CN219685891U - Shredding module for food processor and food processor - Google Patents

Abstract

The utility model relates to a shredding module for a food processor and the food processor, wherein the shredding module comprises: the inside of the fixed seat is hollow to form a working chamber; the shredding cutter assembly includes: an outer cylinder which is rotatably arranged in a working cavity of the fixed seat in a mode of rotating around an axis of the outer cylinder, wherein a sheet food inlet which is internally and externally communicated and extends along the length direction of the outer cylinder is formed in the peripheral wall of the outer cylinder, and a slicing knife is arranged at the sheet food inlet of the outer cylinder; the inner cylinder is rotationally arranged in the outer cylinder in a mode of rotating around the axis of the inner cylinder, the inner cylinder comprises shredding blades which extend along the length direction of the inner cylinder and are arranged at intervals in the circumferential direction of the inner cylinder, and an opening for the flaky food to extend into the inner cylinder is formed between two adjacent shredding blades. The user is not required to apply larger force to the food, the shredding process is more labor-saving, the shredding efficiency is effectively improved, and on the other hand, the food is not easy to damage due to the fact that larger force is continuously applied, and the shredding cutter assembly is not easy to deform.

Description

Shredding module for food processor and food processor

Technical Field

The utility model relates to the technical field of kitchen appliances, in particular to a shredding module for a food processor and the food processor.

Background

Food processors are mainly kitchen appliances used in the kitchen for processing food (food materials). Conventional food processors include a cutting and blending machine for cutting (e.g., slicing or dicing) food materials, a meat grinder for processing meat food materials, and the like. The slicing processing of the fruit, vegetable and food materials by the existing food processor usually adopts a knife cylinder type tool to cut the food materials in the rotating process.

The Chinese patent application with the application number of CN202123142458.5 (the authorized bulletin number is CN 217046519U) discloses an outer cylinder structure, which comprises a cutter cylinder body, wherein the cutter cylinder body is assembled at a shredding opening of shredding equipment, a plurality of shredding cutter bars are arranged on the arc-shaped side surface of the cutter cylinder body, each shredding cutter bar comprises a plurality of side-by-side rectangular blades, two adjacent rectangular blades are connected through an arc-shaped sheet, the rectangular blades arch upwards, and the arc-shaped sheet bends downwards.

The outer cylinder structure in the patent application has a certain defect that the outer cylinder is directly provided with the relatively dense shredding knife bars on the knife cylinder body, and in the shredding process, the feeding port of the strip-shaped food is relatively narrow, so that larger pressure is required to be applied to the food in the shredding process, the food is easily damaged due to serious extrusion, and the shredding effect of the food is affected; on the other hand, if the strength of the outer tube itself is insufficient, deformation is likely to occur, and the cutting effect is affected.

Disclosure of Invention

The first technical problem to be solved by the utility model is to provide a shredding module for a food processor, which is stable in cutting and matching action process and is not easy to cause damage of food materials due to excessive pressure.

The second technical problem to be solved by the present utility model is to provide a food processor using the above shredding module, aiming at the current state of the art.

The technical scheme adopted by the utility model for solving the first technical problem is as follows: a shredder module for a food processor, comprising:

the inside of the fixed seat is hollow to form a working chamber;

the shredding cutter assembly is arranged in the working cavity;

the shredding cutter assembly includes:

the outer barrel is rotatably arranged in the working cavity of the fixed seat in a mode of rotating around the axis of the outer barrel, a sheet-shaped food inlet which is internally and externally communicated and extends along the length direction of the outer barrel is formed in the peripheral wall of the outer barrel, and a slicing knife for slicing food in the rotation process of the outer barrel is arranged at the sheet-shaped food inlet of the outer barrel;

the inner tube is rotationally arranged in the outer tube in a mode of rotating around the axis of the inner tube, the inner tube and the outer tube are coaxially arranged, the inner tube comprises shredding blades which extend along the length direction of the inner tube and are arranged at intervals in the circumferential direction of the inner tube, and an opening for the flaky food to extend into the inner tube is formed between two adjacent shredding blades.

In order to avoid the problem of material clamping between the outer cylinder and the inner cylinder, the outer circumferential wall of the inner cylinder is adjacent to the inner wall of the outer cylinder, and a gap between the outer circumferential wall of the inner cylinder and the inner wall of the outer cylinder is denoted as L, wherein L is more than or equal to 2mm and less than or equal to 50mm.

In order to facilitate discharging and reasonably utilize the space in the working chamber, the axis of the outer cylinder is obliquely arranged relative to the horizontal plane, and the upper end of the outer cylinder is rotationally connected to the fixing seat;

the axis of the inner cylinder is also obliquely arranged relative to the horizontal plane, and the upper end of the inner cylinder is also rotationally connected to the fixing seat.

In order to achieve the purpose of smooth discharging, the caliber of the upper end part of the outer cylinder is smaller than that of the lower end part so as to be in a horn shape as a whole, and the caliber of the upper end part of the inner cylinder is smaller than that of the lower end part so as to be in a horn shape as a whole.

As an improvement, the lower end part of the inner cylinder is an opening, the opening forms a blanking opening for the strip food material to fall down, the bottom of the fixing seat is provided with an opening, and the opening forms a discharging opening.

The discharge gate that the bottom of above-mentioned fixing base was uncovered to form can make things convenient for the ejection of compact of strip food material on the one hand, and on the other hand, the open filament cutting module in bottom has also formed "hollow out construction", has made things convenient for the user to directly wash this filament cutting module especially its inside filament cutting tool component.

Generally, the outer cylinder and the inner cylinder can be independently driven by independent driving mechanisms or power components, but in order to reduce the volume of the shredding module as much as possible and the number of driving mechanisms on the machine body of the food processor, the device further comprises:

the first gear assembly is arranged on the fixed seat and is in transmission connection with an external driving mechanism, and the first gear assembly is in transmission connection with one of the outer cylinder and the inner cylinder so as to drive the outer cylinder or the inner cylinder to rotate;

the second gear assembly is arranged on the fixed seat and is used for transmitting power between the outer cylinder and the inner cylinder so as to enable the outer cylinder and the inner cylinder to be linked.

The rotation direction of the outer cylinder and the inner cylinder may be the same, for example, the outer cylinder and the inner cylinder operate at different rotation speeds, but in order to improve the cutting efficiency, the rotation direction of the inner cylinder is opposite to the rotation direction of the outer cylinder.

In order to realize the assembly of urceolus, inner tube on the fixing base, still be equipped with its extending direction in the working chamber of fixing base with the mounting panel that the incline direction of urceolus is basically perpendicular, the one end of urceolus has along its axially outwards extension's first connecting axle, this first connecting axle rotates to be connected on the mounting panel, be provided with first gear on the first connecting axle coaxial, this first gear has internal tooth portion, the one end of inner tube has along its axially outwards extension's second connecting axle, this second connecting axle rotates to be connected on the mounting panel, this second connecting axle is last to be provided with the second gear coaxially, the second gear is located the inside of first gear, and with be equipped with at least one third gear between the internal tooth portion of first gear, this third gear is fixed relative the mounting panel, above-mentioned first gear, second gear and third gear jointly constitute second gear assembly.

In order to realize the transmission connection with the driving mechanism on the body of the food processor, the food processor further comprises a fourth gear which is rotationally arranged on the fixed seat and is used for being in transmission connection with an external driving mechanism, and the first gear is further provided with an external tooth part which is used for being in transmission connection with the fourth gear.

In order to carry out matching installation with the outer cylinder which is obliquely arranged, the device further comprises a fifth gear which is coaxially connected with the fourth gear, the fifth gear is meshed with the outer tooth part of the first gear, the fifth gear is a conical gear, and the outer tooth part of the first gear is a conical tooth part matched with the fifth gear.

In order to realize smooth slicing of food materials, the cut flaky food materials are guaranteed to be even and full, a flaky food material inlet formed in the length direction of the outer barrel is formed in the peripheral wall of the outer barrel, the flaky food material inlet is provided with a first side and a second side which are sequentially arranged in the rotation direction of the cutter barrel, the slicing cutter extends outwards from the first side of the flaky food material inlet and inclines in the direction same as the rotation direction of the outer barrel, and the cutting edge of the slicing cutter is exposed relative to the outer peripheral surface of the outer barrel.

In order to realize automatic feeding in the food material cutting and mixing process, the top of fixing base still offer with the pan feeding mouth that working chamber link up mutually, cross the vertical plane of the axis of urceolus is recorded as first vertical plane, first vertical plane is with the urceolus in the rotation process divide into first sword section of thick bamboo and the second sword section of thick bamboo that upwards rotates down, the pan feeding mouth be located with the one side that first sword section of thick bamboo corresponds of sword section, the working chamber of fixing base is interior still to be limited up-down orientation first sword section of thick bamboo part crooked extension's guide runner, the upper port of this guide runner with the pan feeding mouth is relative.

The material guiding flow passage on the fixing seat is offset at one side of the outer cylinder, and the automatic feeding of the food materials is realized by adopting the design of the material guiding flow passage with the same direction as the cutting direction and the gravity direction of the food materials, so that the feeding process of the food materials is not required to be pressurized by adding an extrusion part or a hand.

In order to facilitate the user to take the cutting and matching module, the cutting and matching module further comprises a handle rotationally connected to the top of the fixed seat, wherein the handle is in an open state of being unfolded relative to the fixed seat and in a folding state of being folded at the top of the fixed seat in the rotating process relative to the fixed seat, and the top of the fixed seat is provided with a containing groove for containing the handle in the folding state. The handle is accommodated in the accommodating groove in the folding state, so that the handle in the folding state is prevented from protruding relative to the top of the fixing seat to cause interference to the installation or movement of other parts of the food processor.

The utility model solves the second problem by adopting the technical scheme that: the utility model provides a food processor, includes organism and locates the functional module on the organism, its characterized in that: the functional module is the shredding module.

As an improvement, a placing cavity for placing the shredding module is defined on the machine body, an opening is formed in the top of the placing cavity, the shredding module can be placed into the placing cavity and taken out through the opening of the placing cavity, a cover plate for opening or covering the opening in the top of the placing cavity is further arranged at the opening in the top of the placing cavity, a feeding opening and a feeding hopper downwards extending from the feeding opening are formed in the cover plate, and the lower port of the feeding hopper is opposite to the feeding opening correspondingly formed in the top of the fixing seat of the shredding module.

Hide the shredding module in the settling chamber of organism, guaranteed the whole of food processor clean and tidy, simultaneously, the noise that shredding module produced in the cutting operation in-process is also kept apart to a certain extent, has improved user's use experience.

In order to drive the shredding cutter component of the shredding module placed on the machine body to act, the machine body is also provided with a main driving mechanism, and the shredding cutter component of the shredding module is in transmission connection with the power output end of the main driving mechanism in the state that the shredding module is placed in the placement cavity.

In order to facilitate the transmission connection of the shredding module after being placed in a placement cavity of a machine body, the main driving mechanism comprises a driving motor, a main body of the driving motor is located outside the placement cavity, an output shaft of the driving motor stretches into the placement cavity and is connected with a driving gear correspondingly arranged in the placement cavity, and a shredding cutter assembly of the shredding module is in transmission connection with the driving gear.

For convenience of users to hold, pick up, place and cut food materials, the machine body is also provided with a dish receiving area positioned below the placement cavity, a dish receiving box is placed in the dish receiving area, a mounting opening is formed in the side part of the machine body at a position corresponding to the dish receiving area, and the dish receiving box can pass in and out the dish receiving area through the mounting opening in a manner of pushing and pulling the machine body relatively.

Compared with the prior art, the utility model has the following advantages: the utility model provides a shredding cutter subassembly of shredding module for food processor is the cutter section of thick bamboo structure that the cover was established together, and homoenergetic outer tube and inner tube in the adoption, wherein, the process of forming the slice food material is joined in marriage in the urceolus cutting, rotatory inner tube cuts the slice food material to the inside part that exposes to form the strip food material, compare with the mesh form shredding cutter section of thick bamboo shredding mode among the prior art, this kind of shredding structure need not the user to apply great power to the food material, shredding process is more laborsaving, effectively improved shredding efficiency, on the other hand, the food material is also difficult to damage because of lasting by applying great power, shredding cutter subassembly also is difficult to take place the deformation problem.

Drawings

Fig. 1 is a schematic perspective view of a food processor in accordance with an embodiment of the present utility model;

FIG. 2 is an exploded view of FIG. 1;

FIG. 3 is a vertical cross-sectional perspective view of FIG. 1 taken in the front-to-back direction;

FIG. 4 is a vertical cross-sectional perspective view of FIG. 1 taken in the left-right direction;

fig. 5 is a schematic perspective view of a shredding module according to an embodiment of the utility model;

FIG. 6 is a schematic view of a shredding module according to another embodiment of the present utility model;

FIG. 7 is a vertical cross-sectional perspective view of a shredding module of an embodiment of the present utility model taken along the axial direction of the outer cylinder;

FIG. 8 is a cross-sectional view taken at A-A of FIG. 7;

FIG. 9 is an exploded view of a shredding module according to an embodiment of the present utility model;

FIG. 10 is a schematic perspective view of a shredding cutter assembly of a shredding module according to an embodiment of the present utility model;

fig. 11 is an exploded view of fig. 10.

Detailed Description

The utility model is described in further detail below with reference to the embodiments of the drawings.

In the description and claims of the present utility model, terms indicating directions, such as "front", "rear", "upper", "lower", "left", "right", "side", "top", "bottom", etc., are used to describe various example structural parts and elements of the present utility model, but these terms are used herein for convenience of description only and are determined based on the example orientations shown in the drawings. Because the disclosed embodiments of the utility model may be arranged in a variety of orientations, the directional terminology is used for purposes of illustration and is in no way limiting, such as "upper" and "lower" are not necessarily limited to being in a direction opposite or coincident with the direction of gravity.

Referring to fig. 1-11, a food processor is shown that includes a machine body 10 and a shredder module 50 removably disposed on the machine body 10. The front of the body 10 defines a seating chamber 11 for receiving one of the thread cutting modules 50, the seating chamber 11 having an opening at the top through which the thread cutting module 50 can be placed and taken out.

The body 10 of the food processor has a generally square configuration. Wherein the installation chamber 11 is located at the forefront side of the body 10, and the top opening of the installation chamber 11 is covered by a cover plate 20. The cover plate 20 is provided with a feed opening 21 and a feed hopper 22 extending downwards from the feed opening 21, specifically, the feed hopper 22 extends to the top position of the shredding module 50, and the lower port of the feed hopper 22 is opposite to the feed opening 501 at the top of the shredding module 50,

the bottom of the shredding module 50 (the fixing seat 51) is open to form a discharging hole 502 for the butyl-shaped food materials in the cutting process to flow out. The machine body 10 also has a receiving area 13 located below the placement chamber 11, the receiving area 13 being opposite the discharge opening 502 of the shredding module 50. The dish receiving area 13 is provided with a dish receiving box 14, and the front side part of the machine body 11 is provided with a mounting opening 110 at a position corresponding to the dish receiving area 13. The dish receiving box 14 can be slidably connected to the side wall of the dish receiving area 13 of the machine body 11 through a sliding rail assembly. The user pushes and pulls the dish receiving box 14, so that the dish receiving box 14 can enter and exit the dish receiving area 13 of the machine body 10 through the mounting opening 110.

The main driving mechanism is provided on the machine body 10. In the present embodiment, the main driving mechanism is a driving motor 151, and the driving motor 151 is located behind the placement chamber 11, specifically, a mounting chamber 12 for placing the driving motor is formed on the machine body 1 correspondingly located at the rear side of the placement chamber 11. The output shaft of the driving motor 151 extends forward and backward, specifically, extends forward into the placement chamber 11, and a driving gear 152 is disposed at the end of the output shaft of the driving motor 151, the driving gear 152 is located at the bottom of the placement chamber 11, and the axis of the driving gear 152 also extends horizontally. The fourth gear 61 of the first gear assembly on the shredder module 50 may be correspondingly engaged with the driving gear 152 described above in a state where the shredder module 50 is placed in the seating chamber 11.

As shown in fig. 5-11, the shredding module 50 generally includes a fixed base 51 and a shredding knife assembly disposed within the fixed base 51. The holder 51 is generally square in configuration and has a working chamber 510 for receiving the shredder tool assembly. The top of the fixed seat 51 is provided with a feed inlet 501, the bottom is provided with an opening as a discharge outlet 502, and specifically, the fixed seat 51 is further provided with a guide runner 503 for guiding food materials from the feed inlet 501 of the fixed seat 51 to the shredding cutter assembly. The top of the fixed seat 51 is provided with a handle 52 which can deflect relative to the fixed seat, and the handle 52 is provided with an open state which is unfolded relative to the fixed seat 51 and a closed state which is closed relative to the fixed seat 51 in the deflection process. When the handle 52 is in the folded state, the handle is biased at one side of the feed inlet 501, so that pollution to the handle 52 caused in the process that food material enters the feed inlet 501 of the shredding module from the food material runner is avoided.

The top of the fixing seat 51 is further provided with a receiving groove 520 in which the handle 52 is received in a folded state.

The shredder tool assembly includes an outer cartridge 30, an inner cartridge 40, a first gear assembly 60, and a second gear assembly 70. The outer barrel 30 is in driving connection with a first gear assembly 60, which first gear assembly 60 is adapted for driving connection with a drive mechanism on the body 10 of the food processor. The outer cylinder 30 is drivingly connected to the inner cylinder 40 by the second gear assembly 70 such that the outer cylinder 30 is in operative association with the inner cylinder 40, i.e., the inner cylinder 40 is rotated by the second gear assembly 70 as the outer cylinder 30 rotates.

The outer cylinder 30 has a horn-like structure as a whole, and the caliber of the first end is smaller than that of the second end. The outer cylinder 30 is disposed in the working chamber 510 of the holder 51 so as to be inclined, that is, the axis of the outer cylinder 30 is inclined with respect to the horizontal plane. The first end (i.e., upper end) of the outer cylinder 30 has a first connecting shaft 33 extending along its axis. The working chamber 510 of the fixed base 51 further has therein a mounting plate 512 extending in a direction substantially perpendicular to the axis of the outer cylinder 30, and the first coupling shaft 33 of the outer cylinder 30 is rotatably coupled to the mounting plate 512 via a first bearing 81. More specifically, the first connecting shaft 33 of the outer cylinder 30 is a hollow shaft sleeve structure, the fixing seat 51 is further provided with a mounting seat 84 corresponding to the first connecting shaft 33 of the outer cylinder 30, the mounting seat 84 is internally arranged in the first connecting shaft, the first end (i.e. the upper end) of the inner cylinder 40 is closed, and the second connecting shaft 720 extending along the axial direction of the first connecting shaft is provided, and the second connecting shaft 720 is internally arranged in the first connecting shaft 33 and is rotatably connected to the mounting seat 84 through the second bearing 82. The first gear 71 is also coaxially connected to the first connecting shaft 33 of the outer tube 30, and the first gear 71 is also hollow and has an external tooth portion 712 and an internal tooth portion 711. The second connecting shaft 720 is also coaxially connected to a second gear 72. Wherein three third gears 73 are further provided in the region between the first gear 71 and the second gear 72, the three third gears 73 being uniformly arranged on the outer periphery of the second gear 72 while fitting with the inner teeth 711 of the first gear 71 and the second gear 72. The gear shaft of the third gear 73 is fixed to the mounting seat 84, so that when the outer cylinder 30 (or the first gear 71) rotates clockwise, the power is transmitted to the second gear 72 of the inner cylinder 40 through the third gear 73, and the second gear 72 (the inner cylinder 40) rotates counterclockwise. The first gear 71, the second gear 72, and the third gear 73 described above together constitute the second gear assembly 70.

The inner wall of the working chamber 510 of the fixing base 51 is further provided with a support shaft extending horizontally toward the inside of the working chamber 510. The support shaft is rotatably provided with a fourth gear 61 and a fifth gear 62, specifically, the fourth gear 61 is a spur gear, the fifth gear 62 is a bevel gear, the fourth gear 61 and the fifth gear 62 are integrally designed, and the fourth gear 61 and the fifth gear 62 are rotatably connected to the support shaft through a third bearing 83. The first gear 71 of the present embodiment is fitted with the fifth gear 62, wherein the external teeth portion 712 of the first gear 71 is a conical teeth portion adapted to the fifth gear 62. The first gear 71, the fourth gear 61, and the fifth gear 62 described above together constitute the first gear assembly 60 of the present embodiment.

The outer tube 30 has a sheet-like food inlet 31 formed in the peripheral wall thereof and penetrating the inside and outside thereof, and a slicing knife 32 provided at the sheet-like food inlet 31. The sheet-shaped food material inlet 31 is a strip-shaped opening extending along the length direction of the outer cylinder 30, the strip-shaped opening is provided with a first side edge 311 and a second side edge 312 which are sequentially arranged along the rotation direction of the outer cylinder 30, the strip-shaped opening of the outer cylinder 30 is provided with an arc-shaped guide plate 313 extending outwards from the first side edge 311 (along the radial direction of the outer cylinder) and inclining along the bending direction S with the rotation direction of the outer cylinder 30, the slicing knife 32 is also strip-shaped and correspondingly arranged on the inner side wall of the arc-shaped guide plate 313, and therefore the cutting edge of the slicing knife 32 is exposed relative to the outer peripheral wall of the outer cylinder 30, and smooth slicing of food materials is realized.

The top of the fixing seat 51 of the present embodiment is also provided with a feeding port 501 penetrating the working chamber 510 and a guiding flow channel 503 extending downward from the feeding port 501. The vertical plane passing through the axis of the outer cylinder 30 is denoted as a first vertical plane 30a, which first vertical plane 30a divides the outer cylinder 30 during rotation into a first cartridge portion 301 rotating downwards and a second cartridge portion 302 rotating upwards. The feeding port 501 of the present embodiment is disposed offset from the axis of the outer cylinder 30 in the up-down direction, specifically, on the side corresponding to the first cutter barrel portion 301 of the cutter barrel. The material guiding flow channel 503 is bent and extended from top to bottom towards the first cutter barrel portion 301 of the cutter barrel, so that the cutting direction of the cutting force acting on the food material and the gravity direction of the food material are basically the same in the rotating process of the outer barrel 30, and therefore, an extrusion part or a hand is not required to be additionally arranged to press the feeding process of the food material, and automatic feeding of the food material is realized.

The inner tube 40 is rotatably provided (rotatable about its own axis) inside the outer tube 30, and is disposed substantially coaxially with the outer tube 30. The inner barrel 40 is also generally of a horn-like configuration with a first end having a smaller diameter than a second end. Wherein, a gap is arranged between the outer wall of the inner cylinder 40 and the inner wall of the outer cylinder 30 to allow the two to rotate relatively, the gap is denoted as L, wherein L is more than or equal to 2mm and less than or equal to 50mm, and the value range of L is preferably: 5mm-15mm. The inner cylinder 40 is a hollow frame structure, and specifically includes shredding blades 41 extending along the length direction of the inner cylinder 40 and arranged at intervals in the circumferential direction of the inner cylinder 40, and an opening 42 for the strip-shaped food to extend into the inner cylinder 40 is formed between two adjacent shredding blades 41.

The second end (lower end) of the inner tube 40 is open, which forms a blanking port 43 for the t-shaped food material to fall. Correspondingly, the second end (lower end) of the outer tube 30 is also open. The axial length of the outer barrel 30 of the present embodiment is substantially identical to the axial length of the inner barrel 40.

The working process of the shredding module of this embodiment is as follows:

after the shredding module 50 is placed in the placement cavity 11 of the machine body 10, the first gear assembly 60 of the shredding module 50 is meshed with the driving gear 152 of the driving motor 151 on the machine body 10, the driving motor 151 is started to drive the outer cylinder 30 to rotate so as to realize slicing processing of food materials, meanwhile, the outer cylinder 30 transmits power to the inner cylinder 40 through the second gear assembly, the inner cylinder 40 reversely rotates relative to the outer cylinder so as to realize slicing of the sheet food materials entering the inner cylinder 40, and the strip food materials formed in the slicing process are sliced

The term "drive connection" as used herein refers to a direct connection between two components or an indirect connection through a drive mechanism.

Claims (18)

1. A shredder module for a food processor, comprising:

a fixed seat (51) with a hollow interior forming a working chamber (510);

a shredding cutter assembly disposed within the working chamber (510);

characterized in that said shredding cutter assembly comprises:

an outer tube (30) rotatably provided in a working chamber (510) of the fixed seat (51) around its axis, wherein a sheet-shaped food inlet (31) penetrating from the inside to the outside and extending in the longitudinal direction of the outer tube (30) is provided in the peripheral wall of the outer tube (30), and a slicing knife (32) for slicing food during rotation of the outer tube (30) is provided at the sheet-shaped food inlet (31) of the outer tube (30);

the inner cylinder (40) is rotationally arranged in the outer cylinder (30) in a mode of being capable of rotating around the axis of the inner cylinder (40), the inner cylinder (40) and the outer cylinder (30) are coaxially arranged, the inner cylinder (40) comprises shredding blades (41) which extend along the length direction of the inner cylinder (40) and are arranged at intervals in the circumferential direction of the inner cylinder (40), and an opening (42) for enabling flaky food to extend into the inner cylinder (40) is formed between two adjacent shredding blades (41).

2. The shredder module for a food processor of claim 1, wherein: the outer peripheral wall of the inner cylinder (40) is arranged adjacent to the inner wall of the outer cylinder (30), and a gap between the outer peripheral wall of the inner cylinder (40) and the inner wall of the outer cylinder is denoted as L, wherein L is more than or equal to 2mm and less than or equal to 50mm.

3. The shredder module for a food processor of claim 1, wherein: the axis of the outer cylinder (30) is obliquely arranged relative to the horizontal plane, and the upper end of the outer cylinder (30) is rotationally connected to the fixed seat (51);

the axis of the inner cylinder (40) is also arranged obliquely relative to the horizontal plane, and the upper end of the inner cylinder (40) is also connected to the fixing seat (51) in a rotating way.

4. A shredder module for a food processor according to claim 3, wherein: the diameter of the upper end part of the outer cylinder (30) is smaller than that of the lower end part, so that the whole outer cylinder is horn-shaped, and the diameter of the upper end part of the inner cylinder (40) is smaller than that of the lower end part, so that the whole outer cylinder is horn-shaped.

5. The shredder module for a food processor of claim 4, wherein: the lower end of the inner cylinder (40) is open, a blanking port (43) for the strip food material to fall down is formed in the opening, an opening is formed in the bottom of the fixing seat (51), and a discharging port (502) is formed in the opening.

6. The shredder module for a food processor of any of claims 1-5, further comprising:

the first gear assembly (60) is arranged on the fixed seat (51) and is in transmission connection with an external driving mechanism, and the first gear assembly is in transmission connection with one of the outer cylinder (30) and the inner cylinder (40) so as to drive the outer cylinder (30) or the inner cylinder (40) to rotate;

and the second gear assembly (70) is arranged on the fixed seat (51) and is used for transmitting power between the outer cylinder (30) and the inner cylinder (40) so as to enable the outer cylinder and the inner cylinder to be linked.

7. The shredder module for a food processor of claim 6, wherein: the rotation direction of the inner cylinder (40) is opposite to the rotation direction of the outer cylinder (30).

8. The shredder module for a food processor of claim 6, wherein: the working chamber (510) of the fixing seat (51) is further internally provided with a mounting plate (512) with the extending direction substantially perpendicular to the tilting direction of the outer cylinder (30), one end of the outer cylinder (30) is provided with a first connecting shaft (33) extending outwards along the axial direction of the outer cylinder, the first connecting shaft (33) is rotationally connected to the mounting plate (512), the first connecting shaft (33) is coaxially provided with a first gear (71), the first gear (71) is provided with an inner tooth part, one end of the inner cylinder (40) is provided with a second connecting shaft (720) extending outwards along the axial direction of the inner cylinder, the second connecting shaft (720) is rotationally connected to the mounting plate (512), the second connecting shaft (720) is coaxially provided with a second gear (72), the second gear (72) is positioned inside the first gear (71) and is provided with at least one third gear (73) between the inner tooth parts of the first gear (71), the third gear (73) is fixed relative to the mounting plate (512), and the first gear (71), the second gear (72) and the third gear (70) are combined together.

9. The shredder module for a food processor of claim 8, wherein: the device further comprises a fourth gear (61) which is rotationally arranged on the fixed seat (51) and is in transmission connection with an external driving mechanism, and the first gear (71) is further provided with an external tooth part which is in transmission connection with the fourth gear (61).

10. The shredder module for a food processor of claim 9, wherein: the gear further comprises a fifth gear (62) coaxially connected with the fourth gear (61), the fifth gear (62) is meshed with the outer tooth part of the first gear (71), the fifth gear (62) is a conical gear, and the outer tooth part of the first gear (71) is a conical tooth part matched with the fifth gear (62).

11. The shredder module for a food processor of claim 1, wherein: the slicing knife (32) extends outwards from the first side edge (311) of the slice food material inlet (31) and inclines in the same direction as the rotation direction of the outer barrel, and the cutting edge of the slicing knife (32) is exposed relative to the outer peripheral surface of the outer barrel (30).

12. A shredder module for a food processor according to claim 3, wherein: the top of fixing base (51) still seted up with pan feeding mouth (501) that work cavity (510) link up mutually, cross the vertical plane of the axis of urceolus (30) is recorded as first vertical plane, first vertical plane is with urceolus (30) in the rotation process divide into first sword section of thick bamboo (301) of downwarping and second sword section of thick bamboo (302) of upwards rotating, pan feeding mouth (501) be located with the one side that first sword section of thick bamboo (301) corresponds of sword section of thick bamboo, still be limited in work cavity (510) of fixing base (51) top-down orientation first sword section of thick bamboo (301) crooked extension guide runner (503), the upper port of this guide runner (503) with pan feeding mouth (501) are relative.

13. The shredder module for a food processor of claim 9, wherein: the handle (52) is rotatably connected to the top of the fixed seat (51), the handle (52) is in an open state of being unfolded relative to the fixed seat (51) and in a folding state of being folded at the top of the fixed seat (51) in the rotating process relative to the fixed seat (51), and the top of the fixed seat (51) is provided with a containing groove (520) for containing the handle (52) in the folding state.

14. A food processor comprising a body (10) and a functional module provided on the body (10), characterized in that: the functional module is a shredder module for a food processor according to any one of claims 1 to 13.

15. The food processor of claim 14, wherein: the utility model discloses a shredding module, including machine body (10), place cavity (11) that is used for placing shredding module is limited on machine body (10), the top of placing cavity (11) has uncovered, shredding module can be passed through the uncovered of placing cavity (11) is placed in placing cavity (11) and is taken out, the open department in top of placing cavity (11) still is equipped with and is used for opening or cover this open apron in top (20), has feed opening (21) and certainly on apron (20) feed hopper (22) that feed opening (21) downwardly extending, the lower port of feed hopper (22) is relative with feed inlet (501) of corresponding seting up in the top of shredding module fixing base (51).

16. The food processor of claim 15, wherein: the machine body (10) is also provided with a main driving mechanism, and a shredding cutter component of the shredding module is in transmission connection with a power output end of the main driving mechanism in a state that the shredding module is placed in the placement cavity (11).

17. The food processor of claim 16, wherein: the main driving mechanism comprises a driving motor (151), a main body of the driving motor (151) is located outside the placement cavity (11), an output shaft of the driving motor (151) stretches into the placement cavity (11) and is connected with a driving gear (152) correspondingly arranged in the placement cavity (11), and a shredding cutter assembly of the shredding module is in transmission connection with the driving gear (152).

18. The food processor of claim 17, wherein: the machine body (10) is further provided with a dish receiving area (13) positioned below the placement cavity (11), a dish receiving box (14) is placed in the dish receiving area (13), a mounting opening (110) is formed in the side portion of the machine body (10) at a position corresponding to the dish receiving area (13), and the dish receiving box (14) can enter and exit the dish receiving area (13) through the mounting opening (110) in a pushing and pulling mode relative to the machine body (10).