CN117720195A

CN117720195A - Organic wastewater treatment equipment

Info

Publication number: CN117720195A
Application number: CN202410122373.XA
Authority: CN
Inventors: 李延; 田爱军; 李�杰; 罗晓云; 陈朋利; 李嘉竹; 焦雨然
Original assignee: Nanjing Huachuang Environmental Protection Industry Development Co ltd
Current assignee: Nanjing Huachuang Environmental Protection Industry Development Co ltd
Priority date: 2024-01-29
Filing date: 2024-01-29
Publication date: 2024-03-19

Abstract

The application discloses organic wastewater treatment equipment relates to the technical field of wastewater treatment. The application comprises the following steps: the top of the fixed plate is provided with a treatment barrel in a horizontal direction; the circular plate is rotatably arranged in the processing barrel, one side of the circular plate is provided with a first cylinder, the end part of the circular plate penetrates through the end part of the processing barrel, and the other side of the circular plate is connected with a first barrel. This application is through adopting the design of first barrel, second barrel and third barrel, through setting up the three-layer barrel, in the waste water gets into the third barrel of high-speed rotation to when outwards throwing away, can prolong the time of waste water in the hypergravity field, it is when first barrel, second barrel and third barrel inner wall contact in proper order, can repeat it broken and atomizing, make it can fully get into the high-pressure ozone contact of first barrel, second barrel and third barrel through the bleeder vent, with this going on for the reaction, and improve organic matter's removal efficiency.

Description

Organic wastewater treatment equipment

Technical Field

The application relates to the technical field of wastewater treatment, in particular to an organic wastewater treatment device.

Background

The organic wastewater is industrial wastewater containing organic substances, the wastewater has the characteristics of difficult degradation, serious pollution and the like, and serious threat is caused to the environment and human health, so that the organic wastewater can be discharged after being treated.

However, the degradation speed of part of organic matters in chemical organic wastewater is too slow, and the effect of the traditional treatment method is poor, so that the organic wastewater is long in time consumption in a biochemical treatment link, the removal efficiency of the organic matters is not improved, and in order to reasonably improve the problem, the application provides an organic wastewater treatment device.

Disclosure of Invention

The purpose of the present application is: in order to solve the technical problems that the degradation speed of part of organic matters in chemical organic wastewater is too slow and the effect of the traditional treatment method is poor, the time consumption of the organic wastewater in a biochemical treatment link is long, and the removal efficiency of the organic matters is not improved, the application provides organic wastewater treatment equipment.

The application specifically adopts the following technical scheme for realizing the purposes:

an organic wastewater treatment apparatus comprising:

the top of the fixed plate is provided with a treatment barrel in a horizontal direction;

the circular plate is rotatably arranged in the treatment barrel, one side of the circular plate is provided with a first cylinder, the end part of the circular plate penetrates through the end part of the treatment barrel, the other side of the circular plate is connected with a first barrel, a second barrel is arranged in the circular plate, a third barrel is arranged in the second barrel and is arranged on the circular plate through mounting pieces, the end parts of the first barrel, the second barrel and the third barrel are in rotary fit with the tail end of the treatment barrel, and a plurality of water permeable holes are uniformly distributed on the peripheral sides of the first barrel, the second barrel and the third barrel;

the air inlet pipeline is arranged on the treatment barrel and is positioned at the top of the first barrel, and the tail end of the treatment barrel is provided with an air outlet pipeline which is communicated with the inside of the third barrel;

the liquid inlet pipeline is arranged in the third cylinder body, the end part of the liquid inlet pipeline extends towards the end part of the treatment cylinder, a plurality of water outlets are uniformly distributed on the peripheral side of the liquid inlet pipeline, the outer diameter of the liquid inlet pipeline is smaller than the inner diameter of the air outlet pipeline, the tail end of the liquid inlet pipeline penetrates through the air outlet pipeline, and the liquid outlet pipeline is arranged on the treatment cylinder and is positioned at the bottom of the first cylinder body;

the driving piece is arranged at the top of the fixed plate, the output end of the driving piece is provided with a spur gear, and the first circumference side of the first cylinder is provided with a first gear which is meshed with the spur gear.

Further, the mounting member includes a first connecting plate configured at a second cylinder end, on which a second cylinder is configured, penetrating through the middle of the first cylinder and being in rotational engagement therewith, and a third cylinder configured at a third cylinder end, penetrating through the middle of the second cylinder and being in rotational engagement therewith, and the driving member output end is in driving connection with the second cylinder and the third cylinder through a driving mechanism so that the adjacent first cylinder, second cylinder and third cylinder are in opposite directions.

Further, the transmission mechanism comprises a second gear, a third gear and a fourth gear, the second gear and the third gear are respectively arranged on the end parts of the second cylinder and the third cylinder, the fourth gear is rotatably arranged on the end part of the treatment barrel, the third gear is meshed with the straight gear, and the second gear is meshed with the straight gear through the fourth gear.

Further, the second gear is smaller than the first gear.

Further, the treatment tank end is configured with a cylindrical block through which a first cylinder extends.

Further, sealing rings are arranged on the inner sides of the cylindrical blocks, the first cylinder and the second cylinder, and the inner sides of the rings are respectively abutted against the outer sides of the first cylinder, the second cylinder and the third cylinder.

Further, a barrel cover is arranged on the processing barrel and is detachably connected with the tail end of the processing barrel through a bolt assembly.

Further, the inner side of the barrel cover is provided with a first annular block and a second annular block, the inner side and the outer side of the first annular block are respectively contacted with the inner side of the first barrel body and the outer side of the second barrel body, and the inner side and the outer side of the second annular block are respectively contacted with the inner side of the second barrel body and the outer side of the third barrel body.

Further, the outside of feed liquor pipeline is constructed with the connecting block, the connecting block has a plurality ofly along the axis annular array of feed liquor pipeline, and a plurality of connecting blocks are all connected with the bung.

Further, the connecting block is L-shaped, and is provided with a vertical section and a horizontal section which are connected with each other, the horizontal section is connected with the peripheral side of the liquid inlet pipeline, and the vertical section is connected with the pipe orifice of the air outlet pipeline.

The beneficial effects of this application are as follows:

1. this application is through adopting the design of first barrel, second barrel and third barrel, through setting up the three-layer barrel, in the waste water gets into the third barrel of high-speed rotation to when outwards throwing away, can prolong the time of waste water in the hypergravity field, it is when first barrel, second barrel and third barrel inner wall contact in proper order, can repeat it broken and atomizing, make it can fully get into the high-pressure ozone contact of first barrel, second barrel and third barrel through the bleeder vent, with this going on for the reaction, and improve organic matter's removal efficiency.

2. This application turns to opposite design through first cylinder, second cylinder and third cylinder, throws away and contact with the second barrel from the hole that permeates water of third barrel and throws away and contact with first barrel from the hole that permeates water of second barrel, can be under the broken more thoroughly of two strands of rotation force effect in distinct opposite to contact with high-pressure ozone.

3. This application is through drive mechanism's design, when the straight-tooth wheel rotates, can drive first gear and third gear relative rotation simultaneously, the second gear meshes with the straight-tooth wheel mutually through the fourth gear, straight-tooth wheel and fourth gear meshing, it can drive fourth gear relative rotation, fourth gear meshes with the second gear, can drive the relative rotation of second gear when its rotates, the rotation direction of second gear is opposite with the rotation direction of first gear and third gear this moment, so can increase the linkage nature between first cylinder, second cylinder and the third cylinder.

Drawings

FIG. 1 is a perspective view of the present application;

FIG. 2 is a cross-sectional view of the structure of the treatment tank of the present application;

FIG. 3 is an enlarged view of FIG. 2A of the present application;

FIG. 4 is a split cross-sectional view of the mounting structure of the present application;

FIG. 5 is a cross-sectional view of another angle of the present three-dimensional structure;

FIG. 6 is an enlarged view of FIG. 5B of the present application;

FIG. 7 is a schematic view of the structure of the barrel cover of the present application;

reference numerals: 1. a fixing plate; 2. a treatment barrel; 3. a circular plate; 4. a first cylinder; 5. a first cylinder; 6. a second cylinder; 7. a third cylinder; 8. a mounting member; 9. a water permeable hole; 10. an air intake duct; 11. an air outlet pipe; 12. a liquid inlet pipe; 13. a water outlet hole; 14. a liquid outlet pipe; 15. a driving member; 16. spur gears; 17. a first gear; 18. a first connection plate; 19. a second cylinder; 20. a second connecting plate; 21. a third cylinder; 22. a transmission mechanism; 23. a second gear; 24. a third gear; 25. a fourth gear; 26. a cylindrical block; 27. a seal ring; 28. a barrel cover; 29. a bolt assembly; 30. an annular rubber pad; 31. a first annular block; 32. a second annular block; 33. a connecting block; 34. a vertical section; 35. a horizontal segment.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present application more clear, the technical solutions of the embodiments of the present application will be clearly and completely described below with reference to the drawings in the embodiments of the present application.

Example 1

As shown in fig. 1 to 7, an organic wastewater treatment apparatus according to a first embodiment of the present application includes:

the top of the fixed plate 1 is provided with a treatment barrel 2 in a horizontal direction, the treatment barrel 2 is fixedly arranged on the mounting plate, and the axis of the fixed plate is parallel to the horizontal line;

the circular plate 3 is rotatably mounted in the processing barrel 2, the circular plate 3 is rotatably mounted at the end part of the processing barrel 2, one side of the circular plate 3 is provided with a first cylinder 4, the first cylinder 4 is positioned in the middle of the circular plate 3, the end part of the circular plate penetrates through the end part of the processing barrel 2, the other side of the circular plate 3 is connected with a first cylinder 5, the axis of the first cylinder 5 is identical to that of the first cylinder 4, a second cylinder 6 is arranged in the circular plate, a third cylinder 7 is arranged in the second cylinder 6 and is mounted on the circular plate 3 through mounting pieces 8, the first cylinder 5, the second cylinder 6 and the third cylinder 7 are positioned on the same axis, the end parts of the first cylinder 5, the second cylinder 6 and the third cylinder 7 are in rotary fit with the end part of the processing barrel 2, and when the circular plate 3 rotates, a plurality of water permeable holes 9 are uniformly distributed on the peripheral sides of the first cylinder 5, the second cylinder 6 and the third cylinder 7, and the first cylinder 5, the second cylinder 6 and the third cylinder 7 are communicated with the interior of the processing barrel 2 through the water permeable holes 9;

an air inlet pipe 10 installed on the treatment tub 2, the air inlet pipe 10 being communicated with the high-pressure ozone pipe so that high-pressure ozone, which is a strong oxidizer capable of rapidly oxidizing organic substances in wastewater, is injected into the treatment tub 2, is located at the top of the first cylinder 5, and an air outlet pipe 11 is installed at the end of the treatment tub 2, which is communicated with the inside of the third cylinder 7, so that the high-pressure ozone entering the treatment tub 2 can pass through the first cylinder 5, the second cylinder 6 and the third cylinder 7 from outside to inside, and be discharged from the air outlet pipe 11;

the liquid inlet pipeline 12 is arranged in the third barrel 7, the end part of the liquid inlet pipeline extends towards the end part of the treatment barrel 2, pretreated organic wastewater can enter the treatment barrel 2 through the liquid inlet pipeline 12, a plurality of water outlet holes 13 are uniformly distributed on the periphery of the liquid inlet pipeline 12, the water outlet holes 13 uniformly scatter on the inner wall of the third barrel 7, the water outlet holes uniformly scatter through the inner wall of the third barrel 7, the second barrel 6 and the first barrel 5 from inside to outside in sequence, when the first barrel 5, the second barrel 6 and the third barrel 7 rotate at a high speed, a large centrifugal force is generated, an ultra-gravity field is generated by utilizing the centrifugal phenomenon, so that the liquid can be rapidly diffused in the ultra-gravity field, when the wastewater is thrown out outwards, the wastewater can be crushed and diffused under the shearing of the first barrel 5, the second barrel 6 and the third barrel 7, so that the wastewater can be more easily contacted with high-pressure ozone, the reaction is accelerated, the removal efficiency of organic substances is improved, the outer diameter of the liquid inlet pipeline 12 is smaller than the inner diameter of the air outlet pipeline 11, the tail end of the liquid inlet pipeline 12 penetrates through the air outlet pipeline 11, the tail end of the air outlet pipeline 12, the air outlet pipeline 11 and the air outlet pipeline 12 and the air outlet pipeline 2 are fixedly arranged on the first barrel 2 and the water outlet pipeline 14, the water outlet pipeline 14 is arranged at the bottom of the water outlet pipeline 2, and the water outlet pipeline 2 is designed, and the water outlet pipeline is separated from the water through the water outlet pipeline 2 through the first barrel 2, and the water outlet pipeline 9 is completely;

the method has the advantages that the time of the wastewater in the hypergravity field can be prolonged by arranging the three-layer cylinder, and when the wastewater contacts with the three-layer cylinder, the wastewater is repeatedly damaged so as to accelerate the reaction of organic substances in the wastewater and high-pressure ozone;

the driving piece 15 is specifically a motor, the driving piece 15 is arranged at the top of the fixed plate 1, a spur gear 16 is arranged at the output end of the motor, a first gear 17 is arranged on the periphery of the first cylinder 4 and meshed with the spur gear 16, and when the driving piece 15 works, the first cylinder 4 can be driven to rotate through the first gear 17 and the spur gear 16, so that the circular plate 3, the first cylinder 5, the second cylinder 6 and the third cylinder 7 are driven to rotate at a high speed;

this application is through adopting the design of first barrel 5, second barrel 6 and third barrel 7, through setting up the three-layer barrel, in waste water gets into high-speed rotatory third barrel 7, and when outwards throwing away, can prolong the time of waste water in the hypergravity field, it is when first barrel 5, second barrel 6 and the 7 inner wall of third barrel contact in proper order, can repeatedly break it and atomize, make it can fully get into the high-pressure ozone contact of first barrel 5 through the bleeder vent, second barrel 6 and third barrel 7, with this goes on for the reaction, and improve organic matter's removal efficiency.

Example two

As shown in fig. 4 to 6, the second embodiment discloses a mounting member 8 on the basis of the first embodiment, wherein: the mounting member 8 includes a first connection plate 18 which is formed at the end of the second cylinder 6 and seals the end of the second cylinder 6, a second cylinder 19 is formed on the second cylinder 19, the second cylinder 19 is far away from the second cylinder 6, which penetrates the middle of the first cylinder 4, the end of the second cylinder 19 extends out of the first cylinder 4 and is in rotating fit with the first cylinder, the first connection plate 18 is in rotating fit with the circular plate 3, a second connection plate 20 is formed at the end of the third cylinder 7 and seals the end of the third cylinder 7, a third cylinder 21 is formed on the third cylinder 21, which penetrates the middle of the second cylinder 19, the end of the third cylinder 21 extends out of the second cylinder 19 and is in rotating fit with the second cylinder, the second connection plate 20 is in rotating fit with the first connection plate 18, the output end of the driving piece 15 is in transmission connection with the second cylinder 19 and the third cylinder 21 through a transmission mechanism 22, when the driving piece 15 works, the second cylinder 19 and the third cylinder 21 can be driven by the transmission mechanism 22 to rotate together with the first cylinder 4, so that the adjacent first cylinder 4, second cylinder 19 and third cylinder 21 are opposite in direction, the first cylinder 5 and third cylinder 7 are identical in direction, and the second cylinder 6 is opposite to the first cylinder 5 in direction, and by the design, when wastewater is thrown out from the water permeable hole 9 of the third cylinder 7 and contacted with the second cylinder 6 and thrown out from the water permeable hole 9 of the second cylinder 6 and contacted with the first cylinder 5, the wastewater can be broken thoroughly under the action of two diametrically opposite rotating forces so as to be convenient for being contacted with high-pressure ozone.

In the second embodiment, the transmission mechanism 22 includes a second gear 23, a third gear 24 and a fourth gear 25, the second gear 23 and the third gear 24 are respectively mounted on the ends of the second cylinder 19 and the third cylinder 21, the second gear 23 is not in contact with the end of the first cylinder 4, the third gear 24 is not in contact with the end of the second cylinder 19, the fourth gear 25 is rotatably mounted on the end of the treatment barrel 2, the first gear 17 is equal to the third gear 24, the third gear 24 is meshed with the spur gear 16, when the spur gear 16 rotates, the first gear 17 and the third gear 24 can be simultaneously driven to rotate relatively, the second gear 23 and the spur gear 16 are meshed with each other through the fourth gear 25, the spur gear 16 is meshed with the fourth gear 25, the fourth gear 25 is driven to rotate relatively, the fourth gear 25 is meshed with the second gear 23, and the second gear 23 is driven to rotate relatively when the fourth gear 23 rotates, and the rotation direction of the second gear 23 is opposite to the rotation direction of the first gear 17 and the third gear 24, so that the connectivity between the first cylinder 4, the second cylinder 19 and the third cylinder 21 can be increased.

In the second embodiment, the second gear 23 is smaller than the first gear 17, and the fourth gear 25 is used for transmission, so that when the straight gear 16 rotates, the second gear 23 can rotate one circle faster than the first gear 17 and the third gear 24, and a rotating speed difference is formed between the second cylinder 6 and the first cylinder 5 and the third cylinder 7, so that waste water is crushed.

Example III

As shown in fig. 4 to 6, in the third embodiment of the present application, the cylindrical block 26 is configured at the end of the processing barrel 2 based on the first embodiment and the second embodiment, the first cylinder 4 penetrates through the cylindrical block 26, and the contact area between the first cylinder 4 and the processing barrel 2 can be increased by designing the cylindrical block 26, so that the first cylinder 4 is firmly installed and is not easy to be damaged by bending in the rotation process.

In the third embodiment, the inner sides of the cylindrical block 26, the first cylinder 4 and the second cylinder 19 are all provided with the sealing ring 27, the sealing ring 27 is a rubber ring, and the inner sides of the sealing rings respectively collide with the outer sides of the first cylinder 4, the second cylinder 19 and the third cylinder 21, and the sealing ring 27 can fill gaps between the cylindrical block 26 and the first cylinder 4, between the first cylinder 4 and the second cylinder 19 and between the second cylinder 19 and the third cylinder 21, so that the air tightness of the device is improved.

Example IV

As shown in fig. 1, fig. 2, fig. 3 and fig. 7, in the fourth embodiment, a barrel cover 28 is disposed on the processing barrel 2, the liquid inlet pipe 12 and the air outlet pipe 11 are both mounted on the barrel cover 28, and they are detachably connected with the tail end of the processing barrel 2 through a bolt assembly 29, an annular rubber gasket 30 is disposed on the inner side of the barrel cover 28, when the annular rubber gasket 30 is mounted on the processing barrel 2, the annular rubber gasket 30 is in contact with the edge of the tail end of the processing barrel 2, so as to improve the tightness of the processing barrel 2 after the barrel cover 28 is mounted, and when the first barrel 5, the second barrel 6 and the third barrel 7 are damaged in the use process, the bolt assembly 29 can be detached to open the barrel cover 28 and maintain the internal components thereof.

In the fourth embodiment, the inner side of the barrel cover 28 is configured with the first annular block 31 and the second annular block 32, the inner side and the outer side of the first annular block 31 are respectively contacted with the inner side of the first barrel 5 and the outer side of the second barrel 6, the inner side and the outer side of the second annular block 32 are respectively contacted with the inner side of the second barrel 6 and the outer side of the third barrel 7, and the first annular block 31 and the second annular block 32 can be respectively inserted into the spaces between the adjacent first barrel 5, the adjacent second barrel 6 and are in rotary contact with the first barrel 6 so as to guide the end parts of the first barrel 5, the second barrel 6 and the second barrel 6, so that offset distortion is not easy to occur in the rotary process.

In the fourth embodiment, the outer side of the liquid inlet pipe 12 is configured with the connection blocks 33, the connection blocks 33 are annularly arranged along the axis of the liquid inlet pipe 12, the number of the connection blocks 33 is three in the present application, and the connection blocks 33 are all connected with the barrel cover 28, and the fixing effect of the liquid inlet pipe 12 can be improved through the connection blocks 33, so that the liquid inlet pipe 12 is not easy to deviate and is contacted with the third sleeve rotating at high speed.

In the fourth embodiment, the connecting block 33 is L-shaped, and has a vertical section 34 and a horizontal section 35 that are connected to each other, the horizontal section 35 is connected to the peripheral side of the liquid inlet pipe 12, the vertical section 34 is connected to the nozzle of the gas outlet pipe 11, and the L-shaped design can increase the stability and bearing capacity of the liquid inlet pipe 12 after being connected to the nozzle of the gas outlet pipe 11, so as to ensure the safety of the liquid inlet pipe 12 after being fixed.

The previous description of the disclosed embodiments is provided to enable any person skilled in the art to make or use the present application. Various modifications to these embodiments will be readily apparent to those skilled in the art, and the generic principles defined herein may be applied to other embodiments without departing from the spirit or scope of the application. Thus, the present application is not intended to be limited to the embodiments shown herein but is to be accorded the widest scope consistent with the principles and novel features disclosed herein.

Claims

1. An organic wastewater treatment apparatus, comprising:

a fixing plate (1), the top of which is provided with a treatment barrel (2) in a horizontal direction;

the circular plate (3) is rotatably arranged in the processing barrel (2), one side of the circular plate is provided with a first cylinder (4), the end part of the circular plate penetrates through the end part of the processing barrel (2), the other side of the circular plate (3) is connected with a first barrel (5), a second barrel (6) is arranged in the circular plate, a third barrel (7) is arranged in the second barrel (6), the circular plate (3) is respectively arranged through an installation piece (8), the end parts of the first barrel (5), the second barrel (6) and the third barrel (7) are respectively in rotary fit with the tail end of the processing barrel (2), and a plurality of water permeable holes (9) are uniformly distributed on the peripheral sides of the first barrel (5), the second barrel (6) and the third barrel (7);

the air inlet pipeline (10) is arranged on the treatment barrel (2) and is positioned at the top of the first barrel (5), and the tail end of the treatment barrel (2) is provided with an air outlet pipeline (11) which is communicated with the inside of the third barrel (7);

the liquid inlet pipeline (12) is arranged in the third cylinder body (7), the end part of the liquid inlet pipeline extends towards the end part direction of the treatment cylinder (2), a plurality of water outlet holes (13) are uniformly distributed on the periphery side of the liquid inlet pipeline (12), the outer diameter of the liquid inlet pipeline (12) is smaller than the inner diameter of the air outlet pipeline (11), the tail end of the liquid inlet pipeline (12) penetrates through the air outlet pipeline (11), and the liquid outlet pipeline (14) is arranged on the treatment cylinder (2) and is positioned at the bottom of the first cylinder body (5);

the driving piece (15) is arranged at the top of the fixed plate (1), the output end of the driving piece is provided with a spur gear (16), and the circumference side of the first cylinder (4) is provided with a first gear (17) which is meshed with the spur gear (16).

2. An organic wastewater treatment plant according to claim 1, characterized in that the mounting member (8) comprises a first connection plate (18) configured at the end of the second cylinder (6) and having a second cylinder (19) configured thereon, extending through the middle of the first cylinder (4) and in a rotating fit therewith, and the third cylinder (7) has a second connection plate (20) configured at the end thereof and having a third cylinder (21) configured thereon, extending through the middle of the second cylinder (19) and in a rotating fit therewith, the output end of the driving member (15) being in driving connection with the second cylinder (19) and the third cylinder (21) via a transmission mechanism (22) such that adjacent first cylinder (4), second cylinder (19) and third cylinder (21) are in a reversing direction.

3. An organic wastewater treatment plant according to claim 2, characterized in that the transmission mechanism (22) comprises a second gear (23), a third gear (24) and a fourth gear (25), the second gear (23) and the third gear (24) being mounted on the ends of the second cylinder (19) and the third cylinder (21), respectively, the fourth gear (25) being rotatably mounted on the end of the treatment vessel (2), the third gear (24) being in engagement with the spur gear (16), the second gear (23) being in engagement with the spur gear (16) via the fourth gear (25).

4. An organic wastewater treatment plant according to claim 3, characterized in that the second gear (23) is smaller than the first gear (17).

5. An organic wastewater treatment plant according to claim 2, characterized in that the treatment tank (2) is configured with a cylindrical block (26) at the end, through which cylindrical block (26) the first cylinder (4) extends.

6. The organic wastewater treatment device according to claim 5, characterized in that the inner sides of the cylindrical block (26), the first cylinder (4) and the second cylinder (19) are provided with sealing rings (27), and the inner sides of the rings respectively collide with the outer sides of the first cylinder (4), the second cylinder (19) and the third cylinder (21).

7. An organic wastewater treatment plant according to claim 1, characterized in that the treatment tank (2) is provided with a tank cover (28) which is detachably connected to the end of the treatment tank (2) by means of a screw assembly (29).

8. The organic wastewater treatment apparatus according to claim 7, wherein the inner side of the tub cover (28) is configured with a first annular block (31) and a second annular block (32), the inner side and the outer side of the first annular block (31) are respectively in contact with the inner side of the first tub body (5) and the outer side of the second tub body (6), and the inner side and the outer side of the second annular block (32) are respectively in contact with the inner side of the second tub body (6) and the outer side of the third tub body (7).

9. The organic wastewater treatment apparatus according to claim 1, wherein a connection block (33) is configured on the outside of the liquid inlet pipe (12), the connection block (33) is a plurality of the connection blocks (33) arranged in an annular array along the axis of the liquid inlet pipe (12), and the plurality of connection blocks (33) are connected with the bucket cover (28).

10. An organic wastewater treatment plant according to claim 9, characterized in that the connection block (33) is L-shaped with a vertical section (34) and a horizontal section (35) connected to each other, the horizontal section (35) being connected to the peripheral side of the inlet pipe (12), the vertical section (34) being connected to the mouth of the outlet pipe (11).