阅读说明：本技术 一种高效率有机肥料发酵设备 (High efficiency organic fertilizer fermentation equipment ) 是由 骆天娟 于 2021-10-07 设计创作，主要内容包括：本发明公开了一种高效率有机肥料发酵设备,涉及有机肥料加工技术领域,包括发酵罐和加湿组件,所述发酵罐左侧下方设置有供氧组件,且所述发酵罐左侧上方设置有所述物联网控制器,所述发酵罐外部设置有温控组件,且所述温控组件下方设置有取样组件,所述发酵罐顶部安装有伺服电机。本发明通过采用多个组件之间的相互配合设置,不仅能够快速针对发酵罐内部的温度进行调节,同时还能够供养组件对发酵罐的内部进行供氧,保证内部好氧菌体生存条件,提升其发酵效率,同时通过取样组件的设置,使其能够从罐体内部取出样品观察有机肥料的发酵情况,还能够通过加湿组件针对内部的湿度进行适当加湿,从而能够快速对有机肥料进行补水工序。(The invention discloses high-efficiency organic fertilizer fermentation equipment, which relates to the technical field of organic fertilizer processing and comprises a fermentation tank and a humidification assembly, wherein an oxygen supply assembly is arranged below the left side of the fermentation tank, an Internet of things controller is arranged above the left side of the fermentation tank, a temperature control assembly is arranged outside the fermentation tank, a sampling assembly is arranged below the temperature control assembly, and a servo motor is arranged at the top of the fermentation tank. According to the invention, through the mutually matched arrangement of the components, the temperature in the fermentation tank can be quickly adjusted, meanwhile, the oxygen supply component can supply oxygen to the interior of the fermentation tank, the survival condition of the aerobic bacteria in the fermentation tank is ensured, the fermentation efficiency of the aerobic bacteria is improved, meanwhile, through the arrangement of the sampling component, the sample can be taken out from the interior of the tank body to observe the fermentation condition of the organic fertilizer, and the humidification component can be used for properly humidifying the humidity in the fermentation tank, so that the water supplementing process of the organic fertilizer can be quickly carried out.)

1. The high-efficiency organic fertilizer fermentation equipment is characterized by comprising a fermentation tank (1) and a humidification assembly (9), wherein an oxygen supply assembly (2) is arranged below the left side of the fermentation tank (1), an internet of things controller (3) is arranged above the left side of the fermentation tank (1), a temperature control assembly (4) is arranged outside the fermentation tank (1), a sampling assembly (5) is arranged below the temperature control assembly (4), a servo motor (6) is installed at the top of the fermentation tank (1), a stirring shaft (7) is connected to the bottom of the servo motor (6), a stirring slurry (8) is installed at the bottom of the stirring shaft (7), the temperature control assembly (4) comprises a placement frame (401), a heat preservation sleeve (402), a heat conduction sheet (403), a fastening bolt (404) and a circulating pipe (405), the heat preservation sleeve (402) is arranged outside the placement frame (401), the inner wall of the placement frame (401) is connected with the heat-conducting fins (403), the outer surface of the placement frame (401) is connected with the fastening bolts (404), the circulating pipe (405) is installed inside the placement frame (401), and the humidifying assembly (9) is installed on one side of the top of the fermentation tank (1).

2. The efficient organic fertilizer fermentation equipment according to claim 1, wherein the oxygen supply assembly (2) comprises an air storage tank (201), an oxygen delivery pipe (202), a delivery pump (203), a dosing pipe (204), a stop valve (205), a release rack (206) and a spray head (207), the bottom of the air storage tank (201) is connected with the oxygen delivery pipe (202), the exterior of the oxygen delivery pipe (202) is connected with the delivery pump (203), the top of the oxygen delivery pipe (202) is connected with the dosing pipe (204), the stop valve (205) is installed on the exterior of the dosing pipe (204), the other end of the oxygen delivery pipe (202) is connected with the release rack (206), and the spray head (207) is arranged inside the release rack (206).

3. The fermentation equipment of claim 2, wherein said gas container (201) is communicated with said fermentation tank (1) through said oxygen input pipe (202), and said oxygen input pipe (202) is connected with said releasing rack (206) in a sealing manner, and said spray heads (207) are uniformly distributed with respect to the surface of said releasing rack (206) at equal intervals.

4. The efficient organic fertilizer fermentation equipment according to claim 1, wherein the sampling assembly (5) comprises a sampling seat (501), a reset spring (502), a sampling tube (503), a limiting strip (504), a limiting disc (505) and a groove (506), the reset spring (502) is installed inside the sampling seat (501), the sampling tube (503) is sleeved inside the reset spring (502), the limiting strip (504) is connected outside the sampling tube (503), the limiting disc (505) is installed inside the sampling seat (501), and the groove (506) is opened on the surface of the limiting disc (505).

5. The fermentation equipment of claim 4, wherein the sampling tube (503) is elastically connected to the sampling seat (501) through the return spring (502), the sampling tube (503) is sleeved with the sampling seat (501), and one end of the sampling tube (503) is in an inclined groove-shaped structure.

6. The efficient organic fertilizer fermentation equipment according to claim 4, wherein the sampling tube (503) is connected with the limiting disc (505) in a clamping manner through the limiting strip (504), the sampling tube (503) penetrates through the limiting disc (505), and the horizontal central axis of the sampling tube (503) coincides with the horizontal central axis of the limiting disc (505).

7. The fermentation equipment of high efficiency organic fertilizer as claimed in claim 1, wherein the setting frame (401) is fixedly connected with the fermentation tank (1) through the fastening bolts (404), the inner surface of the setting frame (401) and the outer surface of the fermentation tank (1) are attached to each other, and two sets of setting frames (401) are provided.

8. The efficient organic fertilizer fermentation equipment according to claim 1, wherein an air outlet (10) is installed on the left side of the top of the fermentation tank (1), a clamping groove (11) is formed in the inner wall of the air outlet (10), a nano molecular membrane (12) is arranged inside the clamping groove (11), and a connector (13) is installed on the top of the air outlet (10).

9. The efficient organic fertilizer fermentation equipment according to claim 1, wherein the humidifying component (9) comprises a water storage tank (901), a water delivery pipe (902), a metering box (903), a spray rack (904), an atomizing spray head (905), a return pipe (906) and a condensing pipe (907), the top of the water storage tank (901) is connected with the water delivery pipe (902), the other end of the water delivery pipe (902) is connected with the metering box (903), the bottom of the metering box (903) is connected with the spray rack (904), the atomizing spray head (905) is installed inside the spray rack (904), the return pipe (906) is connected to one side of the water storage tank (901), and the other end of the return pipe (906) is connected with the condensing pipe (906).

10. The fermentation equipment of claim 9, wherein the connector (13) is hermetically connected with the return pipe (906), and the return pipe (906) is communicated with the water storage tank (901) through the condensation pipe (907).

Technical Field

The invention relates to the technical field of organic fertilizer processing, in particular to high-efficiency organic fertilizer fermentation equipment.

Background

The organic fertilizer is also called 'farmyard manure'. Organic fertilizers are all produced by using organic substances (compounds containing carbon elements) as fertilizers. Including human excrement, manure, compost, green manure, cake manure, biogas manure, and the like. Has the characteristics of multiple varieties, wide sources, long fertilizer efficiency and the like. The organic fertilizer contains many nutrient elements in organic state, and is difficult to be directly utilized by crops, and through the action of microorganisms, various nutrient elements are slowly released, and the nutrients are continuously supplied to the crops. The application of organic fertilizer can improve soil structure, coordinate water, fertilizer, gas and heat in soil, improve soil fertility and land productivity, and fermentation is one of important parts in organic fertilizer processing.

The organic fertilizer fermentation equipment in the market has the defects that the internal temperature cannot be controlled, so that the generation of the fermentation environment is influenced, and the production quality of the fertilizer is further influenced.

Disclosure of Invention

The invention aims to provide high-efficiency organic fertilizer fermentation equipment to solve the problems in the background technology.

In order to achieve the purpose, the invention provides the following technical scheme: a high-efficiency organic fertilizer fermentation device comprises a fermentation tank and a humidifying component, wherein an oxygen supply component is arranged below the left side of the fermentation tank, the Internet of things controller is arranged above the left side of the fermentation tank, a temperature control component is arranged outside the fermentation tank, a sampling component is arranged below the temperature control component, a servo motor is arranged at the top of the fermentation tank, the bottom of the servo motor is connected with a stirring shaft, the bottom of the stirring shaft is provided with slurry turning, the temperature control assembly comprises a placement frame, a heat insulation sleeve, a heat conducting fin, a fastening bolt and a circulating pipe, the heat insulation sleeve is arranged outside the placing frame, the inner wall of the placing frame is connected with the heat conducting fins, and the outer surface of the placement frame is connected with the fastening bolt, the circulating pipe is arranged inside the placement frame, and the humidifying component is arranged on one side of the top of the fermentation tank.

Preferably, the oxygen suppliment subassembly includes gas holder, oxygen therapy pipe, conveying pump, adds buret, stop valve, release frame and shower nozzle, just the gas holder bottom is connected with the oxygen therapy pipe, oxygen therapy pipe external connection has the conveying pump, just oxygen therapy pipe top is connected with add buret, it installs to add buret outside of tubes the stop valve, the oxygen therapy pipe other end is connected with the release frame, just release frame inside is provided with the shower nozzle.

Preferably, the gas storage tank is communicated with the fermentation tank through the oxygen conveying pipe, the oxygen conveying pipe is connected with the release frame in a sealing mode, and the spray heads are uniformly distributed on the surface of the release frame at equal intervals.

Preferably, the sampling component comprises a sampling seat, a reset spring, a sampling tube, a limiting strip, a limiting disc and a groove, wherein the reset spring is arranged inside the sampling seat, the sampling tube is sleeved inside the reset spring, the sampling tube is connected with the limiting strip, the limiting disc is arranged inside the sampling seat, and the groove is formed in the surface of the limiting disc.

Preferably, the sampling tube passes through reset spring with the sample seat constitutes elastic connection, just the sampling tube with the sample seat cup joints each other, moreover sampling tube one end is slope recess column structure.

Preferably, the sampling tube passes through spacing strip with spacing dish constitutes the block and connects, just the sampling tube run through in inside the spacing dish, moreover the horizontal axis of sampling tube with the horizontal axis of spacing dish coincides mutually.

Preferably, the placing frame is fixedly connected with the fermentation tank through the fastening bolts, the inner surface of the placing frame is attached to the outer surface of the fermentation tank, and the two groups of placing frames are arranged.

Preferably, the gas outlet is installed on the left side of the top of the fermentation tank, the clamping groove is formed in the inner wall of the gas outlet, the nano molecular membrane is arranged inside the clamping groove, and the connector is installed at the top of the gas outlet.

Preferably, the humidification subassembly includes water storage tank, raceway, batch meter, sprays frame, atomizer, back flow and condenser pipe, just the water storage tank top is connected with the raceway, the raceway other end is connected with the batch meter, just the batch meter bottom is connected with spray frame, spray frame internally mounted have atomizer, water storage tank one side is connected with the back flow, just the back flow other end is connected with the condenser pipe.

Preferably, the connector with the back flow sealing connection, just the back flow passes through the condenser pipe with the water storage tank communicates each other.

The invention provides high-efficiency organic fertilizer fermentation equipment, which has the following beneficial effects: the high-efficiency organic fertilizer fermentation equipment adopts the mutually matched arrangement of the components, not only can quickly adjust the temperature in the fermentation tank, but also can supply oxygen to the interior of the fermentation tank by the oxygen supply component, so as to ensure the survival conditions of aerobic bacteria in the fermentation tank and improve the fermentation efficiency of the fermentation tank;

1. according to the invention, through the arrangement of the oxygen supply assembly, the gas storage tank in the oxygen supply assembly can be conveyed to the interior of the fermentation tank by the material conveying pump in cooperation with the oxygen conveying pipe, clean air is uniformly conveyed to the interior of the tank body through the release frame and the spray head, and a certain proportion of oxygen can be properly added by the oxygen supply assembly in cooperation with the arrangement of the measuring pipe, so that the survival conditions of aerobic bacteria in the interior are ensured, and the fermentation efficiency is improved.

2. According to the invention, through the mutual matching arrangement of the temperature control component and the Internet of things controller, the temperature and the humidity in the fermentation tank can be rapidly monitored through the Internet of things controller, and then according to the environment condition in the measured tank, the tank body is heated or cooled through the circulating pipe outside the fermentation tank, the circulating pipe is arranged outside the fermentation tank through the arrangement frame and the fastening bolt, so that the temperature control component can be rapidly installed and detached, the later maintenance and overhaul are facilitated, the temperature of the circulating pipe in the arrangement frame can be rapidly transmitted to the surface of the fermentation tank by matching with the heat conducting sheet on the inner wall of the arrangement frame, the rapid adjustment of the temperature is promoted, and the loss of the temperature can be reduced by matching with the arrangement of the heat insulation sleeve.

3. According to the invention, through the arrangement of the sampling assembly, the sampling seat in the sampling assembly is arranged on the right side of the fermentation tank, the sampling tube is clamped in the sampling seat through the reset spring and the limiting disc, the sampling tube is pushed to be arranged in the fermentation tank when in use, the internal organic fertilizer can be collected into the tank body through the inclined groove-shaped structural design of the sampling tube, then the sampling tube is rotated, so that the limiting strip outside the sampling tube is separated from the groove on the surface of the limiting disc, the sampling tube can be taken out, the fermentation condition of the internal organic fertilizer can be observed, the sampling tube can be pushed to be clamped in the sampling seat through the limiting strip when not in use, the raw materials can be prevented from leaking, meanwhile, the sampling tube can be prevented from being lost, and the functionality of the sampling tube is enriched.

4. According to the invention, the humidifying component is arranged, so that water in the water storage tank can be guided into the metering pipe through the water conveying pipe, the metering box can control the water yield entering the fermentation tank, the spraying frame and the atomizing nozzle are matched to humidify the interior of the fermentation tank, on one hand, ammonia generated by fermentation can be absorbed, and on the other hand, the dangerous situation caused by over-drying of the interior can be avoided, the heating wire is also arranged in the water storage tank, so that the water sprayed to the interior of the tank body can be heated, the temperature of the interior of the tank body can be rapidly raised, and the fermentation efficiency of the tank can be improved.

5. According to the invention, the gas outlet, the clamping groove and the nano molecular membrane are mutually matched, so that the nano molecular membrane and the gas outlet can be quickly disassembled and assembled, the nano molecular membrane is convenient to replace and treat at the later stage, the nano molecular membrane has single permeability, so that water vapor in the tank can be discharged, gas is blocked to the inside, the dispersion of internal peculiar smell can be avoided, the discharged water vapor can be guided into the water storage tank through the condensing pipe and the return pipe, and the recycling property of resources is improved.

Drawings

FIG. 1 is a schematic view of the overall structure of a high efficiency organic fertilizer fermentation apparatus according to the present invention;

FIG. 2 is a schematic view of a cross-sectional structure of a fermentation tank of the high-efficiency organic fertilizer fermentation apparatus of the present invention;

FIG. 3 is an enlarged schematic view of the section A in FIG. 1 of the high efficiency organic fertilizer fermentation apparatus of the present invention;

FIG. 4 is a schematic structural diagram of a temperature control assembly of the high-efficiency organic fertilizer fermentation equipment of the present invention;

FIG. 5 is a schematic sectional view of a sampling assembly of the high efficiency organic fertilizer fermentation apparatus of the present invention;

FIG. 6 is a schematic diagram of a side view of a sampling assembly of a high efficiency organic fertilizer fermentation apparatus according to the present invention;

FIG. 7 is a schematic view of a three-dimensional structure of a limiting plate of the high-efficiency organic fertilizer fermentation equipment of the present invention;

FIG. 8 is a schematic structural diagram of a humidifying component of a high-efficiency organic fertilizer fermentation equipment of the present invention;

FIG. 9 is a schematic view of a condenser tube structure of a high efficiency organic fertilizer fermentation apparatus according to the present invention;

FIG. 10 is a schematic view of the top view of the air outlet of the high efficiency organic fertilizer fermentation apparatus of the present invention.

In the figure: 1. a fermentation tank; 2. an oxygen supply assembly; 201. a gas storage tank; 202. an oxygen delivery tube; 203. a delivery pump; 204. adding a measuring tube; 205. a stop valve; 206. a release frame; 207. a spray head; 3. an Internet of things controller; 4. a temperature control assembly; 401. a placement frame; 402. a thermal insulation sleeve; 403. a heat conductive sheet; 404. fastening a bolt; 405. a circulation pipe; 5. a sampling assembly; 501. a sampling seat; 502. a return spring; 503. a sampling tube; 504. a limiting strip; 505. a limiting disc; 506. a trench; 6. a servo motor; 7. a stirring shaft; 8. slurry turning; 9. a humidifying assembly; 901. a water storage tank; 902. a water delivery pipe; 903. a batch tank; 904. a spray rack; 905. an atomizing spray head; 906. a return pipe; 907. a condenser tube; 10. an air outlet; 11. a card slot; 12. a nano-molecular film; 13. a connecting head.

Detailed Description

Referring to fig. 1-10, the present invention provides a technical solution: a high-efficiency organic fertilizer fermentation device comprises a fermentation tank 1 and a humidification assembly 9, an oxygen supply assembly 2 is arranged below the left side of the fermentation tank 1, an internet of things controller 3 is arranged above the left side of the fermentation tank 1, a temperature control assembly 4 is arranged outside the fermentation tank 1, a sampling assembly 5 is arranged below the temperature control assembly 4, a servo motor 6 is installed at the top of the fermentation tank 1, the bottom of the servo motor 6 is connected with a stirring shaft 7, slurry turning 8 is installed at the bottom of the stirring shaft 7, the temperature control assembly 4 comprises a placement frame 401, a heat insulation sleeve 402, a heat conduction sheet 403, a fastening bolt 404 and a circulating pipe 405, the heat insulation sleeve 402 is arranged outside the placement frame 401, the heat conduction sheet 403 is connected to the inner wall of the placement frame 401, the fastening bolt 404 is connected to the outer surface of the placement frame 401, the circulating pipe 405 is installed inside the placement frame 401, and the humidification assembly 9 is installed on one side of the top of the fermentation tank 1;

the first embodiment is as follows:

referring to fig. 1-3, the oxygen supply assembly 2 includes an air storage tank 201, an oxygen delivery pipe 202, a feed pump 203, an adding pipe 204, a stop valve 205, a release shelf 206 and a spray head 207, wherein the bottom of the air storage tank 201 is connected with the oxygen delivery pipe 202, the exterior of the oxygen delivery pipe 202 is connected with the feed pump 203, the top of the oxygen delivery pipe 202 is connected with the adding pipe 204, the exterior of the adding pipe 204 is provided with the stop valve 205, the other end of the oxygen delivery pipe 202 is connected with the release shelf 206, the interior of the release shelf 206 is provided with the spray head 207, the air storage tank 201 is communicated with the fermentation tank 1 through the oxygen delivery pipe 202, the oxygen delivery pipe 202 is hermetically connected with the release shelf 206, and the spray heads 207 are uniformly distributed at equal intervals on the surface of the release shelf 206;

the specific operation is as follows, through the arrangement of the oxygen supply assembly 2, the gas storage tank 201 in the oxygen supply assembly 2 can be conveyed to the interior of the fermentation tank 1 by the material conveying pump 203 in cooperation with the oxygen conveying pipe 202, clean air is uniformly conveyed to the interior of the tank body through the release rack and the 206 spray head 207, and a certain proportion of oxygen can be properly added by the arrangement of the adding pipe 204, so that the survival condition of the aerobic bacteria in the tank body is ensured, the fermentation efficiency of the aerobic bacteria is improved, and the gas conveying tightness can be ensured when the aerobic bacteria are not added through the arrangement of the stop valve 205;

the second embodiment is as follows:

referring to fig. 1 and 4, the placing frame 401 is fixedly connected with the fermentation tank 1 through a fastening bolt 404, the inner surface of the placing frame 401 is attached to the outer surface of the fermentation tank 1, and two groups of placing frames 401 are provided;

the operation is as follows, through the mutual cooperation arrangement between the temperature control component 4 and the internet-of-things controller 3, the internet-of-things controller 3 is composed of a temperature sensor, a humidity sensor, a main control module and a wireless transmitting module, so that the temperature and the humidity inside the fermentation tank 1 can be rapidly monitored through the internet-of-things controller 3, then according to the environment condition inside the measured tank body, the liquid inside the circulating pipe 405 outside the fermentation tank 1 is driven to flow through the main control module and the transmitting module, thereby realizing the heating or cooling work of the tank body, the realization of the heating and cooling depends on the temperature of the liquid inside the circulating pipe 405, the circulating pipe 405 is installed outside the fermentation tank 1 through the placing frame 401 and the fastening bolt 404, so that the temperature control component 4 can be rapidly installed and detached, the later maintenance is convenient, the temperature of the circulating pipe 405 inside the placing frame 401 can be rapidly transmitted to the surface of the fermentation tank 1 by matching with the heat conducting sheet 403 on the inner wall of the placing frame 401, the rapid temperature regulation efficiency is improved, and the temperature loss can be reduced by matching with the arrangement of the heat insulation sleeve 402;

the third concrete embodiment:

referring to fig. 2, 5, 6 and 7, the sampling assembly 5 includes a sampling seat 501, a return spring 502, a sampling tube 503, a limiting strip 504, a limiting disk 505 and a groove 506, the return spring 502 is installed inside the sampling seat 501, the sampling tube 503 is sleeved inside the return spring 502, the limiting strip 504 is connected outside the sampling tube 503, the limiting disk 505 is installed inside the sampling seat 501, the groove 506 is opened on the surface of the limiting disk 505, the sampling tube 503 is elastically connected with the sampling seat 501 through the return spring 502, the sampling tube 503 is sleeved with the sampling seat 501, one end of the sampling tube 503 is in an inclined groove structure, the sampling tube 503 is connected with the limiting disk 505 through the limiting strip 504 in a clamping manner, the sampling tube 503 penetrates through the limiting disk 505, and the transverse central axis of the sampling tube 503 coincides with the transverse central axis of the central axis limiting disk 505;

the concrete operation is as follows, through the arrangement of the sampling component 5, the sampling seat 501 in the sampling component 5 is installed at the right side of the fermentation tank 1, and the sampling tube 503 is clamped in the interior of the sampling seat 501 through the return spring 502 and the limiting disc 505, when in use, only the sampling tube 503 needs to be pushed to be placed in the fermentation tank 1, the organic fertilizer in the interior can be collected into the sampling tube 503 through the inclined groove-shaped structure design of the sampling tube 503, then the sampling tube 503 is rotated, so that the limiting strip 504 outside the sampling tube 503 is separated from the groove 506 on the surface of the limiting disc 505, the sampling tube 503 can be taken out, the fermentation condition of the organic fertilizer in the interior can be observed, the taking-out mode is rapid and convenient, the fermentation condition of the fertilizer can be observed without opening the whole device, and when not in use, the sampling tube 503 can be pushed to the interior of the sampling seat 501, the sampling tube 503 is clamped in the groove 506 on the surface of the limiting disc 505 through the limiting strip 504, thereby make the sampling tube 503 spacing inside the sample seat 501, thereby spill in the sample seat 501 of the inside raw materials of fermentation cylinder 1 not only can be avoided to this place spacing, can also avoid losing of sampling tube 503 simultaneously, richen its functionality.

The fourth concrete embodiment:

referring to fig. 1, 8, 9 and 10, an air outlet 10 is installed on the left side of the top of the fermentation tank 1, a clamping groove 11 is formed on the inner wall of the air outlet 10, a nano-molecular membrane 12 is arranged in the clamping groove 11, and a connector 13 is installed on the top of the air outlet 10

The humidifying component 9 comprises a water storage tank 901, a water pipe 902, a metering box 903, a spray rack 904, an atomizing nozzle 905, a return pipe 906 and a condenser 907, the top of the water storage tank 901 is connected with the water pipe 902, the other end of the water pipe 902 is connected with the metering box 903, the bottom of the metering box 903 is connected with the spray rack 904, the atomizing nozzle 905 is installed inside the spray rack 904, one side of the water storage tank 901 is connected with the return pipe 906, the other end of the return pipe 906 is connected with the condenser 907, a connector 13 is connected with the return pipe 906 in a sealing manner, and the return pipe 906 is communicated with the water storage tank 901 through the condenser 907;

the operation is as follows, through the arrangement of the humidifying component 9, the water in the water storage tank 901 can be guided into the metering box 903 through the water conveying pipe 902, the metering box 903 is internally composed of a flow meter and a valve, the water conveying quantity from the water storage tank 901 to the fermentation tank 1 can be controlled through the metering box 903, the water is further conveyed into the spray rack 904 through the metering box 903, the spray rack 904 and the atomizing nozzle 905 can be matched for carrying out all-dimensional humidifying treatment on the interior of the fermentation tank 1, on one hand, ammonia generated by fermentation can be absorbed, on the other hand, the danger caused by over-drying of the interior can be avoided, the heating wire is further arranged in the water storage tank 901, the water sprayed to the interior of the tank body can be heated, the temperature of the interior of the tank body can be rapidly raised, the fermentation efficiency of the tank body can be improved, and meanwhile, through the mutual matching arrangement of the air outlet 10, the clamping groove 11 and the nano molecular film 12, make and to carry out dismouting fast between nanometer molecular film 12 and the gas outlet 10, make things convenient for the later stage to the change of nanometer molecular film 12 to handle, this nanometer molecular film 12 has single permeability, make the vapor in the jar can be discharged, and gas is obstructed to inside, thereby can avoid the effluence of inside peculiar smell, make condenser pipe 907 among the humidification subassembly 9 can be connected with gas outlet 10 through connector 13, make gas outlet 10 exhaust vapor can be leading-in to the aqua storage tank 901 through condenser pipe 907 and back flow 906, promote the recycle nature of resource.

In conclusion, when the high-efficiency organic fertilizer fermentation equipment is used, raw materials are firstly placed in the fermentation tank 1, then the temperature control component 4 and the internet-of-things controller 3 are matched with each other, the internet-of-things controller 3 is composed of a temperature sensor, a humidity sensor, a main control module and a wireless transmitting module, so that the temperature and the humidity inside the fermentation tank 1 can be rapidly monitored through the internet-of-things controller 3, then according to the environment condition inside the measured tank body, liquid inside a circulating pipe 405 outside the fermentation tank 1 is driven to flow through the main control module and the transmitting module, the tank body is heated or cooled, the heating and cooling are realized depending on the temperature of the liquid inside the circulating pipe 405, the circulating pipe 405 is installed outside the fermentation tank 1 through the placement frame 401 and the fastening bolts 404, so that the temperature control component 4 can be rapidly installed and detached, the subsequent maintenance and overhaul are facilitated, the temperature of the internal circulation pipe 405 of the placing frame 401 can be quickly transmitted to the surface of the fermentation tank 1 by matching with the heat conducting fins 403 on the inner wall of the placing frame 401, the quick temperature regulation efficiency is improved, the loss of the temperature can be reduced by matching with the arrangement of the heat insulating sleeve 402, the servo motor 6 is turned on at that time to drive the stirring shaft 7 and the stirring slurry 8 to synchronously rotate, so that the internal raw materials are stirred, the fermentation is uniform, the gas storage tank 201 in the oxygen supply assembly 2 can be conveyed to the interior of the fermentation tank 1 by matching with the oxygen conveying pipe 202 through the material conveying pump 203 and the spray head 207 of the release frame 206, the clean air is uniformly conveyed to the interior of the tank body by matching with the arrangement of the adding pipe 204, a certain proportion of oxygen can be properly added, the aerobic survival condition in the interior is ensured, the fermentation efficiency is improved, and the arrangement of the stop valve 205 is adopted, make it can guarantee the leakproofness that gas transport when not adding, then through the setting of humidification subassembly 9, make it can lead to the batch meter 903 through raceway 902 with the inside water of water storage tank 901 in, this batch meter 903 is inside to comprise flowmeter and valve, make it can be through this batch meter 903 control from the leading-in water delivery volume to the inside fermentation cylinder 1 of water storage tank 901, further carry water to spray rack 904 through batch meter 903, cooperate spray rack 904 and atomizer 905 to carry out all-round humidification treatment to the inside fermentation cylinder 1, on the one hand can absorb the ammonia that the fermentation produced, on the other hand can avoid inside too dry emergence dangerous condition, this water storage tank 901 is inside still to be provided with the heater strip, can heat the water that sprays to the internal portion of jar, make it can heat up to the internal portion of jar fast, promote its fermentation efficiency, simultaneously through gas outlet 10, The mutually matched arrangement between the clamping groove 11 and the nano molecular film 12 ensures that the nano molecular film 12 and the gas outlet 10 can be quickly disassembled and assembled, thereby facilitating the replacement treatment of the nano molecular film 12 in the later period, the nano molecular film 12 has single permeability, the water vapor in the tank can be discharged, the gas is blocked to the inside, thereby avoiding the dispersion of the internal peculiar smell, the condenser pipe 907 in the humidifying component 9 can be connected with the gas outlet 10 through the connector 13, the water vapor discharged from the gas outlet 10 can be led into the water storage tank 901 through the condenser pipe 907 and the return pipe 906, the recycling property of resources is improved, finally the sampling pipe 503 is pushed to be arranged in the fermentation tank 1, the internal organic fertilizer can be collected into the sampling pipe 503 through the inclined groove-shaped structural design of the sampling pipe 503, then the sampling pipe 503 is rotated, so that the limiting strip 504 outside the sampling pipe 503 is separated from the groove 506 on the surface of the limiting disc 505, thereby can take out the sampling tube 503, survey the fermentation condition of its inside organic fertilizer, it is convenient fast to should take out the mode, need not open the fermentation condition that can survey fertilizer with whole device, and can promote the sampling tube 503 to the inside of sample seat 501 through spacing strip 504 with in the slot 506 on the spacing dish 505 surface of sampling tube 503 block when not, thereby make the sampling tube 503 spacing inside sample seat 501, thereby spill in the sample seat 501 in the inside raw materials of fermentation cylinder 1 can not only be avoided to spacing here, can also avoid the loss of sampling tube 503 simultaneously, enrich its functionality.