Touch sensors form various controls for a touch controller of a blender. The controls are arranged on the touch controller such that a user holding the blender can operate the blender by articulating their thumbs. In one example, button controls for preset programs are arranged in an arcuate manner on one side of the touch controller, the curvature of the arcuate shape being open to the side of the blender. A button for a pulsating function may be located inside the curvature opening. Start and stop buttons may be located near the bottom in the middle of the touch controller. A vertical sliding speed control may be located on the side of the touch controller opposite the button controls. The touch controller may also have an LED or LCD screen.

A cutter device of jar includes a shell defining a top, a bottom and an accommodation chamber, a drive shaft inserted through the top and bottom of the shell, one or multiple blades mounted onto the drive shaft and located on the top of the shell, a first oil seal mounted into the accommodation chamber of the shell near the top of the shell and abutted against the periphery of the drive shaft, one or multiple bearings mounted into the accommodation chamber of shell and connected to the shell and the drive shaft, and a second oil seal mounted into the accommodation chamber of the shell near the bottom of the shell and abutted against the periphery of the drive shaft.

A blender system includes a blender base that is selectively and operably engaged with a container. The blender base may include a housing that houses a motor operatively driving a mixing blade, and a fan. The fan may operate independent of the motor. The fan may force air through the blender base to cool the motor and other operative components of the blender base.

A portable cooler includes a cooler body formed of an insulating shell defining an interior storage section, an insulated cooler lid coupled to the cooler body, and a storage structure formed within the insulated cooler lid for storing one or more plates. The plates can be stored in a recessed portion of the insulated lid, which may include a groove or removable lip to retain the plates. A utensil storage structure is provided to store one or more utensils. Sharp utensils may include safety mechanisms to inhibit unwanted removal.

An electric mixer can include a motor, an interchangeable paddle assembly, and a mounting plate. The mounting plate attaches to the top of a cooking vessel and includes a pair of clamping plates adapted to span a diameter of various size cooking vessels. The motor is attached to the mounting plate and is operably connected to the paddle assembly providing power to rotate the paddle and stir the contents of the cooking vessel.

An electric mixer can include a motor, an interchangeable paddle assembly, and a mounting plate. The mounting plate attaches to the top of a cooking vessel and includes a pair of clamping plates adapted to span a diameter of various size cooking vessels. The motor is attached to the mounting plate and is operably connected to the paddle assembly providing power to rotate the paddle and stir the contents of the cooking vessel.

A blender system that includes a base that is selectively and operatively engaged with a container and an open and closable enclosure is shown and described herein. The base may include an interlock component that may interact with an interlock component of an enclosure or a container. The base also includes a motor that is selectively and operatively engaged with a blade disposed within the container. The motor may be controlled based on arrangement of the base, the enclosure, or the container.

A peanut butter mixer system including: a screw-mixer formed as a continuous rod member having sequential looped coils along a length of said continuous rod member and terminating with a cutting edge; wherein said screw-mixer is powered via a motor and a power source as manipulated by a user-operator to re-mix peanut butter in a provided container. The screw-mixer is powered via the motor and power source as manipulated by a user-operator.

An operable measuring attachment for a mixing appliance includes a mixing bowl defining a mixing interior, a housing having a protrusion attachable to the appliance and a plurality of containers each having an interior volume. Each container is alternatively operable between a measuring position engaged to a top of the housing, and a disengaged position distal from the housing. The operable measuring attachment also includes a magnetic coupler having a first magnetic member disposed proximate the base of each of the plurality of containers and a second magnetic member disposed proximate the top of the housing. The selective magnetic engagement of the first magnetic member of any one of the plurality of containers and the second magnetic members further defines the measuring position. A scale is disposed within the housing that is in communication with the interior volume of the container in the measuring position.

A juice extractor and a feeding apparatus thereof are provided. The feeding apparatus includes a feed channel, a feed body connected to an upper port of the feed channel, and a cover plate assembly. The cover plate assembly includes a cover plate and an accommodating cavity with a large capacity. A shape of the cover plate matches an inner wall of the feed body and the cover plate is provided with a feed inlet, and the cover plate is rotatably provided on the inner wall of the feed body. The accommodating cavity with a large capacity is provided on a top surface of the cover plate, and has a sectional area greater than an area of the feed inlet, and is formed by an enclosure plate that surrounds the feed inlet. Upon inversion of the cover plate assembly, an opening of the accommodating cavity with a large capacity can be made to face the feed channel, and fruits and vegetables contained in the accommodating cavity with a large capacity are put in the feed channel. The feed inlet of the feed body is provided on the invertible cover plate assembly, so that not only diced fruits and vegetables are conveyed to the juice extractor, but also fruits and vegetables with large shapes fall into the feed channel by reverting the cover plate assembly without being diced. The juice extractor has a simple structure and can be conveniently used, so as to improve use safety.