A homogenous mixing apparatus is provided that includes a circulation unit, a dynamic mixing unit, wherein a feeding port of the first-stage dynamic mixing device communicates with the discharging end of the circulation unit, a discharging port of the third-stage dynamic mixing device communicates with the feeding end of the circulation unit, and each of the dynamic mixing devices includes a dynamic mixer; and a control unit, configured to be capable of controlling the dynamic mixing unit, so that the dynamic mixers of the first-stage, second-stage, and third-stage dynamic mixing device are capable of being independently started and shut down and operated at independent rotating speeds, wherein the dynamic mixers each includes a stator and a rotor, rotating speed ranges of the dynamic mixers of the first-stage, second-stage, and third-stage dynamic mixing device increase in sequence, and distances between the rotors and the stators decrease in sequence.

A homogenous mixing apparatus is provided that includes a circulation unit, a dynamic mixing unit, wherein a feeding port of the first-stage dynamic mixing device communicates with the discharging end of the circulation unit, a discharging port of the third-stage dynamic mixing device communicates with the feeding end of the circulation unit, and each of the dynamic mixing devices includes a dynamic mixer; and a control unit, configured to be capable of controlling the dynamic mixing unit, so that the dynamic mixers of the first-stage, second-stage, and third-stage dynamic mixing device are capable of being independently started and shut down and operated at independent rotating speeds, wherein the dynamic mixers each includes a stator and a rotor, rotating speed ranges of the dynamic mixers of the first-stage, second-stage, and third-stage dynamic mixing device increase in sequence, and distances between the rotors and the stators decrease in sequence.

A method and a system for preparing a biomaterial from at least two components, said method comprising the steps of: providing at least two biomaterial components in a mixing compartment (3) of the preparation system (1; 1); measuring at least one feature in the preparation system with at least one sensor (7), said at least one feature comprising at least temperature and/or humidity; mixing said at least two biomaterial components by a mixing device (5) of the preparation system (1; 1) to which mixing device (5) said mixing compartment (3) can be or is connected; controlling said mixing by a control unit (9) of the preparation system (1; 1), said control unit (9) being in communication contact with said mixing device (5) and with said at least one sensor (7), wherein said mixing is controlled such that at least one mixing parameter of said mixing is dependent on a value of said at least one measured feature.

A constrictor valve can be associated with a conduit in fluid communication with a mixer to control a flow of cementitious slurry discharged from the mixer through the conduit. The constrictor valve can include a constrictor housing, a webbing constriction assembly, and a drive mechanism. The webbing constriction assembly includes a pair of rotatable members rotatably mounted to the constrictor housing and a plurality of webbing straps connected to the rotatable members and wrapped around the conduit. The drive mechanism includes a drive shaft and a gear assembly configured to rotate the rotatable members in opposing winding directions in response to the drive shaft rotating in a tighten direction to wrap the webbing straps tighter around the conduit to compress it and to rotate in opposing unwinding directions in response to the drive shaft rotating in a loosen direction to loosen the grip of the webbing straps on the conduit.

A control panel for a blender assembly is shown and described. The control panel may include a body integrated with controls. The body may also be integrated with circuitry, such as a printed circuit board. The controls may interact with the printed circuit board to control operation of the blender assembly.

The invention relates to apparatus and a process for mixing a gas/vapour with a process liquid comprising a material and a carrier liquid. The apparatus comprises a passage (10) of polygonal cross section having an inlet (14), an outlet (16) for a process liquid comprising the material, and a nozzle (24) for introducing supersonic gas/vapour at a mixing zone (42) in a single plane.

A stirring device applicable to containers is disclosed, which includes a power module, a control module and a driver module. The power module provides power for this whole device, the driver module is equipped with an output shaft, and the output shaft is connected to a stirring rod extending into an interior of the container. The control module has specific forward and reverse rotations program scheme, its specific operation mode is that, the stirring rod is controlled to rotate in one direction for a number of seconds or revolutions, and then followed by in an opposite direction for a number of seconds or revolutions, and such cycle is repeated again and again. A mixer adopting above technical solutions can well meet requirements of churning such as stable, low noise, fast, uniform, and non-foaming.

A stirring device applicable to containers is disclosed, which includes a power module, a control module and a driver module. The power module provides power for this whole device, the driver module is equipped with an output shaft, and the output shaft is connected to a stirring rod extending into an interior of the container. The control module has specific forward and reverse rotations program scheme, its specific operation mode is that, the stirring rod is controlled to rotate in one direction for a number of seconds or revolutions, and then followed by in an opposite direction for a number of seconds or revolutions, and such cycle is repeated again and again. A mixer adopting above technical solutions can well meet requirements of churning such as stable, low noise, fast, uniform, and non-foaming.

A device for mixing or blending the contents of the device into a liquid or semi-liquid. The device includes a bottle body, a bottle lid connected to a top end of the bottle body, and a mixer located within the bottle body. The mixer may be powered by a motor or by a manual crank turned by a user.

A dishwasher includes a drying system that incorporates a mixing conduit that mixes air streams from an exhaust fan that draws humid air from a wash tub, an inlet fan that supplies ambient air to the wash tub, and a gate device that is movable within a range of positions to regulate fluid flow through at least one of first and second inlets of the mixing conduit. A controller may perform a multi-stage drying operation that, in a first stage, controls the gate device while the inlet fan is deactivated, and in a second stage, additionally controls the speed of the inlet fan while controlling the gate device.