Abstract: A system for separating flowable media into its components includes a pump delivering a flowing stream of the media, a separation tube through which the stream of the flowable media is passed, a mechanism for spinning the stream of flowable media about the axis of the separation tube at sufficient rotational speed that centrifugal force within the stream causes the media components to separate into component radial layers, according to their specific gravities, an extraction conduit for selectively extracting one or more of the radial layers from the separation tube, and monitoring and automatic feed back elements for measuring the component content as the media enters and exits the separation tube and for adjusting the rotational speed of the media.

Abstract: A centrifugal separator apparatus for separating a composition to a substantially solid portion and a substantially liquid portion. A dual mode vibration sensor is located radially outward from a shaft utilized for rotating a bowl. The vibration sensor for sensing the radial vibration of the bowl during rotation. Upon the vibration sensor sensing radial vibration above a first predetermined threshold or a second predetermined threshold, a signal is sent to a controller that activates a D.C. brake or frequency inverter to stop the rotation of the bowl. Further, in another embodiment, the centrifugal separator includes a directing member within the bowl for directing the composition outwardly toward the wall of the bowl during rotation to increase the separation of the liquid and the solids.

Abstract: A processor (9) within an apparatus for managing a centrifuge by operation results (8) identifies an ID card of a user who operates a centrifuge (1) through a card reader (12). Further, a rotation signal (7) that will serve as operation result data of the centrifuge is received through a counter (10), and a rotation start time and a rotation stop time of a drive section (3) are read by a real-time clock. Still further, the processor (9) calculates the operation result data, displays the calculated data on a display section (16), stores the operation result data in a memory (15), and outputs the operation result data to a printer (13) as may be required by the user.

Abstract: The present invention is a centrifuge bowl housing and cover latch suitable for use in a blood separation system. The housing is mounted on shock absorbers to minimize transmission of vibrations from the centrifuge. The housing is configured to retain spilled liquids, efficiently collect the spilled liquids, drain liquids away from the drive means, and drain liquids out of a drain port to a collection container. The housing has a transparent cover that opens to allow loading of centrifuge bowls into the housing. The cover is a shatter resistant material and when closed, seals the top of the housing, retaining blood components and flying pieces of a centrifuge bowl if the bowl breaks. The cover has a latch that prevents the centrifuge from spinning when the cover is open and prevents opening of the cover when the centrifuge is spinning.

Abstract: An apparatus to minimize vibrations of a centrifuge using sliding and damping bearings to restrain vertical movement of a disk rotatably attached to the centrifuge's drive shaft. Radial displacement of the disk beyond a predetermined distance activates the damping bearings against the disk.

Abstract: Apparatus and a method for detecting imbalance and for identifying rotors in centrifuges is disclosed. An accelerometer measures the vibration of a rotating drive system as it accelerates from rest to a predetermined speed, and a signal processing system monitors changes in the magnitude of measured vibration energy. The processing system determines the power spectrum density of the measured values and from this the frequency spectrum and the total energy spectrum of the measured vibration are determined. These values may be used to provide an identifying profile which can be used as a reference for later identification of drive systems and rotors in operating systems, and for monitoring and controlling such operating systems.

Abstract: A centrifugal separating filter, which can efficiently separate dirt particles in liquid and keep the liquid clean, includes a turbine driving device (20), which is provided for rotating a rotating member (11) included inside the filter, and the turbine driving device (20) is driven by air pressure or exhaust gas pressure from an internal combustion engine (1) to separate foreign materials in a fluid. A control device (25) is provided for outputting an open/close command signal to a valve (26) provided at a turbine inlet of the turbine driving device (20), based on an output signal from at least one sensor (28) for detecting pressure or rotational speed of the internal combustion engine (1), and an output signal from an oil deterioration sensor (28).

Abstract: A centrifuge rotor overspeed protection system which can operate with rotors of at least two speed ranges. A set of coding elements are provided on the rotors coded to represent the actual maximum safe speed rating of the rotor. An additional set of coding elements coded to correspond to the maximum speed in the lower speed range are also provided such that the rotor can be operated at the maximum speed possible in a prior art centrifuge designed for operation in the lower speed range. The detection circuit for the coding elements automatically adjusts the detection threshold depending on the average values of the sensor output peaks corresponding to the codes.

Abstract: A centrifugal separator comprising: a rotor for containing a sample; a rotating unit; a detection circuit for detecting a distance between a reference position and a position of the rotor and generating a distance detection signal; a rectifying circuit for half-wave rectifying the distance detection signal; a judging circuit for judging the distance detection signal from the rectifying circuit; and a controller for controlling the rotating unit in accordance with a judging result of the judging circuit and a corresponding method are disclosed. The judging circuit judges whether the distance is in a balanced condition of or an unbalance condition of the rotor.

Abstract: A fluid recovery assembly continuously separates lubrication liquid from lubrication-impregnated shavings. The fluid recovery assembly includes a shredder which receives and shreds the lubrication-impregnated shavings. A centrifugal drum rotates the lubrication-impregnated shavings at a speed sufficient to pull the lubrication out of the lubrication-impregnated shavings. A single electrical motor supplies the energy to rotate the centrifugal drum, the shredder and any other hydraulically actuated accessory. When the high inertia centrifugal drum is accelerated to operating speed, little power is needed to keep it rotating. The path in which the fluid flows is changed from a free flow path (back to the reservoir) to a path including a hydraulic motor which powers the shredder. Thus, no separate electric motor is needed for the shredder. The shredder power is further enhanced by the flywheel effect of the centrifugal drum.

Abstract: An energy monitoring arrangement that is operatively associated with a centrifuge instrument monitors the magnitude of applied accelerating energy that is used to accelerate a rotor and to interrupt the continued application of accelerating energy if the magnitude of the applied accelerating energy exceeds a predetermined reference energy value. Preferably, the net applied accelerated energy to the rotor is monitored and used in the comparison with the energy reference. The invention may also be used in a predictive manner to provide, early in the centrifugation run, an indication of the energy of a rotor at an operator-ordered set velocity.

Abstract: In a process of separating a liquid sample having phase portions of different densities by centrifugal separation, a phase separator container is employed. The phase separator container comprises a housing having concentric inner and outer cylindrical walls defining a longitudinal axis and a top wall and further a piston body constituting a bottom wall of the housing. The piston body defines together with the outer cylindrical wall, the inner cylindrical wall and the top wall, an annular chamber for receiving the liquid sample. The piston body is displaceable within the annular chamber for draining a phase portion separated from the liquid sample through a drain conduit means communicating with the annular chamber. The phase separation chamber further comprises a reaction chamber to which the phase portions exposed from the annular chamber is processed.

Abstract: An energy monitoring arrangement that is operatively associated with a centrifuge instrument monitors the magnitude of applied accelerating energy that is used to accelerate a rotor and to interrupt the continued application of accelerating energy if the magnitude of the applied accelerating energy exceeds a predetermined reference energy value. Preferably, the net applied accelerated energy to the rotor is monitored and used in the comparison with the energy reference. The invention may also be used in a predictive manner to provide, early in the centrifugation run, an indication of the energy of a rotor at an operator-ordered set velocity.

Abstract: A method of controlling the rotation of a centrifuge including an outer bowl shell and a scroll supported in the outer bowl shell for rotation relative to the outer bowl shell. The method includes the steps of obtaining control signals representing forces acting on the scroll and controlling the rotation of the centrifuge as a function of the control signals. The method comprises the steps of measuring an axial force imparted on the scroll parallel to an axis of rotation of the scroll; generating feedback signals from values obtained from the measuring step; and controlling the rotation of the centrifuge as a function of the feedback signals.

Abstract: A blood processing assembly includes a centrifuge contained within a heated housing or chamber. A fail safe spill or splash detector is located within the inner wall of the housing. The detector includes a pair of parallel electrodes separated from each other from a small gap. The circuit detects a splash or droplet of liquid which conducts current between the electrodes.

Abstract: A method and system of identifying a rotor of a centrifuge employ an approach that uses two tiers of model selection. Firstly, the moment of inertia of a rotor is calculated for a first measured acceleration. The indication of moment of inertia is utilized to disqualify a number of rotor models and to select a subset of models. In a second tier, windage power of the rotor is calculated in a manner that isolates windage from inertial drag. In one embodiment, drive torque is measured with the rotor operated at a high constant speed. Alternatively, windage is calculated using data obtained during a second measured acceleration. The accuracy of the computation is enhanced by taking into account the moment of inertia as one form of resistance to the second acceleration. Based upon the indication of windage power, at least one rotor model within the subset is disqualified. Upon identification of the rotor, the centrifugal process can be maintained at a maximum safe speed.

Abstract: A device for removing foreign material from sand is disclosed. The device includes a rotary box which is driven such that sand is centrifuged therein. The box includes a circular bottom plate, a circumferential and inclined wall extending from the circular end of the bottom place, upwardly and outwardly, and ring portion which extends inwardly from the top of the inclined wall. A plurality of rollers are disposed in the box, each roller having a movable surface substantially parallel to and spaced apart from the circumferential and inclined wall of the box. Sand in the rotary box is centrifuged and circumferentially deposited on the inclined wall to form a sand layer which becomes progressively thicker and then contact the movable surface, subjecting the sand to shearing and compressive forces. Processed sand then overflows from the ring portion of the rotary box.

Abstract: A lab centrifuge with a rotor carrying vessel supports and a motor with a vertical shaft driving said rotor into rotation, the stator associated with said rotor being supported by elastic supports on a centrifuge base. A shutoff device controls the motor which it shuts off in response to a signal generated by a component affixed to the stator and a component affixed to the base when the stator deviation taking place is found to exceed or match the maximum admissible threshold imbalance. One of the two components is a field generator generating a constant field and the other component is a field intensity detector connected to an analyzer which, upon limit changes in field intensity caused by the deviation, implements shutoff.

Abstract: A method and system of determining an operation parameter for a centrifuge includes measuring one or more physical characteristics of a rotor interchangeably supported by a rotor drive. In the preferred embodiment, windage is measured at a first rotational speed and a speed-dependent signal is generated to adjust a vacuum system based upon changes in rotational speed of the rotor. Changes in windage may also be used as a basis for adjusting a refrigeration circuit. Either as an alternative or in addition to monitoring windage, the moment of inertia can be measured and used to adjust adaptive circuitry. For example, the drive circuitry may be adjusted based upon a determination of inertia as the physical characteristic of interest. The method and system isolate inertia and windage as the main forms of resistance to acceleration of the rotor.

Abstract: A centrifuge (10) for spinning blood sample tubes (14) has a conical rotor head (17) rotated within a cavity defined by an upwardly open annular trough (39) and a domed lid (50). The tubes (14) are inserted into transparent plastic tube holders (48). The holder top ends (60) are funnel-shaped to capture spillage and enable manual gripping. The trough has oppositely sloping walls (40, 41) and holder bottom ends (59) are exposed for ready viewing below the head bottom edge. A reader station (15) includes a pointer (80) with a lens (86) that has hairlines (87) for aligning the pointer over the spin tube (14a) to enter data on the red cell/plasma interface. The lines (87) are spaced to match the diagonal appearance of the interface. An interlock assembly includes a solenoid operated shuttle arm (108) that blocks movement of a pin (95) out of a bore (94) in a lid tab (92), unless motor (23) is deenergized.

Abstract: A centrifuge rotor overspeed protection system which can operate with rotors of at least two speed ranges. A set of coding elements are provided on the rotors coded to represent the actual maximum safe speed rating of the rotor. An additional set of coding elements coded to correspond to the maximum speed in the lower speed range are also provided such that the rotor can be operated at the maximum speed possible in a prior art centrifuge designed for operation in the lower speed range. The detection circuit for the coding elements automatically adjusts the detection threshold depending on the average values of the sensor output peaks corresponding to the codes.

Abstract: A method of controlled centrifugation including automatic determination (before or during a centrifugation run) of the time to reach "completion" (within specified limits, depending on the criteria adopted) of a centrifugal separation. By simulation, the sample solute concentration distributions are determined and examined periodically. Centrifugation completion is deemed to have been reached based on certain predetermined criteria relating to spatial changes in the sample solute concentration distributions between successive examinations. The positions of the end points of the concentration distributions or band edges of the sample solutes (transitions from regions of sample solutes to regions of no sample solutes) are determined to facilitate resolving spatial changes of the concentration distributions.

Abstract: A centrifugal separation process which is made continuous and automatic by determining the position for taking out the liquid container (8) accurately within a short time, with a liquid container (8) containing liquid for separation being kept by a basket (7) which is suspended and freely rotatable on the tip of a rotary arm (6), by positioning a circumferential direction of the rotary arm (6) by means of a rotary arm direction detector and a rotary arm positioning device and by stopping a basket (7) horizontally at a predetermined position by a basket positioning device (14).

Abstract: A centrifuge rotor overspeed protection system which can operate with rotors of at least two speed ranges. A set of coding elements are provided on the rotors coded to represent the actual maximum safe speed rating of the rotor. An additional set of coding elements coded to correspond to the maximum speed in the lower speed range are also provided such that the rotor can be operated at the maximum speed possible in a prior art centrifuge designed for operation in the lower speed range. The detection circuit for the coding elements automatically adjusts the detection threshold depending on the average values of the sensor output peaks corresponding to the codes.

Abstract: A decanter centrifuge includes a control system for receiving input AC power and outputting a variable voltage and frequency for controlling the speed of the backdrive and the main drive motor. The control system includes a first controller for converting AC power into DC power and then converting the DC power to AC power at a variable voltage and frequency to the main drive motor. A second controller is connected to the first conversion unit through a common DC bus. The second controller converts DC power to AC power and supplies AC power at a variable frequency to the backdrive motor. The braking force created by the backdrive motor during operation of the decanter centrifuge creates electricity which is passed through the second controller and through the common DC bus to the first controller. Thus, the generated power from the backdrive motor is converted into power for use by the main drive motor.

Abstract: A centrifugal separator able to function as an agitator. A motor controlled by a control box drives a disk-like rotor. For agitation, the motor makes the rotor intermittently rotate, and for centrifuging, the motor makes the rotor constantly rotate. The rotor has a pair of pins which are extended in a tangential direction to the rotation of the rotor. A bucket for accommodating a sample container is freely swingably supported by a pair of pins. During the alternate repeat of the rotation and stopping of the rotor, the bucket with the sample container performs regular swing like a pendulum in the radial direction of the rotor. The rotation of the rotor and the swing of the sample container generate a smooth circular flow of the liquid content in the sample container.

Abstract: Method and apparatus for controlling the angular velocity of a centrifuge tube containing a solute and a solvent to obtain desirable sedimentation behavior and/or diffusion behavior of the solute within the tube during centrifuge operations. In one embodiment, the angular velocity is maintained at a near-maximum value until just before precipitation of a solute component is reached within the tube. The tube angular velocity is then reduced as a function of time so that critical precipitation is approached but never occurs in the tube as the centrifuge process continues. In other embodiments, the net flux of solute particles into a given volume element of the centrifuge tube, or the ratio of net fluxes of two or more solutes into a predetermined volume elements, is caused to be a prescribed function of time. One application of this method is minimization of the time required to obtain a desired density gradient separation by a centrifuge process.

Abstract: A separator comprises a frame supporting a closed cylindrical drum, a motor for rotating the drum about a central, longitudinal axis, an inlet through which a liquid from which constituents are to be separated is introduced into the drum, and an outlet through which relatively clean liquid is dischargeable from the drum. During the separating process, centrifugal force causes a layer of the heavier constituents to collect on the interior surface of the drum, displacing the relatively clean liquid into an annular layer situated concentrically with and between the constituent layer and the entering volume of liquid, such that the contents of the annular layer is separately dischargeable from the drum in a continuous manner.

Abstract: A frontal separator method and apparatus for separating particles from fluids, such as microorganisms from juice, and for providing a sample of juice having a concentrated number of microorganisms therein for ease of detection thereof, comprising a hollow, rotatable, perforated, cylindrical rotor mounted inside of a spaced-apart outer case with an annular separation chamber therebetween. The fluid with particles to be separated therefrom is fed into the separation chamber, the fluid flows through the holes in the rotor and exits through an outlet port while the particles exit from a waste port of the separation chamber. The outer casing preferably also rotates with the rotor, and the holes, which have a diameter substantially greater than that of the particles, are preferably at an angle to a radius of the rotor.

Abstract: Method and apparatus for partitioning a pre-selected phase of a sample of liquid, such as blood, having a plurality of phases of differing densities the method comprising the steps of introducing a sample into a chamber of constant cross-sectional shape and a volume greater than that of the sample, ordering the phases of the sample concentrically by rotating the chamber about its longitudinal axis, reducing the volume of the chamber in response to a separation control signal, removing a portion of the separated sample in order of phase, deriving information about the portion of the sample being removed from the chamber and modifying the separation control signal in response to the derived information.

Abstract: Commercial wide size distribution powders are size classified into precise size fractions by means of a controlled, semi-continuous, multi-stage centrifugal classification system. The system has utility for a wide range of colloidal materials. The throughput of the semi-continuous process is higher than that of batch processes, and the semi-continuous process produces narrow size ranges and optimum yields.

Abstract: A centrifuge overspeed protection and imbalance detection system is structured to provide a method for detecting rotor imbalance and rotor overspeed. The system has a single transducer to provide real-time data necessary to detect rotor imbalance and control motor speed.Motor speed is controlled by synthesis of a drive frequency signal for driving the inverter motor control. The drive frequency signal may be inhibited to provide slow acceleration or deceleration, or to shut the motor off by providing a zero slip frequency. Motor control is responsive to a Rotor Identification circuit and operator programming, as well as a closed loop response to the real time tach signal.Imbalance detection is provided by counting tach pulses in each of a plurality of intervals, detecting deviations in tach pulse rate and sounding an alarm when the irregularity of tach pulse signals exceeds the limits of a predetermined standard deviation.

Abstract: A method of initiating an operation in dependence on the combined mass of an element and matter which is in or on the element can be used to remove matter which has accumulated on the rotor of a centrifuge. A substantial change is effected in the speed of rotation of the rotor and the rate of change is then measured. The operation is initiated when the rate of change is above or below a predetermined value.

Abstract: In accordance with the invention, a magnetic field sensor is disposed on a stationary part of a centrifuge near an annular member of a rotor and is adapted to detect those variations in a gap which exists between the annular member and the sensor. The variations in the gap arising from deflection and/or precession of the rotor axis.

Abstract: A centrifugal separator capable of selectively mounting sedimentation tubes or capillary tubes on a rotor includes a container receptacle mounted in an outer box of the separator for receiving sedimentation tube containers. When the sedimentation tube containers are received in the container receptacle, their presence is detected to enable the rotor to rotate at a relatively high speed required when the capillary tubes mounted on the rotor.

Abstract: A worm centrifuge with a rotatable drum and a rotatable screw therein and separate drives with a speed governable clutch between the drives to provide for a start-up by one of the drives, preferably a speed governable drive, and arranged so that the clutch can be released for independent driving of the drum and screw during normal operation.