An automatic analyzer keeps the inside of a reagent cooler that stores a reagent vessel clean. The automatic analyzer includes: a reagent cooler that stores a reagent vessel containing a reagent to be reacted with a sample at a predetermined temperature. A reagent vessel replacement unit includes an opening configured to put the reagent vessel into and take the regent vessel out of the reagent cooler, wherein the opening is opened and closed to replace the reagent vessel. A positive pressure unit positively pressurizes the inside of the reagent cooler with respect to a periphery of the reagent cooler when the opening is opened.

A robotic sample handling system (100) may be provided for performing sample handling tasks in a laboratory environment. The system may comprise at least one robotic arm (140), (142) which is controllable to be positioned in a plane parallel to a work area and along a Z-axis perpendicular to the work area, and a controller (180) configured to control the robotic arm to position and operate the robotic arm as part of a sample handling task. The work area may comprise a module (204) for use with one or more of the samples, wherein the module comprises a mechanism which is actuatable by downward force, and wherein the controller is configured to control the robotic arm to actuate the mechanism by pushing downward in Z-direction. For example, the module may be a stand (204) for a sample container which comprise a push-push mechanism which may be operated by the robotic arm to bring the sample in the sample container in a vicinity of an effector, such as a magnet or a heat source.

An automated pre-analytical processing method and an apparatus for pre-analytical processing of samples to be forwarded to an adjacent analyzer for analysis. Rack label information is read and communicated to a processor. From the rack label information, the processor determines where to route the rack. The pre-analytical system has a rack robot that conveys racks to discrete locations depending upon the routing information assigned to the rack by the processor. The pre-analytical system has an automated station that reads the labels of individual sample containers in the rack that are brought to the automated station on instructions from the processor. Depending on the type of sample container and the type of sample disposed therein, the samples are either prepared for analysis by the automated station or the sample containers are directly passed through the automated station. Prepared samples and passed through samples are passed individually to a batching rack.

Embodiments include systems for sequencing a biological sample. The system may include a reusable subsystem and a removable subsystem. The reusable subsystem may actuate and operate the removable subsystem to automate the sequencing. A base unit of the reusable subsystem may form a fluidic connection between an integrated reagent cartridge and an integrated sensor cartridge of the removable subsystem. The integrated reagent cartridge may be configured to hold reagents and the integrated sensor cartridge may be configured with a biosensor for sequencing the biological sample.

The specimen treatment and measurement system 2000 according to the present invention is provided with: a movement stage 2300 having a plurality of treatment lanes for treating specimens in parallel; a consumables supply module 2100 for storing consumables for use in treatment of the specimens, and supplying the consumables to the movement stage 2300; a cartridge supply module 2500 for storing cartridges for use in treatment of the specimens, and supplying the cartridges to the movement stage 2300; and a stage transfer mechanism 2400 for transferring the movement stage 2400 to each module. The cartridge supply module 2500 has a plurality of cartridge cartons for accommodating the cartridges stacked on top of each other, and a push-out mechanism for pushing cartridges out of a cartridge carton to a supply position of the cartridge supply module 2500.

A sample dilution method. The method comprises the following steps: moving from an initial workstation to a first workstation a ferrying unit bearing a first reactor containing a sample; distributing a diluent into the first reactor located at the first workstation; mixing the diluent and the sample in the first reactor to form a diluted sample; moving to a second workstation the ferrying unit bearing the first reactor containing the diluted sample, and distributing into at least two empty second reactors the diluted sample from the first reactor; moving to the first workstation the ferrying unit bearing all the second reactors containing a diluted sample, and distributing a reagent into the second reactors located at the first workstation; and mixing the reagent and the diluted sample in the second reactor.

An automatic sample injection system (1) includes at least an injector (2). The injector (2) includes a turret (10) comprising a plurality of vial receiving holes (30) that are corresponding to a plurality of types of vials having different sizes, the plurality of vial receiving holes (30) being provided on the same circumference on an upper surface of the turret, the turret being configured to rotate so that the plurality of the vial receiving holes (30) are each moved along a circumferential track, and a controller (22) configured, in a case where a sampler (4) for supplying a vial to the injector (2) is provided, to recognize a size of a target vial to be supplied at the time when the target vial is supplied from the sampler (4) and to arrange the vial receiving hole (30) corresponding to the target vial at a delivery position (P) set on the circumferential track.

The invention relates to a conveying device (IO) for positioning and providing laboratory vessels (12; 12a, 12b, 12c) for nutrient media, samples, microorganisms, cell cultures, or the like for analysis, sample preparation, and/or sample manipulation at an associated apparatus (64), comprising at least one first conveying unit (32) for conveying the laboratory vessels (12) between an initial region (30) and a provision region (60), where the laboratory vessel (12) is held for the analysis or preparation. According to the invention, a plurality of conveying units is present, which perform only a translational motion of the laboratory vessel (12) along an axis, wherein the first conveying unit (32) vertically conveys the laboratory vessel (12) from the initial region (30) to a predetermined height region (50) and vice versa, and a second conveying unit (56) is provided, which horizontally conveys the laboratory vessel (12) from the height region (50) to the provision region and vice versa.

An automated laboratory system includes a storage system including a frame and a platform slidably mounted to the frame such that the platform is slidable relative to the frame between a docked position and an undocked position, the platform being configured to carry an instrument. The system also includes a robotic device proximate the storage system and being configured to access the instrument carried by the platform. Another automated laboratory system includes a storage system including a table and a tabletop having a central axis and being rotatably positioned on the table such that the tabletop is rotatable about the central axis between a docked position and an undocked position, the tabletop being configured to carry an instrument. The system also includes a robotic device proximate the storage system and being configured to access the instrument carried by the tabletop.

An instrument for processing a biological sample includes a chassis. Connected to the chassis is a tape path along which a tape with a matrix of wells can be automatically advanced through the instrument, a dispensing assembly for dispensing the biological sample and a reagent into the matrix of wells of the tape to form a biological sample and reagent mixture, a sealing assembly for sealing the biological sample and reagent mixture in the tape, and an amplification and detection assembly for detecting a signal from the biological sample and reagent mixture in the matrix of wells in the tape.