CN216890973U - Organic matter intelligence aerobic fermentation jar - Google Patents

Abstract

The utility model discloses an organic matter intelligent aerobic fermentation tank which comprises a supporting base plate, a fermentation tank, a stirring placing cavity, a stirring device, a crawling ladder support, an anti-falling railing, a baffle, a heat exchange storage device, an automatic feeding device, a feeding box, a feeding support, a baffle plate, a canopy support, a discharging port and a discharging device, wherein the stirring device comprises a stirring motor, a driving wheel, a driven wheel, a stirring shaft, a stirring roller and a rotating piece. The utility model belongs to the technical field of fermentation devices, in particular to an organic matter intelligent aerobic fermentation tank which effectively overcomes the defect that manual feeding is needed when animal excrement is fermented in the current market, realizes the technical effect of automatic feeding, reduces the temperature and collects methane by using a heat exchange technology, avoids the risk of bursting, simultaneously reduces the waste of resources, enables the excrement fermentation to be more thorough by using a stirring device, and is a very practical organic matter intelligent aerobic fermentation tank.

Description

Organic matter intelligence aerobic fermentation jar

Technical Field

The utility model belongs to the technical field of fermentation devices, and particularly relates to an organic matter intelligent aerobic fermentation tank.

Background

The present market has various modes of animal waste regenerated feed fermentation machine, the basic principle is that the biotechnology is combined with the fermentation technology treatment technology, the animal waste is effectively treated according to the characteristics of biology, the animal waste and the microorganisms in the added materials are comprehensively utilized, the materials are fully fermented by stirring, the materials are completely decomposed, and meanwhile, pathogenic bacteria, viruses, ova, parasites and other harmful elements in the animal waste are killed by heating, so that the organic matters are converted into the feed. Temperature has great influence to the fermentation at the in-process of fermentation, but rarely has the fermentation cylinder heating device in the market, and in the in-process of fermentation, the marsh gas in the fermentation cylinder gathers more, and the pressure of fermentation cylinder bears the limit, and well-sealed fermentation cylinder bursts when exceeding its bearing pressure very easily, and the danger is high, and the user can be discharged the fermentation cylinder with the marsh gas therein through discharge valve usually, or through pipe intercommunication gas device burning, but rarely has marsh gas collection device, and traditional fermentation cylinder adopts the mode of manual feed usually, can not realize automaticly.

SUMMERY OF THE UTILITY MODEL

In order to overcome the defects of the prior art, the utility model provides the organic matter intelligent aerobic fermentation tank, which effectively overcomes the defect that manual feeding is needed when animal excrement is fermented in the current market, realizes the technical effect of automatic feeding, reduces the temperature of methane by using a heat exchange technology and collects the methane, avoids the risk of explosion, reduces the waste of resources, ensures that the excrement is fermented more thoroughly by using a stirring device, and is a very practical organic matter intelligent aerobic fermentation tank.

The technical scheme adopted by the utility model is as follows: the utility model relates to an organic matter intelligent aerobic fermentation tank, which comprises a supporting base plate, a fermentation tank, a stirring and placing cavity, a stirring device, a ladder stand bracket, an anti-falling railing, a baffle plate, a heat exchange storage device, an automatic feeding device, a feeding box, a feeding bracket, a baffle plate, a canopy bracket, a discharge hole and a discharge device, wherein the stirring and placing cavity is arranged on the supporting base plate, the fermentation tank is arranged on the stirring and placing cavity, one end of the stirring device is arranged in the stirring and placing cavity, the other end of the stirring device is arranged in the fermentation tank, the ladder stand is arranged on the supporting base plate, the ladder stand is arranged on the ladder stand bracket, one end of the anti-falling railing is arranged on the ladder stand, the other end of the anti-falling railing is arranged on the fermentation tank, the baffle plate is arranged on the fermentation tank, one end of the heat exchange storage device is arranged on the fermentation tank, the other end of the heat exchange storage device is arranged on the supporting base plate, the rainshed support is arranged on the fermentation tank, the rainshed is arranged on the rainshed support, the feeding support is arranged on the fermentation tank, the feeding box is arranged on the feeding support, the automatic feeding device is arranged on the supporting bottom plate, the discharge port is arranged on the side wall of the stirring and placing cavity, one end of the discharging device penetrates through the discharge port and is arranged in the stirring and placing cavity, the other end of the discharging device is arranged on the supporting bottom plate, the stirring device comprises a stirring motor, a driving wheel, a driven wheel, a stirring shaft, a stirring roller and a rotating piece, the stirring motor is arranged on the bottom wall inside the stirring and placing cavity, the driving wheel is arranged on an output shaft of the stirring motor and is arranged in the stirring and placing cavity, the driven wheel is meshed with the driving wheel, the rotating piece is arranged on the bottom wall inside the stirring and placing cavity, one end of the stirring shaft is arranged on the rotating piece, the other end of the stirring shaft penetrates through the bottom of the fermentation tank and is arranged in the fermentation tank, the stirring roller is arranged on the stirring shaft and is arranged in the fermentation tank, the supporting bottom plate plays a supporting role, the fermentation tank plays a fermentation role, the stirring placing cavity plays a supporting and protecting role, the stirring device plays a protecting role in fermenting animal excrement, the ladder stand provides convenience for personnel to rise, the ladder stand support plays a supporting role, the anti-falling railing plays a protecting role, the baffle plays a role in safety and preventing the personnel from falling off, the heat exchange storage device plays a role in carrying out heat exchange on methane and storing the methane, the automatic feeding device plays a feeding role, the feeding box plays a feeding role, the feeding support plays a supporting role, the baffle plate plays a blocking role, the rain shed plays a rainproof role, and the rain shed support plays a supporting role, the discharge gate plays the effect of ejection of compact, discharging device plays the effect of the ejection of compact, (mixing) shaft and stirring roller play the stirring and promote the effect of fermentation, it plays the effect of support to rotate the piece.

Further, the heat exchange storage device comprises an exchanger support, a heat exchanger, a refrigerant water inlet pipe, a refrigerant water outlet pipe, a biogas air inlet main pipe, a biogas air outlet pipe and a biogas air inlet branch pipe, wherein the exchanger support is arranged on a support bottom plate, the heat exchanger is arranged on the exchanger support, the biogas air inlet branch pipe is arranged on the top wall of the fermentation tank, one end of the biogas air inlet main pipe is arranged on the biogas air inlet branch pipe, the other end of the biogas air inlet main pipe is arranged on the heat exchanger, the biogas air outlet pipe is arranged on the heat exchanger, the refrigerant water inlet pipe is arranged on the heat exchanger, the refrigerant water outlet pipe is arranged on the heat exchanger and is arranged below the refrigerant water inlet pipe, the exchanger support plays a role in supporting, the heat exchanger plays a role in exchanging heat, the refrigerant water inlet pipe plays a role in feeding cold water, and the refrigerant water outlet pipe plays a role in discharging cold water, the main methane inlet pipe and the branch methane inlet pipes are used for collecting methane in the heat exchanger, and the methane outlet pipe is used for collecting methane.

Further, the automatic feeding device comprises a supporting plate, a feeding motor, a feeding screw rod, a sliding block and a charging box, the supporting plate is arranged on the side wall of the stirring placing cavity, the feeding motor is arranged on the supporting base plate, the feeding screw rod is arranged on an output shaft of the feeding motor and penetrates through the supporting plate, the sliding block is in threaded connection with the feeding screw rod, the charging box is hinged to the sliding block, the supporting plate plays a supporting role, the sliding block plays a displacement role, and the charging box plays a role in charging animal excrement.

Further, discharging device includes discharging support, discharging baffle, exit conveyor, ejection of compact transmission shaft and discharge motor, discharging support locates on the supporting baseplate, discharging baffle locates on discharging support, discharging transmission shaft locates on discharging baffle, discharging conveyor twines and locates on the ejection of compact transmission shaft, discharge motor locates on the ejection of compact transmission shaft and locates the one side of keeping away from the fermentation cylinder, discharging conveyor plays the effect of conveying animal waste out, discharging support and discharging baffle play the effect of support.

Furthermore, be equipped with the blanking mouth on the fermentation cylinder, the blanking mouth is circular opening setting, the top of exit conveyor is located to the blanking mouth.

Furthermore, the canopy support is arranged between the canopy and the fermentation tank, the biogas inlet branch pipe is arranged between the biogas inlet main pipe and the fermentation tank, the support plate is arranged between the feeding motor and the sliding block, the heat exchanger is arranged between the exchanger support and the biogas inlet main pipe, the exchanger support is arranged between the heat exchanger and the support base plate, and the stirring and placing cavity is arranged between the fermentation tank and the support base plate.

Furthermore, the marsh gas inlet branch pipe and the marsh gas inlet main pipe are arranged vertically, the marsh gas inlet main pipe is arranged in an inverted L shape, and the marsh gas outlet pipe is arranged in an L shape.

Further, the canopy support is equipped with four groups, marsh gas inlet branch is equipped with two sets, the feeding support is equipped with two sets, the feeding screw rod is equipped with two sets, the sliding block is equipped with two sets, the feeding motor is equipped with two sets, the stirring roller is equipped with a plurality of groups.

The utility model with the structure has the following beneficial effects: this scheme organic matter intelligence aerobic fermentation jar, effectual solved need artifical reinforced shortcoming when fermenting animal manure on the existing market, realized the reinforced technological effect of automation, through borrowing the technique of heat exchange to collect marsh gas cooling, avoided the danger that bursts, reduced the waste of resource simultaneously, make more thorough of excrement and urine fermentation through the device of stirring, be a very practical organic matter intelligence aerobic fermentation jar.

Drawings

FIG. 1 is a schematic diagram of the overall structure of an organic matter intelligent aerobic fermentation tank according to the present invention;

FIG. 2 is a schematic structural view of another angle of the organic matter intelligent aerobic fermentation tank of the present invention;

FIG. 3 is a cross-sectional view of an organic matter intelligent aerobic fermentation tank of the present invention.

Wherein, 1, a supporting base plate, 2, a fermentation tank, 3, a stirring placing cavity, 4, a stirring device, 5, a ladder stand, 6, a ladder stand bracket, 7, an anti-falling railing, 8, a baffle plate, 9, a heat exchange storage device, 10, an automatic feeding device, 11, a feeding box, 12, a feeding bracket, 13, a baffle plate, 14, a canopy, 15, a canopy bracket, 16, a discharging port, 17, a discharging device, 18, a stirring motor, 19, a driving wheel, 20, a driven wheel, 21, a stirring shaft, 22, a stirring roller, 23, a rotating part, 24, a exchanger bracket, 25, a heat exchanger, 26, a refrigerant inlet pipe, 27, a refrigerant outlet pipe, 28, a methane inlet main pipe, 29, a methane outlet pipe, 30, a methane inlet branch pipe, 31, a supporting plate, 32, a feeding motor, 33, a feeding screw, 34, a sliding block, 35, a charging box, 36, a discharging bracket, 37 and a discharging baffle plate, 38. the device comprises a discharge conveyor belt 39, a discharge transmission shaft 40, a discharge motor 41 and a blanking port.

The accompanying drawings, which are included to provide a further understanding of the utility model and are incorporated in and constitute a part of this specification, illustrate embodiments of the utility model and together with the description serve to explain the principles of the utility model and not to limit the utility model.

Detailed Description

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

As shown in figures 1-3, the utility model relates to an organic matter intelligent aerobic fermentation tank, which comprises a supporting base plate 1, a fermentation tank 2, a stirring and placing cavity 3, a stirring device 4, a ladder stand 5, a ladder stand bracket 6, an anti-falling railing 7, a baffle plate 8, a heat exchange storage device 9, an automatic feeding device 10, a feeding box 11, a feeding bracket 12, a baffle plate 13, a canopy 14, a canopy bracket 15, a discharging port 16 and a discharging device 17, wherein the stirring and placing cavity 3 is arranged on the supporting base plate 1, the fermentation tank 2 is arranged on the stirring and placing cavity 3, one end of the stirring device 4 is arranged in the stirring and placing cavity 3, the other end of the stirring device 4 is arranged in the fermentation tank 2, the ladder stand 6 is arranged on the supporting base plate 1, the ladder stand 5 is arranged on the ladder stand 6, one end of the anti-falling railing 7 is arranged on the ladder stand 5, the other end of the anti-falling railing 7 is arranged on the fermentation tank 2, baffle 8 is located on fermentation cylinder 2, heat exchange storage device 9 one end is located on fermentation cylinder 2, the heat exchange storage device 9 other end is located on supporting baseplate 1, canopy support 15 is located on fermentation cylinder 2, canopy 14 is located on canopy support 15, feeding support 12 is located on fermentation cylinder 2, feeding case 11 is located on feeding support 12, automatic feed device 10 is located on supporting baseplate 1, discharge gate 16 is located on the lateral wall of stirring placement chamber 3, discharging device 17 one end runs through discharge gate 16 and is located in the stirring placement chamber 3, discharging device 17's the other end is located on supporting baseplate 1, striker plate 13 is located on feeding case 11's lateral wall and is located the one side that is close to automatic feed device 10, agitating unit 4 includes agitator motor 18, action wheel 19, follows driving wheel 20, (mixing) shaft 21, Stirring roller 22 and rotation piece 23, agitator motor 18 is located the stirring and is placed on the inside diapire of chamber 3, action wheel 19 is located on agitator motor 18's the output shaft and is located the stirring and place in the chamber 3, from the meshing of driving wheel 20 locate on action wheel 19, rotate piece 23 and locate on the stirring places the inside diapire of chamber 3, stirring (mixing) shaft 21 one end is located and is rotated on 23, the bottom that the other end of (mixing) shaft 21 runs through fermentation cylinder 2 is located in fermentation cylinder 2, stirring roller 22 is located on the (mixing) shaft 21 and is located in fermentation cylinder 2.

The heat exchange storage device 9 comprises an exchanger support 24, a heat exchanger 25, a refrigerant water inlet pipe 26, a refrigerant water outlet pipe 27, a biogas air inlet main pipe 28, a biogas air outlet pipe 29 and a biogas air inlet branch pipe 30, wherein the exchanger support 24 is arranged on the supporting base plate 1, the heat exchanger 25 is arranged on the exchanger support 24, the biogas air inlet branch pipe 30 is arranged on the top wall of the fermentation tank 2, one end of the biogas air inlet main pipe 28 is arranged on the biogas air inlet branch pipe 30, the other end of the biogas air inlet main pipe 28 is arranged on the heat exchanger 25, the biogas air outlet pipe 29 is arranged on the heat exchanger 25, the refrigerant water inlet pipe 26 is arranged on the heat exchanger 25, and the refrigerant water outlet pipe 27 is arranged on the heat exchanger 25 and below the refrigerant water inlet pipe 26.

The automatic feeding device 10 comprises a supporting plate 31, a feeding motor 32, a feeding screw 33, a sliding block 34 and a charging box 35, wherein the supporting plate 31 is arranged on the side wall of the stirring placing cavity 3, the feeding motor 32 is arranged on the supporting base plate 1, the feeding screw 33 is arranged on an output shaft of the feeding motor 32 and penetrates through the supporting plate 31, the sliding block 34 is in threaded connection with the feeding screw 33, and the charging box 35 is hinged to the sliding block 34.

Discharging device 17 includes discharging support 36, discharging baffle 37, exit conveyor 38, ejection of compact transmission shaft 39 and discharge motor 40, discharging support 36 locates on supporting baseplate 1, discharging baffle 37 locates on discharging support 36, discharging transmission shaft 39 locates on discharging baffle 37, discharging conveyor 38 twines and locates on discharging transmission shaft 39, discharge motor 40 locates on discharging transmission shaft 39 and locates the one side of keeping away from fermentation cylinder 2.

Be equipped with blanking mouth 41 on the fermentation cylinder 2, blanking mouth 41 is circular opening setting, blanking mouth 41 locates the top of exit conveyor 38.

The canopy support 15 is arranged between the canopy 14 and the fermentation tank 2, the biogas inlet branch pipe 30 is arranged between the biogas inlet main pipe 28 and the fermentation tank 2, the support plate 31 is arranged between the feeding motor 32 and the sliding block 34, the heat exchanger 25 is arranged between the exchanger support 24 and the biogas inlet main pipe 28, the exchanger support 24 is arranged between the heat exchanger 25 and the support base plate 1, and the stirring placing cavity 3 is arranged between the fermentation tank 2 and the support base plate 1.

The biogas inlet branch pipe 30 is perpendicular to the biogas inlet main pipe 28, the biogas inlet main pipe 28 is in an inverted L shape, and the biogas outlet pipe 29 is in an L shape.

The canopy support 15 is provided with four groups, the biogas inlet branch pipes 30 are provided with two groups, the feeding support 12 is provided with two groups, the feeding screws 33 are provided with two groups, the sliding blocks 34 are provided with two groups, the feeding motors 32 are provided with two groups, and the stirring rollers 22 are provided with a plurality of groups.

When the feeding device is used specifically, a user turns on the feeding motor 32 to enable the feeding motor 32 to rotate reversely, the feeding motor 32 rotates reversely to drive the feeding screw 33 to rotate and drive the two sets of sliding blocks 34 to move up and down on the feeding screw 33, meanwhile, the sliding blocks 34 drive the charging box 35 to move down, when the charging box 35 moves down to the position of the supporting plate 31, the user adds animal excrement into the charging box 35, then turns on the feeding motor 32, the feeding motor 32 drives the feeding screw 33 to rotate and drive the two sets of sliding blocks 34 to ascend on the feeding screw 33 to drive the charging box 35 filled with the animal excrement to ascend, when the charging box 35 ascends to a position higher than the fermentation tank 2, the charging box 35 is in contact with the baffle plate 13, then the charging box 35 cannot ascend under the blocking of the baffle plate 13, at the moment, the sliding blocks 34 continue to ascend on the feeding screw 33, finally, the charging box 35 is turned over, so that the animal excrement in the charging box 35 falls into the feeding box 11, and then the biogas is fed into the fermentation tank 2 through the feeding box 11, at the moment, a user starts the stirring motor 18, the stirring motor 18 drives the driving wheel 19 and the driven wheel 20 to rotate, so as to drive the stirring shaft 21 and the stirring roller 22 to rotate, so that the animal manure fed into the fermentation tank 2 is stirred and fermented, the fermented biogas rises in the fermentation tank 2 and enters the biogas inlet main pipe 28 through the biogas inlet branch pipe 30, the biogas reaches the heat exchanger 25 along the biogas inlet main pipe 28, the biogas exchanges heat with cold water entering through the refrigerant inlet pipe 26 in the heat exchanger 25 at the moment, the exchanged liquid is discharged through the refrigerant outlet pipe 27, and the exchanged biogas is discharged through the biogas outlet pipe 29 and collected for later use; meanwhile, the stirred and fermented animal wastes fall onto the discharging conveyor belt 38 from the blanking port 41, at the moment, a user starts the discharging motor 40, the discharging motor 40 rotates to drive the discharging transmission shaft 39 to rotate, the discharging transmission shaft 39 rotates to drive the discharging conveyor belt 38 to rotate, and the fermented animal wastes are conveyed away and collected to prevent the environment from being polluted; simultaneously the user can go up the roof of fermentation cylinder 2 through cat ladder 5 and carry out the observation of feeding condition to guarantee the safety of personnel in the eminence through baffle 8 and anti falling railing 7, above be the use flow of whole organic matter intelligence aerobic fermentation jar.

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

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

The present invention and its embodiments have been described above, and the description is not intended to be limiting, and the drawings are only one embodiment of the present invention, and the actual structure is not limited thereto. In summary, those skilled in the art should appreciate that they can readily use the disclosed conception and specific embodiments as a basis for designing or modifying other structures for carrying out the same purposes of the present invention without departing from the spirit and scope of the utility model as defined by the appended claims.

Claims (8)

1. An organic matter intelligence aerobic fermentation jar which characterized in that: comprises a supporting base plate, a fermentation tank, a stirring and placing cavity, a stirring device, a crawling ladder support, a falling-preventing railing, a baffle, a heat exchange storage device, an automatic feeding device, a feeding box, a feeding support, a baffle plate, a rain shed support, a discharging port and a discharging device, wherein the stirring and placing cavity is arranged on the supporting base plate, the fermentation tank is arranged on the stirring and placing cavity, one end of the stirring device is arranged in the stirring and placing cavity, the other end of the stirring device is arranged in the fermentation tank, the crawling ladder support is arranged on the supporting base plate, one end of the falling-preventing railing is arranged on the crawling ladder, the other end of the falling-preventing railing is arranged on the fermentation tank, one end of the heat exchange storage device is arranged on the fermentation tank, the other end of the heat exchange storage device is arranged on the supporting base plate, and the rain shed support is arranged on the fermentation tank, the rainshed is arranged on a rainshed bracket, the feeding bracket is arranged on the fermentation tank, the feeding box is arranged on the feeding bracket, the automatic feeding device is arranged on a supporting bottom plate, the discharge port is arranged on the side wall of the stirring and placing cavity, one end of the discharging device penetrates through the discharge port and is arranged in the stirring and placing cavity, the other end of the discharging device is arranged on the supporting bottom plate, the stirring device comprises a stirring motor, a driving wheel, a driven wheel, a stirring shaft, a stirring roller and a rotating piece, the stirring motor is arranged on the inner bottom wall of the stirring and placing cavity, the driving wheel is arranged on an output shaft of the stirring motor and is arranged in the stirring and placing cavity, the driven wheel is meshed with the driving wheel, the rotating piece is arranged on the inner bottom wall of the stirring and placing cavity, one end of the stirring shaft is arranged on the rotating piece, the other end of the stirring shaft penetrates through the bottom of the fermentation tank and is arranged in the fermentation tank, the stirring roller is arranged on the stirring shaft and is arranged in the fermentation tank.

2. The organic matter intelligent aerobic fermentation tank of claim 1, which is characterized in that: the heat exchange storage device comprises an exchanger support, a heat exchanger, a refrigerant inlet pipe, a refrigerant outlet pipe, a biogas air inlet main pipe, a biogas air outlet pipe and a biogas air inlet branch pipe, wherein the exchanger support is arranged on a support base plate, the heat exchanger is arranged on the exchanger support, the biogas air inlet branch pipe is arranged on the top wall of the fermentation tank, one end of the biogas air inlet main pipe is arranged on the biogas air inlet branch pipe, the other end of the biogas air inlet main pipe is arranged on the heat exchanger, the biogas air outlet pipe is arranged on the heat exchanger, the refrigerant inlet pipe is arranged on the heat exchanger, and the refrigerant outlet pipe is arranged on the heat exchanger and below the refrigerant inlet pipe.

3. The organic matter intelligent aerobic fermentation tank of claim 2, which is characterized in that: the automatic feeding device comprises a supporting plate, a feeding motor, a feeding screw rod, a sliding block and a charging box, wherein the supporting plate is arranged on the side wall of the stirring placing cavity, the feeding motor is arranged on the supporting base plate, the feeding screw rod is arranged on an output shaft of the feeding motor and penetrates through the supporting plate, the sliding block is in threaded connection with the feeding screw rod, and the charging box is hinged to the sliding block.

4. The organic matter intelligent aerobic fermentation tank of claim 3, which is characterized in that: discharging device includes discharging support, discharging baffle, exit conveyor, ejection of compact transmission shaft and ejection of compact motor, discharging support locates on the supporting baseplate, discharging baffle locates on the discharging support, discharging transmission shaft locates on discharging baffle, discharging conveyor twines and locates on the ejection of compact transmission shaft, ejection of compact motor locates on the ejection of compact transmission shaft and locates the one side of keeping away from the fermentation cylinder.

5. The organic matter intelligent aerobic fermentation tank of claim 4, which is characterized in that: be equipped with the blanking mouth on the fermentation cylinder, the blanking mouth is circular opening setting, the blanking mouth is located exit conveyor's top.

6. The organic matter intelligent aerobic fermentation tank of claim 5, which is characterized in that: the device comprises a fermentation tank, a biogas inlet main pipe, a biogas inlet branch pipe, a biogas inlet motor, a heat exchanger, a support bottom plate, a canopy support, a biogas inlet main pipe, a biogas inlet branch pipe, a support plate, a feeding motor, a sliding block, a heat exchanger support, a stirring placing cavity and a stirring placing cavity.

7. The organic matter intelligent aerobic fermentation tank of claim 6, which is characterized in that: the biogas inlet branch pipe and the biogas inlet main pipe are vertically arranged, the biogas inlet main pipe is arranged in an inverted L shape, and the biogas outlet pipe is arranged in an L shape.

8. The organic matter intelligent aerobic fermentation tank of claim 7, which is characterized in that: the improved biogas tank comprises a canopy support, a plurality of groups of biogas inlet branch pipes, a plurality of groups of feeding supports, a plurality of groups of feeding screws, a plurality of groups of sliding blocks, a plurality of groups of stirring rollers, a plurality of groups of biogas inlet branch pipes, a plurality of groups of feeding screws, a plurality of groups of stirring rollers and a plurality of groups of stirring rollers.

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