A food processor is provided. The food processor comprises a base, a container removably mountable on the base for receiving food, a rotatable mixing member disposed within the container for processing the food, an induction coil enclosing at least a portion of the container, and an electrically conducting member removably receivable within the container in a substantially parallel relationship with a surface defined by at least a portion of the induction coil.

A bowl assembly 110 for a kitchen appliance 1 arranged to process ingredients contained within the bowl assembly 110, comprising: a bowl 112 having an aperture 115 in its base; a drivable tool mount 200 for a food processing tool arranged to fit within the aperture 115; and a blanking plug 300 arranged to fit within the aperture 115; wherein the drivable tool mount 200 and blanking plug 300 are interchangeable with one another.

A blending device is shown and described. The blending device may include a blending container and a power source operatively connected to the blending container. The power source may be configured to supply power to the blending container. The blending container may also include a feature that is powered by the power source.

The present invention relates to a blender which comprises: a jar in which a blade module in which food is crushed is placed; a body in which the jar is seated and which has an opened lower surface; a motor assembly which is provided inside the body and rotates the blade module; a cooling fan which is provided at the lower end of a rotary shaft of the motor assembly and rotates when the motor assembly is driven to thereby force air flow in the inside of the body; a PCB module which is placed between the circumferential surface of the body and the motor assembly; a base plate which blocks the opened lower surface of the body and includes a plate suction port via which air is sucked into the inside of the body, and a plate drain port via which air is discharged to the outside of the body; and an air guide which connects the motor assembly to the plate drain port to thereby form a discharge path of air, wherein the PCB module is placed at the upper side of the plate suction port and is cooled by the sucked air.

A vacuum blending system may be used to blend solids, powders, and/or liquids (foodstuff) in an evacuated blender jar and/or evacuated enclosure to reduce or eliminate the air included in the resulting mixture. The vacuum blending system may be embodied as a vacuum lid adaptable for use with any of a wide variety of blending systems. In other embodiments, the vacuum blending system may be embodied as a blender with an integrated vacuum system. In still other embodiments, the vacuum blending system may be embodied as a vacuum pump, and optional vacuum tank, for use with a plurality off blender enclosures. Any of these vacuum blending systems may be used to produce blended foodstuff that has superior texture, offer increased nutritional benefit, and/or remain homogeneous for longer than the same foodstuff remains well-mixed when blended in a non-vacuum.

A micro puree machine including a housing, a power shaft, a bowl assembly and a platform. The power shaft extends from the housing. The bowl assembly including at least one locking bowl element. The platform includes at least one complementary locking platform element that is configured to engage the at least one locking bowl element such that rotation of the bowl assembly relative to the platform is prevented at times the bowl assembly is positioned thereon. The platform is rotatable from a first position to a second position relative to the housing such that the platform raises the bowl assembly towards the power shaft during the rotation of the bowl assembly and platform. The raising of the bowl assembly facilitates connection between the power shaft and a blade assembly that is positioned in a lid assembly on the bowl assembly.

The present invention relates to a micro puree machine that includes a blade assembly, a lid assembly, and a clip mechanism. The blade assembly has a central support hub, a blade, and an undercut. The lid assembly is configured to cooperate with a bowl assembly and includes a lid and a clip mechanism. The clip mechanism is movable between a first position and a second position and cooperates with the undercut at times the clip mechanism is the in the first position. The blade assembly is retained in the lid assembly at times the clip mechanism is in or near the first position, and the blade assembly is disengaged from the undercut and removable from the lid assembly at times the clip mechanism is in or near the second position.

The present invention relates to a micro puree machine that includes a blade assembly, a lid assembly, and a clip mechanism. The blade assembly has a central support hub, a blade, and an undercut. The lid assembly is configured to cooperate with a bowl assembly and includes a lid and a clip mechanism. The clip mechanism is movable between a first position and a second position and cooperates with the undercut at times the clip mechanism is the in the first position. The blade assembly is retained in the lid assembly at times the clip mechanism is in or near the first position, and the blade assembly is disengaged from the undercut and removable from the lid assembly at times the clip mechanism is in or near the second position.

A blending device is shown and described. The blending device may include a blending container and a power source operatively connected to the blending container. The power source may be configured to supply power to the blending container. The blending container may also include a feature that is powered by the power source.

Blending devices can be used to blend material directly in a container such as a disposable container, such as a paper or plastic cup. In some instances, a disposable container can be coupled to an adapter that includes a blade assembly to blend a food product. The food product can be blended directly within the container when the container is coupled to the adapter and supported with a support sleeve that at least partially surrounds an exterior of the disposable container. In further instances, a stand can selectively couple with multiple different sizes of sleeves and disposable containers to the adapter. The food product can be blended directly within the disposable container without causing damage or flex to the disposable container.