The present invention relates to a bioreactor agitator. According to one embodiment of the present invention a drive coupling part is coupled to an impeller part through the drive coupling part, and the rotary shaft coupled to the impeller by means of magnetic force is provided to be adjustable in height by means of an up-and-down transfer part, such that the entire interior of the housing part can be effectively stirred.

The present invention relates to a bio-reaction stirrer using a magnetic force. According to an embodiment of the present invention, a driving coupling part is axially formed inside a housing part and a plurality of impellers are provided according to the height direction of the driving coupling part, and the respective impellers can be selectively driven as necessary, thereby efficiently stirring the entire inside of the housing part.

The changes to the abstract are shown below:

The present invention relates to a bio-reaction stirrer using a magnetic force. According to an embodiment of the present invention, a driving coupling part is axially formed inside a housing part and a plurality of impellers are provided according to the height direction of the driving coupling part, and the respective impellers can be selectively driven as necessary, thereby efficiently stirring the entire inside of the housing part.

An impeller, for example, a Rushton impeller for a bioreactor system is disclosed. The impeller includes a hub, optionaly including a slot, a plurality of blades, and one or more turbulators. The plurality of blades is disposed along a circumferential direction of the hub and spaced apart from each other. Each of the plurality of blades is coupled to at least a portion of a circumference and/or a top surface of the hub. Each blade of the plurality of blades includes a pressure face and a suction face. The one or more turbulators is disposed on at least a portion of the suction face, the pressure face, or both, of a blade of the plurality of blades.

A cell culture device (1) includes: a culture vessel (10 ) that accommodates a cell suspension containing cells and a culture medium; and a stirring device (30) that is provided at a bottom part of the culture vessel (10) to stir the cell suspension accommodated in the culture vessel (10). The stirring device (30) has a shaft part (32), and a rotating part (33) rotatable with the shaft part (32) as a rotation axis. The rotating part (33) has a hole part (36) into which the shaft part (32) is inserted, and a gap (37) of 100 μm or more is secured between an interior wall demarcating the hole part (36) and the shaft part (32). A closing part (38) that closes an end part of the gap (37) in an axial direction of the rotation axis is provided.

An apparatus for agitating liquid foodstuff, comprising a whisk that includes a magnetic rotor of a brushless electromotor assembly, and a main body including a liquid foodstuff container in which the whisk is receivable such that it is rotatable around a rotation axis thereof, and a stator of the electromotor assembly. The stator is configured to electromagnetically drive the rotor in rotation, and includes at least one magnetic sensor configured to provide a signal that reflects positional changes of the magnetic rotor relative to the magnetic sensor. The main body also includes a controller configured to detect an initial, manually effected rotational movement of the whisk around its rotation axis from the signal of the magnetic sensor, and, once such initial movement of the whisk is detected, to operate the apparatus independent of said initial, movement.

An impeller, for example, a Rushton impeller for a bioreactor system is disclosed. The impeller includes a hub, optionally including a slot, a plurality of blades, and one or more turbulators. The plurality of blades is disposed along a circumferential direction of the hub and spaced apart from each other. Each of the plurality of blades is coupled to at least a portion of a circumference and/or a top surface of the hub. Each blade of the plurality of blades includes a pressure face and a suction face. The one or more turbulators is disposed on at least a portion of the suction face, the pressure face, or both, of a blade of the plurality of blades.

A mixing system (10) including a base module (12), a mixing unit (26), and an enclosure (14). The base module (12) includes a base support (16), a drive unit (18) disposed within the base support (16), a drive shaft (22) coupled to the drive unit (18), and a drive head (24) coupled to the drive unit (18) via the drive shaft (22) and disposed within the base support (16). The drive head (24) includes a first magnet (25). The mixing unit (26) includes a guide element (28) and an agitator (30) slidably coupled to the guide element (28). The agitator (30) includes a second magnet (32) and at least one vane (34). The enclosure (14) is coupled to the base support (16) encloses the guide element (28) and the agitator (30). The drive unit (18) and the drive head (24) are configured to generate a linear pulsating movement of the agitator (30) along the guide element (28) for mixing a fluid medium (47) within the enclosure (14).

A linear reciprocating actuator for mixing, agitating, separation, continuous sampling and/or harvesting or filtration, gas mixing, and various other applications. The actuator may have a housing closed on one end, and attached to a vessel in a hermetically-sealed manner such that it is part of the fluidic envelope of the vessel. An agitation device may be attached to a shaft which is partially surrounded by the housing, or the agitation device may surround the housing where the housing protrudes into the vessel. The actuator enables agitation of the contents of a hermetically-sealed vessel without mechanical coupling from outside the fluidic envelope of the process. The agitation device is solely acted upon by a magnetic field, is contained entirely within the fluidic envelope of the process, and is not attached to the vessel in any way. The magnetic flux which drives the agitation device passes through the housing.

A mixer for a food product is described, including a vessel, an stator arranged in the vessel, and a rotor to rotate the food product relative the stator The stator is displaceable relative the rotor by a movement along a stator guide The stator guide includes an interior cavity being enclosed by a wall extending into the vessel, and a first magnetizable material arranged inside the cavity The stator includes a second magnetizable material, wherein a magnetic field between the first and second magnetizable materials generates a force that moves the stator along the stator guide for displacement of the stator relative the rotor.

An apparatus for agitating liquid foodstuff, comprising a whisk that includes a magnetic rotor of a brushless electromotor assembly, and a main body including a liquid foodstuff container in which the whisk is receivable such that it is rotatable around a rotation axis (L) thereof, and a stator of the electromotor assembly. The stator is configured to electromagnetically drive the rotor in rotation, and includes at least one magnetic sensor configured to provide a signal that reflects positional changes of the magnetic rotor relative to the magnetic sensor. The main body also includes a controller configured to detect an initial, manually effected rotational movement of the whisk around its rotation axis from the signal of the magnetic sensor, and, once such initial movement of the whisk is detected, to operate the apparatus independent of said initial, movement.