CN116332439A

CN116332439A - Energy-saving emission-reducing sewage treatment device

Info

Publication number: CN116332439A
Application number: CN202310588417.3A
Authority: CN
Inventors: 顾建兵; 田其宁; 刘景�; 刘利辉; 李志辉; 赵研; 董延利; 张宏伟; 商鹏
Original assignee: China Construction Industrial and Energy Engineering Group Co Ltd
Current assignee: China Construction Industrial and Energy Engineering Group Co Ltd
Priority date: 2023-05-24
Filing date: 2023-05-24
Publication date: 2023-06-27

Abstract

The invention discloses an energy-saving and emission-reducing sewage treatment device, which relates to the technical field of building construction and comprises a filter tank, a rotating tank and a feeding assembly, wherein a water inlet pipe is connected to the outer side of the top of the filter tank, the rotating tank is connected to the tail end of the bottom of the water inlet pipe, a through groove is formed in the outer end of the rotating tank, a first filter screen is arranged on the inner side of the through groove, a driven gear is connected to the outer end of the rotating tank, a motor is arranged on the inner side of the right part of the filter tank, a driving gear is connected to the output end of the motor, and a waste discharge pipe is connected to the bottom end of the rotating tank. According to the invention, the discharge amount of alum powder in unit time is determined according to the rotating speed of the water impeller, and the rotating speed of the water impeller is determined by the flow rate and the flow rate of the water body, so that the spreading amount of alum can be automatically adjusted according to the flow rate of the water body in the use process of the equipment, the input amount of alum can be ensured to be kept proper, and electric energy is not required in the operation process, so that the energy saving and emission reduction efficiency of the equipment can be improved.

Description

Energy-saving emission-reducing sewage treatment device

Technical Field

The invention relates to the technical field of house construction, in particular to an energy-saving and emission-reducing sewage treatment device.

Background

In the house construction process, a large amount of water bodies generally remain in the foundation pit, and the water bodies are difficult to directly discharge due to the fact that the water bodies are mixed with silt, so that when the water bodies in the foundation pit are cleaned, the water bodies can be normally discharged after sewage treatment, and when sewage treatment is carried out, a sewage treatment device is generally required.

Common house construction sewage treatment equipment in the market adopts full power energy supply to realize sewage treatment generally, but because the foundation ditch volume is great, the sewage of clearance is more, and sewage generally need clean up (in order to avoid influencing the normal clear of construction) in a short time, this leads to sewage treatment equipment to need high power consumption to adopt the completion when handling sewage.

Accordingly, in view of the above, studies and improvements have been made to solve the conventional problems and disadvantages, and an energy-saving and emission-reducing sewage treatment apparatus has been proposed.

Disclosure of Invention

The invention aims to provide an energy-saving and emission-reducing sewage treatment device so as to solve the problems in the background technology.

In order to achieve the above purpose, the present invention provides the following technical solutions: the utility model provides an energy saving and emission reduction's sewage treatment plant, includes the rose box, rotates the case and throw the material subassembly, the top outside of rose box is connected with into the water pipe, it connects in the bottom end of going into the water pipe to rotate the case, the logical groove has been seted up to the outer end of rotating the case, and the inboard of leading to the groove is provided with first filter screen, the outer end of rotating the case is connected with driven gear, the motor has been settled to the right part inboard of rose box, and the output of motor is connected with the driving gear, the bottom of rotating the case is connected with the exhaust pipe, and the bottom of exhaust pipe is connected with the collection waste box, the left portion outside of rose box is connected with the water pipe, throw the material subassembly and set up in the top outside of leading to the water pipe.

Further, the motor drives the driving gear to rotate, and the driven gear is meshed with the driving gear.

Further, throw material subassembly and include water oar, screw shaft, bin, first swash plate, second swash plate and discharging pipe, the top outside of water oar is taken the piece and is had the screw shaft, the top of leading to the water pipe is provided with the bin, the inboard of bin is provided with first swash plate, and the bottom of first swash plate is settled there is the second swash plate, the left portion outer end of bin is connected with the discharging pipe.

Further, the storage box is communicated with the water pipe through the discharging pipe, and the water impeller is overlapped with the central axis of the water pipe.

Further, the end-to-end connection of water pipe has the storage water tank, and the inboard of storage water tank is connected with driven rotating oar, driven rotating oar's outer end is provided with first rolling disc, the bottom of storage water tank is connected with communicating pipe, the flowing back case is settled in communicating pipe's bottom, and the inboard top of flowing back case is provided with the second filter screen, the bottom inboard of flowing back case is provided with the initiative rotating oar, and the outer end of initiative rotating oar is connected with the second rolling disc, the inboard of second rolling disc is provided with the drive belt, the right part outside of storage water tank is provided with exhaust assembly.

Further, the water storage tank is communicated with the liquid discharge tank through a communicating pipe, and the driving rotating paddle is arranged at the vertical central line of the liquid discharge tank.

Further, the driving rotating paddles drive the driving belt to rotate through the second rotating disc, and the driving belt drives the driven rotating paddles to rotate through the first rotating disc.

Further, the exhaust assembly comprises an exhaust pipe, a one-way exhaust valve, an air vent and an exhaust fan, wherein the one-way exhaust valve is arranged on the inner side of the right part of the exhaust pipe, the air vent is formed in the outer end of the exhaust pipe, and the exhaust fan is arranged at the middle end of the inner side of the exhaust pipe.

Further, the exhaust fan is fixedly connected with the driven rotating paddle, and the exhaust fan rotates along with the driven rotating paddle.

Further, the waste collection box is communicated with the one-way exhaust valve through an exhaust pipe, and the exhaust pipe is not communicated with the water storage tank.

The invention provides an energy-saving and emission-reducing sewage treatment device, which has the following beneficial effects:

1. the invention can make the water in the sewage flow into the filter tank through the through groove, the impurities can be blocked in the rotary tank by the first filter screen, and the driven gear can be driven to rotate by the motor, so that the driven gear can drive the rotary tank to rotate, and the sewage in the rotary tank can be quickly separated from the impurities through centrifugal force by rotating the rotary tank, so that the filtering speed of the sewage can be improved, the water in the sewage can be quickly separated from the sewage through centrifugal force, the sewage can be conveniently and sequentially treated by reducing the water in the sewage, the sewage can be stored and reacted in the water storage tank after contacting with the alum, when the water in the water storage tank is full, the electric control valve in the communicating pipe is opened, the water in the water storage tank can be further flowed into the liquid discharge tank for storage, the water can be contacted with the second filter screen after entering the liquid discharge tank, the second filter screen can filter the floccule generated after the alum reacts with the water, the clean water after filtering can be kept stand in the liquid discharge tank, the sewage can be filtered out of the clean water after the alum is filtered, the sewage can be effectively filtered out, and the clean water after the sewage is put into the liquid discharge tank for filtering, and the clean water can be guaranteed.

2. According to the invention, in the process of flowing sewage in the water through pipe, the flow of the water body can drive the water impeller to rotate, the water impeller can drive the screw shaft to rotate together in the rotating process, alum powder is stored in the storage box at the top end of the first inclined plate, the screw shaft penetrates through the first inclined plate and the second inclined plate and can be contacted with the alum powder, so that the alum powder can be brought into a compartment between the first inclined plate and the second inclined plate through rotation of the screw shaft in the rotating process, the second inclined plate is inclined, the alum powder attached to the second inclined plate can slide into the discharge pipe along with the second inclined plate and enter the water through the discharge pipe to be mixed with the water body, so that impurity removal of the water body is realized, through the operation, the alum powder can be automatically scattered into the water body when the water flows in the water through pipe, in addition, the discharge quantity of the alum powder in unit time is determined according to the rotating speed of the water impeller, and the rotating speed of the water impeller is determined by the flow speed and the flow of the water body, so that the alum powder can be automatically adjusted according to the flow of the water body in the using process, the energy can be saved, and the energy can be properly saved, and the energy can be saved.

3. The invention can drive the initiative rotating oar to rotate in the process of water flowing out of the liquid discharge box, and the initiative rotating oar can drive the rotation of the transmission belt through the second rotating disc to drive the driven rotating oar to rotate in the rotating process, the driven rotating oar is arranged in the water storage box, the mixing of alum and the water body can be promoted by rotating the driven rotating oar, the alum impurity removing effect can be maximized, in addition, the air exhaust fan in the exhaust pipe can be driven to rotate in the rotating process of the driven rotating oar, in the rotating process of the exhaust fan, air in the waste collection box can be pumped out through the one-way exhaust valve and is discharged through the air vent, the waste collection box can form a vacuum state, when the filtered impurities in the rotating box are too much, the rotating box is communicated with the waste collection box through the waste discharge pipe, and the waste collection box is in a negative pressure state at the moment, the waste collection box can generate suction force when the impurities fall into the waste collection box through the cooperation of gravity, the suction force generated by adopting the extra negative pressure can greatly reduce the situation that the impurities in the rotating box block the pipeline, the situation caused by too much, the water flow can be greatly reduced, the energy consumption can be greatly reduced, and the energy consumption can be greatly reduced by driving the operation of the rotating equipment.

Drawings

FIG. 1 is a schematic diagram of the whole structure of a sewage treatment device with energy conservation and emission reduction in front view;

FIG. 2 is an enlarged schematic view of the structure of the sewage treatment device of FIG. 1A, which is used for saving energy and reducing emission;

FIG. 3 is a schematic diagram of a rotational cross-sectional structure of a sewage treatment device for energy conservation and emission reduction;

FIG. 4 is a schematic diagram of a feeding assembly of the energy-saving and emission-reducing sewage treatment device;

fig. 5 is an enlarged schematic view of the structure of the position B in fig. 1 of the energy-saving and emission-reducing sewage treatment device of the present invention.

In the figure: 1. a filter box; 2. a water inlet pipe; 3. a rotating box; 4. a through groove; 5. a first filter screen; 6. a driven gear; 7. a motor; 8. a drive gear; 9. a waste discharge pipe; 10. a waste collection box; 11. a water pipe; 12. a feeding assembly; 1201. a water-driven paddle; 1202. a screw shaft; 1203. a storage tank; 1204. a first swash plate; 1205. a second swash plate; 1206. a discharge pipe; 13. a water storage tank; 14. driven rotating paddles; 15. a first rotating disc; 16. a communicating pipe; 17. a liquid discharge box; 18. a second filter screen; 19. actively rotating the paddle; 20. a second rotating disc; 21. a transmission belt; 22. an exhaust assembly; 2201. an exhaust pipe; 2202. a one-way exhaust valve; 2203. a vent; 2204. an exhaust fan.

Description of the embodiments

Referring to fig. 1 to 5, the present invention provides the following technical solutions: the utility model provides an energy saving and emission reduction's sewage treatment plant, including rose box 1, rotate case 3 and throw material subassembly 12, the top outside of rose box 1 is connected with water inlet pipe 2, rotate case 3 and connect in the bottom end of water inlet pipe 2, open groove 4 has been seted up to the outer end of rotation case 3, and the inboard of leading to groove 4 is provided with first filter screen 5, the outer end of rotation case 3 is connected with driven gear 6, motor 7 is settled to the right part inboard of rose box 1, and motor 7's output is connected with driving gear 8, the bottom of rotation case 3 is connected with exhaust pipe 9, and the bottom of exhaust pipe 9 is connected with collection waste bin 10, the left portion outside of rose box 1 is connected with water pipe 11, throw material subassembly 12 and settle in the top outside of water pipe 11.

Referring to fig. 1 to 5, a motor 7 drives a driving gear 8 to rotate, a driven gear 6 is meshed with the driving gear 8, a feeding assembly 12 comprises a water impeller 1201, a screw shaft 1202, a storage tank 1203, a first inclined plate 1204, a second inclined plate 1205 and a discharging pipe 1206, a screw shaft 1202 is arranged at the outer side of the top of the water impeller 1201, the top of the water pipe 11 is provided with the storage tank 1203, the inner side of the storage tank 1203 is provided with the first inclined plate 1204, the bottom of the first inclined plate 1204 is provided with the second inclined plate 1205, the outer end of the left part of the storage tank 1203 is connected with the discharging pipe 1206, the storage tank 1203 is communicated with the water pipe 11 through the discharging pipe 1206, the water impeller 1201 coincides with the central axis of the water pipe 11, the end of the water pipe 11 is connected with a water storage tank 13, the inner side of the water storage tank 13 is connected with a driven rotating paddle 14, the outer end of the driven rotating paddle 14 is provided with a first rotating disc 15, the bottom of the water storage tank 13 is connected with a communicating pipe 16, the liquid draining box 17 is arranged at the bottom end of the communicating pipe 16, a second filter screen 18 is arranged at the top end of the inner side of the liquid draining box 17, a driving rotating paddle 19 is arranged at the inner side of the bottom of the liquid draining box 17, the outer end of the driving rotating paddle 19 is connected with a second rotating disk 20, a driving belt 21 is arranged at the inner side of the second rotating disk 20, an exhaust assembly 22 is arranged at the outer side of the right part of the water storing tank 13, the water storing tank 13 is communicated with the liquid draining box 17 through the communicating pipe 16, the driving rotating paddle 19 is arranged at the vertical center line of the liquid draining box 17, the driving rotating paddle 19 drives the driving belt 21 to rotate through the second rotating disk 20, the driving belt 21 drives the driven rotating paddle 14 to rotate through the first rotating disk 15, the exhaust assembly 22 comprises an exhaust pipe 2201, a one-way exhaust valve 2202, an air vent 2203 and an exhaust fan 2204, the inner side of the right part of the exhaust pipe 2201 is provided with the one-way exhaust valve 2203, and the outer end of the exhaust pipe 2201 is provided with the air vent 2203, the middle end of the inner side of the exhaust pipe 2201 is provided with an exhaust fan 2204, the exhaust fan 2204 is fixedly connected with the driven rotating paddle 14, the exhaust fan 2204 rotates along with the driven rotating paddle 14, the waste collection box 10 is communicated with the one-way exhaust valve 2202 through the exhaust pipe 2201, and the exhaust pipe 2201 is not communicated with the water storage tank 13;

the method comprises the specific operation that after the sewage collected in the foundation pit is pumped by the pumping equipment, the sewage can flow downwards along with the water inlet pipe 2, the sewage can flow into the rotary box 3, at the moment, the water in the sewage can flow into the filter box 1 through the through groove 4, sundries can be blocked in the rotary box 3 by the first filter screen 5, the driving gear 8 can drive the driven gear 6 to rotate through the motor 7, the driven gear 6 can drive the rotary box 3 to rotate, the sewage in the rotary box 3 can be separated from the sundries rapidly through centrifugal force through the rotation of the rotary box 3, the filtering speed of the sewage can be improved by the equipment, meanwhile, the water in the sewage can also be separated from the sewage rapidly through centrifugal force, the subsequent treatment of the sewage can be facilitated through reducing the water in the sewage, the sewage entering the filter box 1 can flow into the water storage tank 13 through the water inlet pipe 11, in the process of sewage flowing in the water pipe 11, the flow of the water body can drive the water impeller 1201 to rotate, the water impeller 1201 can drive the screw shaft 1202 to rotate together in the rotating process, alum powder is stored in the storage tank 1203 at the top end of the first inclined plate 1204, the screw shaft 1202 penetrates through the first inclined plate 1204 and the second inclined plate 1205 and can be contacted with the alum powder, the alum powder can be brought into a compartment between the first inclined plate 1204 and the second inclined plate 1205 by rotation of the screw shaft 1202 in the rotating process, the alum powder attached to the second inclined plate 1205 can slide into the discharge pipe 1206 along with the second inclined plate 1205 and enter the water pipe 11 through the discharge pipe 1206 to be mixed with the water body, so that the impurity removal of the water body is realized, the device can automatically scatter alum into water when water flows in the water pipe 11, in addition, the discharge amount of alum powder in unit time is determined according to the rotating speed of the water moving paddle 1201, and the rotating speed of the water moving paddle 1201 is determined by the flow speed and the flow rate of the water body, so that the device can automatically adjust the scattering amount of alum according to the flow rate of the water body in the use process, the input amount of alum can be kept proper, electric energy is not needed in the operation process, the energy saving and emission reduction efficiency of the device can be improved, after sewage is contacted with alum, the alum can be stored and reacted in the water storage tank 13, when the water body in the water storage tank 13 is full, an electric control valve in the communicating pipe 16 is opened, the water body in the water storage tank 13 can flow into the liquid discharge tank 17 for storage, and the water body can be contacted with the second filter screen 18 after entering the liquid discharge tank 17, the second filter screen 18 can filter the floccule generated after alum and water react, and the filtered clean water can be kept stand in the liquid discharge box 17, after the water in the liquid discharge box 17 is accumulated too much, the pipeline at the bottom end of the liquid discharge box 17 is opened, the finished clean water can flow out from the bottom end of the liquid discharge box 17 through the pipeline, the water can drive the driving rotating propeller 19 to rotate in the flowing process of the water in the liquid discharge box 17, the driving rotating propeller 19 can drive the driving belt 21 to rotate through the second rotating disc 20 in the rotating process, the driven rotating propeller 14 is arranged in the water storage tank 13, the mixing of alum and the water can be promoted by rotating the driven rotating propeller 14, the impurity removing effect of alum can be maximized, in addition, in the rotating process of the driven rotating propeller 14, the exhaust fan 2204 in the exhaust pipe 2201 can be driven to rotate, and the exhaust fan 2204 is driven to rotate, the air in the waste collection box 10 can be pumped out through the one-way exhaust valve 2202 and is exhausted through the air vent 2203, so that the vacuum state can be formed in the waste collection box 10, when the filtered sundries in the rotating box 3 are too much, the waste discharge pipe 9 is opened, the rotating box 3 can be communicated with the waste collection box 10, the waste collection box 10 is in a negative pressure state, the waste collection box 10 can generate suction force, the sundries can enter the waste collection box 10 by matching with the gravity when the sundries fall, the suction adsorption caused by the additional negative pressure is adopted, the condition that the pipeline is blocked by the sundries caused by the excessive sundries in the rotating box 3 can be greatly reduced, and the operations are realized by driving the active rotating paddles 19 to rotate through water flow, so that the power consumption of equipment can be greatly reduced, and the energy conservation and the emission reduction of the equipment are ensured.

In summary, when the energy-saving and emission-reducing sewage treatment device is used, firstly, after the sewage collected in a foundation pit is pumped out by a pumping device, the sewage can flow downwards along with a water inlet pipe 2, so that the sewage can flow into a rotary box 3, at the moment, water in the sewage can flow into a filter box 1 through a through groove 4, impurities can be blocked in the rotary box 3 by a first filter screen 5, a motor 7 works, a driving gear 8 can drive a driven gear 6 to rotate, the driven gear 6 can drive the rotary box 3 to rotate, and the rotary box 3 can rotate, so that the sewage in the rotary box 3 can be separated from the impurities rapidly through centrifugal force, the filtering speed of the sewage by the device can be improved, meanwhile, the water in the sewage can also be separated from the sewage rapidly through centrifugal force, and the subsequent treatment of the sewage can be facilitated by reducing the water in the sewage;

then, sewage entering the filter tank 1 can flow into the water storage tank 13 through the water pipe 11, in the process of flowing the sewage in the water pipe 11, the flowing of the water body can drive the water impeller 1201 to rotate, the water impeller 1201 can drive the screw shaft 1202 to rotate together in the rotating process, alum powder is stored in the storage tank 1203 at the top end of the first inclined plate 1204, the screw shaft 1202 penetrates through the first inclined plate 1204 and the second inclined plate 1205 and can be contacted with the alum powder, in the rotating process of the screw shaft 1202, the alum powder can be brought into a compartment between the first inclined plate 1204 and the second inclined plate 1205 through rotation, and the alum powder attached to the second inclined plate 1205 can slide into the discharge pipe 1206 along with the second inclined plate 1205 and enter the water pipe 11 through the discharge pipe 1206 to be mixed with the water body, so that impurity removal of the water body is realized;

after the sewage is contacted with alum, the sewage can be stored and reacted in the water storage tank 13, when the water in the water storage tank 13 is fully collected, an electric control valve in the communicating pipe 16 is opened, the water in the water storage tank 13 can flow into the liquid discharge tank 17 again for storage, the water can be contacted with the second filter screen 18 after entering the liquid discharge tank 17, the second filter screen 18 can filter floccules generated after the alum reacts with the water, the filtered clean water can be kept stand in the liquid discharge tank 17, after the water in the liquid discharge tank 17 is excessively accumulated, a pipeline at the bottom end of the liquid discharge tank 17 is opened, the finished clean water can flow out from the bottom end of the liquid discharge tank 17 through the pipeline, and the water can drive the active rotating paddle 19 to rotate in the flowing-out process of the liquid discharge tank 17, and the active rotating paddle 19 can drive the driven rotating paddle 14 to rotate through the rotation of the second rotating disk 20, the driven rotating paddle 14 is arranged in the water storage tank 13, and mixing with the water can be promoted through the rotation of the driven rotating paddle 14, so that the impurity removing effect can be maximized;

finally, the driven rotating paddle 14 can drive the exhaust fan 2204 in the exhaust pipe 2201 to rotate in the rotating process, the exhaust fan 2204 can pump out the air in the waste collection box 10 through the one-way exhaust valve 2202 and exhaust the air through the air vent 2203 in the rotating process, so that the waste collection box 10 can form a vacuum state, when the filtered impurities in the rotating box 3 are too much, the rotating box 3 and the waste collection box 10 can be communicated through the opening of the waste exhaust pipe 9, and the waste collection box 10 is in a negative pressure state at the moment, so that the waste collection box 10 can generate suction force, and the impurities can enter the waste collection box 10 by matching with the gravity when the impurities fall, and the occurrence of the condition that the impurities in the rotating box 3 block the pipeline due to the excessive impurities can be greatly reduced by adopting suction adsorption generated by the additional negative pressure.

The embodiments of the invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiments were chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims

1. The utility model provides an energy saving and emission reduction's sewage treatment plant, its characterized in that, including rose box (1), rotation case (3), throw material subassembly (12) and flowing back case (17), the top outside of rose box (1) is connected with into water pipe (2), rotation case (3) are connected in the bottom end of going into water pipe (2), lead to groove (4) have been seted up to the outer end of rotation case (3), and the inboard of leading to groove (4) is provided with first filter screen (5), the outer end of rotation case (3) is connected with driven gear (6), motor (7) are settled to the right part inboard of rose box (1), and the output of motor (7) is connected with driving gear (8), the bottom of rotation case (3) is connected with waste pipe (9), and the bottom of waste pipe (9) is connected with album waste box (10), the left part outside of rose box (1) is connected with water pipe (11), throw material subassembly (12) and set up in the top outside of leading to water pipe (11).

2. The energy-saving and emission-reducing sewage treatment device according to claim 1, wherein the motor (7) drives the driving gear (8) to rotate, and the driven gear (6) is meshed with the driving gear (8).

3. The energy-saving and emission-reduction sewage treatment device according to claim 1, wherein the feeding assembly (12) comprises a water impeller (1201), a screw shaft (1202), a storage box (1203), a first inclined plate (1204), a second inclined plate (1205) and a discharge pipe (1206), the screw shaft (1202) is arranged on the outer side of the top of the water impeller (1201), a storage box (1203) is arranged on the top end of the water pipe (11), the first inclined plate (1204) is arranged on the inner side of the storage box (1203), the second inclined plate (1205) is arranged at the bottom end of the first inclined plate (1204), and the discharge pipe (1206) is connected to the outer end of the left part of the storage box (1203).

4. A sewage treatment device according to claim 3, wherein the storage tank (1203) is communicated with the water pipe (11) through the discharge pipe (1206), and the water impeller (1201) is coincident with the central axis of the water pipe (11).

5. The energy-saving and emission-reduction sewage treatment device according to claim 1, wherein the tail end of the water pipe (11) is connected with a water storage tank (13), the inner side of the water storage tank (13) is connected with a driven rotating paddle (14), the outer end of the driven rotating paddle (14) is provided with a first rotating disk (15), the bottom end of the water storage tank (13) is connected with a communicating pipe (16), the liquid draining box (17) is arranged at the bottom end of the communicating pipe (16), the inner side top end of the liquid draining box (17) is provided with a second filter screen (18), the bottom inner side of the liquid draining box (17) is provided with a driving rotating paddle (19), the outer end of the driving rotating paddle (19) is connected with a second rotating disk (20), the inner side of the second rotating disk (20) is provided with a driving belt (21), and the outer side of the right part of the water storage tank (13) is provided with an exhaust assembly (22).

6. The energy-saving and emission-reducing sewage treatment device according to claim 5, wherein the water storage tank (13) is communicated with the liquid discharge tank (17) through a communicating pipe (16), and the active rotating paddle (19) is arranged at the vertical center line of the liquid discharge tank (17).

7. The energy-saving and emission-reducing sewage treatment device according to claim 5, wherein the driving rotating paddle (19) drives the driving belt (21) to rotate through the second rotating disc (20), and the driving belt (21) drives the driven rotating paddle (14) to rotate through the first rotating disc (15).

8. The energy-saving and emission-reducing sewage treatment device according to claim 5, wherein the exhaust assembly (22) comprises an exhaust pipe (2201), a one-way exhaust valve (2202), an air vent (2203) and an exhaust fan (2204), the one-way exhaust valve (2202) is arranged on the inner side of the right part of the exhaust pipe (2201), the air vent (2203) is arranged at the outer end of the exhaust pipe (2201), and the air vent (2204) is arranged at the middle end of the inner side of the exhaust pipe (2201).

9. The energy-saving and emission-reducing sewage treatment device according to claim 8, wherein the exhaust fan (2204) is fixedly connected with the driven rotating paddle (14), and the exhaust fan (2204) rotates along with the driven rotating paddle (14).

10. The energy-saving and emission-reducing sewage treatment device according to claim 8, wherein the waste collection tank (10) is communicated with the one-way exhaust valve (2202) through an exhaust pipe (2201), and the exhaust pipe (2201) is not communicated with the water storage tank (13).