CN111715668A

CN111715668A - Food and beverage rubbish recovery unit

Info

Publication number: CN111715668A
Application number: CN202010612661.5A
Authority: CN
Inventors: 林宇
Original assignee: Individual
Current assignee: Individual
Priority date: 2020-06-30
Filing date: 2020-06-30
Publication date: 2020-09-29

Abstract

The invention discloses a food waste recovery device, which structurally comprises a control box, a biochemical treatment box, a cavity opening, a feeding cover, a placing body, a treatment cavity and a side cavity opening, wherein the treatment cavity is mechanically connected with the biochemical treatment box, the placing body is arranged on the right side of the treatment cavity, the feeding cover is connected with the treatment cavity in a clamping way, the cavity opening is arranged above the biochemical treatment box, the side cavity opening is arranged on the side surface of the biochemical treatment box, the control box is mechanically connected with the biochemical treatment box, and the treatment cavity is provided with a cavity, a hinging device, a squeezer, a drying cavity, a drier and a squeezing cavity. Sliding between the clamp bodies to carry out clamping, beating and crushing.

Description

Food and beverage rubbish recovery unit

Technical Field

The invention relates to the field of garbage treatment, in particular to a food garbage recovery device.

Background

In the catering industry, customers are in continuous flow, in the flow, the residual food waste is always generated, the daily passenger flow is not fixed, in order to meet timely supply, the catering industry can select more food materials, food which is not sold every day can be treated as waste, the daily food waste in the catering industry is much, people introduce a waste recovery device to treat the food waste, but the existing equipment firstly simply filters the food waste when treating the food waste, purifies the discharged water, then crushes the particle waste, and finally discharges the waste, in the process, the crushing system of the equipment is incomplete, the complete crushing of particles cannot be realized by only using a double-shaft blade, the particle waste is not completely filtered, the finally discharged crushed materials can still have residual moisture, and the stacking time of the waste is long, the crushed materials can breed and decompose harmful microorganisms to pollute the air.

Disclosure of Invention

Aiming at the defects of the prior art, the invention is realized by the following technical scheme: a food waste recovery device structurally comprises a control box, a biochemical treatment box, a cavity opening, a feeding cover, a placing body, a treatment cavity and a side cavity opening, wherein the treatment cavity is mechanically connected with the biochemical treatment box, the placing body is arranged on the right side of the treatment cavity, the feeding cover is connected with the treatment cavity in a clamping manner, the cavity opening is formed in the upper part of the biochemical treatment box, the side cavity opening is installed on the side surface of the biochemical treatment box, and the control box is mechanically connected with the biochemical treatment box;

the processing chamber is equipped with cavity, hinge breaker, squeezer, drying chamber, desicator, extrusion chamber, the top of cavity is equipped with the hinge breaker, the centre at the cavity is established in the extrusion chamber, the squeezer passes through the loose axle and installs on the extrusion chamber, the drying chamber has been installed to the below in extrusion chamber, the desicator is connected with drying chamber machinery, drying chamber and extrusion chamber all are equipped with the slope, the inside top in drying chamber is equipped with wavy arc shielding surface.

As a further optimization of this technical scheme, the hinge breaker is equipped with the ware body, holds piece, the telescopic body, right clamp, the hinge body, smashes body, left clamp, the telescopic body has been installed to the both sides of the ware body, the telescopic body respectively with right clamp and left clamp fixed connection, it is the integral structure with right clamp to hold the piece, the ware body passes through connecting axle and hinge body swing joint, smash the body and establish between the hinge body, the upper end of the ware body is equipped with the triangle slope, the hinge body is a hinge garrulous blade and distributes round connecting axle equidistance, the garrulous blade outside limit of hinge body is established and is equipped with the barb, the telescopic body is by two mutual buckle sliding connection of traveller, it is slope cambered surface structure to hold the piece.

As a further optimization of the technical scheme, the convex blocks on the side surface of the left clamp body are in a conical shape and are connected in sequence, the convex blocks of the right clamp body are formed by mutually splicing semi-circular cones, and the size of the convex blocks spliced by the right clamp body is matched with a gap connected with the left clamp body.

As the further optimization of this technical scheme, smash the body and be equipped with on smash fragment, rotating blade, smash fragment, transition piece, spliced pole down, on smash fragment and rotating blade and pass through connecting axle swing joint, rotating blade smashes a mechanical connection with smashing down, the spliced pole is established down and smashes on the fragment, transition piece and spliced pole fixed connection, smash the fragment down and be crescent blade piece, rotating blade's blade both sides all are the arc limit, and this arc limit is equipped with sharp edge of a knife, rotating blade's center is outstanding cambered surface, has connected on this cambered surface and has smashed the piece to pieces, on smash the fragment and be two arc blades and be symmetrical connection, on smash the inboard blade radian of fragment unanimous with rotating blade's radian, the transition piece is an arc connecting strip.

As a further optimization of the technical scheme, the extruder is provided with a scraping block, a combined bar, an extruding block, a scraping block, a supporting block, a wall cavity and a handle, the scraping block and the combined bar are of an integrated structure, the extruding block and the combined bar are fixedly connected, the scraping block is arranged at the lower end of the wall cavity, the supporting block is arranged at the inner side of the extruding block, the handle is arranged on the wall cavity, the combined bar and the extruding block form a circular structure, the front end arc-shaped block of the scraping block is outwards cut, the concave edge of the arc-shaped block is outwards protruded out of the wall cavity, the rear side of the scraping block is provided with a spring bar, the spring bar is connected to the inner side of the wall cavity, a supporting column is arranged in the middle of the supporting block, and two connecting rods extend out of the two sides of the supporting block.

As the further optimization of this technical scheme, scrape the arc edge that the piece is four son one, above-mentioned sharp-pointed barb that is equipped with, the barb summit of scraping the piece is on same arc line, the both sides of combination strip are equipped with the barb on the surface, the barb height ratio of combination strip scrapes the barb on the piece and hangs down.

As the further optimization of this technical scheme, the wall chamber is equipped with chamber piece, infiltration hole, sliding closure, be equipped with the infiltration hole on the chamber piece, sliding closure and chamber piece sliding connection, the inside of chamber piece is the fretwork form, the both sides of sliding closure are equipped with square groove, and this recess is laminated with the protruding piece of chamber piece both sides, the infiltration hole equidistance distributes at the chamber piece inboardly, the surface covering one deck filter screen of infiltration hole.

As a further optimization of the technical scheme, the dryer is provided with a rolling surface, a sliding strip, a cleaning ball, an electric sheet, an electric heating wire, a drying wall and a rolling block, wherein the rolling surface is in sliding connection with the rolling block, the sliding strip is fixedly connected with the rolling surface, the cleaning ball is arranged on the sliding strip, the electric heating wire is mechanically connected with the electric sheet, the electric sheet is arranged inside the drying wall, small hemispheroid protruding blocks are arranged on the surface of the drying wall, grooves are formed in the rolling block, and a sliding groove is formed in the lower end of the rolling surface.

As a further optimization of the technical scheme, a brush body is arranged on the cambered surface of the cleaning ball, a picking block is arranged in the middle of the brush body of the cleaning ball, the picking block of the cleaning ball is connected with a semicircular arc block through a connector, ports on two sides of the arc block are of a triangular structure, a conical block is arranged in the middle of the arc block, and the diameter of the inner side of the semicircular arc edge of the cleaning ball is consistent with that of the protruding block of the drying wall.

Advantageous effects

Compared with the prior art, the food waste recovery device has the following advantages:

1. the receiving block on the clamp body is an arc-shaped strip, and waste materials which continuously fall can fall onto the receiving block when the clamp body is clamped forwards, so that the waste materials which continuously fall can fall onto the telescopic body to cause blockage and prevent the telescopic body from working normally when the clamp body is clamped forwards, and the waste materials on the single-falling receiving block can slide between the clamp bodies along the arc edge of the receiving block to be clamped and crushed.

2. The plurality of triangular structures are arranged between the supporting block and the extrusion block, the triangular structures have stability and can better support the extrusion block, so that the back of the extrusion block has supporting force during extrusion to better exert the extrusion effect of the extrusion block, the extrusion block is an arc-shaped strip, and contact surfaces are on the same arc line during rotation, thereby better realizing uniform extrusion.

3. The drying wall is provided with the convex blocks, so that the drying area is increased, and when the rolling blocks roll, the uneven surface can be attached to the uneven surface when the uneven surface rolls, and the crushed waste is dispersed, so that the crushed material attached to the uneven surface can be thinner, and the drying is faster.

Drawings

Other features, objects and advantages of the invention will become more apparent upon reading of the detailed description of non-limiting embodiments with reference to the following drawings:

FIG. 1 is a schematic view of the overall structure of a food waste recycling device of the present invention.

FIG. 2 is a schematic view of a process chamber according to the present invention.

Fig. 3 is a schematic view of the construction of the shredder of the present invention.

Fig. 4 is a schematic view of the mashing body structure of the present invention.

Fig. 5 is a schematic view of the extruder of the present invention.

Fig. 6 is a schematic diagram of the wall cavity structure of the present invention.

Fig. 7 is a schematic view of the dryer of the present invention.

In the figure: the device comprises a control box 1, a biochemical treatment box 2, a cavity opening 3, a feeding cover 4, a placing body 5, a treatment cavity 6, a side cavity opening 7, a cavity 60, a hinged crusher 61, an extruder 62, a drying cavity 63, a dryer 64, an extrusion cavity 65, a device body 61-1, a bearing block 61-2, a telescopic body 61-3, a right clamp body 61-4, a hinged crusher body 61-5, a smashing body 61-6, a left clamp body 61-7, upper smashing fragments 61-6a, a rotary blade 61-6b, lower smashing fragments 61-6c, a transition block 61-6d, a connecting column 61-6e, a scraping block 62-1, a combined bar 62-2, an extrusion block 62-3, a scraping block 62-4, a supporting block 62-5, a wall cavity 62-6, a pull handle 62-7, a cavity block 62-6a, a permeation hole 62-b, a side cavity opening 7, a cavity 60, a smashing body 61-6, a smashing body 61, A sliding cover 62-6c, a rolling surface 64-1, a sliding strip 64-2, a cleaning ball 64-3, an electric sheet 64-4, an electric heating wire 64-5, a drying wall 64-6 and a rolling block 64-7.

Detailed Description

In order to make the technical means, the original characteristics, the achieved purposes and the effects of the invention easy to understand, the following description and the accompanying drawings further illustrate the preferred embodiments of the invention.

Example one

Referring to fig. 1-5, the invention provides a food waste recycling device, which structurally comprises a control box 1, a biochemical treatment box 2, a cavity opening 3, a feeding cover 4, a placing body 5, a treatment cavity 6 and a side cavity opening 7, wherein the treatment cavity 6 is mechanically connected with the biochemical treatment box 2, the placing body 5 is arranged on the right side of the treatment cavity 6, the feeding cover 4 is connected with the treatment cavity 6 in a clamping manner, the cavity opening 3 is arranged above the biochemical treatment box 2, the side cavity opening 7 is arranged on the side surface of the biochemical treatment box 2, and the control box 1 is mechanically connected with the biochemical treatment box 2;

processing chamber 6 is equipped with cavity 60, reamer 61, squeezer 62, dry chamber 63, desicator 64, extrusion chamber 65, the top of cavity 60 is equipped with reamer 61, the centre at cavity 60 is established to extrusion chamber 65, squeezer 62 is installed on extrusion chamber 65 through the loose axle, dry chamber 63 has been installed to the below of extrusion chamber 65, desicator 64 and dry chamber 63 mechanical connection, dry chamber 63 and extrusion chamber 65 all are equipped with the slope, the inside top of dry chamber 63 is equipped with wavy arc and shelters from the face, realizes smashing completely and the drying of rubbish.

The reaming device 61 is provided with a device body 61-1, a bearing block 61-2, a telescopic body 61-3, a right clamp body 61-4, a reaming body 61-5, a smashing body 61-6 and a left clamp body 61-7, the telescopic body 61-3 is arranged on two sides of the device body 61-1, the telescopic body 61-3 is fixedly connected with the right clamp body 61-4 and the left clamp body 61-7 respectively, the bearing block 61-2 and the right clamp body 61-4 are of an integrated structure, the device body 61-1 is movably connected with the reaming body 61-5 through a connecting shaft, the smashing body 61-6 is arranged between the reaming bodies 61-5, the upper end of the device body 61-1 is provided with a triangular slope, the reaming bodies 61-5 are reaming blades distributed around the connecting shaft at equal intervals, barbs are arranged on the outer side of the reaming blades of the reaming body 61-5, the telescopic body 61-3 is in clamping sliding connection with each other through two sliding columns, and the bearing block 61-2 is of an inclined cambered surface structure, so that garbage can be crushed.

The convex blocks on the side surface of the left clamp body 61-7 are in a conical shape and are connected in sequence, the convex blocks of the right clamp body 61-4 are formed by splicing semi-circular cones, and the size of the convex blocks spliced by the right clamp body 61-4 is matched with the gap connected with the left clamp body 61-7, so that harder garbage can be crushed.

The smashing body 61-6 is provided with an upper smashing fragment 61-6a, a rotary blade 61-6b, a lower smashing fragment 61-6c, a transition block 61-6d and a connecting column 61-6e, the upper smashing fragment 61-6a is movably connected with the rotary blade 61-6b through a connecting shaft, the rotary blade 61-6b is mechanically connected with the lower smashing fragment 61-6c, the connecting column 61-6e is arranged on the lower smashing fragment 61-6c, the transition block 61-6d is fixedly connected with the connecting column 61-6e, the lower smashing fragment 61-6c is in a crescent blade shape, two sides of the rotary blade 61-6b are arc-shaped edges which are provided with sharp knife edges, the center of the rotary blade 61-6b is a protruded cambered surface, and the upper smashing fragment 61-6a is connected on the cambered surface, the upper smashing fragment 61-6a is formed by symmetrically connecting two arc-shaped blades, the radian of the blade on the inner side of the upper smashing fragment 61-6a is consistent with that of the rotating blade 61-6b, and the transition block 61-6d is an arc-shaped connecting strip for further smashing garbage.

The extruder 62 is provided with a scraping block 62-1, a combined bar 62-2, an extruding block 62-3, a scraping block 62-4, a supporting block 62-5, a wall cavity 62-6 and a handle 62-7, the scraping block 62-1 and the combined bar 62-2 are of an integrated structure, the extruding block 62-3 and the combined bar 62-2 are fixedly connected, the scraping block 62-4 is arranged at the lower end of the wall cavity 62-6, the supporting block 62-5 is arranged at the inner side of the extruding block 62-3, the handle 62-7 is arranged on the wall cavity 62-6, the combined bar 62-2 and the extruding block 62-3 form a circular structure, the front end arc-shaped block of the scraping block 62-4 is outward in concave edge, the arc edge protrudes out of the wall cavity 62-6, the rear side of the scraping block 62-4 is provided with a spring bar, the spring strip is connected to the inner side of the wall cavity 62-6, a support column is arranged in the middle of the support block 62-5, and two connecting rods extend out of two sides of the support column to extrude and dewater crushed garbage.

The combined type garbage scraping device is characterized in that the scraping block 62-1 is a first four-quadrant arc edge, a sharp barb is arranged on the first four-quadrant arc edge, the barb vertex of the scraping block 62-1 is located on the same arc line, barbs are arranged on the surfaces of two sides of the combined strip 62-2, the barb height of the combined strip 62-2 is lower than that of the scraping block 62-1, and garbage attached to the wall is scraped.

The wall cavity 62-6 is provided with a cavity block 62-6a, a penetration hole 62-b and a sliding cover 62-6c, the cavity block 62-6a is provided with the penetration hole 62-b, the sliding cover 62-6c is in sliding connection with the cavity block 62-6a, the cavity block 62-6a is hollow, two sides of the sliding cover 62-6c are provided with square grooves, the grooves are attached to the protruding blocks on two sides of the cavity block 62-6a, the penetration holes 62-b are distributed on the inner side of the cavity block 62-6a at equal intervals, the surface of the penetration hole 62-b is covered with a layer of filter screen, and a sponge body can be filled for water absorption.

Firstly, the collected food waste is placed on a placing body 5, a feeding cover 4 is opened, a power supply is started, the placing body 5 rises, the food waste is poured onto a treatment cavity 6, particle waste can fall under the matching of a control box 1 through solid-liquid separation, a telescopic body 61-3 can rapidly stretch back and forth to push a left clamp body 61-7 and a right clamp body 61-4 to clamp and hit back and forth, when a sharp block on the clamp body hits, the waste with bone hardness equal to that of bones can be smashed through the sharp block and hitting extrusion force, a bearing block 61-2 can continue to fall the falling waste, the waste smashed by the first step can fall onto a hinged body 61-5 along a bevel edge, the falling waste is hinged through the bidirectional rotation of the hinged body 61-5, the barb on the hinged body 61-5 can increase the smashing force, and the hinged body 61-5 is in an arc knife shape, when the smashing body 61-6 rotates, the upper smashing fragment 61-6a, the rotary blade 61-6b and the lower smashing fragment 61-6c rotate respectively, when the smashing body 61-6 falls, the garbage is subjected to different rotating clamping cutting forces, so that the garbage is cut and crushed, when the smashing body 61-6 rotates integrally, the upper smashing fragment 61-6a, the rotary blade 61-6b and the lower smashing fragment 61-6c with the garbage are downward facing, and because the blade structures of the blades are all arc-shaped blades, the garbage can freely slide along the arc-shaped edges, and the peripheral cutting structure can continue to rotate upward for cutting, the arc-shaped edges of the transition blocks 61-6d on the connecting columns 61-6e can prevent garbage from being clamped on gaps of the structure to form blockage, after the garbage is completely crushed, the garbage can slide onto the wall cavity 62-6 along the inclined wall on the extrusion cavity 65, before the garbage can be pulled out by the sliding cover 62-6c through the handle 62-7, the sponge layer is stuffed into the cavity block 62-6a, the cavity block is assembled, the extruder 62 is driven by the control box 1 to rotate the extruder 62, the extrusion block 62-3 can extrude the crushed garbage in a gap between the extrusion block and the wall cavity 62-6 during rotation, water in the crushed garbage is extruded through extrusion force, the extruded water can be absorbed by the sponge arranged in the extrusion hole 62-b through the permeation hole 62-b, and the filter screen on the permeation hole 62-b can prevent crushed particles from entering the wall cavity 62-6, after extrusion, barbs on the combined strip 62-2 can firstly scrape off crushed objects with higher attachment accumulation, then the scraping block 62-1 can completely scrape off the crushed objects attached to the wall, in the process of continuous rotation, when the extrusion block 62-3 passes through the scraping block 62-4, the crushed objects attached to the extrusion block 62-3 can be scraped off by the scraping block 62-4, and when the scraping block 62-1 passes through the scraping block 62-4, because the height of the scraping block 62-4 is higher, and the rear end of the scraping block 62-4 is provided with a spring, the scraping block 62-4 can be pressed backwards when contacting the scraping block 62-4, and the continuous advance of the extruder 62 can not be blocked.

Example two

The dryer 64 is provided with a rolling surface 64-1, a sliding strip 64-2, a cleaning ball 64-3, an electric sheet 64-4, an electric heating wire 64-5, a drying wall 64-6 and a rolling block 64-7, the rolling surface 64-1 is in sliding connection with the rolling block 64-7, the sliding strip 64-2 is fixedly connected with the rolling surface 64-1, the cleaning ball 64-3 is arranged on the sliding strip 64-2, the electric heating wire 64-5 is in mechanical connection with the electric sheet 64-4, the electric sheet 64-4 is arranged inside the drying wall 64-6, small hemispheroid protruding blocks are arranged on the surface of the drying wall 64-6, grooves are formed in the rolling block 64-7, and a sliding groove is formed in the lower end of the rolling surface 64-1 to achieve complete drying of the crushed materials.

The cambered surface of the cleaning ball 64-3 is provided with a brush body, the middle of the brush body of the cleaning ball 64-3 is provided with a picking block, the picking block of the cleaning ball 64-3 is connected with a semicircular arc block by a connector, the ports at the two sides of the arc block are of a triangular structure, the middle of the arc block is provided with a conical block, the diameter of the inner side of the semicircular arc edge of the cleaning ball 64-3 is consistent with that of the convex block of the drying wall 64-6, and crushed materials attached to the upper part are swept down.

The drier 64 is installed on the basis of the first embodiment, a power supply is started, the electric heating wire 64-5 starts to generate heat through the matching of the electric sheet 64-4 and the electric heating wire 64-5, so that the drying wall 64-6 emits heat, the drying wall 64-6 rotates to the lower side, when the extruded crushed garbage falls on the drying wall 64-6, the rolling block 64-7 slides back and forth along the slide way on the rolling surface 64-1, the crushed garbage is completely rolled on the drying wall 64-6 in the sliding process, the crushed garbage is attached to the drying wall 64-6 and is closer to a heat source, the drying of the crushed garbage is realized through the heat, the rolling surface 64-1 is of an arc-shaped surface structure, when the crushed garbage falls, the crushed garbage can slide along the arc-shaped surface, and a gap can be formed between the arc-shaped surface of the rolling surface 64-1 and the drying wall 64-6, crushed garbage falls onto the gap, drying is carried out in a limited space, after the crushed garbage is dried, the drying wall 64-6 is rotated to the upper part, then the cleaning ball 64-3 slides back and forth along the sliding strip 64-2, the sliding strip 64-2 is of a strip structure, and no limited space exists between the cleaning ball 64-3 and the drying wall 64-6, so that the cleaning ball 64-3 can freely slide and clean, the brush body on the cleaning ball 64-3 can clean the crushed garbage attached to the drying wall 64-6, the arc strip on the cleaning ball can rotate along the convex block on the drying wall 64-6, the sharp block on the cleaning ball can scrape the relatively stubborn crushed garbage attached to the cleaning ball 64-3, the cleaned crushed garbage is flying, and the wave shielding surfaces on the two sides of the drying cavity 63 can prevent the flying crushed garbage from falling onto the gap above on one hand, on the other hand, when the flying crushed garbage touches the shielding surface, energy is consumed, and the buffering effect is achieved.

While there have been shown and described what are at present considered the fundamental principles of the invention, the essential features and advantages thereof, it will be understood by those skilled in the art that the present invention is not limited by the embodiments described above, which are merely illustrative of the principles of the invention, but rather, is capable of numerous changes and modifications in various forms without departing from the spirit or essential characteristics thereof, and it is intended that the invention be limited not by the foregoing descriptions, but rather by the appended claims and their equivalents.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims

1. The utility model provides a food residue recovery unit which characterized in that: the structure of the device comprises a control box (1), a biochemical treatment box (2), a cavity opening (3), a feeding cover (4), a placing body (5), a treatment cavity (6) and a side cavity opening (7), wherein the treatment cavity (6) is mechanically connected with the biochemical treatment box (2), the placing body (5) is arranged on the right side of the treatment cavity (6), the feeding cover (4) is connected with the treatment cavity (6) in a clamping manner, the cavity opening (3) is arranged above the biochemical treatment box (2), the side cavity opening (7) is arranged on the side surface of the biochemical treatment box (2), and the control box (1) is mechanically connected with the biochemical treatment box (2);

processing chamber (6) are equipped with cavity (60), reamer (61), squeezer (62), drying chamber (63), desicator (64), extrusion chamber (65), the top of cavity (60) is equipped with reamer (61), the centre at cavity (60) is established in extrusion chamber (65), squeezer (62) are installed on extrusion chamber (65) through the loose axle, drying chamber (63) have been installed to the below in extrusion chamber (65), desicator (64) and drying chamber (63) mechanical connection.

2. The food waste recycling device as claimed in claim 1, wherein: the reaming device (61) is provided with a device body (61-1), a bearing block (61-2), a telescopic body (61-3), a right clamp body (61-4), a reaming body (61-5), a smashing body (61-6) and a left clamp body (61-7), telescopic bodies (61-3) are arranged on two sides of the device body (61-1), the telescopic bodies (61-3) are respectively fixedly connected with the right clamp body (61-4) and the left clamp body (61-7), the bearing block (61-2) and the right clamp body (61-4) are of an integrated structure, the device body (61-1) is movably connected with the hinge body (61-5) through a connecting shaft, the smashing bodies (61-6) are arranged between the hinging bodies (61-5), and the upper end of the device body (61-1) is provided with a triangular slope.

3. The food waste recycling device according to claim 2, characterized in that: the convex blocks on the side surface of the left clamp body (61-7) are conical and are connected in sequence, the convex blocks of the right clamp body (61-4) are formed by splicing semi-circular cones, and the size of the convex blocks spliced by the right clamp body (61-4) is matched with a gap connected with the left clamp body (61-7).

4. The food waste recycling device according to claim 2, characterized in that: the smashing body (61-6) is provided with an upper smashing fragment (61-6a), a rotary blade (61-6b), a lower smashing fragment (61-6c), a transition block (61-6d) and a connecting column (61-6e), the upper smashing fragment (61-6a) is movably connected with the rotary blade (61-6b) through a connecting shaft, the rotary blade (61-6b) is mechanically connected with the lower smashing block (61-6c), the connecting column (61-6e) is arranged on the lower smashing fragment (61-6c), the transition block (61-6d) is fixedly connected with the connecting column (61-6e), the lower smashing block (61-6c) is in a crescent shape, two sides of the rotary blade (61-6b) are arc-shaped edges, and the arc-shaped edges are provided with sharp knife edges, the center of the rotating blade (61-6b) is a protruding arc surface, and the arc surface is connected with the smashing fragments (61-6 a).

5. The food waste recycling device as claimed in claim 1, wherein: the extruder (62) is provided with a scraping block (62-1), a combined bar (62-2), an extruding block (62-3), a scraping and rubbing block (62-4), a supporting block (62-5), a wall cavity (62-6) and a handle (62-7), the scraping block (62-1) and the combined bar (62-2) are of an integrated structure, the extruding block (62-3) is fixedly connected with the combined bar (62-2), the scraping and rubbing block (62-4) is arranged at the lower end of the wall cavity (62-6), the supporting block (62-5) is arranged on the inner side of the extruding block (62-3), the handle (62-7) is arranged on the wall cavity (62-6), and the combined bar (62-2) and the extruding block (62-3) form a circular structure.

6. The food waste recycling device according to claim 5, wherein: scrape the circular arc limit that piece (62-1) is four son one, be equipped with sharp-pointed barb above, scrape the barb summit of piece (62-1) on same arc line, be equipped with the barb on the both sides surface of combination strip (62-2), the barb height ratio of combination strip (62-2) is scraped the barb on piece (62-1) and is hanged down.

7. The food waste recycling device according to claim 5, wherein: the wall cavity (62-6) is provided with a cavity block (62-6a), a penetration hole (62-b) and a sliding cover (62-6c), the cavity block (62-6a) is provided with the penetration hole (62-b), the sliding cover (62-6c) is in sliding connection with the cavity block (62-6a), the cavity block (62-6a) is hollow, square grooves are formed in two sides of the sliding cover (62-6c), and the grooves are attached to the protruding blocks on two sides of the cavity block (62-6 a).

8. The food waste recycling device as claimed in claim 1, wherein: the dryer (64) is provided with a rolling surface (64-1), a sliding strip (64-2), a cleaning ball (64-3), an electric sheet (64-4), an electric heating wire (64-5), a drying wall (64-6) and a rolling block (64-7), the rolling surface (64-1) is in sliding connection with the rolling block (64-7), the sliding strip (64-2) is fixedly connected with the rolling surface (64-1), the cleaning ball (64-3) is arranged on the sliding strip (64-2), the electric heating wire (64-5) is mechanically connected with the electric sheet (64-4), and the electric sheet (64-4) is installed inside the drying wall (64-6).

9. The food waste recycling device according to claim 8, wherein: the cambered surface of the cleaning ball (64-3) is provided with a brush body, the middle of the brush body of the cleaning ball (64-3) is provided with a picking block, the picking block of the cleaning ball (64-3) is connected with a semicircular arc block through a connector, the ports at the two sides of the arc block are of a triangular structure, and a conical block is arranged in the middle of the arc block.