A sample measurement system includes: a measurement unit that measures a sample stored in a sample container; a transport unit that transports a rack capable of holding sample containers via the measurement unit; a first transport-in/transport-out unit and a second transport-in/transport-out unit in each of which racks can be set alongside in a first direction, and that send the set racks to be transported to the measurement unit and receive the racks transported from the measurement unit; and a controller that controls the first transport-in/transport-out unit and the second transport-in/transport-out unit so that the racks are sequentially sent from the first transport-in/transport-out unit and the second transport-in/transport-out unit. The first transport-in/transport-out unit and the second transport-in/transport-out unit are disposed alongside in a second direction crossing the first direction, and each send the racks from one side in the first direction, and receive the racks from the other side.

A sample measurement system may include: a measurement unit that measures a sample in a sample container; a transport unit that transports a rack that can hold sample containers, via the measurement unit; a collection unit that is detachably provided with a tray in which racks can be set, and that collects the rack transported from the measurement unit by the transport unit and sets the rack in the tray; a storage that stores sample identification information, rack identification information, and tray identification information in association with each other; an input part; a display part; and a controller that, in a condition in which the input part receives input of the sample identification information or the rack identification information, causes the display part to display the tray identification information stored in association with the inputted sample identification information or the inputted rack identification information.

[Object] To provide a mixing device capable of accurately mixing a solution in a multi-well plate.

[Solving Means] A mixing device 1 is configured to be attachable to a multi-well plate 30 and includes a casing 100, a plurality of stirrers 11, a plurality of motors 12 as a drive portion, and a mounting portion 16. The casing 100 includes a main surface portion 101 facing an upper surface 301 of the multi-well plate 30. The stirrers 11 protrude from the main surface portion 101 toward wells 31 of the multi-well plate 30. The motors 12 are disposed to the casing 100 and rotate the stirrers 11 about axes thereof. The mounting portion 16 is provided to the casing 100 and is mounted to the multi-well plate 30 to position the casing 100 on the multi-well plate 30.

Provided are an automated analyzer for analyzing a substance contained in an unknown sample and a liquid reservoir, the analyzer and the reservoir being capable of saving users' operation without remarkably increasing the number of components. A flow path outlet of an overflow portion of the liquid reservoirs projects closer to the inner circumferential side of a drain flow path than to an inner circumferential surface side of an outer wall of the drain flow path serving as a destination to which liquid overflows. In addition, the flow path outlet projects so as to come into contact with an outer wall of the inner pipe. The flow path outlet of the overflow portion projects into the drain flow path so as to be located below an upper end of the outer wall of the drain flow path.

A point-of-care testing (POCT) fully-automatic chemiluminescence device based on a multi-channel parallel pretreatment technology includes a support. The support is provided thereon with a reaction chamber assembly, which reciprocates linearly relative to the support. A multi-channel parallel pretreatment assembly and a photomultiplier tube (PMT) assembly are arranged on the support and are located above the reaction chamber assembly. The multi-channel parallel pretreatment assembly is configured to transfer, clean, and separate reagents in reagent strips in the reaction chamber assembly. The PMT assembly is configured to detect a luminescence value of the cleaned and separated reagents. The device does not have a liquid passage, resulting in low maintenance costs and high reliability. This realizes automatic sample addition, supports whole blood testing, and avoids carry-over. The device solves the problems in the traditional POCT chemiluminescence device of manual sample addition, cumbersome steps, and human errors which are easily made.

Disclosed is a container transfer method for transferring a container from a container holder capable of holding a plurality of containers, by using a holding section capable of performing an opening/closing operation, vertical movement, and horizontal movement. The method includes: moving the holding section downward to a position lower than a head portion of the container, at a position where the container is not held in a plan view; horizontally moving the holding section in an opened state, toward a target container on the container holder; after the horizontal movement of the holding section to the target container, closing the holding section with respect to the target container; and moving upward the holding section in a closed state.

The present invention is directed to a system and method for load balancing specimen containers between a plurality of automated detection apparatuses. The method may include receiving a specimen container at a container pick-up station in a first automated detection apparatus; determining loading ability, transfer status, and cell availability of the first automated detection apparatus and one or more downstream automated detection apparatuses; and transferring the specimen container from the first automated detection apparatus to a downstream automated detection apparatus when a first ratio of effective available cell count to effective capacity in the first automated detection apparatus is less than a second ratio of total effective available cell count to total effective capacity of a sum of the first automated detection apparatus and the one or more downstream automated detection apparatuses.

The present disclosure relates to a cuvette box conveying device, a cuvette box conveying method, and a sample analyzer. The cuvette box conveying device includes a frame. The frame includes a new box placing position and a waste box recycling position. The new box placing position and the waste box recycling position are arranged on different layers in the direction of Z axis, so as to reduce the space occupied by the new box placing position and the waste box recycling position on an XY plane. In the cuvette box conveying device, the space occupied by the new box placing position and the waste box recycling position on the XY plane is reduced by arranging the new box placing position and the waste box recycling position on different layers in the direction of Z axis.

[Problem] To ensure that a fluid is prevented from overflowing from a well and exposing the user to a biohazard. [Solution] A cartridge for use in measuring a component to be measured contained in a fluid includes a recessed well, formed for storing the fluid, the well including: a lower barrel portion that defines a lower space having a closed bottom; and an upper barrel portion that is formed above the lower barrel portion and defines an upper space having an opening on the top end, wherein a step portion is formed between the lower barrel portion and the upper barrel portion, the step portion being formed on an inner wall surface of the well and defining a step that continuously connects the inner wall surface of the lower barrel portion and the inner wall surface of the upper barrel portion.

The present invention facilitates comprehension of the actual positions of constituent units of a sample measurement system regardless of a direction in which a user faces. The present invention provides a display device (6, 60) for displaying information about a sample measurement system (1) for measuring a sample, a display unit (509), a display control unit (101) that displays an image indicating an arrangement of a predetermined part of the sample measurement system on the display unit, and a receiving unit (102, 105) for receiving information on a display direction when displaying the arrangement of the predetermined part, wherein the display control unit (101) changes a display direction of the arrangement of the predetermined part according to the information. According to this aspect, the invention provides a display device (6, 60) for changing a display direction when displaying an arrangement of a predetermined part in the sample measurement system in accordance with a display direction in the received information.