A stand mixer includes: a base, the base including a bowl lift framework having first lift features; a support arm attached to the base and extending upwardly therefrom; a head attached to an upper end of the support arm and extending generally horizontally therefrom above the base; and a bowl assembly comprising a bowl and a skirt mounted to the bowl, the skirt including second lift features. The first lift features interact with the second lift features such that, when the bowl assembly is rotated relative to the bowl lift framework, the bowl assembly changes elevation relative to the base between raised and lowered positions.

An automated cooking machine includes a lazy susan, bowls, chopper, dispenser arm, rack with powder or liquid dispensers, heater and a pot. The automated cooking machine is controlled by a microcontroller together with sensors to cook foods with flavor like a human being. The automated cooking machine is designed in such a way so that the components that may come in contact with the food ingredients can be removed for machine wash.

The present disclosure provides a food processor including a cutter head, on which a cutter is arranged; and a cup body arranged on the cutter head. The intersecting line of the side wall of the cutter head and the cross section of the cutter head is a cutter head contour line, the largest inscribed circle or the smallest circumscribed circle of the cutter head contour line is a cutter head base circle, and the central axis of the cutter head penetrates the center of the cutter head base circle. The intersecting line of the cup wall of the cup body and the cross section of the cup wall is a cup body contour line, the largest inscribed circle or the smallest circumscribed circle of the cup body contour line is a cup body base circle, and the central axis of the cup body penetrates the center of the cup body base circle.

A reservoir assembly for a food processing system including a vacuum mechanism includes a housing having a hollow interior, an inlet pipe extending through said housing into said hollow interior, a fluid flow path from said hollow interior to the vacuum mechanism, and a valve positioned within said hollow interior, said valve being movable to control a flow of air provided to the vacuum mechanism via said fluid flow path.

A reservoir assembly for a food processing system including a vacuum mechanism includes a housing having a hollow interior, an inlet pipe extending through said housing into said hollow interior, a fluid flow path from said hollow interior to the vacuum mechanism, and a valve positioned within said hollow interior, said valve being movable to control a flow of air provided to the vacuum mechanism via said fluid flow path.

A food preparation appliance has a base, a blade member rotatable in a direction of rotation, and a container with a closed bottom, an open top and a tubular sidewall together defining an interior space of the container. The top of the container is configured for releasable connection with the base, with the blade member disposed within the interior space of the container. The sidewall has a rib projecting inward of the interior space of the container and extending lengthwise along at least a portion of the sidewall from the top of the container toward the bottom of the container. The rib has, in the direction of rotation of the blade member, a peak defined as the shortest transverse dimension measured from the center of the container to the sidewall at a respective height along the portion of the sidewall having the rib, the rib being asymmetric in transverse cross-section.

A container configured for use with a food processing system includes a container body configurable with a food processing base. The container body includes an interior wall and an exterior wall arranged in contact at a first end. The interior wall and the exterior wall are formed from a single piece of non-resilient material. A chamber is defined by the container body. A collar is mounted to the first end of the container body to form a seal between the collar and the contact between the interior wall and the exterior wall.

A container configured for use with a food processing system includes a container body configurable with a food processing base. The container body includes an interior wall and an exterior wall. The interior will and the exterior wall are arranged in contact at a first end. At least one of the interior wall and the exterior wall is formed from a non-resilient material. A chamber is defined by said container body.

Blending devices can be used to blend material in a container such as a reusable container or a disposable liner, such as a paper or plastic cup. In some instances, a reusable 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. In further instances, the reusable container can selectively couple a liner or multiple different sizes of liners to the adapter. The food product can be blended within the liner without any of the food product coming into contact with an interior of the container.

A blender assembly including a blender vessel and a blender hub. The blender hub having a plurality of first guide elements. The blender vessel having a rim, the blender vessel further having a plurality of second guide elements that each cooperate with a respective one of the first guide elements for forming a coupled and a sealed engagement to the blender hub. By releasing the coupling, the first and second guide elements cooperate to provide a two-stage release. A first stage of the release breaking the sealed engagement, and maintaining a loose coupled engagement, between the blender hub and the bender vessel. A second stage of the release, subsequent to the first stage of the release, releasing the coupled engagement between the blender hub and the blender vessel.