EP1875966A1 - Pipette device - Google Patents

Abstract

The multi-channel pipetting device for dosing of liquids, comprises a piston control rod (9), a reception arranged at an end of the rod for piston head that is limited in axial direction from a contact surface (20) for the piston head, a cylinder with a cavity, a seat for holding a pipette tip, and a passage opening for a plastic piston rod. The passage opening surrounds a base for supporting the piston head. A passage channel is connected to the cavity of the cylinder with a clearance hole (31) in a seat. The piston is arranged longitudinally relocatable in the cavity of cylinder. The multi-channel pipetting device for dosing of liquids, comprises a piston control rod (9), a reception arranged at an end of the rod for piston head that is limited in axial direction from a contact surface (20) for the piston head, a cylinder with a cavity, a seat for holding a pipette tip, and a passage opening for a plastic piston rod. The passage opening surrounds a base for supporting the piston head. A passage channel is connected to the cavity of the cylinder with a clearance hole (31) in a seat. The piston is arranged longitudinally relocatable in the cavity of cylinder. The piston rod extends through the passage opening of the reception and the piston head is arranged at the end of the piston rod, which is mount on the base with lower side faced towards the piston rod and which has flexible body out-standing over the top side turned away from the piston rod. The flexible body does not rest or partly flexibly squeezed together against the contact surface. The piston control rod has a cross beam aligned transverse to its longitudinal axis. The piston control rod has several reception arranged next to each other and is arranged with its piston head in the reception. The reception has an insert opening extended diagonally to the piston control rod for the piston head and the piston rod. The piston head with a ring plate is supported on the base and has a cone between ring plate and piston rod. The piston at the top side of the piston head has a blind hole, in which the flexible body is partly arranged. The blind hole has an extension in a distance of its opening and the flexible body intervenes in the extension. The blind hole has diametrically extensions facing each other. The extensions proceed from a recess at the base of the blind hole. The flexible body has a spherical section, which protrudes from the piston head. The piston has a cone at the end removed from the piston head and the cylinder and/or the connection channel has corresponding interior conicity. The plastic piston has a circulating piston seal at the end removed from the piston head. The piston seal is a piston sealing ring inserted in an annular groove at the extent of the piston. The flexible body is molded at the piston. The piston and the flexible body are manufactured in the multi-component injection molding process. The piston control rod protrudes from the side of the housing. An end of the piston control rod on a side of the housing is accessible from the outside. The housing has a fastening device (5) for fastening the pipetting device to a driving device.

Description

The invention relates to a pipetting device for dosing liquids.

Pipetting devices are used in laboratories for dosing liquids. Bubble pipettes have at least one integrated displacer unit comprising a cylinder and a piston arranged longitudinally displaceable therein. The cavity of the cylinder is connected via a connecting channel to a through hole in a seat for a pipette tip. By displacing the piston in the cylinder, an air column is displaceable in order to suck sample liquid into a pipette tip sealingly arranged on the seat and to eject it out of it. Here, the displacer unit does not come in Contact with the liquid. Only the pipette tip, which is usually made of plastic, becomes contaminated and can be replaced after use.

The piston is connected to a drive for displacing the piston within the cylinder. It is known to couple a piston actuating rod, which can be driven manually or by means of an electromotive linear drive, with the piston rod. The piston rod is inserted into a receptacle of the piston actuating rod. In addition, a bending or spiral spring is inserted into the receptacle, which bears under prestress against the piston spring in order to avoid play.

The assembly costs for the known pipetting device is great, especially because the extremely small spring is difficult to handle. This is also disadvantageous in the application, for example, when the user disassembles the pipetting device for cleaning or autoclaving or for the replacement of defective parts and reassembled.

Based on this, the present invention seeks to provide a pipetting device, in which the assembly and disassembly of piston actuating rod and displacer unit is associated with less effort.

The object is achieved by a pipetting device with the features of claim 1. Advantageous embodiments of the solution are specified in the subclaims.

• eine Kolbenbetätigungsstange,
• mindestens eine an einem Ende der Kolbenbetätigungsstange angeordnete Aufnahme für einen Kolbenkopf, die in axialer Richtung der Kolbenbetätigungsstange von einer Anlagefläche für den Kolbenkopf begrenzt ist, eine dieser gegenüberliegende Durchgangsöffnung für eine Kolbenstange und einen die Durchgangsöffnung umgebenden Boden zum Abstützen des Kolbenkopfes aufweist,
• mindestens einen Zylinder mit einem Hohlraum,
• mindestens einen Sitz zum Halten einer Pipettenspitze,
• mindestens einen den Hohlraum eines Zylinders mit einem Durchgangsloch in einem Sitz verbindenden Durchgangskanal und
• mindestens einen im Hohlraum eines Zylinders längsverschieblich angeordneten Kolben mit einer durch die Durchgangsöffnung einer Aufnahme erstreckten Kolbenstange und einem in der Aufnahme angeordneten Kolbenkopf am Ende der Kolbenstange, der mit einer der Kolbenstange zugewandten Unterseite auf dem Boden aufsitzt und einen über die von der Kolbenstange abgewandte Oberseite hinausstehenden elastischen Körper aufweist, der nicht oder teilweise elastisch zusammengedrückt an der Anlagefläche anliegt.

The pipetting device according to the invention for dosing liquids has

• a piston actuating rod,
• at least one receptacle arranged at one end of the piston-actuating rod for a piston head, which is delimited in the axial direction of the piston-actuating rod by a contact surface for the piston head, has a passage opening for a piston rod opposite it and a base surrounding the passage opening for supporting the piston head,
• at least one cylinder with a cavity,
• at least one seat for holding a pipette tip,
• at least one passageway connecting the cavity of a cylinder to a through hole in a seat, and
• at least one longitudinally displaceably arranged in the cavity of a cylinder piston having a through the through hole of a receptacle extending piston rod and a receptacle arranged in the piston head at the end of the piston rod which is seated with a piston rod facing the bottom on the ground and a remote from the piston rod top having protruding elastic body which is not or partially elastically pressed against the contact surface.

In the pipetting device according to the invention, the piston has an elastic body, which is not or partially elastically compressed for the purpose of clearance compensation when the piston head is arranged in the receptacle. In this case, the elastic body rests against the abutment surface of the receptacle and the piston head is supported with the underside at the bottom. The elastic body has a significantly greater elasticity than the piston or the piston head, on which the elastic body is arranged. The elastic body is not a separate part, but is arranged on the piston and can be mounted together with this or the displacer on the piston actuating rod. This eliminates the handling of a separate, particularly small spring, so that assembly and dismantling costs saved and incorrect assembly can be avoided. So that the elastic body is not or partially elastically compressed rests against the contact surface, the supernatant, which has the elastic body in the non-compressed state on the bottom in the axial direction of the piston rod, equal to or greater than the distance of the bottom of the contact surface.

The pipetting device according to the invention is e.g. a hand pipette or a pipetting device at a dosing station or workstation.

According to one embodiment, the pipetting device is a single-channel pipetting device, i. it has only a single displacement unit connected to a single seat for a pipette tip.

According to another embodiment, the pipetting device is a multi-channel pipetting device, i. it has one or more displacement units connected to multiple seats for multiple pipette tips.

According to a further embodiment, the piston actuating rod has a transversely aligned to its longitudinal axis traverse with a plurality of juxtaposed receptacles for piston heads and a plurality of parallel cylinders with a plurality of guided therein, arranged with their piston heads in the receptacles piston. The reduction of the assembly and disassembly effort is particularly large in this Mehrkanalpipettiervorrichtung with multiple displacement devices.

For the insertion of the piston head in the recording different possibilities come into consideration. According to one embodiment, the piston head and through hole have a cross-section so formed that the piston head in a certain rotational position to the passage opening axially into the receptacle can be inserted and after a subsequent rotational movement (eg of 90 °) can not be pulled out because it rests on the ground. It is also possible to guide the piston in this secured rotational position between small projections which protrude axially from the ground and over which the piston head is rotatable only under pressure against the contact surface and further axial compression of the elastic body. According to another embodiment, the bottom is formed by a plate, which is releasably connectable to the end of the piston-actuating rod (eg by a thread on the circumference of a circular disc-shaped plate or by means of additional screws) to form the bottom with the passage opening of the receptacle or the Remove soil from the receptacle.

According to one embodiment, the receptacle has a transversely extending to the piston actuating rod insertion opening for the piston head and the piston rod. The piston can be easily inserted or removed from the insertion opening with piston head and piston rod. When displacing the piston, the power transmission is perpendicular to the insertion, so that the piston does not slip out. In this case, the piston can be secured by the partially compressed elastic body in the receptacle. Furthermore, the insertion opening for securing the piston can be covered by a removable housing part of the pipetting device.

Various embodiments of the piston head are possible, e.g. with a spherical, flat or conical bottom. According to one embodiment, the piston head is supported with an annular disk on the floor. According to a further embodiment, the piston head has a cone between annular disk and piston rod.

The elastic body may be attached to the piston in various ways. The attachment can be done by positive engagement and / or friction and / or material connection.

In a positive connection, for example, the elastic body outside a rim which engages around an edge of the piston head outside and is secured in this way on the piston head. According to another positive connection of the elastic body is buttoned by means of protruding elements on the bottom in corresponding recesses in the top of the piston head.

According to one embodiment, the piston at the top of the piston head to a blind hole in which the elastic body is partially arranged. The elastic body is fixed for example by pressing or frictional engagement in the blind hole. According to one embodiment, the blind hole at an interval from its opening an extension and the elastic body is fixed by engagement in the extension positively in the blind hole. According to one embodiment, the blind hole diametrically opposed extensions on. According to a further embodiment, the radial expansions start from a depression at the bottom of the blind hole.

According to one embodiment, the elastic body has a crowned portion projecting from the piston head. The crowned section promotes gradual elastic deformation with gentle increase in elastic return forces.

According to one embodiment, the piston has a cone at the end remote from the piston head and the cylinder and / or the connecting channel has a corresponding conicity on the inside. This favors a complete emptying of the cylinder. Due to the elastic coupling of the piston and piston actuating rod, a pressing in or clamping of the cone in the conicity is avoided.

The piston can be sealed in different ways in the cylinder. It is possible that it is sealed with an outer periphery directly on the inner circumference of the cylinder. According to one embodiment, the piston has at least one circumferential piston seal at the end remote from the piston head. The piston seal has a greater elasticity than the piston. A secure seal is achieved, even if the piston and cylinder are not precisely matched.

According to one embodiment, the piston seal is a piston sealing ring inserted in an annular groove on the circumference of the piston.

For example, the cylinder is connected to the seat via a tube or hose. According to one embodiment, the cylinder is formed integrally with the seat.

The seat is e.g. a receptacle for inserting a pipette tip. The pipette tip is secured in the receptacle by pinching its upper edge area. According to another example, the seat is a cylindrical projection on which a pipette tip is attachable, so that it is fixed by clamping on the seat. According to one embodiment, the seat is a cone for attaching a pipette tip.

The pipette tip can be fixed directly sealingly on the seat. According to one embodiment, the seat has at least one circumferential seat seal for sealing against an inserted or inserted pipette tip. According to a further embodiment, the seat seal is inserted into a further annular groove on the periphery of the seat seat seal.

According to one embodiment, the elastic body and / or the piston seal and / or the seat seal comprises an elastomer, i. consists entirely or partially of the elastomer.

According to a further embodiment, the elastic body and / or the piston seal and / or the seat seal made of silicone and / or of a thermoplastic elastomer.

The elastic body and the piston are manufactured separately, for example, and then connected together. According to one embodiment, the piston is made of plastic, in particular by injection molding. According to one embodiment, the elastic body is molded onto the piston. By injecting the elastic body on the piston elastic body and piston can be positively and / or frictionally and / or materially connected to each other, the latter e.g. if the materials are chosen so that they fuse together in the contact area. According to a further embodiment, piston and elastic body are produced in the multi-component injection molding process.

According to one embodiment, the pipetting device has a housing which comprises the piston actuating rod, the at least one cylinder with the at least one piston and the at least one seat on an externally accessible side of the housing. The pipetting device is provided for example with its own manual or electric drive device, which is also arranged in the housing.

According to a further embodiment, the end of the piston-actuating rod on one side of the housing is accessible from the outside. The pipetting device then forms a pipetting tool which can be connected to a drive device.

The drive device may in turn be a hand-operated drive device or an electric motor-driven drive device.

According to one embodiment, the piston actuating rod protrudes from the side of the housing to be coupled to a drive member of a drive device. For this purpose, according to one embodiment, an axially outwardly spring-loaded piston actuating rod abuts axially against a linearly displaceable actuating member of the drive device. According to another embodiment, the piston actuating rod has at the end remote from the receiving means a coupling device for connecting to a drive device.

According to one embodiment, the housing has a fastening device for fastening the pipetting device to a drive device. The fastening device is e.g. a screw thread and / or a bayonet connection and / or a flange or radially projecting edge for fixing to pivotable gripping or clamping devices of the drive device.

Fig. 1

eine Mehrkanal-Pipettiervorrichtung in einem Längsschnitt;

Fig. 2

Kolben derselben Mehrkanal-Dosiervorrichtung in vergrößerter Seitenansicht;

Fig. 3

Kolben derselben Mehrkanal-Dosiervorrichtung im Längsschnitt.

The invention will be explained in more detail with reference to the accompanying drawings of an embodiment. In the drawings show:

Fig. 1

a multi-channel pipetting device in a longitudinal section;

Fig. 2

Piston of the same multi-channel metering device in an enlarged side view;

Fig. 3

Piston of the same multichannel metering device in longitudinal section.

According to FIG. 1, the pipetting device has a basic structure 1 with a U-shape, which has a base 2 and two legs 3, 4 which project perpendicularly at the edges. From the base 2 is outwardly a hollow cylindrical fastening device 5 before.

The basic structure 1 is made for example of metal or of a rigid and solid plastic.

On the outside of the fastening device 5, a fastening sleeve 6 with an external thread 7 is arranged so as to be rotatable and axially immovable. The mounting sleeve 6 is also made of metal or a rigid and solid plastic.

Across the base 2, a through hole 8 extends coaxially with the fastening device 5.

A piston actuating rod 9 extends coaxially through the fastening device 5 and through the through hole 8. The piston actuating rod 9 has at a outwardly of the fastening means 5 projecting end a coupling device 10 for connection to a drive device, the two rotating, circular disk-shaped shaft coils 11, 12 with a Groove 13 between them.

The piston actuating rod 9 is connected on the inside of the base 2 with a cross member 14, which is aligned transversely to the piston actuating rod 9.

In the fastening device 5, a coil spring 15 is arranged, which is supported at one end on the outside of the base 2 and the other end to an abutment 16 in the form of a screw ring which is screwed close to an opening of the fastening device 5 on the piston actuating rod 9. The Coil spring 15 is in the position shown under bias, so that it presses the cross member 14 against the inside of the base 2.

The traverse 14 has on the side remote from the base 2 side a plurality of parallel receptacles 17 for each piston head. Each receptacle 17 is accessible on the side facing away from the base 2 by a passage opening 18 in a bottom 19 from the outside. The bottom 19 thus forms a the passage opening 18 bounding edge, which protrudes with respect to the overlying part of the receptacle 17 inwardly.

Each receptacle 17 is also accessible from the outside by a perpendicular to the piston actuation rod 9 and the traverse 14 (or perpendicular to the plane) extending insertion opening 21 axially opposite the passage opening 18.

The piston actuating rod 9 and the cross member 14 are e.g. made of a metallic material or of a rigid and solid plastic.

On the basic structure 1, a multi-part housing 22 is fixed. The housing 22 is relatively flat, i. its external dimensions perpendicular to the plane of the drawing are only a fraction of the external dimensions shown in the drawing plane.

In the housing 22 is directly adjacent to the ends of the legs 3, 4 a parallel to the base 2 extending perforated plate 23 with extending in the axial direction of the piston actuating rod 9, aligned on the through holes 18 guide holes 24 are provided.

At a further distance from the base 2, a further perforated plate 25 is arranged with coaxial with the guide holes 24 threaded holes 26. The further perforated plate 25 terminates the housing 22 at this end face.

The housing 22 is made of a rigid and solid plastic or of a metallic material.

Furthermore, the pipetting device comprises a plurality of cylinders 27 with a cylindrical cavity 28, which are integrally connected to a seat 29 in the form of a cone for a pipette tip. The cylindrical cavity 28 is connected via a conical passage 30 with a through hole 31 in an end face of the seat 29.

Each cylinder 27 has a circumferential flange 32. Further, each cylinder 27 on the side of the seat 29 adjacent to the flange 32 has an external thread 33. The cylinder 26 is made of a metallic material or of a rigid and solid plastic.

Each cylinder 27 is inserted into a guide bore 24 and screwed into a threaded bore 26 coaxial therewith, so that the flange 32 is seated on the inside of the further perforated plate 25. Instead, the cylinder 27 may be executed without external thread 33 and be inserted into a threadless hole of the further perforated plate 25. A spring may hold the flange 32 in abutment with the further perforated plate 25. In this position, the seat 29 protrudes outwardly beyond the adjacent end face of the housing 22.

At the periphery of the seat 29, an annular groove 34 runs around, in which a seat sealing ring 35 is arranged.

All guide holes 24 and threaded holes 26 are equipped with cylinders 27 in the manner described above. In the drawing, only a single cylinder 27 is shown for simplicity.

In each cylinder 27, a piston 36 is guided axially displaceable.

Each piston 36 has a piston head 38 at the end of a protruding from the cylinder 27 piston rod 37.

Each piston head 38 comprises an annular disc 39 and a cone 40 arranged between annular disc 39 and piston rod 37 (compare FIGS. 2 and 3).

On the side of the piston rod 37, the piston head 38 has a bottom 41 and on the opposite side a flat top 42nd

Starting from the upper side 42, the piston has a blind hole 43 which has a recess 44 at the bottom. This has radial extensions 45, 46 which extend perpendicular to the plane of the drawing of Fig. 1 to the sheath of the cone 40 (see Fig .. 2).

An elastic body 47 is disposed in the blind hole 43. The elastic body 47 is cylindrical in the region of the blind hole 43 and crowned in an area projecting beyond the upper side 42. In the example, the area 48 of the elastic body 47 beyond the upper side 42 has the shape of a hemisphere.

Below the elastic body is anchored by the in the recess 44 and the spacers 45, 46 arranged, strip-shaped portion 49 in the piston head 38.

The piston head 38 opposite end of the piston 36 has a slender cone 50 whose cone angle corresponds to that of the passage channel 30. Between cone 50 and piston rod 37, a circumferential annular groove 51 is present, which receives a piston seal 52 in the form of a piston sealing ring.

The piston 36 is manufactured in a two-component injection molding process. In this case, the piston 36 is made of a hard plastic, for example of a thermoplastic such as Fortron (glass fiber reinforced polyvinyl sulfide from Hoechst). The elastic body 47 is molded onto the piston 36 in a second injection cycle of silicone (rubber) or of a thermoplastic elastomer.

Each piston 36 is disposed with the cone 50 and the piston seal 52 in the cylindrical cavity 28, even if the piston 36 is pulled out of the cylinder 27 maximum (Fig. 1).

Each piston head 38 is located in a receptacle coaxial with the cylinder 27. In this case, the piston rod 37 extends through the through hole 18.

The piston head 38 is seated in the region of the circular disc 30 with the bottom 41 on the bottom 19.

Furthermore, the crowned region 48 of the elastic body 47 sits on the contact surface 20. The elastic body 47 is compressed somewhat elastically in the crowned area 48.

Each piston 36 can be connected by simply inserting the piston head 38 through the insertion opening 21 into the receptacle 17 with the traverse 14. by virtue of the elastic compression of the elastic body 47 it is held in a defined position in the receptacle 17 and a clearance between the piston head 38 and receptacle 17 is thereby compensated. Conversely, the piston 36 is extremely easy to disassemble.

For pipetting, the pipetting device is connected to a drive device 53. For this purpose, it is used with the fastening device 5 in a mounting receptacle 54 of the drive device 53 and connected by screwing the mounting ring 6 in an internal thread 55 of the mounting receptacle 54 with this. In this case, the fastening device 5 sits with its front end on the bottom of the fastening receptacle 54.

Furthermore, the coupling device 10 is connected to a matched further coupling device 56 of a linear drive 57 of the drive device 53.

By axial displacement of the linear drive 57, the piston actuating rod 9 and the associated piston 36 is displaceable. In this case, the pistons 36 displace air columns within the cavities 28 and the connecting channels 30 in order to eject or suck liquid from pipette tips plugged onto the seats 29.

Claims (24)

Pipetting device for dosing liquids with a piston actuating rod (9), - At least one at one end of the piston-actuating rod (9) arranged receptacle (17) for a piston head (38) in the axial direction of the piston actuating rod (9) by a contact surface (20) for the piston head (38) is limited, one of these opposite Through-hole (18) for a piston rod (36) and a bottom (19) surrounding the through-hole (18) for supporting the piston head (38), at least one cylinder (27) with a cavity (28), at least one seat (29) for holding a pipette tip, - At least one the cavity (28) of a cylinder (27) with a through hole (31) in a seat (29) connecting through passage (30) and - at least one in the cavity (28) of a cylinder (27) longitudinally displaceably arranged piston (36) with a through the passage opening (18) of a receptacle (17) extending piston rod (37) and in the receptacle (17) arranged piston head (38) has at the end of the piston rod (37) which with one of the piston rod (37) facing underside (41) on the bottom (19) and a on the piston rod (37) facing away from the upper side (42) protruding elastic body (47) , which is not or partially elastically compressed against the contact surface (20). A pipetting device according to claim 1, which is a single-channel pipetting device. A pipetting device according to claim 1, which is a multi-channel pipetting device. Pipetting device according to one of Claims 1 to 3, in which the piston actuating rod (9) has a transverse member (14) aligned transversely to its longitudinal axis with a plurality of mutually juxtaposed receptacles (17) for piston heads (38) and having a plurality of parallel cylinders (27) with several Having guided therein, with their piston heads (38) in the receptacles (17) arranged piston (36). Pipetting device according to one of claims 1 to 4, wherein the receptacle (17) has an insertion opening (21) for the piston head (38) and the piston rod (37) which extends transversely to the piston-actuating rod (9). Pipetting device according to one of claims 1 to 5, wherein the piston head (38) with an annular disc (39) on the bottom (19) is supported. Pipetting device according to one of claims 1 to 6, wherein the piston head (38) has a cone (40) between the annular disc (39) and the piston rod (37). Pipetting device according to one of claims 1 to 7, wherein the piston (36) at the top (42) of the piston head (38) has a blind hole (43) in which the elastic body (47) is partially arranged. A pipetting device according to claim 8, wherein the blind hole (43) has, at a distance from its opening, at least one extension (45, 46) into which the elastic body (47) engages. A pipetting device according to claim 9, wherein the blind hole (43) has diametrically opposed extensions (45, 46). A pipetting device according to claim 9, wherein the extensions (45, 46) extend from a recess (44) at the bottom of the blind hole (43). A pipetting device according to any one of claims 1 to 11, wherein the elastic body (47) has a crowned portion (48) projecting from the piston head (38). A pipetting device according to any one of claims 1 to 12, wherein the piston (36) has a cone (40) at the end remote from the piston head (38) and the cylinder (27) and / or the connecting channel (30) have a corresponding conicity internally , A pipetting device according to any one of claims 1 to 13, wherein the piston (36) has at least one circumferential piston seal (52) at the end remote from the piston head (38). A pipetting device according to claim 14, wherein the piston seal (52) is a piston sealing ring inserted in an annular groove (51) on the circumference of the piston (36). A pipetting device according to any one of claims 1 to 15, wherein the elastic body (47) and / or the piston seal (52) comprises an elastomer. A pipetting device according to any one of claims 1 to 16, wherein the elastic body (47) and / or the piston seal (52) is / are made of silicone and / or thermoplastic elastomer. A pipetting device according to any one of claims 1 to 17, wherein the piston (36) is made of plastic. Pipetting device according to one of claims 1 to 18, wherein the elastic body (47) is injection-molded onto the piston (36). The pipetting device according to claims 18 and 19, wherein the piston (36) and the elastic body (47) are made by the multi-component injection molding method. A pipetting device according to any one of claims 1 to 20, comprising a housing (22) containing the piston actuating rod (9), the at least one cylinder (27) with the at least one piston (36) and the at least one seat (30) on an externally accessible Side of the housing (22). Pipetting device according to one of claims 1 to 21, wherein one end of the piston-actuating rod (9) on one side of the housing (22) is accessible from the outside. A pipetting device according to claim 22, wherein the piston-actuating rod (9) projects from the side of the housing (22). Pipetting device according to one of claims 1 to 23, wherein the housing (22) has a fastening device (5) for fastening the pipetting device to a drive device (53).

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