阅读说明：本技术 一种畜禽粪便为原料的有机肥料发酵设备 (Organic fertilizer fermentation equipment using livestock and poultry manure as raw material ) 是由 张彩琼 于 2021-03-13 设计创作，主要内容包括：本发明提出一种畜禽粪便为原料的有机肥料发酵设备,包括发酵桶、第一入料管道、保护盖、温湿度传感器、气压传感器、驱动装置、搅拌桨、第二入料管道、进气装置、排气装置、第一排料装置和操纵台,发酵桶上设有发酵腔和排料槽,保护盖上设有阻隔柱、第一接口和第二接口,阻隔柱上设有收纳槽、多个第一流通槽、多个导流板,收纳槽与发酵腔导通,操纵台分别与驱动装置、温湿度传感器、气压传感器、进气装置和排气装置电连接,驱动装置的转轴转动带动搅拌桨转动能够将放置在发酵腔内的有机肥料带动上升至收纳槽内并经过第一流通槽溢出至发酵腔内形成循环搅拌；本畜禽粪便为原料的有机肥料发酵设备有助于有机肥料的发酵,增强了有机肥料的发酵效率。(The invention provides organic fertilizer fermentation equipment taking livestock and poultry feces as raw materials, which comprises a fermentation barrel, a first feeding pipeline, a protective cover, a temperature and humidity sensor, an air pressure sensor, a driving device, a stirring paddle, a second feeding pipeline, an air inlet device, an exhaust device, a first discharge device and an operation platform, wherein the fermentation barrel is provided with a fermentation cavity and a discharge groove, the protective cover is provided with a blocking column, a first interface and a second interface, the blocking column is provided with a containing groove, a plurality of first circulation grooves and a plurality of guide plates, the containing groove is communicated with the fermentation cavity, the operation platform is respectively and electrically connected with the driving device, the temperature and humidity sensor, the air pressure sensor, the air inlet device and the exhaust device, the rotating shaft of the driving device drives the stirring paddle to rotate, so that the organic fertilizer placed in the fermentation cavity can be driven to rise into the containing groove and overflow into the fermentation cavity through the first circulation groove to form circular stirring; the organic fertilizer fermentation equipment using the livestock and poultry manure as the raw material is beneficial to the fermentation of the organic fertilizer, and the fermentation efficiency of the organic fertilizer is enhanced.)

1. An organic fertilizer fermentation device taking livestock and poultry feces as raw materials is characterized by comprising a fermentation barrel, a first feeding pipeline, a protective cover, a temperature and humidity sensor, an air pressure sensor, a driving device, a stirring paddle, a second feeding pipeline, an air inlet device, an exhaust device, a first discharging device and a control console, wherein a fermentation cavity and a discharging groove are arranged on the fermentation barrel, the discharging groove is communicated with the fermentation cavity, the first feeding pipeline is fixedly connected with the fermentation barrel and is communicated with the fermentation cavity, the second feeding pipeline is fixedly connected with the fermentation barrel, part of the second feeding pipeline extends into the fermentation cavity and is communicated with the fermentation cavity, the protective cover is fixedly connected with the fermentation barrel and shields the fermentation cavity, a blocking column, a first interface and a second interface are arranged on the protective cover, the blocking column is accommodated in the fermentation cavity, the first interface and the second interface are respectively communicated with the fermentation cavity, the air inlet device is fixedly connected with the protective cover and communicated with the first interface, the exhaust device is fixedly connected with the protective cover and communicated with the second interface, the barrier post is provided with a storage groove, a plurality of first flow through grooves and a plurality of guide plates, the storage groove is communicated with the fermentation chamber, the first flow through grooves are uniformly distributed around the circumferential direction of the barrier post, the first flow through grooves are respectively communicated with the storage groove and the fermentation chamber, the guide plates are uniformly distributed around the circumferential direction of the barrier post, the guide plates are respectively in one-to-one correspondence with the first flow through grooves and are close to the first flow through grooves, the drive device is fixedly connected with the protective cover, the rotating shaft part of the drive device extends into the storage groove, and the stirring paddle part is contained in the storage groove and is fixedly connected with the rotating shaft of the drive device, the stirring rake part extends to the fermentation intracavity, first row of material device with fermenter fixed connection and with row material tank switches on, temperature and humidity sensor with baroceptor respectively with visor fixed connection accept in the fermentation intracavity, the control cabinet with fermenter fixed connection, the control cabinet respectively with drive arrangement temperature and humidity sensor baroceptor the air inlet unit with the exhaust apparatus electricity is connected, works as drive arrangement's pivot rotates the drive when the stirring rake rotates, the stirring rake can place organic fertilizer in the fermentation intracavity drive rises to accomodating the inslot and spills over to the fermentation intracavity through first circulation groove and form the circulation stirring.

2. The organic fertilizer fermentation equipment taking livestock and poultry manure as raw materials according to claim 1, characterized in that the organic fertilizer fermentation equipment taking livestock and poultry manure as raw materials comprises a second discharging device, the second discharging device is fixedly connected with the fermentation barrel and is communicated with the discharging groove, and the second discharging device is close to the first discharging device.

3. The organic fertilizer fermentation equipment using livestock and poultry manure as a raw material according to claim 2, wherein the second discharge device comprises a flow limiting mechanism and a discharge pipe, the flow limiting mechanism is fixedly connected and communicated with the discharge pipe, and the flow limiting mechanism is fixedly connected and communicated with the fermentation barrel.

4. The livestock manure-based organic fertilizer fermentation equipment as claimed in claim 3, wherein said flow restriction mechanism is provided with an adjusting handle for adjusting the flow of organic fertilizer.

5. The organic fertilizer fermentation equipment taking livestock and poultry manure as raw materials according to claim 1, characterized in that the organic fertilizer fermentation equipment taking livestock and poultry manure as raw materials comprises a shielding cover, and the shielding cover is fixedly connected with the first feeding pipeline and shields the first feeding pipeline.

6. The livestock and poultry manure raw material organic fertilizer fermentation equipment as claimed in claim 1, wherein the stirring paddle comprises a helical blade and a rotating rod, the helical blade is used for driving the organic fertilizer to ascend, one end of the rotating rod is fixedly connected with the rotating shaft of the driving device, and the rotating rod penetrates through the helical blade and is fixedly connected with the helical blade.

7. The organic fertilizer fermentation apparatus using livestock and poultry manure as a raw material according to claim 1, wherein the protective cover is provided with a mounting hole, and a rotating shaft of the driving device penetrates through the mounting hole.

8. The organic fertilizer fermentation apparatus using livestock and poultry manure as a raw material according to claim 1, wherein the protective cover is provided with a first fixing groove and a second fixing groove, the temperature and humidity sensor is accommodated in the first fixing groove, the air pressure sensor is accommodated in the second fixing groove, and both the temperature and humidity sensor and the air pressure sensor face the bottom of the fermentation barrel.

9. The organic fertilizer fermentation equipment using livestock and poultry manure as a raw material according to claim 1, wherein a plurality of second flow through grooves are formed in the blocking column, are uniformly distributed around the blocking column in the circumferential direction, are far away from the first flow through grooves, and are respectively communicated with the containing grooves and the fermentation cavity.

10. The organic fertilizer fermentation equipment using livestock and poultry manure as a raw material according to claim 1, wherein a plurality of support plates are arranged on the blocking column, one support plate is arranged between two first flow through grooves, and a plurality of support plates are uniformly distributed around the blocking column in the circumferential direction.

Technical Field

The invention relates to the technical field of organic fertilizer fermentation, in particular to organic fertilizer fermentation equipment taking livestock and poultry manure as a raw material.

Background

In agricultural production, fertilizers refer to substances which provide one or more nutrient elements necessary for plants, improve soil properties and improve soil fertility level, are one of material bases of agricultural production, mainly comprise ammonium phosphate fertilizers, macroelement water-soluble fertilizers, secondary element fertilizers, biological fertilizers, organic fertilizers, multi-dimensional field energy concentrated organic fertilizers and the like, and along with the improvement of environmental awareness, the fermentation of the fertilizers is more and more important.

In the production process of the organic fertilizer, a fermentation step is the most important step, the quality of the organic fertilizer is determined by the quality of the fermentation, in the fermentation process of the organic fertilizer, bacteria are required to participate in decomposing raw materials so as to release nutrient substances, aerobic bacteria need to continuously absorb oxygen in the fermentation process, and the temperature of the organic fertilizer continuously rises, so that the organic fertilizer needs to be frequently turned over during the fermentation process of the organic fertilizer, the aerobic bacteria fully contact with air, and the organic fertilizer is cooled simultaneously so as to prevent bacterial death caused by overhigh temperature. The fermentation efficiency is low, the quality of organic fertilizer products is influenced, and the fertilizer pile cannot be pushed too high, so that the occupied area of the fertilizer pile is too large.

Therefore, an organic fertilizer fermentation device using livestock and poultry manure as a raw material is needed to fully roll the organic fertilizer, so that the organic fertilizer is fully contacted with oxygen, and the fermentation efficiency of the organic fertilizer is improved.

Disclosure of Invention

In order to solve the problems, the invention provides an organic fertilizer fermentation device using livestock and poultry manure as a raw material to fully roll the organic fertilizer, so that the organic fertilizer is fully contacted with oxygen, and the fermentation efficiency of the organic fertilizer is improved.

The invention is realized by the following technical scheme:

the invention provides organic fertilizer fermentation equipment taking livestock and poultry excrement as raw materials, which comprises a fermentation barrel, a first feeding pipeline, a protective cover, a temperature and humidity sensor, an air pressure sensor, a driving device, a stirring paddle, a second feeding pipeline, an air inlet device, an exhaust device, a first discharge device and a console, wherein a fermentation cavity and a discharge groove are arranged on the fermentation barrel, the discharge groove is communicated with the fermentation cavity, the first feeding pipeline is fixedly connected with the fermentation barrel and communicated with the fermentation cavity, the second feeding pipeline is fixedly connected with the fermentation barrel, part of the second feeding pipeline extends into the fermentation cavity and is communicated with the fermentation cavity, the protective cover is fixedly connected with the fermentation barrel and shields the fermentation cavity, a blocking column, a first interface and a second interface are arranged on the protective cover, the blocking column is accommodated in the fermentation cavity, and the first interface and the second interface are respectively communicated with the fermentation cavity, the air inlet device is fixedly connected with the protective cover and communicated with the first interface, the exhaust device is fixedly connected with the protective cover and communicated with the second interface, the barrier post is provided with a storage groove, a plurality of first flow through grooves and a plurality of guide plates, the storage groove is communicated with the fermentation chamber, the first flow through grooves are uniformly distributed around the circumferential direction of the barrier post, the first flow through grooves are respectively communicated with the storage groove and the fermentation chamber, the guide plates are uniformly distributed around the circumferential direction of the barrier post, the guide plates are respectively in one-to-one correspondence with the first flow through grooves and are close to the first flow through grooves, the drive device is fixedly connected with the protective cover, the rotating shaft part of the drive device extends into the storage groove, and the stirring paddle part is contained in the storage groove and is fixedly connected with the rotating shaft of the drive device, the stirring rake part extends to the fermentation intracavity, first row of material device with fermenter fixed connection and with row material tank switches on, temperature and humidity sensor with baroceptor respectively with visor fixed connection accept in the fermentation intracavity, the control cabinet with fermenter fixed connection, the control cabinet respectively with drive arrangement temperature and humidity sensor baroceptor the air inlet unit with the exhaust apparatus electricity is connected, works as drive arrangement's pivot rotates the drive when the stirring rake rotates, the stirring rake can place organic fertilizer in the fermentation intracavity drive rises to accomodating the inslot and spills over to the fermentation intracavity through first circulation groove and form the circulation stirring.

Further, organic fertilizer fermentation equipment that animal manure is raw materials includes second discharge device, second discharge device with fermenter fixed connection and with the row material tank switches on, second discharge device is close to first discharge device.

Furthermore, the second discharging device comprises a flow limiting mechanism and a discharging pipe, the flow limiting mechanism is fixedly connected with and communicated with the discharging pipe, and the flow limiting mechanism is fixedly connected with and communicated with the fermentation barrel.

Furthermore, the current limiting mechanism is provided with an adjusting handle for adjusting the flow of the organic fertilizer.

Further, the organic fertilizer fermentation equipment with the livestock and poultry manure as the raw material comprises a shielding cover, wherein the shielding cover is fixedly connected with the first feeding pipeline and shields the first feeding pipeline.

Further, the stirring rake is including being used for driving helical blade and the dwang that organic fertilizer rises, dwang one end with drive arrangement's pivot fixed connection, the dwang runs through helical blade and with helical blade fixed connection.

Furthermore, the protective cover is provided with a mounting hole, and a rotating shaft of the driving device penetrates through the mounting hole.

Furthermore, a first fixing groove and a second fixing groove are formed in the protective cover, the temperature and humidity sensor is contained in the first fixing groove, the air pressure sensor is contained in the second fixing groove, and the temperature and humidity sensor and the air pressure sensor face the bottom of the fermentation barrel.

Furthermore, a plurality of second circulation grooves are formed in the blocking column, the second circulation grooves are circumferentially and uniformly distributed around the blocking column, the second circulation grooves are far away from the first circulation grooves, and the second circulation grooves are respectively communicated with the containing grooves and the fermentation cavity.

Furthermore, be equipped with a plurality of backup pads on the separation post, one the backup pad sets up in two between the first circulation groove, it is a plurality of the backup pad centers on separation post circumference equipartition.

The invention has the beneficial effects that:

the invention provides organic fertilizer fermentation equipment taking livestock and poultry feces as raw materials, which comprises a fermentation barrel, a first feeding pipeline, a protective cover, a temperature and humidity sensor, an air pressure sensor, a driving device, a stirring paddle, a second feeding pipeline, an air inlet device, an exhaust device, a first discharge device and a console, wherein the fermentation barrel is provided with a fermentation cavity and a discharge groove, the discharge groove is communicated with the fermentation cavity, the first feeding pipeline is fixedly connected with the fermentation barrel and communicated with the fermentation cavity, the second feeding pipeline is fixedly connected with the fermentation barrel and partially extends into the fermentation cavity to be communicated with the fermentation cavity, the protective cover is fixedly connected with the fermentation barrel and shields the fermentation cavity, the protective cover is provided with a blocking column, a first interface and a second interface, the blocking column is accommodated in the fermentation cavity, the first interface and the second interface are respectively communicated with the fermentation cavity, the air inlet device is fixedly connected with the protective cover and communicated with the first interface, the exhaust device is fixedly connected with the protective cover and communicated with the, the separation column is provided with a containing groove, a plurality of first flow through grooves and a plurality of flow guide plates, the containing groove is communicated with the fermentation cavity, the first flow through grooves are uniformly distributed around the circumference of the separation column, the first flow through grooves are respectively communicated with the containing groove and the fermentation cavity, the flow guide plates are uniformly distributed around the circumference of the separation column, the flow guide plates are respectively in one-to-one correspondence with the first flow through grooves and are close to the first flow through grooves, the driving device is fixedly connected with the protective cover, a rotating shaft part of the driving device extends into the containing groove, a stirring paddle part is contained in the containing groove and is fixedly connected with a rotating shaft of the driving device, the stirring paddle part extends into the fermentation cavity, the first discharging device is fixedly connected with the fermentation barrel and is communicated with the discharging groove, a temperature and humidity sensor and an air pressure sensor are respectively fixedly connected with the protective cover and are contained in the fermentation cavity, the operating platform is fixedly connected, The temperature and humidity sensor, the air pressure sensor, the air inlet device and the exhaust device are electrically connected, when the rotating shaft of the driving device rotates to drive the stirring paddle to rotate, the stirring paddle can drive the organic fertilizer placed in the fermentation cavity to rise into the containing groove and overflow into the fermentation cavity through the first circulation groove to form circular stirring; after organic fertilizer raw materials are placed into the fermentation cavity through the first feeding pipeline, a proper amount of water and a fermenting agent flow into the second feeding pipeline, after a worker starts the driving device through the control console, the driving device drives the stirring paddle to rotate, the stirring paddle stirs a mixture of the organic fertilizer raw materials, the water and the fermenting agent and gradually pushes the mixture upwards into the accommodating groove, when the mixture is pushed to the first circulation groove, the mixture flows out into the fermentation cavity through the first circulation groove, the guide plate provides a guide structure for the mixture at the moment so that the mixture flows outwards in a dispersing way, the mixture can gradually approach the separation column after falling to the bottom of the fermentation cavity, and finally is sucked into the accommodating groove by the stirring paddle to form circular stirring, when the mixture is circularly stirred, the air inlet device guides external air into the fermentation cavity so that the mixture fully contacts with the air and is fully fermented, finally forming the organic fertilizer, wherein the air pressure sensor can detect the air pressure condition in the fermentation cavity, when the air generated in the fermentation process reaches a certain amount and causes the air pressure in the fermentation cavity to be overlarge, the air pressure sensor feeds back the detected data to the console, the console can send corresponding instructions to the exhaust device, the exhaust device releases the gas in the fermentation cavity, the temperature and humidity sensor can detect the temperature and humidity conditions in the fermentation cavity, when the temperature or humidity in the fermentation cavity is higher than a preset value, the temperature and humidity sensor feeds back the detected data to the console, the console can send corresponding instructions to the exhaust device and the air inlet device, the exhaust device exhausts the gas, meanwhile, the air inlet device sucks external air into the fermentation cavity to form an air flow circulation, so that the temperature and humidity conditions in the fermentation cavity are effectively adjusted; in conclusion, the organic fertilizer fermentation equipment taking the livestock and poultry manure as the raw material is beneficial to uniform mixing of the organic fertilizer raw material and the leavening agent, the effect of organic fertilizer fermentation treatment is improved, meanwhile, the organic fertilizer fermentation equipment taking the livestock and poultry manure as the raw material can also synchronously convey the leavening agent and carry out mixing and stirring, and no fermenting gold is required to be prepared and mixed before fermentation by workers, so that the procedures of fermentation operation are reduced, the working efficiency is improved, and the fermentation efficiency of the organic fertilizer is obviously enhanced.

Drawings

FIG. 1 is a sectional view of an organic fertilizer fermentation apparatus using livestock and poultry manure as a raw material according to the present invention;

FIG. 2 is an exploded view of an organic fertilizer fermentation apparatus using livestock and poultry manure as a raw material according to the present invention;

FIG. 3 is an overall schematic view of an organic fertilizer fermentation apparatus using livestock and poultry manure as a raw material according to the present invention;

FIG. 4 is another perspective view of the organic fertilizer fermentation apparatus using livestock and poultry manure as raw material according to the present invention;

FIG. 5 is a schematic view of the protective cover structure of the organic fertilizer fermentation equipment using livestock and poultry manure as raw material according to the present invention;

FIG. 6 is another perspective view of the protective cover of the organic fertilizer fermentation device using livestock and poultry manure as raw material according to the present invention;

FIG. 7 is a schematic view of a stirring paddle of an organic fertilizer fermentation device using livestock and poultry manure as a raw material.

Detailed Description

In order to more clearly and completely explain the technical scheme of the invention, the invention is further explained with reference to the attached drawings.

Referring to fig. 1-7, the present invention provides an organic fertilizer fermentation apparatus using livestock and poultry feces as raw materials, comprising a fermentation barrel 1, a first feeding pipe 2, a protective cover 3, a temperature and humidity sensor 4, an air pressure sensor 5, a driving device 6, a stirring paddle 7, a second feeding pipe 8, an air intake device 9, an exhaust device 10, a first discharge device 101 and a console 102, wherein the fermentation barrel 1 is provided with a fermentation chamber 11 and a discharge groove 12, the discharge groove 12 is communicated with the fermentation chamber 11, the first feeding pipe 2 is fixedly connected with the fermentation barrel 1 and is communicated with the fermentation chamber 11, the second feeding pipe 8 is fixedly connected with the fermentation barrel 1 and partially extends into the fermentation chamber 11 to be communicated with the fermentation chamber 11, the protective cover 3 is fixedly connected with the fermentation barrel 1 and shields the fermentation chamber 11, the protective cover 3 is provided with a blocking column 31, a first interface 32 and a second interface 33, the blocking column 31 is accommodated in the fermentation chamber 11, the first interface 32 and the second interface 33 are respectively communicated with the fermentation cavity 11, the air inlet device 9 is fixedly connected with the protective cover 3 and is communicated with the first interface 32, the air exhaust device 10 is fixedly connected with the protective cover 3 and is communicated with the second interface 33, the blocking column 31 is provided with a containing groove 311, a plurality of first flow through grooves 312 and a plurality of guide plates 313, the containing groove 311 is communicated with the fermentation cavity 11, the plurality of first flow through grooves 312 are uniformly distributed around the circumference of the blocking column 31, the first flow through grooves 312 are respectively communicated with the containing groove 311 and the fermentation cavity 11, the plurality of guide plates 313 are uniformly distributed around the circumference of the blocking column 31, the plurality of guide plates 313 are respectively in one-to-one correspondence with the plurality of first flow through grooves 312 and are close to the first flow through grooves 312, the driving device 6 is fixedly connected with the protective cover 3, the rotating shaft part of the driving device 6 extends into the containing groove 311, the stirring paddle 7 is partially contained in the containing groove 311, the stirring paddle 7 partially extends into the fermentation cavity 11, the first discharging device 101 is fixedly connected with the fermentation barrel 1 and is communicated with the discharging groove 12, the temperature and humidity sensor 4 and the air pressure sensor 5 are respectively fixedly connected with the protective cover 3 and are contained in the fermentation cavity 11, the control console 102 is fixedly connected with the fermentation barrel 1, the control console 102 is respectively electrically connected with the driving device 6, the temperature and humidity sensor 4, the air pressure sensor 5, the air inlet device 9 and the exhaust device 10, when the rotating shaft of the driving device 6 rotates to drive the stirring paddle 7 to rotate, the stirring paddle 7 can drive the organic fertilizer placed in the fermentation cavity 11 to ascend to the containing groove 311 and overflow to the fermentation cavity 11 through the first circulation groove 312 to form circulation stirring.

In the present embodiment:

the fermentation barrel 1 is used for providing a protective structure for the organic fertilizer fermented in the fermentation barrel, and simultaneously providing a stable supporting structure for the first feeding pipeline 2 and the protective cover 3;

the fermentation cavity 11 is used for providing a space for storing and fermenting the organic fertilizer;

the discharge chute 12 is used for providing a channel for the organic fertilizer which is fermented inside to flow out of the outside;

the first feeding pipeline 2 is used for providing a channel for organic fertilizer to be fermented to be placed in the fermentation cavity 11;

the protective cover 3 is used for shielding the fermentation cavity 11, so that gas generated when the organic fertilizer is fermented in the fermentation cavity 11 cannot directly flow out of the fermentation cavity;

the blocking column 31 is used for assisting the stirring paddle 7 to push the organic fertilizer to rise, and the organic fertilizer is driven by the stirring paddle 7 along with the rotation of the stirring paddle 7 and then clings to the inner wall of the accommodating groove 311 on the blocking column 31 to slide upwards;

the accommodating groove 311 is used for providing a placing space for the stirring paddle 7 and the organic fertilizer;

the first circulation groove 312 is used for providing a passage for the ascending organic fertilizer to flow out from the storage groove 311 to the fermentation chamber 11;

the guide plate 313 is used for dispersing the organic fertilizer flowing out of the first circulation groove 312 into the fermentation chamber 11, so that the organic fertilizer can more fully contact the air in the fermentation chamber 11;

the first interface 32 is used for providing a structure for connecting the air inlet device 9 with the protective cover 3;

the second port 33 is used for providing a structure for connecting the exhaust device 10 with the protective cover 3;

the temperature and humidity sensor 4 is used for detecting the temperature and humidity in the fermentation cavity 11 and feeding temperature and humidity data back to the console 102;

the air pressure sensor 5 is used for detecting the air pressure value in the fermentation cavity 11 and feeding back the air pressure value data to the console 102;

the driving device 6 is an alternating current motor and is used for driving the stirring paddle 7 to rotate;

the stirring paddle 7 is used for stirring the organic fertilizer;

the second feeding pipeline 8 is used for providing a channel for water and leavening agent to flow into the fermentation cavity 11, one end of the second feeding pipeline 8 is connected with the fermentation barrel 1, and the other end is connected with an external storage device;

the air inlet device 9 is provided with an air pump for introducing external air into the fermentation cavity 11;

the air pump is arranged on the air exhaust device 10 and is used for guiding the air in the fermentation cavity 11 out of external equipment for collecting the air;

the first discharging device 101 is used for discharging fermented organic fertilizer in the fermentation cavity 11 to an external storage device;

the console 102 is used for providing an operation position for a user to operate the organic fertilizer fermentation equipment using the livestock and poultry manure as the raw material, buttons are arranged on the surface of the console 102, a main control module, a first driving module, a second driving module, a third driving module and a data processing module are arranged in the console 102, the main control module is respectively electrically connected with the first driving module, the second driving module, the third driving module and the data processing module, the buttons are electrically connected with the main control module, the first driving module is electrically connected with the driving device 6, the first driving module can issue corresponding instructions to the driving device 6, the second driving module is electrically connected with the air inlet device, the third driving module is electrically connected with the air exhaust device, the data processing module is respectively electrically connected with the temperature and humidity sensor 4 and the air pressure sensor 5, and the data processing module can receive and process data returned by the temperature and humidity sensor 4 and the air pressure sensor 5, the data is compared with a preset value, the comparison data is fed back to the main control module, the main control module issues corresponding instructions to the air inlet device 9 or the air exhaust device 10, a user can operate the button to issue corresponding instructions to the main control module, and the main control module issues operation instructions to the first driving module, the second driving module and the third driving module respectively;

specifically, after the organic fertilizer raw material is put into the fermentation chamber 11 through the first feeding pipe 2, a proper amount of water and a proper amount of a fermentation agent flow into the second feeding pipe 8, when a worker starts the driving device 6 through the console 102, the driving device 6 drives the stirring paddle 7 to rotate, the stirring paddle 7 stirs the mixture of the organic fertilizer raw material, the water and the fermentation agent and gradually pushes the mixture upwards into the accommodating groove 311, when the mixture pushes to the first circulation groove 312, the mixture flows out into the fermentation chamber 11 through the first circulation groove 312, the guide plate 313 provides a guide structure for the mixture, so that the mixture dispersedly flows outwards, and the mixture falls to the bottom of the fermentation chamber 11 and gradually approaches the blocking column 31, and is finally sucked into the accommodating groove 311 by the stirring paddle 7 to form circular stirring, when the mixture is circularly stirred, the air inlet device 9 guides the external air into the fermentation chamber 11, the mixture is fully contacted with air and fully fermented to finally form the organic fertilizer, the air pressure sensor 5 can detect the air pressure condition in the fermentation cavity 11, when the air generated in the fermentation process reaches a certain amount and the air pressure in the fermentation cavity 11 is overlarge, the air pressure sensor 5 feeds back the detected data to the console 102, at the moment, the console 102 can send the corresponding instruction to the exhaust device 10, the exhaust device 10 releases the air in the fermentation cavity 11 to the external air collecting equipment, the temperature and humidity sensor 4 can detect the temperature and humidity conditions in the fermentation cavity 11, when the temperature or humidity in the fermentation cavity 11 is higher than a preset value, the temperature and humidity sensor 4 feeds back the detected data to the console 102, at the moment, the console 102 can send the corresponding instruction to the exhaust device 10 and the air inlet device 9, and the exhaust device 10 discharges the air, meanwhile, the air inlet device 9 sucks external air into the fermentation cavity 11 to form an air flow circulation, so that the temperature and humidity conditions in the fermentation cavity 11 are effectively adjusted;

in conclusion, the organic fertilizer fermentation equipment taking the livestock and poultry manure as the raw material is beneficial to uniform mixing of the organic fertilizer raw material and the leavening agent, the effect of organic fertilizer fermentation treatment is improved, meanwhile, the organic fertilizer fermentation equipment taking the livestock and poultry manure as the raw material can also synchronously convey the leavening agent and carry out mixing and stirring, and no fermenting gold is required to be prepared and mixed before fermentation by workers, so that the procedures of fermentation operation are reduced, the working efficiency is improved, and the fermentation efficiency of the organic fertilizer is obviously enhanced.

Further, the organic fertilizer fermentation equipment taking the livestock and poultry manure as the raw material comprises a second discharging device 103, the second discharging device 103 is fixedly connected with the fermentation barrel 1 and communicated with the discharging groove 12, and the second discharging device 103 is close to the first discharging device 101; the second discharging device 103 comprises a flow limiting mechanism 1031 and a discharging pipe 1032, the flow limiting mechanism 1031 is fixedly connected and communicated with the discharging pipe 1032, and the flow limiting mechanism 1031 is fixedly connected and communicated with the fermentation barrel 1; the flow restriction mechanism 1031 is provided with an adjustment handle 10311 for adjusting the flow rate of the organic fertilizer.

In the present embodiment:

the second discharging device 103 is used for providing a channel for a user to check the fermentation condition of the organic fertilizer at any time;

a flow limiting valve is arranged in the flow limiting mechanism 1031 and used for controlling the conduction and the closing of the discharge pipe 1032;

the adjusting handle 10311 is used for providing a structure for a user to manually operate the conduction and the closing of the current limiting mechanism 1031;

the discharge pipe 1032 serves to provide a passage for the organic fertilizer to flow out to the outside.

Further, organic fertilizer fermentation equipment that animal manure is raw materials includes sheltering from lid 104, shelters from lid 104 and first feeding pipe 2 fixed connection and shelter from first feeding pipe 2.

In the present embodiment:

the shielding cover 104 is used for shielding the first feeding pipe 2, so that the gas in the fermentation chamber 11 cannot flow out of the outside through the first feeding pipe 2 at will.

Further, the stirring paddle 7 comprises a helical blade 71 and a rotating rod 72, wherein the helical blade 71 is used for driving the organic fertilizer to ascend, one end of the rotating rod 72 is fixedly connected with the rotating shaft of the driving device 6, and the rotating rod 72 penetrates through the helical blade 71 and is fixedly connected with the helical blade 71; the protective cover 3 is provided with a mounting hole 34, and a rotating shaft of the driving device 6 penetrates through the mounting hole 34.

In the present embodiment:

the helical blade 71 is used for driving the organic fertilizer to ascend in the accommodating groove 311;

the rotating rod 72 is used for driving the helical blade 71 to rotate, and meanwhile, the rotating rod 72 also provides a rotating support for the helical blade 71;

the mounting hole 34 is used to provide a space for placing the rotating shaft of the driving device 6.

Further, a first fixing groove 35 and a second fixing groove 36 are formed in the protective cover 3, the temperature and humidity sensor 4 is contained in the first fixing groove 35, the air pressure sensor 5 is contained in the second fixing groove 36, and the temperature and humidity sensor 4 and the air pressure sensor 5 face the bottom of the fermentation barrel 1.

In the present embodiment:

the first fixing groove 35 is used for providing a placing space for the temperature and humidity sensor 4;

the second fixing groove 36 is used to provide a space for the air pressure sensor 5 to be placed.

Further, a plurality of second circulation grooves 314 are formed in the blocking column 31, the plurality of second circulation grooves 314 are uniformly distributed around the blocking column 31 in the circumferential direction, the second circulation grooves 314 are far away from the first circulation grooves 312, and the second circulation grooves 314 are respectively communicated with the accommodating grooves 311 and the fermentation cavity 11; the blocking column 31 is provided with a plurality of support plates 315, one support plate 315 is arranged between the two first circulation grooves 312, and the plurality of support plates 315 are uniformly distributed around the circumferential direction of the blocking column 31.

In the present embodiment:

the second circulation groove 314 is used for providing a passage for the organic fertilizer flowing down from the guide plate 313 to enter the accommodating groove 311;

the supporting plate 315 serves to reinforce the structural strength of the barrier post 31 and the inner surface of the protective cover 3.

Of course, the present invention may have other embodiments, and based on the embodiments, those skilled in the art can obtain other embodiments without any creative effort, and all of them are within the protection scope of the present invention.