Pipette device

Measuring and testing – Sampler – sample handling – etc. – Capture device

Reexamination Certificate

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Reexamination Certificate

active

06474180

ABSTRACT:

This invention is related to DE 198 47 869.0 filed Oct. 17, 1998 the complete disclosure of which is hereby incorporated by reference.
BACKGROUND OF THE INVENTION
The present invention concerns a pipette device comprising at least one pipette channel and at least one pump means which cooperates with the pipette channel for suction and dispensed delivery of liquid.
Pipette devices of this type are widely used in laboratory technology. Many tests, analysis, synthesis etc. require exact dispensing and/or removal of liquid in small to smallest amounts. It is thereby mainly important that the dispensed volume can be preset and reproduced and that the device is suitable for series tests.
Pipette devices of this type are used in particular as multiple channel pipettes to simultaneously supply a plurality of samples disposed on titration plates. All pipettes are thereby actuated by a common drive element via one piston and one air cushion each and the pipette channels comprise exchangeable pipette tips which receive the volume to be dispensed and which can be replaced to curtail contamination. Contamination of the pipette channels themselves is prevented by the air cushions. The known devices have, in particular, the disadvantage that the pipette volume cannot be arbitrarily minimized due to the stroke length of the piston, not even with smallest piston diameters. This problem exists with both directly actuated as well as air cushion pipettes.
It is the underlying purpose of the present invention to propose a pipette device for pipette dispensing of arbitrary small volumes with simultaneous small space requirements for the pump means.
SUMMARY OF THE INVENTION
This object is achieved in accordance with the invention in a pipette device of the above mentioned type in that the pump means consists of two electrically actuated micropumps each having one suction-side and one pressure-side connection, and that one micropump is connected to the pipette channel at its suction side and the other is connected to the pipette channel at its pressure side.
The recently developed micropumps permit the supply and precise setting of very small volumes. The arrangement of two micropumps, one of which is connected to the pipette channel on its suction side and the other on its pressure side, permits exact setting of the supply volume during suction and also during dispensing. Each pump thereby transports the medium in only one, but mutually opposite, direction and their connections may be of corresponding simple construction. Since they require little space they can be easily accommodated without having an overall construction volume in excess of conventional pipettes.
The micropump may be driven piezoelectrically, electromagnetically or electrostatically. The electrostatic drive utilizes the repelling forces of differing charges.
In an advantageous embodiment, an air cushion is disposed between the liquid in the pipette channel and the pump means to prevent contact between the medium to be supplied and the micropumps. The micropumps are not contaminated and, when using pipette tips, the pipette channels do not contact the medium to be supplied.
Since one micropump is connected to the surroundings via its pressure connection and the other micropump via its suction connection, in connection with the air cushion, only air is transported in the micropumps, with the two micropumps being connected to the surroundings with their respective connections for suctioning and delivering air.
Advantageously, the suction and pressure-side connections of the micropumps also comprise check valves to ensure a respective opposite flow direction in both micropumps.
In a preferred embodiment, the two micropumps can be activated independently of one another such that the volume of the medium suctioned by the one micropump need not be identical to the volume delivered in a dispensed fashion by the other micropump. Consequently, several pipette processes can be carried out, one after the other, with one single suction stroke.
In a further advantageous embodiment, only one of the connections to the pipette channel is open at a time, whereas the second remains closed. This prevents air from flowing into the passive pump or being suctioned from its pump chamber, which would impair dispensed supply.
Moreover, each of the two micropumps advantageously has a constant stroke such that each micropump has a defined pumping volume and the transported or delivered volume is defined by the number of strokes.
Dispensing devices having several pipette channels, e.g. for use in connection with titration plates, preferably have one pump means associated with each pipette channel. This permits independent definition of the delivery volume at each individual pipette channel thereby facilitating e.g. series tests with different titration volumes in one working step.
The micropumps are advantageously fashioned as diaphragm pumps to require a minimum of space and simultaneously offer the highest operational reliability. The diaphragm can be made from rubber-elastic materials, e.g. polymers, but also from metallic or ceramic materials.
In a preferred embodiment, the dispensing device comprises an electronic control device for actuating the electric drive of each micropump which can both control the two micropumps associated with one pipette channel, as well as actuate the micropumps of different pipette channels independently of one another.
To always guarantee safe and reliable operation of the pipette device, the current supply of the pump means is advantageously augmented by at least one solar cell. The pipette device may further be equipped with a current storing unit, such as storage battery, capacitor or the like to provide continuous current supply for the micropump even when there is no or only insufficient incident light, e.g. during pipette use when the solar cell is covered by a hand.
The solar cell may be disposed e.g. directly on a housing of the pipette device at a location which is constantly exposed to light. If the pipette device has a current storage unit, it may alternatively have an associated solar-operated charging station for charging the current storage unit. Such a charging station is advantageously configured as a holder which receives the pipette device when it is not used. In particular, a charging station may also be provided for simultaneous charging and storing of several pipette devices, e.g. having different dispensing volumes.
The invention is described below by means of an embodiment.


REFERENCES:
patent: 3691844 (1972-09-01), Moore
patent: 6082204 (2000-07-01), Munderloh
patent: 0 725 267 (1996-08-01), None
Kluge, Stefan et al.: Mikroelektronik liefert Grundlagen für Mikropumpen. In: TR Transfer, Nr. 15, 1996, Pa.50-54.
Zengler, R. et al.: A bidirectional silicon micrompump. In: Sensors and Actuators A 50, 1995, Pa. 81-86.

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