Guard for impellers, methods of using the guards, impeller assemblies including the guards mounted to impellers, impeller systems, and biocontainer systems including the impeller systems, are disclosed.

Guard for impellers, methods of using the guards, impeller assemblies including the guards mounted to impellers, impeller systems, and biocontainer systems including the impeller systems, are disclosed.

A roller brake comprising: (a) a roller shaft that supports one or more ends of the roller brake; (b) a roller tube extending over all or a portion of the roller shaft; (c) a magnet; (d) a conductor located opposite the magnet and the conductor being in communication with the roller shaft when the magnet is in communication with the roller tube and the conductor being in communication with the roller tube when the magnet is in communication with the roller shaft; and (e) an air gap separating the magnet and the conductor; and wherein the conductor includes one or more recesses that are an absence of material in the conductor.

An attachment for use with a food processing system is provided. The attachment includes a container body having a sidewall, a first end configured to be mounted to a food processing base, and a second end remote from the first end. The first end being open and the second end being partially closed. The attachment further includes a first agitating member including one or more blades. The first agitating member is receivable at the first end. The attachment also includes a second agitating member receivable at the second end including a fluid agitator. The fluid agitator is configured to direct a fluid to one or more regions of the container body.

An attachment for use with a food processing system is provided. The attachment includes a container body having a sidewall, a first end configured to be mounted to a food processing base, and a second end remote from the first end. The first end being open and the second end being partially closed. The attachment further includes a first agitating member including one or more blades. The first agitating member is receivable at the first end. The attachment also includes a second agitating member receivable at the second end including a fluid agitator. The fluid agitator is configured to direct a fluid to one or more regions of the container body.

A mixing vessel for a food processor operated by an electric motor, which mixing vessel has a mixing mechanism which can be connected to a rotary drive of the food processor by means of a coupling driver, wherein the mixing vessel has a cleaning device for cleaning an inner wall of the mixing vessel, in particular a floor of the vessel. The cleaning device is arranged on the mixing vessel, in particular on a vessel wall and/or the mixing mechanism, and has at least one cleaning element which is designed such that, upon actuation of the cleaning device, it sweeps over the inner wall and/or over sub-regions of the mixing mechanism and, by interacting mechanically with any deposits which may be located on the inner wall and/or the mixing mechanism, helps to remove the same. The mixing vessel can have a cleaning device which has an ultrasonic transmitter, which is arranged in a fixed position in a wall of the mixing vessel or which is arranged, in particular in a removable manner, in the interior of the mixing vessel.

Proposed is a vertically movable mixer including a container comprising a bottom portion in which a central through-hole is formed, a motor housing coupled to the container under the container, a motor built in the motor housing, a sliding member configured to reciprocally slidably move in a vertical direction through the central through-hole of the container, a rotatable shaft rotatably installed in the sliding member so as to be configured to reciprocally slidably move in the vertical direction in conjunction with the sliding member and axially mounted on a motor shaft of the motor so as to be configured to rotate by rotation of the motor, and a rotatable blade mounted on the rotatable shaft and configured to cut, grind, and mill food contained in the container while rotating and while reciprocally slidably moving in the vertical direction.

Proposed is a vertically movable mixer including a container comprising a bottom portion in which a central through-hole is formed, a motor housing coupled to the container under the container, a motor built in the motor housing, a sliding member configured to reciprocally slidably move in a vertical direction through the central through-hole of the container, a rotatable shaft rotatably installed in the sliding member so as to be configured to reciprocally slidably move in the vertical direction in conjunction with the sliding member and axially mounted on a motor shaft of the motor so as to be configured to rotate by rotation of the motor, and a rotatable blade mounted on the rotatable shaft and configured to cut, grind, and mill food contained in the container while rotating and while reciprocally slidably moving in the vertical direction.

A blender system may include a base including a motor, a container, and a blade assembly. The blade assembly may include a gear drive. The gear drive may include an input and an output. The input may receive a drive shaft of a motor. The output may drive blades of a blade assembly. The gear drive may alter a rotational speed of the blades relative to a speed of the drive shaft of the motor.

The mixing or dispersing device and assembly equipped with such a device are proposed for optimizing the processing of mixed or dispersed substances, in particular tablets and/or capsules for medicinal drugs. The mixing or dispersing device includes in a mixing chamber, a motor-driven rotor having at least one cutting projection that has at least one cutting edge. A flow-disturbing element is further provided on an inner circumferential wall of the mixing chamber that surrounds the axis of rotation. Furthermore, a deflection surface is provided between the inner circumferential wall and a bottom of the mixing chamber. The at least one flow-disturbing element is spaced from the bottom of the mixing chamber, from the at least one cutting projection and from the circular path on which the at least one cutting projection is movable about the axis of rotation.