CN115591907A

CN115591907A - Auxiliary mechanism for biodegradable micro-plastic

Info

Publication number: CN115591907A
Application number: CN202211324649.XA
Authority: CN
Inventors: 宋文侠; 刘月
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-10-27
Filing date: 2022-10-27
Publication date: 2023-01-13

Abstract

The invention discloses an auxiliary mechanism for biodegradable micro-plastic, which comprises a degradation box, a separation box, a circulation box, a heating air pump and a stirring shaft, wherein the separation box is arranged on the surface of one side of the degradation box, the circulation box is arranged on the surface of the other side of the degradation box, the heating air pump is arranged on the circulation box, and the stirring shaft is positioned on the surface of one side of the degradation box. The invention can separate and degrade the plastic in the degradation box by using the concave-convex partition plates in the square partition frame, and stir the plastic by using the stirring rod, so that the residues after the plastic degradation can rise and be separated from the plastic, thereby ensuring that the degradation liquid is fully contacted with the plastic, and improving the degradation efficiency.

Description

Auxiliary mechanism for biodegradable micro-plastic

Technical Field

The invention relates to the field of plastic degradation related equipment, in particular to an auxiliary mechanism for biodegradation of micro-plastic.

Background

The continuous and rapid development of the plastic product industry injects new vitality into the world economy, but with the continuous increase of the application of plastic products in various fields, the hidden danger caused by the ecological balance of waste plastics to the environment is also increased, various governments and research institutions take measures in a dispute, the white pollution is reduced by increasing the degradable plastics which are more friendly to the environment in recycling and research and development of the waste plastics, and the problem of environmental pollution of plastic wastes is comprehensively promoted and solved through the management and control of the whole life cycle of the plastic products.

In the plastic degradation process, microorganisms are required to be utilized for plastic degradation, degradation work is carried out on plastic through full contact of the microorganisms and the plastic, but the degradation efficiency of the plastic is reduced due to the influence of residues generated after the plastic is degraded, and meanwhile, the existing degradation device cannot meet the requirement of adjusting the factors due to the fact that the rate of the microorganisms for degrading the plastic is related to the factors such as temperature and aeration, and the degradation efficiency of the plastic is influenced.

Disclosure of Invention

The invention aims to solve the problems and designs an auxiliary mechanism for biodegradable micro-plastics.

In order to achieve the purpose, the invention adopts the following technical scheme:

an auxiliary mechanism for biodegradable micro-plastic comprises a degradation box, a separation box, a circulation box, a heating air pump and a stirring shaft, wherein the separation box is arranged on the surface of one side of the degradation box;

the novel gas injection device comprises a decomposition box, partition boxes, a gas injection pipe, a gas inlet short pipe, a one-way valve I, a fixing rod and a fixing rod, wherein the partition boxes are uniformly distributed on the side surface of one side of the decomposition box, the partition boxes are communicated with the decomposition box, a square partition frame is arranged in each partition box, the square partition frames are connected with the partition boxes in a sliding manner, concave-convex partition plates are arranged above the square partition frames, the concave-convex surfaces of the concave-convex partition plates are square cones, a plurality of annular gas injection pipes are arranged below the square partition frames, the centers of the annular gas injection pipes correspond to the centers of the upper convex surfaces of the concave-convex partition plates, an aeration nozzle is arranged at one side in each annular gas injection pipe, the annular gas injection pipes are communicated through a connecting gas pipe, the annular gas injection pipes at one side in each square partition frame are provided with gas inlet short pipes, the gas inlet short pipes extend out of the square partition frames, the one-way valves I are arranged on the annular gas injection pipes at the other side in the square partition frames, and the fixing rods are fixedly connected with the square partition frames;

the upper surface of the circulation box is provided with a circulation pipe, the circulation pipe is fixedly connected with the upper part of the side surface of the degradation box, the lower surface of the circulation box is provided with an extraction pipe, the extraction pipe is fixedly connected with the lower part of the side surface of the degradation box, the extraction pipe is provided with a circulation pump, the center of the interior of the extraction box is provided with an aeration pipe, the outer surface of the aeration pipe is provided with a plurality of aeration holes, the aeration holes are uniformly distributed on the aeration pipe, and the aeration pipe is provided with a one-way valve II.

Furthermore, an air outlet pipe is installed at the air outlet end of the heating air pump and fixedly connected with the aeration pipe, an air outlet branch pipe is installed on the air outlet pipe, a first electromagnetic valve is installed on the air outlet branch pipe, an aeration short pipe is installed at one end of the separation box and fixedly connected with the air outlet branch pipe, an exhaust pipe is installed on the air outlet branch pipe, a miniature exhaust pump is installed on the exhaust pipe, and a second electromagnetic valve is installed on the exhaust pipe.

Further, the (mixing) shaft with cut apart the crisscross distribution of case, the horizontal evenly distributed of (mixing) shaft is in the degradation incasement, be connected through mechanical seal between (mixing) shaft and the degradation case, install a plurality of puddlers on the (mixing) shaft, it is a plurality of puddler evenly distributed, driven bevel gear is installed to the one end of (mixing) shaft.

Further, the one end of (mixing) shaft is equipped with the transmission pivot, install a plurality of transmission bevel gears, it is a plurality of in the transmission pivot transmission bevel gear and driven bevel gear one-to-one, transmission bevel gear and driven bevel gear interlock mutually, be connected through transmission bearing and transmission bearing frame between transmission pivot and the degradation case, transmission pivot one end installation double flute belt pulley, the cover is equipped with driving belt between the double flute belt pulley, install driving motor on the degradation case, driving motor's rotatory end installation driving pulley, the cover is equipped with driving belt between driving pulley and one of them double flute belt pulley.

Furthermore, the outer surfaces of the two ends of the square separation frame are provided with annular sealing grooves, annular sealing gaskets are arranged in the annular sealing grooves, and one end of the square separation frame is in movable contact with the inner wall of the degradation box.

Furthermore, a first temperature sensor is arranged inside the circulation box, a second temperature sensor is arranged inside the degradation box, and a third temperature sensor is arranged inside the air outlet pipe.

Furthermore, the concave surfaces and the convex surfaces on the concave-convex partition plates are distributed in a staggered manner.

Further, the inner diameter of the annular gas lance is larger than the maximum dimension of the micro plastic.

The auxiliary mechanism for the biodegradable micro-plastic manufactured by the technical scheme of the invention has the following beneficial effects:

this complementary unit utilizes the unsmooth division board in the square partition frame, can make and separate the degradation to the plastics of degradation incasement to stir plastics through the puddler, thereby make the residue after the plastics degradation can rise and the plastics separation, thereby guarantee the abundant contact of degradation liquid and plastics, improve degradation efficiency.

This complementary unit utilizes the hot-air that the heating air pump provided, can aerate and heat the degradation liquid in the circulation case on the one hand, and on the other hand can aerate and heat the degradation incasement through the aeration shower nozzle on the jet-propelled pipe of annular again to guarantee that the degradation liquid can be in high-efficient operating condition, in order to improve degradation efficiency.

This complementary unit utilizes aeration shower nozzle spun hot-air, can aerate degradation liquid on the one hand, and on the other hand can heat degradation liquid, can utilize the air current of spraying to promote plastics simultaneously again and rotate, blows to the upper groove of unsmooth division board, makes plastics rotate in unsmooth division board below to avoid plastics to shelter from the opening of unsmooth plane of separation, can separate with plastics along with self buoyancy with the assurance residue after the degradation.

This complementary unit utilizes the crisscross distribution of concave surface and convex surface through the use of unsmooth division board, can avoid appearing the circulation dead angle on the one hand, and it is more convenient to make the residue rise, and on the other hand plastics degradation accomplishes the back, and the residue can be along with the emission of degradation liquid and discharge fast again, avoids the residue to stay on unsmooth division board.

This complementary unit through the use of circulating pump, can make the degradation liquid carry out the circulation flow, can guarantee the homogeneity of heating on the one hand, and on the other hand can utilize the circulation of degradation liquid again to separate the residue after degrading with plastics.

Drawings

FIG. 1 is a schematic structural view of an auxiliary mechanism for biodegradable micro-plastic according to the present invention;

FIG. 2 is an enlarged view of a portion of FIG. 1 in accordance with the present invention;

FIG. 3 is a schematic view of the circulation box of the present invention;

FIG. 4 is a schematic view of the divider box of the present invention;

FIG. 5 is a top view of the square spacer frame of the present invention;

FIG. 6 is a top view of the concavo-convex separation plate of the present invention;

FIG. 7 is a top view of an annular gas lance in accordance with the present invention;

FIG. 8 is a rear view of the degradation tank of the present invention;

in the figure, 1, degradation box; 2. a separate tank; 3. a circulation box; 4. heating the air pump; 5. a stirring shaft; 6. a square spacer frame; 7. a concave-convex partition plate; 8. an annular gas injection pipe; 9. an aeration nozzle; 10. connecting an air pipe; 11. a short gas inlet pipe; 12. a one-way valve I; 13. fixing the rod; 14. a circulation pipe; 15. extracting a pipe; 16. a circulation pump; 17. an aeration pipe; 18. an aeration hole; 19. a second one-way valve; 20. an air outlet pipe; 21. an air outlet branch pipe; 22. a first electromagnetic valve; 23. an aeration short pipe; 24. an exhaust pipe; 25. a micro air pump; 26. a second electromagnetic valve; 27. mechanical sealing; 28. a stirring rod; 29. a driven bevel gear; 30. a transmission rotating shaft; 31. a transmission bevel gear; 32. a drive bearing; 33. a transmission bearing seat; 34. a double grooved pulley; 35. a drive belt; 36. a drive motor; 37. a drive pulley; 38. a drive belt; 39. an annular seal groove; 40. an annular seal; 41. a first temperature sensor; 42. a second temperature sensor; 43. and a third temperature sensor.

Detailed Description

The present invention will now be described in detail with reference to the drawings, as illustrated in FIGS. 1-8.

The scheme is characterized in that the scheme is structurally designed, and by combining an attached drawing 1, an attached drawing 2, an attached drawing 4, an attached drawing 5, an attached drawing 6 and an attached drawing 7, separating boxes are uniformly distributed on the side surface of one side of a degradation box and are communicated with the degradation box, a square separating frame 6 is arranged inside the separating box and is in sliding connection with a separating box, a concave-convex separating plate 7 is arranged above the inside of the square separating frame, the concave-convex surface of the concave-convex separating plate is in a square cone shape, a plurality of annular gas spraying pipes 8 are arranged below the inside of the square separating frame, the centers of the annular gas spraying pipes correspond to the centers of the upper convex surfaces of the concave-convex separating plates, an aeration nozzle 9 is arranged on one side inside the annular gas spraying pipes and is communicated with each other through a connecting gas pipe 10, a short gas inlet pipe 11 is arranged on the annular gas spraying pipe on one side inside the square separating frame, the short gas inlet pipe extends out of the square separating frame, a one-way valve 12 is arranged on the short gas inlet pipe, a fixing rod 13 is arranged on the annular gas spraying pipe on the other side inside the square separating frame, and is fixedly connected with the square separating frame; use through unsmooth division board, can make plastics at the degradation in-process on the one hand, the residue after the degradation can utilize self buoyancy and plastics separation, thereby make plastics and degradation liquid fully contact, in order to improve degradation efficiency, utilize aeration shower nozzle 9 spun hot-air on the jet-propelled pipe 8 of annular simultaneously, on the one hand can utilize air heat transfer to carry out heating work to the degradation liquid, on the other hand can utilize hot-air to carry out aeration work to the degradation liquid again, can utilize spun air to promote plastics to remove simultaneously again, in order to avoid plastics to shelter from the opening of unsmooth division board.

The scheme is characterized in that a circulating pipe 14 is arranged on the upper surface of a circulating box and fixedly connected with the upper part of the side surface of a degradation box, an extraction pipe 15 is arranged on the lower surface of the circulating box and fixedly connected with the lower part of the side surface of the degradation box, a circulating pump 16 is arranged on the extraction pipe, an aeration pipe 17 is arranged at the center of the interior of the extraction box, a plurality of aeration holes 18 are formed in the outer side surface of the aeration pipe and uniformly distributed on the aeration pipe, and a check valve II 19 is arranged on the aeration pipe; by using the aeration pipe 17, the degradation liquid can be fully aerated in the circulating process, and the degradation liquid is heated by utilizing air heat transfer to improve the degradation efficiency.

The scheme is characterized in that an air outlet pipe 20 is arranged at the air outlet end of a heating air pump and is fixedly connected with an aeration pipe, an air outlet branch pipe 21 is arranged on the air outlet pipe, a first electromagnetic valve 22 is arranged on the air outlet branch pipe, an aeration short pipe 23 is arranged at one end of a separation box and is fixedly connected with the air outlet branch pipe, an air exhaust pipe 24 is arranged on the air outlet branch pipe, a miniature air exhaust pump 25 is arranged on the air exhaust pipe, and a second electromagnetic valve 26 is arranged on the air exhaust pipe; through the use of the aeration short pipe 23, the square separation frame 6 can be inserted into the degradation box 1 by using air pressure so as to conveniently control the insertion of the square separation frame 6 and separate plastics, and the air can be pumped by using the micro air pump 25 so as to make the square separation frame 6 contract back into the separation box 2 by using air negative pressure so as to conveniently inject the plastics.

The creation point of this scheme lies in following structural design, combines attached figure 1, figure 8, and the (mixing) shaft distributes with dividing the case is crisscross, and the horizontal evenly distributed of (mixing) shaft is in the degradation incasement, is connected through mechanical seal 27 between (mixing) shaft and the degradation case, installs a plurality of puddlers 28 on the (mixing) shaft, a plurality of puddlers evenly distributed, and driven bevel gear 29 is installed to the one end of (mixing) shaft. One end of the stirring shaft is provided with a transmission rotating shaft 30, a plurality of transmission bevel gears 31 are arranged on the transmission rotating shaft, the transmission bevel gears correspond to the driven bevel gears one by one, the transmission bevel gears are meshed with the driven bevel gears, the transmission rotating shaft is connected with the degradation box through a transmission bearing 32 and a transmission bearing seat 33, one end of the transmission rotating shaft is provided with a double-groove belt pulley 34, a transmission belt 35 is sleeved between the double-groove belt pulleys, a driving motor 36 is arranged on the degradation box, a driving belt pulley 37 is arranged at the rotating end of the driving motor, and a driving belt 38 is sleeved between the driving belt pulley and one of the double-groove belt pulleys; through the rotation in 28 belts of puddler, can stir the plastics after separating, can make the residue after the degradation not sheltered from on the one hand, the separation of the residue of being convenient for and plastics, on the other hand can utilize the stirring again to make plastics and degradation liquid fully contact to guarantee degradation efficiency.

In the device, the outer side surfaces of two ends of a square separation frame are provided with annular sealing grooves 39, an annular sealing gasket 40 is arranged in the annular sealing grooves, and one end of the square separation frame is movably contacted with the inner wall of a degradation box; by using the annular seal 40, the ingress of degradation liquid into the compartment 2 is avoided, thereby ensuring the tightness of the device.

In the device, a first temperature sensor 41 is arranged in a circulation box, a second temperature sensor 42 is arranged in a degradation box, and a third temperature sensor 43 is arranged in an air outlet pipe; the temperature of the degradation liquid can be controlled by the working personnel.

In this device, concave surface and the crisscross distribution of convex surface on the unsmooth division board make things convenient for the separation of residue and plastics, can make things convenient for the emission of residue again simultaneously.

The working principle is as follows:

when the device is needed, workers place the plastic into the degradation box 1, then inject degradation liquid, control the circulating pump 16 to work, and stop injecting the degradation liquid when the degradation liquid is injected to a proper liquid level;

then controlling the heating air pump 4 to work, outputting hot air to the air outlet pipe 20 by the heating air pump 4, allowing the hot air to enter the aeration pipe 17, aerating through the aeration hole 18, allowing the hot air to be in contact with degradation liquid, further heating the degradation liquid by the hot air, allowing the degradation liquid to reach a proper temperature along with the circulating flow of the degradation liquid, allowing the hot air to enter the air outlet branch pipe 21 through the air outlet pipe 20, then entering the aeration short pipe 23, then injecting into the separation box 2, pushing the square separation frame 6 to move by using the air pressure, so that the square separation frame 6 is gradually inserted into the degradation box 1, further separating the plastic in the degradation box 1, allowing the hot air to enter the annular air injection pipes 8 through the air inlet short pipes 11, and enter the annular air injection pipes 8 through the connecting air pipes 10, and then ejecting out through the aeration nozzles 9, and performing aeration and heating work on the degradation liquid in the degradation box 1;

aerating and heating the degradation liquid by using hot air, so that the degradation liquid can efficiently carry out plastic degradation work;

in the plastic degradation process, air sprayed by the aeration nozzle 9 pushes plastic below the plastic concave-convex partition plate 7 to rotate, so that the plastic can be prevented from blocking circulation holes in the concave-convex partition plate 7, residues after the plastic degradation can rapidly penetrate through the concave-convex partition plate 7 by utilizing the buoyancy of the plastic, and are further separated from the plastic, so that the plastic is fully contacted with degradation liquid, and the degradation efficiency is further improved;

in the plastic degradation process, a worker regularly controls the driving motor 36 to work, the driving motor drives the driving belt pulley 137 to rotate, the driving belt 38 drives the double-groove belt pulley 34 to rotate, the transmission shaft 30 starts to rotate through transmission of the transmission belt 35, the transmission bevel gear 31 is further driven to rotate, the stirring shaft 5 drives the stirring rod 28 to rotate through meshing with the driven bevel gear 29, the plastic is stirred, residues after the plastic is degraded can be rapidly separated from the plastic, meanwhile, the plastic can be fully contacted with degradation liquid, the situation that the plastic is not fully contacted with the degradation liquid due to shielding of the plastic is avoided, and the plastic degradation efficiency is improved.

After the plastics are degraded, workers can discharge degradation liquid and degraded residues, and the degradation liquid and the residues above the concave-convex partition plate 7 can be completely discharged below the degradation box 1 by utilizing the grooves of the concave-convex partition plate 7, so that the degradation liquid and the residues are completely discharged to the outside;

and then the worker controls the first electromagnetic valve 22 to be closed, opens the second electromagnetic valve 26, controls the micro air pump 25 to start working, and utilizes the air pumping of the micro air pump 25 to enable the interior of the separation box 2 to form negative pressure, so that the square separation frame 6 moves back into the separation box 2, and then the worker can inject plastic again to perform plastic degradation work.

In this device, the one end of extraction tube 15 sets up the filter screen to avoid plastics and the residue after the degradation to enter into circulation case 3, thereby guarantee the normal use of device.

The technical solutions described above only represent the preferred technical solutions of the present invention, and some possible modifications to some parts of the technical solutions by those skilled in the art all represent the principles of the present invention, and fall within the protection scope of the present invention.

Claims

1. An auxiliary mechanism for biodegradable micro-plastic comprises a degradation box (1), a separation box (2), a circulation box (3), a heating air pump (4) and a stirring shaft (5), wherein the separation box is arranged on the surface of one side of the degradation box;

the novel gas jet system comprises separation boxes, wherein the separation boxes are uniformly distributed on the side surface of one side of a degradation box, the separation boxes are communicated with the degradation box, a square separation frame (6) is arranged inside each separation box, the square separation frame is connected with the separation boxes in a sliding mode, concave-convex separation plates (7) are arranged above the square separation frame, the concave-convex surfaces of the concave-convex separation plates are in a square conical shape, a plurality of annular gas jet pipes (8) are arranged below the square separation frame, the centers of the annular gas jet pipes correspond to the centers of the upper convex surfaces of the concave-convex separation plates, an aeration nozzle (9) is arranged on one side inside each annular gas jet pipe, the annular gas jet pipes are communicated through connecting gas pipes (10), gas inlet short pipes (11) are arranged on the annular gas jet pipes on one side inside each square separation frame, the gas inlet short pipes extend out of the square separation frame, one-way valves (12) are arranged on the gas inlet short pipes, fixing rods (13) are arranged on the annular gas jet pipes on the other side inside each square separation frame, and the fixing rods are fixedly connected with the square separation frames;

the upper surface of the circulation box is provided with a circulation pipe (14), the circulation pipe is fixedly connected with the upper part of the side surface of the degradation box, the lower surface of the circulation box is provided with an extraction pipe (15), the extraction pipe is fixedly connected with the lower part of the side surface of the degradation box, the extraction pipe is provided with a circulation pump (16), the center of the interior of the extraction box is provided with an aeration pipe (17), the outer surface of the aeration pipe is provided with a plurality of aeration holes (18), the aeration holes are uniformly distributed on the aeration pipe, and the aeration pipe is provided with a one-way valve II (19).

2. The auxiliary mechanism for the biodegradable micro-plastic according to claim 1, wherein an air outlet pipe (20) is installed at an air outlet end of the heating air pump, the air outlet pipe is fixedly connected with an aeration pipe, an air outlet branch pipe (21) is installed on the air outlet pipe, a first electromagnetic valve (22) is installed on the air outlet branch pipe, a short aeration pipe (23) is installed at one end of the separation box, the short aeration pipe is fixedly connected with the air outlet branch pipe, an air exhaust pipe (24) is installed on the air outlet branch pipe, a micro air exhaust pump (25) is installed on the air exhaust pipe, and a second electromagnetic valve (26) is installed on the air exhaust pipe.

3. The auxiliary mechanism for the biodegradable micro-plastic as claimed in claim 1, wherein the stirring shaft and the dividing box are distributed in a staggered manner, the stirring shaft is transversely and uniformly distributed in the degrading box, the stirring shaft and the degrading box are connected through a mechanical seal (27), the stirring shaft is provided with a plurality of stirring rods (28), the stirring rods are uniformly distributed, and one end of the stirring shaft is provided with a driven bevel gear (29).

4. The auxiliary mechanism for the biodegradable micro plastic of claim 3, characterized in that, the one end of (mixing) shaft is equipped with transmission pivot (30), install a plurality of transmission bevel gears (31) in the transmission pivot, it is a plurality of transmission bevel gear and driven bevel gear one-to-one, transmission bevel gear and driven bevel gear interlock mutually, be connected through transmission bearing (32) and drive bearing seat (33) between transmission pivot and the degradation case, double flute belt pulley (34) is installed to transmission pivot one end, the cover is equipped with drive belt (35) between the double flute belt pulley, install driving motor (36) on the degradation case, driving motor's rotatory end installation drive pulley (37), the cover is equipped with drive belt (38) between drive pulley and one of them double flute belt pulley.

5. The auxiliary mechanism for the biodegradable micro-plastic as claimed in claim 1, wherein the outer side surfaces of the two ends of the square separation frame are provided with annular sealing grooves (39), an annular sealing gasket (40) is installed in the annular sealing grooves, and one end of the square separation frame is movably contacted with the inner wall of the degradation box.

6. The auxiliary mechanism for biodegradable micro-plastic according to claim 1, wherein a first temperature sensor (41) is installed inside the circulation box, a second temperature sensor (42) is installed inside the degradation box, and a third temperature sensor (43) is installed inside the air outlet pipe.

7. The auxiliary mechanism for biodegradable plastics as claimed in claim 1, wherein the concave surfaces and the convex surfaces of said concave-convex partition plate are alternatively distributed.

8. An aid according to claim 1, wherein the inner diameter of the annular gas lance is greater than the largest dimension of the micro-plastic.