The present invention provides a capping system used for samples before occurrence of biological thermal reaction, which comprises plurality of reaction tubes, a plurality of suckers, and a plurality of pushing rod. Each of the plurality of reaction tubes comprises an opening end. The plurality of suckers is used to suck a plurality of caps and move the plurality of caps to the opening end of the plurality of reaction tube. The plurality of pushing rob is used to push the plurality of caps into the opening end of the plurality of reaction tube.

The invention relates to an arrangement for preparing a plurality of samples for an analytical method, comprising a carousel with a solid housing and moveable receiving parts for the sample containers; a control for controlling the receiving parts in the carousel; and a sample receiving device for providing the sample for the analytical method. Said arrangement is characterized in that one or more stations for preparing samples are provided on the carousel, the receiving parts for the sample containers of the carousel can be positioned on said stations. Said arrangement also comprises a centrifuge with pairs of opposite lying receiving parts provided for the sample containers, and said receiving parts are arranged such that they can move on the centrifuge for the sample holder such that a transfer of a sample holder between a receiving part in the carousel and a receiving part in the centrifuge can be carried out. The control takes place by the same control which is also provided for controlling the carousel.

The invention relates to an arrangement for preparing a plurality of samples for an analytical method, comprising a carousel with a solid housing and moveable receiving parts for the sample containers; a control for controlling the receiving parts in the carousel; and a sample receiving device for providing the sample for the analytical method. Said arrangement is characterized in that one or more stations for preparing samples are provided on the carousel, the receiving parts for the sample containers of the carousel can be positioned on said stations. Said arrangement also comprises a centrifuge with pairs of opposite lying receiving parts provided for the sample containers, and said receiving parts are arranged such that they can move on the centrifuge for the sample holder such that a transfer of a sample holder between a receiving part in the carousel and a receiving part in the centrifuge can be carried out. The control takes place by the same control which is also provided for controlling the carousel.

An instrument for processing a biological sample includes a chassis. Connected to the chassis is a tape path along which a tape with a matrix of wells can be automatically advanced through the instrument, a dispensing assembly for dispensing the biological sample and a reagent into the matrix of wells of the tape to form a biological sample and reagent mixture, a sealing assembly for sealing the biological sample and reagent mixture in the tape, and an amplification and detection assembly for detecting a signal from the biological sample and reagent mixture in the matrix of wells in the tape.

Embodiments of systems and methods for automated sample handling are disclosed. In an example, a system for automated sample handling includes reaction wells, a magnet, a magnetic manipulator, and a punch. The reaction wells are configured to each hold a reagent and collectively move horizontally. A first reaction well holds magnetic beads, and a second reaction well is partitioned by a seal. The magnet is configured to move vertically and capture the magnetic beads on a bottom surface of the first reaction well when moving to an upper position beneath the first reaction well. The magnetic manipulator is configured to manipulate the magnetic beads and includes a magnetic rod configured to move vertically to be above or in the first reaction well and a sheath below the magnetic rod and configured to move vertically and receive the magnetic rod. The punch is configured to move vertically and break the seal of the second reaction well when moving to a lower position in the second reaction well.

Disclosed is a reagent container rack used in a specimen analyzer configured to analyze a specimen by use of a reagent. The reagent container rack includes a holder configured to hold a reagent container that contains the reagent; and a lid configured to cover a mouth portion of the reagent container to form an airtight space between the lid and the mouth portion.

The purpose of the present invention is to stably hold the lid of a reagent container in an open state without being influenced by reagent container lid opening and closing operations. An automated analyzer is provided with reagent containers 116-118, a cassette 100, a reagent container lid opening and closing mechanism, and a lid holding mechanism 131. The reagent containers 116-118 accommodate the reagent and have lids 101a-101c that pivot about a pivot point. The reagent containers 116-118 are mounted on the cassette 100. The reagent container lid opening and closing mechanism opens and closes the lids 101a-101c. The lid holding mechanism 131 holds the lids 101a opened by the reagent container lid opening and closing mechanism.

The invention relates to a system for automatic closure of sample vessels (PG), in particular of sample vessels (PG) with medical laboratory samples, with iii. a plurality of identically shaped, stackable closure caps (10) which have a convex outer face and a concave inner face and which are stacked in at least one closure cap stack in such a way that an upper closure cap (10) in the closure cap stack bears with its convex outer face on the concave inner face of a lower closure cap (10) lying immediately below in the closure cap stack, iv. a closure gripper (20) for gripping an uppermost closure cap (10) from the at least one closure cap stack, for transferring the gripped closure cap (10) to the sample vessel (PG) to be closed, and for introducing the gripped closure cap (10) into an opening of the sample vessel in order to tightly close the opening, wherein the closure gripper (20) has a centering piece which can be inserted into a closure cap (10) in such a way that it bears on the concave inner face of the closure cap (10). With such a system, automated closure of sample vessels is possible in a space-saving and efficient way. Furthermore, a method for automatic closure of sample vessels is also disclosed.

A magnetic screwdriver device includes one pad without magnetism, one driving shaft, and one driven shaft. The two shafts, which have magnetic attraction between each other, are disposed on opposite sides of the pad respectively and attract to each other. The driving shaft is used to transmit torque to actuate the driven shaft rotation. When the torque out of predetermined value overcomes the friction force between the driven shaft and the pad, the driven shaft will be stop.

An assembly for mitigating spillage of patient sample in a patient sample tube having an open top includes a patient sample in the tube and a layer of inert material floating on the sample fluid, such that the material restricts splashing movement of the sample's surface. The material can include a foam, a gel, or a disk. The disk can be approximately the diameter of the sample tube with a center opening configured to accept a pipette to provide access to the patient sample.