A rotor assembly includes a rotor plate to rotate around a first axis, a bucket attached to the rotor plate and to rotate around a second axis, and a stop plate to rotate around the first axis between an open position and a closed position. When in the closed position, the stop plate engages the bucket to fix an angular position of the bucket relative to a plane of rotation of the rotor assembly. The rotor assembly further includes a housing for a sensor array component, the housing disposed in the bucket and including a solution inlet, a solution outlet, a transfer basin, a solution retainer disposed between the solution outlet and the transfer basin, and a collection reservoir in fluid communication with the transfer basin. The solution inlet and the solution outlet to engage ports of a flow cell of a sensor array.

Provided is a centrifuge. In a centrifuge sample container (40) having a body part (41) and a bottom part (42), the body part (41) has two parallel flat surfaces, and includes an opening (44) having an elliptical shape from above view. The bottom part (42) is formed by a semi-cylindrical part (42a) and quarter spherical parts (42b) connected to the sides of the semi-cylindrical part. A height (H) of the sample container is greater than a length (L.sub.2) in the short axis direction of the opening, and a curvature radius (R.sub.1) of the outer surface of an arc part of the elliptical shape, a curvature radius (R.sub.2) of the outer surface of the semi-cylindrical part, and a curvature radius (R.sub.3) of the outer surface of the quarter spherical parts are equal. A flange part (43) that expands radially outward is formed on the opening (44) of the body part (41).

A sample separation device to introduce a sample to be separated to an inside of the sample separation device, centrifuge the sample, and collect a desired liquid after separation, includes: a sample introducing portion introducing the sample into the sample separation device; a liquid surface defining portion connected to the sample introducing portion; a first separating portion connected to the liquid surface defining portion; a second separating portion connected to the first separating portion; a third separating portion connected to the second separating portion; and a liquid extracting portion including the third separating portion and connected to the third separating portion, in which a tubular flow path is formed by at least the first separating portion and the second separating portion, in which an opening of the sample introducing portion and an opening of the liquid extracting portion are oriented in the same direction.

A modular centrifuge device for separating fluid samples, including a housing having a modular power assembly mechanism for rotating samples with manual or electric power. A manual centrifuge device, including a housing having a power assembly mechanism for rotating samples with manual power, and a speed indicator for indicating if a predetermined speed has been reached and a time indicator for indicating if a predetermined or calculated time has been reached for rotating said samples operatively connected to the device. A method of centrifuging samples, by selecting a manual power mode or electric power mode on a centrifuge, rotating samples at a predetermined speed for a predetermined or calculated time, alerting a user that the predetermined speed and predetermined or calculated time have been achieved, and obtaining separated samples.

A rotor assembly includes a rotor plate to rotate around a first axis, a bucket attached to the rotor plate and to rotate around a second axis, and a stop plate to rotate around the first axis between an open position and a closed position. When in the closed position, the stop plate engages the bucket to fix an angular position of the bucket relative to a plane of rotation of the rotor assembly. The rotor assembly further includes a housing for a sensor array component, the housing disposed in the bucket and including a solution inlet, a solution outlet, a transfer basin, a solution retainer disposed between the solution outlet and the transfer basin, and a collection reservoir in fluid communication with the transfer basin. The solution inlet and the solution outlet to engage ports of a flow cell of a sensor array.

A sample preparation apparatus includes a robotic system providing movement in three orthogonal directions to an arm operable to receive a pipette tip and to facilitate movement of fluid into and out of the pipette tip. Optionally, the robot can include a gripper arm in addition to the pipette receiving arm. In addition, the sample preparation apparatus can include a tray for receiving pipette tips, receptacles for receiving tubes, an apparatus for forming an emulsion, a device for forming particles that include copies of the polynucleotide, a device for enriching the particles, as well as a centrifuge for loading such particles onto a sensor array. The sample preparation apparatus can further include receptacles for holding containers of reagent solutions.

A syringe holder for holding a syringe in a centrifuge, the syringe having a plunger-end and a nipple-end, the syringe holder holding the syringe nipple-end upwardly, comprising: a cup having a cup seat, a wall, a bore, a mouth, and a support, the support supporting the cup in the centrifuge; a lower support having a upper surface and a lower surface, the lower support sized to slide into the cup and the lower support supporting the plunger-end of the syringe; an upper support having lower section and an upper section with a lip, and having a channel therethrough, the lip having a outer diameter larger than the inner diameter of the mouth of the cup, the channel therethrough co-axial with the lower support and the bore of the cup, the lower section having an outer diameter that is less than the inner diameter of the bore of the of the cup and sized to permit the upper support to slide at least partially into the cup and the lip to contact the mouth of the cup and support the upper support in the cup; whereby the upper support and the lower support support the syringe with the needle-end upwardly in the cup during centrifuging.

There can be provided a bucket for a swinging rotor of a centrifugal separator that can be readily carried while ensuring the sealability at the time of a centrifugal treatment or the carriage operation. The bucket includes a bucket body (11) in a bottomed cylindrical shape, a cover main body (21) (cover), a packing (22) (seal member), and a pair of attachment mechanisms (34) configured to detachably attach the cover main body (21) to the bucket body (11). The cover main body (21) includes a lid portion (24) having clip fixing portions (31) (pressed portions) and configured to cover an opening (11a) of the bucket body (11), and a handle portion (25) formed integrally with the lid portion (24). The handle portion (25) is stretched between the pair of clip fixing portions (31). A handle concave portion (36) (hole) that opens toward the outside of the cover main body (21) and separates the lid portion (24) and the handle portion (25) is formed between the lid portion (24) and the handle portion (25).

Systems ,methods and devices are provided for the automated centrifugal processing of samples. In some embodiments, an integrated fluidic processing cartridge is provided, in which a centrifugation chamber is fluidically interfaced, through a lateral surface thereof, with a microfluidic device, and wherein the integrated fluidic processing cartridge is configured to be inserted into a centrifuge for centrifugation. A cartridge interfacing assembly may be employed to interface with the integrated fluidic processing cartridge for performing various fluidic processing steps, such as controlling the flow of fluids into and out of the centrifugation chamber, and controlling the flow of fluids into the microfluidic device, and optionally for the further fluidic processing of fluids extracted to the micro-fluidic device. The integrated fluidic processing cartridge may include a supernatant chamber the extraction of a supernatant thereto, and a dilutent chamber for diluting a suspension collected in the centrifugation chamber.

The present invention relates to a hybrid rotor for a centrifuge, in particular a laboratory centrifuge, comprising a rotor base body with a receptacle side and a drive side, means for fixing a drive shaft for rotating the hybrid rotor about a rotation axis (R), at least two receptacles with an insertion opening for centrifuge containers arranged on the receptacle side of the rotor base body, a rotary bearing for rotatably mounting a swinging container being formed on at least one receptacle and a fixed bearing for fixedly mounting a fixed angle container being formed on at least one receptacle. The present invention further relates to a set for a centrifuge, comprising a hybrid rotor and at least one fixed angle container. Furthermore, the present invention relates to fixed angle container for use in a hybrid rotor or in a set.