CN113402131B

CN113402131B - Be used for good oxygen biological reaction equipment

Info

Publication number: CN113402131B
Application number: CN202110886472.1A
Authority: CN
Inventors: 章西峰
Original assignee: Zhaodong Bo'an Environmental Protection Technology Co ltd
Current assignee: Zhaodong Bo'an Environmental Protection Technology Co ltd
Priority date: 2021-08-03
Filing date: 2021-08-03
Publication date: 2024-02-27
Anticipated expiration: 2041-08-03
Also published as: CN113402131A

Abstract

The invention belongs to the technical field of biological reaction equipment, and discloses aerobic biological reaction equipment which comprises a reaction tank and a reaction base, wherein the reaction tank is positioned at the top end of the reaction base, a driving motor is arranged in the middle of the top end of the reaction tank, a material inlet is formed in one side of the top end of the reaction tank, which is positioned at the driving motor, a gas inlet is formed in the other side of the top end of the reaction tank, a water outlet is formed in one side of the reaction base, and an operation cabinet is inlaid in one side of the water outlet, which is positioned on the surface of the reaction base; the split circular plate divides the reaction tank into a plurality of relatively sealed cavities, so that microorganisms and organic matters can not be completely gathered together, layered stirring and reaction can be performed in the cavities, and meanwhile, after the reaction of microorganisms and organic matters in one cavity is finished, the fan-shaped blanking area can be opened through the fan-shaped bottom baffle, so that a mixture enters the next cavity from the fan-shaped blanking area, and the operation is simple.

Description

Be used for good oxygen biological reaction equipment

Technical Field

The invention belongs to the technical field of biological reaction equipment, and particularly relates to aerobic biological reaction equipment.

Background

The activated sludge process is an aerobic biological treatment of sewage, which removes soluble and colloidal biochemical organic substances, suspended solids and other substances that can be adsorbed by activated sludge, and also removes a part of phosphorus and nitrogen.

The activated sludge process is a main method for biological treatment of wastewater mainly containing activated sludge. The activated sludge process is to continuously introduce air into wastewater, and to form sludge flocs by the proliferation of aerobic microorganisms after a certain period of time. The microbial community mainly containing zoogloea is inhabited on the microbial community, and the microbial community has strong capability of adsorbing and oxidizing organic matters. The method is to continuously culture sewage and various microorganism groups in a mixed mode under the condition of artificial oxygenation to form activated sludge. Biological condensation, adsorption and oxidation of activated sludge are utilized to decompose and remove organic pollutants in sewage. And separating the sludge from the water, and returning most of the sludge to the aeration tank, wherein the rest of the sludge is discharged out of the activated sludge system.

The existing reaction equipment has the advantages that the internal cavity is integrated, microorganisms and organic matters are gathered together, the contact surface of the microorganisms and the organic matters is not large enough, the reaction effect of the microorganisms and the organic matters is poor, the organic matters are difficult to decompose rapidly, the working time is prolonged, residues after the reaction are difficult to clean, complicated and complicated work arrangement is needed, the residues are left in the equipment for a long time, the reaction effect of the equipment is poor, long-term use is not facilitated, and the equipment for aerobic biological reaction is provided.

Disclosure of Invention

The invention aims to provide aerobic biological reaction equipment, which aims to solve the problems that the existing reaction equipment provided in the background technology is mainly provided with an integral internal cavity, so that microorganisms and organic matters are gathered together, the contact surface of the microorganisms and the organic matters is not large enough, the reaction effect of the microorganisms and the organic matters is poor, the organic matters are difficult to decompose rapidly, the working time is prolonged and the like.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an be used for good oxygen biological reaction equipment, includes retort, reaction base, the retort is located the top of reaction base, the top middle part of retort is equipped with driving motor, the top of retort is located one side that driving motor was equipped with the material import, the top of retort is located driving motor's opposite side and is equipped with gas inlet, one side of reaction base is equipped with the delivery port, the surface of reaction base is located one side of delivery port and inlays the organic case of operation.

Preferably, a driving inner shaft is arranged in the reaction tank and is connected with an output shaft of a driving motor, a plurality of dividing circular plates are arranged on the outer wall of the driving inner shaft and are positioned in the reaction tank, the reaction tank forms a plurality of cavities through the dividing circular plates, so that microorganisms and organic matters entering the reaction tank are better in stirring effect, the contact area is larger, full reaction can be carried out, a plurality of fan-shaped blanking areas are formed on the surfaces of the dividing circular plates, the reacted organic matters and microorganism mixtures can enter the cavities at the bottom from the fan-shaped blanking areas, sealing adjusting pieces are arranged at the bottoms of the dividing circular plates and are used for closing and opening the fan-shaped blanking areas, and the flowing or stopping effect of the organic matters and microorganism mixtures at the tops of the dividing circular plates can be realized;

preferably, the bottom in the reaction tank is provided with a dish-shaped base, the peripheral edge of the dish-shaped base is higher, the middle of the dish-shaped base is lower and is bowl-dish-shaped, a mixture at the top of the dish-shaped base can slide from the peripheral high to the middle low, the surface of the dish-shaped base is provided with a material transfer port, the material transfer port is communicated with the reaction base and enters the reaction base from the material transfer port, the reaction base comprises a rectangular frame body, a guiding heating shell and a rectangular filtering frame are arranged in the rectangular frame body, the guiding heating shell is positioned under the material transfer port, the mixture on the dish-shaped base falls into the guiding heating shell from the material transfer port, and the guiding heating shell is communicated with the rectangular filtering frame through a drainage tube.

Preferably, the outer wall of the driving shaft is provided with a plurality of stirring frame leaves, the stirring frame leaves are all positioned at the top of the cutting circular plate, gaps are arranged between the cutting circular plate and the stirring frame leaves, when the fan-shaped blanking area is in a closed state, the stirring frame leaves play a role in stirring, the mixture positioned at the top of the cutting circular plate can be fully stirred, and when the fan-shaped blanking area is in an open state, the stirring frame leaves can push the mixture at the top of the cutting circular plate, so that the mixture falls from the fan-shaped blanking area.

Preferably, the outer wall of the driving inner shaft is provided with a material pushing plate, the material pushing plate is located at the top of the disc-shaped base, the material pushing plate is matched with the disc-shaped base for use, and when the mixture is located at the top of the disc-shaped base, the mixture can be pushed into the material transfer port along with the rotation of the material pushing plate.

Preferably, the seal adjusting piece comprises a displacement rotating gear, the displacement rotating gear is located at the bottom of the division circular plate, the displacement rotating gear can rotate at the bottom of the division circular plate, meanwhile, the displacement rotating gear and the division circular plate are arranged at the same circle center, a plurality of fan-shaped bottom baffles are arranged at the top of the displacement rotating gear, the fan-shaped bottom baffles are matched with a fan-shaped blanking area for use, when the displacement rotating gear rotates, the displacement rotating gear drives the fan-shaped bottom baffles to rotate together, an embedded rotating block is arranged at one side of the top of the displacement rotating gear, a rotating block sliding rail matched with the embedded rotating block is arranged at the bottom wall of the division circular plate, when the displacement rotating gear rotates, the embedded rotating block rotates in the rotating block sliding rail, namely, the displacement rotating gear can normally rotate, meanwhile, the displacement rotating gear cannot be separated from the division circular plate, an L-shaped fixing seat is arranged at one side of the division circular plate, a driving motor is arranged on the L-shaped fixing seat, a driving top gear is arranged in the direction of an output shaft of the driving motor, the driving top gear is meshed with the displacement rotating gear, the driving top gear is connected with the displacement rotating gear, and the driving motor is connected with the fan-shaped top gear through anti-falling motor, and the driving motor is meshed with the fan-shaped rotating gear, so that the driving motor can rotate in the fan-shaped rotating block is meshed with the fan-shaped rotating gear, and can be driven to rotate together with the fan-shaped rotating gear, and the driving gear when the driving motor rotates, and the fan-shaped rotating gear rotates, and the driving gear rotates.

Preferably, the inside of direction heating shell is equipped with a plurality of heating pipes, and the heating pipe plays heat preservation, heating effect to the direction heating shell in, and the heating pipe is located direction heating shell inner wall, and its heat preservation effect is preferred, heating pipe convenient to detach simultaneously.

Preferably, one side of the heating pipe, which is close to the rectangular filtering frame, is provided with a plurality of magnet connecting frames, and one side of the rectangular filtering frame, which is close to the guiding heating shell, is provided with a magnet block magnetically connected with the magnet connecting frames, so that the rectangular filtering frame can be fixed in the rectangular frame, and the magnet block and the magnet connecting frames are magnetically connected, so that the rectangular filtering frame can be fixed on one side of the guiding heating shell.

Preferably, the rectangle filter frame is cavity cuboid filter screen structure, just the top of rectangle filter frame is open design, the operation door that uses with rectangle filter frame cooperation is seted up to one side of reaction base, and the rectangle filter frame is cavity cuboid filter screen structure, not only can effectually separate solid-liquid, and rectangle filter frame and the area of contact of liquid are great simultaneously, can make the liquid flow rapidly, have reduced the condition in the long-time person's of residue equipment of remaining, the long-term use of reaction equipment of being convenient for.

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

the split circular plate is used for splitting the reaction tank into a plurality of relatively sealed cavities, so that microorganisms and organic matters cannot be completely gathered together, layered stirring and reaction can be performed in the cavities, meanwhile, after the reaction of the microorganisms and the organic matters in one cavity is completed, the fan-shaped blanking area can be opened through the fan-shaped bottom baffle, so that a mixture enters the next cavity from the fan-shaped blanking area, the operation is simple, the use is automatic, the contact area of the microorganisms and the organic matters is large, the organic matters are effectively and rapidly decomposed, and the smooth progress of the work is ensured.

The material residue accessible rectangle filter frame plays the filter effect, and commodity circulation residue is final to flow in the rectangle filter frame, and the rectangle filter frame is cavity cuboid filter screen structure, not only can effectually separate solid-liquid, and the rectangle filter frame is great with the area of contact of liquid simultaneously, can make the liquid flow rapidly, has reduced the condition in the long-time person equipment of remaining of residue, the long-term use of the reaction equipment of being convenient for.

The magnetic blocks can be respectively and magnetically connected with the magnetic connecting frames, so that the rectangular filtering frame is positioned in the reaction base and is more stable, and the heating pipe is arranged in the guiding heating shell, so that the guiding heating shell is good in heat preservation and heating performance, microorganisms and organic matter mixtures in the guiding heating shell can meet the requirements of different process applications, and the guiding heating shell is more suitable for the market.

Drawings

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

FIG. 2 is a cross-sectional view of a structural reaction tank of the present invention;

FIG. 3 is a perspective view of a structural dish-type base of the present invention;

FIG. 4 is a bottom view of a structural split circular plate of the present invention;

FIG. 5 is an exploded view of a structure-dividing circular plate of the present invention;

FIG. 6 is a perspective view of a structural turning block slide rail of the present invention;

FIG. 7 is a top view of a structural reaction base of the present invention;

FIG. 8 is an exploded view of a structural reaction base of the present invention;

FIG. 9 is a perspective view of a structural heating tube of the present invention;

in the figure: 1. a driving motor; 2. a material inlet; 3. a reaction tank; 301. a fan-shaped blanking area; 302. dividing the circular plate; 303. a drive inner shaft; 304. stirring the frame leaves; 305. a dish-shaped base; 306. a material transfer port; 307. a material pushing plate; 308. a fan-shaped bottom baffle; 309. a displacement rotation gear; 310. a drive motor; 311. an L-shaped fixing seat; 312. driving a top gear; 313. an anti-drop bearing; 314. a rotating block is embedded; 315. a rotating block slide rail; 4. a reaction base; 401. a rectangular frame; 402. a rectangular filter frame; 403. guiding the heating shell; 404. a magnet block; 405. a drainage tube; 406. a magnet connecting frame; 407. heating pipes; 5. an operation door; 6. a water outlet; 7. an operation cabinet; 8. a gas inlet.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1 to 9, the present invention provides a technical solution: the utility model provides an be used for good oxygen biological reaction equipment, including retort 3, reaction base 4, retort 3 is located the top of reaction base 4, and the top middle part of retort 3 is equipped with driving motor 1, and the top of retort 3 is located one side of driving motor 1 and is equipped with material import 2, and the top of retort 3 is located the opposite side of driving motor 1 and is equipped with gas inlet 8, and one side of reaction base 4 is equipped with delivery port 6, and the surface of reaction base 4 is located one side of delivery port 6 and inlays there is operation machine case 7.

Referring to fig. 1, 2 and 3, a driving inner shaft 303 is arranged in a reaction tank 3, the driving inner shaft 303 is connected with an output shaft of a driving motor 1, a plurality of dividing circular plates 302 are arranged on the outer wall of the driving inner shaft 303, the dividing circular plates 302 are positioned in the reaction tank 3, the reaction tank 3 forms a plurality of cavities through the plurality of dividing circular plates 302, so that microorganisms and organic matters entering the reaction tank 3 are better in stirring effect, the contact area is larger, full reaction can be performed, a plurality of fan-shaped blanking areas 301 are formed on the surfaces of the dividing circular plates 302, the organic matters and microorganism mixtures after the reaction can enter the cavities at the bottom from the fan-shaped blanking areas 301, sealing adjusting pieces are arranged at the bottoms of the dividing circular plates 302, and are used for closing and opening the fan-shaped blanking areas 301, and the flowing or stopping effect of the organic matters and microorganism mixtures at the tops of the dividing circular plates 302 can be performed;

referring to fig. 1, 2, 7, 8 and 9, a tray-shaped base 305 is disposed at the inner bottom of the reaction tank 3, the periphery of the tray-shaped base 305 is higher, the middle of the tray-shaped base 305 is lower, the mixture located at the top of the tray-shaped base 305 can slide from the periphery to the middle lower, a material transfer port 306 is disposed on the surface of the tray-shaped base 305, the material transfer port 306 is communicated with the reaction base 4 and enters the reaction base 4 from the material transfer port 306, the reaction base 4 comprises a rectangular frame 401, a guiding heating shell 403 and a rectangular filter frame 402 are disposed in the rectangular frame 401, the guiding heating shell 403 is located right below the material transfer port 306, the mixture located on the tray-shaped base 305 falls into the guiding heating shell 403 from the material transfer port 306, and the guiding heating shell 403 is communicated with the rectangular filter frame 402 through a drainage tube 405.

In this embodiment, preferably, referring to fig. 2 and 3, the outer wall of the driving inner shaft 303 is provided with a plurality of stirring frame leaves 304, the stirring frame leaves 304 are all located at the top of the dividing circular plate 302, gaps are provided between the dividing circular plate 302 and the stirring frame leaves 304, when the fan-shaped blanking area 301 is in a closed state, the stirring frame leaves 304 play a role in stirring, and can fully stir the mixture located at the top of the dividing circular plate 302, and when the fan-shaped blanking area 301 is in an open state, the stirring frame leaves 304 can push the mixture located at the top of the dividing circular plate 302, so that the mixture falls from the fan-shaped blanking area 301.

In this embodiment, preferably, referring to fig. 3, the outer wall of the driving shaft 303 is provided with a material pushing plate 307, and the material pushing plate 307 is located at the top of the disc-shaped base 305, and the material pushing plate 307 is matched with the disc-shaped base 305, when the mixture is located at the top of the disc-shaped base 305, the mixture can be pushed into the material transfer port 306 along with the rotation of the material pushing plate 307.

In this embodiment, preferably, as shown in fig. 3, fig. 4, fig. 5, and fig. 6, the seal adjusting member includes a displacement rotating gear 309, the displacement rotating gear 309 is located at the bottom of the split circular plate 302, the displacement rotating gear 309 can rotate at the bottom of the split circular plate 302, meanwhile, the displacement rotating gear 309 and the split circular plate 302 are set as the same circle center, the top of the displacement rotating gear 309 is provided with a plurality of fan-shaped bottom baffles 308, and the fan-shaped bottom baffles 308 are used in cooperation with the fan-shaped blanking area 301, when the displacement rotating gear 309 rotates, the displacement rotating gear 309 drives the fan-shaped bottom baffles 308 to rotate together, the top of the displacement rotating gear 309 is located at one side of the fan-shaped bottom baffles 308, a rotating block 315 is provided with an embedded rotating block 314, the bottom wall of the split circular plate 302 is provided with a rotating block slide rail 315 matched with the embedded rotating block 314, when the displacement rotating gear 309 rotates, the displacement rotating gear 309 can normally rotate, and simultaneously, the displacement rotating gear 309 can not be separated from the split circular plate 302, the bottom wall of the split circular plate 302 is provided with an L-shaped bottom baffle 311, the L-shaped bottom baffle 311 is provided with a motor 310, and the fan-shaped motor 310 is provided with a motor 310, and the motor 312 is driven by the motor 312 to rotate in a rotation direction of the top of the fan-shaped bottom baffle 310, and the split circular plate is meshed with the rotating block 314, and the rotating block is driven to rotate in rotation, thereby, and the rotating along with the rotating block slide block 315.

In this embodiment, preferably, referring to fig. 9, a plurality of heating pipes 407 are disposed inside the guiding heating shell 403, the heating pipes 407 perform heat preservation and heating effects on the guiding heating shell 403, the heating pipes 407 are located on the inner wall of the guiding heating shell 403, the heat preservation effect is better, and meanwhile, the heating pipes 407 are convenient to detach.

In this embodiment, as shown in fig. 7 and 8, a plurality of magnet connection frames 406 are preferably disposed on one side of the heating tube 407 near the rectangular filter frame 402, and a magnet block 404 magnetically connected to the magnet connection frames 406 is disposed on one side of the rectangular filter frame 402 near the guiding heating shell 403, so that the rectangular filter frame 402 can be fixed in the rectangular frame 401, and the magnet block 404 and the magnet connection frames 406 are magnetically connected to fix the rectangular filter frame 402 on one side of the guiding heating shell 403.

In this embodiment, preferably, referring to fig. 1, 7 and 8, the rectangular filter frame 402 is of a hollow cuboid filter screen structure, the top of the rectangular filter frame 402 is of an open design, an operation door 5 matched with the rectangular filter frame 402 is provided on one side of the reaction base 4, the rectangular filter frame 402 is of a hollow cuboid filter screen structure, so that solid and liquid can be effectively separated, meanwhile, the contact area between the rectangular filter frame 402 and liquid is large, the liquid can flow rapidly, the situation in equipment where residues remain for a long time is reduced, and long-term use of the reaction equipment is facilitated.

Working principle: the raw materials enter the reaction tank 3 through the material inlet 2 and the gas inlet 8, microorganisms and organic matters are located at the top of the dividing circular plate 302, the fan-shaped blanking areas 301 are in a closed state, the inner driving shaft 303 drives the stirring frame blades 304 to rotate along with the operation of the driving motor 1, the mixture located at the top of the dividing circular plate 302 can be stirred, the condition that the microorganisms and the organic matters are mixed together is reduced, the contact area of the microorganisms and the organic matters is larger, the reaction is more sufficient, and when the mixture is continuously input into the reaction tank 3, the fan-shaped blanking areas 301 can be opened, so that the mixture enters the bottom cavity; the driving motor 310 is operated, so that the driving motor 310 drives the driving top gear 312 to rotate together, the driving top gear 312 is meshed with the displacement rotating gear 309, so that the displacement rotating gear 309 is rotated as power, the fan-shaped bottom baffle 308 can play a role in opening and closing the fan-shaped blanking area 301, and meanwhile, when the displacement rotating gear 309 rotates, the embedded rotating block 314 rotates in the rotating block sliding rail 315; the stirred mixture falls onto the disc-shaped base 305, the rotation of the material pushing plate 307 pushes the mixture to the material transfer port 306 and falls into the guide heating shell 403, then the temperature of the guide heating shell 403 can be controlled according to the working requirement, the mixture in the guide heating shell 403 is kept still, the liquid of the mixture can flow out of the rectangular filter frame 402 and flow out of the reaction base 4 through the water outlet 6, the material residues enter the rectangular filter frame 402 immediately, and when more residues exist in the rectangular filter frame 402, the reaction base 4 can be opened through the operation door 5, so that the rectangular filter frame 402 is taken out and cleaned.

The foregoing is merely illustrative of the present invention and not restrictive, and other modifications and equivalents thereof may occur to those skilled in the art without departing from the spirit and scope of the present invention.

Claims

1. The utility model provides a be used for good oxygen biological reaction equipment, includes retort (3), reaction base (4), retort (3) are located the top of reaction base (4), the top middle part of retort (3) is equipped with driving motor (1), the top of retort (3) is located one side of driving motor (1) and is equipped with material import (2), the opposite side that the top of retort (3) is located driving motor (1) is equipped with gas inlet (8), its characterized in that: the reaction tank (3) is internally provided with a driving inner shaft (303), the driving inner shaft (303) is connected with an output shaft of a driving motor (1), the outer wall of the driving inner shaft (303) is provided with a plurality of dividing circular plates (302), the dividing circular plates (302) are positioned in the reaction tank (3), the reaction tank (3) forms a plurality of cavities through the plurality of dividing circular plates (302), the surface of the dividing circular plates (302) is provided with a plurality of fan-shaped blanking areas (301), and the bottoms of the dividing circular plates (302) are respectively provided with a sealing adjusting piece;

the reaction tank is characterized in that a disc-shaped base (305) is arranged at the inner bottom end of the reaction tank (3), a material transfer port (306) is formed in the surface of the disc-shaped base (305), the material transfer port (306) is communicated with a reaction base (4), the reaction base (4) comprises a rectangular frame body (401), a guide heating shell (403) and a rectangular filter frame (402) are arranged in the rectangular frame body (401), the guide heating shell (403) is located right below the material transfer port (306), and the guide heating shell (403) is communicated with the rectangular filter frame (402) through a drainage tube (405);

the peripheral edge of the disc-shaped base (305) is higher, the middle part of the disc-shaped base (305) is lower, the disc-shaped base is bowl-shaped, and the mixture positioned at the top of the disc-shaped base (305) can slide from the peripheral high position to the middle low position;

the outer wall of the driving inner shaft (303) is provided with a plurality of stirring frame blades (304), the stirring frame blades (304) are positioned at the top of the dividing circular plate (302), and gaps are formed between the dividing circular plate (302) and the stirring frame blades (304);

the outer wall of the driving inner shaft (303) is provided with a material pushing plate (307), the material pushing plate (307) is positioned at the top of the disc-shaped base (305), and the material pushing plate (307) is matched with the disc-shaped base (305);

the sealing adjusting piece comprises a displacement rotating gear (309), the displacement rotating gear (309) is positioned at the bottom of a division circular plate (302), the displacement rotating gear (309) can rotate at the bottom of the division circular plate (302), meanwhile, the displacement rotating gear (309) and the division circular plate (302) are arranged in the same circle center, a plurality of fan-shaped bottom baffles (308) are arranged at the top of the displacement rotating gear (309), the fan-shaped bottom baffles (308) are matched with a fan-shaped blanking area (301), when the displacement rotating gear (309) rotates, the displacement rotating gear (309) drives the fan-shaped bottom baffles (308) to rotate together, an embedded rotating block (314) is arranged at one side of the top of the displacement rotating gear (309) which is positioned at the fan-shaped bottom baffles (308), a rotating block sliding rail (315) matched with the embedded rotating block (314) is arranged at the bottom wall of the division circular plate (302), when the displacement rotating gear (309) rotates, the embedded rotating block (314) rotates in the rotating block sliding rail (315), namely, the displacement rotating gear (309) can normally rotate, the displacement rotating gear (309) is not separated from the fan-shaped bottom baffle (308) and the division circular plate (302) is provided with a fixed seat (311) which is positioned at one side of the division circular plate (311), the output shaft direction of the driving motor (310) is provided with a driving top gear (312), the driving top gear (312) is meshed with the displacement rotating gear (309), the driving top gear (312) is rotationally connected with the dividing circular plate (302) through an anti-drop bearing (313), after the driving motor (310) runs, the driving motor (310) drives the driving top gear (312) to rotate together, the driving top gear (312) is meshed with the displacement rotating gear (309), so that the displacement rotating gear (309) is rotated as power, and the fan-shaped bottom baffle plate (308) can open and close the fan-shaped blanking area (301);

a plurality of heating pipes (407) are arranged in the guide heating shell (403);

a plurality of magnet connecting frames (406) are arranged on one side, close to the rectangular filtering frame (402), of the heating pipe (407), and a magnet block (404) magnetically connected with the magnet connecting frames (406) is arranged on one side, close to the guiding heating shell (403), of the rectangular filtering frame (402).

2. The apparatus for aerobic biological reaction according to claim 1, wherein: the rectangular filter frame (402) is of a hollow cuboid filter screen structure, the top of the rectangular filter frame (402) is of an open design, and an operation door (5) matched with the rectangular filter frame (402) for use is arranged on one side of the reaction base (4).

3. The apparatus for aerobic biological reaction according to claim 1, wherein: a water outlet (6) is arranged on one side of the reaction base (4), and an operation machine case (7) is embedded on one side of the water outlet (6) on the surface of the reaction base (4).