An accessioning system is configured to retrieve sample vials from a container. An assembly system is configured to assemble a container containing a sample vial. The container includes a base and a cap, where the cap may have a larger longitudinal length than the base. The longitudinal length of the cap may form a majority of an overall length of the container. The container may include a watertight seal. The container may also include a hydrochromic indicator configured to indicate the present or past presence of a liquid, solution, or other substance inside an internal volume of the container.

The present invention relates to an instrument for automatically removing sealing covers from sample vessels (and/or for automatically sealing or resealing sample vessels with sealing covers, the instrument comprising a vessel holder for holding a sample vessel, and a suction/induction device comprising a suction member for holding a sealing cover, and an induction member comprising at least one induction coil, with the suction/induction device and the vessel holder being arranged in an axially movable manner with regard to each other, and, in use, the at least one induction coil is arranged above a bottom of the suction member. In addition, the present invention relates to a laboratory automation system comprising such instrument as well as a plurality of pre-analytical, analytical and/or post-analytical stations, and also relates to a method of automatically removing sealing covers from sample vessels and a method of automatically sealing or resealing sample vessels with sealing covers.

An automatic analyzer has a reagent carrying mechanism capable of reducing a burden on an operator, which can reduce degradation in throughput of the device and an installation area to be smaller compared to the related art. The automatic analyzer includes a plurality of reagent dispensing mechanisms that dispense a reagent from a reagent bottle into a reaction container. A plurality of reagent disks store the reagent bottles. The reagent carrying-in positions are provided in the respective reagent disks to put in the reagent bottles to the respective reagent disks. A carrying mechanism that carries the reagent bottles between the respective reagent carrying-in positions and a reagent bottle gripping position, in which when an automatic analyzer is viewed from a vertically upper side, the reagent bottle gripping position being positioned between the reagent carrying-in positions on a device front side of the automatic analyzer.

Aspects of the present disclosure include sample analysis methods and systems. According to certain embodiments, provided are methods of analyzing samples in an automated sample analysis system. The methods include introducing samples and sample preparation cartridges into the system, isolating and purifying an analyte (e.g., nucleic acids and/or proteins) present in the samples at a sample preparation station, and performing analyte detection assays in assay mixtures that include the purified analyte. Also provided are automated sample analysis systems that find use, e.g., in performing the methods of the present disclosure. In certain aspects, the methods and systems provide for continuous operator access during replenishment or removal of one or any combination of samples, bulk fluids, reagents, commodities, waste, and/or the like.

We describe apparatuses, systems, method, reagents, and kits for conducting assays as well as process for their preparation. They are particularly well suited for conducting automated sampling, sample preparation, and analysis in a multi-well plate assay format. For example, they may be used for automated analysis of particulates in air and/or liquid samples derived therefrom in environmental monitoring.

Embodiments are directed to transferring and opening reagent containers for use in a clinical analyzer in an in vitro diagnostics (WD) environment. Contents of a reagent container may be automatically recorded, and the container is positioned and opened, making available its contents to a transfer probe. A set of mechanical fingers open and close relative to one another, to release and grip the reagent container on opposite sides thereof for transferring the container. Once the container is positioned, the mechanical fingers raise and are positioned above a seal concealing the contents of the reagent container. The fingers are configured to close together and travel in a downward trajectory to piece the seal. The reagent container is originally presented as an un-opened package to prevent spillage and to control reagent life expectancy. According to an embodiment, a method of performing a cycle unload, transfer, and load, without operator intervention, is provided.

The invention relates to a pressing arrangement for a cover, in particular in a laboratory thermostat, having at least: a first component disposed to exert an excitation force, a second component, in particular a plate component disposed to exert a pressing force Fz in at least one target position, a transmission device disposed for transmitting force from the first component to the second component, characterized in that the transmission device comprises a transmission component disposed to be driven by the first component and to drive the second component, and the transmission device comprises at least one elastic tensioning member disposed to be driven by the first component so as to change its tension and to drive the transmission component, and the transmission device or the transmission component causes the setting of the pressing force Fz in dependence on the target position. The invention further relates to a corresponding method for pressuring.

An analysis device that includes a placement section, a pressing member, and a measurement member, has an analysis kit including a chip provided with a capillary through which a sample flows and a cartridge superimposed on the chip, and in which a liquid reservoir placed therein to enable a component present in sample can be measured in a state in which the chip and the cartridge have been fitted together. The analysis kit is placed on the placement section. The pressing member presses the analysis kit in a direction in which the cartridge is superimposed on the chip to sandwich the analysis kit between the pressing member and the placement section, and to fit the chip and the cartridge together. The measurement member that measures the component present in the sample in the analysis kit in which the chip and the cartridge have been fitted together.

An analysis device includes a guide-in section, a piercing member, an airtight member, a gas introduction member, and a measurement member. The guide-in section is configured to guide a rectangular block shaped analysis kit containing a sample. The piercing member pierces a sealing film at an upper face of a liquid reservoir formed in the analysis kit. The airtight member forms an airtight space against the analysis kit at the periphery of a location pierced by the piercing member. The gas introduction member introduces gas into the airtight space. The measurement member measures a component present in the sample in the analysis kit guided into the guide-in section.

In the past, when centering the center of a liquid surface and fixation thereof proved difficult during mounting a container into an automatic analytical apparatus, there was sometimes the possibility that the accuracy of checking the liquid surface conditions and the pipetting precision could not be ensured. When this problem occurred, there was the possibility that the reliability of the analysis results would be diminished. Accordingly, an automatic analytical apparatus is provided with a probe for suctioning a liquid to be used in analysis, wherein the apparatus is provided with a transport apparatus for transporting a container accommodating the liquid, and a container-clamping apparatus for clamping the container transported by the transport apparatus. The container-clamping apparatus has a vibration suppression mechanism for retaining the clamped container with an elastic body, and a centering retention mechanism with which centering of the container center can be fixed.