Abstract: This invention relates to a device usable in an automatical apparatus for the determination of the rate of change of the physical state of a medium. This device has a series of cuvettes having two opposites shoulders which extend in the plane of the opening of the cuvette and a flexible film which is fixed on the shoulders. This film is provided with a series of oblong opening respectively arranged above the cuvette openings. An optical detection station is provided which has a light source generating a light beam which illuminates the upper face of the cuvette bowls and an optoeleclectronic detector placed below the bottom of the bowls.
Type:
Grant
Filed:
January 28, 2003
Date of Patent:
March 24, 2009
Assignee:
Stago Instruments
Inventors:
Alain Rousseau, Khaled Abou-Saleh, Patrick Perin, Philippe Poutrel
Abstract: The invention relates to an automatic precision pipetting device. The inventive device comprises at least two cylinder/piston-type pumping units (1, 2), the rods of which are rotated by means of a common motor unit (MP). Moreover, the pumping chamber of each of the pumping units (1, 2) is connected to a circuit comprising, successively, a conduit that opens into a container of rinsing liquid (RL), three successive solenoid valves (EV1, EV2, EV3) and a portion of circuit which connects the second solenoid valve (EV2) with the pipetting means (AP). The larger pumping chamber is connected in the part of the circuit that provides the connection between the two solenoid valves (EV1, EV2) while the second pumping chamber is connected to the above-mentioned portion of circuit by means of a connector, said portion of circuit comprising a solenoid valve (EV3) which is disposed between said connector and the aforementioned pipetting means.
Abstract: The invention concerns a method comprising detecting tubes inside carriers (P), detecting an expected imbalance of the centrifuge (CE) and, when said detection reveals the presence of such an imbalance owing to the presence of an insufficient number of carriers (P) or an odd number of carriers (P), the method consists in: simulating the load of the centrifuge incorporating the incomplete carrier (P), selecting a balance-restoring carrier based on the number of tubes missing in the incomplete carrier (P), determining the boat of the centrifuge (CE) wherein the balancing carrier should be placed and installing said carrier in the boat.
Abstract: The invention concerns a method comprising detecting tubes inside carriers (P), detecting an expected imbalance of the centrifuge (CE) and, when said detection reveals the presence of such an imbalance owing to the presence of an insufficient number of carriers (P) or an odd number of carriers (P), the method consists in: simulating the load of the centrifuge incorporating the incomplete carrier (P), selecting a balance-restoring carrier based on the number of tubes missing in the incomplete carrier (P), determining the boat of the centrifuge (CE) wherein the balancing carrier should be placed and installing said carrier in the boat.
Abstract: The invention relates to a drive arrangement for a series of cuvettes (C) forming a strip (2) fixed by means of a film (3) in an automatic analytical device (1), comprising at least one toothed belt (12), the teeth of which engage with the corresponding forms of the cuvettes. The above finds application in an automatic analytical device, particularly for the determination of the rate of change of the physical state of a medium.
Type:
Application
Filed:
January 28, 2003
Publication date:
July 21, 2005
Applicant:
Stago Instruments
Inventors:
Alain Rousseau, Khaled Abou-Saleh, Patrick Perin, Philippe Poutrel