Centrifugation systems are provided that have a non-contact seal assemblies including an upper guard and a skirted pivot, as well as a pressure source that provides a gas flow between the upper guard and a surface of the skirted pivot. In some embodiments, the non-contact seal assembly further includes a lower guard having one or more capillary channels defined on an upper surface.

Centrifugation systems are provided that have a non-contact seal assemblies including an upper guard and a skirted pivot, as well as a pressure source that provides a gas flow between the upper guard and a surface of the skirted pivot. In some embodiments, the non-contact seal assembly further includes a lower guard having one or more capillary channels defined on an upper surface.

The invention relates generally to health tests and needs to examine bodily fluids such as blood. The invention comprises a centrifuge and system for a bodily fluid sample. The centrifuge comprises a sample chamber for receiving the bodily fluid sample through an opening so that the bodily fluid sample rests against an inner surface of the sample chamber. The centrifuge further comprises a contact part for coupling the sample chamber to an actuator, the actuator being configured to rotate the sample chamber and cause sedimentation of the bodily fluid sample.

The invention relates generally to health tests and needs to examine bodily fluids such as blood. The invention comprises a centrifuge and system for a bodily fluid sample. The centrifuge comprises a sample chamber for receiving the bodily fluid sample through an opening so that the bodily fluid sample rests against an inner surface of the sample chamber. The centrifuge further comprises a contact part for coupling the sample chamber to an actuator, the actuator being configured to rotate the sample chamber and cause sedimentation of the bodily fluid sample.

A centrifugal separator structure is configured for cleaning of crankcase gases from an internal combustion engine. The centrifugal separator structure includes a separator rotor configured for rotation about a centre axis arranged inside a stationary housing. The separator rotor includes an axle member configured for connection to a shaft of a driving device. A stack of separation discs is supported on the axle member. The axle member is un-journaled inside the stationary housing when the centrifugal separator structure is separate from the driving device. Further, an assembly includes the centrifugal separator structure and a driving device.

A centrifugal separator structure is configured for cleaning of crankcase gases from an internal combustion engine. The centrifugal separator structure includes a separator rotor configured for rotation about a centre axis arranged inside a stationary housing. The separator rotor includes an axle member configured for connection to a shaft of a driving device. A stack of separation discs is supported on the axle member. The axle member is un-journaled inside the stationary housing when the centrifugal separator structure is separate from the driving device. Further, an assembly includes the centrifugal separator structure and a driving device.

A separator for centrifugally processing a flowable product includes a rotating system with at least one rotatable drum delimiting a centrifugal chamber and at least one drive spindle for rotating or driving the drum. At least one non-rotating housing surrounds the drum. A mounting device for mounting the drive spindle in a mounting receiving housing is arranged or formed on the housing. A support arrangement is configured between the outer circumference of the bearing device and the inner circumference of the bearing receiving housing. The support arrangement is designed to provide on the whole an elastic radial support of the bearing device on the bearing receiving housing, and thus on the housing.

A separator for centrifugally processing a flowable product includes a rotating system with at least one rotatable drum delimiting a centrifugal chamber and at least one drive spindle for rotating or driving the drum. At least one non-rotating housing surrounds the drum. A mounting device for mounting the drive spindle in a mounting receiving housing is arranged or formed on the housing. A support arrangement is configured between the outer circumference of the bearing device and the inner circumference of the bearing receiving housing. The support arrangement is designed to provide on the whole an elastic radial support of the bearing device on the bearing receiving housing, and thus on the housing.

A separator includes: a centrifugal drum; a drive spindle, where the drive spindle is rotatably mounted in a drive housing by a neck bearing and a foot bearing, and where the drive housing encloses a drive chamber; an electric motor which has a stator and a motor rotor, where the motor rotor is disposed on the drive spindle, where the stator is fixedly connected to the drive housing, where an air gap exists between the stator and the motor rotor, and where the stator and the motor rotor are arranged between the neck bearing and the foot bearing; a lubricating system for lubrication of the neck bearing and the foot bearing; and a coolant system; where the stator has a flange section which is disposed on a collar section of the drive housing.

A separator includes: a centrifugal drum; a drive spindle, where the drive spindle is rotatably mounted in a drive housing by a neck bearing and a foot bearing, and where the drive housing encloses a drive chamber; an electric motor which has a stator and a motor rotor, where the motor rotor is disposed on the drive spindle, where the stator is fixedly connected to the drive housing, where an air gap exists between the stator and the motor rotor, and where the stator and the motor rotor are arranged between the neck bearing and the foot bearing; a lubricating system for lubrication of the neck bearing and the foot bearing; and a coolant system; where the stator has a flange section which is disposed on a collar section of the drive housing.