CN113073035A

CN113073035A - Industrial organic solid waste anaerobic fermentation device

Info

Publication number: CN113073035A
Application number: CN202110381465.6A
Authority: CN
Inventors: 刘林德
Original assignee: Individual
Current assignee: Individual
Priority date: 2021-04-09
Filing date: 2021-04-09
Publication date: 2021-07-06

Abstract

The invention discloses an industrial organic solid waste anaerobic fermentation device, which comprises fermentation equipment and a power generation assembly, wherein the power generation assembly is connected to one side of the fermentation equipment, when a fermentation tank is in a region with large cold wind, airflow blows fan blades to rotate, the fan blades rotate and simultaneously drive a first gear to rotate, the first gear rotates and then drives a second gear arranged on one side, the second gear rotates and then drives a third gear to rotate, the third gear rotates and then drives a fourth gear, the fourth gear rotates and then drives a first conical tooth, the first conical tooth rotates and then drives a second conical tooth arranged on one side, the second conical tooth drives a sixth gear to rotate through a fifth gear, the sixth gear rotates and then drives crankshafts arranged at two ends, the crankshafts can push air cylinders through first push rods, so that air can enter an inner cavity of the assembly from a first air tank, and the power generation assembly can be conveniently driven to rotate, this is a cleaner than conventional wind power generation.

Description

Industrial organic solid waste anaerobic fermentation device

Technical Field

The invention relates to the technical field of anaerobic fermentation devices, in particular to an industrial organic solid waste anaerobic fermentation device.

Background

Biogas fermentation is also called anaerobic digestion and anaerobic fermentation, and refers to a process of finally forming combustible mixed gas such as methane, carbon dioxide and the like by decomposing and metabolizing organic substances (such as human, livestock and poultry excrement, straws, weeds and the like) through various microorganisms under certain moisture, temperature and anaerobic conditions. The biogas fermentation system is based on a biogas fermentation principle, aims at energy production, and finally realizes comprehensive utilization of biogas, biogas slurry and biogas residues.

However, when the existing anaerobic fermentation device is used for fermenting in a place with large cold wind, the fermentation tank needs to be heated intermittently, the influence on the fermentation caused by too low temperature is prevented, and the ventilation wind power is used for storing energy under air pressure and is cleaner.

The problems described above are addressed. Therefore, an industrial organic solid waste anaerobic fermentation device is provided.

Disclosure of Invention

The invention aims to provide an industrial organic solid waste anaerobic fermentation device, when a fermentation tank is in a region with large cold wind, airflow blows fan blades to rotate, the fan blades rotate and simultaneously drive a first gear to rotate, the first gear rotates and then drives a second gear arranged on one side, the second gear rotates a third gear, the third gear rotates and then drives a fourth gear, the fourth gear rotates and then drives a first conical tooth to rotate, the first conical tooth rotates and then drives a second conical tooth arranged on one side, the second conical tooth drives a sixth gear to rotate through a fifth gear, the sixth gear rotates and then drives crankshafts arranged at two ends, the crankshafts can push air cylinders through first push rods, so that air can enter an inner cavity of an air tank assembly from the first push rod, an air inlet hole can conveniently drive a power generation assembly to rotate, compared with the traditional wind power generation type, the fermentation tank is cleaner, thereby solving the problems in the background art described above.

In order to achieve the purpose, the invention provides the following technical scheme: an industrial organic solid waste anaerobic fermentation device comprises fermentation equipment and a power generation assembly, wherein one side of the fermentation equipment is connected with the power generation assembly, the fermentation equipment comprises a fermentation tank, a gas tank assembly, fan blades, a gas pipe, a barometer, a gas valve assembly and an electric heating assembly, the gas tank assembly is installed at the upper end of the fermentation tank, the fan blades are installed at the upper end of one side of the gas tank assembly, the gas pipe is installed at the lower end of one side of the gas tank assembly, the barometer is installed at the lower end of the gas pipe, the gas valve assembly is installed at the upper end of the outer surface of the gas pipe, the electric heating assembly;

the power generation assembly comprises a case, a power line, heat dissipation holes and an air inlet pipe, wherein the power line is installed at the lower end of one side of the case, the heat dissipation holes are formed in the two sides of the case, and the air inlet pipe is installed at one side of the case;

the gas tank component comprises a partition plate, a pressurizing cylinder, a labor-saving component, a pressurizing component and a driving component, the partition plate is mounted at the upper end of an inner cavity of the gas tank component, the pressurizing cylinder is mounted on one side of the upper end of the partition plate, the labor-saving component is mounted on the other side of the upper end of the partition plate, the pressurizing component is mounted in the inner cavity of the pressurizing cylinder, and the driving component is mounted on one side of the;

the fan blade comprises a first rotating shaft and a first gear, the first rotating shaft is installed on one side of the fan blade, and the first gear is installed on the other side of the first rotating shaft;

the partition plate comprises a first air inlet hole, a second air valve assembly and a second spring, the first air inlet hole is formed in one side of the upper end of the partition plate, the second air valve assembly is installed in the inner cavity of the first air inlet hole, and the second spring is installed on the outer surface of the second air valve assembly.

Furthermore, laborsaving subassembly includes second gear, third gear, fourth gear, first toper tooth, second toper tooth and fifth gear, and the back mounted of second gear has the third gear, and one side meshing of third gear is connected with the fourth gear, and the back mounted of fourth gear has first toper tooth, and second toper tooth is installed to one side of first toper tooth, and the fifth gear is installed to the opposite side of second toper tooth.

Further, the pressurizing assembly comprises an air cylinder, a first push rod, a first air valve assembly and a first spring, the first push rod is mounted on the back face of the air cylinder, the first air valve assembly is mounted on one side of the air cylinder, and the first spring is mounted at the upper end of the outer surface of the first air valve assembly.

Further, drive assembly includes sixth gear and bent axle, and the bent axle is installed at the both ends of sixth gear, and the bent axle is reverse symmetry installation.

Further, the machine case includes second pressurization subassembly, power generation facility, the driving-disc, rotating assembly, the connecting pipe, top cap and first push pedal, second pressurization subassembly is installed to the inner chamber one side of machine case, power generation facility is installed to the inner chamber opposite side of machine case, the driving-disc is installed in power generation facility's front, one side that is close to second pressurization subassembly is installed a pair of rotating assembly, the connecting pipe is installed to the upper end both sides of second pressurization subassembly, the other end of connecting pipe is connected with the top cap, first push pedal is installed to the inner chamber of second pressurization subassembly.

Further, the driving disc includes spacing tooth, rotor plate, seventh gear, tooth and torsional spring, and spacing tooth has been seted up to the inner chamber of driving disc, and the rotor plate is installed in the front of driving disc, and the seventh gear is installed in the front of rotor plate, and the upper and lower both ends of rotor plate are the reverse tooth of installing, and the surface mounting of tooth has the torsional spring.

Further, rotating assembly includes first rotary rod and spacing groove, and the spacing groove has been seted up to the surface upper end of first rotary rod.

Further, the top cover comprises a second push plate, a first ejector rod and a limiting column, the second push plate is installed in the inner cavity of the top cover, the first ejector rod is installed on one side of the second push plate, and the limiting column is installed on one side of the outer surface of the first ejector rod.

Furthermore, first push pedal includes rack and kicking block, and the rack is installed to one side of first push pedal, and the kicking block is installed to the surface upper end of rack.

Compared with the prior art, the invention has the following beneficial effects:

1. the invention provides an industrial organic solid waste anaerobic fermentation device, when a fermentation tank is in a region with large cold wind, the air flow blows the fan blades to rotate, the fan blades drive the first gear to rotate while rotating, the first gear drives the second gear installed on one side after rotating, the second gear enables the third gear to rotate, the third gear drives the fourth gear after rotating, the fourth gear enables the first conical tooth to rotate, the first conical tooth drives the second conical tooth installed on one side after rotating, the second conical tooth drives the sixth gear to rotate through the fifth gear, the sixth gear drives the crankshafts installed at two ends after rotating, and the crankshafts can push the air cylinders through the first push rods, thereby can make gaseous follow first inlet port get into gas pitcher subassembly inner chamber to conveniently drive the electricity generation subassembly and rotate, compare traditional wind power generation formula, this kind of cleanness more.

2. When the inner cavity of the fermentation tank needs to be heated, the air pressure of the inner cavity of the air tank assembly enters the inner cavity of the top cover from the air inlet pipe, the air alternately enters the inner cavity of the second pressurizing assembly through the connecting pipe, the first push plate can be pushed to reciprocate after the air pressure enters the inner cavity of the second pressurizing assembly, when the rack is pushed by the first push plate, the rack drives the rotating plate to rotate through the seventh gear, the teeth of the rotating plate can be retracted, when the seventh gear is pulled by the rack to rotate, the teeth arranged at the upper end and the lower end of the rotating plate can be clamped on the limiting teeth, so that the driving disc can be driven to rotate, and the driving disc rotates and then generates electricity, so that the electric heating assembly can heat the fermentation tank to increase the heating temperature.

Drawings

FIG. 1 is a schematic view of the overall structure of the present invention;

FIG. 2 is a schematic view of the structure of the fermentation apparatus of the present invention;

figure 3 is a schematic view of the internal construction of a gas cylinder assembly of the present invention;

FIG. 4 is a schematic top internal view of a gas cylinder assembly of the present invention;

FIG. 5 is a schematic diagram of a power generation assembly of the present invention;

FIG. 6 is a schematic view of the back side of the power generation assembly of the present invention;

FIG. 7 is a schematic side view of the internal structure of the power generation assembly of the present invention;

FIG. 8 is a schematic view of a drive plate of the present invention;

fig. 9 is an enlarged schematic view of a portion a of fig. 7 according to the present invention.

In the figure: 1. a fermentation device; 11. a fermentation tank; 12. a gas tank assembly; 121. a partition plate; 1211. a first air intake hole; 1212. a second air valve assembly; 1213. a second spring; 122. a pressurizing cylinder; 123. a labor-saving assembly; 1231. a second gear; 1232. a third gear; 1233. a fourth gear; 1234. a first conical tooth; 1235. a second tapered tooth; 1236. a fifth gear; 124. a pressurizing assembly; 1241. a cylinder; 1242. a first push rod; 1243. a first gas valve assembly; 1244. a first spring; 125. a drive assembly; 1251. a sixth gear; 1252. a crankshaft; 13. a fan blade; 131. a first rotating shaft; 132. a first gear; 14. an air tube; 15. a barometer; 16. an air valve assembly; 17. an electrical heating assembly; 2. a power generation assembly; 21. a chassis; 211. a second pressurizing assembly; 212. a power generation device; 213. a drive disc; 2131. limiting teeth; 2132. a rotating plate; 2133. a seventh gear; 2134. teeth; 2135. a torsion spring; 214. a rotating assembly; 2141. a first rotating rod; 2142. a limiting groove; 215. a connecting pipe; 216. a top cover; 2161. a second push plate; 2162. a first ejector rod; 2163. a limiting column; 217. a first push plate; 2171. a rack; 2172. a top block; 22. a power line; 23. heat dissipation holes; 24. an air inlet pipe.

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.

Referring to fig. 1-2, an industrial organic solid waste anaerobic fermentation device comprises a fermentation apparatus 1 and a power generation assembly 2, wherein one side of the fermentation apparatus 1 is connected with the power generation assembly 2, and the device is characterized in that: fermentation equipment 1 includes fermentation cylinder 11, gas tank subassembly 12, flabellum 13, trachea 14, barometer 15, pneumatic valve subassembly 16 and electric heating element 17, gas tank subassembly 12 is installed to fermentation cylinder 11's upper end, flabellum 13 is installed to one side upper end of gas tank subassembly 12, trachea 14 is installed to one side lower extreme of gas tank subassembly 12, barometer 15 is installed to trachea 14's lower extreme, pneumatic valve subassembly 16 is installed to trachea 14's surface upper end, electric heating element 17 is installed to the lower extreme of gas tank subassembly 12, trachea 14's end-to-end connection has electricity generation subassembly 2.

Referring to fig. 3-4, the gas tank assembly 12 includes a partition plate 121, the partition plate 121 includes a first gas inlet 1211, a second gas valve assembly 1212, and a second spring 1213, the first gas inlet 1211 is disposed on one side of the upper end of the partition plate 121, the second gas valve assembly 1212 is mounted in an inner cavity of the first gas inlet 1211, the second spring 1213 is mounted on an outer surface of the second gas valve assembly 1212, the pressure cylinder 122, and the labor-saving assembly 123, the labor-saving assembly 123 includes a second gear 1231, a third gear 1232, a fourth gear 1233, a first conical tooth 1234, a second conical tooth 1235, and a fifth gear 1236, the third gear 1232 is mounted on a back surface of the second gear 1231, the fourth gear 1233 is engaged with the fourth gear 1233 on a back surface of the fourth gear 1233, the first conical tooth 1234 is mounted on a side of the first conical tooth 1234, the fifth gear 1236 is mounted on another side of the second conical tooth 1235, and the pressure assembly 124, the pressurizing assembly 124 comprises an air cylinder 1241, a first push rod 1242, a first air valve assembly 1243 and a first spring 1244, the first push rod 1242 is mounted on the back of the air cylinder 1241, the first air valve assembly 1243 is mounted on one side of the air cylinder 1241, the first spring 1244 is mounted on the upper end of the outer surface of the first air valve assembly 1243, the driving assembly 125 comprises a sixth gear 1251 and a crankshaft 1252, the crankshafts 1252 are mounted at two ends of the sixth gear 1251 and are mounted in reverse symmetry, a partition plate 121 is mounted on the upper end of the inner cavity of the air tank assembly 12, a pressurizing cylinder 122 is mounted on one side of the upper end of the partition plate 121, a labor-saving assembly 123 is mounted on the other side of the upper end of the partition plate 121, the pressurizing assembly 124 is mounted in the inner cavity of the pressurizing cylinder 122, the driving assembly 125 is mounted on one side of the pressurizing cylinder 122, the fan blade 13 comprises a first rotating shaft 131 and a first gear 132, when the fermentation tank 11 is in a region with cold wind, the airflow blows the fan blades 13 to rotate, the fan blades 13 rotate and simultaneously drive the first gear 132 to rotate, the first gear 132 rotates and then drives the second gear 1231 installed on one side, the second gear 1231 rotates the third gear 1232, the third gear 1232 rotates and then drives the fourth gear 1233, the fourth gear 1233 rotates the first conical tooth 1234, the first conical tooth 1234 rotates and then drives the second conical tooth 1235 installed on one side, the second conical tooth 1235 drives the sixth gear 1251 to rotate through the fifth gear 1236, the sixth gear 1251 rotates and then drives the crankshafts 1252 installed on both ends, the crankshafts 1252 can push the cylinders 1241 through the first push rods 1242, thereby enabling gas to enter the inner chamber of the gas tank assembly 12 through the first gas inlet 1211 to facilitate driving the power generation assembly 2 to rotate, which is more clean than a conventional wind power generation type.

Referring to fig. 5-6, the power generation assembly 2 includes a case 21, a power line 22, heat dissipation holes 23 and an air inlet pipe 24, the power line 22 is installed at the lower end of one side of the case 21, the heat dissipation holes 23 are opened at the two sides of the case 21, and the air inlet pipe 24 is installed at one side of the case 21.

Referring to fig. 7-9, the case 21 includes a second pressing member 211, a power generating device 212, and a driving disc 213, the driving disc 213 includes a limiting tooth 2131, a rotating plate 2132, a seventh gear 2133, a tooth 2134 and a torsion spring 2135, the driving disc 213 has a limiting tooth 2131 in its inner cavity, the driving disc 213 has a rotating plate 2132 in its front surface, the rotating plate 2132 has a seventh gear 2133 in its front surface, the rotating plate 2132 has teeth 2134 in opposite directions at its upper and lower ends, the torsion spring 2135 is mounted on the outer surface of the teeth 2134, the rotating member 214 includes a first rotating rod 2141 and a limiting groove 2142 in its front surface, the first rotating rod 2141 has a limiting groove 2142 in its upper end, the connecting tube 215 and the top cover 216 includes a second push plate 2161, a first push rod 2162 and a limiting post 2163 in its inner cavity, the second push plate 2161 is mounted in its top cover 216, the first push rod 2162 is mounted on one side of the second push plate 2161, the first push, the first push plate 217 comprises a rack 2171 and a top block 2172, the rack 2171 is installed on one side of the first push plate 217, the top block 2172 is installed on the upper end of the outer surface of the rack 2171, when the inner cavity of the fermenter 11 needs to be heated, the air pressure in the inner cavity of the gas tank assembly 12 enters the inner cavity of the top cap 216 from the air inlet pipe 24, the air alternately enters the inner cavity of the second pressurizing assembly 211 through the connecting pipe 215, the air pressure can push the first push plate 217 to reciprocate after entering the inner cavity of the second pressurizing assembly 211, when the rack 2171 is pushed by the first push plate 217, the rack 2171 drives the rotating plate 2132 to rotate through the seventh gear 2133, the rotating plate 2132 enables the teeth 2134 to retract, when the seventh gear 2133 is pulled by the rack 2171 to rotate, the teeth 2134 installed on the upper end and the lower end of the rotating plate 2132 can be clamped in the limiting teeth 2131, so as to drive the driving, therefore, the heating temperature of the fermentation tank 11 can be increased by the electric heating component 17, the second pressurizing component 211 is installed on one side of the inner cavity of the case 21, the power generation device 212 is installed on the other side of the inner cavity of the case 21, the driving disc 213 is installed on the front surface of the power generation device 212, the pair of rotating components 214 is installed on one side close to the second pressurizing component 211, the connecting pipe 215 is installed on two sides of the upper end of the second pressurizing component 211, the other end of the connecting pipe 215 is connected with the top cover 216, and the first push plate 217 is installed in the inner cavity of.

In summary, the following steps: the invention provides an industrial organic solid waste anaerobic fermentation device, when a fermentation tank 11 is in a region with large cold wind, airflow blows a fan blade 13 to rotate, the fan blade 13 rotates and simultaneously drives a first gear 132 to rotate, the first gear 132 rotates and then drives a second gear 1231 arranged on one side, the second gear 1231 rotates a third gear 1232, the third gear 1232 rotates and then drives a fourth gear 1233, the fourth gear 1233 rotates a first conical tooth 1234, the first conical tooth 1234 rotates and then drives a second conical tooth 1235 arranged on one side, the second conical tooth 1235 drives a sixth gear 1251 to rotate through a fifth gear 1236, the sixth gear 1251 rotates and then drives crankshafts 1252 arranged on two ends, the crankshafts 1252 can push air cylinders 1241 through first push rods 1242, so that air can enter the inner cavity of an air tank component 12 from first air inlet 1211, and then the power generation component 2 can be conveniently driven to rotate, compared with the traditional wind power generation type, the cleaning is better, when the inner cavity of the fermentation tank 11 needs to be heated, the air pressure in the inner cavity of the air tank assembly 12 enters the inner cavity of the top cover 216 from the air inlet pipe 24, the air alternately enters the inner cavity of the second pressurizing assembly 211 through the connecting pipe 215, the air pressure can push the first push plate 217 to reciprocate after entering the inner cavity of the second pressurizing assembly 211, when the first push plate 217 pushes the rack 2171, the rack 2171 drives the rotating plate 2132 to rotate through the seventh gear 2133, the rotating plate 2132 enables the teeth 2134 to retract, when the rack 2171 pulls the seventh gear 2133 to rotate, the teeth 2134 arranged at the upper end and the lower end of the rotating plate 2132 can be clamped on the limiting teeth 2131, so that the driving plate 213 can be driven to rotate, the driving plate 213 rotates and then generates electricity, so that the electric heating assembly 17 can heat the fermentation tank.

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 changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims

1. The utility model provides an organic useless anaerobic fermentation device admittedly of industry, includes fermentation equipment (1) and electricity generation subassembly (2), and one side of fermentation equipment (1) is connected with electricity generation subassembly (2), its characterized in that: the fermentation equipment (1) comprises a fermentation tank (11), a gas tank assembly (12), fan blades (13), a gas pipe (14), a barometer (15), a gas valve assembly (16) and an electric heating assembly (17), wherein the gas tank assembly (12) is installed at the upper end of the fermentation tank (11), the fan blades (13) are installed at the upper end of one side of the gas tank assembly (12), the gas pipe (14) is installed at the lower end of one side of the gas tank assembly (12), the barometer (15) is installed at the lower end of the gas pipe (14), the gas valve assembly (16) is installed at the upper end of the outer surface of the gas pipe (14), the electric heating assembly (17) is installed at the lower end of the gas tank assembly (;

the power generation assembly (2) comprises a case (21), a power line (22), heat dissipation holes (23) and an air inlet pipe (24), wherein the power line (22) is installed at the lower end of one side of the case (21), the heat dissipation holes (23) are formed in the two sides of the case (21), and the air inlet pipe (24) is installed at one side of the case (21);

the gas tank component (12) comprises a partition plate (121), a pressurizing cylinder (122), a labor-saving component (123), a pressurizing component (124) and a driving component (125), the partition plate (121) is installed at the upper end of an inner cavity of the gas tank component (12), the pressurizing cylinder (122) is installed on one side of the upper end of the partition plate (121), the labor-saving component (123) is installed on the other side of the upper end of the partition plate (121), the pressurizing component (124) is installed in the inner cavity of the pressurizing cylinder (122), and the driving component (125) is installed on one side of the pressurizing cylinder (122;

the fan blade (13) comprises a first rotating shaft (131) and a first gear (132), the first rotating shaft (131) is installed on one side of the fan blade (13), and the first gear (132) is installed on the other side of the first rotating shaft (131);

the partition plate (121) comprises a first air inlet hole (1211), a second air valve assembly (1212) and a second spring (1213), the first air inlet hole (1211) is formed in one side of the upper end of the partition plate (121), the second air valve assembly (1212) is installed in an inner cavity of the first air inlet hole (1211), and the second spring (1213) is installed on the outer surface of the second air valve assembly (1212).

2. The industrial organic solid waste anaerobic fermentation device of claim 1, wherein: laborsaving subassembly (123) include second gear (1231), third gear (1232), fourth gear (1233), first toper tooth (1234), second toper tooth (1235) and fifth gear (1236), the back mounted of second gear (1231) has third gear (1232), one side meshing connection of third gear (1232) has fourth gear (1233), the back mounted of fourth gear (1233) has first toper tooth (1234), second toper tooth (1235) is installed to one side of first toper tooth (1234), fifth gear (1236) is installed to the opposite side of second toper tooth (1235).

3. The industrial organic solid waste anaerobic fermentation device of claim 1, wherein: the pressurizing assembly (124) comprises a cylinder (1241), a first push rod (1242), a first air valve assembly (1243) and a first spring (1244), the first push rod (1242) is installed on the back face of the cylinder (1241), the first air valve assembly (1243) is installed on one side of the cylinder (1241), and the first spring (1244) is installed at the upper end of the outer surface of the first air valve assembly (1243).

4. The industrial organic solid waste anaerobic fermentation device of claim 1, wherein: the driving assembly (125) comprises a sixth gear (1251) and a crankshaft (1252), the crankshaft (1252) is installed at two ends of the sixth gear (1251), and the crankshaft (1252) is installed in a reverse symmetry mode.

5. The industrial organic solid waste anaerobic fermentation device of claim 1, wherein: case (21) includes second pressurization subassembly (211), power generation facility (212), driving disc (213), rotating assembly (214), connecting pipe (215), top cap (216) and first push pedal (217), second pressurization subassembly (211) is installed to the inner chamber one side of case (21), power generation facility (212) are installed to the inner chamber opposite side of case (21), driving disc (213) are installed in the front of power generation facility (212), one rotation subassembly (214) is installed to one side that is close to second pressurization subassembly (211), connecting pipe (215) are installed to the upper end both sides of second pressurization subassembly (211), the other end of connecting pipe (215) is connected with top cap (216), first push pedal (217) is installed to the inner chamber of second pressurization subassembly (211).

6. The industrial organic solid waste anaerobic fermentation device of claim 5, wherein: the driving disc (213) comprises limiting teeth (2131), a rotating plate (2132), a seventh gear (2133), teeth (2134) and a torsion spring (2135), the limiting teeth (2131) are arranged in an inner cavity of the driving disc (213), the rotating plate (2132) is installed on the front surface of the driving disc (213), the seventh gear (2133) is installed on the front surface of the rotating plate (2132), the teeth (2134) are installed on the upper end and the lower end of the rotating plate (2132) in the reverse direction, and the torsion spring (2135) is installed on the outer surface of the teeth (2134).

7. The industrial organic solid waste anaerobic fermentation device of claim 5, wherein: the rotating assembly (214) comprises a first rotating rod (2141) and a limiting groove (2142), and the limiting groove (2142) is formed in the upper end of the outer surface of the first rotating rod (2141).

8. The industrial organic solid waste anaerobic fermentation device of claim 1, wherein: the top cover (216) comprises a second push plate (2161), a first ejector rod (2162) and a limiting column (2163), the second push plate (2161) is installed in the inner cavity of the top cover (216), the first ejector rod (2162) is installed on one side of the second push plate (2161), and the limiting column (2163) is installed on one side of the outer surface of the first ejector rod (2162).

9. The industrial organic solid waste anaerobic fermentation device of claim 1, wherein: the first push plate (217) comprises a rack (2171) and a top block (2172), the rack (2171) is installed on one side of the first push plate (217), and the top block (2172) is installed on the upper end of the outer surface of the rack (2171).