at least one of an insertion position, in which the holder element (5) can be removed from the well carrier (3) or connected with the well carrier (3), a dispensing position in which the liquid is dispensed from the well or a parking position.

21. Dispensing device (2) according to claims 18 to 20, characterized in that the dispensing device (2) comprises a fixing means which protrudes in the opening (9) of the well carrier (3) during a dispensing process.

22. Dispensing device (2) according to one of the claims 18 to 21, characterized in that the holder element (5) is connectable to the well carrier (3) or detachable from the well carrier (3) when the well carrier (3) is arranged in the receiving (21) of the dispensing device (2).

23. Use of the well carrier device (1) according to one of the claims 1 to 17 in a dispensing device (2) according to claims 18 to 22.

Patentansprüche

1. Wellträgervorrichtung (1) für eine Dispensiervorrichtung (2) zum Dispensieren einer flüssigen Probe mit einem Wellträger (3), der ein Kopplungsmittel (4) zum drehfesten Verbinden mit einem Drehantrieb der Dispensiervorrichtung (2) aufweist, dadurch gekennzeichnet, dass die Wellträgervorrichtung (1) mindestens ein Halteelement (5) zum Halten mindestens eines Wells (6) zum Aufnehmen einer flüssigen Probe aufweist, wobei das Halteelement (5) lösbar mit dem Wellträger (3) verbunden ist.

2. Wellträgervorrichtung (1) nach Anspruch 1, dadurch gekennzeichnet, dass a. die Wellträgervorrichtung (1) scheibenförmig ist und/oder dass b. die Wellträgervorrichtung (1) im Querschnitt eine Kreisform aufweist und/oder dass C. die Verbindung zwischen der Trägervorrichtung (3) und dem Halteelement (5) so ausgebildet ist, dass das Halteelement (5) vom Wellträger (3) werkzeuglos gelöst werden kann.

3. Wellträgervorrichtung (1) nach Anspruch 1 oder 2, dadurch gekennzeichnet, dass der Wellträger (3) einen Verbindungsabschnitt (7) zum Verbinden mit dem Halteelement (5) aufweist, wobei a. der Verbindungsabschnitt (7) am Rand des Wellträgers (3) angeordnet ist und/oder wobei b. sich der Verbindungsabschnitt (7) entlang eines Teils des Umfangs des Wellträgers (3) erstreckt und/oder wobei C. eine Erstreckung des Verbindungsabschnitts (7) in axialer Richtung (A) kleiner ist als eine Erstreckung des übrigen Teils des Wellrägers (3) in axialer Richtung (A).

4. Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 3, dadurch gekennzeichnet, dass der Wellträger (3), insbesondere der Verbindungsabschnitt (7), mindestens einen Magneten (8) zum magnetischen Verbinden des Halteelements (5) mit dem Wellträger (3) aufweist.

5. Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 4, dadurch gekennzeichnet, dass der Wellträger (3) mindestens eine Öffnung (9) zum Aufnahmen eines Fixiermittels der Dispensiervorrichtung (2) während eines Dispensiervorgangs aufweist.

6. Wellträgervorrichtung (1) nach Anspruch 5, dadurch gekennzeichnet, dass die Anzahl der Öffnungen (9) der Anzahl der Wells (6) entspricht, die an dem Halteelement (5) befestigbar sind.

7. Welltragervorrichtung (1) nach einem der Ansprüche 1 bis 6, dadurch gekennzeichnet, dass der Wellträger (3) mindestens ein Beleuchtungsmittel (10) aufweist.

8. Welltragervorrichtung (1) nach Anspruch 7, dadurch gekennzeichnet, dass a. das Beleuchtungsmittel (10) an einer Stirnseite des Verbindungsabschnitts (7) angeordnet ist und/oder dass b. die Anzahl der Beleuchtungsmittel (10) der Anzahl der an dem Halteelement (5) anbringbaren Wells (6) entspricht und/oder dass C. das Beleuchtungsmittel (10) so angeordnet und/oder ausgerichtet ist, dass es das Halteelement (5), insbesondere das Well (6), beleuchtet.

9. Welltragervorrichtung (1) nach einem der Ansprüche 1 bis 8, dadurch gekennzeichnet, dass das Halteelement (5) bogenférmig ausgebildet ist.

10. Welltragervorrichtung (1) nach einem der Ansprüche 1 bis 9, dadurch gekennzeichnet, dass das Halteelement (5) so ausgebildet ist, dass es einen Wellboden, insbesondere ein am Wellboden angeordnetes Loch, nicht abdeckt.

11. Welltragervorrichtung (1) nach einem der Ansprüche 1 bis 10, dadurch gekennzeichnet, dass das Halteelement (5) einen Halteabschnitt (11) zum Halten eines Wells (6) aufweist, wobei der Halteabschnitt (11) derart ausgebildet ist, dass das Well (6) aus einer axialen Richtung (A) und/oder einer radialen Richtung (R) in den Halteabschnitt (11) einführbar ist.

12. Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 11, dadurch gekennzeichnet, dass das Halteelement (5) mehrere Halteabschnitte (11) aufweist,

wobei die Halteabschnitte (11), insbesondere entlang einer Bogenlinie, versetzt zueinander angeordnet sind.

13. Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 12, dadurch gekennzeichnet, dass das Halteelement (5) eine obere Platte (12) und eine untere Platte (13) aufweist, die versetzt zueinander angeordnet sind.

14. Wellträgervorrichtung (1) nach Anspruch 13, dadurch gekennzeichnet, dass a. die obere Platte (12) und die untere Platte (13) durch mindestens zwei Stege (14) miteinander verbunden sind und/oder dass b. die obere Platte (12) und die untere Platte (13) parallel zueinander verlaufen.

15. Wellträgervorrichtung (1) nach Anspruch 14, dadurch gekennzeichnet, dass der Steg (14) mindestens einen Magneten (15) zum magnetischen Verbinden des Halteelements (5) mit dem Wellträger (3) aufweist.

16. Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 15, dadurch gekennzeichnet, dass in einem verbundenen Zustand des Halteelements (5) mit dem Wellträger (3) eine obere Seite des Halteelements (5) mit einer oberen Seite des Wellträgers (3) bündig ist und/oder eine untere Seite des Halteelements (5) mit einer unteren Seite des Wellträgers (3) bündig ist.

17. Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 16, dadurch gekennzeichnet, dass das Halteelement (5) so ausgebildet ist, dass es durch Bewegen in radialer Richtung (R) mit dem Wellträger (3) verbindbar ist.

18. Dispensiervorrichtung (2) zum Dispensieren einer flüssigen Probe mit einer Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 17, einem Drehantrieb, der drehfest mit der Wellträgervorrichtung (1) verbunden ist, und einem in einem Well (6) der Wellträgervorrichtung (1) angeordneten Dispensierkopf (20) zum Dispensieren der flüssigen Probe.

19. Dispensiervorrichtung (2) nach Anspruch 18, dadurch gekennzeichnet, dass die Dispensiervorrichtung (2) eine Platte (23) mit einer Aufnahme (21) hat, die eine vordere

Öffnung (22) aufweist, wobei die Wellträgervorrichtung (1) in der Aufnahme (21) angeordnet ist und aus der vorderen Öffnung (22) herausragt.

20. Dispensiervorrichtung (2) nach Anspruch 18 oder 19, dadurch gekennzeichnet, dass die Dispensiervorrichtung (2) eine Steuereinheit aufweist, die den Drehantrieb (24) derart steuert, dass die Wellträgervorrichtung (1) in mindestens eine von einer Einführposition, in der das Halteelement (5) aus dem Wellträger (3) entnommen oder mit dem Wellträger (3) verbindbar ist, einer Dispensierposition, in der die Flüssigkeit aus dem Well abgegeben wird, oder einer Parkposition gedreht wird.

21. Dispensiervorrichtung (2) nach einem der Ansprüche 18 bis 20, dadurch gekennzeichnet, dass die Dispensiervorrichtung (2) ein Fixiermittel aufweist, das während eines Dispensiervorgangs in die Öffnung (9) des Wellträgers (3) ragt.

22. Dispensiervorrichtung (2) nach einem der Ansprüche 18 bis 21, dadurch gekennzeichnet, dass das Halteelement (5) mit dem Wellträger (3) verbindbar oder von dem Wellträger (3) lösbar ist, wenn der Wellträger (3) in der Aufnahme (21) der Dispensiervorrichtung (2) angeordnet ist.

23. Verwendung der Wellträgervorrichtung (1) nach einem der Ansprüche 1 bis 17 in einer Dispensiervorrichtung (2) nach einem der Ansprüche 18 bis 22.