A laboratory system for a laboratory automation system is presented. The laboratory system comprises a sample container carrier. The sample container carrier is configured to carry a laboratory sample container and comprises a removal detector. The removal detector is configured to interact with the laboratory sample container to detect a removal of the carried laboratory sample container from the sample container carrier. Furthermore, the laboratory system is configured to determine based on the detected removal that a before valid logic assignment of the sample container carrier to the carried laboratory sample container is invalid.

A laboratory system for a laboratory automation system is presented. The laboratory system comprises a sample container carrier. The sample container carrier is configured to carry a laboratory sample container and comprises a removal detector. The removal detector is configured to interact with the laboratory sample container to detect a removal of the carried laboratory sample container from the sample container carrier. Furthermore, the laboratory system is configured to determine based on the detected removal that a before valid logic assignment of the sample container carrier to the carried laboratory sample container is invalid.

Disclosed are high-throughput vessel supply systems and methods of supplying sample vessels, such as samples stored in test tubes. A system for supplying a plurality of individual vessels that each contains a sample is disclosed.

Disclosed are high-throughput vessel supply systems and methods of supplying sample vessels, such as samples stored in test tubes. A system for supplying a plurality of individual vessels that each contains a sample is disclosed.

Disclosed are high-throughput vessel sorting systems and methods of sorting sample vessels, such as samples stored in test tubes. A system for sorting a plurality of individual vessels that each contains a sample is disclosed.

Disclosed are high-throughput vessel sorting systems and methods of sorting sample vessels, such as samples stored in test tubes. A system for sorting a plurality of individual vessels that each contains a sample is disclosed.

The disclosure relates to an incubation device and an automatic analysis device. The incubation device includes: an incubation unit (120) for incubating reaction containers (130) that contain a reactant or for buffering the cleaned and separated reaction containers (130), wherein the incubation unit (120) includes an incubation assembly (121) and an incubation driving assembly (122), the incubation driving assembly (122) is connected to the incubation assembly (121) so as to drive the incubation assembly (121) to move linearly along a third direction (30), and incubation positions (1211) for placing the reaction containers (130) are provided on the incubation assembly (121); and a transfer unit (110) for moving the reaction containers (130) into or out of the incubation unit (120), wherein the transfer unit (110) includes a pick-and-place assembly (112) and a pick-and-place driving assembly (111), the pick-and-place driving assembly (111) is connected to the pick-and-place assembly (112).

An automatic sample injection device is provided with a vial placement unit (2) configured to place a vial (10) thereon, a sampler (6) provided at a position different from a position of the vial placement unit (2), the sampler being configured to collect a liquid from the vial (10), a conveyance unit (4) provided with a gripper (14) for gripping the vial (10) from above, the conveyance unit being configured to convey the vial (10) between the vial placement unit (2) and the sampler (6), a target position setting unit (22) configured to execute a teaching mode for setting a target position at which the gripper (14) is to be placed when placing the vial (10) at a predetermined position, cause a user to perform positioning of the gripper (14) to a position to be the target position in the teaching mode, and set a position of the gripper (14) positioned by the user as the target position, and a control unit (20) configured to position the gripper (14) at the target position set by the target position setting unit (22) when placing the vial (10) at the predetermined position. The target position setting unit (22) is configured to execute, in the teaching mode, an auxiliary operation for visually assisting positioning of the gripper by the user when causing the user to perform positioning of the gripper (14) to a position to be the target position.

An automatic sample injection device is provided with a vial placement unit (2) configured to place a vial (10) thereon, a sampler (6) provided at a position different from a position of the vial placement unit (2), the sampler being configured to collect a liquid from the vial (10), a conveyance unit (4) provided with a gripper (14) for gripping the vial (10) from above, the conveyance unit being configured to convey the vial (10) between the vial placement unit (2) and the sampler (6), a target position setting unit (22) configured to execute a teaching mode for setting a target position at which the gripper (14) is to be placed when placing the vial (10) at a predetermined position, cause a user to perform positioning of the gripper (14) to a position to be the target position in the teaching mode, and set a position of the gripper (14) positioned by the user as the target position, and a control unit (20) configured to position the gripper (14) at the target position set by the target position setting unit (22) when placing the vial (10) at the predetermined position. The target position setting unit (22) is configured to execute, in the teaching mode, an auxiliary operation for visually assisting positioning of the gripper by the user when causing the user to perform positioning of the gripper (14) to a position to be the target position.

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.