CN115284375A - Vegetable cutting module and kitchen cutting and matching machine - Google Patents

Abstract

The invention discloses a vegetable cutting module, which comprises a second knife rest (3); the cutting assembly comprises a second rotating shaft (40) rotatably connected to the second tool rest (3), a cutter disc coaxially arranged on the second rotating shaft (40) and a cutter arranged on the cutter disc; the method is characterized in that: the cutting assemblies are three groups and share the same second rotating shaft (40), and the cutter discs of the second cutting assembly, the first cutting assembly and the third cutting assembly are sequentially arranged at intervals along the axial direction of the second rotating shaft (40); in the first cutting assembly, the cutter head is cylindrical, a cavity (411) is formed in the cutter head in a hollow mode, and the cutter head is provided with a feeding side located on the outer side of the peripheral wall of the cutter head and a discharging side located on the inner side of the peripheral wall of the cutter head. The invention also discloses a kitchen cutting and matching machine using the vegetable cutting module. Compared with the prior art, the vegetable cutting module can provide functions of cutting into blocks, slicing and shredding simultaneously and is compact in structure.

Description

Vegetable cutting module and kitchen cutting and matching machine

Technical Field

The invention relates to the technical field of kitchen equipment, in particular to a vegetable cutting module and a kitchen cutting and matching machine.

Background

In the general food processing field, some bagged foods are processed into sheet or thread packages for sale, and when the foods are processed manually, a kitchen knife is needed, but the kitchen knife has low working efficiency of processing vegetables and the like because of small volume and small processing amount, and fingers can be hurt when the kitchen knife is used carelessly. Especially, when the processing amount is large, the kitchen knife is not practical, the efficiency is low, the kitchen knife is easy to damage, and a large amount of manpower and material resources are wasted.

Therefore, some kitchen cutting and matching machines appear in the market, for example, the Chinese utility model patent with the patent application number of CN202022010469.7 (with the publication number of CN 213107202U) discloses a kitchen cutting and matching machine integrating vegetable cutting and meat cutting modules.

The existing vegetable cutting module mainly comprises a driving assembly and a cutting assembly, wherein the driving assembly is used for driving the cutting assembly to rotate and cut food materials, and the cutting shape mainly depends on the design of the cutting assembly. For example, chinese utility model patent "a shredder cutter head" with patent application number CN202122205562.8 (publication number CN 215743873U) discloses a cutting assembly with slicing function, chinese utility model patent "a shredding cutter head" with patent application number CN202123432673.9 (publication number CN 216505289U) discloses a cutting assembly with shredding function, chinese utility model patent "food processor dicing assembly with patent application number CN201320590577.3 (publication number CN 203622515U) and food processor with the same" discloses a cutting assembly with dicing function.

However, for the vegetable cutting module, if the shape of the vegetable needs to be switched, the cutter head needs to be replaced, and the selection of various shapes such as slicing, shredding, block cutting and the like cannot be provided at the same time; in addition, for the cutting assembly with the block cutting function, firstly, the cutting knife moves relative to the knife net, the structure is complex, the cutting knife needs to cut off food and press the food downwards into the knife net, and the cutting knife is easy to damage; secondly, the cutting edge of cutting knife extends along the radial of pivot, and the linear velocity of its each position department is inconsistent, and impaired degree is inhomogeneous.

The existing meat cutting module adopts the cutting edge region principle of similar scissors to realize the cutting processing of meat, two cutter bars are arranged in a meat cutting machine frame, the two cutter bars rotate relatively, blades of the two cutter bars are mutually staggered to form a cutting edge region, a plurality of blades arranged on the same cutter bar in parallel can realize the batch cutting processing of meat products, and the cutting efficiency is very high. Specifically, refer to the chinese utility model patent "a meat slicer" with patent application No. CN201921681481.1 (publication No. CN 210610851U).

However, in the existing meat cutting module, the cutter set can only cut meat slices with one thickness, if meat slices with different thicknesses need to be cut, the traditional solution is to replace the cutter set with different specifications, but the replacement of the cutter set has great danger, easily cuts an operator, consumes time and consumes labor.

Disclosure of Invention

The first technical problem to be solved by the invention is to provide a compact vegetable cutting module capable of providing cutting functions of different specifications simultaneously in view of the current situation of the prior art.

The second technical problem to be solved by the invention is to provide a vegetable cutting module which has a simple structure and a long service life.

The third technical problem to be solved by the invention is to provide a kitchen cutting and matching machine with the vegetable cutting module.

The fourth technical problem to be solved by the invention is to provide the kitchen cutting and matching machine capable of cutting meat slices with different thicknesses.

The technical scheme adopted by the invention for solving the first technical problem is as follows: a vegetable cutting module, which comprises

A second tool holder; and

the cutting assembly comprises a second rotating shaft rotationally connected to the second tool rest, a cutter disc coaxially arranged on the second rotating shaft and a cutter arranged on the cutter disc;

the method is characterized in that: the cutting assemblies are divided into three groups, the three groups of cutting assemblies are respectively marked as a first cutting assembly, a second cutting assembly and a third cutting assembly, the cutting assemblies share the same second rotating shaft, the second rotating shaft is basically horizontally arranged, and the cutter discs of the second cutting assembly, the first cutting assembly and the third cutting assembly are sequentially arranged at intervals along the axial direction of the second rotating shaft;

in the first cutting assembly, the cutter head is cylindrical, a cavity is formed in the cutter head in a hollow mode, the cutter head is provided with a feeding side located on the outer side of the peripheral wall of the cutter head and a discharging side located on the inner side of the peripheral wall of the cutter head, and the cutter is installed on the peripheral wall of the cutter head;

in the second cutting assembly and the third cutting assembly, the cutter disc is disc-shaped, the cutter disc is provided with a feeding side back to the first cutting assembly and a discharging side facing the first cutting assembly, and the cutter is arranged on the surface of the cutter disc.

In order to further solve the second technical problem, the first cutting assembly is a block cutting assembly for cutting the food material into blocks, and the cutter disc and the cutter of the block cutting assembly are respectively marked as

A first mounting opening communicated with the cavity penetrates through the circumferential wall of the block cutting cutter in the radial direction; and

the cutting tool is arranged at the first mounting opening and is provided with a first material guide channel extending from the feeding side to the discharging side of the cutting cutter disc, the first material guide channel comprises a first material guide section and a second material guide section which are sequentially connected, and the inlet of the second material guide section is communicated with the outlet of the first material guide section;

an inlet of the first material guiding section is positioned on the front side of the cutting tool along the rotation direction of the second rotating shaft, the inlet is a strip-shaped opening extending along the axial direction of the cutting tool disc, and a first cutting edge is arranged on the edge of one side, far away from the cutting tool disc, of the inlet;

a knife net is transversely arranged in the second material guiding section, and the cutting edge of the knife net faces to the outlet of the first material guiding section;

the inner wall of the first material guiding section, which is opposite to the inlet of the second material guiding section, is provided with a guide inclined plane, and the guide inclined plane is gradually close to the inlet of the second material guiding section along the moving direction of the food materials in the first material guiding section and is used for extruding the food materials advancing in the first material guiding section into the second material guiding section.

In order to ensure that the cut thick plates smoothly enter the first guide section, the first guide section basically extends along the tangential direction of the dicing cutter head.

In order to ensure that the thick plates are cut into regular blocks, the second material guide section basically extends along the radial direction of the block cutting cutter disc.

In order to facilitate the discharge of the blocky food materials in the cavity by means of the gravity of the blocky food materials, the peripheral wall of the cutting cutter disc is provided with blanking holes for the blocky food materials to pass through.

In order to avoid the leakage of the uncut food material from two sides, the cutting knife disc peripheral wall is provided with annular baffles extending outwards along the edges of two sides of the axial direction.

In order to improve the cutting efficiency, the number of the first mounting openings is at least two, the first mounting openings are arranged at intervals along the circumferential direction of the dicing cutter disc, and the dicing cutters are in one-to-one correspondence with the first mounting openings.

In order to realize the slicing function, the second cutting assembly is a slicing assembly for cutting food materials into slices, and a cutter disc and a cutter of the slicing assembly are respectively marked as

The surface of the slicing cutter head is provided with a second mounting hole in an axial penetrating manner; and

the section cutter is located second installing port department, the second guide passageway that has the feeding side direction discharge side from the section blade disc and extend, the entry of second guide passageway is located the section cutter is along the front side of second pivot direction of rotation, and this entry is the bar mouth of radial extension along the section blade disc, and has the second cutting edge on the border that section blade disc one side was kept away from to this entry.

In order to facilitate discharging, at least partial caliber of the second material guiding channel is gradually enlarged from the inlet to the outlet.

In order to improve the cutting efficiency, the number of the second mounting openings is at least two, the second mounting openings are arranged at intervals along the circumferential direction of the slicing cutter disc, and the slicing cutters are in one-to-one correspondence with the second mounting openings.

In order to realize the shredding function, the third cutting assembly is a shredding assembly used for cutting food materials into threads, and a cutter disc and a cutter of the shredding assembly are respectively marked as

The surface of the shredding cutter disc is provided with a third mounting hole in an axial penetrating manner; and

the shredding cutter is arranged at the third mounting hole and provided with a third material guide channel extending from the feeding side to the discharging side of the shredding cutter disc, the inlet of the third material guide channel is located at the front side of the shredding cutter along the rotation direction of the second rotating shaft, the inlet is a strip-shaped opening extending along the radial direction of the shredding cutter disc, a third cutting edge is arranged on the edge of one side of the shredding cutter disc far away from the inlet, a cutter row is transversely arranged in the third material guide channel, and the cutting edge of the cutter row faces towards the inlet of the third material guide channel.

In order to facilitate discharging, at least partial caliber of the third material guiding channel is gradually enlarged from the inlet to the outlet.

In order to improve the cutting efficiency, the number of the third mounting openings is at least two, the third mounting openings are arranged at intervals along the circumferential direction of the shredding cutter disc, and the shredding cutters correspond to the third mounting openings one to one.

The technical scheme adopted by the invention for solving the third technical problem is as follows: the utility model provides an use kitchen that has above-mentioned module of cutting dish and cut machine of joining in marriage which characterized in that: the vegetable cutting device comprises a machine shell, wherein the vegetable cutting module is arranged in the machine shell.

In order to realize the meat cutting function, a meat cutting module is arranged in the shell and comprises

A first tool holder; and

the cutter set comprises a first rotating shaft which is rotationally connected to the first cutter frame and at least two blades which are arranged at intervals along the axial direction of the first rotating shaft, the first rotating shafts of the two cutter sets are arranged side by side, and a gap is formed between every two adjacent blades of the same cutter set.

In order to further solve the fourth technical problem, each blade is mounted on the first rotating shaft in a manner of being capable of moving along the axial direction relative to the first rotating shaft;

each group of knife sets also comprises

Two ends of the hinge structure are respectively hinged on two adjacent blades of the same cutter group; and

and the adjusting assembly is used for driving each hinge structure to stretch and contract so as to adjust the width of each gap.

In order to facilitate the stable sliding of the blades on the rotating shaft, the middle part of each blade is provided with a sleeve which can be movably sleeved on the periphery of the first rotating shaft along the axial direction.

In order to facilitate the installation of the hinge structures, each group of hinge structures comprises a first hinge arm and a second hinge arm which are mutually hinged, and the tail ends of the first hinge arm and the second hinge arm are respectively hinged on the sleeves of two adjacent blades.

In order to ensure the connection stability between two adjacent blades, at least two groups of hinge structures are arranged in each gap, and the hinge structures are arranged at intervals along the circumferential direction of the first rotating shaft.

In order to realize the drive of each hinge structure by the adjusting component, the adjusting component comprises

The transmission block can be movably sleeved on the periphery of the first rotating shaft along the axial direction and is abutted against the outer side of the blade positioned at the head part; and

the first driving piece is used for driving the transmission block to move along the axial direction.

Preferably, the first driving member is an electric push rod, and has a telescopic shaft extending along the moving direction of the driving block, and the end of the telescopic shaft is connected to the driving block.

In order to guarantee the consistency of the two groups of knife sets when adjusting the blade spacing, the transmission blocks of the two groups of knife sets are connected with each other, and the two transmission blocks share the same first driving piece.

In order to simplify the structure, a driving mechanism for driving the first rotating shaft and the second rotating shaft to rotate is arranged in the machine shell.

In order to realize the driving of the first rotating shaft and the second rotating shaft, the driving mechanism comprises

A second drive member having a first output shaft and a second output shaft;

the two first gears correspond to the first rotating shafts one by one, each first gear is coaxially arranged at the end part corresponding to the first rotating shaft, and the two first gears are meshed with each other;

the second gear is coaxially arranged at the end part of the first output shaft of the second driving piece and is meshed with one first gear;

the third gear is coaxially arranged at the end part of the second rotating shaft; and

and the fourth gear is coaxially arranged at the end part of the second output shaft of the second driving piece and is meshed with the third gear.

In order to facilitate the feeding and discharging of food materials, the first rotating shaft and the second rotating shaft basically extend along the left-right direction;

an accommodating cavity is formed inside the first tool rest, a first feeding hole and a first discharging hole are formed in the top and the bottom of the first tool rest respectively, and the two groups of tool sets are accommodated in the accommodating cavity;

the second knife rest holds the box and locates and hold the box both sides and with hold first hopper and the second hopper that the box inner chamber is linked together including holding the box, the top and the bottom that hold the box have second feed inlet and second discharge gate respectively, cutting assembly be located hold the box in, first cutting assembly's blade disc is located second feed inlet and second discharge gate between, second cutting assembly's blade disc is close to the discharge end of first hopper arrange, and first hopper and second discharge gate are located the feeding side and the ejection of compact side of this blade disc respectively, third cutting assembly's blade disc is close to the discharge end of second hopper arrange, and second hopper and second discharge gate are located the feeding side and the ejection of compact side of this blade disc respectively.

In order to facilitate feeding of a user, the top of the casing is provided with a first feeding port, a second feeding port, a third feeding port and a fourth feeding port, the first feeding port is over against the first feeding port, the second feeding port is over against the second feeding port, the third feeding port is over against the feeding end of the first hopper, and the fourth feeding port is over against the feeding end of the second hopper.

In order to facilitate automatic feeding of food materials, the second feeding port is deviated from the axis of the cutter head of the first cutting assembly.

In order to collect the cut food materials conveniently, a material receiving box is arranged in the machine shell, a first material receiving groove and a second material receiving groove with top openings are formed in the material receiving box, the top opening of the first material receiving groove is over against the first discharge hole, and the top opening of the second material receiving groove is over against the second discharge hole.

In order to facilitate the taking out of food materials, the front side of the shell is provided with a yielding port, and the material receiving box can be drawn back and forth to enter and exit the shell from the yielding port.

Compared with the prior art, the invention has the advantages that:

(1) One of the cutter discs is of a hollow structure, the corresponding cutter is mounted on the peripheral wall of the cutter disc, and the other two cutter discs are arranged on two sides of the cutter disc and share the same second rotating shaft, so that on one hand, cutting operations of different specifications can be realized simultaneously by only driving the second rotating shaft to rotate, and on the other hand, the structure is compact and the occupied space is small;

(2) The first guide section and the second guide section which are connected in sequence form a first guide channel of the cutting tool, an inlet of the first guide section is set to be a strip-shaped opening, a first cutting edge is arranged on the edge of one side, away from a cutting disc, of the inlet, a cutter net is arranged in the second guide section, and a guide inclined surface is arranged on the inner wall, opposite to the inlet of the second guide section, of the first guide section;

in addition, the inlet of the first material guiding section is a strip-shaped opening extending along the axial direction of the cutting knife disc, so that the linear speeds of the first knife edge at all positions are consistent, the first knife edge is uniformly damaged, and the service life can be prolonged;

(3) Install the blade in first pivot with the mode that can follow axial activity relatively first pivot to through two adjacent blades of hinge structure connection, like this, when the user has the cutting demand of different thickness meat, accessible adjusting part drive hinge structure is flexible, with the width in adjustment blade clearance, finally realizes the cutting of different thickness meat, need not to change the blade or adjust blade clearance width midway, simple structure.

Drawings

FIG. 1 is a schematic perspective view of an embodiment of the kitchen cutting and dispensing machine of the present invention;

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

FIG. 3 is a longitudinal cross-sectional view of FIG. 1;

FIG. 4 is a perspective view of the meat cutting module and drive mechanism of FIG. 2;

FIG. 5 is a transverse cross-sectional view of FIG. 4 with the drive mechanism omitted (gap width at maximum);

FIG. 6 is a transverse cross-sectional view of the gap width of FIG. 5 after adjustment to a minimum value;

FIG. 7 is a schematic perspective view of the cutting module and the driving mechanism of FIG. 2;

FIG. 8 is an exploded perspective view of FIG. 7 with the second tool post and drive mechanism omitted;

fig. 9 is a longitudinal cross-sectional view of the cutting assembly of fig. 8 (the dashed arrows indicate the moving direction of the food material);

fig. 10 is a transverse cross-sectional view of the slicing assembly of fig. 8 (the dashed arrows indicate the moving direction of the food material);

fig. 11 is a transverse sectional view of the shredding assembly of fig. 8 (the dashed arrows indicate the moving direction of the food material).

Detailed Description

The invention is described in further detail below with reference to the accompanying examples.

As shown in fig. 1 to 11, a preferred embodiment of the kitchen cutting and dispensing machine of the present invention is shown. The kitchen cutting and matching machine comprises a machine shell 1, a meat cutting module 2, a vegetable cutting module 10, a driving mechanism 7 and a material receiving box 8, wherein the meat cutting module 2, the vegetable cutting module 10, the driving mechanism 7 and the material receiving box 8 are arranged in the machine shell 1.

As shown in fig. 1, the casing 1 includes a base 11 having an opening at the top and an upper cover 12 covering the opening at the top of the base 11. As shown in fig. 2 and 3, the front side of the base 11 has a relief opening 111; the surface of the upper cover 12 is provided with a first feeding port 121, a second feeding port 122, a third feeding port 123 and a fourth feeding port 124 which are arranged at intervals.

As shown in fig. 4 to 6, the meat cutting module 2 is disposed at the right part of the inner cavity of the base 11 and includes a first blade holder 21 and a blade group 22.

Specifically, the first tool holder 21 is formed with a receiving cavity 211 inside, the top of the first tool holder 21 is provided with an opening as a first feeding port 212, the first feeding port 212 faces the first feeding port 121, the bottom of the first tool holder 21 is provided with a discharging barrel 210 extending downwards, and a first discharging port 213 is formed at a port at the bottom end of the discharging barrel 210.

The number of the knife sets 22 is two, and the two sets are respectively accommodated in the front and the rear sides of the accommodating cavity 211, and each set of knife sets 22 includes a first rotating shaft 221, a blade 222, a hinge structure 223 and an adjusting component 224.

The first rotating shafts 221 of the two groups of cutter sets 22 are arranged side by side and extend along the left-right direction, and the left end and the right end of each first rotating shaft 221 are respectively connected to the left side wall and the right side wall of the first cutter rest 21 in a rotating manner;

the number of the blades 222 is at least two, and the blades are arranged along the axial direction of the first rotating shaft 221 at intervals, the plane where each blade 222 is located is perpendicular to the axis of the first rotating shaft 221, a sleeve 2221 is arranged in the middle of each blade 222, the sleeve 2221 can be sleeved on the periphery of the first rotating shaft 221 in a left-right movable manner, so that each blade 222 can be installed on the first rotating shaft 221 in a manner of moving along the axial direction relative to the first rotating shaft 22, a gap 2220 is formed between two adjacent blades 222 of the same blade group 22, the blades 222 of two blade groups 22 are arranged in a staggered manner, and the corresponding blades 222 in the two blade groups 22 are mutually attached;

at least two groups of hinge structures 223 are arranged in each gap 2220, the hinge structures 223 are uniformly arranged at intervals along the circumferential direction of the first rotating shaft 221, each group of hinge structures 223 comprises a first hinge arm 2231 and a second hinge arm 2232 which are hinged to each other, the ends of the first hinge arm 2231 and the second hinge arm 2232 are respectively hinged to sleeves 2221 of two adjacent blades 222, and the extension and retraction of the hinge structures 223 can be realized by adjusting the included angle between the first hinge arm 2231 and the second hinge arm 2232, so as to adjust the width of the gap 2220 between two adjacent blades 222;

the adjusting assembly 224 comprises a transmission block 2241 and a first driving member 2242, the transmission block 2241 can be movably sleeved on the periphery of the first rotating shaft 221 along the axial direction and abuts against the right side of the blade 222 at the head; the first driving member 2242 is an electric push rod having an expansion shaft extending in the front-rear direction, and the first driving member 2242 is attached to the right side wall of the first blade carrier 21, and the end of the expansion shaft is connected to the driving block 2241. In this implementation, the transmission blocks 2241 of two sets of blades 22 are connected to each other, and two transmission blocks 2241 share the same first driving member 2242.

As shown in fig. 7 to 11, the vegetable cutting module 10 is disposed at the left part of the inner cavity of the base 11, and includes a second knife rest 3, a dicing assembly 4, a slicing assembly 5 and a shredding assembly 6.

Specifically, the second tool rest 3 comprises a containing box 31 and a first hopper 32 and a second hopper 33 which are respectively arranged on the right side and the left side of the containing box 31, the first hopper 32 and the second hopper 33 are communicated with the inner cavity of the containing box 31, and the cutting block assembly 4, the cutting assembly 5 and the shredding assembly 6 are all positioned in the containing box 31. The top of the accommodating box 31 has an opening as a second inlet 311, and a second outlet 312 is provided at the middle position of the bottom wall of the accommodating box 31. The second feeding port 122 faces the second feeding port 311 of the containing box 31, the third feeding port 123 faces the feeding end of the first hopper 32, and the fourth feeding port 124 faces the feeding end of the second hopper 33.

The cutting assembly 4 is used for cutting food materials into blocks, and comprises a second rotating shaft 40, a cutting cutter disc 41 and a cutting cutter 42.

Specifically, the second rotating shaft 40 extends substantially in the left-right direction, and the left and right ends are rotatably connected to the left and right side walls of the accommodating box 31, respectively;

the dicing cutter 41 is cylindrical, coaxially sleeved on the periphery of the second rotating shaft 40, connected with the second rotating shaft 40, and located between the second feeding port 311 and the second discharging port 312 of the accommodating box 31. A cavity 411 is formed in the cutting disc 41 in a hollow manner, openings are formed in the left side and the right side of the cutting disc 41, and the outer side and the inner side of the peripheral wall of the cutting disc 41 are respectively marked as the feeding side and the discharging side of the cutting disc 41; first mounting holes 412 which are communicated with the cavity 411 penetrate through the peripheral wall of the dicing cutter disc 41 in the radial direction, the number of the first mounting holes 412 is at least two, and the first mounting holes 412 are arranged at intervals along the circumferential direction of the dicing cutter disc 41; a plurality of blanking holes 413 for the blocky food materials to pass through are formed in the peripheral wall of the slicing cutter head 41; the edges of the left side and the right side of the peripheral wall of the dicing cutter disc 41 are provided with annular baffles 414 which extend outwards;

the dicing tool 42 is flat, corresponds to the first mounting holes 412 one by one, and is embedded in the corresponding first mounting holes 412. Each cutting tool 42 is provided with a first material guiding channel 421 extending from the feeding side to the discharging side of the cutting disc 41, the inlet and the outlet of the first material guiding channel 421 correspond to the feeding side and the discharging side of the cutting disc 41, the first material guiding channel 421 comprises a first material guiding section 421a extending along the tangential direction of the cutting disc 41 and a second material guiding section 421b extending along the radial direction of the cutting disc 41, and the inlet of the second material guiding section 421b is communicated with the outlet of the first material guiding section 421 a; an inlet of the first material guiding section 421a is located at the front side of the dicing cutter 42 along the rotation direction of the second rotating shaft 40, the inlet is a strip-shaped opening extending along the axial direction of the dicing cutter 41, and the edge of one side of the inlet away from the dicing cutter 41 is provided with a first cutting edge 4211; a knife net 422 is transversely arranged in the second material guiding section 421b, the knife net 422 and the cutting knife 42 are integrated, and the knife edge of the knife net 422 faces to the outlet of the first material guiding section 421 a; the inner wall of the first material guiding section 421a opposite to the inlet of the second material guiding section 421b is provided with a guiding inclined plane 4212, and the guiding inclined plane 4212 gradually approaches the inlet of the second material guiding section 421b along the moving direction of the food material in the first material guiding section 421a, so as to extrude the food material advancing in the first material guiding section 421a into the second material guiding section 421b.

In this embodiment, the second feeding port 122 is offset from the axis of the dicing cutter 41, and the periphery of the second feeding port 122 extends downward to form a feeding cylinder 1221, and the end surface of the outlet end of the feeding cylinder 1221 extends substantially in the tangential direction of the dicing cutter 41, so that the feeding can be performed automatically without hands in cooperation with the cutting direction of the first cutting edge 4211.

The slicing assembly 5 is used for cutting food materials into slices, comprises a slicing cutter disc 51 and a slicing cutter 52, and shares a second rotating shaft 40 with the dicing assembly 4.

Specifically, the slicing cutter disc 51 is disc-shaped, coaxially sleeved on the periphery of the second rotating shaft 40, connected with the second rotating shaft 40, and arranged at the right side of the dicing cutter disc 41 at intervals. The right side and the left side of the slicing cutter disc 51 are respectively marked as the feeding side and the discharging side of the slicing cutter disc 51, namely, the discharging side of the slicing cutter disc 51 faces the dicing cutter disc 41, the slicing cutter disc 51 is arranged close to the discharging end of the first hopper 32, and the first hopper 32 and the second discharging port 312 are respectively positioned at the feeding side and the discharging side of the slicing cutter disc 51; the surface of the slicing cutter disc 51 is provided with second mounting holes 511 in an axial direction in a penetrating manner, the second mounting holes 511 are strip-shaped holes extending along the radial direction of the slicing cutter disc 51, the number of the second mounting holes is at least two, and the second mounting holes are arranged at intervals along the circumferential direction of the slicing cutter disc 51.

The slicing blades 52 are in a strip shape, correspond to the second mounting holes 511 one by one, and are embedded in the corresponding second mounting holes 511. Each slicing cutter 52 is provided with a second material guiding channel 521 extending from the feeding side to the discharging side of the slicing cutter disc 51, and the inlet and the outlet of the second material guiding channel 521 correspond to the feeding side and the discharging side of the slicing cutter disc 51; an inlet and an outlet of the second material guiding channel 521 are respectively positioned at the front side and the rear side of the slicing cutter 52 along the rotation direction of the second rotating shaft 40, the inlet is a strip-shaped opening extending along the radial direction of the slicing cutter head 51, and the edge of one side of the inlet far away from the slicing cutter head 51 is provided with a second cutting edge 5211; the caliber of the second material guiding channel 521 is gradually enlarged from the inlet to the outlet, thereby facilitating the discharging.

The shredding assembly 6 is used for cutting food materials into shreds, comprises a shredding cutter disc 61 and a shredding cutter 62, and shares a second rotating shaft 40 with the slicing assembly 4.

Specifically, the shredding cutter disc 61 is disc-shaped, coaxially sleeved on the periphery of the second rotating shaft 40, connected with the second rotating shaft 40, and arranged at the left side of the slicing cutter disc 41 at intervals. The left side and the right side of the shredding cutter disc 61 are respectively marked as the feeding side and the discharging side of the shredding cutter disc 61, namely, the discharging side of the shredding cutter disc 61 faces the dicing cutter disc 41, the shredding cutter disc 61 is arranged close to the discharging end of the second hopper 33, and the second hopper 33 and the second discharging port 312 are respectively positioned on the feeding side and the discharging side of the shredding cutter disc 61; the surface of the shredding cutter disc 61 is provided with third mounting holes 611 in an axial direction in a penetrating manner, and the third mounting holes 611 are strip-shaped holes extending in the radial direction of the shredding cutter disc 61, the number of the third mounting holes 611 is at least two, and the third mounting holes are arranged at intervals in the circumferential direction of the shredding cutter disc 61.

The shredding cutter 62 is in a strip shape, corresponds to the third mounting holes 611 one by one, and is embedded in the corresponding third mounting holes 611. Each shredding cutter 62 is provided with a third material guiding channel 621 extending from the feeding side to the discharging side of the shredding cutter disc 61, and the inlet and outlet of the third material guiding channel 621 correspond to the feeding side and the discharging side of the shredding cutter disc 61; an inlet and an outlet of the third material guiding channel 621 are respectively positioned at the front side and the rear side of the shredding cutter 62 along the rotation direction of the second rotating shaft 40, the inlet is a strip-shaped opening extending along the radial direction of the shredding cutter disc 61, and the edge of one side of the inlet far away from the shredding cutter disc 61 is provided with a third cutting edge 6211; a knife row 622 is transversely arranged in the third material guiding channel 621, the knife row 622 and the shredding knife 62 are an integral piece, and the knife edge of the knife row 622 faces to the inlet of the third material guiding channel 621; the aperture of the third material guiding channel 621 gradually enlarges from the inlet to the outlet, thereby facilitating the discharging.

In addition, a plurality of cleaning holes are formed in each cutter, so that cleaning media can wash the inner wall of each cutter when cleaning is facilitated.

The driving mechanism 7 is disposed in the middle of the inner cavity of the base 11 and includes a first gear 71, a second gear 72, a third gear 73, a fourth gear 74 and a second driving member 75. Specifically, the second driving member 75 is a motor having a first output shaft extending rightward and a second output shaft extending leftward; the number of the first gears 71 is two, the first gears 71 correspond to the first rotating shafts 221 one by one, each first gear 71 is coaxially arranged at the left end of the corresponding first rotating shaft 221, and the two first gears 71 are meshed with each other; the second gear 72 is coaxially mounted at the right end of the first output shaft of the second driving member 75, and is meshed with one of the first gears 71; the third gear 73 is coaxially installed at the right end of the second rotating shaft 40; the fourth gear 74 is coaxially mounted on the left end of the second output shaft of the second driving member 75, and meshes with the third gear 73. The gear structure matched with the gear motor realizes that the rotating speed of the cutter head is controlled at 1-3 r/s, and the rapid cutting and matching is realized on the premise of ensuring enough torque.

The material receiving box 8 is arranged at the bottom of the inner cavity of the base 11 and can be drawn back and forth to enter and exit the machine shell 1 from the abdicating opening 111. The receiving box 8 has a first receiving groove 81 and a second receiving groove 82 with open tops therein, the first receiving groove 81 has an open top facing the first discharge hole 213 of the first tool holder 21, and the second receiving groove 82 has an open top facing the second discharge hole 312 of the second tool holder 3.

The working principle of the embodiment is as follows:

(1) Meat cutting mode: the second driving member 75 is started to drive the second gear 72 to rotate, the first gear 71 rotates along with the second gear, and then the blade 222 is driven to rotate through the first rotating shaft 221;

(1) when a user needs to cut thick meat slices, the first driving part 2242 is started to enable the telescopic shaft of the first driving part to retract inwards, as shown in fig. 5, the included angle between the first hinge arm 2231 and the second hinge arm 2232 is basically 180 degrees, the width of the gap 2220 between the two adjacent blades 222 is at the maximum value, at this time, the meat blocks are thrown into the first feeding port 121, the meat blocks fall under the action of gravity, the blades 222 rotating relatively are mutually matched and cut into the meat slices, and finally the meat slices are collected into the first receiving groove 81 of the receiving box 8, so that the thick meat slices can be obtained;

(2) when a user needs to cut thin meat slices, the first driving part 2242 is started to enable the telescopic shaft to extend outwards, the blade 222 located at the head is pushed to move leftwards, so that the included angle between the first hinge arm 2231 and the second hinge arm 2232 is compressed, the blades 222 are sequentially driven to move backwards, as shown in fig. 6, the included angle between the first hinge arm 2231 and the second hinge arm 2232 is basically 20 degrees, the width of a gap 2220 between every two adjacent blades 222 is at the minimum value, at this time, the meat blocks are put into the feeding port 121, the meat blocks fall under the action of gravity, the blades 222 rotating relatively are matched with each other and cut into the meat slices, and finally the meat slices are collected into the first receiving groove 81 of the receiving box 8, so that the thin meat slices can be obtained;

(2) Vegetable cutting mode: the second driving piece 75 is started to drive the fourth gear 74 to rotate, the third gear 73 rotates along with the fourth gear, and then the second rotating shaft 40 drives the block cutting assembly 4, the slice cutting assembly 5 and the shred cutting assembly 6 to synchronously rotate around the axis of the second rotating shaft 40;

(1) when a user needs to cut the food into blocks, the food can be thrown into the second feeding port 122 to enter the containing box 31, the food falls under the action of gravity until the food is contacted with the block cutting cutter disc 41, the block cutting cutter 42 which is rotated firstly is cut into thick pieces through the first cutting edge 4211, the cut thick pieces enter the first material guiding section 421a, then enter the second material guiding section 421b under the extrusion of the guide inclined plane 4212, and then are cut into blocks by the cutter mesh 422 to enter the cavity 411, and the block food in the cavity 411 finally falls through the blanking hole 413 and the second discharging port 312 and is collected into the second material receiving groove 82 of the material receiving box 8;

(2) when a user needs to slice, the food material can be fed into the third feeding port 123 and enter the first hopper 32, the food material falls under the action of gravity until contacting with the slicing cutter disc 51, the rotated slicing cutter 52 is cut into slices by the second cutting edge 5211, the cut slices enter the accommodating box 31 through the second material guiding channel 521, and finally fall through the second discharging port 312 and are collected into the second material receiving groove 82 of the material receiving box 8;

(3) when the user needs to shred the food, the food can be thrown into the fourth feeding port 124 and enter the second hopper 33, the food falls under the action of gravity until the food contacts the shredding cutter disc 61, the rotated shredding cutter 62 is cut into threads through the third cutting edge 6211 and the cutter row 622, the cut thread-shaped food enters the accommodating box 31 through the third material guiding channel 621, and finally falls through the second discharging port 312 and is collected into the second material receiving groove 82 of the material receiving box 8.

Claims (29)

1. A vegetable cutting module, which comprises

A second tool holder (3); and

the cutting assembly comprises a second rotating shaft (40) rotatably connected to the second tool rest (3), a cutter disc coaxially arranged on the second rotating shaft (40) and a cutter arranged on the cutter disc;

the method is characterized in that: the number of the cutting assemblies is three, the cutting assemblies are respectively marked as a first cutting assembly, a second cutting assembly and a third cutting assembly, the cutting assemblies share the same second rotating shaft (40), the second rotating shaft (40) is basically horizontally arranged, and cutter discs of the second cutting assembly, the first cutting assembly and the third cutting assembly are sequentially arranged at intervals along the axial direction of the second rotating shaft (40);

in the first cutting assembly, the cutter head is cylindrical, a cavity (411) is formed in the cutter head in a hollow mode, the cutter head is provided with a feeding side located on the outer side of the peripheral wall of the cutter head and a discharging side located on the inner side of the peripheral wall of the cutter head, and the cutter is installed on the peripheral wall of the cutter head;

in the second cutting assembly and the third cutting assembly, the cutter disc is disc-shaped, the cutter disc is provided with a feeding side back to the first cutting assembly and a discharging side facing the first cutting assembly, and the cutter is arranged on the surface of the cutter disc.

2. The vegetable cutting module of claim 1, wherein: the first cutting assembly is a cutting assembly (4) for cutting food materials into blocks, and a cutter disc and a cutter of the cutting assembly (4) are respectively marked as

The cutting cutter head (41) is provided with a first mounting hole (412) which is communicated with the cavity (411) in a penetrating way along the radial direction on the peripheral wall; and

the cutting tool (42) is arranged at the first mounting opening (412) and is provided with a first material guiding channel (421) extending from the feeding side to the discharging side of the cutting cutter (41), the first material guiding channel (421) comprises a first material guiding section (421 a) and a second material guiding section (421 b) which are sequentially connected, and the inlet of the second material guiding section (421 b) is communicated with the outlet of the first material guiding section (421 a);

the inlet of the first material guiding section (421 a) is positioned at the front side of the cutting tool (42) along the rotation direction of the second rotating shaft (40), the inlet is a strip-shaped opening extending along the axial direction of the cutting tool disc (41), and the edge of one side of the inlet, which is far away from the cutting tool disc (41), is provided with a first cutting edge (4211);

a knife net (422) is transversely arranged in the second material guiding section (421 b), and the cutting edge of the knife net (422) faces to the outlet of the first material guiding section (421 a);

the inner wall of the first material guiding section (421 a) opposite to the inlet of the second material guiding section (421 b) is provided with a guide inclined plane (4212), and the guide inclined plane (4212) is gradually close to the inlet of the second material guiding section (421 b) along the moving direction of the food materials in the first material guiding section (421 a) so as to extrude the food materials advancing in the first material guiding section (421 a) into the second material guiding section (421 b).

3. The chopping module of claim 2, wherein: the first material guiding section (421 a) extends along the tangential direction of the dicing cutter disc (41) basically.

4. The chopping module of claim 3, wherein: the second guide section (421 b) extends along the radial direction of the cutting impeller (41).

5. The chopping module of claim 2, wherein: the peripheral wall of the cutting cutter head (41) is provided with a blanking hole (413) for the block-shaped food material to pass through.

6. The chopping module of claim 2, wherein: the edge of the peripheral wall of the cutting cutter disc (41) along the two sides of the axial direction is provided with an annular baffle (414) extending outwards.

7. The vegetable cutting module of claim 2, wherein: the number of the first mounting holes (412) is at least two, the first mounting holes are arranged at intervals along the circumferential direction of the cutting cutter disc (41), and the cutting cutters (42) are in one-to-one correspondence with the first mounting holes (412).

8. The chopping module of any one of claims 1 to 7, wherein: the second cutting assembly is a slicing assembly (5) for cutting food materials into slices, and a cutter disc and a cutter of the slicing assembly (5) are respectively marked as

The surface of the slicing cutter head (51) is provided with a second mounting opening (511) in an axial penetrating manner; and

section cutter (52), locate second installing port (511) department, have second guide passageway (521) that extend from the feeding side direction discharge side of section blade disc (51), the entry of second guide passageway (521) is located section cutter (52) are along second pivot (40) direction of rotation's front side, and this entry is the bar mouth of the radial extension along section blade disc (51), and has second cutting edge (5211) on the border that section blade disc (51) one side was kept away from to this entry.

9. The chopping module of claim 8, wherein: at least partial caliber of the second material guiding channel (521) is gradually enlarged from the inlet to the outlet.

10. The vegetable cutting module of claim 8, wherein: the number of the second mounting holes (511) is at least two, the second mounting holes are arranged along the circumferential direction of the slicing cutter head (51) at intervals, and the slicing cutters (52) correspond to the second mounting holes (511) one by one.

11. The chopping module of any one of claims 1 to 7, wherein: the third cutting assembly is a shredding assembly (6) for cutting food materials into filaments, and a cutter disc and a cutter of the shredding assembly (6) are respectively marked as

The surface of the shredding cutter head (61) is provided with a third mounting opening (611) in an axial penetrating manner; and

shred cutter (62), locate third installing port (611) department, third guide passageway (621) that the feeding side direction discharge side that has from shredding cutter dish (61) extends, the entry of third guide passageway (621) is located shred cutter (62) along the front side of second pivot (40) direction of rotation, this entry is the bar mouth of the radial extension of shredding cutter dish (61) along, and this entry keeps away from and has third cutting edge (6211) on the border of shredding cutter dish (61) one side, transverse arrangement has sword row (622) in third guide passageway (621), the cutting edge orientation of this sword row (622) the entry of third guide passageway (621).

12. The chopping module of claim 11, wherein: at least partial caliber of the third material guiding channel (621) is gradually enlarged from the inlet to the outlet.

13. The chopping module of claim 11, wherein: the number of the third mounting openings (611) is at least two, the third mounting openings are arranged at intervals along the circumferential direction of the shredding cutter disc (61), and the shredding cutters (62) correspond to the third mounting openings (611) one by one.

14. A kitchen cutting and matching machine applying the cutting module of any of claims 1 to 13, characterized in that: the vegetable cutting machine comprises a machine shell (1), wherein a vegetable cutting module (10) is arranged in the machine shell (1).

15. The kitchen cutting and matching machine according to claim 14, characterized in that: the shell (1) is internally provided with a meat cutting module (2), and the meat cutting module (2) comprises

A first blade holder (21); and

each group of knife tackle (22) comprises a first rotating shaft (221) rotationally connected to the first knife rest (21) and at least two blades (222) arranged at intervals along the axial direction of the first rotating shaft (221), the first rotating shafts (221) of the two groups of knife tackle (22) are arranged side by side, and a gap (2220) is formed between every two adjacent blades (222) of the same knife tackle (22).

16. The kitchen cutting and dispensing machine of claim 15, wherein: each blade (222) is arranged on the first rotating shaft (221) in a manner of being capable of moving along the axial direction relative to the first rotating shaft (221);

each group of knife sets (22) also comprises

The two ends of the hinge structure (223) are respectively hinged on two adjacent blades (222) of the same cutter group (22); and

and the adjusting assembly (224) is used for driving each hinge structure (223) to stretch and contract so as to adjust the width of each gap (2220).

17. The kitchen cutting and dispensing machine of claim 16, wherein: the middle part of each blade (222) is provided with a sleeve (2221), and the sleeve (2221) can be movably sleeved on the periphery of the first rotating shaft (221) along the axial direction.

18. The kitchen cutting and dispensing machine of claim 17, wherein: each group of hinge structures (223) comprises a first hinge arm (2231) and a second hinge arm (2232) which are hinged with each other, and the tail ends of the first hinge arm (2231) and the second hinge arm (2232) are respectively hinged on the sleeves (2221) of two adjacent blades (222).

19. The kitchen cutting and dispensing machine of claim 16, wherein: at least two groups of hinge structures (223) are arranged in each gap (2220), and the hinge structures (223) are arranged at intervals along the circumferential direction of the first rotating shaft (221).

20. The kitchen cutting and matching machine according to claim 16, characterized in that: the adjusting component (224) comprises a transmission block (2241), can be sleeved on the periphery of the first rotating shaft (221) movably along the axial direction, and abuts against the outer side of the blade (222) positioned at the head; and

the first driving piece (2242) is used for driving the transmission block (2241) to move along the axial direction.

21. The kitchen cutting and matching machine according to claim 20, characterized in that: the first driving piece (2242) is an electric push rod and is provided with an expansion shaft extending along the moving direction of the transmission block (2241), and the end part of the expansion shaft is connected to the transmission block (2241).

22. The kitchen cutting and matching machine according to claim 20, characterized in that: the transmission piece (2241) interconnect of two sets of knife tackle (22), and two transmission pieces (2241) share same first driving piece (2242).

23. The kitchen cutting and matching machine according to claim 15, characterized in that: the machine shell (1) is internally provided with a driving mechanism (7) for driving the first rotating shaft (221) and the second rotating shaft (40) to rotate.

24. The kitchen cutting and matching machine according to claim 23, wherein: the driving mechanism (7) comprises a second driving piece (75) which is provided with a first output shaft and a second output shaft;

the two first gears (71) correspond to the first rotating shafts (221) one by one, each first gear (71) is coaxially arranged at the end part of the corresponding first rotating shaft (221), and the two first gears (71) are meshed with each other;

a second gear (72) coaxially mounted on the end of the first output shaft of the second drive member (75) and meshing with one of the first gears (71);

a third gear (73) coaxially installed at an end of the second rotating shaft (40); and

and a fourth gear (74) coaxially mounted on an end portion of the second output shaft of the second driving member (75) and engaged with the third gear (73).

25. The kitchen cutting and dispensing machine according to any one of claims 15 to 24, wherein: the first rotating shaft (221) and the second rotating shaft (40) extend along the left-right direction basically;

an accommodating cavity (211) is formed inside the first tool rest (21), the top and the bottom of the first tool rest (21) are respectively provided with a first feeding hole (212) and a first discharging hole (213), and the two groups of tool sets (22) are accommodated in the accommodating cavity (211);

second knife rest (3) hold box (31) and locate and hold box (31) both sides and with hold first hopper (32) and second hopper (33) that box (31) inner chamber is linked together including holding, the top and the bottom that hold box (31) have second feed inlet (311) and second discharge gate (312) respectively, cutting assembly be located hold box (31) in, first cutting assembly's blade disc be located second feed inlet (311) and second discharge gate (312) between, second cutting assembly's blade disc is close to the discharge end of first hopper (32) arrange, and first hopper (32) and second discharge gate (312) are located the feed side and the ejection of compact side of this blade disc respectively, third cutting assembly's blade disc is close to the discharge end of second hopper (33) arrange, and second hopper (33) and second discharge gate (312) are located the feed side and the ejection of compact side of this blade disc respectively.

26. The kitchen cutting and matching machine according to claim 25, wherein: the top of the machine shell (1) is provided with a first feeding port (121), a second feeding port (122), a third feeding port (123) and a fourth feeding port (124), the first feeding port (121) is over against the first feeding port (212), the second feeding port (122) is over against the second feeding port (311), the third feeding port (123) is over against the feeding end of the first hopper (32), and the fourth feeding port (124) is over against the feeding end of the second hopper (33).

27. The kitchen cutting and dispensing machine of claim 26, wherein: the second dispensing opening (122) is offset from the axis of the cutterhead of the first cutting assembly.

28. The kitchen cutting and dispensing machine of claim 25, wherein: the improved material receiving machine is characterized in that a material receiving box (8) is arranged in the machine shell (1), a first material receiving groove (81) and a second material receiving groove (82) with top openings are formed in the material receiving box (8), the top opening of the first material receiving groove (81) is right opposite to the first material outlet (213), and the top opening of the second material receiving groove (82) is right opposite to the second material outlet (312).

29. The kitchen cutting and dispensing machine of claim 28, wherein: the front side of the machine shell (1) is provided with a position-giving opening (111), and the material receiving box (8) can be drawn back and forth to get in and out of the machine shell (1) from the position-giving opening (111).

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