An improved blender or food processor is provided that moves a blade translationally in the vertical plane while another blade or blade assembly rotates in the horizontal plane to stop the blender from cavitating the contents while blending viscous fluids (an air pocket from forming around the cutting blades or forming a vortex or a disruptive vacuum). Both actions of rotating the lower blades and translationally moving the upper blade are done simultaneously using one motor. In a related embodiment, rotational and translational movements are provided with decoupled gear assemblies.

A blender that heats, cools, and blends foodstuffs within a container assembly is disclosed. Exemplary implementations may include a base assembly, the container assembly, an electrical motor, a blending component, a control interface, blending control circuitry, temperature control circuitry, and/or other components. The base assembly may include an electrical motor, a temperature-regulation sub-system and power sources. The temperature control circuitry may be configured to make a first type of detections regarding a temperature request by the user. The temperature control circuitry may control the temperature-regulation sub-system using one or more different temperature-regulation modes, a heating mode and a cooling mode, thus heating or cooling the foodstuffs, respectively, accordingly. The blending control circuitry may control the electrical motor to drive rotation of the blending component.

A device for producing fluid foam includes a container where the fluid can be accommodated, and includes a foaming tool rotatable in the inner volume of the container. The texture and the porosity of the fluid foam obtained are provided by shear energy coming from Couette Flow effect and depend on the dimension of the foaming tool with respect to the inner volume of the container, on the location of the foaming tool from the bottom of the container and on the rotation speed of the foaming tool.

The present disclosure provides a squeezing threaded rod, a squeezing component and a food processor. The squeezing threaded rod includes: a rod body, and the rod body includes a feeding segment, a squeezing segment connected with the feeding segment and a residue discharge segment connected with the squeezing segment; and the area of the cross section of the rod body gradually increases from the feeding segment to the squeezing segment. In the squeezing threaded rod provided by the embodiments of the present disclosure, the stress direction of juice squeezing and residue discharge thereof is consistent with the thrust direction of the rod body, in this case, the juice squeezing force and the residue discharge force can be increased, the food residues at a residue discharge opening can be discharged more easily, then the phenomenon that the food residues block the residue discharge opening can be reduced.

A milk beverage heating mixer comprises a cup, a stirrer, a base, a heating plate, a temperature measurement assembly and a first lever assembly. A cavity for accommodating the cup is formed in an upper end of the base. A first radial opening and a second radial opening are formed in a cavity wall of the cavity. The heating plate is disposed at the bottom of the cavity. The first lever assembly is rotatably disposed outside the cavity, and a protrusion at a first end of the first lever assembly stretches into the cavity via the first radial opening. When accommodated in the cavity, the cup presses the protrusion and pushes the temperature measurement assembly by means of the second end of the first lever assembly to stretch into the cavity via the second radial opening to make contact with a side wall of the cup.

Provided is a bidirectional simultaneous rotary blade bundle for a mixer, the bidirectional simultaneous rotary blade bundle comprising: a housing (110); a forward rotary shaft (120) installed on the housing (110); a forward rotation blade (K1) provided on the forward rotary shaft (120); a central gear (130) axially installed on the forward rotary shaft (120); horizontal insertion gears (141, 142, and 143) engaged with the central gear (130); a reverse rotor (160), of which inner gear teeth (164) are engaged with and rotate on the outside of the horizontal insertion gears (141, 142, and 143); and a reverse rotation blade (K2) installed on the reverse rotor (160), wherein the horizontal insertion gears (141, 142, and 143) are rotated in the reverse direction according to the forward rotation of the central gear (130) such that the inner gear teeth (164) are rotated in the reverse direction.

The present disclosure relates to a food preparation appliance comprising a food preparation pot and a rotatable tool for chopping and/or blending a food in the food preparation pot wherein the tool is detachably connected to a shaft, which is at least partially outside the food preparation pot in order to be coupled to a drive for rotation. Further, a locking mechanism is provided for connecting the tool to the shaft in a locked manner. The locking mechanism is arranged in such a way that, during operation, the tool can be driven by the shaft in both rotation directions for chopping and/or blending a food.

A blender includes a container body in which food is accommodated, a main body to support the container body, and an air guide provided in the main body to guide discharging of air flowing through a motor assembly to below the main body.

A vacuum blender including a base assembly having a blender motor and a vacuum motor, a vertical arm member for engaging both a blender jar assembly and a storage jar assembly, and vacuum technology associated with the base assembly, the vertical arm assembly, and the lid member associated with both the blender jar assembly and the storage jar assembly for removing oxygen from within either the blending jar prior to the start of a blending operation, or a storage/to-go jar wherein a finished blended food item can be stored in the storage jar and oxygen can be removed from within the storage jar for better food preservation before the storage jar is stored in a freezer, refrigerator or other storage locations. The storage jar further includes a drinking spout wherein the contents in the storage jar can be easily accessed for drinking when removed from storage.

A food processor combines steaming of food on a support, and blending. The support is rotated about the same shaft as the blender blade, to release the food on the support centrifugally so that it drops to the blender blade. This enables an automated process with optimized steaming and blending.