CN216808648U - Perishable waste harmless integrated module treatment equipment - Google Patents

Abstract

The utility model relates to the technical field of perishable waste treatment equipment, in particular to perishable waste harmless integrated module treatment equipment, which comprises an equipment box body; a material storage barrel; a lifting and overturning part for lifting and overturning the storage barrel; a steam purifying part for purifying and discharging the steam generated by heating the waste; a stirring and fine crushing part arranged in the biochemical bin and used for stirring and fine crushing the waste; a free water separation part for dehydrating the stirred and finely crushed waste; a free water buffer part for buffering, filtering and discharging the separated free water; a hydraulic system for providing hydraulic power; the dewatered waste is conveyed to a spiral conveying part of the biochemical bin again, and a slurry draining and filtering part is used for carrying out secondary filtering treatment on the free water filtered by the free water caching part; a plurality of electric heating pipes are respectively arranged on the front side and the rear side of the bottom end of the biochemical bin along the axial direction; solves the problems of low efficiency, high cost, poor effect and secondary pollution when treating the easily rotten wastes.

Description

Perishable waste harmless integrated module treatment equipment

Technical Field

The utility model relates to the technical field of perishable waste treatment equipment, in particular to perishable waste harmless integration module treatment equipment.

Background

Places such as city pipe networks, residents, enterprises/public institutions, schools, restaurants, hotels, troops and the like can generate a large amount of domestic sludge; in places such as gardens/landscaping, hospital medical care, food processing, farmer market/farming industry, animal feeding plants, animal slaughter processing, animal diagnosis and treatment, animal and animal product processing places and the like, a large amount of livestock/poultry manure is easily generated, and the sludge and the manure are collectively called perishable waste.

Traditionally, the perishable waste is treated, and the problems of high energy consumption, long treatment time, high labor cost, large occupied area, multiple operation links and complex operation process generally exist. In addition, auxiliary materials are required to be added to absorb water in order to reduce the operation cost, the personnel protection is weak in the operation process, secondary pollution can be caused, the fineness of the produced product is not enough, and independent solid/block-shaped objects of 30-80 mm are still left after crushing.

SUMMERY OF THE UTILITY MODEL

The utility model aims to provide a perishable waste harmless integrated module treatment device, which is used for solving the problems of low efficiency, high cost, poor effect and secondary pollution existing in the treatment of perishable waste in the prior art.

In order to achieve the purpose, the utility model provides the following technical scheme: a perishable waste harmless integration module treatment device comprises a device box body; the storage barrel is arranged on one side in front of the equipment box body and used for storing waste; the lifting and overturning part is arranged on the front surface of the equipment box body and is used for lifting and overturning the storage barrel; the steam purifying part is arranged at the top of one side of the equipment box body, which is far away from the lifting and overturning part; the stirring fine crushing part is arranged in the inner cavity of the equipment box body and is used for stirring and finely crushing the waste; the free water separation part is arranged in the inner cavity of the equipment box body and is used for carrying out dehydration treatment on the waste which is subjected to preliminary stirring and fine crushing by the stirring fine crushing part; the free water buffer part is arranged at the bottom of the inner cavity of the equipment box body and is used for buffering, filtering and discharging the free water separated by the free water separation part; the hydraulic system is arranged at one end of the bottom of the inner cavity of the equipment box body and is used for providing hydraulic power; the spiral conveying part is arranged in the inner cavity of the equipment box body and used for conveying the waste dehydrated by the free water separation part to the station of the stirring fine crushing part again, and the slurry draining and filtering part is arranged at the rear part of the inner cavity of the equipment box body and used for performing secondary filtering treatment on the free water filtered by the free water caching part;

a biochemical bin is arranged in the inner cavity of the equipment box body at a position corresponding to the station of the stirring fine crushing part, a feeding door for opening and closing an opening at the top of the biochemical bin is arranged at a position corresponding to the lifting and overturning part on the top surface of the equipment box body, a discharging opening is arranged at the front surface of the equipment box body at a position corresponding to the discharging end of the biochemical bin, and a discharging door is arranged at the front surface of the discharging end of the biochemical bin;

the front side and the rear side of the bottom end of the biochemical bin are respectively provided with a plurality of electric heating pipes along the axial direction, and the steam purification part is used for purifying and discharging steam generated by heating waste in the biochemical bin through the electric heating pipes.

Preferably, the steam purifying part includes a purifying tank; the fan is arranged at the front end of the top surface of the purification box; the exhaust port is arranged at the rear end of the top surface of the purification box; the overflow pipe is arranged at the top of one side surface of the purification box; the deep water barrel is fixedly connected to the bottom surface of the purifying box; the submerged discharge pipe is arranged in the center of the inner cavity of the deep bucket along the vertical direction; the sewage discharge pipe is connected to the bottom end of the deep water bucket, the water filling port is arranged on the top surface of the purifying box, the top end of the submerged pipe is connected with the output end of the fan, the input end of the fan is connected with the top of the biochemical bin through an exhaust pipeline, and the inner end of the overflow pipe is communicated with the top end of the inner cavity of the purifying box.

Preferably, the inner cavity of the deep water bucket is filled with a high-density mesh filter ball.

Preferably, stirring fine crushing portion includes the edge the stirring rake axle of biochemical storehouse inner chamber and be used for the drive stirring rake axle pivoted agitator motor, the outer wall of stirring rake axle is along radial fixedly connected with cutting board, and the cutting board is provided with inclination so that the cutting board along with when the stirring rake axle rotates will the discarded object of biochemical storehouse inner chamber to the bin gate direction promotes.

Preferably, the free water separation part comprises a transverse cylindrical shell which is arranged below the biochemical bin along the horizontal direction; a spiral auger rotatably mounted at the axis position of the transverse cylindrical shell; drive spiral auger pivoted separation motor and suit in horizontal post shell one end with separation circle in the cavity between the spiral auger, horizontal post shell keep away from in the top of separation circle one end with be connected with the connection feed cylinder between the bottom in biochemical storehouse, the top of connecting the feed cylinder is provided with hydraulic gate, horizontal post shell correspond to the bottom of separation circle one end is provided with the free water export, the bottom of free water export with the input of free water buffer memory portion is connected.

Preferably, the side surfaces of the separating rings are respectively provided with a radial zigzag dewatering groove.

Preferably, a plurality of check rings for preventing material backflow are fixedly sleeved on the spiral auger along the axial direction.

Preferably, free water buffer memory portion includes the storage water tank, the position placed in the middle of storage water tank inner chamber is along transversely being provided with the filtration grid net, storage water tank top front end seted up with the water inlet of free water export bottom connection, the anterior both ends of storage water tank are provided with mud cutting pump and blending portion respectively, the rear portion of storage water tank is provided with the waterlogging caused by excessive rainfall delivery pump, the output of waterlogging caused by excessive rainfall delivery pump is connected with the delivery port, the delivery port with the input of waterlogging caused by excessive rainfall filter portion is connected, the output of mud cutting pump with the inner chamber intercommunication in biochemical storehouse, the storage water tank back is inlayed and is had perspective window.

Preferably, the waterlogging caused by excessive rainfall filter house includes the water storage box, the water storage box inner chamber is provided with the compound pocket of a plurality of microns pinholes along transverse arrangement, the lock can be dismantled to water storage box top opening part has the gland, the gland be used for with the compound pocket top edge of micron pinhole compresses tightly water storage box top opening inside edge department, correspond to on the gland the position of the compound pocket inner chamber of micron pinhole is fixed respectively and has been cup jointed the riser, and the riser top has a horizontal pipe along transverse connection, horizontal pipe one end be provided with the water inlet that the delivery port is connected, the horizontal pipe top is provided with the body of both ends shutoff in parallel, and the center at the top of this body is provided with the backward flow mouth, the backward flow mouth with the rear portion of storage water tank is connected, the bottom of water storage box is provided with the outlet.

Preferably, the input end of the spiral conveying part is vertically connected with the output end of the transverse column shell, and the output end of the spiral conveying part is connected with the center of the bottom of the biochemical bin.

Compared with the prior art, the utility model has the beneficial effects that:

1. the perishable waste harmless integration module treatment equipment realizes modularization and integration combination, not only has a more compact structure and saves space, but also is convenient for intelligent and automatic transformation, and improves the treatment efficiency of perishable waste.

2. The treatment speed of the perishable waste harmless integrated module treatment equipment provided by the utility model is greatly improved, and the energy consumption is greatly reduced.

3. The perishable waste harmless integrated module treatment equipment provided by the utility model treats exhausted gas, free water and waste for multiple times, avoids secondary pollution and has environmental protection property.

Drawings

FIG. 1 is a schematic perspective view of the present invention;

FIG. 2 is a schematic overall front view of the present invention;

FIG. 3 is a schematic top view of the present invention;

FIG. 4 is a schematic side view of the present invention;

FIG. 5 is a second side view of the present invention;

FIG. 6 is a schematic cross-sectional view A-A of FIG. 5 according to the present invention;

FIG. 7 is a schematic perspective view of a vapor-purifying part according to the present invention;

FIG. 8 is a schematic front view of the vapor purifying part according to the present invention;

FIG. 9 is a schematic top view of the vapor purifying section according to the present invention;

FIG. 10 is a schematic side view of the steam purifying part according to the present invention;

FIG. 11 is a front view schematically illustrating the structure of the free water separating part according to the present invention;

FIG. 12 is a schematic perspective view of a free water buffer according to the present invention;

FIG. 13 is a schematic diagram of a rear view of the free water buffer according to the present invention;

FIG. 14 is a schematic top view of the free water buffer according to the present invention;

FIG. 15 is a schematic front view of a slurry filter according to the present invention;

FIG. 16 is a schematic side view of a slurry filter according to the present invention;

FIG. 17 is a schematic top view of a slurry filter according to the present invention.

In the figure: 1-equipment box body; 101-a discharge opening; 102-a feed gate; 103-biochemical cabin; 104-a discharge gate; 2, a material storage barrel;

3-lifting the turnover part;

4-a steam purification part; 401-a purge bin; 402-a fan; 403-an exhaust port; 404-overflow pipe; 405-a sewage discharge pipe; 406-deep water bucket; 407-submerged comb; 408-a water filling port;

5-stirring the fine crushing part; 501-stirring motor; 502-stirring paddle shaft;

6-free water separation section; 601-transverse column shell; 602-a spiral auger; 603-a split motor; 604-free water outlet; 605-check loop; 606-a separation ring; 607-connecting the cartridge;

7-free water buffer storage part; 701-a water storage tank; 702-a water inlet; 703-a water outlet; 704-a filtering grid mesh; 705-sludge cutting pump; 706-a slurry draining and conveying pump; 707-blending section; 708-a see-through window;

8-a hydraulic system;

9-spiral conveying part;

10-a slurry draining and filtering part; 1001-water storage tank; 1002-water inlet; 1003-water outlet; 1004-reflow port; 1005-micron pinhole composite mesh bag; 1006-a gland;

11-electric heating tube.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, the present invention provides a technical solution, a perishable waste harmless integrated module processing device, including a device box 1; a storage barrel 2 arranged at one side in front of the equipment box body 1 and used for storing waste; a lifting and overturning part 3 which is arranged on the front surface of the equipment box body 1 and is used for lifting and overturning the storage barrel 2; the steam purifying part 4 is arranged at the top of one side of the equipment box body 1, which is far away from the lifting and overturning part 3; a stirring fine crushing part 5 which is arranged in the inner cavity of the equipment box body 1 and is used for stirring and finely crushing the waste; a free water separation part 6 which is arranged in the inner cavity of the equipment box body 1 and is used for dehydrating the waste which is primarily stirred and finely crushed by the stirring and fine crushing part 5; a free water buffer storage part 7 which is arranged at the bottom of the inner cavity of the equipment box body 1 and is used for buffering, filtering and discharging the free water separated by the free water separation part 6; the hydraulic system 8 is arranged at one end of the bottom of the inner cavity of the equipment box body 1 and is used for providing hydraulic power; a spiral conveying part 9 which is arranged in the inner cavity of the equipment box body 1 and is used for conveying the waste dehydrated by the free water separation part 6 to the station of the stirring fine crushing part 5 again, and a slurry draining and filtering part 10 which is arranged at the rear part of the inner cavity of the equipment box body 1 and is used for carrying out secondary filtering treatment on the free water filtered by the free water buffer part 7;

a biochemical bin 103 is arranged in the inner cavity of the equipment box body 1 at a position corresponding to the station of the stirring fine crushing part 5, a feeding door 102 for opening and closing the top opening of the biochemical bin 103 is arranged at a position corresponding to the lifting turnover part 3 on the top surface of the equipment box body 1, a discharging opening 101 is arranged at a position corresponding to the discharging end of the biochemical bin 103 on the front surface of the equipment box body 1, and a discharging door 104 is arranged at the front surface of the discharging end of the biochemical bin 103;

the front side and the rear side of the bottom end of the biochemical bin 103 are respectively provided with a plurality of electric heating pipes 11 along the axial direction, and the steam purification part 4 is used for purifying and discharging steam generated by heating waste in the biochemical bin 103 through the electric heating pipes 11.

In conclusion, the perishable waste to be treated is loaded into the storage barrel 2, and the feeding door 102 is driven to open by the hydraulic oil cylinder; the lifting and overturning part 3 lifts and overturns the storage barrel 2 filled with perishable waste, so that the waste in the storage barrel 2 is poured into the biochemical bin 103 from the opened position of the feed door 102; the electric heating pipe 11 raises the temperature in the biochemical bin 103; the stirring fine crushing part 5 fully stirs and cuts the waste in the biochemical bin 103; wherein, the generated steam enters the steam purifying part 4 for purification and then is discharged; the waste after preliminary stirring and fine crushing enters a free water separation part 6 for dehydration; the dehydrated waste is conveyed to the biochemical bin 103 again by the spiral conveying part 9; the separated free water enters a free water buffer storage part 7, the free water filtered by the filtering structure of the free water buffer storage part 7 is discharged to a slurry draining filtering part 10 for secondary filtering treatment, the free water after the secondary filtering treatment is discharged, and the viscous slurry formed by precipitation in the free water buffer storage part 7 is conveyed back to the biochemical bin 103 again; the completed dry, finely divided waste is discharged through the discharge opening when the discharge gate 104 is opened to complete the perishable waste treatment cycle.

Referring to fig. 7-10, the steam purifying part 4 includes a purifying box 401; a fan 402 installed at the front end of the top surface of the purification tank 401; an exhaust port 403 provided at the rear end of the top surface of the purge tank 401; an overflow pipe 404 provided at the top of one side surface of the purification tank 401; a deep water tank 406 fixedly connected to the bottom surface of the purification tank 401; a submerged pipe 407 arranged in the center of the inner cavity of the deep water bucket 406 along the vertical direction; connect in the sewage discharge pipe 405 of deep water bucket 406 bottom and set up in the filler 408 of purifying box 401 top surface, the top of submerged pipe 407 is connected with the output of fan 402, and the input of fan 402 is connected with the top of biochemical storehouse 103 through exhaust duct, and the inner end of overflow pipe 404 is linked together with the top of purifying box 401 inner chamber.

The inner cavity of the deep water barrel 406 is filled with high-density mesh filter balls.

Referring to fig. 3-6, the stirring and pulverizing part 5 includes a stirring shaft 502 rotatably installed in the inner cavity of the biochemical chamber 103 along the axial line of the biochemical chamber 103) and a stirring motor 501 for driving the stirring shaft 502 to rotate, the outer wall of the stirring shaft 502 is fixedly connected with a knife plate along the radial direction, and the knife plate is provided with an inclination angle so as to push the waste in the inner cavity of the biochemical chamber 103 towards the discharge door 104 when the knife plate rotates along with the stirring shaft 502.

Referring to fig. 6 and 11, the free water separation part 6 includes a horizontal column housing 601 disposed below the biochemical chamber 103 in a horizontal direction; a spiral auger 602 rotatably mounted at the axial center of the transverse cylindrical shell 601; the separation device comprises a separation motor 603 for driving a spiral auger 602 to rotate and a separation ring 606 sleeved in a cavity between one end of a transverse cylindrical shell 601 and the spiral auger 602, wherein a connection material cylinder 607 is connected between the top of one end, far away from the separation ring 606, of the transverse cylindrical shell 601 and the bottom of a biochemical bin 103, a hydraulic gate is arranged at the top of the connection material cylinder 607, a free water outlet 604 is arranged at the bottom of one end, corresponding to the separation ring 606, of the transverse cylindrical shell 601, and the bottom end of the free water outlet 604 is connected with the input end of a free water buffer storage part 7.

The side of the separating ring 606 is provided with a radial zigzag dewatering groove respectively.

A plurality of non-return rings 605 for preventing the material from flowing back are fixedly sleeved on the spiral auger 602 along the axial direction.

Referring to fig. 12-14, the free water buffer portion 7 includes a water storage tank 701, a filtering grid net 704 is transversely disposed in the middle of the inner cavity of the water storage tank 701, a water inlet 702 connected to the bottom end of the free water outlet 604 is disposed at the front end of the top surface of the water storage tank 701, a sludge cutting pump 705 and a mixing portion 707 are disposed at two ends of the front portion of the water storage tank 701 respectively, a slurry draining and conveying pump 706 is disposed at the rear portion of the water storage tank 701, an output end of the slurry draining and conveying pump 706 is connected to a water outlet 703, the water outlet 703 is connected to an input end of the slurry draining and filtering portion 10, an output end of the sludge cutting pump 705 is communicated with the inner cavity of the biochemical bin 103, and a transparent window 708 is embedded in the back surface of the water storage tank 701.

Referring to fig. 15-17, the slurry filtering unit 10 includes a water tank 1001, a plurality of micron pinhole composite mesh bags 1005 are transversely arranged in an inner cavity of the water tank 1001, a press cover 1006 is detachably fastened at an opening at a top end of the water tank 1001, the press cover 1006 is used for pressing edges of top ends of the micron pinhole composite mesh bags 1005 at an inner edge of the opening at the top end of the water tank 1001, vertical pipes are respectively fixedly sleeved at positions on the press cover 1006 corresponding to the inner cavity of the micron pinhole composite mesh bags 1005, a horizontal pipe is transversely connected to a top end of the vertical pipes, a water inlet 1002 connected to the water outlet 703 is arranged at one end of the horizontal pipe, a pipe body with two ends sealed is arranged in parallel above the horizontal pipe, a return port 1004 is arranged at a center of a top of the pipe body, the return port 1004 is connected to a rear portion of the water tank 701, and a water outlet 1003 is arranged at a bottom end of the water tank 1001.

In this embodiment, the input end of the spiral conveying part 9 is vertically connected with the output end of the horizontal cylindrical shell 601, and the output end of the spiral conveying part 9 is connected with the center of the bottom of the biochemical bin 103.

The working mechanism is as follows: after the perishable waste is pretreated, the perishable waste with the water content of more than 70 percent contained in the storage barrel 2 is directly (without solid-liquid separation) automatically put into the biochemical bin 103 through the lifting and overturning part 3; simultaneously adding a microbial fermentation agent, heating the temperature in the biochemical bin 103 to 75 +/-3 ℃ by using an electric heating pipe 11 in the first stage, continuously conveying aerobic fresh gas into the biochemical bin 103 by using an oxygenation device to create a decomposition environment, efficiently propagating and decomposing organic matters by using microbial fermentation bacteria, performing auxiliary heating, and finishing a microbial fermentation period within 3 hours at constant temperature; stirring and mixing the materials in the biochemical bin 103 by a stirring fine crushing part 5 at a low speed (3 revolutions per minute), cutting and shredding the materials to change the perishable waste contacting the knife board into micro particles, and circularly dehydrating and conveying 50 percent of the moisture in the materials and 50 percent of the free water generated in the temperature rise process to a water treatment purification system by a free water separation part 7; the electric heating pipe 11 is continuously heated to 160 +/-5 ℃, rapid high-temperature harmless treatment is completed within 2 hours of constant temperature, the water content of harmful substances such as fibers, hard blocks and the like of perishable wastes is reduced to below 30 percent within 6 hours through circular stirring, cutting and shredding, auxiliary materials are not required to be added, and mature organic fertilizer raw materials are obtained and supplied to professional organic fertilizer production plants for composting and aging. The gas generated in the high-strength biochemical bin 103 is filtered by the steam purification part 4 and then discharged; the water separated by the free water separation part 6 flows into the free water buffer part 7 and the slurry leaching and filtering part 10 for buffer storage, sedimentation, disinfection and sterilization, and is discharged after filtration, and the filtered and precipitated viscous slurry is conveyed by a sludge cutting pump 705 to return to the biochemical bin 103 for mixing treatment.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the utility model, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a perishable waste innocent treatment integrated module equipment which characterized in that includes:

an equipment box body (1);

a storage barrel (2) arranged on one side in front of the equipment box body (1) and used for storing waste;

a lifting and overturning part (3) which is arranged on the front surface of the equipment box body (1) and used for lifting and overturning the storage barrel (2);

the steam purification part (4) is arranged at the top of one side of the equipment box body (1) far away from the lifting and overturning part (3);

a stirring fine crushing part (5) which is arranged in the inner cavity of the equipment box body (1) and is used for stirring and finely crushing the waste;

a free water separation part (6) which is arranged in the inner cavity of the equipment box body (1) and is used for dehydrating the waste which is preliminarily stirred and finely crushed by the stirring fine crushing part (5);

a free water buffer storage part (7) which is arranged at the bottom of the inner cavity of the equipment box body (1) and is used for buffering, filtering and discharging the free water separated by the free water separation part (6);

the hydraulic system (8) is arranged at one end of the bottom of the inner cavity of the equipment box body (1) and is used for providing hydraulic power;

a spiral conveying part (9) which is arranged in the inner cavity of the equipment box body (1) and is used for conveying the waste dehydrated by the free water separation part (6) to the station of the stirring fine crushing part (5) again, and

a slurry draining and filtering part (10) which is arranged at the rear part of the inner cavity of the equipment box body (1) and is used for carrying out secondary filtering treatment on the free water filtered by the free water caching part (7);

a biochemical bin (103) is arranged in the inner cavity of the equipment box body (1) at a position corresponding to the station of the stirring fine crushing part (5), a feeding gate (102) for opening and closing an opening at the top of the biochemical bin (103) is arranged at a position corresponding to the lifting and turning part (3) on the top surface of the equipment box body (1), a discharging opening (101) is arranged at a position corresponding to the discharging end of the biochemical bin (103) on the front surface of the equipment box body (1), and a discharging gate (104) is arranged at the front surface of the discharging end of the biochemical bin (103);

the front side and the rear side of the bottom end of the biochemical bin (103) are respectively provided with a plurality of electric heating pipes (11) along the axial direction, and the steam purification part (4) is used for purifying and discharging steam generated by heating the waste in the biochemical bin (103) through the electric heating pipes (11).

2. A perishable waste innocent integrated module treatment device according to claim 1, wherein the steam cleaning section (4) comprises:

a purge bin (401);

a fan (402) mounted at the front end of the top surface of the purification box (401);

an exhaust port (403) provided at the rear end of the top surface of the purification box (401);

an overflow pipe (404) arranged on the top of one side surface of the purification box (401);

a deep water tank (406) fixedly connected to the bottom surface of the purification box (401);

a submerged pipe (407) which is arranged in the center of the inner cavity of the deep water bucket (406) along the vertical direction;

a sewage discharge pipe (405) connected to the bottom end of the deep water bucket (406) and

the water filling port (408) is arranged on the top surface of the purification box (401), the top end of the submerged discharge pipe (407) is connected with the output end of the fan (402), the input end of the fan (402) is connected with the top of the biochemical bin (103) through an exhaust pipeline, and the inner end of the overflow pipe (404) is communicated with the top end of the inner cavity of the purification box (401).

3. A perishable waste innocuous integrated module treatment device as claimed in claim 2, wherein: the inner cavity of the deep water bucket (406) is filled with high-density mesh filter balls.

4. A perishable waste innocent integrated module treating device according to claim 3, wherein the stirring fine fraction (5) comprises:

a stirring paddle shaft (502) which is rotatably arranged in the inner cavity of the biochemical bin (103) along the axial lead of the biochemical bin (103), and

the stirring motor (501) is used for driving the stirring paddle shaft (502) to rotate, a knife board is fixedly connected to the outer wall of the stirring paddle shaft (502) along the radial direction, and the knife board is provided with an inclination angle so that waste in the inner cavity of the biochemical bin (103) is pushed towards the direction of the discharge door (104) when the knife board rotates along with the stirring paddle shaft (502).

5. A perishable waste harmless integration module processing apparatus according to claim 4, wherein the free water separating section (6) comprises:

a transverse cylindrical shell (601) arranged below the biochemical bin (103) along the horizontal direction;

a spiral auger (602) rotatably mounted at the axis position of the transverse cylindrical shell (601);

a separation motor (603) for driving the spiral auger (602) to rotate and

the separation circle (606) of suit in between horizontal column shell (601) one end with spiral auger (602) cavity, horizontal column shell (601) keep away from in the top of separation circle (606) one end with be connected with between the bottom of biochemical storehouse (103) and connect feed cylinder (607), the top of connecting feed cylinder (607) is provided with hydraulic gate, horizontal column shell (601) correspond to the bottom of separation circle (606) one end is provided with free water outlet (604), the bottom of free water outlet (604) with the input of free water buffer memory portion (7) is connected.

6. A perishable waste harmless integration module process equipment according to claim 5, wherein: the side surfaces of the separating rings (606) are respectively provided with a radial zigzag dewatering groove.

7. A perishable waste harmless integration module process equipment according to claim 5, wherein: a plurality of non-return rings (605) for preventing material backflow are fixedly sleeved on the spiral auger (602) along the axial direction.

8. A perishable waste harmless integration module processing apparatus according to claim 5, wherein the free water buffer (7) comprises:

storage water tank (701), the position placed in the middle of storage water tank (701) inner chamber is along transversely being provided with filtration grid net (704), storage water tank (701) top front end seted up with water inlet (702) that free water export (604) bottom is connected, storage water tank (701) anterior both ends are provided with mud cutting pump (705) and blending portion (707) respectively, the rear portion of storage water tank (701) is provided with waterlogging caused by excessive rainfall delivery pump (706), the output of waterlogging caused by excessive rainfall delivery pump (706) is connected with delivery port (703), delivery port (703) with the input of waterlogging caused by excessive rainfall filter portion (10) is connected, the output of mud cutting pump (705) with the inner chamber intercommunication in biochemical storehouse (103), storage water tank (701) back is inlayed and is had window perspective (708).

9. A perishable waste innocent treatment integrated module as set forth in claim 8, wherein the slurry filter (10) comprises:

a water storage tank (1001), wherein a plurality of micron pinhole composite mesh bags (1005) are arranged in the inner cavity of the water storage tank (1001) along the transverse direction, a gland (1006) is detachably buckled at the opening at the top end of the water storage tank (1001), the gland (1006) is used for pressing the edge at the top end of the micron pinhole composite mesh bag (1005) at the inner edge of the opening at the top end of the water storage tank (1001), the positions of the gland (1006) corresponding to the inner cavity of the micron pinhole composite mesh bag (1005) are respectively fixedly sleeved with a vertical pipe, the top end of the vertical pipe is transversely connected with a horizontal pipe, one end of the horizontal pipe is provided with a water inlet (1002) connected with the water outlet (703), a pipe body with two ends blocked is arranged above the horizontal pipe in parallel, the center of the top of the pipe body is provided with a return port (1004), the return port (1004) is connected with the rear part of the water storage tank (701), and the bottom end of the water storage tank (1001) is provided with a water outlet (1003).

10. A perishable waste innocuous integrated module treatment device as defined in claim 9 wherein: the input end of the spiral conveying part (9) is vertically connected with the output end of the transverse cylindrical shell (601), and the output end of the spiral conveying part (9) is connected with the center of the bottom of the biochemical bin (103).

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