The present invention relates to the field of air displacement pipetting. It more particularly relates to a device for controlling pipetting and adjusting a volume to be sampled.
The invention applies to the different types of sampling systems, that is in particular the hand- or power-operated pipettes, as well as automatons. Pipettes, also referred to as sampling pipettes, laboratory pipettes or even liquid transfer pipettes, represent a privileged application. They are intended for removing and dispensing liquid into containers or the like.
Hand-operated pipettes are intended to be handheld by an operator during the liquid sampling and dispensing operations, these operations being performed by moving a control knob by applying an axial pressure on the same knob. The axial pressure applied to the control knob is transmitted to a piston of the pipette, which undergoes an axial displacement and causes an air displacement leading to the sampling and dispensing operations. For power-operated pipettes, if the sampling stroke and dispensing stroke commands are also controlled by actuating a knob, the displacement of the piston is performed on the other hand due to an engine driven by an electronic device.
On the hand-operated pipettes, in order to be able to adapt the volume quantity to pipette, means for adjusting this volume are generally provided. By actuating these means, the initial position of the piston is displaced, and the pipetting stroke of the piston is thus modified. Therefore, during the pipetting operations, the displacement of the control knob to be performed by the operator is not the same when the volume to be sampled changes. Problems of pipetting comfort can result therefrom, in particular for the low strokes associated with the sampling of small liquid volumes.
On the power-operated pipettes and automatons, variable amplitude displacements of the control member, which depend on the volume to be sampled, complicate the engines and their electronic control systems.
Therefore, whatever the type of air displacement pipetting system, there is a need for optimizing its device for controlling pipetting and adjusting the volume to be sampled.
To do so, the object of the invention is a device for controlling pipetting and adjusting a volume to be sampled, for an air displacement pipetting system, said device comprising:
The invention is noteworthy in that it provides the implementation of a spiral-shaped guiding path of the linking member, adapted to adjust the volume to be sampled while enabling a constant pipetting stroke to be maintained, whatever the sampled volume.
In the case of a hand-operated pipette, this improves the pipetting comfort since the operator can repeat the same pipetting stroke for all the sampled volumes. In the case of a power-operated pipette or an automaton, due to the identical pipetting stroke for all the volumes, the engines and their electronic control systems implemented for the displacement of the pipetting control member can be simplified. A gain regarding the cost of the pipetting system advantageously results therefrom.
Finally, the spiral shape of the path guiding the linking member enables the latter to draw a substantially circular movement which is particularly reliable, and hardly subject to errors and blocking risks. It also enables a great pipetting accuracy to be provided to the system.
Preferably, said actuating means comprise a toothed segment cooperating with a rack made on the pipetting control member. Other coupling means can however be worth considering, such as friction means, without departing from the scope of the invention.
Preferably, said actuating means comprise a finger provided with a groove in which the linking member is slidably mounted.
Preferably, the linking member is a pin.
Preferably, said first and second rotation axes are substantially merged. Alternatively, they could be made parallel, at a distance from one another, without departing from the scope of the invention.
Preferably, said volume adjusting means are rotary.
Preferably, the adjusting means comprise a worm screw cooperating with a helical toothing provided on the rotary means. These adjusting means are distinct from the control member, even if designed intertwining these two elements can be chosen, for example by arranging them coaxially one around the other.
Preferably, in a top position of the control member, the sliding axis of the linking member is parallel to a translation axis of the control member. In other words, upon actuating the volume adjusting means, sliding the linking member relative to said actuating means is performed along an axis parallel to the translation axis of the control member, which is generally parallel to the sliding axis of the piston of the pipetting system.
Preferably, switching form the top position of the control member to its low position causes a rotation of the actuating means at an angle substantially equal to 180°. A lower angle is of course worth considering, without departing from the scope of the invention.
Preferably, the guiding path has a number of turns equal to or greater than two, and even more preferentially equal to or greater than four. However, other possibilities can be worth considering, such as a single turn, or even an incomplete turn.
Preferably, the rotary means take the shape of a disk inside which the spiral guiding path is made in a through way.
The object of the invention is also an air displacement pipetting system, comprising a device for controlling pipetting and adjusting a volume to be sampled such as described above.
Preferably, the pipetting system includes a slidably mounted piston as well as means for connecting the piston to said linking member. Preferably, blade- or elastic rod-type means are chosen, but any of other mean can be worth considering, enabling the spiral movement of the linking member moving in the spiral path to be transmitted, into a sliding movement of the piston during pipetting. It can be for example alternatively one or several hinged connecting rods.
Preferably, the system is a hand- or power-operated pipette, including a handle forming top part fitted with the rod-shaped control member, at the end of which a control knob is provided.
Alternatively, the pipetting system is an automaton.
Further advantages and characteristics of the invention will appear upon reading a non-limiting detailed description hereinbelow.
The description will be made with reference to the appended drawings among which:
a and 5b shown the pipette in different successive states during a pipetting operation; and
a and 6b are analogous views to those of
With reference first to
In
More precisely, the pipette 1 comprises a handle 6 forming the upper body of the pipette, handle from which a rod-shaped pipetting control member 10 emerges carrying at its top end, in a pipetting position, a control knob 12 the upper part of which is intended to undergo the pressure of the operator's thumb. By way of indication, it is noted that a display screen (not represented) can be provided on the handle 6. Also, as mentioned thereafter, means for adjusting the volume to be sampled can also be accessed by the operator on this handle 6.
Under the handle 6, the pipette 1 includes a removable low part 14, which ends towards the bottom by a cone-holder cap 16 receiving a consumable 18, also referred to as a sampling cone. In a known manner, after pipetting, the cone can be mechanically ejected by an ejector 20 the actuating knob 22 of which is for example protruding on the top of the handle, close to the control knob 12.
In
With reference jointly to
The device 30 also includes rotary actuating means 32, rotatably mounted relative to the handle 6 about a first rotation axis 34 preferably orthogonal to the axes 25, 26. The means 32 have a toothed segment 36 meshing the rack 10a, as can be seen especially in
The means 32 also include a finger 38 rotatably engaged with the segment 36, the finger being arranged in a plane orthogonal to the first rotation axis 34 and extending along a direction cutting off this same axis 34. As can be seen in
The device 30 also includes means for adjusting the volume to be sampled. These are rotary means provided with a worm screw 54 extended by a shaft 56 inside which an adjusting knob 58 distinct from the pipetting control knob 12 is located. The adjusting knob 58 is controllable from the outside of the handle 6. These adjusting means are arranged along an axis 60 orthogonal to each of the axes 34, 26.
Finally, the device 30 comprises rotary means 62 having the overall shape of a disk defining, for the linking member, a spiral-shaped guiding path 64. The path 64 then takes the shape of a through groove or throat, into which the pin 42 is guided. In this respect, the diameter of the pin is substantially identical to the width of the groove/throat extending as a spiral, preferably as a spiral of Archimedes. The number of turns of the path 64 is for example between 2 and 6. This spiral is centred on a second rotation axis 66, which is preferably substantially merged with the first abovementioned rotation axis. This axis 66 corresponds to the one of the disk 62 which therefore lies within a plane parallel to the axes 25, 26.
The disk 62 has at its periphery 68 a helical toothing (not shown) meshing with the worm screw 54. For this reason, the disk is coupled to the volume adjusting means so that actuating the latter into rotation causes a rotation of the disk 62 about the second rotation axis 66.
In
To fulfil such an operation, the operator actuates the control knob 12 to cause the lowering of the rod 10. During this lowering, the meshing between the rack 10a and the toothed segment 36 leads to the rotation of the means 32 about the axis 34. During this rotation maintained by the lowering of the rod 10, a relative displacement of the pin 42 along the spiral guiding path 64 provided on the disk 62 remaining fixed, as well as a sliding of this pin in the groove 40 simultaneously take place. This sliding is necessary to cope with the gradual evolution of the diameter of the turn in which the pin 42 is guided during the lowering operation.
During the lowering of the control rod 10, the pin 42 is displaced along the path 64 starting from a top point relative to the pipette body, towards a low point, by following a spiral trajectory. For this reason, during the lowering, the pin 42 also deviates from the axis 26 on which it was initially placed with the control rod at a top position, which leads the blade 44 to be elastically bending deformed. This blade then drives the sliding movement towards the bottom of the piston 50.
In the represented embodiment, a complete lowering stroke of the piston is achieved by a complete downwards stroke of the control rod 10, leading to the rotation of the toothed segment 36 at an angle of about 180°. Further, at the end of the lowering stroke, the pin 42, after deviating from the axis 26, returns to a low position by being again arranged on this same axis. During this stroke, the pin 42 therefore travels along a half-turn of the spiral 64.
Raising the equipment is then made conventionally, by releasing the control knob 12 and under the action of return springs (not shown). This raising, made for example for sampling liquid, is then following by a new downwards stroke for dispensing the sampled liquid.
In
In a top position of the control member 10 such as represented in
Also, during a lowering operation performed from the adjustment of
In the example shown in
The invention thus advantageously enables different liquid volumes to be reliably and accurately sampled, while maintaining a substantially identical pipetting stroke.
It is noted that the above-described device 30 can have a disengageable aspect, enabling the implementation of a draining operation of the pipette after dispensing.
Of course, various modifications can be brought by those skilled in the art to the invention which has been described, solely by means of non-limiting examples. In particular, the invention can be applied to a power-operated pipette or to an automaton for which the translation displacement of the control member is performed via an engine.
Number | Date | Country | Kind |
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1353039 | Apr 2013 | FR | national |
Filing Document | Filing Date | Country | Kind |
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PCT/EP2014/056533 | 4/1/2014 | WO | 00 |