Abstract: The drive device includes a guide element defining a guide track, the guide element being configured to receive and guide a cuvettes strip in translation along the guide track, and a drive belt configured to displace the cuvettes strip in translation along the guide track when the cuvettes strip is received in the guide element. The drive belt is disposed below the guide track and is configured to cooperate with lower portions of the cuvettes of the cuvettes strip when the cuvettes strip is received in the guide element.

Abstract: The conveying system includes a support guide element defining a guide track, the support guide element being configured to receive a containers support and guide said containers support in translation along the guide track; and a self-propelled conveying carriage displaceable along a conveying track extending along the support guide element, the self-propelled conveying carriage comprising a drive element movably mounted between at least one drive position in which the drive element is configured to transmit a drive movement to the containers support so received on the support guide element, and a release position in which the drive element is configured to release the containers support, the self-propelled conveying carriage being configured to displace the containers support in translation along the guide track when the drive element is in the drive position and the self-propelled conveying carriage is displaced along the conveying track.

Abstract: The conveying system includes a support guide element defining a guide track, the support guide element being configured to receive a containers support and guide said containers support in translation along the guide track; and a self-propelled conveying carriage displaceable along a conveying track extending along the support guide element, the self-propelled conveying carriage comprising a drive element movably mounted between at least one drive position in which the drive element is configured to transmit a drive movement to the containers support received on the support guide element, and a release position in which the drive element is configured to release the containers support, the self-propelled conveying carriage being configured to displace the containers support in translation along the guide track when the drive element is in the drive position and the self-propelled conveying carriage is displaced along the conveying track.

Abstract: The automatic analysis system comprise a storage device configured to store a plurality of reaction cuvettes intended to contain biological liquids samples to analyze; at least one samples processing station, comprising at least one receiving cavity which is downwardly open and configured to receive and house at least partially one reaction cuvette; and a displacement device configured to displace a reaction cuvette, the displacement device being further configured to unload a reaction cuvette out of the storage device and to load and unload a reaction cuvette into and out of the at least one receiving cavity of the at least one samples processing station via the respective introduction opening.

Abstract: A flow cytometry system including a measuring chamber, an injection device arranged to inject a flow of biological particles to be analyzed in the measuring chamber, an evacuation device arranged to evacuate outside of the cytometry system the flow of biological particles injected in the measuring chamber, a measuring set arranged to measure at least one optical property of the biological particles to be analyzed, the measuring set including an emission device arranged to emit a light beam in the direction of the measuring chamber and capable of crossing the flow of biological particles, and at least one collecting device arranged to collect light rays coming from the measuring chamber, where the flow cytometry system further includes a support on which the injection device, the evacuation device, the emission device and the at least one collecting device are mounted.

Abstract: This analysis device includes at least one rack intended to receive a plurality of containers containing samples of biological liquid to be analyzed, a loading module arranged to move the at least one rack between a loading position and a first intermediate position, a shaking module arranged to move the at least one rack between the first intermediate position and a second intermediate position and to shake the at least one rack, an unloading module arranged to move the at least one rack between the second intermediate position and an unloading position, where the loading and unloading modules are arranged to move the at least one rack respectively along a first and a second movement directions transverse to the plane of the at least one rack, and where the shaking module is arranged such that the at least one rack extends substantially along a same orientation in the first and second intermediate positions.