The embodiments disclose an attachable battery base module configured for powering at least one attachable application module coupled to the attachable battery base module, wherein the attachable battery base is configured for powering the at least one attachable application module, a heating module attachment with a temperature control module coupled to the attachable battery base module configured for heating and/or boiling a liquid, a cooling module attachment with the temperature control module coupled to the attachable battery base module configured for cooling a liquid and wherein the temperature control module includes a temperature maintenance mode, wherein the temperature maintenance mode is configured for maintaining a preset, predefined or user preselected desired temperature when the desired temperature is reached.

A beverage container for a blender includes one or more vibrating mechanisms coupled to a bottom portion of the beverage container or integrated within one or more walls of the beverage container. After a beverage has been blended, the one or more vibrating mechanisms are activated as the beverage is being poured. Vibrations from the one or more vibrating mechanisms are mechanically transmitted to the beverage container, thereby promoting the pourability of the beverage from the beverage container, including dislodging ingredients in the beverage that became lodged or trapped in crevices of the beverage container during the prior blending process, and freeing up beverage ingredients that accumulated at the bottom of the beverage container during the prior blending process.

A blending system includes a blender base and a container. The blender base includes a housing that houses a motor. The container is attachable to the blender base. The blending system includes a user device that communicates with the blender base. The user device may communicate with a remote computing device. The user device generates instructions and recipes for the blender base.

A method for a food processor including a pot, a heating element for heating the pot and/or a food in the pot, and a temperature sensor for determining an actual temperature (T.sub.I) of the pot or the food in the pot, includes performing temperature control by a control device in a temperature control mode based on a desired temperature (T.sub.T) by adjusting an electrical energy supplied to the heating element in dependence on the actual temperature (T.sub.I) so that the actual temperature (T.sub.I) approaches or reaches the desired temperature (T.sub.T).

A drinking lid is disclosed herein. Exemplary implementations may include a stationary portion and a spinning portion. The stationary portion includes a drinking opening. The spinning portion is rotatably coupled to the stationary portion. The spinning portion is configured to be positioned in a position in which the drinking opening is covered such that the drinking lid is spill-resistant. The spinning portion is further configured to be positioned in a different position that leaves the drinking opening uncovered or open.

A kitchen appliance a bowl; a lid arranged to be fitable to the bowl; a seal arranged to be fitted between the lid and the bowl when the lid is fitted to the bowl; and a safety device arranged to allow operation of the kitchen appliance only when both the lid is fitted to the bowl and the seal is fitted between the lid and the bowl.

A blender assembly includes a blender jar having a bottom wall. The bottom wall includes first and second surfaces opposing one another and an interior edge defining an opening. A bearing housing is positioned at least partially within the opening and is spaced apart from the first surface of the bottom wall and the interior edge of the bottom wall. A nut is operably coupled with the bearing housing and is spaced apart from a second surface of the bottom wall. A gasket assembly is positioned to maintain a spacing of the bearing housing and the nut relative to the bottom wall. The gasket assembly is positioned over the interior edge of the bottom wall.

A blender with a display panel is provided to effectuate presentations of visual content. Exemplary implementations may: receive a first type of user input through the control interface; make detections regarding the user input received through the control interface; effectuate presentation of visual content on the display panel, responsive to a first detection of the first type of detections; and/or perform other operations.

The present disclosure relates to an overflow structure of a kitchen appliance. A motor is assembled in a mainframe of the kitchen appliance. A mainframe upper cover is disposed above the motor, and the mainframe upper cover is connected to the mainframe and is used to place a container cup assembly, a shaft of the motor is connected to a clutch assembly for power transmission, a base is installed at a lower end of the mainframe. The overflow structure includes: a mainframe-upper-cover drainage structure including at least one side drainage hole opened at an edge of the mainframe upper cover, and a first water receiving part for transferring liquid in the side drainage hole; an interference drainage structure including a water receiving tray for receiving liquid overflowing from a gap between the clutch assembly and the mainframe upper cover, and a second water receiving component for transferring liquid in the water receiving tray.

A kitchen machine has an automatic cleaning function. The kitchen machine comprises a vessel, an agitator located in the vessel, a motor configured to rotate the agitator, a heater configured to heat the vessel, a temperature sensor configured to detect a temperature of the vessel, and a controller configured, for cleaning the vessel, to control, based on a temperature detected by the temperature sensor, at least one of a rotation speed of the motor, a rotation duration of the motor, a rotation direction of the motor, a heating temperature of the heater, and a heating duration of the heater.