A scheduling system includes a receiving system and a transfer system. The receiving system receives a carrier carrying a biological sample. The transfer system transfers the sample carrier between biochemical reaction platform and detection platform, so that a sample in the sample carrier performs a biochemical reaction on the biochemical reaction platform, and a signal from the reacted sample can be detected on the detection platform. The present disclosure further provides a scheduling method, a scheduling control system, a biochemical analysis system and device, and a computer-readable storage medium. The present disclosure improves a degree of automation of sample carrier scheduling, and realizes simultaneous analysis of multiple sample carriers to improve a testing throughput.

To provide a simple-structured low-temperature storage system capable of carrying storage objects to a full capacity on a tray and of reliably transferring storage objects without the necessity for a camera to check the positions of a rack or storage objects. The low-temperature storage system includes a storage area inside a low-temperature storage chamber for storing storage objects, and a picking area where a positioning device is disposed to allow storage objects to be carried in and out. The positioning device includes a rack fixing unit that fixes a rack, a tray fixing unit, and a drive mechanism. The rack fixing unit includes a rack pressing member that presses the rack, and a rack motion restricting member that restricts movements of the rack. The tray fixing unit includes a tray pressing member that presses the tray, and a tray motion restricting member that restricts movements of the tray.

To provide a simple-structured low-temperature storage system capable of carrying storage objects to a full capacity on a tray and of reliably transferring storage objects without the necessity for a camera to check the positions of a rack or storage objects. The low-temperature storage system includes a storage area inside a low-temperature storage chamber for storing storage objects, and a picking area where a positioning device is disposed to allow storage objects to be carried in and out. The positioning device includes a rack fixing unit that fixes a rack, a tray fixing unit, and a drive mechanism. The rack fixing unit includes a rack pressing member that presses the rack, and a rack motion restricting member that restricts movements of the rack. The tray fixing unit includes a tray pressing member that presses the tray, and a tray motion restricting member that restricts movements of the tray.

Systems and methods for analysis of a whole blood sample from an individual to determine the platelet function and coagulation status of the individual in a substantially automated and efficient matter. Also provided here are systems, reagent kits, and methods for concurrent assessment of platelet function and coagulation as they interact during hemostasis.

Systems and methods for analysis of a whole blood sample from an individual to determine the platelet function and coagulation status of the individual in a substantially automated and efficient matter. Also provided here are systems, reagent kits, and methods for concurrent assessment of platelet function and coagulation as they interact during hemostasis.

The present patent of invention relates to a reader device for biological samples used in the field of remote laboratory tests (TLR), for clinical diagnostic purposes, based on an optimized design constituted by a cowling (C) with inlet port (OE) and with switch (I); by a holding support (SS) containing a mirror (ES), two batteries (BT), two reading illumination arrays (BIL), operational status illumination arrays (BIS) and an elevator support (SE); by an elevator (EL); by an electronics board (PE) with energy loading circuit (PE-1), with supply circuit (PE-2), with processor (PE-3), with Bluetooth® device (PE-4) and with position sensor (PE-5); and by a base (BA) with software that reads various types of biological samples, the present invention providing the advantages of: ease of use, optimized operating flows, ease of training, modularity, compactness, reduced size, portability, lightness of weight, ergonomic design, used-friendliness, enhanced practically and low cost.

The present patent of invention relates to a reader device for biological samples used in the field of remote laboratory tests (TLR), for clinical diagnostic purposes, based on an optimized design constituted by a cowling (C) with inlet port (OE) and with switch (I); by a holding support (SS) containing a mirror (ES), two batteries (BT), two reading illumination arrays (BIL), operational status illumination arrays (BIS) and an elevator support (SE); by an elevator (EL); by an electronics board (PE) with energy loading circuit (PE-1), with supply circuit (PE-2), with processor (PE-3), with Bluetooth® device (PE-4) and with position sensor (PE-5); and by a base (BA) with software that reads various types of biological samples, the present invention providing the advantages of: ease of use, optimized operating flows, ease of training, modularity, compactness, reduced size, portability, lightness of weight, ergonomic design, used-friendliness, enhanced practically and low cost.

The automatic analyzer includes a light source 4a to perform measurement, a spectrophotometer 4, a reagent disk 9 to store a reagent bottle 10 in which the reagent is stored, a carriage device to carry the reagent bottle 10 to the reagent disk 9, a reagent preparation unit to perform preparatory operations required before the regent bottle 10 is used, and a control unit 21 to schedule the preparatory operations by the reagent preparation unit and the carriage operation by the carriage device such that the reagent bottle 10 is carried to the reagent disk 9 immediately after an operation accompanied with analysis by the light source 4a and the spectrophotometer 4 is suspended or ends.

A sample rack includes a placement table having an upper surface for placing at least one sample plate thereon, a handle portion holding a proximal end portion of the placement table, the handle portion having a lower end portion positioned lower than a lower surface of the placement table when the upper surface is leveled, and a leg portion attached to the placement table to take a protruding posture in which the leg portion is protruded downward from the lower surface and a storage posture in which the leg portion is not protruded downward from the lower surface. The leg portion is configured to support the sample rack to maintain the upper surface substantially horizontally in cooperation with the lower end portion of the handle portion when the sample rack is placed on a substantially horizontal surface with the leg portion taking the protruding posture.

A sample rack includes a placement table having an upper surface for placing at least one sample plate thereon, a handle portion holding a proximal end portion of the placement table, the handle portion having a lower end portion positioned lower than a lower surface of the placement table when the upper surface is leveled, and a leg portion attached to the placement table to take a protruding posture in which the leg portion is protruded downward from the lower surface and a storage posture in which the leg portion is not protruded downward from the lower surface. The leg portion is configured to support the sample rack to maintain the upper surface substantially horizontally in cooperation with the lower end portion of the handle portion when the sample rack is placed on a substantially horizontal surface with the leg portion taking the protruding posture.