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 speed control assembly for an appliance includes a bracket. The bracket is aligned with a slot defined by an appliance body. A cam is slidably coupled with the bracket and has an engagement edge positioned at an angle relative to the bracket. A lever is operably coupled with the cam and extends through the slot. The lever is configured to move the cam along the bracket. A slider is fixedly coupled with the bracket. A magnet housing is operably coupled with the slider and is configured to house a magnet. The magnet housing defines a recess. A ball bearing is magnetically coupled with the magnet housing and is positioned within the recess. The ball bearing is configured to be selectively engaged with the engagement edge of the cam. A Hall-effect sensor configured to detect the position of the magnet.

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.

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.

A speed control assembly for an appliance includes a bracket. The bracket is aligned with a slot defined by an appliance body. A cam is slidably coupled with the bracket and has an engagement edge positioned at an angle relative to the bracket. A lever is operably coupled with the cam and extends through the slot. The lever is configured to move the cam along the bracket. A slider is fixedly coupled with the bracket. A magnet housing is operably coupled with the slider and is configured to house a magnet. The magnet housing defines a recess. A ball bearing is magnetically coupled with the magnet housing and is positioned within the recess. The ball bearing is configured to be selectively engaged with the engagement edge of the cam. A Hall-effect sensor configured to detect the position of the magnet.

A stand mixer includes a column, a column rail mounted to the column and a bowl support mounted to the column rail such that the bowl support is vertically translatable along the column. A bowl is mounted to the bowl support. A fine adjustment apparatus is configured for adjusting a height of the bowl on the bowl support. The fine adjustment apparatus includes a cam rotatably mounted on the column. A cam tab on the column rail engages the cam. The cam and cam tab are configured such that the bowl support vertically translates in relation to the column as the cam rotates.

A food processing machine includes a head extending over a bowl receiving location, the head including an output shaft driven in a planetary manner. At least a first food processing tool and a second food processing tool can be changed in and out of the machine to be driven by the output shaft. A controller and associated tool detection system is configured to identify whether the first food processing tool or the second food processing tool is mounted on the machine and to select a stored load profile that is linked to the identified food processing tool.

A vibration damper system used in a food processor to reduce the vibration of a high power motor that has varying speed cycles is disclosed. The motor is suspended from a ceiling that is mounted to the motor base through a plurality of bolted joints. The bolted joints are surrounded by a grommet that has a unique shape. The grommet comprises generally three parts, which are an upper portion, a middle portion, and a lower portion. The middle portion is smaller than other portion so that it creates a recess for the ceiling to be sandwiched between the grommet. In a preferred embodiment, the lower portion of the grommet further comprises a plurality of petal members that provide a non-uniform spring rate to the grommet so that the grommet is adapted best to reduce the upward impulse of the motor. The food processor also contains a novel air ventilation system.

Disclosed is an automatic dough mixer, comprising a base for placing and supporting, a body mounted on the base, a dough barrel mounted on the body as a container for dough mixing, a stirrer mounted on the body and arranged above the dough barrel for stirring flour and water in the dough barrel, a drive motor mounted on the body for driving the stirrer to rotate and stir, and an angle adjusting mechanism arranged between the base and the body for adjusting an inclination angle of the body relative to the base. The automatic dough mixer of the invention can effectively mix the flour in the dough barrel and avoid unmixed flour adhering to the dough barrel.