PIPETTING SYSTEM TIP HAVING DOUBLE CONICITY

Abstract

In order to increase the compatibility of a pipetting system tip with the various types of cones, the invention provides that this tip comprises: a first group of first cone retention elements defining a larger external diameter; a second group of second cone retention elements defining a larger external diameter; a third group of third cone retention elements defining a larger external diameter. The diameter and the diameter being different so as to together define a first tip portion having a first conicity, and the diameter and the diameter being different so as to together define a second tip portion having a second conicity smaller than the first.

Claims

1. Sampling cone-carrying tip (6) for a low part of a pipetting system, the tip having a longitudinal axis (7) falling into a first fictitious plane (P1), characterised in that it comprises successively, from bottom to top, along the longitudinal axis (7) thereof, radially protruding towards the outside from an outer surface (20) of the tip: a first group of first retaining elements (24-1a, 24-1b) for a sampling cone spaced from one another along a first annular zone (20-1) of the tip, two of said first retaining elements (24-1a) being arranged in a second fictitious plane (P2), orthogonal to the first fictitious plane (P1), and defining a larger outer diameter, called first maximum outer diameter (Dmax1); a second group of second retaining elements (24-2a) for a sampling cone spaced from one another along a second annular zone (20-2) of the tip, two of said second retaining elements being arranged in said second fictitious plane (P2) and defining a larger outer diameter, called second maximum outer diameter (Dmax2); a third group of third retaining elements (24-3a, 24-3b) for a sampling cone spaced from one another along a third annular zone (20-3) of the tip, two of said third retaining elements (24-3a) being arranged in said second fictitious plane (P2) and defining a larger outer diameter, called third maximum outer diameter (Dmax3); in that the tip also carries a gasket (26) arranged between the first and the third annular zone (20-1, 20-3) of the tip, and in that, on the one hand, the first maximum outer diameter (Dmax1) as well as the second maximum outer diameter (Dmax2) are different so as to together define a first tip portion (6a) having a first conicity (Con1), and on the other hand, the second maximum outer diameter (Dmax2), as well as the third maximum outer diameter (Dmax3) are different so as to together define a second tip portion (6b) having a second conicity (Con2) less than the first conicity.

2. Low part (4) of a pipetting system comprising at least one sampling cone-carrying tip (6) according to claim 1.

3. Low part according to claim 2, intended for a single-channel pipetting system and comprising one single sampling cone-carrying tip (6).

4. Low part according to claim 2, intended for a multichannel pipetting system and comprising a plurality of sampling cone-carrying tips (6) having longitudinal axes (7) falling into said first fictitious plane (P1).

5. Low part according to claim 2, characterised in that the first retaining elements (24-1b) of the first group, except for said two first retaining elements (24-1a) defining the first maximum outer diameter (Dmax1), are situated radially towards the inside and remotely from a first fictitious circle (C1) defined by said first maximum outer diameter (Dmax1).

6. Low part according to claim 5, characterised in that the first group comprises, in addition to said two first retaining elements (24-1a) defining the first maximum outer diameter, one or more couples of first retaining elements (24-1b) defining one or more of the first diameters (Dinf1) less than the first maximum outer diameter, among which at least one first smaller diameter (Dinf1) situated in said first fictitious plane (P1).

7. Low part according to claim 2, characterised in that the third retaining elements (24-3b) of the third group, except for said two third retaining elements (24-3a) defining the third maximum outer diameter (Dmax3), are situated radially towards the inside and remotely from a third fictitious circle (C3) defined by said third maximum outer diameter (Dmax3).

8. Low part according to claim 7, characterised in that the third group comprises, in addition to said two third retaining elements (24-3a) defining the third maximum outer diameter (Dmax3), one or more couples of third retaining elements (24-3b) defining one or more of the third diameters (Dinf3) less than the third maximum outer diameter, among which at least one third smaller diameter (Dinf3) situated in said first fictitious plane (P1).

9. Low part according to claim 2, characterised in that the second retaining elements (24-2a) of the second group are situated on a second fictitious circle (C2) defined by said second maximum outer diameter (Dmax2).

10. Low part according to claim 9, characterised in that the second group comprises, in addition to said two second retaining elements (24-2a) defining the second maximum outer diameter (Dmax2), one or more couples of second retaining elements (24-2a) defining one or more other second maximum outer diameters (Dmax2), among which at least one second maximum outer diameter (Dmax2) situated in said first fictitious plane (P1).

11. Low part according to claim 2, characterised in that the first conicity (Con1) is between 3 and 4.5, and in that the second conicity (Con2) is between 2 and 3.4.

12. Low part according to claim 2, characterised in that the number of tips (6) is between 2 and 16.

13. Low part according to claim 2, characterised in that the gasket (26) is a lip seal.

14. Pipetting system (1) comprising a low part (4) according to claim 2, said pipetting system being a sampling pipette or an automated pipetting system.

15. Assembly comprising a pipetting system (1) according to claim 14, as well as at least one sampling cone (8) mounted on the tip (6) and retained on it by friction with the first and second retaining elements, or with the second and third retaining elements.

Description

BRIEF DESCRIPTION OF THE DRAWINGS

[0038] This description will be made regarding the appended drawings, among which;

[0039] FIG. 1 represents a front view of an air displacement multichannel sampling pipette, according to the invention;

[0040] FIG. 2 represents a partial, enlarged, longitudinal cross-sectional view of one of the tips of the pipette shown in the preceding figure, before the press-fitting of a sampling cone;

[0041] FIGS. 3a to 3c represent transversal cross-sectional views taken along the lines IIIa-IIIa to IIIc-IIIc in FIG. 2;

[0042] FIG. 4 is a view similar to that in FIG. 2, on which the cone-tip assembly has been represented in a functioning position and with a cone having a first conicity;

[0043] FIGS. 5a and 5b represent transversal cross-sectional views taken along the lines Va-Va and Vb-Vb in FIG. 4;

[0044] FIG. 6 is a view similar to that in FIG. 2, on which the cone-tip assembly has been represented in a functioning position and with a cone having a second conicity;

[0045] FIGS. 7b and 7c represent transversal cross-sectional views taken along the lines VIIb-VIIb and VIIc-VIIc in FIG. 6; and

[0046] FIG. 8 represents a perspective view of a single-channel sampling pipette, according to the invention.

DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS

[0047] In reference firstly to FIG. 1, a multichannel sampling pipette 1 is represented, according to a preferred embodiment of the present invention. However, the invention is not limited to multichannel pipettes, but is applied similarly to pipettes called single-channel, such as the pipette represented in FIG. 8.

[0048] The air displacement pipette 1, manual or motorised, comprises, in the upper part, a body forming a handle 2, as well as a low part 4, also subject of the present invention, integrating at the lower end thereof, pipette sampling cone-carrying tips 6, on which the cones of consumables 8 are intended to be press-fitted. Each cone 8 and the associated tip thereof form an assembly, also specific to the present invention.

[0049] The sampling cone-carrying tips 6 are spaced from one another along a lateral direction of the pipetting system, or again pipette lateral direction, represented by the arrow 10. Each tip 6 has a longitudinal axis 7, also called central axis, orthogonal to the direction 10. All longitudinal axes 7 are parallel and fall into a first fictitious plane P1, parallel to the direction 10. Furthermore, a second fictitious plane P2 has been represented in FIG. 1, this second plane P2 being orthogonal to the first plane P1 and parallel to a longitudinal central axis of pipette 14.

[0050] Subsequently, it will be considered that at each tip 6, are associated a first fictitious plane P1 and a second fictitious plane P2, being intercepted at the level of the longitudinal axis 7 of the tip in question. In the plane P2, a direction 15 is also related, for moving the pipette by the operator during a movement called licking, during which the pipette is gradually moved above the successive lines of shafts of a plate, to dispense here the liquid sampled beforehand in the pipette. In this regard, it is noted that the number of tips 6 is preferably between 8 and 12, and that the plate used equally has rows of shafts, as well as a number of lines adapted, for example, to reach 384 shafts.

[0051] Each tip 6 has a through bore 12 communicating at the upper end thereof with a suction chamber (cannot be seen in FIG. 1), and at the lower end thereof, with a sampling cone 8. The through bore 12 is centred on the associated tip 6 thereof, in other words, centred on the longitudinal axis 7 of the tip on which is centred the press-fitted cone 8.

[0052] As is known to a person skilled in the art, the low part 4 is preferably mounted screwed on the body 2 forming a handle. In a known manner, the low part 4 comprises a fixed body 16 covered by a removable outer cap 17, and, at the low end thereof, the tips 6. The mobile inner parts of this low part 4 are conventional, and will not be defined further. They relate, in particular, to a plurality of pistons parallel to the axis 14 and each associated with a tip 6.

[0053] One of the particularities of the invention resides in the design of the low part 4, and in particular, of the tips 6 thereof, one of which will now be detailed in FIGS. 2 to 3c representing a preferred embodiment. The other tips 6 of the pipette have an identical or similar design, being reminded that all the tips are parallel and fall into the first hypothetical plane P1.

[0054] The tip 6, at the low end thereof, has an outer surface 20 of overall cylindrical or truncated shape, getting narrower towards the bottom.

[0055] Generally, the tip is equipped with four zones for cooperating with the cones that it is likely to receive, these zones being spaced from one another along the longitudinal axis 7.

[0056] It firstly relates to three groups of elements for retaining the sampling cones by friction. The lowest group is the first group, comprising the first retaining elements, arranged protruding radially towards the outside from a first zone 20-1 of the surface 20, and spaced circumferentially from one another. Here, it relates to four first retaining elements, among which two first retaining elements 24-1a are arranged in the second fictitious plane P2, and defining a larger outer diameter, called first maximum outer diameter Dmax1. This diameter Dmax1 defines a first fictitious circle C1 centred on the axis 7 and inside which are contained two other first retaining elements 24-1b, radially remote from this same circle. The two elements 24-1b together form a couple which defines a first lower diameter Dinf1 of smaller size than that of the diameter Dmax1. This diameter Dinf1 is orthogonal to the diameter Dmax1, and situated in the first fictitious plane P1.

[0057] It is indicated that on the figures, the retaining elements have been voluntarily enlarged for reasons of clarity. In reality, there are simple reliefs having a low height h of around 0.2 to 0.7 mm, this height h corresponding to the protruding distance from the outer surface 20.

[0058] Then, a second group comprising second retaining elements arranged radially protruding towards the outside from a second zone 20-2 of the surface 20 is provided, and spaced circumferentially from one another. Here, it relates to four second retaining elements, among which two second retaining elements 24-2a are arranged in the second fictitious plane P2, and defining a larger outer diameter, called second maximum outer diameter Dmax2. This diameter Dmax2 defines a second fictitious circle C2 centred on the axis 7 and on which is also located, two other second retaining elements 24-2a. These two other elements together form a couple which defines another second maximum outer diameter Dmax2, situated in the first fictitious plane P1. Thus, the two maximum outer diameters Dmax2 are of the same size, and, more generally, all the second retaining elements 24-2a fall into the same second fictitious circle C2.

[0059] The highest group on the tip is the third group, comprising the third retaining elements, arranged radially protruding towards the outside, from a third zone 20-3 of the surface 20, and spaced circumferentially from one another. Here, it relates to four third retaining elements, among which two third retaining elements 24-3a are arranged in the second fictitious plane P2, and defining a larger outer diameter, called third maximum outer diameter Dmax3. This diameter Dmax3 defines a third fictitious circle C3 centred on the axis 7 and inside which are contained two other third retaining elements 24-3b, radially remote from this same circle. The two elements 24-3b together form a couple which defines a third lower diameter Dinf3 of smaller size than that of the diameter Dmax3. This diameter Dinf3 is orthogonal to the diameter Dmax3, and situated in the first fictitious plane P1.

[0060] Moreover, the fourth zone for cooperating with the cone is constituted by an annular gasket 26, housed in a recess 28 of the outer surface 20 of the tip. It preferably relates to a lip seal 26 to decrease the press-fitting force, this seal being situated between the first group and the second group. Alternatively, the seal 26 could be arranged between the second group and the third group, without moving away from scope of the invention.

[0061] The lip seal 26 has one or more lips, preferably one single lip. The lip is of a truncated shape, flaring towards the top, from an annular base of the seal. The annular base and the lip are preferably made from one single part, from EPDM-type elastomer material, while having a Shore A hardness of 40 to 100.

[0062] In a non-constrained state, the lip seal 26 has an outer diameter, for example, of around 4 mm.

[0063] The first maximum outer diameter Dmax1 is less than the second maximum outer diameter Dmax2. Together, they define, thanks to the difference in size thereof, a first longitudinal portion of tip 6a centred on the axis 7 and having a first conicity, schematised by the line referenced Con1 in FIG. 2. Similarly, the second maximum outer diameter Dmax2 is less than the third maximum outer diameter Dmax3. Together, they define, thanks to the difference in size, a second longitudinal portion of tip 6b adjacent to the first portion 6a, and also centred on the axis 7. The second portion 6b itself has a second conicity, schematised by the line reference Con2 in FIG. 2, this second conicity being less than the first one.

[0064] As an example, the first conicity Con1 is between 3 and 4.5, whereas the second conicity Con2 is between 2 and 3.4.

[0065] Thus, according to the conicity of the collar 8a of the cone to be press-fitted, the latter will have the inner surface thereof held by friction, either by the first and the second group of retaining elements, or by the second and third groups of retaining elements. In any case, the retention by friction will be achieved using two groups, axially spaced from one another, for a satisfactory mechanical holding, and for the preservation of the centring and of the parallelism between the cones present on the different tips of the multichannel pipette.

[0066] The sealing itself represents a function fulfilled separately, by the dedicated seal 26.

[0067] Now, in reference to FIGS. 4 to 5a, different examples of cooperation between the tip 6 and the cones 8 having conicities adapted to the first conicity Con1 defined by the first and second retaining elements are shown. In FIG. 4, the arrows carried on the cone show the forces to which it is subjected during a scraping of the end thereof on the shaft 42 of a plate 40, during a licking movement 15.

[0068] FIG. 4 thus shows the contact between, on the one hand, the first elements 24-1a and the inner truncated surface of the collar of the cone, and on the other hand, between the second elements 24-2a and this same inner surface. In this first example, the size of the cone is such that the retention thereof at the level of the first group is exclusively achieved by the two first elements 24-1a, since there is no contact with the two other first elements 24-1b. This example is shown in FIGS. 4 and 5a. In addition, because of the axisymmetric character thereof, the second group establishes a contact between each of the retaining elements 24-2a thereof and the inner surface of the collar, as is shown in FIG. 5b.

[0069] In another example shown in FIG. 5a, the larger cone 8 is deformed by the abutment of the first elements 24-1a during a deeper penetration of the tip 6 in the cone, this deformation having a substantially elliptic character leading to the contact of the other elements 24-1b with the inner surface of the cone.

[0070] Now, in reference to FIGS. 6 to 7c, different examples of cooperation between the tip 6 and the cones 8 having conicities adapted to the second conicity Cont defined by the second and third retaining elements are shown.

[0071] FIG. 6 shows the contact between, on the one hand, the second elements 24-2a and the inner truncated surface of the collar of the cone, and on the other hand, between the third elements 24-3a and this same inner surface. In this example, the size of the cone is such that the retention thereof at the level of the third group is exclusively achieved by the two third elements 24-3a, since there is no contact with the two other third elements 24-3b. This example is shown in FIGS. 6 and 7c. In addition, because of the axisymmetric character thereof, the second group here also establishes a contact between each of the retaining elements 24-2a thereof and the inner surface of the collar, as is shown in FIG. 7b.

[0072] In another example shown in FIG. 7c, the larger cone 8 is deformed by the abutment of the third elements 24-3a during a deeper penetration of the tip 6 in the cone, this deformation having a substantially elliptic character, leading to the contact of the other third elements 24-3b with the inner surface of the cone.

[0073] Of course, various modifications can be made by a person skilled in the art to the invention which has just been defined, only as non-limiting examples. In particular, the invention is identically or similarly applied to a tip of an automated pipetting system, also called a robot.