A sample analyzer, comprising a sample storage region, a sample-drawing channel, and a transport mechanism; the sample storage region being provided with a plurality of storage channels; the sample-drawing channel is provided with a sample-drawing position; the transport mechanism comprises an engagement slot, an actuation mechanism and a first moving mechanism; the engagement slot and the actuation mechanism are fixed on the first moving mechanism, the actuation mechanism comprises an actuator and a second moving mechanism, the actuator is drivable by at least one of the first moving mechanism and the second moving mechanism to realize the movement of the sample holder between the storage channels and the engagement slot; during sample drawing, the first moving mechanism drives the engagement slot to move to the sample-drawing channel, the actuation mechanism enables samples to pass through the sample-drawing position and to make a stop for sample drawing.

Described is a chain including a plurality of links pivotally connected to each other such that the chain is configured to bend in one direction without back-bending. Each of the plurality of links including a link body include: an inner side facing a bending direction of the chain; an outer side facing opposite the bending direction of the chain; a back-bending prevention portion; a post feature extending laterally across the link body, and a connection feature configured to engage with the post feature of the first other of the pivotally connected plurality of links to create one direction pivotal attachment without back-bending between the links. Further disclosed is a chain system and methods of moving devices with a chain or chain system.

A nucleic acid diagnostic system includes a unit-dose reagent compartment storing at least one unit-dose pack, one or more unit-dose pack loading stations for holding a unit-dose pack at a location that permits a substance transfer device to dispense a reconstitution reagent into each well of the pack, a unit-dose pack distributor configured to transfer a unit-dose pack from the unit-dose reagent compartment to one of the unit-dose pack loading stations, and an electrostatic generator disposed within the housing of the unit-dose reagent compartment and/or adjacent the one or more unit-dose pack loading stations. The electrostatic generator imparts an electrostatic charge to each of the wells of the unit-dose pack and/or to a lyophilized reagent pellet within each well so that the electrostatic charge positions and holds each lyophilized reagent pellet at a bottom of each respective well of the unit-dose pack.

A sample identification system for an automated sampling device is described. A system embodiment includes, but is not limited to, a sample holder having a plurality of apertures configured to receive a plurality of sample vessels therein, the sample holder having one or more corresponding sample holder identifiers positioned proximate to the sample holder; and an identifier capture device configured to detect the one or more sample holder identifiers positioned proximate to the sample holder and generate a data signal in response thereto, the data signal corresponding to at least an orientation of the sample holder relative to a surface on which the sample holder is positioned.

An assembly includes a bracket, a magnetic elution slot, and a reagent pack loading station. The elution slot receives a multiple receptacle device having multiple receptacles interconnected by a connecting rib defining shoulders along either side of the receptacle device. The elution slot includes opposed walls attached to the bracket below a top surface of the bracket with the opposed walls disposed on either side of a slot formed in the bracket. The downwardly facing shoulders of the receptacle device are supported on the top surface of the bracket on opposed sides of the slot, and one or more magnets are attached to or embedded in one or both walls. The reagent pack loading station holds a multi-well reagent pack such that the wells of the reagent pack are accessible by a pipettor, and the reagent pack holding station includes spaced apart hold down features extending above the top surface of the bracket.

A system includes a reagent pack input carousel, a carousel frame supporting the carousel, and a track on which the carousel frame is supported for movement of the carousel into and out of an instrument in drawer-like fashion. The carousel is rotatable about an axis of rotation and includes a plurality of reagent pack input stations arranged about the perimeter of the carousel. Each input station is adapted to carry a reagent pack, and the input stations are oriented at an angle with respect to a radial orientation relative to the axis of rotation. Each input station includes an alignment block located at a radially inner end of the station, and the block is received within a recess formed in an end of the reagent pack placed in the station to align and position of the reagent pack within the station.

A system includes a reagent pack input carousel, a carousel frame supporting the carousel, and a track on which the carousel frame is supported for movement of the carousel into and out of an instrument in drawer-like fashion. The carousel is rotatable about an axis of rotation and includes a plurality of reagent pack input stations arranged about the perimeter of the carousel. Each input station is adapted to carry a reagent pack, and the input stations are oriented at an angle with respect to a radial orientation relative to the axis of rotation. Each input station includes an alignment block located at a radially inner end of the station, and the block is received within a recess formed in an end of the reagent pack placed in the station to align and position of the reagent pack within the station.

An assembly includes a bracket, a magnetic elution slot, and a reagent pack loading station. The elution slot receives a multiple receptacle device having multiple receptacles interconnected by a connecting rib defining shoulders along either side of the receptacle device. The elution slot includes opposed walls attached to the bracket below a top surface of the bracket with the opposed walls disposed on either side of a slot formed in the bracket. The downwardly facing shoulders of the receptacle device are supported on the top surface of the bracket on opposed sides of the slot, and one or more magnets are attached to or embedded in one or both walls. The reagent pack loading station holds a multi-well reagent pack such that the wells of the reagent pack are accessible by a pipettor, and the reagent pack holding station includes spaced apart hold down features extending above the top surface of the bracket.

A reagent pack changer includes a reagent pack input device, a reagent pack storage compartment, a reagent pack storage carousel disposed within the storage compartment, and a rotary distributor. The input device includes a reagent pack input carousel rotatable about an axis of rotation, with reagent pack stations for holding reagent packs disposed around the axis of rotation of the carousel. The reagent pack storage carousel is rotatable about an axis of rotation with reagent pack stations for holding reagent packs disposed around the axis of rotation. The rotary distributor is configured to move a reagent pack between the reagent pack input carousel and the reagent pack storage carousel.