The present invention defines a positioning assembly including a base part (110) and a holder part (120) for holding a device, whereby the assembly further includes a motor (160) for driving a displacement mechanism (150) mounted to the base part. The base part and the holder part are arranged parallel to each other and are connected via a displaceable slide link (140), which is configured to slide on a first guide rail (111) provided on the base part and on a second guide rail (122) provided on the holder part, whereby each guide rail extends in longitudinal direction (z). The slide link (140) is coupled to the displacement mechanism (150), which causes displacement of the slide link relative to the base part in longitudinal direction. Furthermore, the holder part (120) is moveably coupled to the base part (110) via a coupling arrangement which has a first element (115) provided on the base part, a second element (125) provided on the holder part and a third element provided on the slide link (140). The first, second and third elements of the coupling arrangement are configured to engage with each other such that linear displacement of the slide link (140) relative to the base part (110) in one direction causes linear displacement of the holder part (120) relative to the slide link in the same linear direction.

A bodily-fluid transfer device includes a housing, a pre-sample reservoir, and an actuator. The housing defines an inner volume between a substantially open proximal end portion and a distal end portion that includes a port couplable to a lumen-defining device. The pre-sample reservoir is fluidically couplable to the port to receive a first volume of bodily fluid. The actuator is at least partially disposed in the inner volume and has a proximal end portion that includes an engagement portion and a distal end portion that includes a sealing member. The engagement portion is configured to allow a user to selectively move the actuator between a first configuration such that bodily fluid can flow from the port to the pre-sample reservoir, and a second configuration such that bodily fluid can flow from the port to a sample reservoir defined at least in part by the sealing member and the housing.

A multi-channel pipetting assembly includes a linkage member and a plurality of pipetting structures arranged in parallel. Each pipetting structure includes a pipette body, a piston rod, a piston tube, and an elastic element. The pipette body has a plurality of air chambers with different inner diameters, and the air chambers are arranged axially and communicate with each other. The piston rod is fixed to the linkage member. The piston tube is sleeved on the piston rod. The piston rod and the piston tube are located in the pipette body, and are axially and reciprocatingly movable in the pipette body. The piston rod matches the air chamber with the smallest inner diameter, and the piston tube matches the remaining air chambers. The elastic element is telescopically sleeved on the piston rod and corresponds to the piston tube. Therefore, a plurality of volume ranges meeting the accuracy requirements can be provided.

A magnetic locking device for a pipetting tool, the device having a plate that is able to be adapted to the pipetting tool, an accessory being intended to be fastened to a fastening end piece that is supported by the plate and/or intended to be supported by the pipetting tool. The device has at least one lock configured to switch from an active state to a passive state, and vice versa, such that, in the active state, the lock is able to block, in service, particles that are present in the accessory, and such that, in the passive state of the lock, the particles are free to move in the accessory.

A dispensing system can include a container including multiple channels, and each channel can be capable of containing an amount of a liquid. The dispensing system can include a well plate including multiple wells, and each well can be configured to align with a respective channel of the container. The dispensing system can include a plunger including multiple protrusions, and each protrusion can be configured to be inserted into a respective channel of the container. Movement of the plunger toward the container can force each protrusion to be inserted into the respective channel of the container thereby driving liquid from the respective channel and into a respective well of the well plate.

According to an example aspect of the present invention, there is provided a liquid handling device based on air displacement principle, comprising a cavity comprising a first chamber and a second chamber, a plunger movable inside the cavity, to apply a vacuum or pressure inside the cavity, wherein the first chamber is configured to provide a first dosing volume range, wherein the second chamber together with the first chamber is configured to provide a second dosing volume range, which is larger than the first dosing volume range, wherein said first chamber and said second chamber are connected by a closable fluid connection, and wherein said fluid connection is provided through said plunger.

A system for extracting analytes from a biological sample, which includes: an electronic pipette having pipette cones with a tip; a well support; a pipette holder including: a base which can removably house each well support; a pipette support into which the pipette is inserted, and which can move relative to the base between a first position in which the tips of the cones are inserted in a well of the support and at least one second position in which the tips are outside the wells; a housing facing the pipette cones above their tip when the pipette support is in the first position, and facing the tips of the pipette cones when the pipette support is in the second position; and a magnetized part removably inserted in the housing.

A head device for mounting a dispensing tip includes a piston member, a first shaft member to move the piston member in an up-down direction, a tubular rod including a tubular space having a cylinder space in which the piston member is housed to move in the up-down direction and including a tip mounting portion into which a base end portion of the dispensing tip is fitted, a first frame equipped with the first shaft member and the tubular rod, a second shaft member engaging with the first frame to move the first frame, a second frame equipped with the second shaft member and including a guide portion configured to guide movement of the tubular rod in the up-down direction in association with the movement of the first frame in the up-down direction, and a shaft controller configured to control operation of the first and second shaft members.

A compact, easily handled, and highly accurate dispensing cylinder capable of performing a dispensing treatment for both minute and large amounts of liquid using a single mechanism, and a dispensing treatment method using the dispensing cylinder. The dispensing cylinder includes: a cylinder having a cavity therein; a nozzle provided at one end of the cylinder, having a through hole communicating with the cavity and extending in an axial direction of the cavity, and making a dispensing tip attachable to an outside thereof; and a plunger provided so as to be slidable in the cavity in the axial direction. The cavity has a large diameter region having a first inner peripheral surface and a small diameter region provided so as to be closer to a nozzle than the large diameter region and having a second inner peripheral surface. The plunger has a thick shaft portion slidable in the large diameter region and a thin shaft portion protruding from a distal end of the thick shaft portion in the axial direction and slidable in the small diameter region.

A multifunctional pipette includes a pipette module, a heater module and a magnetic module. The pipette module includes one or more pipette heads. The heater module has a first joint part, and the heater module configured to removably connect to the pipette module by coupling the first joint part to at least one of the plurality of pipette heads. The magnetic module has a second joint part, and the magnetic module configured to removably connect to the pipette module by coupling the second joint part to at least one of the plurality of pipette heads. The multifunctional pipette can be further applied in an automatic detection machine.