The present utility model discloses a juice pressing device, comprising an outer cup, an inner tank component and a juice pressing component. The inner tank comprises a filter grid frame and an inner tank. The inner tank is in a cylindrical shape. The filter grid frame is fixedly connected with the bottom end of the inner tank and is communicated with the inner tank. The height of the inner tank of the assembled filter grid frame is less than the depth of the outer cup. The inner tank with the assembled filter grid frame is inserted into the outer cup and fixed at the mouth of the outer cup. The juice pressing component comprises a pressing piece, a pressing shaft, a sealing cover of the inner tank and a pressing movable cover. One end of the pressing shaft is connected to the pressing movable cover, and the other end is connected to the pressing piece through a through hole in the center of the sealing cover of the inner tank. The pressing piece is provided in the inner tank, and the sealing cover of the inner tank is provided at the top of the inner tank. The inner tank and the sealing cover of the inner tank of the utility model form a sealed inner cavity structure, under the pressure of the piston type pressing piece, the juice above the filter grid is pressed out from the filter grid, with high juice output efficiency, stable juice output and no leakage.

Juicing unit having a support for an automatic juicing machine of the type in which the juicing unit comprises one or more female drums that move synchronously with one or more male drums that allows easy removal of the juicing unit as a whole for cleaning, such that the support comprises two plates with different openings that sandwich between them the main elements of the juicing unit such as the male and female drums, both plates being joined by at least one removable rod that is fastened via an anchor that allows a strong coupling and easy opening, such plates additionally comprising elements for anchoring to other elements of the juicing unit as well as elements for anchoring to the main body of the juicing machine.

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).

The present disclosure relates to a juicer with improved juicing performance and a juicing method including the same, and particularly, includes a motor housing, a drive part including a motor which is provided inside the motor housing, and a roller part which is detachably coupled to extend forward from the motor housing, and is provided therein to be rotatably driven by a driving force which is transferred from the drive part, and a driving speed of the motor is adjusted by at least one of pressure, current, and voltage according to the type of a material to be juiced, thereby greatly improving the juicing performance of the juicer.

A multifunctional juicing net structure of a juicing device includes a juice cup, a juicing net cup, a spiral pushing and extruding body and a feeding cup cover. The juicing net cup is received into the juice cup; the spiral pushing and extruding body is received into the juicing net cup, and the feeding cup cover is covered onto the juice cup. The juice cup and the juicing net cup are provided for juicing and filtering food residue and make selective adjustments according to different squeeze food to achieve the effect of separating the juice and the residue during a juicing process. No dead spot exists after the juicing net cup is detached from the juice cup to facilitate the cleaning and preventing the residue from being stuck at the corners during the cleaning process, so as to achieve the effects of good functionality and high convenience.

A multi-lemon squeezer that is comprised of a frame that supports a gear train and a rack guide. A rack is held within the rack guide and the rack has a press on a bottom end of the rack. The bottom of the press defines a plurality of outward conical structures. The frame defines a base that supports a receptacle that has a removable cover. The removable cover defines a plurality perforated cups that receive the plurality of outward conical structures of the press. A lever attaches to the gear train to provide the force needed to move the rack downward to squeeze any lemons held within the plurality of perforated cups of the removable cover.

A cover element for at least partially covering a vessel opening of a preparation vessel of a food processor and/or a cover opening of a vessel cover for the preparation vessel, wherein the cover element has a radially outwardly facing support edge to be supported on the preparation vessel and/or vessel cover. The support edge has a continuously curved base contour viewed in the axial direction, and has at least two support elements, which lie opposite each other, are separate from each other and protrude over the base contour. The support elements extending in an imaginary circular ring surface that reaches from a radially outer edge of the support elements up to the base contour are identically designed on both opposing sides viewed in the axial direction and formed in the same plane extending perpendicular to the axial direction.

A juicing machine comprises an electric motor; a variable frequency drive configured to control the speed of the electric motor; a juicing mechanism that has at least one extraction assembly that operates cyclically to extract juice; and at least one sensor that determines the position or positions of the extraction assembly during a cycle.

The invention relates to a squeezing machine of the type in which the juice is obtained in a squeezing unit comprising at least one male drum (5) and at least one female drum, the female drum (4) having recesses for holding the fruit and the male drum having protrusions that insert in the recesses of the female drum to catch the fruit, the squeezing unit (2) and other auxiliary elements are joined to each other, preferably by a casing, such that they can engage and be released from the drive element (1) as a single block.

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.