CN209883779U - Orange cup component and multifunctional food processor - Google Patents

Abstract

The application provides a orange cup subassembly and multi-functional cooking machine. The orange cup component comprises a cup body component and a screw head component assembled on the cup body component, and the cup body component is provided with a juice outlet channel. The orange cup component further comprises a slag discharging component assembled on the cup body component, and the slag discharging component is arranged in the juice outlet channel in a sliding mode. Screw rod head subassembly is assembled in cup body subassembly to a material is eaten in the processing, and processing is convenient. The deslagging assembly is assembled on the cup body assembly and is slidably arranged in the juice outlet channel, so that the fruit residues and fruit particles in the juice outlet channel can be pushed out of the juice outlet channel, and the juice outlet channel is prevented from being blocked. The residue discharge assembly is slidably arranged in the juice outlet channel and pushes the fruit residues and the fruit particles to move in the reciprocating movement, so that the operation is convenient.

Description

Orange cup component and multifunctional food processor

Technical Field

The application relates to cooking device technical field relates to a orange cup part and multi-functional cooking machine.

Background

The orange cup component comprises a cup body component and a screw head component assembled on the cup body component, and a convex rib is arranged on the surface of the screw head component. The fruit rotates relative to the screw head assembly so that the fruit particles and the fruit juice are separated from the fruit peel and fall into the cup body assembly. The cup body assembly is provided with a juice outlet channel, and the juice and the fruit grains can be output along the juice outlet channel when the juice outlet channel is in an open state.

However, the orange cup assembly processes the fruit by squeezing and scraping, and the fruit particles, pomace and juice are collected in the juice outlet channel. The diameter of the juice outlet channel is limited, and the fruit residues and fruit particles can be accumulated in the juice outlet channel, so that the fruit particles and fruit residues are easily blocked on the juice outlet channel. The output of the juice and fruit grains is not smooth after the juice outlet channel is blocked, and the phenomenon of blocking the juice outlet channel is complicated and the user experience is poor.

SUMMERY OF THE UTILITY MODEL

In view of this, the present application provides an orange cup component and a multifunctional food processor.

Specifically, the method is realized through the following technical scheme:

the application provides a first aspect, discloses a orange cup part, include cup body component and assemble in cup body component's screw head subassembly, cup body component is equipped with the juice passageway, orange cup part still including assemble in cup body component's row's sediment subassembly, arrange the sediment subassembly and slide and locate the juice passageway.

Optionally, the cup body assembly comprises a cup body and a juice outlet pipe convexly arranged on the cup body, the cup body is provided with a processing space, at least part of the screw head assembly is positioned in the processing space, the juice outlet channel is arranged on the juice outlet pipe and communicated with the processing space, and the residue discharge assembly is slidably arranged on the juice outlet pipe.

Optionally, the juice outlet pipe is provided with a sliding hole communicated with the juice outlet channel, the slag discharge assembly is slidably disposed in the sliding hole, and at least part of the slag discharge assembly is inserted into the juice outlet channel.

Optionally, the deslagging assembly slides linearly along the centerline of the juice outlet channel.

Optionally, the slag discharging assembly comprises a clamping piece clamped on the cup body assembly and a slag removing piece assembled on the clamping piece, the clamping piece and the slag removing piece slide along the juice outlet channel, and at least part of the slag removing piece is positioned in the juice outlet channel.

Optionally, the clamping member includes a body portion and a fastening portion protruding from the body portion, the fastening portion is inserted into the cup body assembly and is fastened to the cup body assembly, and the body portion is attached to the cup body assembly.

Optionally, the slag removing part is slidably arranged on the clamping part.

Optionally, the slag discharging assembly further comprises a handle piece fixed to the slag removing piece and an elastic piece sleeved on the slag removing piece, and the elastic piece is elastically abutted to the handle piece.

Optionally, the orange cup component further comprises a filter screen mounted on the cup body component, the screw head component penetrates through the filter screen, and at least part of the filter screen is arranged at an inlet of the juice outlet channel.

The second aspect that the application provided discloses a multi-functional cooking machine, including drive main part and as above orange cup part, the drive main part is equipped with driving motor, driving motor's output shaft with screw head subassembly drive connection.

The technical scheme provided by the embodiment of the application can have the following beneficial effects:

screw rod head subassembly is assembled in cup body subassembly to a material is eaten in the processing, and processing is convenient. The deslagging assembly is assembled on the cup body assembly and is slidably arranged in the juice outlet channel, so that the fruit residues and fruit particles in the juice outlet channel can be pushed out of the juice outlet channel, and the juice outlet channel is prevented from being blocked. The residue discharge assembly is slidably arranged in the juice outlet channel and pushes the fruit residues and the fruit particles to move in the reciprocating movement, so that the operation is convenient.

Drawings

FIG. 1 is a perspective view of an orange cup assembly according to an exemplary embodiment of the present application.

FIG. 2 is a schematic illustration of an exploded configuration of an orange cup assembly according to an exemplary embodiment of the present application.

Fig. 3 is an exploded view of the slag discharge assembly according to an exemplary embodiment of the present application.

FIG. 4 is a schematic view of the outward ejection structure of the slagging assembly according to an exemplary embodiment of the present application.

FIG. 5 is a schematic view of the arrangement of the extractor assembly shown in an exemplary embodiment of the present application scraping the juice channel under an external force.

Fig. 6 is a schematic cross-sectional structural view of a multifunctional food processor equipped with an orange cup component according to an exemplary embodiment of the present application.

Fig. 7 is a schematic structural view of a multifunctional food processor equipped with a juicing main body according to an exemplary embodiment of the present application.

In the drawings, a cup assembly 10; a juice outlet channel 11; a cup body 12; a bottom wall 121; a side wall 122; a juice outlet pipe 13; a slide hole 14; a cover 15; a screw head assembly 20; a small orange screw head 21; a big orange screw head 22; grapefruit screw heads 23; a plug-in shaft 24; a slag discharge assembly 30; a slag removal member 31; a slide lever 311; a scraping portion 312; a retainer 32; a body portion 321; a locking portion 322; a guide hole 323; an elastic member 33; a handle member 34; a filter screen 40; the fitting portion 41; a fitting hole 411; a screen section 42; a set of filter holes 421; a drive body 50; a base 51; a drive motor 52; a juicing body 60.

Detailed Description

Reference will now be made in detail to the exemplary embodiments, examples of which are illustrated in the accompanying drawings. When the following description refers to the accompanying drawings, like numbers in different drawings represent the same or similar elements unless otherwise indicated. The embodiments described in the following exemplary embodiments do not represent all embodiments consistent with the present application. Rather, they are merely examples of apparatus and methods consistent with certain aspects of the present application, as detailed in the appended claims.

The terminology used herein is for the purpose of describing particular embodiments only and is not intended to be limiting of the application. As used in this application and the appended claims, the singular forms "a", "an", and "the" are intended to include the plural forms as well, unless the context clearly indicates otherwise. It should also be understood that the term "and/or" as used herein refers to and encompasses any and all possible combinations of one or more of the associated listed items.

It is to be understood that although the terms first, second, third, etc. may be used herein to describe various information, such information should not be limited to these terms. These terms are only used to distinguish one type of information from another. For example, first information may also be referred to as second information, and similarly, second information may also be referred to as first information, without departing from the scope of the present application. The word "if" as used herein may be interpreted as "at … …" or "when … …" or "in response to a determination", depending on the context.

As shown in fig. 1 and 4, in one embodiment, the orange cup assembly includes a cup assembly 10 and a screw head assembly 20 assembled to the cup assembly 10, the cup assembly 10 being provided with a juice outlet channel 11. The orange cup assembly further comprises a deslagging assembly 30 assembled on the cup body assembly 10, and the deslagging assembly 30 is arranged in the juice outlet channel 11 in a sliding mode.

The cup body assembly 10 is provided with an in-cup space for containing fruit particles, juice, pomace and the like, and part of the screw head assembly 20 is located in the in-cup space. Juice outlet channel 11 is provided in cup body assembly 10. alternatively, juice outlet channel 11 extends through cup body assembly 10 and communicates the space in the cup with the outside atmosphere, e.g., juice outlet channel 11 is provided in side wall 122 or bottom wall 121 of cup body assembly 10. In an alternative embodiment, the juice outlet channel 11 communicates with and is at the lowest level of the cup interior space. In an alternative embodiment, a cover 15 is detachably mounted at the opening of the juice outlet channel 11, and the cover 15 seals the juice, fruit pieces and fruit residues in the juice outlet channel 11 and the cup body assembly 10.

The deslagging assembly 30 is assembled to the cup body assembly 10 and can slide along the juice outlet channel 11, and optionally, the deslagging assembly 30 can move along the axial direction of the juice outlet channel 11. Optionally, the deslagging assembly 30 slides at the juice outlet channel 11 in a spiral or curved movement trajectory. In the sliding process of the slag discharging assembly 30, at least part of fruit grains or fruit residues move along the juice outlet channel 11 under the driving of the slag discharging assembly 30, so that the fruit residues and the fruit grains are output to the juice outlet channel 11, the juice outlet channel 11 is prevented from being blocked, and the dredging effect is good. The slag discharging component 30 is slidably arranged on the juice outlet channel 11 and pushes the fruit residues and the fruit particles to move in the reciprocating movement, so that the operation is convenient.

In one embodiment, cup assembly 10 includes a cup body 12 and a juice outlet pipe 13 protruding from cup body 12, wherein cup body 12 defines a processing space, and at least a portion of screw head assembly 20 is located in the processing space. The juice outlet channel 11 is arranged on the juice outlet pipe 13 and communicated with the processing space, and the residue discharge assembly 30 is arranged on the juice outlet pipe 13 in a sliding way.

The juice outlet pipe 13 is protruded from the cup body 12 and extends outward to enlarge the flowing range of the juice outlet channel 11. The juice outlet pipe 13 is a tubular structure, and the residue discharge assembly 30 is slidably disposed on the juice outlet pipe 13. Optionally, the extractor assembly 30 extends through the sidewall 122 of the juice tube 13 and reciprocates along the centerline of the juice channel 11. Optionally, the residue discharge assembly 30 is installed at the opening of the juice outlet pipe 13 and reciprocates along the center line of the juice outlet channel 11.

In an alternative embodiment, as shown in fig. 1 and 4, the juice outlet pipe 13 is provided with a sliding hole 14 communicating with the juice outlet channel 11, the residue discharge assembly 30 is slidably disposed in the sliding hole 14 and at least a portion of the residue discharge assembly 30 is inserted into the juice outlet channel 11.

The sliding hole 14 is opened at the side wall 122 of the juice outlet pipe 13 and opens to the juice outlet channel 11. The residue discharge assembly 30 is assembled on the juice outlet pipe 13 and slides back and forth along the sliding hole 14, the sliding track is determined, and the guiding effect is good. The sliding hole 14 is a long hole, such as a spiral hole in a partial spiral shape, a linear long hole, or an oblique hole in an oblique shape, wherein the sliding hole 14 has a displacement component in the direction of the center line of the juice outlet channel 11. During the sliding of the residue discharge assembly 30 along the sliding hole 14, the residue discharge assembly 30 moves at least a predetermined displacement amount in the direction of the center line of the juice outlet channel 11, and the displacement amount is greater than zero. The slag discharging component 30 drives the fruit particles and the fruit residues to move along the central line direction of the juice outlet channel 11 in the reciprocating sliding process, and the slag discharging effect on the fruit particles and the fruit residues in the juice outlet channel 11 is good.

In one embodiment, the extractor assembly 30 slides linearly along the centerline of the juice channel 11. The residue discharge assembly 30 is slidably disposed on the cup body assembly 10 and slides along the central line of the juice outlet channel 11. Wherein, the sliding direction of the residue discharge assembly 30 is parallel to the central line of the juice outlet channel 11. Optionally, the direction of extension of the extractor assembly 30 is parallel to the centre line of the juice channel 11. For example, the slag discharge assembly 30 is provided as a cylindrical structure provided with at least one bent portion or boss portion. The residue discharge assembly 30 moves along the center line of the juice outlet channel 11 until the bending portion or the boss portion drives the fruit particles and the fruit residues to move. Alternatively, the slag discharging assembly 30 may be partially rotated during the linear movement.

In an alternative embodiment, the extension direction of the deslagging assembly 30 is obliquely intersected with the center line of the juice outlet channel 11. The deslagging assembly 30 is provided with a columnar structure, and the central line of the deslagging assembly obliquely intersects with the central line of the juice outlet channel 11. The deslagging assembly 30 moves along the central line direction of the juice outlet channel 11, and the main body of the deslagging assembly 30 drives the fruit particles and the fruit residues to move.

As shown in FIGS. 2 and 4, in an embodiment, the slag discharging assembly 30 includes a retaining member 32 retained on the cup body assembly 10 and a slag removing member 31 assembled to the retaining member 32, the retaining member and the slag removing member 31 slide along the juice outlet channel 11, and at least a portion of the slag removing member 31 is located in the juice outlet channel 11.

The retainer 32 is assembled to the cup assembly 10, and the slag removing member 31 is assembled to the retainer 32 and moves with the retainer 32. Specifically, the catching member 32 is fitted to the sliding hole 14 of the juice outlet pipe 13 and caught at the pipe wall of the juice outlet pipe 13. The residue removing piece 31 penetrates into the juice outlet channel 11 and scrapes and pushes the fruit grains to move in the moving process of the clamping piece 32, and the scraping efficiency is high.

The slag removing part 31 and the holding part 32 are assembled in a fixed connection and a movable connection. Optionally, the slag removing member 31 is fixedly connected to the holding member 32, and the relative positions of the slag removing member 31 and the holding member 32 are fixed. In the moving process of the clamping piece 32, the slag removing piece 31 drives the fruit grains to move in a scraping or sliding mode, and the slag removing piece 31 elastically deforms or keeps stable in shape. Optionally, the slag removing member 31 is movably connected with the holding member 32, the holding member 32 is held on the cup body 12, and the slag removing member 31 can rotate or move linearly relative to the holding member 32. For example, in the moving process of the retaining member 32, the fruit pieces are driven to move by the slag removing member 31 in a manner of scraping or sliding along the central line direction of the juice outlet channel 11, and meanwhile, the slag removing member 31 linearly moves or rotates in a telescopic manner relative to the retaining member 32, so as to improve the convenience of moving the fruit pieces.

The catch 32 is mounted at the juice outlet pipe 13 and slides along the juice outlet pipe 13. In an embodiment, the retaining member 32 includes a body 321 and a fastening portion 322 protruding from the body 321, the fastening portion 322 is inserted into the cup body assembly 10 and is fastened to the cup body assembly 10, and the body 321 is attached to the cup body assembly 10. The locking portion 322 is protruded from the body 321 and is locked to the wall of the juice outlet pipe 13. Alternatively, the fastening portion 322 is configured as two symmetrically distributed elastic hooks. The fastening portion 322 is inserted into the sliding hole 14, and the two elastic hook barbs are connected to the inner wall surface of the juice outlet pipe 13. The fastening portion 322 is fastened to the inner wall of the juice outlet pipe 13, and the main portion 321 is abutted to the outer surface of the juice outlet pipe 13 or the groove located outside.

As shown in fig. 3 and 4, the slag remover 31 is assembled to the body portion 321 and moves with the body portion 321. In one embodiment, the slag removing member 31 is slidably disposed on the retaining member 32. The slag removing member 31 is assembled to the retaining member 32 and slidably connected with respect to the retaining member 32 such that the position and the area of the scraper of the slag removing member 31 in the juice outlet passage 11 can be varied. Optionally, the body 321 is provided with a through guiding hole 323, and the slag removing member 31 is slidably disposed in the guiding hole 323. In the process that the clamping piece 32 drives the slag removing piece 31 to slide along the sliding hole 14, the slag removing piece 31 can slide along the guide hole 323 so as to adjust the position and the depth of a scraper at the end part of the slag removing piece 31, and the control is convenient.

In an alternative embodiment, the guiding hole 323 is provided with at least one positioning surface, and the slag removing member 31 is provided with a limiting surface matched with the positioning surface, so that the slag removing member 31 can only linearly reciprocate along the central line direction of the guiding hole 323, and the guiding effect is good.

In an alternative embodiment, the slag removing member 31 comprises a sliding rod 311 inserted into the guiding hole 323, one end of the sliding rod 311 is located in the juice outlet channel 11, and the other end thereof extends through the guiding hole 323 and extends outwards. In an alternative embodiment, the scarfing cinder 31 further comprises a scraper portion 312 provided on the sliding rod 311, the scraper portion 312 having a larger cross-section than the sliding rod 311. Alternatively, the spatula section 312 is provided at the end of the sliding rod 311 and extends outwardly from both sides of the sliding rod 311. For example, the spatula section 312 has a fan-shaped structure, a circular structure, an arc-shaped structure, or the like. The section of the scraping part 312 is smaller than that of the juice outlet channel 11, the sliding rod 311 moves along the guide hole 323, the scraping part 312 abuts against the body part 321, or the edge of the scraping part 312 abuts against the inner wall surface of the juice outlet channel 11, so as to limit the moving position of the slag removing piece 31.

As shown in fig. 4 and 5, in an embodiment, the slag discharging assembly 30 further includes a handle member 34 fixed to the slag removing member 31 and an elastic member 33 sleeved on the slag removing member 31, wherein the elastic member 33 is elastically abutted against the handle member 34. The slag removing member 31 is fixed to the handle member 34 and locked together, for example, by interference fit, screw, glue or other means. The elastic member 33 is sleeved on the sliding rod 311, one end of which is abutted against the juice outlet pipe 13 and/or the body part 321, and the other end of which is abutted against the handle member 34. The elastic member 33 elastically contacts the handle member 34 and drives the scraping portion 312 to contact the body portion 321, so that a juice gap is formed between the scraping portion 312 and the wall surface of the juice outlet channel 11, and the juice flows smoothly.

When the residue discharge assembly 30 moves along the juice outlet pipe 13, the handle member 34 is pressed and the elastic force of the elastic member 33 is overcome, the residue removing member 31 slides along the guide hole 323 and adjusts the gap between the spatula portion 312 of the residue removing member 31 and the inner wall surface of the juice outlet channel 11, so that the pushing effect of the residue removing member 31 on fruit grains and fruit residues is improved, the spatula effect is good, and the efficiency is high.

As shown in fig. 2 and 4, in one embodiment, the orange cup assembly further includes a filter screen 40 mounted to the cup body assembly 10, the screw head assembly 20 extends through the filter screen 40, and at least a portion of the filter screen 40 is covered at the inlet of the juice outlet channel 11. The filter screen 40 is used to filter the fruit processed by the screw head assembly 20, wherein the filter screen 40 is provided with a filter hole group 421. The filter screen 40 is used for filtering the food materials processed by the screw head assembly 20 through the filter hole group 421, so that the food materials gathered in the cup body assembly 10 can be directly drunk. And the parts which can not be drunk, such as seeds, fruit peels and the like, are reserved in the filter screen part 42, so that the filtering effect is good. The filtering hole group 421 includes a plurality of filtering holes distributed according to a predetermined rule, such as a grid shape, a ring shape, and the like.

In one embodiment, the filter screen 40 includes a filter screen portion 42 and a mounting portion 41 protruding from the filter screen portion 42, the filter screen 40 is mounted to the cup assembly 10 through the mounting portion 41, the filter screen portion 42 extends outward from the mounting portion 41, and the filter hole set 421 is disposed in the filter screen portion 42. Alternatively, the fitting portion 41 is provided with a fitting hole 411, the fitting hole 411 is provided with a positioning surface, and a part of the cup body assembly 10 is inserted into the fitting hole 411 and matched with the positioning surface. The assembly part 41 is sleeved on the cup body assembly 10, and the gyration radius of the screw head assembly 20 is smaller than the minimum outer contour radius of the filter screen part 42.

The radius of gyration of the screw head assembly 20 is smaller than the minimum outer contour radius of the filter screen part 42, accordingly, in the process of processing the food material by the screw head assembly 20, the fruit juice and fruit particles of the food material flow onto the filter screen part 42 along the surface of the screw head assembly 20, and the fruit juice and fruit particles meeting the requirement enter the cup body assembly 10 and the juice outlet channel 11 after passing through the filter screen 40.

In an embodiment, the cup body 12 includes a bottom wall 121, a side wall 122 surrounding the bottom wall 121, and a mounting boss protruding from a surface of the bottom wall 121, the outer surface of the mounting boss is provided with a limiting surface, and the filter screen 40 is sleeved on the mounting boss and matches with the limiting surface. Optionally, the cup body 12 is provided with a mounting hole penetrating through the mounting boss, and the screw head assembly 20 is connected to the mounting hole in an inserting manner.

Bottom wall 121 and side wall 122 surround a cup interior space in which filter screen 40 and a portion of screw head assembly 20 are located. The mounting boss is a tubular projection that extends from the surface of the bottom wall 121 into the interior space of the cup. The assembly part 41 of the filter screen 40 is sleeved outside the mounting boss and abuts against the bottom wall 121; or a step structure is arranged on the mounting boss, and the filter screen 40 is sleeved on the mounting boss and is abutted against one step surface on the mounting boss.

Be equipped with the locating surface in pilot hole 411, be equipped with spacing face on the periphery wall of installation boss. When the installation boss is located to filter screen 40 cover, the mounting angle and the mounted position of filter screen 40 are in order to inject to locating surface and spacing face mutually supported, avoid filter screen 40 to install the boss relatively and rotate, and it is effectual to fix a position, easy dismounting. The juice outlet channel 11 intersects the bottom wall 121 and is located at the lowest position of the bottom wall 121. In an alternative embodiment, the bottom wall 121 is inclined towards the juice channel 11 so that the liquid can be collected in the juice channel 11 by gravity.

As shown in fig. 2 and 4, in one embodiment, screw head assembly 20 includes a plurality of cutting ribs formed partially protruding from the surface. A plurality of cutting ribs are disposed at spaced intervals on the surface of screw head assembly 20. If eight cutting ribs are arranged on the surface of the screw head assembly 20, the eight cutting ribs are uniformly arranged on the surface of the screw head assembly 20, wherein the four cutting ribs are in a cross shape and are intersected at the top end of the screw head assembly 20. In the process that the screw head component 20 rotates relative to the fruit, the cutting ribs scrape the food materials in sequence, so that the pulp is separated from the fruit, and the scraping effect is good.

In an alternative embodiment, screw head assembly 20 is capable of rotating about its centerline under external force. For example, the orange cup assembly is mounted on the apparatus, and the screw head assembly 20 is driven to rotate by the apparatus, so that the screw head assembly 20 can scrape off fruit particles on the food material. For example, the apparatus is provided as a drive portion of a juicer on which the orange cup assembly rests to cause the apparatus to drive the screw head assembly 20 in rotation. Screw head subassembly 20 runs through filter screen 40 and cup body component 10 to can connect in the outer equipment of cup body component 10, the drive is connected conveniently, and cup body component 10's leakproofness is good.

In an alternative embodiment, screw head assembly 20 is secured to cup assembly 10 such that screw head assembly 20 is fixed relative to cup assembly 10. The operator rotates the food material about the screw head assembly 20 so that the screw head assembly 20 processes the food material. For example, the screw head assembly 20 and the cup body assembly 10 are provided with structures such as mutually matched reverse surfaces, so that the screw head assembly 20 and the cup body assembly 10 can be detachably connected, and the relative fixation of the installation position can be kept.

The screw head assembly 20 is assembled through the cup body assembly 10, so that the orange cup assembly can be applied to manual and electric driving, and the use mode is flexible. The filtering net 40 is used for filtering food materials, such as juice, fruit particles and the like, which are scraped by the screw head assembly 20 and slide down to the filtering net 40.

In one embodiment, screw head assembly 20 includes a small orange screw head 21 and a large orange screw head 22 removably attached to small orange screw head 21. The big orange screw head 22 is covered outside the small orange screw head 21, and the cutting ribs are arranged on the surface of the small orange screw head 21 and/or the big orange screw head 22.

Little orange screw head 21 assembles in cup body 12 subassembly, and little orange screw head 21 can dismantle with big orange screw head 22 and be connected, connects through the fastener like both, and the buckle is connected, plug-in connection, and screw connection and other can dismantle the connected mode. The big orange screw head 22 is arranged on the small orange screw head 21, and the screw head component 20 processes food materials through the big orange screw head 22; or the big orange screw head 22 and the small orange screw head 21 process the food simultaneously. After the big orange screw head 22 is detached from the small orange screw head 21, the food material can be processed through the small orange screw head 21, the processing size range of the food material which can be processed by the screw head assembly 20 is wide, and the processing effect is good.

In an alternative embodiment, cutting ribs are provided on the surface of the large orange screw head 22. In an alternative embodiment, cutting ribs are provided on the surface of the small orange screw head 21. In an alternative embodiment, the surface of the large orange screw head 22 and the surface of the small orange screw head 21 are both provided with cutting ribs. Wherein, the maximum radius of gyration of the big orange screw head 22 is larger than the maximum radius of gyration of the small orange screw head 21. Correspondingly, the large orange screw head 22 can process medium-sized fruits such as oranges and oranges, and the small orange screw head 21 can process small-sized fruits such as lemons and green oranges.

In an alternative embodiment, screw head assembly 20 further comprises a grapefruit screw head 23, grapefruit screw head 23 being removably attached to small orange screw head 21 and/or large orange screw head 22, and cutting ribs being provided on the surface of grapefruit screw head 23. The grapefruit screw head 23 is sleeved outside the large orange screw head 22 and can be detachably connected with the small orange screw head 21. Wherein, the connection mode of the grapefruit screw head 23 and the small orange screw head 21 is the same as the connection mode of the large orange screw head 22 and the small orange screw head 21. Or, the grapefruit screw head 23 is sleeved outside the large orange screw head 22 and can be detachably connected with the large orange screw head 22, for example, a driven boss is arranged on the large orange screw head 22, and the grapefruit screw head 23 is clamped on the driven boss to transmit power. Wherein, the maximum radius of gyration of the grapefruit screw head 23 is larger than the maximum radius of gyration of the large orange screw head 22. Accordingly, grapefruit screw head 23 can process large-volume fruits such as grapefruit.

In one embodiment, screw head assembly 20 further includes a plug shaft 24, cutting ribs protruding from the surface of screw head assembly 20, and plug shaft 24 extending through filter screen 40 and cup assembly 10. The plug shaft 24 is provided as a tubular structure that extends through the bottom wall 121 of the cup assembly 10 and outwardly therefrom. In an alternative embodiment, the outer circumferential wall of the plug shaft 24 is provided with a transmission portion, such as a flat shaft. The plug shaft 24 is assembled on the small orange screw head 21, and the plug shaft 24 penetrates through the cup body assembly 10 and is in plug connection with equipment, such as a hole or a clutch of the equipment, so that the equipment is in driving connection or positioning connection with the plug shaft 24. In an alternative embodiment, the plug shaft 24 is provided with a plug bore, the inner wall surface of which is provided with at least one transmission surface. The device is provided with an output shaft which is connected to the plug hole in a plug-in manner. The output shaft is provided with a power surface, and the power surface is mutually attached to the insertion surface so as to drive the output shaft to rotate.

As shown in fig. 6 and 7, the orange cup component provided in the above embodiment is applied to a multifunctional food processor, and the screw head component 20 is driven by the driving part of the juicer to rotate so as to process food, so that one machine with multiple functions is realized. In one embodiment, the multifunctional food processor comprises a driving body 50 and the orange cup component provided in the above embodiment, the driving body 50 is provided with a driving motor 52, and an output shaft of the driving motor 52 is in driving connection with the screw head component 20.

In an optional embodiment, the multifunctional processor further comprises a juicing body 60, one of the juicing body 60 and the orange cup component is assembled to the driving body 50 and is in driving connection with the output shaft of the driving motor 52. When the juicing body 60 is assembled to the driving body 50, the juicing body 60 is used for processing food materials and outputting liquid drinks. When the orange cup assembly is assembled to the drive body 50, the orange cup assembly is used to process a particulate beverage such as orange juice.

Multifunctional food processor sets up juice extraction main part 60 and orange cup part, and both can replace each other, and drive main part 50 can drive juice extraction main part 60 or with orange cup part so that multifunctional food processor carries out corresponding function, and the user can select to use one of them processing operation, user convenient to use of juice extraction main part 60 and orange cup part according to the edible material of processing. The driving main body 50 can be assembled and connected with the juicing main body 60 and the orange cup parts, so that the utilization rate of the equipment parts is high, and the occupied space is small.

The driving body 50 further includes a base 51, the driving motor 52 is installed in the base 51, and an output shaft of the driving motor 52 extends out of the base 51. Optionally, the drive motor 52 is provided with a reduction gearbox. The juicing main body 60 or the orange cup component is placed on the base 51 and is in driving connection with an output shaft of the driving motor 52, and the juicing main body 60 or the orange cup component is driven to process food materials in the working process of the driving motor 52. Wherein, the output shaft of the driving motor 52 is inserted and connected with the inserting shaft 24 of the orange cup component so as to drive the screw head component 20 to rotate and process drinks such as orange juice, and the assembly is convenient.

Optionally, the juicing body 60 comprises a cabinet and a juicing assembly mounted within the cabinet, the juicing assembly being provided with a coupling arrangement to match the drive motor 52. If the juicing component is provided with a transmission hole, the output shaft of the driving motor 52 is inserted into the transmission hole and drives the juicing component to process food materials in the shell. The casing is provided with a juice outlet and a slag outlet, the juicing main body 60 is assembled on the driving main body 50, and the driving motor 52 drives the juicing assembly to squeeze fruit and vegetable food materials. Wherein, the juice outlet outputs liquid fruit and vegetable juice outwards, and the residue outlet outputs residue left after processing fruit and vegetable food materials outwards.

The above embodiments are merely preferred embodiments of the present application, which are not intended to limit the present application, and the above embodiments may be combined with each other without conflict. Any modification, equivalent replacement, improvement and the like made within the spirit and principle of the present application shall be included in the protection scope of the present application.

Claims (10)

1. The orange cup component is characterized by comprising a cup body component (10) and a screw head component (20) assembled on the cup body component (10), wherein the cup body component (10) is provided with a juice outlet channel (11), the orange cup component further comprises a slag discharging component (30) assembled on the cup body component (10), and the slag discharging component (30) is slidably arranged on the juice outlet channel (11).

2. The orange cup assembly according to claim 1, wherein the cup body assembly (10) comprises a cup body (12) and a juice outlet pipe (13) protruding from the cup body (12), the cup body (12) is provided with a processing space, at least a part of the screw head assembly (20) is located in the processing space, the juice outlet channel (11) is arranged in the juice outlet pipe (13) and is communicated with the processing space, and the slag discharge assembly (30) is slidably arranged in the juice outlet pipe (13).

3. The orange cup assembly according to claim 2, wherein the juice outlet pipe (13) is provided with a sliding hole (14) communicating with the juice outlet channel (11), the slag discharge assembly (30) is slidably arranged in the sliding hole (14) and at least part of the slag discharge assembly (30) is inserted into the juice outlet channel (11).

4. The orange cup assembly of claim 1, wherein the extractor assembly (30) slides linearly along the centerline of the juice channel (11).

5. The orange cup assembly of claim 1, wherein the slagging assembly (30) comprises a retaining member (32) retained to the cup body assembly (10) and a slag removal member (31) assembled to the retaining member (32), the retaining member (32) and the slag removal member (31) slide along the juice channel (11), and at least part of the slag removal member (31) is located within the juice channel (11).

6. The orange cup component of claim 5, wherein the retaining member (32) comprises a body portion (321) and a fastening portion (322) protruding from the body portion (321), the fastening portion (322) is inserted into the cup body assembly (10) and is fastened to the cup body assembly (10), and the body portion (321) is attached to the cup body assembly (10).

7. The orange cup assembly of claim 5, wherein the slag removal member (31) is slidably disposed on the retaining member (32).

8. The orange cup component of claim 7, wherein the deslagging assembly (30) further comprises a handle member (34) fixed to the slag removing member (31) and an elastic member (33) sleeved on the slag removing member (31), wherein the elastic member (33) is elastically abutted to the handle member (34).

9. The orange cup assembly of claim 1, further comprising a filter screen (40) mounted to the cup assembly (10), the screw head assembly (20) extending through the filter screen (40), at least a portion of the filter screen (40) being covered at an inlet of the juice channel (11).

10. A multi-function food processor comprising a drive body (50) and an orange cup assembly according to any one of claims 1 to 9, wherein the drive body (50) is provided with a drive motor (52), and an output shaft of the drive motor (52) is in driving connection with the screw head assembly (20).

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