An apparatus includes a housing having first and second sides, a bottom surface, and a drawer disposed in the housing. Each of the first and second sides of the housing includes first and second wheels coupled to the housing, the first and second wheels having a first wheel position in which no portion of the first and second wheels is above the bottom surface of the housing and a second wheel position in which a portion of each of the first and second wheels is below the bottom surface of the housing. Each side also includes an arm coupled to the housing, the arm having a first arm position and a second arm position, wherein movement of the arm from the first arm position to the second arm position causes the first and second wheels to move from the first wheel position to the second wheel position.

A countertop appliance includes a body with a pedestal and a mixer head that is operably coupled to the body and defines a slot. An adjustment assembly is operably coupled to and selectively disposed within the mixer head. The adjustment assembly includes an actuation feature that defines detents and includes an actuator with a first engagement member and a second engagement member. A slider that includes a knob extends outwardly from the slot defined by the mixer head. The knob is selectively coupled to the actuation feature. A barrier member is operably coupled to the slider proximate to the slot defined by the mixer head and the actuation feature.

A twist off container and coupling assembly of a micro puree machine includes a container and a coupling on the micro puree machine. An interior surface of the coupling has at least one ramped slot that is angled relative to a lower annular surface of the coupling. The container has at least one protrusion correspondingly angled relative to an upper annular surface of the container. The protrusion is configured to engage the slot when the container is rotated in a clockwise direction and to disengage from the slot when the container is rotated in a counterclockwise direction. When the container is rotated, the container moves both axially and rotationally relative to the coupling.

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 blade assembly detection system detects proper positioning of the blade assembly within the lid assembly.

A pouring shield for a stand mixer includes an upper collar for mounting to a mixer head of the stand mixer in a friction-fit manner without the need for clamps or other mounting accessories. The stand mixer is configured to receive a mixing bowl with an open top, and the pouring shield is configured to cover the open top of the mixing bowl at an upper rim of the mixing bowl using a seal member which is disposed around an outer perimeter of the pouring shield. The seal member is a flexibly resilient member configured to close the open top of the mixing bowl when the stand mixer is in a closed position, and includes a wide surface for accommodating mixing bowls of various sizes.

An easily assembled blender with an internal frame holding a cupholder elevator assembly, a mix motor assembly, a food preparation chamber, a water heater assembly and a steamer assembly. The water heater and steamer assemblies are preferably on modular trays that slide into the internal frame. The water heater preferably also serves as a hot water reservoir and, to avoid overheating, has its heating coil located near its bottom. To resist scale deposits, polytetrafluoroethylene (PTFE) tubing is preferably used to transport steam from the steamer to the food preparation chamber. To expedite manufacture, a spring-biased idler assembly with a drive belt for the cupholder elevator assembly preferably snaps into a lower receiving port on the internal frame. Crisscrossing infrared light beams are preferably placed at the entrance of the food preparation chamber to detect whether the cup entering the chamber is the correct size and detect whether any foreign object is below the food preparation chamber.

A pouring shield for a stand mixer includes an upper collar for mounting to a mixer head of the stand mixer in a friction-fit manner without the need for clamps or other mounting accessories. The stand mixer is configured to receive a mixing bowl with an open top, and the pouring shield is configured to cover the open top of the mixing bowl at an upper rim of the mixing bowl using a seal member which is disposed around an outer perimeter of the pouring shield. The seal member is a flexibly resilient member configured to close the open top of the mixing bowl when the stand mixer is in a closed position, and includes a wide surface for accommodating mixing bowls of various sizes.

Disclosed herein is a cooking device which may be used for the mixing and stirring of sauces, soups, gravies, and other foodstuffs while being heated on a heat source such as a stovetop, gas burner, hot plate, barbeque grill, charcoal, open flame, etc. The term sauce will be used herein to indicate all such foodstuffs to be cooked in order to abbreviate this disclosure. The cooking device allows a user (cook) to stir and mix the sauce while heating the sauce and optionally while a lid assembly is in place thus, more efficiently retaining heat, steam, and flavors within the cooking device during cooking and stirring.

A stand mixer includes a base, a support column attached to the base, extending upwardly from the base, a column rail mounted to the support column, and a head attached to an upper end of the support column, extending from the support column above the base. The stand mixer also includes a bowl lift framework extending outwardly from the support column. The bowl lift framework includes a bar linkage configured for moving relative to the head when the bar linkage pivots relative to the support column. The stand mixer further includes a liquid reservoir disposed around the bar linkage inside of the support column. The liquid reservoir includes a bottom wall positioned above an interior of the base of the stand mixer along the vertical direction. The liquid reservoir is configured to prevent liquid from entering the interior of the base.

The present invention relates to the technical field of electrical appliances for kitchen. The multifunctional driving mechanism uses a first output shaft and a second output shaft. A stirring assembly is detachably connected to a bottom of the first output shaft for mixing dough, whipping butter and eggs, and the like. The other end of the second output shaft is provided with a splicing slot in abutting joint to an accessory driving shaft, and an accessory joint can be added to make noodles, mince meat, stuff sausages, slice, shred, dice, grind, juice, and the like, with various functions and convenience in use; moreover, the first output shaft is perpendicular to the second output shaft, and the first output shaft and the second output shaft neither conflict with each other nor occupy a very large space during simultaneous working, so that the structure is compact.