A slide output module for an automated treatment apparatus for treating tissue samples disposed on slides, the slide output module comprising: a slide output tray assembly comprising a slide output tray adjacent to a slide output cover forming one or more voids between the slide output tray and the slide output tray cover for receiving slides therein, wherein the slide output tray cover comprises a first side with a fluid inlet in communication one of the voids, and a second side configured to form a hydration chamber with a slide in said one of the voids to maintain hydration of the slide with fluid received from the fluid inlet for a designated time following treatment of the slide by the automated staining apparatus.

A storage system for storing material such as sample tube caps comprises a drawer with a reservoir, the drawer being movable between a first position and a second position. A storage container is arranged below the reservoir of the drawer when the drawer is arranged in the first position. A transport device is configured to retrieve material from the storage container and to transport the material out of the storage container. Therein, the reservoir of the drawer comprises a bottom with at least one closable opening.

According to an embodiment, a detection apparatus includes an inclination sensor arranged to be capable of inclining according to an outer shape of a specimen container, the inclination sensor configured to detect inclination information, and an information processor configured to detect posture information of the specimen container based on the inclination information.

The sample plate has a principal plane in which a plurality of wells is arranged. The sample plate has a plurality of through-holes each allowing a sampling needle to pass through in a region of the principal plane where the wells are not provided, and positions of the wells and positions of the through-holes are designed such that when two pieces of the sample plates are arranged up and down with a predetermined positional relationship in a state in which respective principal planes are arranged in parallel each other, the through-holes of the sample plate arranged on an upper side is arranged at positions directly above respective wells of the sample plate arranged on a lower side.

A fluid container holder includes a body having a receptacle configured to receive a container. The body has a conductive outer surface for connection to an electrical ground or voltage source, and the holder is not formed solely of an electrically conductive metal. A fluid container handling assembly includes a drawer having a holder supporting a fluid container, and a frame supporting the holder. The frame is movable between a first position providing access to the holder and a second position positioning the holder within the instrument. The assembly also includes a first lock securing the holder to the frame when the frame is at the first frame position and unlocking the holder from the frame when the frame is at the second frame position. The assembly also includes a holder transporter configured to move the holder between a first holder position and a second holder position within the instrument.

An automated analyzer capable of continuously performing supply of consumables is realized while continuing measurement is performed, by a simple and small amount of mechanism. An automated analyzer includes a unit that executes processing necessary for sample analysis; a consumable supply unit that supplies consumables necessary for the sample analysis to the unit; and a control device that controls operations of the unit and the consumable supply unit, in which the consumable supply unit includes a consumable container holding portion that holds a consumable storage container in which consumables is aligned and accommodated, a preliminary storage portion that temporarily holds the consumables taken out from the consumable storage container, and a transport mechanism that transports the consumables to the unit, and in which the control device transports and stores at least a portion of the consumables taken out from the consumable storage container in the preliminary storage portion.

Disclosed is a container rack configured to hold a plurality of containers, the container rack configured to be installed in a rack installation portion of a specimen analysis device, the container rack comprising: a holding portion including a plurality of holding holes through which body portions of the containers pass and which hold head portions of the containers; and a leg portion configured to support the holding portion, the leg portion provided from the holding portion to below the containers held in the holding holes, wherein the leg portion is configured such that the containers in the holding holes are exposed in a bottom view, and wherein the container rack is configured such that when the container rack is installed in the rack installation portion of the specimen analysis device, movement of the containers held in the holding holes is restricted by the rack installation portion.

The present invention relates to a sample diluting and dispensing device. The sample diluting and dispensing device according to the present invention includes: a sample holding plate in which a holding part for holding a plurality of sample vessels is formed; a moving unit for transferring the sample holding plate in a plane direction and a height direction; a sample supply unit for supplying a sample to the sample vessel; a diluent supply unit for supplying a diluent to the sample vessel; a scale installed below the sample holding plate to measure a weight of the sample vessel; and a controller for receiving a weight measurement result from the scale and controlling an operation of each of the sample holding plate, the sample supply unit, and the diluent supply unit.

The present invention relates to an apparatus (1) for controlling the temperature of a sample carrier (2), and to an automatable laboratory workplace comprising an apparatus (1) according to the invention. The apparatus comprises a heating device (2) having a heater (3) and a movable heating cover (6), which is arranged over the receiving region of the heater (3) and is designed to press the sample carrier (4) in a heating position (H) into the receiving region (3a) of the heater (3) with a predefinable contact pressure, and a transport device (8), which is designed to introduce the sample carrier (3) into the apparatus (1) from an insertion position (E) outside the apparatus (1). According to the invention, the transport device (8) comprises a loading unit (9), which comprises a receiving unit (10) for receiving the sample carrier (4) and is movable between an insertion position (E) and an intermediate position (Z), in which the sample carrier (4) is situated inside the apparatus (1) and above the receiving region (3a) of the heater (3). The transport device (8) is arranged and/or designed in such a way that at least the sample carrier (4) is movable from the intermediate position (Z) into the heating position (H) by means of a movement of the heating cover (6). In addition, the transport device (8) comprises at least one return element (11), which is designed to move at least the sample carrier (4) from the heating position (H) back into the intermediate position (Z).

A sample storage device may include: a storage chamber; paired rail sections separated in separating direction and extending in an extending direction; an antenna array substrate extending between the rail sections and having antennas; paired slide sections separated from each other in the separating direction and disposed at a position opposite to the antenna array substrate with respect to the rail sections and, so as to be slidable in the extending direction relative to the rail sections, respectively; a support plate transparent to radio waves, extending between the slide sections; and a storage box containable a plurality of containers each holding a sample and a radio tag, the storage box to be set on the support plate such that radio waves can be transmitted between the radio tag and corresponding one of the plurality of antennas.