This application is the U.S. national phase of International Application No. PCT/FI2006/000103, filed 31 Mar. 2006, which designated the U.S. and claims priority to Finland Patent Application No. 20050340, filed 1 Apr. 2005, the entire contents of each of which are hereby incorporated by reference.
The invention relates to a piston-operated pipette for use in dispensing liquids, the pipette comprising a calibration function allowing adjustment of the dispensed volume to the indicated volume. The invention concerns specifically this calibration function.
Piston-operated pipettes usually have a calibration function for setting the piston stroke so that the liquid volume dispensed by this stroke equals the indicated volume as precisely as possible. FI patent specification 64752 (corresponding e.g. to EP specification 112887) discloses such a pipette. This pipette comprises a calibration apparatus allowing adjustment of the lower limit of the stroke. In the practice, calibration is performed by weighing the liquid amount dispensed by the pipette with the indicated volume, and by adjusting the lower stopper until the liquid volume equals the indicated one. Calibration is usually performed during the manufacture, before the pipette is taken into use, and is repeated whenever necessary. Pipettes, such as those mentioned above, usually also have a separate volume control function allowing use of the pipette in a given volume range.
A pipette as determined in claim 1 has now been invented. The other claims describe some embodiments of the invention.
The pipette of the invention comprises a piston or a barrel with variable diameter. The pipette can thus be calibrated by varying both the stroke length and the stroke starting point.
The accompanying drawings pertain to the written description of the invention and relate to the following detailed description of the invention. In the drawings,
The pipette of the invention comprises a piston and a barrel having variable diameter at least in the portion passing by the sealing point. Preferably, the barrel is cylindrical and the diameter of the piston is variable. The piston may especially be conical, especially such as has a tapering end towards the cylinder. The piston may also have a non-linearly variable shape, resembling a barrel or an hour-glass, for instance. The pipette of the invention can be calibrated both by varying the stroke length and by varying the piston diameter during the stroke. This increases precision, since, if desired, it allows the correction of volume at one single point of the volume range or mutually different corrections at two points, especially at the extremes of the volume range. As calibration can be carried out at two points, flaws in the piston manufacturing techniques will have a smaller impact on precision. Calibration is preferably performed by iteration of the best setting.
When the diameter passing by the sealing point varies, the seal naturally needs to adapt to such a change. The required volume control range is typically about 1%, and then the diameter variation is only of the order of 0.5% over the entire operational range. Adaptation of a seal of this order of magnitude does not cause any problems.
When variable diameter is used, the stroke volume will be in non-linear interdependence with the stroke length.
The volume dispensed by the pipette is most advantageously adjustable. In this case, the volume display should be accordingly non-linear. When a control thread is used, it can be given a non-linear shape matching the conicity, and a special nut with varying thread can be combined with it. The pitch variation of the control thread is of the order of 1% corresponding to the volume change, and then a pitch of 1.6 mm typically requires a change of 0.016 mm. A special nut can be manufactured e.g. by providing it with a thread crest that tapers by a value equaling the pitch variation. The axial play thus produced does not harm the pipette if the pipette comprises a spring (primary spring), against which the piston is pressed. The spring shifts the clearance to the other edge of the thread.
The display can also be provided with a non-linear scale as necessary. The volume display can also be constructed with electrical means using sensors.
The pipette comprises a body 1 with a tip portion 2 at its lower end, a tip container, i.e. a tip, being fixed to the lower end of the tip portion. A sliding tip ejector sleeve 3 surrounds the tip portion. It is extended by a tip ejector button 4, which, for reducing the necessary driving force, is urged to move relative to the handle by means of a wheel 5 (cf. FI 92374 corresponding e.g. to publication EP 566939). A return spring 6 for the tip ejector is disposed on the side of the body. A handle portion 7 shaped so as to fit the user's hand is disposed on the body. The body comprises a finger support 8 at its top part.
The tip portion 2 is perforated with a circular hole, which continues as a hole passing through the body 1. In the tip portion there is a piston 9 extended by an arm 10. The lower part of the arm is sleeve-like and disposed around the upper part of the piston. The upper part of the arm is narrower, extending through the body. A knob 11 is provided at the upper end of the arm. At the upper part of the tip portion, the hole has an expansion, and at its bottom an O-ring 12 for sealing the piston against the tip portion. The O-ring is pressed from above by an O-ring spring 13 disposed between the body and the tip portion.
The piston arm 10 comprises a control thread equipped with an adjustment nut 14, whose rotation relative to the body is prevented by means of longitudinal guides and grooves. When the arm is rotated, the nut is consequently moved in the longitudinal direction of the arm. The body comprises a stopper 15, against which the adjustment nut and hence the piston are pressed from below by a primary spring 16. In other words, the adjustment nut and the stopper determine the upper limit of the piston stroke. A sleeve-like secondary support 17 has been slidingly disposed around the upper part of the arm, the secondary support having an internal flange at its lower end. Above the secondary support, a calibration nut 18 is fitted with a thread into the bore in the body, the secondary support being pressed against the calibration nut from below by means of a secondary spring 19, which has greater force than the primary spring. The body of the knob 11 is disposed to move within the secondary support. However, the actuating knob has a larger diameter than the diameter of the hole formed by the lower flange in the secondary support. Together with the flange of the secondary support, the lower end of the knob thus determines the lower limit of the piston stroke. When liquid is aspirated into the tip, the piston is pressed against this lower limit and is then allowed to return towards the upper limit. When liquid is removed from the tip, the piston is pressed further against the force of the secondary spring so as to pass by the lower limit in order to eject the liquid as completely as possible. (Similar arrangements have been explained e.g. in publications FI 64752, corresponding to EP 112887, and in EP 737515).
A first digital ring 20 is fitted with a cotter joint around the piston arm 10 so as to rotate along with this. The upper end surface of the first digital ring comprises a stop notch matching each reading on the ring, the stop notch mating with a boss on the non-rotary ring spring 21 (cf. FI 92374). In this manner, the piston arm will rotate and get locked step-wise. The first digital ring is connected over a first sprocket 22 to a second digital ring 23 located below, so that, after each revolution, the first digital ring rotates the second graduated disc by one step. Similarly, the second graduated disc is connected with a third digital ring 25 over a second sprocket 24.
The portion of the piston 9 passing by the O-ring has a conical shape, with its lower end being narrower than its upper end. For the volume indicated by the digital rings 20, 23, 25 to be correct, the pitch angle of the control thread of the piston arm 10 changes in accordance with the conicity. The adjustment nut 14 is a special nut co-operating with such a changing thread.
The knob 11 is sleeve-like and comprises an internal flange, from which the knob is attached to the end of the piston arm 10 over a thread 26. A locking nut 27 is provided above the flange for irrotational locking of the knob to the arm. The knob cap 28 is removable, giving access to the locking nut when removed. When the locking nut is released, the knob can be turned, and then the piston is moved vertically.
The dispensed volume is usually calibrated by adjusting the correct minimum volume with rotation of the calibration nut 18. (Corresponding calibration arrangements have been explained e.g. in publications FI 64752, corresponding to EP 112887, and EP 737515). A second dispensed volume, usually the maximum volume, can also be calibrated more exactly by adjusting the upper limit by turning the knob 11. Calibration is repeated for the two volumes until optimal precision has been achieved.
Number | Date | Country | Kind |
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20050340 | Apr 2005 | FI | national |
Filing Document | Filing Date | Country | Kind | 371c Date |
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PCT/FI2006/000103 | 3/31/2006 | WO | 00 | 4/10/2009 |
Publishing Document | Publishing Date | Country | Kind |
---|---|---|---|
WO2006/103315 | 10/5/2006 | WO | A |
Number | Name | Date | Kind |
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4128009 | D'Autry | Dec 1978 | A |
4229413 | Marteau d'Autry | Oct 1980 | A |
4284604 | Tervamäki | Aug 1981 | A |
4298575 | Berglund | Nov 1981 | A |
5481900 | Husar | Jan 1996 | A |
Number | Date | Country |
---|---|---|
0 041 318 | Dec 1981 | EP |
0 112 887 | Jul 1984 | EP |
57-174148 | Oct 1982 | JP |
4-51647 | Apr 1992 | JP |
5-501222 | Mar 1993 | JP |
10-503426 | Mar 1998 | JP |
10-504235 | Apr 1998 | JP |
2003-516232 | May 2003 | JP |
2 018 324 | Aug 1994 | RU |
9105609 | May 1991 | WO |
Entry |
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International Search Report for PCT/FI2006/000103 dated Jul. 12, 2006. |
International Search Report for Finnish Priority Appln. No. 20050340 dated Oct. 27, 2005. |
Number | Date | Country | |
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20090211332 A1 | Aug 2009 | US |