Provided is a discharge apparatus using an aerosol container, including a holding container for holding contents, a pressurizing unit configured to inject a filling material within the holding container by the aerosol container to pressurize the holding container, and a discharge unit configured to discharge the contents to the outside of the holding container. An unmanned aerial vehicle including the above-described discharge apparatus is also provided. A discharge method using an aerosol container, comprising: holding contents of a holding container; injecting a filling material within the holding container by the aerosol container to pressurize the holding container; and discharging the contents to the outside of the holding container is also provided.

A portable warming blender includes a base assembly with a recessed portion; a temperature control system; a detachable agitator rotatably mounted on an axle extending longitudinally into the recessed portion; an electric motor; a rechargeable power system; and a controller. The base assembly includes a housing with a cylindrical sidewall, housing the motor, the power system, and the controller. An inner surface of the recessed portion is threaded. The temperature control system includes a temperature sensor and a heating element. The temperature sensor is mounted adjacent to the axle. The heating element heats the recessed portion. The motor is magnetically coupled with the agitator. The rechargeable power system includes a rechargeable battery and a charging port. The controller selectively transmits power to the temperature control system and the motor from the power system when an operating mode is selected. The blender warms, blends, or both in one device anywhere, anytime.

A portable warming blender includes a base assembly with a recessed portion; a temperature control system; a detachable agitator rotatably mounted on an axle extending longitudinally into the recessed portion; an electric motor; a rechargeable power system; and a controller. The base assembly includes a housing with a cylindrical sidewall, housing the motor, the power system, and the controller. An inner surface of the recessed portion is threaded. The temperature control system includes a temperature sensor and a heating element. The temperature sensor is mounted adjacent to the axle. The heating element heats the recessed portion. The motor is magnetically coupled with the agitator. The rechargeable power system includes a rechargeable battery and a charging port. The controller selectively transmits power to the temperature control system and the motor from the power system when an operating mode is selected. The blender warms, blends, or both in one device anywhere, anytime.

A blender system for blending ingredients from a container with a fluid includes a bottle, a disinfection device, and a container. The bottle has a blending chamber with an opening to receive a fluid and a shoulder about the opening. The lid is configured to couple with the bottle and includes a container receiver. The container receiver is configured to receive the container and position a lip of the container against the shoulder when the lid is coupled to the bottle. The container receiver is further configured to press the container towards the opening while the shoulder holds the lip stationary to discharge the ingredients from the container into the fluid in the blending chamber. The disinfection mechanism kills bacteria, viruses and other pathogens in the container and bottle.

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 tank, such as a fermentation tank, includes a scraper blade assembly slideably coupled to a bottom surface of the tank. The scraper blade assembly includes a blade arranged to displace solids deposited on the bottom surface of the tank out through an aperture arranged flush with the bottom surface of the tank.

A household appliance includes a food ingredients container and a tool. The food ingredients container is configured to receive one or more food ingredients. The tool is configured to blend and/or chop the one or more food ingredients.

A blending device having an interlock system which may comprise a plurality of subassemblies. A thermal detector may be configured to be proximity with matter being blended for human consumption. Interlock system may further include a blade interlock contact and a compressive contact. The blender vessel may be configured to compress the compressive contact to a communicative configuration when connected with the blade assembly. Interlock system may utilize a blender base assembly that has base interlock contacts and a motor. The blade assembly may be configured to releasably mount to the blender base assembly and may cause the base interlock contact and the blade interlock contact to come into electrical communication with each other. The interlock system may ultimately result in the motor being obstructed from operation unless certain conditions are met. The interlock system may further utilize one or more than one logic circuit element.

A stirring apparatus includes a case that houses fiber pieces containing fibers, and a rotary body that is disposed inside the case and that stirs the fiber pieces, in which the rotary body includes a rotary portion that forms a portion of a bottom surface of the case and that rotates, and blades that stand upright on the rotary portion.

A system for making resin solutions includes a washer tub having an inner wall, an outer wall aligned parallel with the inner wall and spaced apart from the inner wall by a gap, and a sloped floor disposed within the inner wall. The inner wall, the outer wall and the sloped floor form a basin including a square cross-sectional shape with four rounded corners. A fluid circulation loop is located in the gap between the inner wall and the outer wall and wraps around the inner wall more than once for controlling a temperature of the washer tub. An impeller is centrally located above the sloped floor, an electric motor rotates the impeller under control of a controller, and a user interface receives instructions for various operating cycles of the impeller.