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Microdispenser and associated operating method

a micro-dispenser and operating method technology, applied in the field of micro-dispensers, can solve the problems of occupying a large amount of time for filling via the nozzle and subsequent closing of the nozzle, and no time-intensive rinsing operations are carried ou

Inactive Publication Date: 2012-12-13
SCIENION
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  • Summary
  • Abstract
  • Description
  • Claims
  • Application Information

AI Technical Summary

Benefits of technology

Prevents contamination and cross-contamination by maintaining sample sterility during storage and transport, reduces time-intensive rinsing operations, and enables efficient dispensing without sample liquid escape, suitable for biological samples and high-throughput screening processes.

Problems solved by technology

Furthermore, no time-intensive rinsing operations are carried out.
By contrast, in the other known microdispensers in which filling takes place from the front via the nozzle, the filling via the nozzles and the subsequent closing of the nozzles would take up a large amount of time.

Method used

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  • Microdispenser and associated operating method
  • Microdispenser and associated operating method
  • Microdispenser and associated operating method

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Embodiment Construction

[0060]The cross-sectional view in FIG. 1 shows a microdispenser 1 according to the invention which can be used in a dispensing device (not shown) to dispense microdroplets.

[0061]In order to hold a sample liquid, the microdispenser 1 has a sample container 2 in the form of a glass capillary with a volume of 20 μl, wherein the sample container 1 has a narrowing 3 which divides the sample container 2 into a sample reservoir 4 and a working chamber 5.

[0062]Arranged in the sample reservoir 4 is a sponge 6 which exerts on the sample liquid capillary forces which generate a holding vacuum in the sample reservoir 4, as a result of which the sample liquid is prevented from running out of the sample container 2.

[0063]Furthermore, the sample container 2 has a nozzle 7 with a nozzle diameter of 70 μm, through which microdroplets 8 can be dispensed.

[0064]The dispensing of the microdroplets 8 is brought about by a piezo actuator 9 which surrounds the sample container 2 in the manner of a sleeve i...

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Abstract

The invention relates to a microdispenser (1) for dispensing a liquid sample in a dispensing device, with a sample container (2) for receiving the liquid sample, and with a nozzle (7) for dispensing the sample located in the sample container (2). The microdispenser (1) with the filled sample container (2) can in this case be stored independently of and fluidically separately from the dispensing device, without the sample escaping from the sample container (2) during storage.

Description

BACKGROUND OF THE INVENTION[0001]The invention relates to a microdispenser for dispensing a liquid sample in a dispensing device and also to an associated operating method.[0002]Microdispensers are known for example from WO 99 / 30168 and are used inter alia for biological or chemical purposes in order to dispense small volumes of liquid in a controlled manner in the form of microdroplets. One example of this is the production of miniaturized DNA arrays for genetic engineering uses, wherein a high clone density is achieved by means of a small droplet size, for which piezoelectrically operated microdispensers are particularly suitable. The known microdispensers consist of a glass capillary for holding the sample liquid to be dispensed, the glass capillary having a nozzle for dispensing the microdroplets and a flexible supply line for filling it with the sample liquid. The discharging of the microdroplets from the glass capillary in the known microdispensers is brought about by means of...

Claims

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Application Information

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Patent Type & Authority Applications(United States)
IPC IPC(8): B01L3/02B65D83/00B67D7/36B01L99/00
CPCG01N2035/1039G01N35/10
Inventor EICKHOFF, HOLGERWURZEL, CHRISTIAN
Owner SCIENION