A device (30) includes a base connector (32) having an opening (33) and an impeller connector (64) coupled to the base connector (32). The impeller connector (64) has a through-passage (66) aligned with the opening (33) of the base connector (32). Further, the device (30) includes a flexible tube (34) having a first end (36) and a second end (40), where the first end (36) of the flexible tube (34) is coupled to the impeller connector (64). Furthermore, the device (30) includes a seal component (38) and an impeller (42) coupled to the second end (40) of the flexible tube (34). Additionally, the device (34) includes an enclosure (46) disposed enclosing the impeller (42), the flexible tube (34), the impeller connector (64), and the base connector (32).

Described herein is a protection device for an agitator shaft of an agitator, including an upper part, which serves for form-lock-fastening of the protection device to a part of an agitator head, which does not rotate during operation of the agitator; and a lower part, which serves for contactless covering of the agitator shaft; where the protection device includes two or more shell parts which can be form-lock-connected to each other by one or more manually releasable closures. Also described herein is a method of using the protection device for protecting operating personnel from getting into contact with a rotating agitator shaft of an agitator; and an agitator including an agitator shaft attached thereon, a part of an agitator head which does not rotate during operation of the agitator and the protection device attached thereon.

Described herein is a protection device for an agitator shaft of an agitator, including an upper part, which serves for form-lock-fastening of the protection device to a part of an agitator head, which does not rotate during operation of the agitator; and a lower part, which serves for contactless covering of the agitator shaft; where the protection device includes two or more shell parts which can be form-lock-connected to each other by one or more manually releasable closures. Also described herein is a method of using the protection device for protecting operating personnel from getting into contact with a rotating agitator shaft of an agitator; and an agitator including an agitator shaft attached thereon, a part of an agitator head which does not rotate during operation of the agitator and the protection device attached thereon.

A method of mixing a fluid includes at least partially unfolding a collapsible bag bounding a compartment, the collapsible bag containing in the compartment at least a portion of an elongated drive line or drive shaft and an impeller secured to the drive line or drive shaft, the impeller including a plurality of impeller blades that are pivotable relative to the drive line or drive shaft, at least one of the plurality of impeller blades being in a collapsed position. A fluid is delivered into the compartment of the collapsible bag. The drive line or drive shaft is then rotated so as to rotate the impeller within the compartment and mix the fluid therein, the at least one of the plurality of impeller blades pivoting from the collapsed position to an expanded position as the impeller is rotated within the compartment.

A stirring mill, including a horizontally arranged milling vessel and a stirring shaft which is arranged therein so that it can be rotationally driven are provided. The stirring shaft has a first stirring shaft section adjacent to an inlet for material to be ground, which has a smaller diameter D24, and a second stirring shaft section adjacent to an outlet for material to be ground, which has a larger diameter D25 and in which a separating device is formed. Bypass channels leading into the separating device are formed in the first stirring shaft section.

Disclosed in the present invention is a rotary filtering type two-in-one stirring kettle. The stirring kettle includes a kettle body, where an upper sealing head and a lower sealing head are arranged at a top and a bottom of the kettle body respectively, a stirrer is arranged in the kettle body, and a rotary filtering mechanism is arranged between the kettle body and the lower sealing head. A back-flushing cleaning mechanism for dredging the rotary filtering mechanism is arranged at a bottom of the lower sealing head, and the rotary filtering mechanism is fixedly connected to the kettle body and the lower sealing head.

Disclosed in the present invention is a rotary filtering type two-in-one stirring kettle. The stirring kettle includes a kettle body, where an upper sealing head and a lower sealing head are arranged at a top and a bottom of the kettle body respectively, a stirrer is arranged in the kettle body, and a rotary filtering mechanism is arranged between the kettle body and the lower sealing head. A back-flushing cleaning mechanism for dredging the rotary filtering mechanism is arranged at a bottom of the lower sealing head, and the rotary filtering mechanism is fixedly connected to the kettle body and the lower sealing head.

A variable-engagement planetary food mixing tool for attachment to a motorized food mixing apparatus is presented. The tool has a body that has a driveshaft engagement portion and a first longitudinal axis. The tool also has a sun gear concentric with the first longitudinal axis, wherein the sun gear has a first helical gear surface. A planet gear with a second longitudinal axis is also included, wherein the second longitudinal axis is non-parallel to the first longitudinal axis. The planet gear has a second helical gear surface extending around the second longitudinal axis. The planet gear is configured to engage the first helical gear surface of the sun gear in one or more positions along the second longitudinal axis. A mixing member is connected to the planet gear and moves around the first longitudinal axis while rotating around the second longitudinal axis as the planet gear traverses the sun gear.

A fluid mixing system includes a container, such as a flexible bag, bounding a compartment. A flexible drive line is disposed within the compartment, the drive line having a first end rotatably connected to a first end of the container and an opposing second end rotatably connected to a second end of the container. At least one mixing element, such as an impeller, can be coupled with the flexible drive line. Rotation of the drive line facilitates rotation of the impeller within the container.

A method of mixing a fluid includes at least partially unfolding a collapsible bag bounding a compartment, the collapsible bag containing in the compartment at least a portion of an elongated drive line or drive shaft and an impeller secured to the drive line or drive shaft, the impeller including a plurality of impeller blades that are pivotable relative to the drive line or drive shaft, at least one of the plurality of impeller blades being in a collapsed position. A fluid is delivered into the compartment of the collapsible bag. The drive line or drive shaft is then rotated so as to rotate the impeller within the compartment and mix the fluid therein, the at least one of the plurality of impeller blades pivoting from the collapsed position to an expanded position as the impeller is rotated within the compartment.