A blender/juicer appliance includes: a base including a rotary drive unit; a blender assembly including a blender jar and a blending tool unit, the blending tool unit configured for coupling with the rotary drive unit; a juicer assembly including a juicing bowl and a juicing tool unit, the juicing tool unit configured for coupling with the rotary drive unit; and a latch assembly attached to the base and movable between blending and juicing positions. In the blending position, the latch assembly engages the blender assembly to secure the blender assembly to the base, and in the juicing position, the latch assembly engages the juicer assembly to secure the juicer assembly to the base.

Various juicing devices, systems, and methods are disclosed. The juicing device has mechanical squeezers, combination blades, front trays, and/or control systems for effective pressing.

A food processing apparatus for preparing a fluid food product includes a food processing chamber including a blade arrangement driven by a motor; a particle sensor arranged to measure an actual particle size within said fluid food product in said food processing chamber and a controller arranged to control the motor. The controller is communicatively coupled to the particle sensor and may disengage the motor in response to a signal from the particle sensor indicative of the actual particle size reaching a threshold value of no less than 400 μm within said fluid food product.

An improved blade assembly is provided for use in a cooking appliance such as a blender or a food processor. The bottom blade portions of the blade assembly include a geometry that provides an angled, sharpened portion on wing portions that extend downwardly from the bottom blade. The bottom blade's geometry, including the sharpened portions, help rotate the material so that it is blended upwardly to help prevent food from getting stuck in the void below the bottom blade, thus improving the blade's efficiency.

A beverage container with an integral stirrer is disclosed. The container includes a main body for holding a beverage. The main body is mounted on a base, which includes an electric motor for operating the stirrer, a battery compartment and a control mechanism for operating the electric motor.

A blending device includes a motor, a motor controller, and a wireless controller configured to receive a wireless signal. The motor controller may be configured to alter the operations of the motor based the wireless signal. The wireless signal may include a blending program to be carried out by the blending device. The blending device may include one or more sensors configured to sense parameters of the blending device. The wireless signal may include information related to the sensed parameters. A blending device network may be formed by providing a second blending device having a wireless controller in communication with the first blending device wireless controller. The first and second blending devices may share information over the network.

A blending device includes a motor, a motor controller, and a wireless controller configured to receive a wireless signal. The motor controller may be configured to alter the operations of the motor based the wireless signal. The wireless signal may include a blending program to be carried out by the blending device. The blending device may include one or more sensors configured to sense parameters of the blending device. The wireless signal may include information related to the sensed parameters. A blending device network may be formed by providing a second blending device having a wireless controller in communication with the first blending device wireless controller. The first and second blending devices may share information over the network.

A food processor includes a main machine, a processing cup structure, and a heating device. The main machine has a processing chamber with an opening at an upper end of the processing chamber. The processing cup structure includes a processing cup, at least part of the processing cup is configured to be detachably mounted in the processing chamber through the opening of the processing chamber, and a processing cavity is formed in the processing cup for containing food material. The heating device is provided in the main machine, and is configured to heat heat-conducting fluid in the processing chamber. The heated heat-conducting fluid conducts heat into the processing cavity, to at least heat the food material in the processing cavity.

A mixer includes an eccentric drive mounted on a mixing head of the mixer and configured to orbit around a central axis of a mixing area and rotate an offset rotational axis of a drive shaft about the central axis of the mixing area. A dual whisk beater attachment includes a housing operably coupled to the eccentric drive, a first whisk rotatably mounted within the housing and operably coupled to the drive shaft of the eccentric drive of the mixer, and a second whisk rotatably mounted within the housing and operably coupled to the drive shaft of the eccentric drive of the mixer via a plurality of gears disposed within the housing. The first whisk is configured to rotate about a first whisk rotational axis and orbit the central axis of a mixing area, and the second whisk is configured to rotate about a second whisk rotational axis.

A mixer for combining food constituents into a homogeneous mass includes an eccentric drive mounted on a mixing head of the mixer, where the eccentric drive is configured to rotate around a central axis of a mixing area and rotate an offset rotational axis of a drive shaft in an orbit about the central axis of the mixing area. An angled beater attachment for the mixer further includes a top mounting portion operably coupled to the drive shaft of the stand mixer, a bottom beater portion disposed above the mixing area, and a beater support member operably coupled with a support shaft of the bottom beater portion. The bottom beater portion is driven by the drive shaft about an angled rotational axis that extends at an acute angle relative to the central axis of the mixing area.