The invention discloses a reaction incubation device, an immunity analyzer and a reaction incubation method. The reaction incubation device comprises a reaction unit (10), which is used for bearing and incubating a reaction container; and a transfer unit (20), which is used for removing the reaction container in and out of the reaction unit (10). The reaction unit (10) comprises a rotating device (11). The rotating device (11) is provided with an incubation position which increases a predetermined angle θ at an interval of fixed time T along with the rotating device (11). The transfer unit (20) removes the reaction container out of the incubation position according to variable incubation time ti. With the device, flexible and variable incubation time can be achieved, and the problem of complicated control, low reliability and that high-speed automation is not easy to achieve in the prior art can be solved.

The present invention reduces the turnaround time of an automated analyzer. During a period when cyclic measurement by a measurement unit is unnecessary, a controller washes a reaction vessel using a washing cycle having a cycle time shorter than that of an analysis cycle. A single analysis cycle and a single washing cycle both include a reaction disc stopping period and rotation period. In the washing cycle, there is no time during the stopping period when a sample dispensing mechanism, reagent dispensing mechanism, or stirring mechanism operates but there is a time when a washing mechanism operates. The washing cycle stopping period is shorter than the analysis cycle stopping period. The amount of rotation of the reaction disk in the analysis cycle rotation period is the same as the amount of rotation of the reaction disk in the washing cycle rotation period.

According to one embodiment, an automatic analyzing apparatus includes a feeder and a mixer unit. The feeder is configured to feed a first liquid and a second liquid. The mixer unit includes an inflow part, an internal space, and an outflow part. The mixer unit is configured so that the first liquid and the second liquid fed from the feeder enter through the inflow part, the first liquid and the second liquid entering through the inflow part flow inside the internal space, and the first liquid and the second liquid flowing inside the internal space exit through the outflow part according to an inflow entering through the inflow part.

One aspect of the present invention provides a nucleic acid extraction device. The nucleic acid extraction device includes a container which stores each of a cleaning solution and an eluting solution, a water level sensor configured to detect amounts of the cleaning solution and the eluting solution which are stored in the container, a tube sensor configured to sense a sample tube disposed on a sample tube accommodation portion, and an operation initiation portion configured to determine whether the cleaning solution and the eluting solution which are necessary for a nucleic acid extraction operation are provided on the basis of the number of such sample tubes which is sensed by the tube sensor and the amounts of the cleaning solution and the eluting solution which are sensed by the water level sensor.

Provided is an automatic analysis device capable of replenishing consumables without loss of a specimen and without stopping analysis. The state of an automatic analysis device 100 includes a replenishment prohibition state in which replenishment of consumables (reaction vessel 8, specimen dispensing tip 10a and external reagent vessels 21a, 21b, 21c) is prohibited, and a replenishment permission state in which replenishment of consumables is permitted. In the replenishment prohibition state, a specimen dispensing mechanism 10 performs dispensing, and detection units 18a and 18b perform analysis. In the replenishment permission state, the specimen dispensing mechanism 10 does not perform dispensing, and the detection units 18a and 18b perform analysis. A device state control unit 119d causes the automatic analysis device 100 to transition to the replenishment permission state when the remaining amount or the remaining number of the consumables predicted by a consumables remaining amount prediction unit 119b becomes equal to or less than a predetermined value.

The present invention provides a nucleic acid analysis device that, even when a plurality of flow cells is handled, does not require an increase in the required movement amount, and can be reduced in size by reducing the size of a stage mechanism. This nucleic acid analysis device is characterized by having a sample container containing a nucleic acid sample to be analyzed, an imaging means for observing the nucleic acid sample, and a stage mechanism for moving the sample container, and is characterized in that the stage mechanism has two translation means and at least one rotation means, one of the two translation means is disposed on the upper surface of the rotation means, and the other is disposed on the lower surface of the rotation means.

A sample processing station includes two or more container holders on a platform that is rotatable about a central axis of rotation. Each holder is configured to rotate about a secondary axis of rotation. The station includes a capping/decapping mechanism to cap or decap a container held in one of the container holders and an elevator with a chuck guide that contact the container holder as the chuck is lowered by the elevator to positon the chuck with respect to the cap of the container held in the holder and to hold jaws of the container holder in a closed position. In embodiment, the chuck guide includes a yoke with opposed arms and spindles located near distal ends of the arms that engage beveled shoulders of the container holder.

Disclosed is a fraction collector for dispensing liquids into plural receptacles (P1,P2) arranged in a two dimensional array. The fraction collector comprises a table (22) for supporting said receptacles, and an arm supported above the table, in tum supporting a liquid dispenser (35), the fraction collector arm is rotatable about an arm axis (C) and the liquid dispenser is movable along the arm on a carriage 34 (FIG. 2). Thereby, the dispenser is low cost and is repositionable simply above the receptacles as a result of said rotation and as a result of said movement along the arm, without occupying too much laboratory bench space.

A method for the distribution of supports impregnated with antibiotics, includes a step of positioning of a plurality di tubular containers, each one containing a plurality of supports impregnated with antibiotics and stacked, in a corresponding plurality of seats of a dispenser. Extraction of at least a first support from a first container is performed using an extractor, the step of extraction being performed in correspondence of an upper end of the first container and comprising a movement of the first support between a first position inside of the first container and a second position extracted from the first container, said first position and said second position lying substantially in correspondence of an upper surface of the dispenser. Collection of the first support from the second position is performed using a collector Transportation of the first support towards a culture plate by the collector is performed.

Described is an automated analyzer capable of effectively cleaning a dispensing probe without using a sweeping cleaning member. The automated analyzer includes: a receptacle holding portion for holding a plurality of receptacles in which aliquots of liquid are stored, an immersion cleaning solution holding portion for storing an immersion cleaning solution, an aliquot dispenser equipped with a drive mechanism for holding a dispensing probe operative to collect the aliquots of liquid from the receptacles, a measurement controller for controlling the drive mechanism and the dispensing probe such that the aliquots of liquid are successively collected at given cycles from the receptacles, and an immersion cleaning controller for controlling the drive mechanism and the dispensing probe such that an immersion cleaning operation is carried out for an immersion time that is at least twice as long as the period of each of the given cycles.