The present invention provides a preprocessing device of a more compact structure, and an analysis system provided with the same. A preprocessing device (1) includes a container holding section (12), a filtration port (30), and a transport arm (24). The container holding section (12) holds a separation container (50) and a collection container (54). The filtration port (30) separates a sample by applying pressure to a sample in the separation container (50). The transport arm (24) transports the separation container (50) and the collection container (54) held by the container holding section (12) from a predetermined transport position. The container holding section (12) holds the separation container (50) and the collection container (54) in an annular or arch-shaped holding region formed on an outer circumference of the filtration port (30), and sequentially moves the separation container (50) and the collection container (54) to the transport position by shifting the separation container (50) and the collection container (54) in the circumferential direction of the holding region.

An automatic analyzer includes a plurality of storage container holding units, a dispensing container holding unit, a plurality of dispensing devices, a dispensing abnormality detector, and a drive control unit. The plurality of dispensing devices each include a dispensing probe. The dispensing abnormality detector is provided in each dispensing device. The drive control unit is configured to control driving of each dispensing device based on a detection result of the dispensing abnormality detector. If a dispensing device in which an abnormality is detected is a first dispensing device, the drive control unit is configured to cause a dispensing process of a cycle in which the abnormality is detected to be performed again. If the dispensing device in which the abnormality is detected is not the first dispensing device, the drive control unit is configured to end the dispensing process of the cycle and start the next cycle.

An automatic analysis device has a plurality of types of photometers having different quantitative ranges, and an analysis control unit for quantifying the desired component in specimens based on measurement values of one or more photometers selected from among the plurality of types of photometers. The analysis control unit: sets a switching region in an overlap region of respective quantitative ranges of the plurality of types of photometers, said switching region having a greater width than does the variation in quantitative values of the desired component based on the measurement values of photometers having the same specimen; compares the quantitative value of a quantitative range portion that corresponds to the switching region and the quantitative values of the desired component based on the measurement values of the photometers; and selects a photometer to be used in quantitative output of the desired component from among the plurality of types of photometers.

A measurement portion includes a containment unit including a plurality of containers containing a liquid, a dispensing unit including a dispensing probe for dispensing the liquid, and a gauging portion for gauging the liquid dispensed by the dispensing unit. An excessive immersion determination portion determines whether an immersion of the dispensing probe is excessive immersion that exceeds a predetermined range. An input portion can select and set an operation of the measurement portion to be performed after the excessive immersion determination portion determines that the immersion is excessive immersion from a plurality of modes. A measurement control portion controls the measurement portion depending on a mode set by the input portion.

There is provided an automatic analyzer and a control method of the automatic analyzer capable of coping with various operational environments. A storage unit 127 of an automatic analyzer 101 stores information on a priority of dispensing among various samples and information on a constraint condition of the priority of dispensing of the various samples. A control unit 128 controls, based on the information on the priority and the information on the constraint condition, an operation of a sample disk 102 and a sample dispensing mechanism 104 such that the samples are sequentially dispensed from a sample of a type having a highest priority while following the constraint condition.

The automatic analyzer includes a housing unit capable of housing a plurality of reagent bottles each of which has an IC tag on one surface of short-side side surfaces thereof, an antenna used to communicate with the IC tag, a detector that detects the presence or absence of a reagent bottles, and a control unit. The housing unit includes a housing container cooled by a cooling machine, a heat insulating material, a reagent tray provided with a plurality of reagent bottle holding portions that hold the reagent bottles, a disk rotatably holding the reagent tray, and a driving unit driving the disk, and when it is unable to communicate with the IC tag of the reagent bottle installed in the reagent bottle holding portion where the reagent bottle is detected by the detector, the control unit determines that the reagent bottle is installed in a reverse direction.

A magazine insert for a pneumatic tube conveyor capsule for receiving sample tubes filled with bodily fluids includes a magazine drum, a fastening unit, a slider and a catch element. The magazine drum has a plurality of receiving chambers for the sample tubes. The fastening unit is pivotable about the longitudinal axis from a fastening position to a release position. The slider in the central recess of the magazine drum is slidable in axial direction from a first functional position bidirectionally to a respective second functional position relative to the magazine drum. The catch element is fastened to the slider and extends in radial direction into a control cam of the fastening unit. A pivoting of the fastening unit from the fastening position to its release position can be effected by transferring the slider to its corresponding second functional position.

A Raman silent substrate includes a base and a biologically compatible material layer over the base. The biologically compatible material layer is Raman silent, provides a predetermined capture efficiency corresponding to a desired application, and supports biological culturing. In certain implementations, the base comprises a glass layer and an aluminum layer between the glass layer and the biologically compatible material layer.

A gas chromatographic system includes a gas chromatographic (GC) subsystem and an autosampler. The autosampler includes a carrier including a plurality of seats and a plurality of sample holders disposed in respective ones of the seats. Each of the sample holders includes: a container defining a chamber configured to hold a sample; and visible indicium on the container; wherein the container is positioned in its seat such that the visible indicium is visible. The autosampler further includes an optical sensor, a controller, at least one mirror, and a sampling system. The optical sensor is configured to read the visible indicia and to generate an output signal corresponding thereto. The controller is configured to receive the output signal. The at least one mirror is arranged and configured to simultaneously reflect images of the visible indicia of a set of the sample holders in the seats to the optical sensor. The sampling system to configured to extract an analyte from at least one of the sample holders and transfer the extracted analyte to the GC subsystem.

Provided are: a connection device with which it is possible to improve the degree of freedom in positioning of an analysis device that analyzes a specimen; and an automated system for inspecting a specimen, the system comprising the connection device. A connection device for connecting a specimen transport device that transports a specimen container in which a specimen is accommodated and an analysis device that analyzes the specimen, the connection device being characterized by comprising: a carousel that transports a specimen carrier, on which the specimen container is placed, during a prescribed interval; a grip part positioned inside the carousel, the grip part gripping the specimen container at a specimen collection position, which is a position at which the specimen is collected; and a housing that covers the carousel, the connection device also being characterized in that the specimen collection position is above the transport path of the carousel and is positioned within a prescribed distance from the housing.