The present invention provides a device capable of conducting magnetic solid-phase extraction, including a framework assembly. The framework assembly includes a platform assembly and an electrical cabinet assembly. The electrical cabinet assembly is disposed below the platform assembly, and an electric assembly is packaged in an electrical cabinet of the electrical cabinet assembly. The electric assembly is disposed independent from the platform assembly. Data wires connected to the electric assembly and the platform assembly are placed in the framework frame or a sheet metal structure, preventing reagents and operations on the platform assembly from polluting or affecting the electric assembly. The present invention designs a magnetic solid-phase extraction device. Pretreating samples in a manner of magnetic solid-phase extraction simplifies the extraction process, reduces the processing costs of the device, and overcomes negative effects caused by some other extraction methods in the background.

A sample rack includes a housing that has multiple spaces or compartments each for receiving and retaining sample containers of various sizes. The sample rack includes dual hooks on the ends for engaging a sample rack handling system. Chamfers formed in the housing of the sample rack assist in placing and removing the sample rack from a sample rack handling system. The sample tube rack also includes a handle that extends upward from one end and includes gripping features. A groove and bar, incorporated into each sample rack, are able to selectively interlock with adjacent racks to assist in lifting multiple sample racks together.

The invention concerns a laboratory product transport element for a laboratory transport system with an energy receiver and/or energy accumulator to provide drive power, at least one signal receiver to receive control signals, a control unit to generate drive signals as a function of at least one control signal obtained from the at least one signal receiver, movement devices for independent movement of the laboratory product transport element on a transfer path as a function of the drive signals of the control unit, in which the drive devices are driven by the drive power and at least one holder to hold a laboratory product being transported. The invention also concerns a laboratory transport system with at least one laboratory product transport element according to an embodiment of the invention and a transfer path arrangement. The invention also concerns methods for operation of laboratory transport systems according to an embodiment of the invention.

An automation system for use with in vitro diagnostics includes a track configured to provide one or more paths and a plurality of payload carriers having payload carrier types. One or more of the plurality of payload carrier types has a different payload carrier dimension in a direction of travel than another payload carrier type. The system includes a plurality of carriers configured to move along the track in the direction of travel. Each of the plurality of carriers has a substantially identical carrier dimension in the direction of travel and configured to hold any one of the plurality of payload carrier types. The system includes a controller configured to navigate the plurality of carriers along the track based on at least one of: (i) the substantially identical carrier dimension in the direction of travel; and (ii) one or more of the different payload carrier dimensions in the direction of travel.

A liquid handling unit comprising: a sample unit (5) with a carrier (560) for laboratory containers (561), a liquid transfer unit (3,4) for dispensing liquid into some off the laboratory containers (561) and/or for extracting liquid from the laboratory containers (561), wherein the liquid transfer unit (3,4) being arranged above the sample unit (5) and having a holder (41) for dispensing means (43) and/or extracting means that can be raised and lowered, wherein positioning pins (46,47) being arranged on the holder (41) and positioning holes (54,55) being formed in the carrier (560), wherein with raised holder (41), the carrier (560) can pass freely below the positioning pins (46,47) in a horizontal direction and wherein with lowered holder (41), the positioning pins (46,47) can be arranged fittingly in the positioning holes (54,55).

Provided is an automatic analyzer in which a linear movement unit and a rotational movement unit that access to a same location can be arranged in a same plane. The automatic analyzer includes a linear movement unit configured to access to an access point by a linear movement, a rotational movement unit configured to access to the access point by a rotational movement, and a control unit configured to control an operation of the linear movement unit and the rotational movement unit so that the linear movement unit and the rotational movement unit do not interfere with each other.

The invention concerns a laboratory product transport element for a laboratory transport system with an energy receiver and/or energy accumulator to provide drive power, at least one signal receiver to receive control signals, a control unit to generate drive signals as a function of at least one control signal obtained from the at least one signal receiver, movement devices for independent movement of the laboratory product transport element on a transfer path as a function of the drive signals of the control unit, in which the drive devices are driven by the drive power and at least one holder to hold a laboratory product being transported. The invention also concerns a laboratory transport system with at least one laboratory product transport element according to an embodiment of the invention and a transfer path arrangement. The invention also concerns methods for operation of laboratory transport systems according to an embodiment of the invention.

The invention concerns a laboratory product transport element for a laboratory transport system with an energy receiver and/or energy accumulator to provide drive power, at least one signal receiver to receive control signals, a control unit to generate drive signals as a function of at least one control signal obtained from the at least one signal receiver, movement devices for independent movement of the laboratory product transport element on a transfer path as a function of the drive signals of the control unit, in which the drive devices are driven by the drive power and at least one holder to hold a laboratory product being transported. The invention also concerns a laboratory transport system with at least one laboratory product transport element according to an embodiment of the invention and a transfer path arrangement. The invention also concerns methods for operation of laboratory transport systems according to an embodiment of the invention.

An analyzer for use with in vitro diagnostics includes an automation system to move a plurality of sample carriers within the system. At least some carriers include a plurality of slots. Each slot is configured to hold one of a plurality of fluid containers. The system also includes a place and pick device configured to place the plurality of fluid containers into the plurality of slots and remove the plurality of fluid containers from the plurality of slots. The system further includes a controller configured to place mother sample tubes along with empty sample tubes into the same carrier and move the carrier to an existing pipettor within the analyzer to aliquot a sample portion of the mother sample into the empty daughter tubes to create aliquots for certain samples without requiring a standalone aliquoting station or substantially disrupting the normal flow of sample tubes within the automation system.

A segmented sample handling tray includes a plurality of sample handling segments, each sample handling segment includes a plurality of sample positions for sample containers; wherein the segmented sample handling tray transitions between a compact two-dimensional array configuration and an extended linear configuration by at least partially separating the plurality of sample handling segments.