CN111995144A - Sewage treatment system is used in lead accumulator production - Google Patents

Abstract

The invention discloses a sewage treatment system for lead storage battery production, which comprises a rib plate, supporting legs, a detachable lead slag box, a valve, a filter box, a transmission shaft, rotary drums, a water inlet, a support frame and a motor, wherein the bottom end of the filter box is fixedly connected with a plurality of supporting legs which are equidistantly distributed at the bottom end of the filter box, the supporting legs are connected through the rib plate, the motor is installed at the top end of the filter box, the motor is connected with the filter box through the support frame, the support frames are symmetrically distributed at two sides of the motor, an output shaft of the motor extends into the filter box and is fixedly connected with the transmission shaft, the rotary drums are installed at two sides of the transmission shaft and are symmetrically distributed, a discharge pipe is arranged at the bottom end of the filter box, one end, far away from the filter box, of the discharge pipe is connected with; the invention has reasonable structure, low manual work intensity, recyclable products produced in the acid removal process, little environmental pollution and high work efficiency.

Description

Sewage treatment system is used in lead accumulator production

Technical Field

The invention belongs to the field of lead storage battery production waste treatment, relates to a sewage treatment technology, and particularly relates to a sewage treatment system for lead storage battery production.

Background

The topic of water pollution is continuously raised, particularly the problem of underground water pollution, farmers or enterprises in Hangzhou and Wenzhou Zhejiang pay for environmental protection leaders to go into the river and swim, so that attention to the serious degree of water pollution is brought to people. In 13 hundred million people in China, 70% of groundwater is drunk, and in more than 660 cities, more than 400 cities use groundwater as drinking water sources. But 90% of the municipal groundwater nationwide is described to be contaminated, and another group of data also shows that groundwater is facing serious challenges.

The patent with the application number of CN201811583348.2 discloses a sewage treatment device, which comprises a treatment tank, wherein the bottom of the treatment tank is provided with an air inlet hole for high-pressure gas to enter, the upper end of the air inlet hole is communicated with an air inlet pipe, the air inlet hole comprises a necking section and flaring sections communicated with the two ends of the necking section, the side wall of the necking section is provided with a water inlet hole communicated with the inner cavity of the air inlet pipe, and the side wall of the flaring section is provided with a plurality of pinholes communicated with the inner cavity of the air inlet pipe; the upper end of the air inlet pipe is sealed and communicated with a plurality of guide pipes, the end of each guide pipe, far away from the air inlet pipe, is opened downwards, and a decontamination unit is arranged below the guide pipe in the treatment tank; the decontamination unit comprises a turbine shaft which is rotationally connected in the treatment tank, a turbine and a cam are fixed on the turbine shaft, and the turbine is positioned right below the guide pipe; the decontamination unit also comprises a piston cylinder fixed at the bottom of the treatment pool.

The following disadvantages still exist:

1. in the sewage treatment system, when the filter box filters impurities in sewage, the impurities with small volume cannot be filtered;

2. in the sewage treatment system, sewage flows out through a water outlet pipe after being filtered, the water outlet pipe is not provided with a filtering device, and when impurities are not filtered, the efficiency of the device is influenced;

3. in the sewage treatment system, sewage enters an evaporation tank in an acid removal tank, a drainage device is not arranged, and the flow rate of water is low;

4. in the sewage treatment system, the deacidification reaction in the deacidification tank can not be recycled, so that the consumption of resources in production is increased, and the cost is wasted.

Disclosure of Invention

In order to overcome the technical problems, the invention aims to provide a sewage treatment system for lead storage battery production, which comprises the following steps:

1. in the sewage treatment system, the alum storage box is arranged at the top end of the filter box, the motor is started to drive the rotary drum on the transmission shaft to rotate, alum is put into the filter box in the rotating process of the rotary drum, impurities in sewage are adsorbed together to form floccules under the action of the alum, and the impurities slowly sink to the bottom of the box under the action of gravity, so that the working efficiency is greatly improved;

2. in the sewage treatment system, the fine filter screen is arranged at the joint of the filter box and the water outlet pipe, and sewage is filtered again after being treated by the filter box and flows out of the filter box, so that untreated impurities are prevented from influencing the efficiency of the device, and the production time is prolonged;

3. in the sewage treatment system, the drainage plate is arranged in the evaporation box, so that the drainage plate plays a role in guiding the sewage flowing in the evaporation box, the treatment time is reduced, and the efficiency is improved;

4. in the sewage treatment system, scrap iron is added in the deacidification process of the deacidification tank to react with waste sulfuric acid in sewage, the scrap iron and the waste sulfuric acid are fully reacted under the action of the evaporation tank, then the scrap iron and the waste sulfuric acid are condensed by the condenser to generate ferrous sulfate crystals and water, the ferrous sulfate crystals stay in the reaction cavity and are used for other production, and the water enters the water storage tank through a pipeline and is used for next secondary production.

The purpose of the invention can be realized by the following technical scheme:

a sewage treatment system for lead storage battery production comprises rib plates, supporting legs, a detachable lead slag box, valves, a filter box, a transmission shaft, rotary drums, a water inlet, a support frame and a motor, wherein the bottom end of the filter box is fixedly connected with the plurality of supporting legs which are distributed at the bottom end of the filter box at equal intervals, the supporting legs are connected through the rib plates, the motor is installed at the top end of the filter box and connected with the filter box through the support frame, the support frames are symmetrically distributed on two sides of the motor, an output shaft of the motor extends into the filter box and is fixedly connected with the transmission shaft, the rotary drums are installed on two sides of the transmission shaft and are symmetrically distributed, a discharge pipe is arranged at the bottom end of the filter box, one end, far away from the filter box, of the discharge pipe is connected with the detachable lead slag;

the sewage treatment device comprises a filter box, a water inlet pipe, a self-suction water pump, a hose, a water pump, a sewage pool, a suction head and a strainer, wherein the other side of the top end of the filter box is provided with the water inlet, the water inlet is detachably connected with one end of the water inlet pipe, the other end of the water inlet pipe penetrates through the pressurized water tank, the bottom end of the pressurized water tank is fixedly provided with the water pump, the end, far away from the water inlet, of the water inlet pipe penetrates through the water pump, the top end of the pressurized water tank is provided with the self-suction water pump, the end, far away from;

one side of the filter box is fixedly connected with one end of a water outlet pipe, one end of the water outlet pipe close to the filter box is fixedly provided with a fine filter screen, a water valve is arranged on the water outlet pipe, one end of the water outlet pipe, which is far away from the filter tank, is fixedly connected with the deacidification tank, the other end of the water outlet pipe extends into the acid removing box and is connected with the evaporation box, the two ends of the evaporation box are detachably connected with the inner wall of the acid removing box through second connecting rods, a drainage plate is fixedly arranged at one end of the inside of the evaporation box, which is close to the filter box, a U-shaped heating pipe is fixedly arranged at one end of the inside of the evaporation box, which is far away from the filter box, the evaporation tank is connected with the condenser tank through a pipeline, both ends of the condenser tank are detachably connected with the inner wall of the acid removal tank through a first connecting rod, a water storage tank is arranged below the condenser tank, and the condenser box is connected with the water storage tank through a pipeline, and the water storage tank is fixedly installed at the bottom end inside the acid removing box.

Furthermore, a feeding pipe is installed on one side of the top end of the filter box in an embedded mode, and an alum storage box is fixedly connected to the top end of the feeding pipe.

Further, the top of deacidification case is provided with iron fillings and deposits the case, and iron fillings are deposited the case and are connected with the evaporation tank through the pipeline.

Further, the inside of condensing box is provided with condensation chamber and reaction chamber, the condensation chamber is provided with the spiral pipe, it has the condensing agent to fill between spiral pipe and the condensation chamber, the condensation chamber is connected with the reaction chamber.

Further, the working process of the sewage treatment system is as follows:

the method comprises the following steps: after the staff checks that the connection of all the devices is not problematic, the water pumping head is immersed into a sewage tank, a self-suction water pump is started, and sewage enters a pressurized water tank through a hose; opening a water pump in the pressurized water tank, and under the action of the water pump, enabling sewage to enter the filter tank through the water inlet pipe;

step two: the motor is fixed at the top end of the filter box through the support frame, the motor is started, an output shaft of the motor drives the transmission shaft to rotate, the rotary drum on the transmission shaft rotates along with the transmission shaft, the alum storage box is opened, alum is put into the filter box through the feed pipe, impurities in the sewage are adsorbed together to form floccules, the floccules fall into the bottom end of the filter box under the action of gravity, and after the sewage treatment is finished, the valve is opened, and the floccules fall into the detachable lead slag box;

step three: opening a water valve, enabling sewage on the upper layer of the bottom end of the filter tank to enter the acid removal tank through a water outlet pipe, arranging a fine filter screen at one end of the water outlet pipe close to the filter tank, and enabling the sewage to pass through the fine filter screen when the sewage is discharged from the water outlet pipe;

step four: after sewage enters the acid removing box, iron powder in the iron chip storage box is put into the evaporation box through a pipeline, the U-shaped heating pipe is opened, the temperature of the evaporation box rises, the iron powder and waste acid in the sewage react to generate ferrous sulfate, and the reacted liquid enters the condensation box under the action of the drainage plate;

step five: after entering a condensation tank, liquid passes through a spiral pipe, the liquid is condensed under the action of a condensing agent and then enters a reaction cavity, waste acid and scrap iron in sewage generate ferrous sulfate, ferrous sulfate crystals are separated out after condensation, the ferrous sulfate crystals are left in the reaction cavity and cleaned after treatment is finished, water after deacidification enters a water storage tank at the bottom end inside the deacidification tank, sewage treatment is finished, and the treated water is stored in the water storage tank;

step six: after the sewage treatment is finished, the workers clean all parts of the device.

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

1. in the sewage treatment system, the alum storage box is arranged at the top end of the filter box, the motor is started to drive the rotary drum on the transmission shaft to rotate, alum is put into the filter box in the rotating process of the rotary drum, impurities in sewage are adsorbed together to form floccules under the action of the alum, and the impurities slowly sink to the bottom of the box under the action of gravity, so that the working efficiency is greatly improved;

2. in the sewage treatment system, the fine filter screen is arranged at the joint of the filter box and the water outlet pipe, and sewage is filtered again after being treated by the filter box and flows out of the filter box, so that untreated impurities are prevented from influencing the efficiency of the device, and the production time is prolonged;

3. in the sewage treatment system, the drainage plate is arranged in the evaporation box, so that the drainage plate plays a role in guiding the sewage flowing in the evaporation box, the treatment time is reduced, and the efficiency is improved;

4. in the sewage treatment system, scrap iron is added in the deacidification process of the deacidification tank to react with waste sulfuric acid in sewage, the scrap iron and the waste sulfuric acid are fully reacted under the action of the evaporation tank, then the scrap iron and the waste sulfuric acid are condensed by the condenser to generate ferrous sulfate crystals and water, the ferrous sulfate crystals stay in the reaction cavity and are used for other production, and the water enters the water storage tank through a pipeline and is used for next secondary production.

To sum up: the invention has reasonable structure, low manual work intensity, recyclable products produced in the acid removal process, little environmental pollution and high work efficiency.

Drawings

The invention will be further described with reference to the accompanying drawings.

FIG. 1 is a schematic view showing the internal structure of a sewage treatment system for lead-acid battery production according to the present invention;

FIG. 2 is a schematic view showing the external structure of a sewage treatment system for lead-acid battery production according to the present invention;

FIG. 3 is a schematic view of the structure of the evaporation tank of the present invention;

FIG. 4 is a schematic view of the construction of the condenser case of the present invention;

fig. 5 is a schematic view of the pressurized water tank of the present invention.

In the figure: 1. a rib plate; 2. a support leg; 3. a detachable lead slag box; 4. a valve; 5. a filter box; 6. a drive shaft; 7. a drum; 8. a water inlet; 9. a support frame; 10. a motor; 11. an alum storage box; 12. a feed pipe; 13. a fine filter screen; 14. a water valve; 15. a water outlet pipe; 16. a scrap iron storage box; 17. an acid removal box; 18. an evaporation tank; 19. a second connecting rod; 20. a condenser tank; 21. a water storage tank; 22. a U-shaped heating pipe; 23. a drainage plate; 24. a spiral tube; 25. a condensing agent; 26. a sewage tank; 27. a hose; 28. a water inlet pipe; 29. coarse filtration; 30. a water pumping head; 31. a pressurized water tank; 32. a water pump; 33. a first connecting rod; 34. a self-priming water pump; 35. a reaction chamber; 36. a condensation chamber.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-5, a sewage treatment system for lead storage battery production comprises a rib plate 1, supporting legs 2, a detachable lead slag box 3, a valve 4, a filter box 5, a transmission shaft 6, a rotary drum 7, a water inlet 8, a support frame 9 and a motor 10, wherein the bottom end of the filter box 5 is fixedly connected with a plurality of supporting legs 2, the supporting legs 2 are equidistantly distributed at the bottom end of the filter box 5, the supporting legs 2 are connected with each other through the rib plate 1, the top end of the filter box 5 is provided with the motor 10, the motor 10 is connected with the filter box 5 through the support frame 9, the support frame 9 is symmetrically distributed at two sides of the motor 10, an output shaft of the motor 10 extends into the filter box 5 and is fixedly connected with the transmission shaft 6, the rotary drums 7 are installed at two sides of the transmission shaft 6, the rotary drums 7 are symmetrically distributed, the bottom end of the filter box 5 is provided with a discharge pipe, and one end, a valve 4 is arranged on the discharge pipe, a feed pipe 12 is embedded at one side of the top end of the filter box 5, and an alum storage box 11 is fixedly connected to the top end of the feed pipe 12;

the water inlet 8 is arranged on the other side of the top end of the filter box 5, the water inlet 8 is detachably connected with one end of the water inlet pipe 28, the other end of the water inlet pipe 28 penetrates through the pressurized water tank 31, the bottom end of the pressurized water tank 31 is fixedly provided with a water pump 32, one end, far away from the water inlet 8, of the water inlet pipe 28 penetrates through the water pump 32, the top end of the pressurized water tank 31 is provided with a self-suction water pump 34, one end, far away from the water inlet pipe 28, of the self-suction water pump 34 is fixedly connected with the hose 27, one end, far away from the pressurized water tank 31, of the hose 27 is connected with the sewage tank 26 through a pipeline, one end, far away from;

one side of the filter box 5 is fixedly connected with one end of the water outlet pipe 15, one end of the water outlet pipe 15 close to the filter box 5 is fixedly provided with a fine filter screen 13, the water outlet pipe 15 is provided with a water valve 14, one end of the water outlet pipe 15 far away from the filter box 5 is fixedly connected with the deacidification box 17, the other end of the water outlet pipe 15 extends into the deacidification box 17 to be connected with the evaporation box 18, both ends of the evaporation box 18 are detachably connected with the inner wall of the deacidification box 17 through a second connecting rod 33, the top end of the deacidification box 17 is provided with an iron chip storage box 16, the iron chip storage box 16 is connected with the evaporation box 18 through a pipeline, one end of the evaporation box 18 close to the filter box 5 is fixedly provided with a drainage plate 23, one end of the evaporation box 18 far away from the filter box 5 is fixedly provided with a U-shaped heating pipe 22, both ends of the condenser box 20 are connected with the inner wall of the deacidification box 17 in a detachable mode through a first connecting rod 19, a condensation cavity 36 and a reaction cavity 35 are arranged inside the condenser box 20, the condensation cavity 36 is provided with a spiral pipe 24, a condensing agent 25 is filled between the spiral pipe 24 and the condensation cavity 36, the condensation cavity 36 is connected with the reaction cavity 35, a water storage tank 21 is arranged below the condenser box 20, the condenser box 20 is connected with the water storage tank 21 through a pipeline, and the water storage tank 21 is fixedly installed at the bottom end inside the deacidification box 17.

The working process of the sewage treatment system for lead storage battery production in the embodiment is as follows:

the method comprises the following steps: after the staff checks that the connection of all the devices is not problematic, the pumping head 30 is immersed into the sewage tank 26, the self-suction water pump 34 is started, and sewage enters the pressurized water tank 31 through the hose 27; the water pump 32 in the pressurized water tank 31 is started, and under the action of the water pump 32, sewage enters the filter tank 5 through the water inlet pipe 28;

step two: the motor 10 is fixed at the top end of the filter box 5 through the support frame 9, the motor 10 is turned on, the output shaft of the motor 10 drives the transmission shaft 6 to rotate, the rotary drum 7 on the transmission shaft 6 rotates along with the rotation, the alum storage box 11 is opened, alum is put into the filter box 5 through the feed pipe 12, impurities in the sewage are adsorbed together to form floccules under the action of the alum, the floccules fall into the bottom end of the filter box 5 under the action of gravity, and after the sewage treatment is finished, the valve 4 is opened, and the floccules fall into the detachable lead slag box 3;

step three: opening the water valve 14, enabling the sewage on the upper layer of the bottom end of the filter box 5 to enter the acid removal box 17 through the water outlet pipe 15, arranging a fine filter screen 13 at one end of the water outlet pipe 15 close to the filter box 5, and enabling the sewage to pass through the fine filter screen 13 when being discharged from the water outlet pipe 15 under the action of the fine filter screen 13;

step four: after the sewage enters the deacidification box 17, iron powder in the iron scrap storage box 16 is put into the evaporation box 18 through a pipeline, the U-shaped heating pipe 22 is opened, the temperature of the evaporation box 18 rises, the iron powder and waste acid in the sewage react to generate ferrous sulfate, and the reacted liquid enters the condensation box 20 under the action of the drainage plate 23;

step five: after entering the condensation tank 20, the liquid passes through the spiral pipe 24, the liquid is condensed under the action of a condensing agent 25 and then enters the reaction cavity 35, waste acid and scrap iron in the sewage generate ferrous sulfate, ferrous sulfate crystals are separated out after condensation, the ferrous sulfate crystals are left in the reaction cavity 35 and cleaned after treatment is finished, the water after deacidification enters the water storage tank 21 at the bottom end inside the deacidification tank 17, the sewage treatment is finished, and the treated water is stored in the water storage tank 21;

step six: after the sewage treatment is finished, the workers clean all parts of the device.

In the sewage treatment system, the alum storage box is arranged at the top end of the filter box, the motor is started to drive the rotary drum on the transmission shaft to rotate, alum is put into the filter box in the rotating process of the rotary drum, impurities in sewage are adsorbed together to form floccules under the action of the alum, and the impurities slowly sink to the bottom of the box under the action of gravity, so that the working efficiency is greatly improved;

in the sewage treatment system, the fine filter screen is arranged at the joint of the filter box and the water outlet pipe, and sewage is filtered again after being treated by the filter box and flows out of the filter box, so that untreated impurities are prevented from influencing the efficiency of the device, and the production time is prolonged;

in the sewage treatment system, the drainage plate is arranged in the evaporation box, so that the drainage plate plays a role in guiding the sewage flowing in the evaporation box, the treatment time is reduced, and the efficiency is improved;

in the sewage treatment system, scrap iron is added in the deacidification process of the deacidification tank to react with waste sulfuric acid in sewage, the scrap iron and the waste sulfuric acid are fully reacted under the action of the evaporation tank, then the scrap iron and the waste sulfuric acid are condensed by the condenser to generate ferrous sulfate crystals and water, the ferrous sulfate crystals stay in the reaction cavity and are used for other production, and the water enters the water storage tank through a pipeline and is used for next secondary production.

In the description herein, references to the description of "one embodiment," "an example," "a specific example" or the like are intended to mean that a particular feature, structure, material, or characteristic described in connection with the embodiment or example is included in at least one embodiment or example of the invention. In this specification, the schematic representations of the terms used above do not necessarily refer to the same embodiment or example. Furthermore, the particular features, structures, materials, or characteristics described may be combined in any suitable manner in any one or more embodiments or examples.

The foregoing is illustrative and explanatory only and is not intended to be exhaustive or to limit the invention to the precise embodiments described, and various modifications, additions, and substitutions may be made by those skilled in the art without departing from the scope of the invention or exceeding the scope of the claims.

Claims (5)

1. The sewage treatment system for the production of the lead storage battery is characterized by comprising rib plates (1), supporting legs (2), a detachable lead slag box (3), a valve (4), a filter box (5), a transmission shaft (6), a rotary drum (7), a water inlet (8), a supporting frame (9) and a motor (10), wherein the bottom end of the filter box (5) is fixedly connected with a plurality of supporting legs (2), the supporting legs (2) are equidistantly distributed at the bottom end of the filter box (5), the supporting legs (2) are connected through the rib plates (1), the top end of the filter box (5) is provided with the motor (10), the motor (10) is connected with the filter box (5) through the supporting frame (9), the supporting frames (9) are symmetrically distributed at two sides of the motor (10), an output shaft of the motor (10) extends into the filter box (5) and is fixedly connected with the transmission shaft (6), the rotary drums (7) are mounted on two sides of the transmission shaft (6), the rotary drums (7) are symmetrically distributed, a discharge pipe is arranged at the bottom end of the filter box (5), one end, far away from the filter box (5), of the discharge pipe is connected with the detachable lead slag box (3), and a valve (4) is arranged on the discharge pipe;

the other side of the top end of the filter box (5) is provided with a water inlet (8), the water inlet (8) is detachably connected with one end of a water inlet pipe (28), the other end of the water inlet pipe (28) penetrates through the pressurized water tank (31), the bottom end of the pressurized water tank (31) is fixedly provided with a water pump (32), one end of the water inlet pipe (28) far away from the water inlet (8) penetrates through the water pump (32), a self-suction water pump (34) is arranged at the top end of the pressurized water tank (31), one end of the self-suction water pump (34) far away from the water inlet pipe (28) is fixedly connected with the hose (27), one end of the hose (27) far away from the pressurized water tank (31) is connected with the sewage pool (26) through a pipeline, and one end of the pipeline far away from the hose (27) is fixedly connected with a water pumping head (30), a coarse filter screen (29) is arranged at one end of the water pumping head (30) close to the hose (27);

one side of rose box (5) and the one end fixed connection of outlet pipe (15), the one end fixed mounting that outlet pipe (15) is close to rose box (5) has fine filter screen (13), be provided with water valve (14) on outlet pipe (15), the one end that filter box (5) were kept away from in outlet pipe (15) with remove sour case (17) fixed connection, the other end extension of outlet pipe (15) removes and is connected with evaporating box (18) in sour case (17), the both ends of evaporating box (18) all are connected with the inner wall dismantlement formula that removes sour case (17) through second connecting rod (33), the inside one end fixed mounting that is close to rose box (5) of evaporating box (18) has drainage plate (23), the inside one end fixed mounting who keeps away from rose box (5) of evaporating box (18) has U type heating pipe (22), evaporating box (18) are connected with condensing box (20) through the pipeline, the both ends of condensing box (20) all are connected with the inner wall dismantlement formula of deacidifying case (17) through first connecting rod (19), the below of condensing box (20) is provided with storage water tank (21), and condensing box (20) is connected through the pipeline with storage water tank (21), storage water tank (21) fixed mounting is in the inside bottom of deacidifying case (17).

2. The sewage treatment system for the production of the lead storage battery according to claim 1, wherein a feeding pipe (12) is embedded at one side of the top end of the filter box (5), and an alum storage box (11) is fixedly connected to the top end of the feeding pipe (12).

3. The sewage treatment system for the production of the lead storage battery according to claim 1, wherein the top end of the deacidification tank (17) is provided with an iron scrap storage tank (16), and the iron scrap storage tank (16) is connected with the evaporation tank (18) through a pipeline.

4. The sewage treatment system for the production of the lead storage battery according to claim 1, wherein a condensation chamber (36) and a reaction chamber (35) are arranged inside the condensation tank (20), the condensation chamber (36) is provided with a spiral pipe (24), a condensing agent (25) is filled between the spiral pipe (24) and the condensation chamber (36), and the condensation chamber (36) is connected with the reaction chamber (35).

5. The sewage treatment system for lead storage battery production according to claim 1, wherein the sewage treatment system operates as follows:

the method comprises the following steps: after a worker checks that the connection of all devices is not problematic, the water pumping head (30) is immersed into the sewage tank (26), the self-suction water pump (34) is started, and sewage enters the pressurized water tank (31) through the hose (27); a water pump (32) in the pressurized water tank (31) is started, and under the action of the water pump (32), sewage enters the filter tank (5) through the water inlet pipe (28);

step two: a motor (10) is fixed at the top end of the filter box (5) through a support frame (9), the motor (10) is turned on, an output shaft of the motor (10) drives a transmission shaft (6) to rotate, a rotary drum (7) on the transmission shaft (6) rotates along with the rotation, an alum storage box (11) is opened, alum is put into the filter box (5) through a feeding pipe (12), impurities in sewage are adsorbed together to form floccules under the action of the alum, the floccules fall into the bottom end of the filter box (5) under the action of gravity, and after sewage treatment is finished, a valve (4) is opened to enable the floccules to fall into the detachable lead slag box (3);

step three: opening a water valve (14), enabling sewage on the upper layer of the bottom end of the filter box (5) to enter an acid removal box (17) through a water outlet pipe (15), arranging a fine filter screen (13) at one end, close to the filter box (5), of the water outlet pipe (15), and enabling the sewage to pass through the fine filter screen (13) when being discharged from the water outlet pipe (15);

step four: after sewage enters the acid removing box (17), iron powder in the iron powder storage box (16) is put into the evaporation box (18) through a pipeline, the U-shaped heating pipe (22) is opened, the temperature of the evaporation box (18) rises, the iron powder and waste acid in the sewage react to generate ferrous sulfate, and the reacted liquid enters the condensation box (20) under the action of the drainage plate (23);

step five: after the wastewater enters the condensation tank (20), the liquid is condensed under the action of a condensing agent (25) through a spiral pipe (24), then the liquid enters a reaction cavity (35), waste acid and scrap iron in the wastewater generate ferrous sulfate, ferrous sulfate crystals are separated out after condensation, the ferrous sulfate crystals are left in the reaction cavity (35), the wastewater is cleaned after treatment is finished, the water after acid removal enters a water storage tank (21) at the bottom end inside the acid removal tank (17), the wastewater treatment is finished, and the treated water is stored in the water storage tank (21);

step six: after the sewage treatment is finished, the workers clean all parts of the device.

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