CN209883932U - Food processor - Google Patents

Abstract

The present application provides a food processor. Food preparation machine include the host computer part with assemble in the cup part of host computer part, the cup part include cup body subassembly, assemble in the blade disc subassembly and the filter screen subassembly of cup body subassembly, lid are located the bowl cover subassembly of cup body subassembly, the filter screen subassembly encircles and locates blade disc subassembly. The bowl cover subassembly is equipped with feedstock channel, the blade disc subassembly is equipped with the drive division, the drive division drives under the rotation state and passes through the thick liquid of blade disc subassembly processing to it flows to go out the juice passageway direction. The cutter head assembly processes food materials, and the food materials form slurry which is separated after being filtered by the filter screen assembly. The cutter head assembly rotates under the driving of the main machine component, the driving part outputs airflow or a scraping shovel blowing towards the juice outlet channel direction to the position of the slurry, the slurry flows in the juice outlet channel direction under the driving of the driving part, and the slurry conveying efficiency is high. The cutter head assembly is detachably connected, and is convenient to clean.

Description

Food processor

Technical Field

The application relates to the technical field of cooking devices, and relates to a food processing machine.

Background

The food processor comprises a main machine part and a juicing main body arranged on the main machine part, wherein the juicing main body is provided with a cup body component, a juicing cutter set and a filter screen component, the juicing cutter set and the filter screen component are assembled in the cup body component, and the filter screen component surrounds the juicing cutter set. The cup body component is provided with a juice outlet and a slag outlet, the juicing knife group processes food materials and separates fruit and vegetable juice from fruit residues through the filter screen component, wherein the fruit and vegetable juice is output along the juice outlet under the action of gravity, and the fruit residues are discharged outwards along the slag outlet.

The existing food processor has the disadvantages of complex structure, high processing cost and low generation efficiency. The fruit and vegetable juice flows towards the direction of the juice outlet by the gravity of the fruit and vegetable juice, so that the flowing efficiency is low and the fruit and vegetable juice is easy to remain. Moreover, the juicing knife set is provided with the blades and other structures, so that fingers and other parts are easily injured in the cleaning process, and the user experience is poor.

SUMMERY OF THE UTILITY MODEL

In view of the above, the present application provides a food processor.

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

the utility model provides a first aspect discloses a food preparation machine, including host computer part with assemble in the cup part of host computer part, cup part including cup body subassembly, assemble in the blade disc subassembly and the filter screen subassembly of cup body subassembly, lid are located the bowl cover subassembly of cup body subassembly, the filter screen subassembly ring is located blade disc subassembly, the bowl cover subassembly is equipped with feedstock channel, blade disc subassembly is located feedstock channel's extending direction and with the drive of host computer part is connected, the cup body subassembly is equipped with out the juice passageway, blade disc subassembly is equipped with the drive division, the drive division drives under the rotation state warp the thick liquid of blade disc subassembly processing to it flows to go out the juice passageway direction.

Optionally, the cutter head assembly includes a transmission shaft, the driving portion is provided as at least one fan blade set connected to the transmission shaft, the main machine component is in driving connection with the transmission shaft, and the slurry flows towards the juice outlet channel under the driving of the fan blade set. The driving part is in a fan blade group structure, and the slurry is driven to flow by a scraper or an air flow mode, so that the driving efficiency is high.

Optionally, the cutter head assembly includes a bracket and a cutter head, the bracket is fixedly disposed on the transmission shaft, the cutter head is fixedly disposed on the transmission shaft and/or the bracket, and the fan blade group is disposed on the bracket and/or the cutter head. The fan blades are formed on the bracket part or the cutter head, the forming is convenient, and the strength of the cutter head component is high. The bracket part and the cutter head can be independently arranged and also can be fixedly connected into a whole, and the assembly is flexible.

Optionally, the fan blade group includes two or more convex plates distributed at intervals on the support member and/or the cutter head, and the cross section of each convex plate is linear or curved. The structure adjustment of the fan blade group can change the flow direction and the flow velocity of the air flow, and the adjustment is convenient.

Optionally, the fan blade group is provided with a plurality of fan blades distributed on one side or two sides of the support member. The fan blade group is arranged on the support part, the strength of the support part is high, and the air flow range is wide.

Optionally, the bracket component includes a central column and a bracket main body formed on the central column, the fan blade set protrudes from a surface of the bracket main body partially and surrounds the central column, and the fan blade set intersects with the central column or is distributed at intervals with the central column. The surface of the main frame is provided with a fan blade group which can adjust the flow direction of the air flow and the air suction and exhaust mode.

Optionally, the filter screen assembly includes a filter screen surrounding the cutter head assembly, the filter screen is provided with a filter hole group, and the cutter head assembly drives the slurry to flow in the direction of the filter hole group. The filter screen subassembly is used for filtering the thick liquid, improves juice efficiency and quality.

Optionally, the filter screen includes two or more brace rods and locates the filter screen portion between two adjacent brace rods, the filtration pore group is located filter screen portion, filter screen portion just is to go out the juice passageway. The supporting ribs avoid the juice outlet channel, and the juice outlet efficiency can be improved.

Optionally, the filter screen assembly comprises a diversion piece and a positioning piece which are fixedly arranged at two ends of the filter screen respectively, the diversion piece is abutted to the bottom of the cup body assembly and surrounds the cutter head assembly, and the cup cover assembly is covered on the cup body assembly and limits the positioning piece. The guide piece and the positioning piece can improve the installation precision of the filter screen assembly and have good guide effect on the juice.

Optionally, the bowl cover subassembly includes the lid and locates in the sliding manner feedstock channel's lifter, the lid includes the orientation the passage that the blade disc subassembly direction extends, feedstock channel locates the passage. The material returning pipe can push the food materials to move towards the direction of the cutter head assembly, and the guidance of the food materials is good.

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

the cutter head assembly processes food materials, and the food materials form slurry which is separated after being filtered by the filter screen assembly. The cutter head assembly rotates under the driving of the main machine component, the driving part outputs airflow or a scraping shovel blowing towards the juice outlet channel direction to the position of the slurry, the slurry flows in the juice outlet channel direction under the driving of the driving part, and the slurry conveying efficiency is high. The cutter head assembly is detachably connected, and is convenient to clean.

Drawings

Fig. 1 is a schematic view of an assembled structure of a food processor according to an exemplary embodiment of the present application.

Fig. 2 is a schematic cross-sectional view of a cup assembly according to an exemplary embodiment of the present application.

Fig. 3 is a schematic diagram of an exploded configuration of a cup component according to an exemplary embodiment of the present application.

FIG. 4 is a cross-sectional structural schematic view of the cutterhead assembly shown in an exemplary embodiment of the present application.

FIG. 5 is an exploded view of the cutterhead assembly shown in accordance with an exemplary embodiment of the present application.

Fig. 6 is a schematic structural diagram of a bracket component for intersecting a linear fan blade group to a central column according to an exemplary embodiment of the present application.

Fig. 7 is a schematic structural diagram of a bracket component for a curved set of fan blades intersecting a center post according to an exemplary embodiment of the present application.

Fig. 8 is a schematic structural diagram of a bracket component, which is provided between a linear fan blade group and a central column in an interval manner, according to an exemplary embodiment of the present application.

Fig. 9 is a schematic structural diagram of a bracket member with a curved fan blade set and a central post spaced apart from each other according to an exemplary embodiment of the present application.

FIG. 10 is a schematic view of an assembly angle configuration of a strainer assembly to a juice channel according to an exemplary embodiment of the present application.

In the figures, the cutterhead assembly 10; a transmission shaft 11; a fan blade group 12; a bracket member 13; a holder main body 131; a center post 132; a convex plate 133; a cutter head 14; a cutter head holder assembly 15; a cup holder 16; a cup body assembly 20; a juice outlet channel 21; a screen assembly 30; a filter screen 31; a group of filter holes 311; a screen section 312; support ribs 313; a flow guide 32; a positioning member 33; a cup cover assembly 40; a feed channel 41; a cover 42; a pusher bar 43; a host part 50; a base 51; a drive assembly 52.

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 2, the food processor includes a main machine component 50 and a cup body component assembled to the main machine component 50, the cup body component includes a cup body assembly 20, a cutter head assembly 10 and a filter screen assembly 30 assembled to the cup body assembly 20, a cup cover assembly 40 covering the cup body assembly 20, and the filter screen assembly 30 is annularly disposed on the cutter head assembly 10. The cup cover assembly 40 is provided with a feeding channel 41, and the cutter head assembly 10 is positioned in the extending direction of the feeding channel 41 and is in driving connection with the main machine part 50. The cup body assembly 20 is provided with a juice outlet channel 21, the cutter head assembly 10 is provided with a driving part, and the driving part drives the slurry processed by the cutter head assembly 10 to flow towards the juice outlet channel 21 in a rotating state.

The cup body assembly 20 is mounted to the main unit 50 and the cutter head assembly 10 is in driving connection with the output portion of the main unit 50. For example, the main unit 50 has an output shaft to which the cutter head assembly 10 is connected. The food material to be processed is conveyed to the cutter head assembly 10 through the feeding channel 41, the cutter head assembly 10 is driven by the main machine part 50 to rotate and process the food material, and the food material forms slurry under the processing of the cutter head assembly 10. The screen assembly 30 surrounds the cutter head assembly 10, and the driving portion drives the slurry to flow toward the screen assembly 30 by means of a spatula, an accelerated gas flow, and the like. Wherein the slurry impacts the strainer assembly 30 under the driving force of the driving part, wherein the liquid part converges towards the juice outlet channel 21, and the residue stays in the space surrounded by the strainer assembly 30.

As shown in fig. 2, 3 and 5, in an alternative embodiment, the cutter head assembly 10 is detachably connected with the cup body assembly 20, so that the cutter head assembly and the cup body assembly are convenient to disassemble and assemble, and the cleaning difficulty is low. In an alternative embodiment, the cutter head assembly 10 is provided with a cup holder 16, and the cup holder 16 is connected with the cup body assembly 20 through a screw-on connection, a screw connection, a snap connection, a fastener locking connection and other structures which are convenient to disassemble.

In one embodiment, the impeller assembly 10 includes a drive shaft 11, the drive portion is configured as at least one fan blade set 12 connected to the drive shaft 11, the main body member 50 is in driving connection with the drive shaft 11, and the slurry is driven by the fan blade set 12 to flow toward the juice outlet channel 21.

The impeller assembly 10 is driven to rotate by the main body member 50, and the driving portion accelerates the air flow and forms an air flow blowing toward the strainer assembly 30, which brings the juice toward the juice outlet passage 21, with high efficiency of juice flow. Alternatively, the fan blade assembly 12 is connected to the drive shaft by a direct connection or an indirect connection. The serous fluid passes through the filter screen component 30 under the drive of the air current and is gathered at the juice outlet channel 21 of the cup body component 20, and the juice outlet efficiency is high.

In an alternative embodiment, the fan blade set 12 is directly fixed to the drive shaft 11. The fan blade set 12 includes a fixing ring fixed to the transmission shaft 11 and driving fan blades distributed on the fixing ring at intervals, and the driving fan blades are distributed along the radial direction of the transmission shaft 11 so as to make the airflow flow toward the direction of the filter screen assembly 30. The driving fan blade can be a straight plate-shaped fan blade or a bent plate-shaped fan blade.

In an alternative embodiment, the cutter head assembly 10 includes a bracket member 13 and a cutter head 14, the bracket member 13 is fixedly arranged on the transmission shaft 11, the cutter head 14 is fixedly arranged on the transmission shaft 11 and/or the bracket member 13, and the fan blade group 12 is arranged on the bracket member 13 and/or the cutter head 14.

The bracket member 13 is fixed to the transmission shaft 11 and can rotate with the transmission shaft 11. Optionally, the cutter head 14 is fixed to the bracket member 13 and rotates with the bracket member 13. Alternatively, the cutter head 14 is fixed to the transmission shaft 11 and rotates with the transmission shaft 11, and the cutter head 14 and the holder member 13 are provided separately to the transmission shaft 11. Wherein, the cutter head 14 is used for processing and crushing food materials, and the extending part of the feeding channel 41 is positioned at the processing surface of the cutter head 14.

The food material moves to the cutter head 14 along the feeding channel 41, and slurry is formed under the rotation processing of the cutter head 14, and the slurry is thrown out of the processing surface of the cutter head 14 under the action of centrifugal force. The fan blade set 12 is disposed on the bracket member 13 and/or the cutter head 14, and delivers the slurry to the screen assembly 30 by means of high-speed air flow or a spatula under the driving of the transmission shaft 11.

In an alternative embodiment, shown in fig. 3 and 4, the fan blade set 12 is fixedly mounted to the cutter head 14. The fan blade set 12 may be secured to the cutter head 14 by welding, molding, fastener locking, or other means of attachment, such that the cutter head 14 and the fan blade set 12 form an integral structure. The fan blade set 12 is fixedly arranged on the cutter disc 14 and forms a structure similar to a structure protruding from the surface of the cutter disc 14, and air is driven by the fan blade set 12 to flow in an accelerated manner in the rotating process of the cutter disc 14.

As shown in fig. 6 to 9, in an alternative embodiment, the fan blade set 12 includes two or more convex plates 133 spaced apart from the cutter head 14, and the cross section of the convex plates 133 is linear or curved. The cutter head 14 is in a flat plate-shaped structure, and the fan blade group 12 is formed on the cutter head 14 and partially protrudes from the surface of the cutter head 14. The convex plates 133 extend from the center of the cutter head 14 to the edge direction and are distributed at intervals, so that the strength of the cutter head 14 can be effectively improved, and the shape stability of the cutter head 14 is good. The cutter head 14 is assembled to the bracket 13, and the fan blade group 12 abuts against the bracket 13. Optionally, the bracket member 13 is provided with an air inlet passage or a through hole.

In an alternative embodiment, the fan blade set 12 is fixedly mounted to the bracket member 13. The fan blade set 12 is provided with a plurality of fan blades distributed on one side or two sides of the bracket 13. The fan blade assembly 12 can be locked to the bracket 13 by welding, molding, fastening, locking, and other connecting methods, so that the bracket 13 and the fan blade assembly 12 form an integral structure. The fan blade set 12 is fixedly arranged on the support member 13 and forms a fan blade structure approximately protruding from the surface of the support member 13, and air is driven by the fan blade set 12 to flow in an accelerated manner in the rotation process of the cutter head 14. Optionally, the cutter disc 14 is fitted to the bracket member 13, the set of blades 12 abutting against the cutter disc 14. Optionally, the fan blade set 12 is disposed on one side of the bracket 13, and the cutter head 14 abuts against the other side of the bracket 13.

In an alternative embodiment, the fan blade set 12 includes two or more protruding plates 133 spaced apart from the support member 13, the protruding plates are fan blades of the fan blade set, and the cross section of the protruding plates 133 is linear or curved. The protruding plate 133 is formed to protrude partially along the surface of the bracket 13 and forms a plate-shaped fan blade structure distributed at intervals. The protruding plate 133 extends from the center of the bracket member 13 toward the edge to allow the air flow to flow in the circumferential direction. The convex plate 133 is a straight plate or a bent plate structure, which can guide the flow direction and angle of the air flow to change, so as to be suitable for driving the juice, and the adjustment is convenient. The fan blade group 12 is formed on the support part 13, the strength of the support part 13 can be improved, and the shape stability of the support part 13 is good.

In an alternative embodiment, when the fan blade group 12 is disposed on the bracket 13 and the cutter head 14, the convex plate 133 of the bracket 13 abuts against the convex plate 133 of the cutter head 14; alternatively, the raised plates 133 of the bracket member 13 are staggered with respect to the raised plates 133 of the cutter deck 14.

In an alternative embodiment, two fan blade sets 12 are provided and symmetrically distributed on both sides of the bracket member 13. The bracket 13 is provided with a plate-shaped bracket main body 131, and the fan blade set 12 is convexly arranged at two sides of the bracket main body 131 to expand the driving range of the fan blade set 12. The cutter head 14 abuts against the fan blade group 12 and is locked on the bracket main body 131, so that the assembly is convenient.

In an optional embodiment, the bracket component 13 includes a central pillar 132 and a bracket main body 131 formed on the central pillar 132, the vane set 12 partially protrudes from the surface of the bracket main body 131 and surrounds the central pillar 132, and the vane set 12 intersects with the central pillar 132 or is spaced apart from the central pillar 132.

The transmission shaft 11 is fixed to the center post 132, and the bracket main body 131 extends radially outward from the center post 132. The fan blade set 12 is a protruding plate 133 or a protruding rib formed on the bracket main body 131, and a first side of the protruding plate 133 extends toward the edge of the bracket main body 131 and a second side extends toward the center post 132. Optionally, the first side extends to the edge of the bracket main body 131, and the second side extends to the central pillar 132. Optionally, the first side extends to the edge of the bracket main body 131, and the second side is spaced from the central pillar 132 by a preset distance.

As shown in fig. 2 and 10, in an embodiment, the cutter head assembly 10 further comprises a cutter head seat assembly 15, the transmission shaft 11 is connected to the cutter head assembly 10 in a plugging mode and can rotate around a rotation center line of the transmission shaft, and the cup seat 16 is assembled on the cutter head seat assembly 15. The cup body assembly 20 is assembled on the cup seat 16, the cutter head seat assembly 15 is sealed at the bottom of the cup body assembly 20, and the support assembly 13 and the cutter head 14 are positioned on one side of the cutter head seat assembly 15 and positioned in the cup body assembly 20. The cutter head seat assembly 15 is used for sealing and sealing the bottom of the cup body assembly 20, and the transmission shaft 11 is rotatably connected to the cutter head seat assembly 15, so that the assembly is convenient, and the tilting effect is good.

In one embodiment, the screen assembly 30 includes a screen 31 surrounding the impeller assembly 10, the screen 31 having a set of filter holes 311, and the impeller assembly 10 driving air toward the set of filter holes 311. The filter screen 31 is of an annular tubular structure, a filter hole group 311 is formed in the filter screen 31, and the filter hole group 311 is used for filtering slurry formed after food processing. The filter screen 31 surrounds the cutter head assembly 10, the processed food material is driven by the air flow output by the fan blade group 12 and impacts on the filter screen 31, wherein the juice part passes through the filter hole group 311, and the residue part is retained in the filter screen 31 and moves along the inner side wall of the filter screen 31 under the action of the air flow and the centrifugal force of the cutter head assembly 10, so as to enter the cup body assembly 20.

In an alternative embodiment, the filtering net 31 includes two or more supporting ribs 313 and a filtering net portion 312 disposed between two adjacent supporting ribs 313, the filtering hole set 311 is disposed on the filtering net portion 312, and the filtering net portion 312 faces the juice outlet channel 21. The screen part 312 is connected to two adjacent support ribs 313, so that the support ribs 313 provide support force for the screen part 312 to keep the shape and position of the screen part 312 stable. The filtering hole set 311 penetrates through the filtering net part 312 and avoids the supporting rib 313, and when the filtering net component 30 is assembled on the cup body component 20, the juice outlet channel 21 is opposite to one of the filtering net parts 312 and avoids the supporting rib 313, so that the filtering efficiency of the food material is improved.

In an alternative embodiment, the filter screen assembly 30 includes a flow guiding member 32 and a positioning member 33 respectively fixed at two ends of the filter screen 31, the flow guiding member 32 abuts against the bottom of the cup body assembly 20 and surrounds the cutter head assembly 10, and the cup cover assembly 40 covers the cup body assembly 20 and defines the positioning member 33.

The guide member 32 is fixed to one end of the filter screen 31 and surrounds the outer surface of the filter screen 31, so that the juice flowing out of the filter screen 31 can flow to the juice outlet channel 21 along the guide member 32, optionally, the guide member 32 has a plate-shaped structure, and the lowest filtering hole group 311 is higher than the upper surface of the guide member 32, so that the juice can flow along the surface of the guide member 32. In an alternative embodiment, the cup body assembly 20 is provided with a mounting slot in which the baffle 32 is located. Optionally, the flow guide surface of the flow guide 32 protrudes or is flush with the notch of the mounting groove.

The positioning member 33 is fixed at the other end of the filter screen 31, and the cup cover assembly 40 is covered on the cup body assembly 20 and defines the installation angle of the positioning member 33. Optionally, the cap assembly 40 is connected with the positioning member 33 in a plugging manner. Optionally, an annular boss is arranged on the cup cover assembly 40, and the positioning member 33 is connected to the annular boss in an inserting manner. The cup cover assembly 40 is provided with a positioning boss or a groove, the positioning part 33 is provided with an insertion part matched with the positioning boss or the groove, and the insertion part is inserted and connected with the positioning boss or the groove. Optionally, the cap assembly 40 is snap-fit connected to the retainer 33. The positioning member 33 is connected to the cup cover assembly 40 in a snap-fit manner and drives the filter screen 31 and the flow guide member 32 to move together, so that the assembly is convenient.

As shown in fig. 1 and 2, in an embodiment, the cup cover assembly 40 includes a cover body 42 and a material pushing rod 43 slidably disposed in the feeding channel 41, the cover body 42 includes a material guiding pipe extending toward the cutter head assembly 10, and the feeding channel 41 is disposed on the material guiding pipe.

The cup cover assembly 40 covers the opening of the cup body assembly 20, wherein the material guiding pipe extends from the cover body 42 to the cutter head assembly 10, and is spaced from the processing surface of the cutter head assembly 10 by a predetermined distance. The food material is loaded into the material guide pipe and is abutted against the processing surface of the cutter head assembly 10 under the thrust action of the material pushing rod 43, the cutter head assembly 10 processes the food material under the driving of the main machine part 50, and the processing efficiency is high.

In one embodiment, the main unit 50 includes a base 51 and a drive assembly 52 mounted within the base 51, the cup assembly being mounted to the base 51, and the cutterhead assembly 10 being in driving connection with an output shaft of the drive assembly 52. Optionally, the cutter head assembly 10 is connected with the driving assembly 52 in a plug-in mode through a clutch assembly. Alternatively, the base 51 is provided with a fitting groove, and the cup holder 16 is fitted to the fitting groove.

In an alternative embodiment, the drive assembly 52 is provided as a motor assembly. Alternatively, the speed of the motor assembly is set to D and the power of the motor assembly is set to P, wherein D is less than or equal to 23000RPM and P is less than or equal to 450W.

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. A food processor comprising a main body part (50) and a cup part fitted to the main body part (50), the cup body component comprises a cup body component (20), a cutter head component (10) and a filter screen component (30) which are assembled on the cup body component (20), and a cup cover component (40) which is covered on the cup body component (20), the filter screen assembly (30) is arranged on the cutter head assembly (10) in a surrounding manner, the cup cover assembly (40) is provided with a feeding channel (41), the cutter head assembly (10) is positioned in the extending direction of the feeding channel (41) and is in driving connection with the main machine component (50), the cup body component (20) is provided with a juice outlet channel (21), the cutter head component (10) is provided with a driving part, the driving part drives the serous fluid processed by the cutter head component (10) to flow towards the juice outlet channel (21) in a rotating state.

2. A food processor as claimed in claim 1, wherein the cutter head assembly (10) comprises a drive shaft (11), the drive portion is provided as at least one fan blade unit (12) connected to the drive shaft (11), the main body member (50) is in driving connection with the drive shaft (11), and the slurry is driven by the fan blade unit (12) to flow toward the juice outlet channel (21).

3. A food processor as claimed in claim 2, wherein the cutter head assembly (10) comprises a holder member (13) and a cutter head (14), the holder member (13) being fixedly attached to the drive shaft (11), the cutter head (14) being fixedly attached to the drive shaft (11) and/or the holder member (13), the fan blade unit (12) being provided to the holder member (13) and/or the cutter head (14).

4. A food processor as claimed in claim 3, wherein the set of fan blades (12) comprises two or more raised plates (133) spaced apart from the holder member (13) and/or the cutter head (14), the raised plates (133) being linear or curved in cross-section.

5. A food processor as claimed in claim 3, wherein the set of fan blades (12) is provided with a plurality of fan blades distributed on one or both sides of the bracket member (13).

6. A food processor as claimed in claim 3, wherein the bracket member (13) comprises a central pillar (132) and a bracket main body (131) formed on the central pillar (132), the set of vanes (12) partially protrudes from the surface of the bracket main body (131) and surrounds the central pillar (132), and the set of vanes (12) intersect with the central pillar (132) or are spaced apart from the central pillar (132).

7. A food processor as claimed in claim 1, wherein said screen assembly (30) comprises a screen (31) surrounding said impeller assembly (10), said screen (31) having a set of perforations (311), said impeller assembly (10) driving slurry toward said set of perforations (311).

8. A food processor as claimed in claim 7, wherein the filter sieve (31) comprises two or more support ribs (313) and a sieve portion (312) arranged between two adjacent support ribs (313), the set of filter holes (311) being arranged in the sieve portion (312), the sieve portion (312) facing the juice outlet channel (21).

9. A food processor as claimed in claim 7, wherein the sieve assembly (30) comprises a flow guide member (32) and a positioning member (33) fixedly disposed at two ends of the sieve (31), respectively, the flow guide member (32) abuts against a bottom of the cup body assembly (20) and surrounds the cutter head assembly (10), and the cup cover assembly (40) covers the cup body assembly (20) and defines the positioning member (33).

10. A food processor as claimed in claim 1, wherein the cup cover assembly (40) comprises a cover body (42) and a material pushing rod (43) slidably disposed in the feeding channel (41), the cover body (42) comprises a material guiding pipe extending towards the cutter head assembly (10), and the feeding channel (41) is disposed on the material guiding pipe.

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