CN111548922A

CN111548922A - Fertilizer fermentation device based on methane tank

Info

Publication number: CN111548922A
Application number: CN202010574830.0A
Authority: CN
Inventors: 张少杰
Original assignee: Hangzhou Dehaas Electronic Technology Co ltd
Current assignee: Hangzhou Dehaas Electronic Technology Co ltd
Priority date: 2020-06-22
Filing date: 2020-06-22
Publication date: 2020-08-18
Also published as: GB202014458D0

Abstract

The invention discloses a fertilizer fermentation device based on a biogas digester, which comprises an outer substrate, wherein a fermentation cavity is arranged in the outer substrate, a fermentation detector is fixedly arranged in the right end wall of the fermentation cavity, a rotary threaded shaft is rotatably arranged in the lower end wall of the fermentation cavity, a threaded inclined block is connected to the rotary threaded shaft in a threaded manner, the threaded inclined block is slidably arranged in the end wall of the fermentation cavity, and bilateral-symmetric return springs are fixedly arranged on the lower end surface of the threaded inclined block Organic matters such as weeds and the like are crushed, so that the fermentation time is greatly reduced.

Description

Fertilizer fermentation device based on methane tank

Technical Field

The invention relates to the technical field of fertilizers, in particular to a fertilizer fermentation device based on a methane tank.

Background

At the present stage, a plurality of rural areas and culture bases put excrement in the open air, so that the excrement is fermented for a while and then used as fertilizer, but the excrement pollutes air, odor diffuses air, normal breathing of personnel is affected, and biogas during fermentation is wasted.

The application explains a fertilizer fermentation device based on a methane tank, which can solve the problems.

Disclosure of Invention

Aiming at the technical defects, the invention provides a fertilizer fermentation device based on a methane tank, which can overcome the defects.

The invention relates to a fertilizer fermentation device based on a biogas digester, which comprises an outer base body, wherein a fermentation cavity is arranged in the outer base body, a fermentation detector is fixedly arranged in the right end wall of the fermentation cavity, a rotary threaded shaft is rotatably arranged in the lower end wall of the fermentation cavity, a threaded inclined block is connected to the rotary threaded shaft in a threaded manner, the threaded inclined block is slidably arranged in the end wall of the fermentation cavity, and the lower end surface of the threaded inclined block is fixedly provided with bilaterally symmetrical reset springs; the lower end of the reset spring is fixedly arranged on the lower end wall of the fermentation cavity, a stirring blade fixedly arranged on the rotating threaded shaft is arranged above the threaded inclined block, bilaterally symmetrical discharge pipelines are arranged in the upper end wall of the fermentation cavity, a sliding cavity positioned above the fermentation cavity is arranged in the bilaterally symmetrical discharge pipelines in a penetrating manner, an electromagnet is fixedly arranged on the middle end wall of the sliding cavity, fixed springs fixedly arranged on the end surface of the electromagnet are arranged in the bilaterally symmetrical manner, and a magnet is fixedly arranged at one end of each fixed spring, which is far away from the central line of the electromagnet; magnet has closed discharge pipeline with the intercommunication department in fermentation chamber, left discharge pipeline top intercommunication are equipped with the excrement and urine case, excrement and urine case top has set firmly opening excrement and urine connecting tube up, the right side the discharge pipeline top has set firmly crushing chamber, smash chamber lower extreme wall with discharge pipeline intercommunication department has set firmly the filter block, fermentation chamber right side is equipped with the gear chamber, the gear chamber with slidable mounting is equipped with the oblique thread piece of sliding between the fermentation chamber, the oblique thread piece left end of sliding extends to in the fermentation chamber right-hand member wall, threaded connection is equipped with down the screw shaft in the oblique thread piece right-hand member face of sliding.

Preferably, the right end of the lower threaded shaft extends into the gear cavity and is fixedly provided with a rotating helical gear, the right end face of the lower threaded shaft is fixedly provided with a torsional spring rotatably arranged in the right end wall of the gear cavity, the upper part of the rotating helical gear is connected with a transmission helical gear in a gear meshing manner, the transmission helical gear is fixedly arranged on the upper threaded shaft, a connecting cavity is arranged above the gear cavity, a lower blocking threaded block is arranged at the communication part of the connecting cavity and the gear cavity in a sliding manner, the upper end of the upper threaded shaft is in threaded connection with the lower end face of the lower blocking threaded block, a lower sliding inclined block is arranged in the lower end wall of the connecting cavity in a sliding manner, a pressure spring is fixedly arranged on the right end face of the lower sliding inclined block, the right end of the pressure spring is fixedly arranged on the right end wall of the connecting cavity, the right end, the articulated removal piece that is equipped with in connecting plate upper end, it moves piece slidable mounting to go up move the piece the power control chamber with connect chamber intercommunication department, it is equipped with the insulating block to go up to move the articulated insulating block that is equipped with in piece upper end, the insulating block upper end extends to the articulated conducting block that is equipped with in the power control intracavity, the conducting block left end is equipped with the plug admittedly, the conducting block right-hand member has set firmly conductive hose, conductive hose right-hand member electric connection is in fixed mounting in the power left end in the power control chamber right end wall, the plug left side is equipped with fixed mounting and is in power group in the power control chamber left end wall, power group right-hand member facial features set firmly with the open slot that the plug.

Preferably, the power control chamber left side is equipped with the transmission chamber, transmission chamber lower end wall with the connection chamber intercommunication, the connection chamber with transmission chamber intercommunication department slidable mounting is equipped with the top slide sloping block, the top slide sloping block bilateral symmetry has set firmly the extension board, the extension board lower extreme has set firmly connecting spring, the connecting spring lower extreme sets firmly on the connection chamber with transmission chamber intercommunication department keeps away from the lower end wall of top slide sloping block central line one side, power pack top power connection is equipped with the driving shaft, set firmly the driving gear that is located in the transmission chamber on the driving shaft, driving gear left side top is equipped with driven gear, driven gear fixed mounting is on the connecting axle, transmission chamber top is equipped with the open slot that the opening is up, the connecting axle upper end is installed through the spline rotation the open slot with the intercommunication department in transmission chamber, the upper end of the connecting shaft extends to the open slot and is rotatably provided with a treading block, the lower end face of the treading block is fixedly provided with a connecting spring, the lower end of the connecting spring is fixedly arranged on the lower end wall of the open slot, and the lower end face of the driven gear is rotatably provided with a pressure rod.

Preferably, a connecting gear is arranged below the left side of the driven gear, the connecting gear is fixedly mounted on a driven shaft, the lower end of the driven shaft is rotatably mounted in the lower end wall of the left side of the transmission cavity, a driving belt pulley fixedly mounted on the driven shaft is arranged below the connecting gear, a driven belt pulley is arranged on the left side of the driving belt pulley, the driving belt pulley is connected with the driven belt pulley through a belt, the driven belt pulley is fixedly mounted on a connecting shaft, a sundry cavity with an upward opening is arranged above the driven belt pulley, a driving helical gear fixedly mounted on the connecting shaft is arranged above the driven belt pulley, the connecting shaft is rotatably mounted between the end wall of the left side of the transmission cavity and the sundry cavity, the upper end of the connecting shaft extends into the sundry cavity and is fixedly provided with a crushing blade, and the left side of the crushing, the filtering pipe with debris chamber intercommunication department sets firmly the filter, the meshing connection of initiative helical gear rear side gear is equipped with the linking helical gear, linking helical gear fixed mounting is on the transmission shaft, the transmission shaft rear end rotates to be installed in the left rear end wall of transmission chamber, linking helical gear rear side is equipped with fixed mounting the epaxial drive pulley of transmission.

Preferably, driving pulley left side top is equipped with and is located smash the interior connection belt pulley of chamber rear end wall, connect the belt pulley with driving pulley is connected by the belt, connect belt pulley fixed mounting in the axis of rotation, the axis of rotation front and back end rotates respectively to be installed in crushing chamber front and back end wall, be located it is equipped with fixed mounting in crushing intracavity be equipped with fixed mounting in the epaxial turning block of axis of rotation, be equipped with the helical gear chamber in the turning block, be equipped with fixed mounting in the helical gear chamber the epaxial connection helical gear of axis of rotation, it is equipped with the edge to connect helical gear rear side gear engagement connection six rotation helical gears that axis of rotation circumference array set up, rotation helical gear fixed mounting is in the axis of rotation, the axis of rotation is kept away from axis of rotation central line one end is rotated and is installed in the outer end wall of helical gear chamber .

Preferably, the left side of the discharging pipeline is provided with a one-way pipeline fixedly installed in the upper end wall of the fermentation cavity, a methane treatment storage box is fixedly arranged above the one-way pipeline, the upper end of the one-way pipeline extends into the methane treatment storage box, a gas pipeline is fixedly arranged in the upper end wall of the methane treatment storage box, the upper end of the gas pipeline is communicated with the outside, a discharging cavity is communicated with the rear end wall of the fermentation cavity, a fertilizer box is fixedly arranged at the rear end of the discharging cavity, a linking cavity is arranged at the communicating position of the discharging cavity and the fermentation cavity, a cylinder is fixedly arranged in the upper end wall of the linking cavity, a sealing block is fixedly arranged at the lower end of the cylinder, and the communicating position of the discharging cavity and the fermentation cavity is sealed by the sealing block.

The beneficial effects are that: the invention can effectively utilize biological excrement, useless straw, weeds and other organic matters in rural areas and culture bases to ferment and generate usable biogas which is actually used for providing cheap and high-quality fuel, and the fermented biogas can be used as fertilizer to fertilize soil.

Drawings

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

FIG. 1 is a schematic structural diagram of an embodiment of the present invention;

FIG. 2 is a schematic view of A-A of FIG. 1 according to an embodiment of the present invention;

FIG. 3 is a schematic view of B-B in FIG. 1 according to an embodiment of the present invention;

FIG. 4 is an enlarged schematic view of the structure at C in FIG. 1 according to an embodiment of the present invention;

FIG. 5 is an enlarged schematic view of the structure at D in FIG. 1 according to an embodiment of the present invention;

fig. 6 is an enlarged schematic view of the structure at E in fig. 1 according to the embodiment of the present invention.

Detailed Description

All of the features disclosed in this specification, or all of the steps in any method or process so disclosed, may be combined in any combination, except combinations and/or steps that are mutually exclusive.

The invention will now be described in detail with reference to fig. 1-6, for convenience of description, the following orientations will now be defined: the up, down, left, right, and front-back directions described below correspond to the up, down, left, right, and front-back directions in the projection relationship of fig. 1 itself.

The invention relates to a fertilizer fermentation device based on a biogas digester, which comprises an outer base body 10, wherein a fermentation cavity 11 is arranged in the outer base body 10, a fermentation detector 16 is fixedly arranged in the right end wall of the fermentation cavity 11, a rotary threaded shaft 15 is rotatably arranged in the lower end wall of the fermentation cavity 11, a threaded inclined block 13 is connected on the rotary threaded shaft 15 in a threaded manner, the threaded inclined block 13 is slidably arranged in the end wall of the fermentation cavity 11, a bilaterally symmetrical return spring 12 is fixedly arranged on the lower end surface of the threaded inclined block 13, the lower end of the return spring 12 is fixedly arranged on the lower end wall of the fermentation cavity 11, a stirring blade 14 fixedly arranged on the rotary threaded shaft 15 is arranged above the threaded inclined block 13, a bilaterally symmetrical discharge pipeline 90 is arranged in the upper end wall of the fermentation cavity 11, a sliding cavity 77 positioned above the fermentation cavity 11 penetrates through the bilaterally symmetrical discharge pipeline 90, an electromagnet 79 is fixedly arranged on the end wall in the middle of the sliding cavity 77, the electromagnet 79 is symmetrically and fixedly arranged on a fixed spring 78 on the end face of the electromagnet 79, the fixed spring 78 is far away from one end of the central line of the electromagnet 79, a magnet 76 is fixedly arranged on one end of the central line of the electromagnet 79, the magnet 76 seals a discharge pipeline 90 and the communication position of the fermentation cavity 11, a feces box 56 is arranged above the left discharge pipeline 90 in a communicated manner, an excrement connecting pipeline 55 with an upward opening is fixedly arranged above the feces box 56, a crushing cavity 54 is fixedly arranged above the discharge pipeline 90 on the right side, a filter block 89 is fixedly arranged on the lower end wall of the crushing cavity 54 and the communication position of the discharge pipeline 90, a gear cavity 21 is arranged on the right side of the fermentation cavity 11, a sliding inclined thread block 17 is arranged between the gear cavity 21 and the fermentation cavity 11 in a sliding manner, the left end of the inclined thread, the right end face of the sliding inclined thread block 17 is internally provided with a lower thread shaft 19 in a threaded connection manner, excrement of poultry raising organisms enters the excrement tank 56 through the excrement connecting pipeline 55 for storage, then is fermented in the excrement tank 56 in advance, then enters the fermentation cavity 11 through the left discharge pipeline 90 and then falls on the thread inclined block 13, so that gravity drives the thread inclined block 13 to move downwards, the thread inclined block 13 moves downwards to compress the return spring 12 and drive the rotating thread shaft 15 to rotate, the rotating thread shaft 15 rotates to drive the stirring blade 14 to rotate, meanwhile, straws and weeds in the crushing cavity 54 enter the fermentation cavity 11 through the right discharge pipeline 90, and then the stirring blade 14 rotates to stir the excrement, the straws and the weeds in the fermentation cavity 11 so as to be more fully bonded, when the fermentation detector 16 senses that the fermentation product in the fermentation cavity 11 reaches a certain degree, the electromagnet 79 is powered off, so that the magnet 76 moves to one side away from the center line of the electromagnet 79 under the action of the resilience force of the fixed spring 78, and the communication between the discharge pipeline 90 and the fermentation cavity 11 is closed.

Beneficially, the right end of the lower threaded shaft 19 extends into the gear cavity 21 and is fixedly provided with a rotating helical gear 20, the right end face of the lower threaded shaft 19 is fixedly provided with a torsion spring 18 rotatably installed in the right end wall of the gear cavity 21, a transmission helical gear 22 is arranged above the rotating helical gear 20 in a gear meshing connection manner, the transmission helical gear 22 is fixedly provided on the upper threaded shaft 23, a connection cavity 27 is arranged above the gear cavity 21, a lower obstructing thread block 25 is slidably installed at a position where the connection cavity 27 is communicated with the gear cavity 21, the upper end of the upper threaded shaft 23 is in threaded connection with the lower end face of the lower obstructing thread block 25, a lower sliding oblique block 29 is slidably installed in the lower end wall of the connection cavity 27, a pressure spring 26 is fixedly installed on the right end wall of the connection cavity 27, and a connecting plate 28 is hinged to the right end of the lower sliding oblique block 29, connect the chamber 27 top intercommunication and be equipped with power control chamber 73, the articulated movable block 74 that is equipped with in connecting plate 28 upper end, it installs to go up movable block 74 slidable power control chamber 73 with connect chamber 27 intercommunication department, it is equipped with insulating block 72 to go up the articulated insulating block 72 that is equipped with in movable block 74 upper end, the insulating block 72 upper end extends to power control chamber 73 internal hinge is equipped with conducting block 69, the plug 68 has been firmly equipped with to conducting block 69 left end, conducting block 69 right end has set firmly conductive hose 70, conductive hose 70 right end electric connection be in fixed mounting in the power 71 left end in the power control chamber 73 right end wall, plug 68 left side is equipped with fixed mounting and is in the power control chamber 73 left end wall power pack 66, set firmly in the power pack 66 right end face with plug 68 matching's open slot 67, when personnel toward throw into useless straw in debris chamber 51, When weeds are planted, the user stands on the stepping block 43, the stepping block 43 is moved downward by gravity, the stepping block 43 moves downward to drive the connecting shaft 38 to move downward and compress the engaging spring 41, the connecting shaft 38 moves downward to drive the driven gear 37 and the pressure rod 36 to move downward, the driven gear 37 moves downward to drive the driving gear 35 and the connecting gear 44 to be in gear engagement with each other through the driven gear 37, the pressure rod 36 moves downward to drive the upper slide block 31 to move downward and compress the connecting spring 30 through the extending plate 32, the upper slide block 31 moves downward to drive the lower slide block 29 to move rightward and compress the pressure spring 26, the upper slide block 74 is driven to move upward by the lower slide block 29, and the upper slide block 74 moves upward to drive the conductive block 69 to move leftward by the insulating block 72, the conductive block 69 moves leftwards to drive the plug 68 to be inserted into the opening slot 67, so that the power unit 66 is started by the power of the power supply 71.

Beneficially, power control chamber 73 left side is equipped with transmission chamber 33, transmission chamber 33 lower end wall with connect the chamber 27 intercommunication, connect chamber 27 with transmission chamber 33 intercommunication department slidable mounting is equipped with last slide sloping block 31, go up slide sloping block 31 bilateral symmetry and have set firmly extension board 32, extension board 32 lower extreme has set firmly coupling spring 30, coupling spring 30 lower extreme sets firmly connect chamber 27 with transmission chamber 33 intercommunication department keeps away from on the lower end wall of last slide sloping block 31 central line one side, power pack 66 top power connection is equipped with driving shaft 34, driving shaft 34 is last to set firmly be located the driving gear 35 in transmission chamber 33, driving gear 35 left side top is equipped with driven gear 37, driven gear 37 fixed mounting is on connecting axle 38, be equipped with opening slot 42 that the opening is up above transmission chamber 33, the upper end of the connecting shaft 38 is rotatably installed at a communication position of the open slot 42 and the transmission cavity 33 through a spline 40, the upper end of the connecting shaft 38 extends into the open slot 42 and is rotatably installed with a stepping block 43, a connecting spring 41 is fixedly arranged on the lower end face of the stepping block 43, the lower end of the connecting spring 41 is fixedly arranged on the lower end wall of the open slot 42, and a pressure rod 36 is rotatably installed in the lower end face of the driven gear 37.

Beneficially, a connecting gear 44 is arranged below the left side of the driven gear 37, the connecting gear 44 is fixedly mounted on a driven shaft 45, the lower end of the driven shaft 45 is rotatably mounted in the lower end wall of the left side of the transmission cavity 33, a driving pulley 46 fixedly mounted on the driven shaft 45 is arranged below the connecting gear 44, a driven pulley 47 is arranged on the left side of the driving pulley 46, the driving pulley 46 is connected with the driven pulley 47 through a belt, the driven pulley 47 is fixedly mounted on a connecting shaft 48, a sundry cavity 51 with an upward opening is arranged above the driven pulley 47, a driving bevel gear 49 fixedly mounted on the connecting shaft 48 is arranged above the driven pulley 47, the connecting shaft 48 is rotatably mounted between the end wall of the left side of the transmission cavity 33 and the sundry cavity 51, and a crushing blade 50 is fixedly arranged in the sundry cavity 51 at the upper end of the connecting shaft 48, a filtering pipeline 53 communicated with the crushing cavity 54 is arranged on the left side of the crushing blade 50, a filtering plate 52 is fixedly arranged at the communication position of the filtering pipeline 53 and the sundries cavity 51, a connecting helical gear 39 is arranged on the rear side of the driving helical gear 49 in a meshing connection manner, the connecting helical gear 39 is fixedly arranged on a transmission shaft 65, the rear end of the transmission shaft 65 is rotatably arranged in the rear end wall on the left side of the transmission cavity 33, a transmission belt pulley 64 fixedly arranged on the transmission shaft 65 is arranged on the rear side of the connecting helical gear 39, the power set 66 is started to enable the power set 66 to drive the driving shaft 34 to rotate, the driving shaft 34 rotates to drive the driving gear 35 to rotate, the driving gear 35 rotates to drive the driven gear 37 to rotate, the driven gear 37 rotates to drive the connecting gear 44 to rotate, and the connecting gear 44 rotates to drive the driven, the driven shaft 45 rotates to drive the driven pulley 47 to rotate through a belt, the driven pulley 47 rotates to drive the connecting shaft 48 to rotate, the connecting shaft 48 rotates to drive the crushing blade 50 and the driving bevel gear 49 to rotate, the crushing blade 50 rotates to rotationally crush straws and weeds thrown into the sundries cavity 51, and then the straws and the weeds are driven into the filtering pipeline 53 through centrifugal force and filtering of the filter plate 52 and then enter the crushing cavity 54.

Beneficially, a connecting belt pulley 86 is disposed above the left side of the driving belt pulley 64 and located in the rear end wall of the crushing cavity 54, the connecting belt pulley 86 is connected to the driving belt pulley 64 by a belt, the connecting belt pulley 86 is fixedly mounted on a rotating shaft 87, the front end and the rear end of the rotating shaft 87 are respectively rotatably mounted in the front end wall and the rear end wall of the crushing cavity 54, a rotating block 83 fixedly mounted on the rotating shaft 87 is disposed in the crushing cavity 54, a helical gear cavity 84 is disposed in the rotating block 83, a connecting helical gear 85 fixedly mounted on the rotating shaft 87 is disposed in the helical gear cavity 84, six self-rotating helical gears 82 circumferentially arranged along the rotating shaft 87 are disposed in a meshing connection manner at the rear side of the connecting helical gear 85, the self-rotating helical gears 82 are fixedly mounted on a self-rotating shaft 80, and one end of the self-rotating shaft 80, and a crushing rotating head 88 is fixedly arranged on the outer end face of the rotating block 83, which extends from one end of the rotating shaft 80 away from the center line of the rotating shaft 87.

Beneficially, a one-way pipeline 59 fixedly installed in the upper end wall of the fermentation chamber 11 is arranged on the left side of the discharge pipeline 90 on the left side, a biogas processing and storing box 58 is fixedly arranged above the one-way pipeline 59, the upper end of the one-way pipeline 59 extends into the biogas processing and storing box 58, a gas pipeline 57 is fixedly arranged in the upper end wall of the biogas processing and storing box 58, the upper end of the gas pipeline 57 is communicated with the outside, a discharge chamber 61 is communicated with the rear end wall of the fermentation chamber 11, a fertilizer box 60 is fixedly arranged at the rear end of the discharge chamber 61, a connecting chamber 24 is arranged at the communication position of the discharge chamber 61 and the fermentation chamber 11, a cylinder 62 is fixedly arranged in the upper end wall of the connecting chamber 24, a sealing block 63 is fixedly arranged at the lower end of the cylinder 62, the connecting position of the discharge chamber 61 and the fermentation chamber 11 is sealed by the sealing block 63, when the fermentation chamber 11 is in a, the thread sloping block 13 drives the sliding sloping thread block 17 to the right, so that it drives the lower thread shaft 19 to rotate, the lower screw shaft 19 rotates to drive the rotating bevel gear 20 to rotate, the rotating bevel gear 20 rotates to drive the transmission bevel gear 22 to rotate, the transmission bevel gear 22 rotates to drive the upper threaded shaft 23 to rotate, the upper threaded shaft 23 rotates to enable the lower blocking threaded block 25 to move upwards to block the lower sliding inclined block 29 to move rightwards, so that the straw and weeds in the crushing cavity 54 are prevented from being blocked too much, after the fermentation of the fermented product in the fermentation cavity 11 is completed, the fermentation detector 16 detects that no decomposable product is contained therein and then controls the cylinder 62 to drive the closing block 63 to move upwards, so that the fermented objects on the thread sloping block 13 slide into the fertilizer box 60 to be stored and continuously fermented to become usable fertilizer.

Initial state: the electromagnet 79 is in an electrified state, the fixed spring 78 is in a compressed state, and the discharge pipeline 90 is communicated with the fermentation cavity 11.

When the work is started: 1. the excrement of the poultry raising organisms enters the excrement tank 56 through the excrement connecting pipeline 55 for storage, then is fermented in advance in the excrement tank 56, then enters the fermentation cavity 11 through the left discharge pipeline 90, then falls on the thread inclined block 13, so that the thread inclined block 13 is driven by gravity to move downwards, the thread inclined block 13 moves downwards so as to compress the return spring 12 and drive the rotating thread shaft 15 to rotate, the rotating thread shaft 15 rotates so as to drive the stirring blade 14 to rotate, meanwhile, the straws and weeds in the crushing cavity 54 enter the fermentation cavity 11 through the right discharge pipeline 90, then the stirring blade 14 rotates so as to stir the excrement, the straws and the weeds in the fermentation cavity 11 to be more fully bonded, and when the fermentation detector 16 senses that the fermented substances in the fermentation cavity 11 reach a certain degree, the electromagnet 79 is powered off, so that the magnet 76 moves to one side away from the central line of the electromagnet 79 under the action of the resilience force of the fixed spring 78, and the communication between the discharge pipeline 90 and the fermentation chamber 11 is closed.

2. Then the fermentation cavity 11 is fermented to generate biogas, the biogas enters the biogas processing and storing box 58 through the one-way pipeline 59, then the biogas is processed by the biogas processing and storing box 58 to be changed into high-quality biogas and stored in the biogas processing and storing box 58, and then the biogas is transmitted to a household burner through the gas pipeline 57.

3. When a person throws useless straw and weeds into the sundries cavity 51, the person stands on the stepping block 43, the stepping block 43 is subjected to gravity to move downwards, the stepping block 43 moves downwards to drive the connecting shaft 38 to move downwards and compress the engaging spring 41, the connecting shaft 38 moves downwards to drive the driven gear 37 and the pressure rod 36 to move downwards, the driven gear 37 moves downwards to drive the driving gear 35 and the connecting gear 44 to be in gear meshing connection through the driven gear 37, the pressure rod 36 moves downwards to drive the upper sliding block 31 to move downwards and compress the connecting spring 30 through the extending plate 32, the upper sliding block 31 moves downwards to drive the lower sliding block 29 to move rightwards and compress the pressure spring 26, and the lower sliding block 29 drives the upper sliding block 74 to move upwards, the upper moving block 74 moves upward through the insulating block 72 to drive the conductive block 69 to move leftward, and the conductive block 69 moves leftward to drive the plug 68 to be inserted into the opening slot 67, so that the power unit 66 is activated by the power of the power supply 71.

4. The power set 66 is started to make the power set 66 drive the driving shaft 34 to rotate, the driving shaft 34 rotates to drive the driving gear 35 to rotate, the driving gear 35 rotates to drive the driven gear 37 to rotate, the driven gear 37 rotates to drive the connecting gear 44 to rotate, the connecting gear 44 rotates to drive the driven shaft 45 to rotate, the driven shaft 45 rotates to drive the driven belt pulley 47 to rotate through a belt, the driven belt pulley 47 rotates to drive the connecting shaft 48 to rotate, the connecting shaft 48 rotates to drive the crushing blade 50 and the driving bevel gear 49 to rotate, the crushing blade 50 rotates to stir and crush the straws and weeds thrown into the sundries cavity 51, and then the straws and the weeds are driven into the filtering pipeline 53 through centrifugal force and filtering of the filtering plate 52, and then into the pulverization chamber 54.

5. Meanwhile, the driving bevel gear 49 rotates to drive the engaging bevel gear 39 to rotate, the engaging bevel gear 39 rotates to drive the transmission shaft 65 to rotate, the transmission shaft 65 rotates to drive the transmission belt pulley 64 to rotate, the transmission belt pulley 64 rotates to drive the connecting belt pulley 86 to rotate through a belt, the connecting belt pulley 86 rotates to drive the rotating shaft 87 to rotate, the rotating shaft 87 rotates to drive the rotating block 83 and the connecting bevel gear 85 to rotate, the connecting bevel gear 85 rotates to drive the rotation bevel gear 82 to rotate, the rotation bevel gear 82 rotates to drive the rotation shaft 80 to rotate, the rotation shaft 80 rotates to drive the crushing rotating head 88 to rotate, and the crushing rotating head 88 rotates to completely and repeatedly crush the straws and weeds in the crushing cavity 54 and then enable the straws and weeds to enter the discharge pipeline on the right side through the filter block 89 90, when the person leaves the stepping block 43, the upper slide block 31 and the lower slide block 29 are reset under the driving of the engaging spring 41, the connecting spring 30 and the pressure spring 26, so that the plug 68 is separated from the opening groove 67, and the power pack 66 is powered off.

6. When the fermentation cavity 11 is in a full state, the thread inclined block 13 drives the sliding inclined thread block 17 to move rightwards, so that the sliding inclined thread block 17 drives the lower thread shaft 19 to rotate, the lower thread shaft 19 rotates to drive the rotating bevel gear 20 to rotate, the rotating bevel gear 20 rotates to drive the transmission bevel gear 22 to rotate, the transmission bevel gear 22 rotates to drive the upper thread shaft 23 to rotate, the upper thread shaft 23 rotates to enable the lower blocking thread block 25 to move upwards to block the lower sliding inclined block 29 to move rightwards, and the straw and weeds in the crushing cavity 54 are prevented from being blocked too much.

7. After the fermentation of the fermentation product in the fermentation cavity 11 is completed, the fermentation detector 16 detects that the fermentation product does not contain decomposable substances inside and then controls the cylinder 62 to drive the closing block 63 to move upwards, so that the fermented object on the thread inclined block 13 slides to the inside of the fertilizer box 60 to store and continue to ferment so as to make the fertilizer become a fertilizer which can be used.

The above description is only an embodiment of the invention, but the scope of the invention is not limited thereto, and any changes or substitutions that are not thought of through the inventive work should be included in the scope of the invention. Therefore, the protection scope of the invention should be subject to the protection scope defined by the claims.

Claims

1. A fertilizer fermentation device based on a methane tank comprises an outer substrate and is characterized in that: a fermentation cavity is arranged in the outer base body, a fermentation detector is fixedly arranged in the right end wall of the fermentation cavity, a rotary threaded shaft is rotatably arranged in the lower end wall of the fermentation cavity, a threaded inclined block is connected to the rotary threaded shaft in a threaded manner, the threaded inclined block is slidably arranged in the end wall of the fermentation cavity, and reset springs which are bilaterally symmetrical are fixedly arranged on the lower end face of the threaded inclined block; the lower end of the reset spring is fixedly arranged on the lower end wall of the fermentation cavity, a stirring blade fixedly arranged on the rotating threaded shaft is arranged above the threaded inclined block, bilaterally symmetrical discharge pipelines are arranged in the upper end wall of the fermentation cavity, a sliding cavity positioned above the fermentation cavity is arranged in the bilaterally symmetrical discharge pipelines in a penetrating manner, an electromagnet is fixedly arranged on the middle end wall of the sliding cavity, fixed springs fixedly arranged on the end surface of the electromagnet are arranged in the bilaterally symmetrical manner, and a magnet is fixedly arranged at one end of each fixed spring, which is far away from the central line of the electromagnet; magnet has closed discharge pipeline with the intercommunication department in fermentation chamber, left discharge pipeline top intercommunication are equipped with the excrement and urine case, excrement and urine case top has set firmly opening excrement and urine connecting tube up, the right side the discharge pipeline top has set firmly crushing chamber, smash chamber lower extreme wall with discharge pipeline intercommunication department has set firmly the filter block, fermentation chamber right side is equipped with the gear chamber, the gear chamber with slidable mounting is equipped with the oblique thread piece of sliding between the fermentation chamber, the oblique thread piece left end of sliding extends to in the fermentation chamber right-hand member wall, threaded connection is equipped with down the screw shaft in the oblique thread piece right-hand member face of sliding.

2. The biogas digester-based fertilizer fermentation device according to claim 1, characterized in that: the right end of the lower threaded shaft extends into the gear cavity and is fixedly provided with a rotating helical gear, the right end face of the lower threaded shaft is fixedly provided with a torsional spring rotatably arranged in the right end wall of the gear cavity, the upper part of the rotating helical gear is connected with a transmission helical gear in a gear meshing manner, the transmission helical gear is fixedly arranged on the upper threaded shaft, the upper part of the gear cavity is provided with a connecting cavity, a lower blocking threaded block is arranged at the communication part of the connecting cavity and the gear cavity in a sliding manner, the upper end of the upper threaded shaft is in threaded connection with the lower end face of the lower blocking threaded block, a lower sliding inclined block is arranged in the lower end wall of the connecting cavity in a sliding manner, a pressure spring is fixedly arranged on the right end face of the lower sliding inclined block, the right end of the pressure spring is fixedly arranged on the right end wall of the connecting, the articulated removal piece that is equipped with in connecting plate upper end, it moves piece slidable mounting to go up move the piece the power control chamber with connect chamber intercommunication department, it is equipped with the insulating block to go up to move the articulated insulating block that is equipped with in piece upper end, the insulating block upper end extends to the articulated conducting block that is equipped with in the power control intracavity, the conducting block left end is equipped with the plug admittedly, the conducting block right-hand member has set firmly conductive hose, conductive hose right-hand member electric connection is in fixed mounting in the power left end in the power control chamber right end wall, the plug left side is equipped with fixed mounting and is in power group in the power control chamber left end wall, power group right-hand member facial features set firmly with the open slot that the plug.

3. The biogas digester-based fertilizer fermentation device according to claim 1, characterized in that: the power supply control cavity is characterized in that a transmission cavity is arranged on the left side of the power supply control cavity, the lower end wall of the transmission cavity is communicated with the connection cavity, an upper sliding inclined block is arranged at the communication position of the connection cavity and the transmission cavity in a sliding manner, extending plates are arranged on the upper sliding inclined block in a bilateral symmetry manner, the lower ends of the extending plates are fixedly provided with connecting springs, the lower ends of the connecting springs are fixedly arranged on the lower end wall of the connection cavity and the communication position of the transmission cavity far away from the central line side of the upper sliding inclined block, a driving shaft is arranged above the power set in a power connection manner, a driving gear positioned in the transmission cavity is fixedly arranged on the driving shaft, a driven gear is arranged above the left side of the driving gear, the driven gear is fixedly arranged on a connecting shaft, an open slot with an upward opening is arranged above the, the upper end of the connecting shaft extends to the open slot and is rotatably provided with a treading block, the lower end face of the treading block is fixedly provided with a connecting spring, the lower end of the connecting spring is fixedly arranged on the lower end wall of the open slot, and the lower end face of the driven gear is rotatably provided with a pressure rod.

4. The biogas digester-based fertilizer fermentation device according to claim 1, characterized in that: a connecting gear is arranged below the left side of the driven gear, the connecting gear is fixedly arranged on a driven shaft, the lower end of the driven shaft is rotatably arranged in the lower end wall of the left side of the transmission cavity, a driving belt pulley fixedly arranged on the driven shaft is arranged below the connecting gear, the left side of the driving belt pulley is provided with a driven belt pulley, the driving belt pulley is connected with the driven belt pulley through a belt, the driven belt pulley is fixedly arranged on a connecting shaft, a sundry cavity with an upward opening is arranged above the driven belt pulley, a driving helical gear fixedly arranged on the connecting shaft is arranged above the driven belt pulley, the connecting shaft is rotatably arranged between the end wall of the left side of the transmission cavity and the sundry cavity, the upper end of the connecting shaft extends to the sundry cavity and is fixedly provided with a crushing blade, the left side of the crushing, the filtering pipe with debris chamber intercommunication department sets firmly the filter, the meshing connection of initiative helical gear rear side gear is equipped with the linking helical gear, linking helical gear fixed mounting is on the transmission shaft, the transmission shaft rear end rotates to be installed in the left rear end wall of transmission chamber, linking helical gear rear side is equipped with fixed mounting the epaxial drive pulley of transmission.

5. The biogas digester-based fertilizer fermentation device according to claim 1, characterized in that: a connecting belt pulley positioned in the rear end wall of the crushing cavity is arranged above the left side of the transmission belt pulley, the connecting belt pulley is connected with the transmission belt pulley by a belt, the connecting belt pulley is fixedly arranged on the rotating shaft, the front end and the rear end of the rotating shaft are respectively and rotatably arranged in the front end wall and the rear end wall of the crushing cavity, a rotating block fixedly arranged on the rotating shaft is arranged in the crushing cavity, a helical gear cavity is arranged in the rotating block, a connecting helical gear fixedly arranged on the rotating shaft is arranged in the helical gear cavity, the rear side gear of the connecting helical gear is engaged and connected with six self-rotating helical gears arranged along the circumference of the rotating shaft, the self-rotating bevel gear is fixedly arranged on the self-rotating shaft, one end of the self-rotating shaft, which is far away from the central line of the rotating shaft, is rotatably arranged in the outer end wall of the bevel gear cavity, and one end of the rotation shaft, which is far away from the center line of the rotation shaft, extends out of the outer end face of the rotation block and is fixedly provided with a crushing rotation head.

6. The biogas digester-based fertilizer fermentation device according to claim 1, characterized in that: the left side of the discharging pipeline is provided with a one-way pipeline fixedly installed in the upper end wall of the fermentation cavity, a methane treatment storage box is fixedly arranged above the one-way pipeline, the upper end of the one-way pipeline extends into the methane treatment storage box, a gas pipeline is fixedly arranged in the upper end wall of the methane treatment storage box, the upper end of the gas pipeline is communicated with the outside, a discharging cavity is arranged in the rear end wall of the fermentation cavity in a communicated manner, a fertilizer box is fixedly arranged at the rear end of the discharging cavity, a linking cavity is arranged at the communicating position of the discharging cavity and the fermentation cavity, a cylinder is fixedly arranged in the upper end wall of the linking cavity, a sealing block is fixedly arranged at the lower end of the cylinder, and the discharging cavity and the communicating position of the fermentation cavity are sealed by the.