A sleeve for a fruit squeezer for extracting juices from fruit without dripping the juices outside a container, and a method of use thereof. The sleeve can include a lower portion, a mid portion, and an upper portion. The upper portion has a top periphery, wherein the lower portion is narrowest and the upper portion is broadest. The sleeve can have a first substantially U-shaped cut along the top periphery that can extend within the upper portion and the mid portion. The first substantially U-shaped cut can receive the hinge joint of the fruit squeezer. The sleeve can further have a window in the mid portion opposite the first substantially U-shaped cut, wherein the window can receive the lower arm of the fruit squeezer. The sleeve can further have a second substantially U-shaped cut along the top periphery in the upper portion above the window and opposite the first substantially U-shaped cut, the second substantially U-shaped cut can receive the upper arm of the fruit squeezer.

The disclosure discloses a multi-functional beverage container that includes a multi-walled evacuated vessel body; an integrated juicing element to releasably nest within the multi-walled evacuated vessel body; a multi-walled vessel top that realeasably seals to the multi-walled vessel body and to receive the juicing element; and a multi-walled cap that realeasably seals to the multi-walled vessel top. The container may further comprise a planar straining element for straining purposes, various sealing gaskets, integrated volumetric measuring indicators, a fluid within the dual walls comprising a freezing point below at least zero degrees Celsius to maintain a chilled nature of a stored liquid within the container. The container may comprise thermo-chromatic paint to indicate a representative temperature has been achieved, external portions to comprise textured elements to facilitate grasping and twisting, and an internal sensor to wirelessly communicate a measured weight to a secondary wireless device.

A juicer includes a frame having a base; a first drip cup mounted on the frame and having a first outlet; a second drip cup mounted on the frame and having a second outlet; a first strainer configured to have fruit to be juiced placed thereon and arranged in the first drip cup; a second strainer configured to have fruit to be juiced placed thereon and arranged in the second drip cup; a first pressure element operatively connected to the actuator and being configured to press fruit deposited on the first strainer; a second pressure element operatively connected to the actuator and being configured to press fruit deposited on the second strainer; and, the first and second outlet being configured to guide juice from corresponding ones of the first drip cup and the second drip cup to at least one vessel filling area below the first and second drip cup.

A fruit squeezing system, with a feed system and cutting and squeezing devices with a pair of cup assemblies that are vertically displaceable by vertical displacement device and rotationally, in opposite directions, by rotation device; below these a cutting assembly with a blade and peel extraction device; and one pair of fixed squeezer balls, each of these below one of the cup assemblies, for the vertical squeezing of the fruit halves by the vertical displacement of the cup assemblies. The system has a first motor exclusively for the operation of the vertical displacement device; device for the measurement of the intensity thereof, and a control unit which independently governs the first motor and halts it when the intensity measured exceeds a pre-set range of values.

The present disclosure provides a spiral blade, a grinding component and a food processor. The spiral blade includes: a spiral blade body, and the spiral blade body includes a feeding area used for feeding, a grinding area connected with the feeding area and a discharging area connected with the grinding area; and a plurality of spiral ribs are arranged on the grinding area, and a cleaning structure is arranged on the discharging area. The spiral blade is applied to the food processor and is only used for grinding food rather than extruding juice and discharging residues, therefore its structure is relatively simple, meanwhile, as a cleaning structure is arranged on the discharging area, the cleaning structure can be used for pushing the crushed food to a predetermined area.

A squeezer unit (1), comprising: two female drums (2) with an internal cavity (3), with a central shaft, which can rotate in opposite directions, comprising a number of cavities (4) to house a fruit to be squeezed, two male drums (5) with an internal cavity (6), with a central shaft, located below the female drums (2), in such a way that each male drum (5) can rotate in a direction opposite to that of the corresponding female drum (2) located above the same, the male drums (5) comprising a number of protrusions (7) which can be coupled to the cavities (4) of the female drums (2) to squeeze out the juice, a support (8) for the squeezer unit (1) comprising a frontal plate (9) which can be coupled to the male drums (5) and the female drums (2),
where each of the female drums (2) and the male drums (5) comprises a frontal extension (10) which is coaxial with its central axis, each frontal extension (10) being integral with the body of the corresponding drum (2, 5), and the frontal plate (9) of the support (8) of the squeezer unit (1) comprises, on its side facing the female drums (2) and the male drums (5), four protrusions (12, 15), in such a way that when the squeezer unit (1) is in the assembled position, the extensions (10) of the female drums (2) and the male drums (5) are coupled to the corresponding protrusions (12, 15) of the frontal plate (9) of the support (8).

A fluid separation apparatus includes a container for capturing liquid juice separated from blended juice. The fluid separation apparatus also includes a filter basket supported by the container. The filter basket includes an upper portion that engages with the container and a cylindrical extension portion that extends from the upper portion. The fluid separation apparatus also has a filtering device that can extend into and through the filter basket. The filtering device is supported by the filter basket at a top end and has a bottom end that extends past the cylindrical extension portion of the filter basket. The fluid separation apparatus has a press assembly having a rod element with a handle disposed on a first end of the rod element and a press disposed on a second end of the rod element.

A lemon juicing assembly for squeezing juice from a lemon includes a first lever that has a cup integrated therein to receive a lemon. A blade is fixed in the cup to slice the lemon when the lemon is urged downwardly in the cup. A second lever is pivotally coupled to the first lever and a plunger is integrated therein. The second lever is positionable in a closed position having the second lever lying on the first lever. Thus, the plunger compresses the lemon into the cup. In this way the lemon is sliced and the juice is squeezed from the lemon. The second lever is positionable in an open position having the second lever extending away from the first lever.

An apparatus is provided for processing fruit or vegetables in order to obtain a flowable mass, such as juice or puree and includes a receptacle, an extraction unit for mechanically extracting juice and pulp from the fruit or vegetables, the unit being located within the receptacle for discharging the juice and pulp into the receptacle, a motor unit, drivingly connected to the extraction unit, an outlet unit for collecting flowable mass from the receptacle.

A device for extracting juice and pulp from fruit, including a base with an electric motor and a rotatable cone and a rotatable sieve, the cone and sieve drivable by the electric motor, the motor connected to a driveshaft for driving the rotatable cone and rotatable sieve, the rotatable cone having a rotationally fixed connection to the driveshaft, the rotatable sieve mounted on a drive bush via a freewheel bearing provided on the driveshaft, and the rotatable sieve including a brake for inhibiting rotation in a first direction and enabling rotation in a second direction that is opposite to the first direction.