Provided is a bidirectional simultaneous rotary blade bundle for a mixer, the bidirectional simultaneous rotary blade bundle including: a housing; a forward rotary shaft installed on the housing; a forward rotation blade provided on the forward rotary shaft; a central gear axially installed on the forward rotary shaft; horizontal insertion gears engaged with the central gear; a reverse rotor, of which inner gear teeth are engaged with and rotate on the outside of the horizontal insertion gears; and a reverse rotation blade installed on the reverse rotor, wherein the horizontal insertion gears are rotated in the reverse direction according to the forward rotation of the central gear such that the inner gear teeth are rotated in the reverse direction.

A blender 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 container. The base also includes a motor that is selectively and operatively engaged with a blade disposed within the container.

An assembly for a portable blender. The assembly having a housing that is configured for coupling to a container. The assembly has at least one battery, a motor electrically connected to the battery, a blade coupled to the motor, and a user input device operable to cause power to be sent from the battery to the motor so that the motor rotates the blade. At least a portion of the blade is positioned outside of the housing so that the blade is configured to be positioned in an interior space of the container when the housing is coupled to the container. The assembly may include a plurality of batteries each positioned radially outward from the motor with the batteries positioned circumferentially around the motor. A portable blender including the assembly and a container. The container having a dual-wall, vacuum insulated construction.

Blending devices can be used to blend material in a disposable container such as a paper or plastic cup. A blending device may have a jar or container portion that is insertable into a disposable container and that seals its opening. A space within the jar or container portion contains a blending blade assembly that is rotatable to blend material in the disposable container. A shelf or overhanging structure may extend partially over the bottom surface of the jar or container portion to limit movement of material out of the space in the jar or container portion in a vertical and lateral direction to reduce stresses on the container during blending. After blending, the disposable container may be removed from the blending device and the blended material may be served directly in the container. Ducted blending and other flow control devices are also disclosed.

An ice cream scoop having a heat transfer fluid with a high specific heat and a fluid stirring device, having: at least one scoop body, which includes a scoop portion with high thermal conductivity and a handle portion that is connected to the scoop portion along the length direction, wherein the handle portion is formed with at least one cavity in communication with the scoop portion; a heat transfer fluid filled in the cavity, the heat transfer fluid having a specific heat higher than that of the scoop portion; at least one group of heat sink fins connected with the cavity, the group of heat sink fins being disposed along the length direction opposite the scoop portion; and at least one fluid stirring device, which is at least partially extended into the cavity so as to facilitate convection of the fluid along the length direction.

This disclosure relates to a system configured to determine masses, weights, and/or other quantities of individual ingredients added to a food dish during preparation. At least some of the components of the system may be configured to be used in a food preparation area. The system may include a scale, a client computing device, external resources, and/or other components. The system may be configured to weigh and/or determine the mass of individual ingredients of the dish as the ingredients are added to the dish. The system may be configured to determine the individual mass and/or weight of each ingredient based on the masses and/or weights of individual ingredients previously added to the dish and/or a current mass and/or weight of the dish as a given ingredient is added.

A blender 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 container. The base also includes a motor that is selectively and operatively engaged with a blade disposed within the container.

A blending system is shown and described herein. A blending system may include a base including a motor and a first shell that encases the motor. The blending system may also include a container that is removably coupled to the blender base. The blending system may also have a second shell selectively attached to the first shell. The blending system may also have a wall positioned within the base to direct airflow from the fan along a volute-shaped path.

A mixing vessel for an electric motor-operated food processor, with a vessel floor, an agitator extending through the vessel floor into the mixing vessel, and a foot part that can be externally connected with the vessel floor, which is designed for fixing the agitator to the vessel floor. In order to prevent a user from filling the mixing vessel without the agitator properly assembled in the food processor, it is proposed that the vessel floor or foot part have a blocking element that can be exposed to the spring force of a spring element, and can be shifted against the spring force by means of a corresponding contact element of the foot part or vessel floor from a blocking position that prevents a fixation of the agitator into a release position that enables a fixation.

A drive coupling assembly for a food processing device includes an adapter having a connection mechanism for connection of the adapter to a drive shaft of a motor of a food processing device, and a coupler body having an aperture and an opening, the opening being configured to receive a shaft of a blade of a food processing container, and the aperture being configured to releasably receive the adapter.