A tube for sample collection and sample processing in a tube rack includes an upper section, an intermediate section, and a lower section. The intermediate section connects the upper section and the lower section of the tube, and an inner diameter of the intermediate section can decrease from top to bottom. A fastening means can fix the tube in a tube rack. The tube can include a pierceable tube cap sealing the tube, and the tube rack can be configured such that the tube may be pulled off the tube cap by a centrifugation force. The tube can include a volume of density gradient medium covered by a separating gel to enhance sample separation.

A device for insertion in a receptacle for pressurisation, evacuation, and/or acceleration by centrifugation, comprising: a vessel with side walls and a base; wherein the side walls of the vessel comprise at least one portal; wherein the portal is partially or wholly covered by a semipermeable membrane; wherein the semipermeable membrane is located vertically with respect to the receptacle for centrifugation; and wherein the filtering surface of the semipermeable membrane faces externally with respect to the interior of the vessel. Also provided are methods for processing liquids or suspensions utilising such devices and methods for manufacturing such devices.

A bucket insert for use in a centrifuge is disclosed. The bucket insert comprises an insert body, the insert body comprising a plurality of elongated receptacles for receiving elongated sample vessels. The bucket insert is configured for orienting the elongated sample vessels in a tilted orientation. In the tilted orientation, at least some of the elongated sample vessels are oriented in a non-parallel fashion.

A tube for sample collection and sample processing in a tube rack includes an upper section, an intermediate section, and a lower section. The intermediate section connects the upper section and the lower section of the tube, and an inner diameter of the intermediate section can decrease from top to bottom. A fastening means can fix the tube in a tube rack. The tube can include a pierceable tube cap sealing the tube, and the tube rack can be configured such that the tube may be pulled off the tube cap by a centrifugation force. The tube can include a volume of density gradient medium covered by a separating gel to enhance sample separation.

A centrifuge comprising a rotor having a rotational axis, at least one receptacle for a blood sample container, controller means for controlling the rotational speed of the rotor, at least one optical transmitter for transmitting an optical signal, at least one optical receiver for registering the amplitude of the optical signal, where the optical signal is configured to pass through the blood sample container where the optical receiver detects the amplitude of the optical signal when it is directed through the blood sample container, where the amplitude of the optical signal reflects the translucency of the blood sample, where the controller means is configured to discontinue the rotational movement of the rotor when the amplitude of the optical signal over time has fulfilled a predefined pattern indicating that at least the fibrin compression phase of the blood sample is started.

Provided is a centrifugal separation container for separating a material from tissue and body fluids by using a centrifugal force, including: a first container; a second container; a first piston positioned in the inside of the first container and configured to be movable up and down in the inside of the first container; an elastic body positioned below the first piston in the inside of the first container and configured to elastically bias the first piston upward; a first connecting duct having one end connected to the first container and the other end connected to the second container; and a first control valve operating by a centrifugal force and configured to open and close the first connecting duct.

Centrifuge rotor comprising a rotor assembly adapted for centrifugal rotation around a rotation centre axis, with a plurality of centrifuge tube beds, each with a longitudinal axis, wherein each centrifuge tube bed comprises a tubular cavity which is defined by a cavity sidewall and a cavity bottom which together act as a bearing surface for the outer surface of a centrifuge tube when received in said centrifuge tube bed, wherein at least one of the plurality of cavity bottoms comprises at least one extraction aperture, which connects the tubular cavity to the exterior of the rotor assembly, preferably wherein at least one closure device is removably fastened to the rotor assembly to seal each of the at least one extraction apertures in an airtight manner.

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.

Technologies pertaining to a centrifuge that comprises a vector-seeking linkage are disclosed herein. In a general embodiment, the centrifuge comprises a spindle that is rotatable about an axis of rotation. The centrifuge also has an arm that is coupled to the spindle, and a vector-seeking linkage that is coupled to the arm. The vector-seeking linkage provides two rotational degrees of freedom with respect to a load coupled to the vector-seeking linkage. The centrifuge is well-suited for a variety of applications, including sensor testing, solution separation, and producing accelerations expected to be experienced during flight.

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.