CN112129042A

CN112129042A - Native garbage storehouse processing system

Info

Publication number: CN112129042A
Application number: CN202010981563.9A
Authority: CN
Inventors: 夏小栋
Original assignee: Yinchuan Zhongke Environmental Protection Power Co ltd
Current assignee: Yinchuan Zhongke Environmental Protection Power Co ltd
Priority date: 2020-09-17
Filing date: 2020-09-17
Publication date: 2020-12-25

Abstract

The invention relates to a native garbage storehouse processing system, which comprises a discharging platform, a garbage storage chamber, a draining device, an air supply device and an air purification device, wherein the discharging platform is adjacent to the garbage storage chamber, the draining device is positioned in the garbage storage chamber, one side of the garbage storage chamber is provided with a plurality of feeding doors, the discharging platform is adjacent to the feeding doors so as to facilitate the discharging of a sanitation garbage truck, the draining device is positioned below the feeding doors, garbage is poured onto the draining device by the sanitation garbage truck, an air outlet of the air supply device is positioned on the draining device so as to dry the native garbage on the draining device by blowing hot air, a gap is reserved between the lower end of the draining device and the bottom of the garbage storage chamber, the draining device is provided with a drain hole so as to discharge water which is not dried, and correspondingly, the bottom of the garbage storage chamber is provided with a drain tank so as to discharge water flowing out from the drain hole, the air inlet of the air purification device is communicated with the upper end of the garbage storage chamber so as to discharge and purify the air in the garbage storage chamber.

Description

Native garbage storehouse processing system

Technical Field

The invention relates to the technical field of garbage treatment, in particular to a primary garbage warehouse treatment system.

Background

The raw garbage is raw garbage without any treatment. The raw garbage can be used as organic fertilizer, fuel and the like after being treated. The raw refuse contains a large amount of water after being transported from the sanitation truck to the refuse collection station. The presence of such moisture accelerates putrefactive fermentation of garbage, generates harmful gas, invites flies, etc., and also causes inconvenience to the subsequent garbage classification treatment, etc.

Disclosure of Invention

In view of the above, there is a need for a raw garbage warehouse processing system that removes moisture and harmful gases from raw garbage.

A native garbage storehouse processing system comprises an unloading platform, a garbage storage chamber, a draining device, an air supply device and an air purification device, wherein the unloading platform is adjacent to the garbage storage chamber, the draining device is positioned in the garbage storage chamber, one side of the garbage storage chamber is provided with a plurality of feeding doors, the unloading platform is adjacent to the feeding doors so as to facilitate unloading of an environmental sanitation garbage truck, the draining device is positioned below the feeding doors, garbage is poured onto the draining device by the environmental sanitation garbage truck, an air outlet of the air supply device is positioned on the draining device so as to blow hot air to dry native garbage on the draining device, a gap is reserved between the lower end of the draining device and the bottom of the garbage storage chamber, a drain hole is arranged on the draining device so as to discharge water which is not dried, correspondingly, a drain groove is arranged at the bottom of the garbage storage chamber so as to discharge water flowing out from the drain hole, an air inlet of the air purification device is communicated with the upper end of the garbage storage chamber, so as to exhaust and purify the gas in the garbage storage chamber.

Preferably, the draining device comprises a draining plate, a plurality of evaporating plates and a horizontal discharging plate, the draining plate is obliquely arranged below the discharging platform, the evaporating plates are uniformly distributed on the draining plate, the number of the evaporating plates is one less than that of the feeding doors, the draining plate and the evaporating plates form a garbage containing compartment in a surrounding manner, the number of the garbage containing compartments corresponds to that of the feeding doors, the horizontal discharging plate is adjacent to the garbage containing compartment, and the drainage tank is positioned below the horizontal discharging plate; a plurality of draining holes are uniformly distributed on the draining plate, and water in the primary garbage flows out of the draining holes; the drying plate is internally provided with a cavity, the side wall of the drying plate is provided with an air outlet, and hot air generated by the air supply device is discharged from the air outlet of the drying plate.

Preferably, the draining device further comprises a lifting mechanism for adjusting the lifting of the draining plate, the lifting mechanism comprises a lifting rod, the upper end of the lifting rod is hinged with one side of the draining plate close to the garbage storage chamber so as to adjust the inclination angle of the draining plate, and one side of the draining plate far away from the garbage storage chamber is hinged with the horizontal discharging plate; a drying plate groove is also formed in the draining plate so that the drying plate can pass through the drying plate; the side of the evaporation plate close to the feeding door is arc-shaped, so that the draining plate is prevented from interfering with the evaporation plate when being lifted.

Preferably, air supply arrangement is the air heater, the bottom of the platform of unloading is equipped with the air supply house steward, and the bottom of the board of drying is equipped with air supply branch pipe, and the air intake of air supply house steward communicates with the air outlet of air heater, and the air supply house steward still is equipped with a plurality of air outlets, and the air outlet of air supply house steward communicates with the air intake of air supply branch pipe, and the upper end of air supply branch pipe is opened and is communicated with the cavity of the board of drying.

Preferably, air supply arrangement still includes air regulation mechanism, and air regulation mechanism is located the air intake department of air supply branch pipe to the regulation gets into the amount of wind of evaporating the cavity of doing the board, air regulation mechanism includes step motor, deep bead, and step motor and air supply branch pipe's upper end fixed connection, step motor's pivot and deep bead fixed connection, the deep bead is located the air supply branch pipe, and the size of deep bead and air supply branch pipe's cross-section phase-match to rotate the size of the air intake of predetermined angle regulation air supply branch pipe through step motor, thereby adjust the amount of wind.

Preferably, gaseous purifier includes drainage pipeline, negative-pressure air fan, condensation chamber, play air cylinder, filter screen, drainage pipeline's air intake and the upper end intercommunication of rubbish storage compartment, drainage pipeline's air outlet and negative-pressure air fan's air intake intercommunication, negative-pressure air fan's air outlet and condensation chamber intercommunication to with the steam condensation liquefaction in the air, the upper end and the play air cylinder of condensation chamber are connected, the middle-end of a play air cylinder is the cube form, and the middle-end level of a play air cylinder sets up a plurality of slots, the filter screen is connected with the slot block of a play air cylinder, in order to filter the air through a play air cylinder.

Preferably, gaseous purifier still includes disinfection and isolation mechanism to disinfect to gas, disinfection and isolation mechanism includes disinfectant tank, a plurality of intake pipe, a plurality of block, disinfectant tank is located the top of play urceolus, contains the antiseptic solution in the disinfectant tank, and the upper end in disinfectant tank is opened, and a plurality of intake pipes are located the bottom in disinfectant tank, and the block is established with the intake pipe cover and is connected and clearance fit, and the lower extreme of block is located the antiseptic solution, and the bottom and the play urceolus intercommunication of intake pipe, gas are followed the intake pipe and are got into disinfectant tank and are discharged.

Preferably, the feeding door is an automatic induction door, and when the sanitation garbage truck approaches, the automatic induction door is opened.

Preferably, the primary garbage warehouse treatment system further comprises a high-pressure spraying device, so that the draining device can be cleaned regularly, the high-pressure spraying device is located right above the draining device, a water spraying pipeline is arranged on the high-pressure spraying device, a plurality of high-pressure water spraying ports are arranged on the water spraying pipeline, and the high-pressure water spraying ports are opposite to the draining device.

Preferably, high pressure spray set still includes actuating mechanism to drive high pressure spray set and remove, actuating mechanism includes support track, walking wheel, driving motor, linking bridge, support track's both ends and rubbish storage compartment fixed connection are equipped with the spacing groove in the support track, and the walking wheel is located the spacing inslot, and the pivot of walking wheel is connected with driving motor's pivot chain drive, driving motor and linking bridge's upper end fixed connection, linking bridge's lower extreme and spray pipe fixed connection, and driving motor starts the back, thereby the walking wheel moves along support track and drives the spray pipe on linking bridge and the linking bridge and remove.

Has the advantages that: the invention relates to a native garbage storehouse processing system, which comprises a discharging platform, a garbage storage chamber, a draining device, an air supply device and an air purification device, wherein the discharging platform is adjacent to the garbage storage chamber, the draining device is positioned in the garbage storage chamber, one side of the garbage storage chamber is provided with a plurality of feeding doors, the discharging platform is adjacent to the feeding doors so as to facilitate the discharging of a sanitation garbage truck, the draining device is positioned below the feeding doors, garbage is poured onto the draining device by the sanitation garbage truck, an air outlet of the air supply device is positioned on the draining device so as to dry the native garbage on the draining device by blowing hot air, a gap is reserved between the lower end of the draining device and the bottom of the garbage storage chamber, the draining device is provided with a drain hole so as to discharge water which is not dried, and correspondingly, the bottom of the garbage storage chamber is provided with a drain tank so as to discharge water flowing out from the drain hole, the air inlet of the air purification device is communicated with the upper end of the garbage storage chamber so as to discharge and purify the air in the garbage storage chamber. The water in the raw garbage is removed through the matching of the draining device and the air supply device, and harmful gas generated by the raw garbage is purified through the gas purification device. And because the rubbish storage chamber is in comparatively confined state, harmful gas can be by abundant purification, also can effectively reduce the entering of fly worm.

Drawings

Fig. 1 is a schematic structural diagram of a preferred angle of the native waste repository processing system of the present invention.

Fig. 2 is a schematic structural diagram of another preferred aspect of the native waste repository processing system of the present invention.

FIG. 3 is a cross-sectional view of a preferred angle of the present invention.

FIG. 4 is a sectional view of another preferred angle of the present invention.

FIG. 5 is a schematic view of the construction of the draining board of the present invention.

Fig. 6 is a partial structural view of the gas purification apparatus of the present invention.

Fig. 7 is a partially enlarged view of fig. 6.

FIG. 8 is a schematic view of the position of the waste storage compartment and the drain of the present invention.

Fig. 9 is a schematic structural view of the high-pressure spraying device of the invention.

In the figure: the device comprises a primary garbage warehouse treatment system 10, a discharging platform 20, an air supply main pipe 201, a garbage storage chamber 30, a feeding door 301, a drainage tank 302, a draining device 40, a draining plate 401, a drying plate 402, a horizontal material placing plate 403, a lifting mechanism 404, an air quantity adjusting mechanism 50, a stepping motor 501, a wind shield 502, an air purifying device 60, a drainage pipeline 601, a negative pressure fan 602, a condensing chamber 603, an air outlet cylinder 604, a filter screen 605, a disinfection and sterilization mechanism 606, a disinfection liquid pool 6061, an air inlet pipe 6062, a cover 6063, a high-pressure spray device 70, a water spray pipeline 701, a driving mechanism 702, a support rail 7021, a traveling wheel 7022, a driving motor 7023 and a connecting support 7024.

Detailed Description

In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings needed to be used in the embodiments will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to these drawings without creative efforts.

Referring to fig. 1 to 9, a raw garbage warehouse processing system 10 includes a discharging platform 20, a garbage storage chamber 30, a draining device 40, an air supply device, and an air purification device 60, wherein the discharging platform 20 is adjacent to the garbage storage chamber 30, the draining device 40 is located in the garbage storage chamber 30, one side of the garbage storage chamber 30 is provided with a plurality of feeding doors 301, the discharging platform 20 is adjacent to the feeding doors 301 for sanitation garbage truck to discharge, the draining device 40 is located below the feeding doors 301, garbage is dumped onto the draining device 40 by the sanitation garbage truck, an air outlet of the air supply device is located on the draining device 40 for blowing hot air to dry the raw garbage on the draining device 40, a gap is left between the lower end of the draining device 40 and the bottom of the garbage storage chamber 30, the draining device 40 is provided with a drain hole for draining undried water, accordingly, a drain chute 302 is provided at the bottom of the waste storage chamber 30 to discharge water flowing out of the drain hole, and an air inlet of the gas purification apparatus 60 is communicated with the upper end of the waste storage chamber 30 to discharge and purify the gas in the waste storage chamber 30.

Further, the draining device 40 comprises a draining plate 401, a plurality of evaporating plates 402 and a horizontal discharging plate 403, wherein the draining plate 401 is obliquely arranged below the discharging platform 20, the evaporating plates 402 are uniformly distributed on the draining plate 401, the number of the evaporating plates 402 is one less than that of the feeding doors 301, the draining plate 401 and the evaporating plates 402 enclose garbage containing compartments, the number of the garbage containing compartments corresponds to that of the feeding doors 301, the horizontal discharging plate 403 is adjacent to the garbage containing compartments, and the drainage trough 302 is positioned below the horizontal discharging plate 403; a plurality of draining holes are uniformly distributed on the draining plate 401, and water in the primary garbage flows out of the draining holes; a cavity is arranged in the drying plate 402, an air outlet is arranged on the side wall of the drying plate 402, and hot air generated by the air supply device is discharged from the air outlet of the drying plate 402.

Evaporate dry board and air supply arrangement cooperation, the board is evaporated to hot-blast heating that air supply arrangement blew off can the heating to heat the waterlogging caused by excessive rainfall board through heat-conduction, thereby improve drain device's temperature, thereby be favorable to the evaporation of primary rubbish moisture. Simultaneously, the hot-air ventilates and heats native rubbish through evaporating dry plate, is favorable to the heat convection of air to be favorable to the improvement of the temperature of native rubbish more, and the cooperation wind-force, thereby help volatilizing of native rubbish moisture.

Further, the draining device 40 further comprises a lifting mechanism 404 for adjusting the lifting of the draining plate 401, the lifting mechanism 404 comprises a lifting rod, the upper end of the lifting rod is hinged to one side of the draining plate 401 close to the garbage storage chamber 30 so as to adjust the inclination angle of the draining plate 401, and one side of the draining plate 401 far away from the garbage storage chamber 30 is hinged to the horizontal discharging plate 403; a steaming-drying plate 402 groove is further formed in the draining plate 401, so that the steaming-drying plate 402 can pass through the groove; the side of the drying plate 402 close to the inlet door 301 is arc-shaped to prevent the draining plate 401 from interfering with the drying plate 402 when it is lifted.

The inclination angle of the draining plate is adjusted through the lifting mechanism, and the use of the air supply device is matched, so that the primary garbage can be turned and piled. Specifically, the wind blown by the evaporating plate passes above and below the draining plate. Due to the blocking effect of the primary garbage, the wind speeds above and below the draining plate are different, so that the pressure difference exists between the upper part and the lower part of the draining plate, and the wind force acts on the through holes in the draining plate. Because the draining plate is obliquely arranged, the wind power can turn over and pile the primary garbage under the action of gravity matched with the primary garbage, so that the rapid evaporation of the moisture of the primary garbage is facilitated. The water produced by evaporation does not carry organic matter. While the moisture falling by gravity contains organic matter. These organic materials are susceptible to the growth of bacteria and flies. Therefore, the air supply device is matched with the draining device, so that the evaporation of water is enhanced, the generation of draining liquid is reduced, the generation of bacteria and flies is reduced, the cleaning of follow-up workers to the drainage tank is reduced, and the treatment of waste water is also reduced.

Further, air supply arrangement is the air heater, the bottom of platform 20 of unloading is equipped with air supply house steward 201, and the bottom of evaporation to dryness board 402 is equipped with air supply branch pipe, and air supply house steward 201's air intake and the air outlet intercommunication of air heater, air supply house steward 201 still are equipped with a plurality of air outlets, and air supply house steward 201's air outlet and air supply branch pipe's air intake intercommunication, the upper end of air supply branch pipe is opened and is communicate with evaporation to dryness board 402's cavity.

The hot air blower is a preferred embodiment of the air supply device. When the external waste heat can be utilized, such as flue gas of a thermal power plant, the air supply device can also be a common fan.

Further, air supply arrangement still includes air regulation mechanism 50, and air regulation mechanism 50 is located the air intake department of air supply branch pipe to the amount of wind of the cavity of board 402 is evaporated in the regulation entering, air regulation mechanism 50 includes step motor 501, deep bead 502, the upper end fixed connection of step motor 501 and air supply branch pipe, step motor 501's pivot and deep bead 502 fixed connection, deep bead 502 is located the air supply branch pipe, the size of deep bead 502 and the cross-section phase-match of air supply branch pipe, with the size of rotating the air intake of predetermined angle regulation air supply branch pipe through step motor 501, thereby the regulation amount of wind.

Further, gaseous purifier 60 includes drainage pipeline 601, negative-pressure air fan 602, condensation chamber 603, play chimney 604, filter screen 605, the air intake of drainage pipeline 601 and the upper end intercommunication of rubbish storage compartment 30, the air outlet of drainage pipeline 601 and the air intake intercommunication of negative-pressure air fan 602, the air outlet and the condensation chamber 603 intercommunication of negative-pressure air fan 602 to the steam condensation liquefaction in with the air, the upper end and the play chimney 604 of condensation chamber 603 are connected, the middle-end of play chimney 604 is the cube form, and the middle-end level of play chimney 604 sets up a plurality of slots, filter screen 605 is connected with the slot block of play chimney 604, in order to filter the air through a play chimney 604.

Further, gaseous purifier 60 still includes disinfection and isolation mechanism 606 to disinfect to gas, disinfection and isolation mechanism 606 includes disinfectant tank 6061, a plurality of intake pipe 6062, a plurality of block 6063, disinfectant tank 6061 is located the top of play chimney 604, contains the antiseptic solution in disinfectant tank 6061, and disinfectant tank 6061's upper end is opened, and a plurality of intake pipes 6062 are located disinfectant tank 6061's bottom, and cap 6063 establishes with intake pipe 6062 cover and is connected and clearance fit, and cap 6063's lower extreme is located the antiseptic solution, and intake pipe 6062's bottom and play chimney 604 intercommunication, and gas gets into the disinfection tank and is discharged from intake pipe 6062.

Further, the feeding door 301 is an automatic induction door, and when the sanitation garbage truck approaches, the automatic induction door is opened. So, can effectively reduce gaseous from the feed door 301 outflow, also help reducing fly worm etc. and enter into in the rubbish locker room from the feed door 301.

After the operation time of the draining device 40 is long, clay and other substances in the raw garbage may block the air outlet, thereby affecting the normal operation of the device. Meanwhile, the dirt attached to the discharging device can cause electrochemical corrosion to the draining device 40, and flies and insects are easy to breed. Therefore, further, the primary garbage storehouse processing system further comprises a high-pressure spraying device 70, so as to clean the draining device 40 regularly, the high-pressure spraying device 70 is located right above the draining device 40, a water spraying pipeline 701 is arranged on the high-pressure spraying device 70, a plurality of high-pressure water spraying nozzles are arranged on the water spraying pipeline 701, and the high-pressure water spraying nozzles are opposite to the draining device 40.

Further, high pressure spray set 70 still includes actuating mechanism 702 to drive high pressure spray set 70 and remove, actuating mechanism 702 includes support track 7021, walking wheel 7022, driving motor 7023, linking bridge 7024, the both ends and the rubbish storage compartment 30 fixed connection of support track 7021 are equipped with the spacing groove in the support track 7021, and walking wheel 7022 is located the spacing inslot, and the pivot of walking wheel 7022 is connected with driving motor 7023's pivot chain drive, driving motor 7023 and linking bridge 7024's upper end fixed connection, linking bridge 7024's lower extreme and water spray pipe 701 fixed connection, and after driving motor 7023 started, walking wheel 7022 moved along support track 7021 thereby drives linking bridge 7024 and the water spray pipe 701 on linking bridge 7024 and move.

While the invention has been described with reference to a preferred embodiment, it will be understood by those skilled in the art that various changes in form and detail may be made therein without departing from the spirit and scope of the invention.

Claims

1. A native garbage storehouse processing system which characterized in that: the garbage drying device comprises a discharging platform, a garbage storage chamber, a draining device, an air supply device and a gas purifying device, wherein the discharging platform is adjacent to the garbage storage chamber, the draining device is positioned in the garbage storage chamber, one side of the garbage storage chamber is provided with a plurality of feeding doors, the discharging platform is adjacent to the feeding doors so as to facilitate the discharging of an environmental sanitation garbage truck, the draining device is positioned below the feeding doors, garbage is poured onto the draining device from the environmental sanitation garbage truck, an air outlet of the air supply device is positioned on the draining device so as to blow hot air to dry the primary garbage on the draining device, a gap is reserved between the lower end of the draining device and the bottom of the garbage storage chamber, a drain hole is formed in the draining device so as to facilitate the discharging of water which is not dried, correspondingly, a drain groove is formed in the bottom of the garbage storage chamber so as to discharge water flowing out of the drain hole, and an air inlet of the gas purifying device is communicated with the upper, so as to exhaust and purify the gas in the garbage storage chamber.

2. The native garbage repository processing system of claim 1, wherein: the draining device comprises a draining plate, a plurality of evaporating plates and a horizontal discharging plate, wherein the draining plate is obliquely arranged below the discharging platform, the evaporating plates are uniformly distributed on the draining plate, the number of the evaporating plates is one less than that of the feeding doors, the draining plate and the evaporating plates form a garbage containing compartment in an enclosing manner, the number of the garbage containing compartments corresponds to that of the feeding doors, the horizontal discharging plate is adjacent to the garbage containing compartment, and the drainage tank is positioned below the horizontal discharging plate; a plurality of draining holes are uniformly distributed on the draining plate, and water in the primary garbage flows out of the draining holes; the drying plate is internally provided with a cavity, the side wall of the drying plate is provided with an air outlet, and hot air generated by the air supply device is discharged from the air outlet of the drying plate.

3. The native garbage repository processing system of claim 2, wherein: the draining device further comprises a lifting mechanism for adjusting the lifting of the draining plate, the lifting mechanism comprises a lifting rod, the upper end of the lifting rod is hinged with one side of the draining plate close to the garbage storage chamber so as to adjust the inclination angle of the draining plate, and one side of the draining plate far away from the garbage storage chamber is hinged with the horizontal discharging plate; a drying plate groove is also formed in the draining plate so that the drying plate can pass through the drying plate; the side of the evaporation plate close to the feeding door is arc-shaped, so that the draining plate is prevented from interfering with the evaporation plate when being lifted.

4. The native garbage repository processing system of claim 2, wherein: the air supply device is an air heater, an air supply main pipe is arranged at the bottom of the discharging platform, air supply branch pipes are arranged at the bottom of the steam drying plate, an air inlet of the air supply main pipe is communicated with an air outlet of the air heater, the air supply main pipe is further provided with a plurality of air outlets, the air outlets of the air supply main pipe are communicated with the air inlets of the air supply branch pipes, and the upper ends of the air supply branch pipes are opened and are communicated with a cavity of the steam drying plate.

5. The native garbage repository processing system of claim 4, wherein: air supply arrangement still includes air regulation mechanism, and air regulation mechanism is located the air intake department of air supply branch pipe to adjust the amount of wind that gets into the cavity of evaporating the board, air regulation mechanism includes step motor, deep bead, and step motor and air supply branch pipe's upper end fixed connection, step motor's pivot and deep bead fixed connection, the deep bead is located air supply branch pipe, and the size of deep bead and air supply branch pipe's cross-section phase-match with the size of the air intake of rotating predetermined angle regulation air supply branch pipe through step motor, thereby adjust the amount of wind.

6. The native garbage repository processing system of claim 1, wherein: gaseous purifier includes drainage pipeline, negative-pressure air fan, condensation chamber, play air cylinder, filter screen, drainage pipeline's air intake and the upper end intercommunication of rubbish storage room, drainage pipeline's air outlet and negative-pressure air fan's air intake intercommunication, negative-pressure air fan's air outlet and condensation chamber intercommunication to with the steam condensation liquefaction in the air, the upper end and the play air cylinder of condensation chamber are connected, the middle-end that goes out the air cylinder is the cube form, and the middle-end level that goes out the air cylinder sets up a plurality of slots, the filter screen is connected with the slot block that goes out the air cylinder, in order to filter the air that will pass through the air cylinder.

7. The native garbage repository processing system of claim 6, wherein: gaseous purifier still includes disinfection and isolation mechanism to disinfect to gas, disinfection and isolation mechanism includes disinfectant tank, a plurality of intake pipe, a plurality of block, disinfectant tank is located the top of play chimney, contains the antiseptic solution in the disinfectant tank, and the upper end in disinfectant tank opens, and a plurality of intake pipes are located the bottom in disinfectant tank, and the block is established with the intake pipe cover and is connected and clearance fit, and the lower extreme of block is located the antiseptic solution, and the bottom and the play chimney intercommunication of intake pipe, gas are followed the intake pipe and are got into disinfectant tank and discharged.

8. The native garbage repository processing system of claim 1, wherein: the feeding door is an automatic induction door, and when the sanitation garbage truck is close to the feeding door, the automatic induction door is opened.

9. The native garbage repository processing system of claim 1, wherein: the primary garbage storehouse processing system further comprises a high-pressure spraying device, so that the draining device can be cleaned regularly, the high-pressure spraying device is located right above the draining device, a water spraying pipeline is arranged on the high-pressure spraying device, a plurality of high-pressure water spraying ports are arranged on the water spraying pipeline, and the high-pressure water spraying ports are opposite to the draining device.

10. The native garbage repository processing system of claim 9, wherein: high pressure spray set still includes actuating mechanism to drive high pressure spray set and remove, actuating mechanism is including supporting track, walking wheel, driving motor, linking bridge, support orbital both ends and rubbish storage compartment fixed connection, be equipped with the spacing groove in the supporting track, the walking wheel is located the spacing inslot, and the pivot of walking wheel is connected with driving motor's pivot chain drive, driving motor and linking bridge's upper end fixed connection, the lower extreme and the spray pipe fixed connection of linking bridge, driving motor start-up back, thereby the walking wheel moves along supporting the track and drives the spray pipe on linking bridge and the linking bridge and remove.