A blender for processing comestible matter includes a base with a motor, a blade assembly, and a container. The blender further comprises a first safety mechanism and a second safety mechanism. The first safety mechanism functions to ensure that the container is securely attached to the blade assembly before the blade assembly can be mounted to the base. The second safety mechanism functions to ensure the motor in the base can only be powered on when the container and the blade assembly are securely mounted to the base. The blender is operable by affixing the container to the blade assembly, and then the assembly to the base, such that both safety mechanisms are released to permit the motor to be activated.

A blending system that includes a base that is selectively and operatively engaged with a container is shown and described herein. The base may include a near field communications chip that may communicate with a near field communications chip of a cutting disc. The cutting disc identifies a type of the cutting disc, a position of a chute of a lid or both.

A blender includes a base. The blender further includes a sensor disposed in the base. The blender further includes a container selectively coupled with the base in a first rotational position and in a second rotational position. The container has an upper portion and a lower portion. The blender further includes a lid selectively engaging the upper portion of the container. The blender further includes a carrier in the lower portion and extending between a first end and a second end. The carrier includes a first magnet disposed proximate the first end. The carrier further includes a second magnet disposed proximate the second end. The sensor is configured to detect the first magnet in the first rotational position and the second magnet in the second rotational position.

A versatile food processing system that can work with plurality of top-mounted food processing units of different types and sizes is disclosed. The motor base of the food processing system has a locking mechanism and safety actuators at different radial locations so that food processing units of different sizes can utilities the safety mechanism. One particular processing unit is especially useful for making noodles and vegetable strips. The processing unit comprises a stationary outer vessel and a rotating inner vessel. Blades are located on an inner lid of the inner vessel. The inner vessel spins in unison with the inner lid without a central shaft to avoid harm caused by the shaft to the quality of the resulting noodles.

A blender base is generally described. The blender base includes a base frame. An outer shell may be connected to the base frame. A motor housing is supported by the base frame and positioned inside the outer shell. The motor housing is isolated from direct connection with the outer shell to reduce the transfer of noise and vibration from the motor to the outer shell.

A system for processing foodstuffs includes a container platform, a blade platform, and a locking mechanism. The container platform defines a container receptacle configured to receive a container including foodstuffs. The blade platform includes blades configured to rotate to process the foodstuffs. The locking mechanism is configured to couple the container platform to the blade platform to form a blending chamber including the blades and the container subsequent to determining that the container is received by the container receptacle and prior to rotation of the blades.

A safety system (4) for a kitchen device (1) having a vessel (5) and a lid (21), the safety system (4) comprising: a processor (10); a retaining arm (7) adapted to, in a retaining position, retain the lid (21) against the vessel (5); a first sensor (40) adapted to communicate a retaining signal to the processor (10) when the retaining arm (7) is in the retaining position; and a second sensor (43) adapted to communicate a function signal to the processor (10), the function signal indicating a function of the lid (21), wherein the processor (10) is adapted to select an operating mode of the kitchen device (1) in response to the retaining signal and the function signal.

An attachment for use with a food processing system includes a sealable body including a wall and a processing chamber, a chamber opening formed in said sealable body, and a vacuum passage arranged in fluid communication with said chamber opening. The vacuum passage is associated with at least one of said wall and said processing chamber of said sealable body.

A food processing container includes a food processing chamber and a cover assembly with a latch mechanism operable between latched and unlatched positions. The latch mechanism includes a first magnetic member disposed therein. An interlock assembly is disposed outside of and adjacent to the food processing chamber and includes a sealed cavity with a plunger member moveable disposed within the sealed cavity. The plunger is operable between at-rest and actuated positions within the sealed cavity and includes upper and lower magnetic members disposed at opposite ends of the plunger member. The plunger member moves to the actuated position as the latch mechanism moves to the latched position due to a repulsion force between the first magnetic member and the upper magnetic member, and further wherein the lower magnetic member moves into the lower portion of the sealed cavity as the latch mechanism moves to the latched position.

A blending system is shown and described herein. The blending system may include a base including a motor, a blade selectively and operably engaged with the base, where the motor rotates the blade, a container having an open end and a lid configured to cover the open end. The blending system may also include an interlock system that may include a plurality of induction coils positioned on the base and the container and be in electrical communication with at least one lid sensor, wherein the power is translated through the induction coils to engage a switch device to complete a power circuit to allow a user to operate the motor of the blender.