An analyzer system for in vitro diagnostics includes a sample handler module having a robot arm that delivers samples from drawers into carriers on a linear synchronous motor automation track. Samples are delivered via the automation track to individual track sections associated with individual analyzer modules. Analyzer modules aspirate sample portions directly from the sample carriers and perform analysis thereon.

A rack and lid for specimen containers is disclosed. The rack can include a top portion, a support, and a top portion. The top portion can include one or more clips configured to receive a specimen container. The rack can be configured to prevent the specimen containers from shifting and/or being damaged during transit. Other embodiments are disclosed herein.

One embodiment provides systems and methods for masking the effects of a flash on an operator including: a drawer system configured to receive a tray comprising one or more laboratory containers, wherein upon receiving the tray, the drawer system centers the tray underneath an image capture device; a flash device configured to activate, based on said centering, to illuminate the one or more laboratory containers; and an image capture device configured to capture an illuminated image of the one or more laboratory containers.

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.

A fully-automatic immunofluorescence quantitative analyzing apparatus and detection method belong to the field of quantitative immunofluorescence analysis and detection. The immunity quantitative analyzing apparatus includes a support baseplate, a reagent strip storage and automatic loading module, a cuvette ring module, a detection module, a sample module, a sample dispensing module, a washing module and a control system, the reagent strip storage and automatic loading module, the cuvette ring module, the detection module, the sample module, the sample dispensing module, the washing module being sequentially arranged on the support baseplate. The reagent strip storage and automatic loading module provides a reagent strip for the cuvette ring module, and the sample dispensing module dispenses the sample on the sample module to the cuvette ring module and performs a reaction, and the sample enters the detection module to complete the detection after the reaction is complete.

A method for supplying consumable items to an automated sample analyzer is presented. The automated analyzer comprises a consumable repository including two or more storage areas. Each area is configured to store a plurality of consumable items. The method comprises receiving one or more orders for analytical tests to be carried out by the analyzer, reserving consumable items corresponding to one or more sets of consumable items required for the analytical tests in a first area, switching to a second area for reserving consumable items in response to determining that a predetermined consumable item in the first area has been reserved, supplying the reserved consumable items for use in the one or more analytical tests and indicating that the first area can be replenished in response to determining that a particular consumable item of the first storage area has been used.

A reagent storage arranged at a predetermined position where predetermined work is able to be performed by a robot. The reagent storage cabinet includes: a container accommodating portion including an upper-surface opening portion and accommodating a reagent container; and a storage cabinet main body including a front-surface opening portion through which the container accommodating portion is put in and pulled out and a storage space communicating with the front-surface opening portion and accommodating the container accommodating portion. In an accommodated state that is a state where the container accommodating portion is accommodated in storage cabinet main body, the upper-surface opening portion of the container accommodating portion is sealed. In a pulled-out state that is a state where the container accommodating portion is pulled out from storage cabinet main body, the robot is able to directly access, from above, a reagent in the reagent container accommodated in the container accommodating portion.

[Object] To provide a slide tray having excellent practicality, convenience, and the like. [Solving Means] A slide tray includes a slide tray body having a first surface on which one or more slides can be mounted, and one or more first convex portions that protrude from the first surface of the slide tray body and set an area in which paper sheets can be mounted on the first surface while being held from one side in a first axis direction of two axis directions orthogonal to each other on the first surface.

A method for detecting properties of sample tubes is provided that includes extracting image patches substantially centered on a tube slot of a tray or a tube top in a slot. For each image patch, the method may include assigning a first location group defining whether the image patch is an image center, a corner of an image or a middle edge of an image, selecting a trained classifier based on the first location group and determining whether each tube slot contains a tube. The method may also include assigning a second location group defining whether the image patch is from an image center, a left corner of the image, a right corner of the image, a left middle of the image; a center middle of the image or a right middle of the image, selecting a trained classifier based on the second location group and determining a tube property.

Disclosed is a testing apparatus comprising a disposal container body comprising: a first opening portion that faces upward to receive a used test piece dropped by a test piece transfer part of the testing apparatus, wherein the test piece transfer part is configured to transfer the used test piece to the first opening portion; and a second opening portion that faces laterally to receive a liquid waste and to which an end of a discharge pipe of the testing apparatus is inserted, wherein the discharge pipe is configured to transfer the liquid waste to the second opening portion.