A micro puree machine including a drive motor coupled to a drive shaft via at least one gear. The drive motor is arranged to rotate a drive shaft and blade assembly. A position motor is operable to change a position of the drive shaft via rotation of the position. A user interface is arranged to: i) receive a user input to select a first routine associated with processing a first food type, and ii) display a status of the processing of the first food type while the first routine is running. A controller is arranged to: i) receive the user input selecting the first routine and retrieve the configuration data associated with the first routine, ii) control operations of the drive motor based on the configuration data associated with the first routine, and iii) control operations of the position motor based on the configuration data associated with the first routine.

The present disclosure relates to a stirrer blade 100 for an automated food processing machine. The stirrer blade 100 is movably configured with said automated food processing machine. The stirrer blade 100 includes a member 101, a first arm 102 connected to a first end of said member 101 and extends in a first direction. The first arm 102 has a curved distal end 102a. A second arm 103 connected to a second end of said member 101 and extends in a second direction. The second arm 103 comprises plurality of spikes (103a, 103b).

A coffee machine includes a first housing and a second housing, wherein the second housing is disposed on top of the first housing. The second housing comprises a first platform, a second platform disposed below the first platform, and a lift disposed at a first side of the second housing and configured to translate between the first platform and the second platform. The second housing further comprises a first robotic arm disposed above the first platform, a second robotic arm disposed between the second platform and the first platform, and a coffee brewing machine actionable to dispense one or more fluids into a cup. The coffee machine further comprises an information handling system comprising a processor, wherein the processor is configured to actuate the first robotic arm, the second robotic arm, the coffee brewing machine, and the lift.

A blender includes a spindle support, a spindle motor secured to the spindle support, an inner spindle drive shaft permanently coupled to the spindle motor, and a spindle assembly removably coupled to the spindle support. The spindle assembly includes a quick release coupler, a tube, and a blending tool fixed to an end of the tube. The blending tool includes a plurality of blades. The inner spindle drive shaft extends into the tube and is drivably coupled to the tube to transmit rotational energy from the spindle motor to blending tool via the tube when the spindle assembly is coupled to the spindle support.

An automated self-cleaning frothing appliance includes: a housing having a base, a tower extending upwardly from the base, and a canopy extending from an upper portion of the tower above the base; a vessel mounted beneath the canopy, the vessel having an outlet at a lower end; a frothing tool extending from the canopy into the vessel; a first fluid pathway in the housing to receive water from a water source and deliver water into the vessel; a valve positioned to selectively open and close the outlet to the vessel; a valve-opening mechanism attached to the housing to selectively open and close the valve; a drain positioned beneath the outlet to receive water draining from the outlet; a second fluid pathway routed from the drain to deliver water to an external receptacle; and a controller operatively connected with the drive unit, the first fluid pathway and the valve-opening mechanism.

There is disclosed herein a frothing assembly (21) to froth milk in a container (11). The assembly (21) includes: a body (25); a motor (33) fixed to the body and having an output shaft (34) that is rotatably driven about a longitudinal axis (35) of the shaft (34); a frothing device (36) rotatably driven by the shaft (34) and to be submerged in the milk in the container (11); and a perforated member (43) at least partly surrounding the frothing device (36) and spaced from the frothing device (36) by a clearance (44), wherein rotation of the frothing device (36) causes movement of milk in the clearance (44) and movement of milk through the perforated member (43) to be circulated back through the container (11) and the clearance (44) to cause frothing of the milk.

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 food processing system includes a base and an actuator that is releasably mounted to the base. The actuator may have an unactuated position and an actuated position. Numerous accessories each may be individually and interchangeably mountable to and releasable from at least one of the base and the actuator. Each attachment may perform a food processing function when the actuator is moved from the unactuated position to the actuated position.

A bowl assembly for a micro puree machine including an inner beaker and an outer bowl. The inner beaker is configured to receive ingredients and has an exterior bottom surface that includes a beaker alignment feature. The outer bowl is configured to receive the inner beaker therein. The outer bowl includes an interior bottom surface that includes a bowl alignment feature and an exterior bottom surface that includes a bowl securing element. The beaker alignment feature of the inner beaker exterior bottom surface is complementary to the bowl alignment feature of the outer bowl interior bottom surface such that, at times the inner beaker is positioned in the outer bowl, the complementary bowl alignment feature and inner beaker alignment feature prevent rotation of the inner beaker relative to the outer bowl. The bowl securing element is configured to receive and attach to a platform of a micro puree machine.

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.