• 专利附录
  • 专利说明
  • 权利要求
  • 类似技术
  • 同族专利
  • 引用文献
  • 法律状态
  • 优先权
    • 专利摘要:
    The invention relates to a device (32) for the lower part of a multichannel pipetting system, comprising two sampling cone tips (6) and two suction chambers (36a, 36b) cooperating respectively with the two tips, the two chambers with suction (36a, 36b) being concentric.
    公开号:FR3019895A1
    申请号:FR1453185
    申请日:2014-04-10
    公开日:2015-10-16
    发明作者:Bruno Dudek
    申请人:Gilson SAS;
    IPC主号:
    专利说明:

    [0001] The present invention relates to the field of multichannel pipetting systems, such as multi-channel sampling pipettes, also known as laboratory pipettes or pipettes. air-displacement liquid transfer apparatus for calibrated sampling and introduction of liquid into containers.
    [0002] The invention preferably applies to sampling pipettes intended to be held in the hand by an operator during sampling and dispensing liquid, but also applies to automated pipetting systems. STATE OF THE PRIOR ART In the prior art, multi-channel sampling pipettes having a design of the type incorporating a body forming a handle are known, as well as a lower part having at its end several tips for cone sampling of pipettes. whose known function is to carry sampling cones, also known as consumables.
    [0003] The lower part therefore comprises a fixed body having at its lower end a plurality of sampling cone tips, spaced from each other in a pipette lateral direction, so as to form a row. Each sample cone tip has a through orifice communicating with a suction chamber.
    [0004] Parallel pistons are housed respectively in the aforementioned suction chambers, and mounted at their upper end on a piston holder movable in translation relative to the fixed body. Indeed, the piston holder is usually controlled by a manual or motorized crew imposing a lift stroke during the liquid picking phases, and a descent stroke during the liquid transfer phases, the lift stroke taking place generally under the effect of relaxation of a previously compressed spring during the previous downstroke. During its movement, the piston holder carries with it the pistons connected to it, so that the latter are consequently able to be simultaneously moved in a sliding direction, usually parallel to the longitudinal central axis of the piston. the pipette. It is recalled that the volume taken depends on the stroke of the piston, and the cross sectional area of its associated suction chamber. Also, when the volume of liquid to be taken in each cone is high, for example of the order of 1200 ul, it is necessary to increase one or both of the above parameters. However, an excessive increase in the piston stroke can be problematic in terms of ergonomics for the operator. In addition, an excessive increase in the diameter of the piston and its suction chamber can generate congestion problems at the bottom of the pipette. These congestion problems can become severe to the point of not being able to respect the pitch between the cone sampling tips, this step being generally dictated by the pitch between the different liquid containers provided on a microtiter plate. In the prior art, solutions have been proposed to solve the problems identified above, such as the arrangement of the pistons staggered, but these solutions are not entirely satisfactory and therefore they are perfectible. In addition, similar disadvantages exist for automated pipetting systems. DISCLOSURE OF THE INVENTION The object of the invention is therefore to propose a solution at least partially remedying the problems mentioned above, encountered in the solutions of the prior art. To do this, the invention firstly relates to a device for the lower part of a multichannel pipetting system, comprising two tips cone sampling and two suction chambers cooperating respectively with the two ends, the two chambers suction being concentric. In other words, the invention totally breaks with the usual design of multichannel pipetting systems by arranging the two suction chambers coaxially. This specificity makes it possible to reduce the bulk compared to a conventional solution with adjacent suction chambers. The invention thus makes it possible to offer a very satisfactory compromise, since the resulting multichannel pipetting system can have a small footprint, a satisfactory piston stroke from an ergonomic point of view, a conventional pitch between the two end pieces, and this same for high sampling volumes. In addition, the phenomenon of dispersion, related to piston displacement differentials cooperating with the suction chambers, can advantageously be reduced with the concentric chamber design. The friction forces of the pistons in the chambers can also be potentially diminished.
    [0005] Finally, the solution provided by the invention remains easily implantable on existing multichannel pipetting systems. According to a first preferred embodiment of the invention, the device comprises two pistons cooperating respectively with said two suction chambers, the two pistons being nested in each other.
    [0006] The two pistons are integral in translation, according to their direction of sliding in the suction chambers. For example, they are made in one piece. The two suction chambers are arranged one around the other, even if it could be otherwise, without departing from the scope of the invention. Indeed, alternately, the two chambers can be axially offset from each other without overlapping, always remaining concentric, so with one located externally relative to the other. A first of the two suction chambers has a solid cross section, and a second of the two chambers has a recessed cross section. Preferably, even though the shapes may differ, it is provided that the first suction chamber has a substantially disk-shaped cross section, and that the second suction chamber has a substantially annular cross section. Alternatively, instead of a disk shape for the first suction chamber, it could be retained an oval shape or any other similar form. It is noted that the pistons have complementary shapes to those of their associated suction chambers. According to a second preferred embodiment envisaged, the device comprises a first suction chamber and a second suction chamber, and a first and a second piston cooperating respectively with said suction chambers, said second suction chamber. having a cross-section of substantially annular shape and being defined between an inner body and an outer body, said second piston housed in the second chamber being in the general form of a ring closed at one of its axial ends by a shutter forming said first piston, said first suction chamber being defined axially between the shutter and an axial end of said inner body, and laterally delimited by the second piston. This second embodiment has the advantage of making it easier to manufacture. Whatever the preferred embodiment envisaged, the invention has at least one of the following optional features, taken separately or in combination. The central axes of the two tips are spaced from each other in a pitch of 9 mm, traditionally encountered on the microtiter plates. The two ends are each equipped with a through hole, centered or not relative to its associated tip. The possibility of off-centering these through holes offers an additional degree of freedom for the design of the device, favoring the reduction of its bulk. The two suction chambers respectively have, in cross section, identical or different areas. When the surface area differs, the suction chambers can be used to take samples of different values, called multivolume withdrawals. This opportunity is for example particularly interesting for performing dosing operations. The device is preferably equipped with only two tips. Nevertheless, a number N of end pieces with N greater than or equal to 3 remains possible. In this case, only the innermost suction chamber has a solid section, the others being preferentially hollowed out, nested one inside the other. In addition, the N end pieces are then preferably aligned to form a row, even if other configurations could be retained, without departing from the scope of the invention. The invention also relates to a lower part of a multichannel pipetting system, comprising at least one device as described above, and preferably a plurality of these devices. Preferably, the devices are arranged such that the central axis of each end of the lower part intercepts the same line, so as to form a row of end pieces. Preferably, the devices are aligned along this line, or possibly arranged in staggered rows. Alternatively, to form N rows of tips with N corresponding to the number of tips per device, these same devices can then be aligned in a direction orthogonal to a direction of spacing between the end pieces of the same device. Preferably, in cross-section, at least one of the suction chambers of one of the devices has a surface area different from that of at least one of the suction chambers of at least one other device equipping the device. lower part. Here again, this feature makes it possible to take multivolume samples. Finally, the invention relates to a multichannel pipetting system comprising a lower part as described above, said system being preferably a sampling pipette, manual or motorized. Alternatively, it may be an automated pipetting system. Other advantages and features of the invention will become apparent in the detailed non-limiting description below.
    [0007] BRIEF DESCRIPTION OF THE DRAWINGS This description will be made with reference to the appended drawings among which; FIG. 1 represents a front view of a multichannel sampling pipette with air displacement, according to a preferred embodiment of the invention; - Figure 2 shows a partial and enlarged view of the lower part of the pipette shown in the previous figure; FIG. 3 represents an enlarged view, in longitudinal section, of a device specific to the invention fitted to the lower part of the pipette, said device being in the form of a first preferred embodiment of the invention; ; Figure 4 is a sectional view taken along the line IV-IV of Figure 3; FIG. 5 is an exploded perspective view of the device shown in FIGS. 3 and 4; - Figure 6 shows a perspective view of the fixed part of the device shown in Figures 3 to 5, according to another angle of view; FIG. 7 represents a sectional view taken along the line VII-VII of FIG. 2; FIG. 8 represents a view similar to that of FIG. 3, with the device being in the form of a second preferred embodiment of the invention; Fig. 9 is a sectional view taken along line IX-IX of Fig. 8; and FIG. 10 is an exploded perspective view of the device shown in FIGS. 8 and 9. DETAILED DESCRIPTION OF PREFERRED EMBODIMENTS Referring firstly to FIG. 1, a multichannel sampling pipette 1 is shown according to FIG. a preferred embodiment of the present invention. Nevertheless, the invention is not limited to pipettes, but applies to any multichannel pipetting system, including automated pipetting systems, so called PLCs. The pipette 1 with air displacement, manual or motorized, comprises in the upper part a handle body 2, as well as a lower part 4 also object of the present invention, incorporating at its lower end pipette cone sampling tips 6, on which cones or consumables 8 are intended to be fitted. The sampling tip ferrules 6 are spaced from each other in a lateral direction of the pipetting system, or pipette lateral direction, represented by the arrow 10. Each tip 6 has a through orifice 12 communicating at its upper end with a suction chamber (not visible in Figure 1), and at its lower end with a sampling cone 8. The through hole 12 is centered or not on its associated tip 6, that is to say that it is or is not centered on a central axis 7 of the tip on which is centered the fitted cone.
    [0008] The pipette 1 has a longitudinal central axis 14, also corresponding to a central longitudinal axis of the lower part 4. This axis 14 is orthogonal to the lateral direction 10, and usually placed so as to have an identical number of tips 6 disposed of side of it, in the lateral direction. In addition, generally, the axis 14 is parallel to the axes of the through orifices 12 and the axes 7 of their associated cones 8, and also parallel to a direction of sliding of the movable elements of the lower part of the pipette 4, which will be described here. -after. In the example shown in Figure 1, there are eight ferrules 6 aligned in the direction 10, so as to form a row. Also, the central axis 7 of each endpiece 6 intercepts the same straight line 9 extending in the direction 10.
    [0009] As is known to those skilled in the art, the lower part 4 is preferably mounted in a screwed manner on the body 2 forming a handle. One of the peculiarities of the invention lies in the design of the lower part 4, which will firstly be detailed with reference to FIGS. 2 to 7 representing a first preferred embodiment.
    [0010] In known manner, the lower part 4 comprises a fixed body 16, and a movable assembly relative to this fixed body, in a sliding direction 18 parallel to the axis 14 and orthogonal to the lateral direction 10. The assembly mobile has firstly a plurality of pistons 20a, 20b parallel to the direction 18, and each associated with a tip 6. The movable assembly also has a pistons holder 22 located generally above the pistons 20a, 20b, piston holder comprising a guide rod 24 centered on the axis 14, and a support head of the pistons 26 integral with a lower end of the rod 24. The head 26, arranged parallel to the lateral direction 10, so orthogonally to the sliding direction 18 and the axis 14, takes the form of a rake housing an upper end 31 of the pistons between his teeth. More precisely, the upper ends of the piston are locked in translation by the rake in both directions of the sliding direction 18, in order to be able to follow the reciprocating movement of the piston holder in this same direction.
    [0011] The fixed body 16 of the lower part of the pipette is made using several elements integral with each other, reported or manufactured in one piece. It is first of all a guide cylinder 28 centered on the axis 14 and slidingly housing the rod 24 of the movable piston holder. In addition, a structure 30 arranged below the cylinder 28 is provided to define a sliding space of the support head 26, this structure being substantially oriented in a plane parallel to the directions 10 and 18. As shown in FIG. 1, an outer removable cover 17 completes the fixed body 16, this cover generally covering the structure 30 and the devices 32 which will be described below, so that only a lower part of the end pieces 6 is projecting outside of this cover.
    [0012] The lower part 4 comprises in fact a plurality of individual devices 32, specific to the present invention. This is four devices aligned along the line 9. Each of these devices 32 defines two end pieces 6, also spaced from each other along the line 9 and the direction 10. The fixed parts of these devices 32 can to be independent of each other and reported on the fixed body 16 of the lower part, or made of a single piece attached to the same fixed part. The two end pieces 6 are attached to the other fixed parts of the device 32. Each device 32 defines with its upper fixed portion two concentric suction chambers 36a, 36b, the inner chamber 36a being surrounded by the outer chamber 36b. In this regard, it is noted that the two nested suction chambers 36a, 36b overlap axially on at least one axial portion thereof, but not necessarily over all their axial lengths. The inner suction chamber 36a, or first chamber, has a substantially disk-shaped cross section, while the outer suction chamber 36b, or second chamber 36b, has a substantially annular cross section. In cross sections, the two chambers 36a, 36b have identical areas to obtain the same volume of sampling, or different areas to perform multivolume sampling. In this respect, it is stated that this possibility of different volumes is possible between the two chambers of the same device 32, but also between various devices. To do this, it is expected that at least one of the suction chambers 36a, 36b of one of the devices 32 has a different surface area from that of at least one of the suction chambers 36a, 36b at least one other device 32 of the lower part. Each chamber 36a, 36b slidably houses a piston 20a, 20b, respectively. Also, the device 32 comprises two pistons 20a, 20b of shapes complementary to those of their respective chambers, so that the inner piston 20a takes the form of a cylinder, and the outer piston 20b that of a ring. The two pistons 20a, 20b are preferably made in one piece, and attached to the rake 26 by the same mechanical connector 31, preferably integrated into the piece in one piece.
    [0013] The two pistons 20a, 20b are thus nested one inside the other. The sealing of the two chambers 36a, 36b is for example obtained by placing an O-ring 37 at the distal end of the second piston 20b, facing the bottom of the suction chamber 36b. It is moreover at the level of this chamber bottom that an orifice 13b is provided allowing the communication of air with the orifice 12 of the mouthpiece, and thus allowing the communication of air with the cone 8. it is the same with the bottom of the inner chamber 36a, through the realization of an orifice 13a. By concentrically arranging the suction chambers 36a, 36b and the associated pistons, it is possible to reduce the bulk of the lower part, and to respect a suitable pitch 40 between the central axes of the end pieces. This step 40 can not only be respected between the two end pieces 6 of the same device 32, but also between the end pieces 6 facing two by two, belonging to adjacent devices. The upper part of the devices 32 has in fact a lateral size, in the direction 10, which is less than the cumulative bulk of the two ends 6. As an example, with a pitch 40 fixed at 9 mm, each chamber 36a , 36b may have a surface area of the order of 75 mm 2, with a pipetting stroke of the piston set at 16 mm. This makes it possible to take liquid samples of large volume, while having a small footprint and satisfactory ergonomics. In particular, the outer diameter of the chamber 36b may be substantially less than twice the value of the pitch 40 of 9 mm, since it is of the order of 14.6 mm. In known manner, the guide rod 24 of the piston holder 22 is controlled by a manual or motorized crew imposing a lift stroke during the liquid withdrawal phases, and a descent stroke during the liquid transfer phases. The upstroke run is generally performed in manual mode, under the effect of relaxation of a previously compressed spring during the previous downhill race. During its movement, the piston holder 22 carries with it the pistons 20a, 20b integral with the rake 26, so that the latter are consequently able to be simultaneously moved in the sliding direction 18. The upstroke imposed on the moving assembly relative to the fixed body 16 determines the volume of liquid taken, volume which is also previously set by the user, for example by means of a knob, a set screw, or a numeric keypad. Referring now to Figures 8 to 10, there is shown a device 32 according to a second preferred embodiment of the invention, which is characterized by simplified manufacturing. The second mode has many similarities with the first mode described above. Also, in the figures, the elements bearing the same reference numerals correspond to identical or similar elements. In this second preferred embodiment, the main difference with the first mode lies in the design of the first piston 20a.
    [0014] Indeed, the second piston 20b remains identical to that described above, being housed in the chamber 36b whose cross section is substantially annular in shape, being defined between an inner body 50 and an outer body 52 of the upper fixed part of this device 32. The inner body 50 is cylindrical disc-shaped section, while the outer body 52, arranged around and at a distance from the inner body 50, is of substantially annular cross section. The second piston 20b housed in the second chamber 36b thus retains its general ring shape, closed at its upper axial end by a shutter. One of the peculiarities of this second embodiment lies in the fact that this shutter, disc-shaped and disposed substantially orthogonal to the axes 7, constitutes the first piston 20a. The two pistons 20a, 20b thus remain concentric, while being placed one above the other. With this arrangement, the first suction chamber 36a is delimited axially between the shutter 20a and the upper axial end 50 'of the inner body 50, and delimited laterally by the inner surface of the second piston 20b. In operation, the side wall of the second chamber 36b therefore has the particularity of being mobile, because it is constituted by the second piston 20b. The two chambers 36a, 36b also remain concentric, while being arranged one above the other.
    [0015] The inner body 50 is pierced by an orifice 13a which opens into the bottom of the chamber 36a, at the high axial end 50 '. It extends, centrally or otherwise, through the whole of the inner body 50, to open into the orifice 12 of the associated end piece 6. In the same way, the orifice 13b ensures the air communication between the annular chamber 36b and the orifice 12 of the associated endpiece 6.
    [0016] Of course, various modifications may be made by those skilled in the art to the invention which has just been described, solely by way of non-limiting examples. 10
    权利要求:
    Claims (15)
    [0001]
    REVENDICATIONS1. Device (32) for the lower part (4) of a multi-channel pipetting system, comprising two sampling cone tips (6) and two suction chambers (36a, 36b) cooperating respectively with the two tips, characterized in that the two suction chambers (36a, 36b) are concentric.
    [0002]
    2. Device according to claim 1, characterized in that it comprises two pistons (20a, 20b) cooperating respectively with said two suction chambers (36a, 36b), the two pistons being nested in each other.
    [0003]
    3. Device according to claim 2, characterized in that the two pistons (20a, 20b) are integral in translation, in their sliding direction (18) in the suction chambers (36a, 36b).
    [0004]
    4. Device according to claim 2 or claim 3, characterized in that the two suction chambers (36a, 36b) are arranged one around the other.
    [0005]
    5. Device according to any one of claims 2 to 4, characterized in that a first of the two suction chambers (36a) has a solid cross section, and that a second of the two chambers (36b) presents a recessed cross section.
    [0006]
    6. Device according to claim 5, characterized in that the first suction chamber (36a) has a substantially disc-shaped cross section, and in that the second suction chamber (36b) has a cross-sectional shape substantially annular.
    [0007]
    7. Device according to claim 1, characterized in that it comprises a first suction chamber (36a) and a second suction chamber (36b), and a first and second pistons (20a, 20b) cooperating respectively with said suction chambers (36a, 36b), said second suction chamber (36b) having a substantially annular cross section and being defined between an inner body (50) and an outer body (52), said second piston (20b) housed in the second chamber (36b) being in the general form of a ring closed at one of its axial ends by a shutter forming said first piston (20a), said first suction chamber (36a) ) being defined axially between the shutter and an axial end (50 ') of said inner body (50), and delimited laterally by the second piston (20b).
    [0008]
    8. Device according to any one of the preceding claims, characterized in that the central axes (7) of the two ends (6) are spaced apart from each other in a pitch of 9 mm.
    [0009]
    9. Device according to any one of the preceding claims, characterized in that the two ends (6) are each equipped with a through hole (12), centered or not relative to its associated tip.
    [0010]
    10. Device according to any one of the preceding claims, characterized in that the two suction chambers (36a, 36b) respectively have, in cross section, identical or different surfaces.
    [0011]
    11. Device according to any one of the preceding claims, characterized in that it is equipped with only two endpieces (6).
    [0012]
    The lower part of a multichannel pipetting system, comprising at least one device (32) according to any one of the preceding claims, and preferably a plurality of devices (32) according to any one of the preceding claims.
    [0013]
    13. Lower part according to claim 12, characterized in that the devices (32) are arranged in such a way that the central axis (7) of each endpiece (6) of the lower part intercepts the same straight line (9), to form a row of tips.
    [0014]
    14. Lower part according to any one of claims 12 and 13, characterized in that in cross section, at least one of the suction chambers (36a, 36b) of one of the devices (32) has a surface different from that of at least one of the suction chambers (36a, 36b) of at least one other device (32) equipping the lower part (4).
    [0015]
    15. multichannel pipetting system (1) comprising a lower part (4) according to any one of claims 12 to 14, said system being preferably a sampling pipette, manual or motorized.
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    CN110944751A|2017-05-17|2020-03-31|拜欧迪克斯公司|Ergonomic pipette tip|
    EP3932557A4|2020-07-02|2022-01-05|Eppendorf Ag|Multichannel pipette head|
    法律状态:
    2015-04-30| PLFP| Fee payment|Year of fee payment: 2 |
    2016-04-28| PLFP| Fee payment|Year of fee payment: 3 |
    2017-04-28| PLFP| Fee payment|Year of fee payment: 4 |
    2018-04-26| PLFP| Fee payment|Year of fee payment: 5 |
    2020-03-13| ST| Notification of lapse|Effective date: 20200206 |
    优先权:
    申请号 | 申请日 | 专利标题
    FR1453185A|FR3019895B1|2014-04-10|2014-04-10|MULTICHANNEL PIPETTING SYSTEM COMPRISING TWO NARROW SUCTION CHAMBERS ONE IN THE OTHER|FR1453185A| FR3019895B1|2014-04-10|2014-04-10|MULTICHANNEL PIPETTING SYSTEM COMPRISING TWO NARROW SUCTION CHAMBERS ONE IN THE OTHER|
    CA2944685A| CA2944685C|2014-04-10|2015-04-09|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
    US15/302,358| US10639624B2|2014-04-10|2015-04-09|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
    CN201580017458.0A| CN106132547B|2014-04-10|2015-04-09|Multichannel pipetting system comprising two suction chambers imbricated one above the other|
    EP15714834.7A| EP3129145B1|2014-04-10|2015-04-09|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
    ES15714834.7T| ES2666411T3|2014-04-10|2015-04-09|Multichannel pipetting system comprising two suction chambers embedded inside each other|
    JP2016561840A| JP6600642B2|2014-04-10|2015-04-09|Multichannel pipetting system with two suction chambers stacked on top of each other|
    KR1020167027901A| KR20160142310A|2014-04-10|2015-04-09|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
    PCT/EP2015/057788| WO2015155317A1|2014-04-10|2015-04-09|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
    PL15714834T| PL3129145T3|2014-04-10|2015-04-09|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
    HK16114103A| HK1225686A1|2014-04-10|2016-12-12|Multichannel pipetting system comprising two aspiration chambers that are imbricated in one another|
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