CN220327269U - Fruit and vegetable processing structure - Google Patents

Abstract

The utility model relates to the technical field of juicers, in particular to a fruit and vegetable processing structure; the grinding machine comprises a main machine, a grinding screw and a slitting cylinder, wherein an output head and a sleeve are arranged on the main machine, and a first end of the sleeve is connected with the main machine in a matched manner; the cutting cylinder is rotatably arranged in the inner cavity of the sleeve in a penetrating way, a cutting edge is arranged on the cutting cylinder, the grinding screw is rotatably arranged in the cutting cylinder, and the output head directly or indirectly drives the grinding screw and/or the cutting cylinder to rotate; according to the fruit and vegetable processing structure, the second end of the grinding screw drives the slitting barrel to rotate reversely through the linkage assembly, the slitting barrel cuts food materials through the cutting edge, and the food materials enter between the slitting barrel and the grinding screw, so that opposite acting force is formed due to the fact that the slitting barrel and the grinding screw rotate reversely, the food materials are more easily extruded and pushed by the spiral ribs on the grinding screw, large-block food materials can be effectively prevented from being blocked, and the juicing efficiency is improved.

Description

Fruit and vegetable processing structure

Technical Field

The utility model relates to the technical field of juicers, in particular to a fruit and vegetable processing structure.

Background

With the improvement of the living standard of people, people are more and more concerned about living and eating health, and various household kitchen equipment such as fruit juice presses, vegetable cutters and the like are very popular. The grinding juicer is equipment for extruding juice in food materials in a screw extrusion mode and flowing out from a juice outlet, and squeezed pomace is discharged from a slag outlet, and is mainly used for juicing fruits and vegetables. The vegetable cutter is a device for cutting food materials into slices, blocks, shreds and cubes by utilizing the movement of a cutting tool. Various kitchen equipment has a plurality of functions and high professional degree, and the problem of occupation of kitchen space by the equipment is also caused.

Chinese patent CN104337380a discloses a juice extractor comprising: the juice collecting cavity is provided with a feed inlet and a juice outlet; the extrusion barrel is rotatably arranged in the juice collecting cavity and is provided with a cutting part and a filtering part; the extrusion screw rod is sleeved in the extrusion cylinder and connected with the juice collecting cavity; the driving piece is connected with the extrusion cylinder. The cutting part is opposite to the feeding hole, the cutting part is positioned below the feeding hole, the filtering part is opposite to the juice outlet, and the juice outlet is positioned below the filtering part. The cutting part is provided with a cutting edge, and the opening direction of the cutting edge is the same as the rotation direction of the extrusion cylinder.

The juicer is characterized in that the extrusion screw rod and the juice collecting cavity are fixed to realize juice squeezing through rotation of the extrusion barrel, and the cutting part cannot completely improve the conditions because the large food materials are easy to clamp when being put into the feed inlet to remain, so that the juicer has become a common problem of similar products. And the existing juicer has the defects of single product function, poor compatibility and incapability of improving the space occupation problem of kitchen equipment.

Accordingly, the prior art is still in need of improvement and development.

Disclosure of Invention

Aiming at the defects and shortcomings of the prior art, the utility model provides the fruit and vegetable processing structure which is reasonable in structure, capable of cutting, high in juice squeezing efficiency and strong in compatibility.

In order to achieve the above purpose, the technical scheme adopted by the utility model is as follows:

the fruit and vegetable processing structure comprises a host machine, a grinding screw and a slitting cylinder, wherein an output head and a sleeve are arranged on the host machine, and a first end of the sleeve is connected with the host machine in a matched manner; the cutting cylinder is rotatably arranged in the inner cavity of the sleeve in a penetrating way, the cutting cylinder is provided with a cutting edge, the grinding screw is rotatably arranged in the cutting cylinder, and the output head directly or indirectly drives the grinding screw and/or the cutting cylinder to rotate. The main machine is provided with a motor, the motor drives an output head to rotate, the output head is in transmission connection with the grinding screw and/or the slitting cylinder, the output head outputs power to enable the grinding screw to rotate positively, and the feeding direction of the grinding screw points to the first end of the grinding screw. The output head outputs power to enable the slitting cylinder to reversely rotate, the slitting cylinder cuts food materials through the cutting edge, the food materials enter the position between the slitting cylinder and the grinding screw rod, and due to the fact that the slitting cylinder and the grinding screw rod reversely rotate, relative acting force is formed, the food materials are extruded and pushed by the spiral ribs on the grinding screw rod more easily, blocking of large food materials can be effectively prevented, and juicing efficiency is improved.

According to the scheme, be equipped with first feed inlet on the telescopic upper edge face, form the cutting mouth after opening on the lateral wall of cutting a section of thick bamboo, the cutting mouth corresponds the setting from top to bottom with first feed inlet, cutting edge setting is in the edge of cutting mouth and with cutting a section of thick bamboo fixed connection. The first feed inlet is communicated with the inner cavity of the sleeve, and food materials are put into the sleeve from the first feed inlet. The cutting cylinder rotates in the sleeve, when the cutting opening rotates to the first feed inlet, the cutting edge cuts food so that part of the food falls between the cutting cylinder and the grinding screw, the cutting cylinder continues to rotate so that the side wall of the cutting cylinder seals the first feed inlet, and the spiral rib on the cutting cylinder can extrude and push the food better by matching with the rotation of the grinding screw, so that the juicing efficiency is improved.

According to the scheme, be equipped with a plurality of juice leakage holes on the lateral wall of the section of thick bamboo that cuts not lacks, the section of thick bamboo lateral wall that cuts that juice leakage hole was located pairs with foretell incision and sets up, and when the incision rotated the upside and was mated with first feed inlet, juice leakage hole was in the bottom of cutting a section of thick bamboo, and the grinding screw and the juice that cuts section of thick bamboo cooperation extrusion produced fall into sleeve inner chamber bottom through juice leakage hole this moment, prevent that juice from accumulating in cutting a section of thick bamboo. It will be appreciated that when the said cut is rotated to the down position, there is always an extrusion effect between the grinding screw and the side wall of the barrel, and that the juice can fall into the bottom of the cavity of the sleeve through the cut.

According to the scheme, the port of the second end of the sleeve is provided with the cup cover, a linkage assembly is arranged between the second end of the slitting cylinder and the cup cover, and the linkage assembly is connected with the cup cover in a matched manner; the output head is in transmission connection with the first end of the grinding screw, the second end of the grinding screw is in transmission connection with the linkage assembly, and the linkage assembly is in transmission connection with the second end of the slitting cylinder, so that the rotation direction of the slitting cylinder is opposite to that of the grinding screw. The cup cover is detachably connected with the sleeve, and the cup cover can be installed on a port at the second end of the sleeve in a common fastening structure or threaded connection mode. The preferable linkage assembly is arranged on the slitting cylinder, namely the output head and the grinding screw drive the slitting cylinder to rotate through the linkage assembly, and the cup cover is used for limiting the linkage assembly and the slitting cylinder to fall off from the second end of the sleeve, namely the cup cover provides axial limiting for the linkage assembly and prevents the linkage assembly from rotating, so that the stability of the transmission relation is ensured. Of course, the detachable design of the cup cover enables the slitting cylinder and the grinding screw to be detached from the sleeve as well, so that the inside of the sleeve and all parts of the sleeve can be cleaned conveniently. Further, the cup cover, the slitting barrel and the grinding screw rod can be replaced, so that function expansion is realized.

According to the scheme, the linkage assembly comprises a transmission seat and a planet carrier, the transmission seat is fixedly connected with the second end of the slitting cylinder, and a gear ring is arranged on the inner edge surface of the transmission seat; the planet carrier is arranged in the transmission seat, a sun wheel and a plurality of planet wheels are arranged on the planet carrier, the sun wheel is rotationally connected with the planet carrier, and the plurality of planet wheels are respectively engaged with and connected with the sun wheel and the gear ring; the sun gear is in transmission connection with the second end of the grinding screw rod through the input shaft, and the planet carrier is fixedly connected with the cup cover through the fixed terminal. The preferred linkage assembly of the utility model adopts a planetary transmission structure which comprises a planet carrier, a sun wheel and a planet wheel, and the planetary transmission structure is arranged in a transmission seat. Wherein, fixed terminal on the planet carrier passes the end plate of drive seat and with bowl cover fixed connection, and here bowl cover constitutes axial position to planet carrier and linkage subassembly and prescribes a limit to, and secondly, bowl cover and fixed terminal cooperation are connected and are prevented the planet carrier rotation. Further, grinding screw drives the sun gear and corotates, and the sun gear passes through the planet wheel and drives the drive seat and cut a section of thick bamboo reversal to make cut a section of thick bamboo and grind the relative reverse rotation of screw, prevent that the bulk from eating the material card and being blocked at first feed inlet through cutting edge cutting food material, cut a section of thick bamboo and grind the relative extrusion effect that forms of screw, improve juice extraction efficiency.

According to the scheme, the filter cartridge is further provided with a slag discharging port and a juice discharging channel on the lower edge surface of the sleeve, the filter cartridge is arranged between the sleeve and the slitting cylinder in a penetrating manner, and the filter cartridge is detachably connected with the sleeve; the upper edge surface of cartridge filter is equipped with the second feed inlet, and the second feed inlet pairs with first feed inlet and sets up, is equipped with slag notch and filter screen on the lower edge surface of cartridge filter, and the slag notch pairs with the slag notch and sets up, and the filter screen pairs with the play juice passageway and sets up. The filter cartridges are independently arranged, and the second feed inlets on the filter cartridges are used for extending the first feed inlets and matching with the cut-in openings; food waste that extrusion of grinding screw produced removes to the slag notch and discharges the sleeve inner chamber through the slag notch, and juice sees through the filter screen and follow juice passageway outflow sleeve inner chamber, can understand, in order to guarantee juice and residue separation, juice passageway covers the filter screen, and is equipped with the partition structure between juice passageway and the slag notch.

According to the scheme, be equipped with the filter mantle on the first end of section of thick bamboo that cuts, be equipped with out juice passageway on the telescopic lower marginal face, go out juice passageway and filter mantle and correspond from top to bottom and set up. The filter mantle sets up with cutting a section of thick bamboo an organic whole, and the filter mantle sets up on cutting a section of thick bamboo's first end along the direction of feed of grinding screw, and grinding screw and cutting a section of thick bamboo cooperation extrusion food material are to filter mantle one end promotion, and residue and juice are in the separation of filter mantle department, thereby the juice passageway that corresponds sets up in the below of filter mantle and collects juice.

According to the scheme, the vegetable cutting device further comprises a vegetable cutting cylinder, wherein the vegetable cutting cylinder is rotatably arranged in the sleeve in a penetrating mode, and the first end of the vegetable cutting cylinder is connected with the output head in a matched mode; a cup cover is arranged at the second end of the sleeve, the cup cover is connected with the second end of the vegetable cutting cylinder in a matched manner, a vegetable outlet communicated with the inner cavity of the vegetable cutting cylinder is arranged on the cup cover, and a first feeding hole is arranged on the upper edge surface of the sleeve; the side wall of the vegetable cutting cylinder is provided with a plurality of cutting edges. The vegetable cutting cylinder is an equivalent replacement part of the grinding screw and the slitting cylinder and is used for expanding vegetable cutting functions. The vegetable cutting cylinder is assembled in the sleeve, the first end of the vegetable cutting cylinder is connected with the output head and synchronously rotates, and the second end of the vegetable cutting cylinder is limited by the cup cover. When food material gets into first feed inlet, the cutting drum of quick rotation cuts food material through a plurality of cutting edges, and the cutting effect of cutting edge is decided by its shape. If the blade of cutting edge is the linear type, then the cutting effect is the section, if the blade of cutting edge is the zigzag, then the cutting effect is the filament, certainly the section of thick bamboo of cutting dish can set for according to the function, rationally sets up the structure of cutting edge to satisfy the practical application demand. The functions of the juicer can be effectively expanded through the vegetable cutting cylinder, equipment investment and space occupation are reduced, and the use experience of a user is improved.

According to the scheme, the host is provided with the motor and the output interface, the output interface and the output head are concentrically arranged, and the motor is respectively connected with the output interface and the output head in a transmission way, so that the output interface and the output head reversely rotate; still include the cartridge filter, the cartridge filter wears to locate in the sleeve, and the cartridge filter can be dismantled with telescopic second end and be connected, grinding screw's first end is connected with the output transmission, cuts a first end and output transmission of section of thick bamboo and be connected, cuts the second end of section of thick bamboo and pairs the setting with the cartridge filter. The cutting cylinder and the filter cylinder are divided into a front part and a rear part by a cylinder column, the cutting cylinder is in transmission connection with the output interface so as to be rotatably arranged in the sleeve, and the cutting cylinder is used for feeding and cutting food materials. The cartridge filter is fixedly connected with the sleeve, the grinding screw rod is sleeved in the slitting cylinder and the cartridge filter and is in transmission connection with the output head, and the cartridge filter and the grinding screw rod grind and extrude food materials to extrude juice, and flow out of a juice outlet channel of the sleeve.

The motor is provided with an output head and an output interface through a gearbox, and the motor respectively drives the grinding screw and the slitting cylinder and enables the grinding screw and the slitting cylinder to reversely rotate. Further, the output head and the output interface can output different rotating speeds, the cutting cylinder cuts food materials through the cutting edge, the food materials enter the cutting cylinder and the grinding screw rod, and the opposite rotating force is formed due to the opposite rotating of the cutting cylinder and the grinding screw rod, so that the food materials are extruded and pushed by the spiral ribs on the grinding screw rod more easily, the blocking of the large food materials can be effectively prevented, and the juicing efficiency is improved.

According to the scheme, be equipped with the bearing bottom plate on the host computer, telescopic detachably installs on the host computer, telescopic bottom and bearing bottom plate pair and set up. The bearing bottom plate is used for supporting the sleeve, and running stability in the juice squeezing process is guaranteed.

According to the fruit and vegetable processing structure, the second end of the grinding screw drives the slitting barrel to rotate reversely through the linkage assembly, the slitting barrel cuts food materials through the cutting edge, and the food materials enter between the slitting barrel and the grinding screw, so that opposite acting force is formed due to the fact that the slitting barrel and the grinding screw rotate reversely, the food materials are more easily extruded and pushed by the spiral ribs on the grinding screw, large-block food materials can be effectively prevented from being blocked, and the juicing efficiency is improved.

Drawings

FIG. 1 is a schematic view of the overall split structure of embodiment 1 of the present utility model;

FIG. 2 is a schematic diagram of the overall split front view structure of embodiment 1 of the present utility model;

FIG. 3 is a schematic view showing the internal structure of a sleeve according to embodiment 1 of the present utility model;

FIG. 4 is a schematic view showing the overall sectional structure of embodiment 1 of the present utility model;

FIG. 5 is a schematic view showing an exploded view of the slitting drum and linkage assembly according to embodiment 1 of the present utility model;

FIG. 6 is a schematic view showing the structure of a slitting drum according to embodiment 2 of the present utility model;

FIG. 7 is a schematic view of the whole split structure of embodiment 3 of the present utility model;

FIG. 8 is a schematic view of the whole split structure of embodiment 4 of the present utility model;

fig. 9 is a schematic view showing the internal structure of embodiment 4 of the present utility model after assembly.

In the figure:

1. a host; 2. a sleeve; 3. cutting the barrel; 4. a cup cover; 5. cutting a vegetable cylinder; 11. an output head; 12. grinding the screw; 13. a motor; 14. a supporting bottom plate; 15. an output interface; 21. a filter cartridge; 22. a slag discharge port; 23. a juice outlet channel; 24. a second feed inlet; 25. a first feed port; 26. a slag outlet; 27. a filter screen; 31. a cutting edge; 32. a cutting port; 33. juice leakage holes; 34. a filter cover; 41. a transmission seat; 42. a planet carrier; 43. a gear ring; 44. a sun gear; 45. a planet wheel; 46. an input shaft; 47. a fixed terminal; 51. and a vegetable outlet.

Detailed Description

The technical scheme of the utility model is described below with reference to the accompanying drawings and examples.

Example 1

1-5, the fruit and vegetable processing structure comprises a main machine 1, a grinding screw 12 and a slitting cylinder 3, wherein an output head 11 and a sleeve 2 are arranged on the main machine 1, and a first end of the sleeve 2 is connected with the main machine 1 in a matched manner; the cutting cylinder 3 is rotatably arranged in the inner cavity of the sleeve 2 in a penetrating way, the cutting cylinder 3 is provided with a cutting edge 31, the grinding screw 12 is rotatably arranged in the cutting cylinder 3, and the output head 11 directly or indirectly drives the grinding screw 12 and/or the cutting cylinder 3 to rotate. The main machine 1 is provided with a motor 13, the motor 13 drives the output head 11 to rotate, the output head 11 is in transmission connection with the grinding screw 12 and/or the slitting cylinder 3, the output head 11 outputs power to enable the grinding screw 12 to rotate positively, and the feeding direction of the grinding screw 12 points to the first end of the grinding screw. The output head 11 output power makes the section of thick bamboo 3 reversal that cuts, cuts section of thick bamboo 3 through cutting edge 31 cutting food material, and food material gets into between section of thick bamboo 3 and the grinding screw 12, because the two reverse rotations to form relative effort, the food material is more easily extruded by the spiral muscle on the grinding screw 12 and is advanced, can prevent effectively that the bulk food material from blocking, promotes juice extractor efficiency.

For example, the output head 11 may drive the grinding screw 12 and the slitting drum 3 simultaneously, and the grinding screw 12 and the slitting drum 3 rotate in the same direction.

Or, the output head 11 is provided with a forward rotation interface and a reverse rotation interface, and is respectively connected with the grinding screw 12 and the slitting cylinder 3 in a transmission way, so that the two are rotated in the reverse direction.

Or, the output head 11 drives the grinding screw 12, the grinding screw 12 drives the slitting cylinder 3 through the linkage assembly, and the corresponding grinding screw 12 and the slitting cylinder 3 can reversely rotate.

The upper edge surface of the sleeve 2 is provided with a first feed port 25, the side wall of the slitting cylinder 3 is provided with a notch 32, the notch 32 and the first feed port 25 are arranged up and down correspondingly, and the cutting edge 31 is arranged at the edge of the notch 32 and fixedly connected with the slitting cylinder 3. The first feeding hole 25 is communicated with the inner cavity of the sleeve 2, and food materials are put into the sleeve 2 from the first feeding hole 25. When the cutting cylinder 3 rotates in the sleeve 2 and the cut opening 32 rotates to the first feeding hole 25, the cutting edge 31 cuts food materials to enable parts of the food materials to fall between the cutting cylinder 3 and the grinding screw 12, the cutting cylinder 3 continues to rotate to enable the side wall of the cutting cylinder to seal the first feeding hole 25, and the spiral ribs on the cutting cylinder can better extrude and push the food materials by matching with the rotation of the grinding screw 12, so that the juicing efficiency is improved.

The host computer 1 is provided with a bearing bottom plate 14, the sleeve 2 is detachably arranged on the host computer 1, and the bottom of the sleeve 2 is matched with the bearing bottom plate 14. The supporting base plate 14 is used for supporting the sleeve 2, so that the operation stability in the juicing process is ensured.

The filter cartridge 21 is arranged between the sleeve 2 and the slitting cylinder 3 in a penetrating way, and the filter cartridge 21 is detachably connected with the sleeve 2; the upper edge surface of the filter cartridge 21 is provided with a second feed inlet 24, the second feed inlet 24 is matched with the first feed inlet 25, the lower edge surface of the filter cartridge 21 is provided with a slag outlet 26 and a filter screen 27, the slag outlet 26 is matched with the slag outlet 22, and the filter screen 27 is matched with the juice outlet channel 23. The filter cartridge 21 is independently arranged, and the second feeding hole 24 on the filter cartridge 21 is used for extending the first feeding hole 25 and matching with the cut-in hole 32; food waste produced by extrusion of the grind screw 12 moves towards the tap hole 26 and exits the interior cavity of the sleeve 2 through the tap hole 22, and juice flows out of the interior cavity of the sleeve 2 through the juice outlet channel 23 through the filter screen 27. It will be appreciated that in order to ensure separation of juice and waste, the filter screen 27 is covered by the juice outlet channel 23 and a partition structure is provided between the juice outlet channel 23 and the tap hole 26.

The side wall of the part of the slitting barrel 3 which is not provided with the notch is provided with a plurality of juice leakage holes 33, the side wall of the slitting barrel 3 where the juice leakage holes 33 are positioned is matched with the notch 32, when the notch 32 rotates to the upper position to be matched with the first feeding port 25, the juice leakage holes 33 are positioned at the bottom of the slitting barrel 3, and juice produced by the cooperation extrusion of the grinding screw 12 and the slitting barrel 3 falls into the bottom of the inner cavity of the sleeve 2 through the juice leakage holes 33, so that juice is prevented from being accumulated in the slitting barrel 3. It will be appreciated that when the said cut-out 32 is rotated to the down position, there is always a squeezing effect between the grinding screw 12 and the side wall of the cutting cylinder 3, and that juice can fall through the cut-out 32 into the bottom of the cavity of the sleeve 2.

A cup cover 4 is arranged at the port of the second end of the sleeve 2, a linkage assembly is arranged between the second end of the slitting cylinder 3 and the cup cover 4, and the linkage assembly is in fit connection with the cup cover 4; the output head 11 is in transmission connection with the first end of the grinding screw 12, the second end of the grinding screw 12 is in transmission connection with the linkage assembly, and the linkage assembly is in transmission connection with the second end of the slitting cylinder 3, so that the rotation direction of the slitting cylinder 3 is opposite to the rotation direction of the grinding screw 12. The cup cover 4 is detachably connected with the sleeve 2, and the cup cover 4 can be installed on a port at the second end of the sleeve 2 in a common fastening structure or threaded connection mode. The preferred linkage assembly sets up on cutting section of thick bamboo 3, and output head 11, grinding screw 12 drive through the linkage assembly and cut section of thick bamboo 3 rotation promptly, and bowl cover 4 is arranged in restricting linkage assembly and cuts section of thick bamboo 3 and drop from sleeve 2 second end, and bowl cover 4 provides axial spacing to the linkage assembly promptly to prevent the linkage assembly rotation, guarantee the stability of above-mentioned transmission relation. Of course, the detachable design of the cup cover 4 enables the slitting cylinder 3 and the grinding screw 12 to be detached from the sleeve 2, so that the interior of the sleeve 2 and all parts can be cleaned conveniently. Further, the cup cover 4, the slitting cylinder 3 and the grinding screw 12 can be replaced, so that function expansion is realized.

As shown in fig. 5, the linkage assembly comprises a transmission seat 41 and a planet carrier 42, the transmission seat 41 is fixedly connected with the second end of the slitting cylinder 3, and a gear ring 43 is arranged on the inner edge surface of the transmission seat 41; the planet carrier 42 is arranged in the transmission seat 41, a sun gear 44 and a plurality of planet gears 45 are arranged on the planet carrier 42, the sun gear 44 is rotationally connected with the planet carrier 42, and the plurality of planet gears 45 are respectively meshed with the sun gear 44 and the gear ring 43; the sun gear 44 is in transmission connection with the second end of the grinding screw 12 through an input shaft 46, and the planet carrier 42 is fixedly connected with the cup cover 4 through a fixed terminal 47. The preferred linkage assembly of the present utility model employs a planetary transmission structure including a planet carrier 42, a sun gear 44 and planet gears 45, the planetary transmission structure being disposed within a transmission housing 41. Wherein the fixed terminal 47 on the planet carrier 42 passes through the end plate of the transmission seat 41 and is fixedly connected with the cup cover 4, the cup cover 4 is limited on the position of the planet carrier 42 and the linkage assembly in the axial direction, and the cup cover 4 is matched and connected with the fixed terminal 47 to prevent the planet carrier 42 from rotating. Further, the grinding screw 12 drives the sun gear 44 to rotate forward, the sun gear 44 drives the transmission seat 41 and the slitting cylinder 3 to rotate reversely through the planet gear 45, so that the slitting cylinder 3 and the grinding screw 12 rotate reversely relatively, the cutting blade 31 cuts food materials to prevent the food materials from being blocked at the first feed inlet 25, and the slitting cylinder 3 and the grinding screw 12 form a reverse extrusion effect relatively, so that the juicing efficiency is improved.

Example 2

As shown in fig. 6, the difference between this embodiment and embodiment 1 is that the first end of the slitting tube 3 is provided with a filter cover 34, the lower edge surface of the sleeve 2 is provided with a juice outlet channel 23, and the juice outlet channel 23 and the filter cover 34 are arranged vertically. The filter mantle 34 and cut a section of thick bamboo 3 an organic whole setting, the filter mantle 34 sets up on cutting a section of thick bamboo 3's first end along the direction of feed of grinding screw 12, and grinding screw 12 and cutting a section of thick bamboo 3 cooperation extrusion food material are advanced to filter mantle 34 one end, and residue and juice are separated in filter mantle 34 department, thereby the juice passageway 23 that corresponds sets up in the below of filter mantle 34 and collect juice.

Example 3

As shown in fig. 7, the difference between the present embodiment and embodiment 1 is that the present utility model further includes a vegetable cutting cylinder 5, wherein the vegetable cutting cylinder 5 is rotatably inserted into the sleeve 2, and a first end of the vegetable cutting cylinder 5 is connected with the output head 11 in a matching manner; a cup cover 4 is arranged at the second end of the sleeve 2, the cup cover 4 is connected with the second end of the vegetable cutting cylinder 5 in a matched manner, a vegetable outlet communicated with the inner cavity of the vegetable cutting cylinder 5 is arranged on the cup cover 4, and a first feeding hole 25 is arranged on the upper edge surface of the sleeve 2; the side wall of the vegetable cutting cylinder 5 is provided with a plurality of cutting edges 31. The vegetable cutting cylinder 5 is an equivalent replacement part of the grinding screw 12 and the slitting cylinder 3 and is used for expanding vegetable cutting functions. The vegetable cutting cylinder 5 is assembled in the sleeve 2, the first end of the vegetable cutting cylinder 5 is connected with the output head 11 and synchronously rotates, and the second end of the vegetable cutting cylinder 5 is limited by the cup cover 4. When food material enters the first feeding port 25, the rapidly rotating vegetable cutter 5 cuts the food material through the cutting edges 31, and the cutting effect of the cutting edges 31 is determined by the shape thereof. If the cutting edge 31 is linear, the cutting effect is slicing, if the cutting edge 31 is zigzag, the cutting effect is shredding, and of course, the cutting cylinder 5 can reasonably set the structure of the cutting edge 31 according to the function setting so as to meet the actual application requirement. The functions of the juicer can be effectively expanded through the vegetable cutting cylinder 5, equipment investment and space occupation are reduced, and the use experience of a user is improved.

Example 4

As shown in fig. 8-9, the difference between this embodiment and embodiment 1 is that the host 1 is provided with a motor 13 and an output interface 15, the output interface 15 is concentrically arranged with the output head 11, and the motor 13 is respectively connected with the output interface 15 and the output head 11 in a transmission manner, so that the output interface 15 and the output head 11 rotate in opposite directions; still include cartridge filter 21, cartridge filter 21 wears to locate in sleeve 2, and cartridge filter 21 can be dismantled with the second end of sleeve 2 and be connected, grinding screw 12's first end is connected with output head 11 transmission, cuts the first end and output interface 15 transmission of section of thick bamboo 3 and be connected, cuts the second end and the cartridge filter 21 pair setting of section of thick bamboo 3. The cutting cylinder 3 and the filter cylinder 21 are a front part and a rear part divided by a cylinder column, the cutting cylinder 3 is in transmission connection with the output port 15 so as to be rotatably arranged in the sleeve 2, and the cutting cylinder 3 is used for feeding and cutting food materials. The filter cartridge 21 is fixedly connected with the sleeve 2, the grinding screw 12 is sleeved in the slitting cylinder 3 and the filter cartridge 21 and is in transmission connection with the output head 11, the filter cartridge 21 and the grinding screw 12 grind extrusion food materials to extrude juice, and the juice flows out from the juice outlet channel 23 of the sleeve 2.

The motor 13 is provided with an output head 11 and an output interface 15 through a gearbox, respectively drives the grinding screw 12 and the slitting cylinder 3, and enables the grinding screw and the slitting cylinder to reversely rotate. Further, the output head 11 and the output interface 15 can output different rotation speeds, the cutting cylinder 3 cuts food materials through the cutting edge 31, the food materials enter the space between the cutting cylinder 3 and the grinding screw 12, and due to the opposite rotation of the cutting cylinder 3 and the grinding screw 12, opposite acting force is formed, the food materials are easier to be extruded and pushed by the spiral ribs on the grinding screw 12, the blocking of the large food materials can be effectively prevented, and the juicing efficiency is improved.

The foregoing description is only of the preferred embodiments of the utility model, and all changes and modifications that come within the meaning and range of equivalency of the structures, features and principles of the utility model are therefore intended to be embraced therein.

Claims (10)

1. The fruit and vegetable processing structure comprises a host machine, a grinding screw and a slitting cylinder, wherein an output head and a sleeve are arranged on the host machine, and a first end of the sleeve is connected with the host machine in a matched manner; it is characterized in that the method comprises the steps of,

the cutting cylinder is rotatably arranged in the inner cavity of the sleeve in a penetrating way, a cutting edge is arranged on the cutting cylinder, and the grinding screw is rotatably arranged in the cutting cylinder;

the output head directly or indirectly drives the grinding screw and/or the slitting cylinder to rotate.

2. The fruit and vegetable processing structure according to claim 1, wherein,

the upper edge surface of the sleeve is provided with a first feeding hole, a cutting hole is formed in the side wall of the cutting cylinder after the cutting hole is formed, the cutting hole and the first feeding hole are arranged in an up-down corresponding mode, and the cutting edge is arranged at the edge of the cutting hole and fixedly connected with the cutting cylinder.

3. The fruit and vegetable processing structure according to claim 2, wherein,

the side wall of the part of the slitting barrel which is not provided with the notch is provided with a plurality of juice leakage holes.

4. The fruit and vegetable processing structure according to claim 1, wherein,

a cup cover is arranged at the port of the second end of the sleeve, a linkage assembly is arranged between the second end of the slitting cylinder and the cup cover, and the linkage assembly is connected with the cup cover in a matched manner;

the output head is in transmission connection with the first end of the grinding screw, the second end of the grinding screw is in transmission connection with the linkage assembly, and the linkage assembly is in transmission connection with the second end of the slitting cylinder, so that the rotation direction of the slitting cylinder is opposite to that of the grinding screw.

5. The fruit and vegetable processing structure according to claim 4, wherein,

the linkage assembly comprises a transmission seat and a planet carrier, the transmission seat is fixedly connected with the second end of the slitting cylinder, and a gear ring is arranged on the inner edge surface of the transmission seat;

the planet carrier is arranged in the transmission seat, a sun wheel and a plurality of planet wheels are arranged on the planet carrier, the sun wheel is rotationally connected with the planet carrier, and the plurality of planet wheels are respectively engaged with and connected with the sun wheel and the gear ring;

the sun gear is in transmission connection with the second end of the grinding screw rod through the input shaft, and the planet carrier is fixedly connected with the cup cover through the fixed terminal.

6. A fruit and vegetable processing structure according to any one of claims 1-5,

the filter cartridge is arranged between the sleeve and the slitting cylinder in a penetrating way, and the filter cartridge is detachably connected with the sleeve;

the upper edge surface of cartridge filter is equipped with the second feed inlet, and the second feed inlet pairs with first feed inlet and sets up, is equipped with slag notch and filter screen on the lower edge surface of cartridge filter, and the slag notch pairs with the slag notch and sets up, and the filter screen pairs with the play juice passageway and sets up.

7. A fruit and vegetable processing structure according to any one of claims 1-5,

the first end of the slitting cylinder is provided with a filter cover, the lower edge surface of the sleeve is provided with a juice outlet channel, and the juice outlet channel is arranged up and down correspondingly to the filter cover.

8. The fruit and vegetable processing structure according to claim 1, wherein,

the vegetable cutting cylinder is rotatably arranged in the sleeve in a penetrating manner, and the first end of the vegetable cutting cylinder is connected with the output head in a matching manner;

a cup cover is arranged at the second end of the sleeve, the cup cover is connected with the second end of the vegetable cutting cylinder in a matched manner, a vegetable outlet communicated with the inner cavity of the vegetable cutting cylinder is arranged on the cup cover, and a first feeding hole is arranged on the upper edge surface of the sleeve;

the side wall of the vegetable cutting cylinder is provided with a plurality of cutting edges.

9. The fruit and vegetable processing structure according to claim 1, wherein,

the host is provided with a motor and an output interface, the output interface and the output head are concentrically arranged, and the motor is respectively connected with the output interface and the output head in a transmission way, so that the output interface and the output head reversely rotate;

still include the cartridge filter, the cartridge filter wears to locate in the sleeve, and the cartridge filter can be dismantled with telescopic second end and be connected, grinding screw's first end is connected with the output transmission, cuts a first end and output transmission of section of thick bamboo and be connected, cuts the second end of section of thick bamboo and pairs the setting with the cartridge filter.

10. The fruit and vegetable processing structure according to claim 1, wherein,

the bearing bottom plate is arranged on the host machine, the sleeve is detachably arranged on the host machine, and the bottom of the sleeve is matched with the bearing bottom plate.