A blender adapted to reduce food pieces and produce a blended food mixture, comprising a blending container for holding the food pieces, a pedestal having a motorized blade for reducing the food pieces, and a food scraping assembly positioned within the blending container. The food scraping assembly has a scraping ring adapted to dislodge unblended food particles adhering to an inner surface of the blending container, a rod adapted to alternatively raise and lower the scraping ring within the blending container, and an air pocket puncturing projection adapted to collapse a cavitation air bubble which surrounds the blade and interferes with the production of the blended food mixture.

A blender using different charging modes with wireless charging is disclosed. Exemplary implementations may include a base assembly, a container assembly, an electrical motor, a blending component, a control interface, blending control circuitry, charging control circuitry, and/or other components. The base component may include a rechargeable battery and a wireless charging interface. The charging control circuitry may be configured to make different types of detections related to the availability and/or usage of electrical power and related to the usage and alignment of the wireless charging interface with an external charging structure. The charging control circuitry may conduct electrical power to the rechargeable battery using at least two different charging modes, thus providing different amounts of electrical power to the rechargeable battery in different charging modes.

An apparatus for mixing a particulate material with a liquid in a container is adapted for tumble blending. The apparatus comprises a mixing device and a liquid injection nozzle. The mixing device includes mixer elements adapted to mix a particulate material by mechanical action. The nozzle is disposed to direct liquid in the direction of the mixer elements when mixing is taking place and ingress of material is prevented from entering into the nozzle.

An exemplary compounding system and method can include two pump heads for simultaneously drawing two different fluids from at least two separate input containers such that the at least two different fluids are mixed and distributed to an output container. The system can include a manifold that maintains separation of certain of the different fluids until after passing by a first pump and a second pump and/or additional pumps. A junction can be placed in the fluid line downstream of the first and second pumps and/or additional pumps such that all or some of the fluids are mixed prior to output to the output container. The method of using the system can include incorporating software that selects various fluids at certain times and sequences to ensure optimum efficiency and safety for the system, and can continue compounding actions even when an input supply container runs out or otherwise fails to supply a particular fluid/material. The method of use also includes connection of a transfer set to a housing in a manner that further ensures optimum efficiency and safety.

A mixer for a food product includes 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 is 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.

A raw material mixing apparatus, including mixing drums and a feed pipe, each of the two mixing drums is provided with a feed port and a discharge port, the feed ports of the two mixing drums are both communicated with the feed pipe, and a switching valve is arranged on the feed pipe; a first rotating disc and a second rotating disc are rotatably connected at two ends of each said mixing drum respectively, and a stirring assembly is connected between the first rotating disc and the second rotating disc in the axial direction of each said mixing drum; the stirring assembly includes a central stirring element and a plurality of non-central stirring elements radially arranged between inner side walls of each said mixing drum and outer side walls of the central stirring element.

A blender using different charging modes with wireless charging is disclosed. Exemplary implementations may include a base assembly, a container assembly, an electrical motor, a blending component, a control interface, blending control circuitry, charging control circuitry, and/or other components. The base component may include a rechargeable battery and a wireless charging interface. The charging control circuitry may be configured to make different types of detections related to the availability and/or usage of electrical power and related to the usage and alignment of the wireless charging interface with an external charging structure. The charging control circuitry may conduct electrical power to the rechargeable battery using at least two different charging modes, thus providing different amounts of electrical power to the rechargeable battery in different charging modes.

A blender using different power modes is disclosed. Exemplary implementations may include a base assembly, a container assembly, an electrical motor, a blending component, a control interface, control circuitry, and/or other components. The control circuitry may be configured to make different types of detections related to the availability and/or usage of electrical power, and may control the electrical motor using at least two different power modes of operation, thus providing different amounts of power to the electrical motor in different power modes of operation.