Disclosed in an embodiment of the present application is a mixing apparatus, mixing machine, and cooking utensil. A mixing apparatus that can be fitted to an electric motor assembly. The electric motor assembly is able to drive the mixing apparatus to rotate for mixing food ingredients. The mixing apparatus comprises a connection part, stirring rods extended from the connection part and stirring bars. The positions at which the stirring bars are fitted to the stirring rods can be adjusted based on the type and quantity of food ingredients to increase mixing uniformity.

A countertop appliance is provided that has a motor and an actuator for setting an operational criteria of the motor, such as motor speed. The position of the actuator can be set physically by a user adjacent to the countertop appliance or via a signal received from a remote device, such as a smartphone or a home automation device. If a signal is received remotely, the physical position of the actuator is updated to show the updated operational criteria of the motor for the countertop appliance. An option feature of a confirmation interface is provided on a housing for the countertop appliance in which a user adjacent to the countertop appliance can confirm or reject an update to the operational criteria of the motor.

A food processing machine capable of omnibearing stirring is provided. The food processing machine may include an L-shaped machine body, a cup, an opening-and-closing arm and a machine head having a built-in motor. The food processing machine may have a relatively small size, a more effective structure, and good stability relative to conventional food processing machines. The structure of the food processing machine may also use less power.

A tool intended as an attachment or accessory for a food processor and configured to automate the delicate operation of folding ingredients together without expelling air is described. The tool includes first and second curved blades which depend from a casing part that is rotated within a processing bowl by means of a geared arrangement that picks up rotary drive from a drive shaft coupled to a driven outlet on the base of the food processor. The blades are disposed at different distances from the axis about which the casing rotates, so that the outer blade passes closer to the wall of the bowl than does the inner blade.

An extrusion assembly for a micro puree machine is disclosed. The extrusion assembly includes a plunger drive inhibitor configured to restrict input torque applied to the extrusion assembly from transferring to the extrusion drive train and the extrusion plunger. The plunger drive inhibitor may be implemented with various mechanisms, including a slip clutch assembly (with or without a frictional cone brake), a torsion spring, and/or an automated slip clutch assembly configured to cut power to the extrusion drive train when slipping of the clutch plates is detected.

A stand mixer includes an outer casing and a mixing motor disposed within the outer casing. A motor shaft is coupled to the mixing motor such that the motor shaft is rotatable by the mixing motor. A heatsink is mounted on the motor shaft such that the heatsink is in thermal communication with the motor shaft.

A micro puree machine has a drive motor positioned within a lower portion of a housing extending along a vertical axis. A mixing shaft positioned within an upper portion of the housing extends at a non-parallel angle relative to the vertical axis. The bowl of ingredients is installed to an angled surface of the upper portion of the housing along the mixing shaft axis, allowing for easier viewing of the bowl installation.

An apparatus, including a food processor having a housing having a first section and second section, which second section is elongate in shape and houses at least a portion of a rotating member; a food processing attachment connected or attached to an end portion of the second section; and a plate capable of serving as a cover or lid for a cooking pot capable of being heated by a heating source. The plate has an opening for receiving the second section which is capable of being slideably moveable in and through the opening in a bi-directional manner to raise or lower a position of the food processing attachment, or to move the food processing attachment up or down, inside the cooking pot by a movement of the second section vertically up or down through the opening during a cooking or food processing operation in the cooking pot.

An apparatus, including a cooking pot; and a food processor including a housing having a first section and second section, a food processing attachment, and a plate. The first section houses an electric motor. The second section is elongate in shape and houses a portion of a rotating member. The second section has a first end portion, connected or attached to the first section, and a second end portion. The food processing attachment contains a food processing element connected or attached to the second end portion of the second section. The rotating member is mechanically connected or coupled to the food processing attachment. The plate is sized to be placed on, or attached to, a top of the cooking pot. The plate contains an opening for receiving the second section which is capable of being slideably moved in and through the opening in the plate in both directions.

A hand blender with a built-in 2-speed gearbox, having its output shaft rotating clockwise whenever the motor rotates clockwise or anticlockwise. By using a differential transmission assembly and a one-way bearing, two different output speeds are realized. Thus, different types of food can be processed with different stirring speeds, and a single type of food can be processed with different stirring speeds in different mixing stages of a stirring process.