CN116688694A

CN116688694A - Low-carbon emission factory air filtering device

Info

Publication number: CN116688694A
Application number: CN202310673781.XA
Authority: CN
Inventors: 张羽; 毛焱颖; 张河山; 焦柳丹; 霍小森
Original assignee: Chongqing Jiaotong University
Current assignee: Chongqing Jiaotong University
Priority date: 2023-06-08
Filing date: 2023-06-08
Publication date: 2023-09-05

Abstract

The invention discloses a low-carbon emission factory air filtering device which comprises a water storage tank and a filter box, wherein a cooling sedimentation chamber, a heat exchange chamber and a filter chamber are arranged in the filter box, a distribution chamber is arranged in the water storage tank, a mounting frame is arranged in the middle of the cooling sedimentation chamber, a filter screen is arranged in the mounting frame, a rack is welded on one side of the cooling sedimentation chamber, a gear is meshed with the bottom of the rack, a brush roller is welded on the side face of the gear, a moving mechanism is arranged outside the cooling sedimentation chamber, a spray head is arranged at the top of the cooling sedimentation chamber, a coil pipe is fixedly arranged in the heat exchange chamber, a water suction pump is arranged at the bottom of the cooling sedimentation chamber, a heat conducting plate is arranged in the heat exchange chamber, the top end of the heat conducting plate stretches into the water storage tank, and the heat conducting plates are alternately arranged on the inner walls of the two sides of the heat exchange chamber. The invention utilizes a plurality of working procedures to cool and absorb heat to the gas, thereby avoiding a large amount of heat from being directly discharged and increasing the utilization rate of resources; the impurity on filter screen surface clearance more thoroughly, impurity direct clearance is outside to the rose box, avoids piling up in inside and is difficult to clear.

Description

Low-carbon emission factory air filtering device

Technical Field

The invention relates to the technical field of environmental protection, in particular to an air filtering device for a low-carbon emission factory.

Background

The air filter is an air filtering device, is generally used for cleaning workshops, laboratories and clean rooms, or is used for dust prevention of electronic mechanical communication equipment and the like, is provided with a primary filter, a middle-efficiency filter, a high-efficiency filter and a sub-high-efficiency filter, wherein the five types of the high-efficiency filter and the sub-high-efficiency filter are different in standards and use efficiency, and most of air needs a certain purification treatment link to meet the requirements of human beings.

The waste gas discharged from the factory contains a large amount of heat, but the existing factory air filtering device only has the filtering function, the heat cannot be recycled, and a large amount of heat is directly discharged into the air, so that the ambient temperature is increased, and the resource waste is caused; and current factory air filter device adopts brush round trip movement to clear up the filter screen mostly, and the clearance is not thorough enough, and the impurity after the clearance piles up in the device inside and is difficult to clear.

Disclosure of Invention

The invention discloses a low-carbon emission factory air filtering device, and aims to solve the technical problem in the background technology.

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

the utility model provides a low carbon emission factory area air filter device, includes storage water tank and rose box, rose box inside is equipped with cooling sedimentation chamber, heat transfer room and filter chamber, the inside distribution room that is equipped with of storage water tank, the inside middle part horizontal installation of cooling sedimentation chamber has the installing frame, install the filter screen in the installing frame, the inside side inclined welding of cooling sedimentation chamber has the rack, the bottom meshing of rack has the gear, gear side horizontal welding has the brush roller, cooling sedimentation chamber outside is equipped with the mobile mechanism who drives the brush roller and remove, the shower nozzle is installed at the top in the cooling sedimentation chamber, fixed mounting has the coil pipe in the heat transfer room, the suction pump is installed to the indoor bottom of cooling sedimentation, the vertical heat transfer board that installs of heat transfer room inside, the heat transfer board top stretches into in the storage water tank, the heat transfer board is equipped with two and sets up in turn at the opposite heat transfer room both sides inner wall.

When the gas enters the cooling sedimentation chamber, a plurality of electric valves are opened, water in the water storage tank uniformly enters the distribution chamber through the electric valves and is uniformly sprayed into the cooling sedimentation chamber through a plurality of spray heads, the water not only sedimentates impurities in the gas, but also sprays and cools the gas, and after the impurities are filtered by a filter screen, clean heat-absorbed water falls on the bottom of the cooling sedimentation chamber; the gas reenters the heat exchange chamber, and gas and coil pipe contact exchange heat with the water in the coil pipe again, and two heat conduction boards separate the heat exchange chamber into intermittent several parts, lengthen the time of gas in the indoor heat exchange, and the heat conduction board also guides the water in the storage water tank with the partial heat of gas in, the multichannel process is cooled down the heat absorption to gas to can carry out recycle to the heat, avoid a large amount of heat direct discharge to the air in lead to ambient temperature to rise, increase resource utilization.

In a preferred scheme, the storage water tank welds in the rose box top, cooling sedimentation chamber, heat transfer chamber and filter chamber set gradually along the level, the distribution chamber is located cooling sedimentation chamber directly over, the motorised valve is installed to distribution chamber one side, the motorised valve is equipped with a plurality of and evenly distributed in distribution chamber one side, the middle part level intercommunication of cooling sedimentation chamber outside one side has the intake pipe, the middle part level intercommunication of filter chamber outside one side has the outlet duct, the intercommunication mouth has all been seted up on the baffle between cooling sedimentation chamber, heat transfer chamber and the filter chamber, the outside one side level intercommunication of storage water tank has the water pipe.

The gas discharged from the factory is introduced into the filter box through the gas inlet pipe, the filtered and cooled gas is discharged from the gas outlet pipe, and the gas moves among the cooling sedimentation chamber, the heat exchange chamber and the filter chamber through the communication port and is added with water into the water storage tank through the water adding pipe.

In a preferred scheme, the middle part horizontal fixed mounting of cooling sedimentation chamber outside one side has positive and negative motor, the output shaft of positive and negative motor stretches into cooling sedimentation chamber inside and rotates with cooling sedimentation chamber to be connected, positive and negative motor's output shaft top fixed mounting is in one side middle part of installing frame, the electrically operated gate is installed to cooling sedimentation chamber one side below, the below incline welding that the cooling sedimentation chamber outside is located the electrically operated gate has the dust guide plate, the below horizontal welding that the cooling sedimentation chamber outside is located the dust guide plate has the dust storage box.

When the filter screen is required to be cleaned, the front motor and the back motor are started to drive the installation frame to rotate, so that the filter screen in the installation frame is driven to rotate until the angle of the installation frame is the same as that of the rack, and the bottom of the brush roller is tightly attached to the upper surface of the filter screen; when the cleaning is performed, the electric door is opened, the cleaned impurities fall to the dust storage and storage along the dust guide plate, and the impurities are directly cleaned to the outside of the filter box, so that the situation that the impurities are accumulated inside and are difficult to clean is avoided.

In a preferred scheme, the moving mechanism comprises an electric telescopic rod, the electric telescopic rod is obliquely and fixedly arranged above one side of the cooling sedimentation chamber, a connecting shaft is horizontally welded at the other end of the brush roller, a fixed block is sleeved outside the connecting shaft, the connecting shaft is rotationally connected inside the fixed block, the telescopic end of the electric telescopic rod stretches into the cooling sedimentation chamber and is in sliding connection with the cooling sedimentation chamber, and the top end of the telescopic end of the electric telescopic rod is fixedly connected to one side of the fixed block.

Through being provided with moving mechanism, start electric telescopic handle and make its flexible end stretch out, drive the fixed block and move forward, then drive the brush roller through the connecting axle and move forward, the brush roller drives the gear and moves forward, gear movement in-process and rack meshing, consequently the gear drives the brush roller and rotates to the brush roller removes the impurity of rotation with filter screen surface filtration and sweeps down, and impurity clearance is more thorough.

In a preferred scheme, the shower nozzle is equipped with a plurality of, and a plurality of shower nozzles are at cooling sedimentation indoor top evenly distributed, and is a plurality of the shower nozzle all communicates with the distribution room, the outside one side of filter chamber is pegged graft and is had the mounting panel, the mounting panel passes through the bolt and the rose box is fixed, the mounting panel is located the inside one side horizontal fixed mounting of filter chamber and has the active carbon adsorption net, the active carbon adsorption net is equipped with a plurality ofly and at mounting panel side evenly distributed.

Can dismantle the bolt, remove mounting panel and active carbon adsorption net from the filter chamber inside and change, a plurality of active carbon adsorption nets carry out secondary filtration to the impurity in the gas and adsorb.

In a preferred scheme, the same communicating pipe is connected between the water outlet of the water pump and one end of the coil, the other end of the coil is communicated with a water outlet pipe, and the other end of the water outlet pipe extends out of the heat exchange chamber.

The water at the bottom of the cooling sedimentation chamber is pumped by the water pump and enters the coil pipe through the communicating pipe, and finally is discharged from the water outlet pipe.

Therefore, the air filtering device in the low-carbon emission factory provided by the invention utilizes a plurality of procedures to cool and absorb heat to the air, so that the heat can be recycled, the rise of the ambient temperature caused by the direct emission of a large amount of heat into the air is avoided, and the resource utilization rate is increased; the brush roller removes the impurity that rotates filter screen surface filtration simultaneously and sweeps down, and impurity clearance's more thoroughly, and the impurity that the clearance was fallen down along the dust guide plate and is stored to the dust storage, and impurity direct clearance is outside to the rose box, avoids piling up in inside and is difficult to clear.

Drawings

Fig. 1 is a schematic diagram of an external structure of an air filtering device in a low-carbon emission factory according to the present invention.

Fig. 2 is a schematic diagram of an external structure of an air filtering device in a low-carbon emission factory according to the present invention.

FIG. 3 is a top cross-sectional view of a water tank of a low carbon emission factory air filtration device according to the present invention.

Fig. 4 is a side sectional view of a heat exchange chamber and a filter chamber of an air filter device in a low carbon emission factory.

FIG. 5 is a side cross-sectional view of a cooling sedimentation chamber of a low carbon emission factory air filtration device according to the present invention.

FIG. 6 is a schematic view of the filter box of the low carbon emission factory air filter device according to the present invention with the partition removed.

In the accompanying drawings: 1. an air outlet pipe; 2. a mounting plate; 3. a water outlet pipe; 4. a filter box; 5. an electric telescopic rod; 6. a water storage tank; 7. a water supply pipe; 8. an air inlet pipe; 9. a forward and reverse motor; 10. an electric door; 11. a dust guide plate; 12. a dust storage box; 13. an electric valve; 14. a dispensing chamber; 15. a heat conductive plate; 16. a communication port; 17. a coiled pipe; 18. a heat exchange chamber; 19. an activated carbon adsorption net; 20. a filtering chamber; 21. a gear; 22. a brush roller; 23. a spray head; 24. a rack; 25. a filter screen; 26. a water pump; 27. a mounting frame; 28. a fixed block; 29. a connecting shaft; 30. cooling the sedimentation chamber.

Detailed Description

The following description of the embodiments of the present invention will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present invention, but not all embodiments.

Referring to fig. 1-6, a low carbon emission factory air filter device comprises a water storage tank 6 and a filter box 4, wherein a cooling sedimentation chamber 30, a heat exchange chamber 18 and a filter chamber 20 are arranged in the filter box 4, a distribution chamber 14 is arranged in the water storage tank 6, a mounting frame 27 is horizontally arranged in the middle of the cooling sedimentation chamber 30, a filter screen 25 is arranged in the mounting frame 27, a pair of inclined welding racks 24 in the cooling sedimentation chamber 30, gears 21 are meshed with the bottoms of the racks 24, brush rollers 22 are horizontally welded on the side surfaces of the gears 21, a moving mechanism for driving the brush rollers 22 to move is arranged outside the cooling sedimentation chamber 30, a spray head 23 is arranged at the top in the cooling sedimentation chamber 30, a coil 17 is fixedly arranged in the heat exchange chamber 18, a water suction pump 26 is arranged in the bottom in the cooling sedimentation chamber 30, a heat conducting plate 15 is vertically arranged in the heat exchange chamber 18, the top ends of the heat conducting plate 15 extend into the water storage tank 6, and the heat conducting plate 15 is provided with two opposite side inner walls alternately arranged in the heat exchange chamber 18.

When gas enters the cooling sedimentation chamber 30, a plurality of electric valves 13 are opened, water in the water storage tank 6 uniformly enters the distribution chamber 14 through the electric valves 13 and is uniformly sprayed into the cooling sedimentation chamber 30 through a plurality of spray heads 23, the water not only sediments impurities in the gas but also sprays and cools the gas, and after the impurities are filtered by a filter screen 25, clean heat-absorbed water falls on the bottom of the cooling sedimentation chamber 30; the gas reenters the heat exchange chamber 18, the gas and the coil 17 contact and exchange heat with the water body in the coil 17 again, and the two heat conducting plates 15 separate the heat exchange chamber 18 into intermittent parts, so that the heat exchange time of the gas in the heat exchange chamber 18 is prolonged, and the heat conducting plates 15 also guide part of the heat of the gas into the water body in the water storage tank 6, and the gas is cooled and absorbed by a plurality of working procedures, so that the heat can be recycled, the environment temperature rise caused by directly discharging a large amount of heat into the air is avoided, and the resource utilization rate is increased.

Referring to fig. 1, 3 and 6, in a preferred embodiment, the water storage tank 6 is welded to the top of the filter tank 4, the cooling sedimentation chamber 30, the heat exchange chamber 18 and the filter chamber 20 are sequentially arranged along the horizontal direction, the distribution chamber 14 is located right above the cooling sedimentation chamber 30, the electric valves 13 are installed on one side of the distribution chamber 14, and the electric valves 13 are provided in plurality and uniformly distributed on one side of the distribution chamber 14.

Referring to fig. 1, 2 and 4, in a preferred embodiment, the middle part of the outer side of the cooling sedimentation chamber 30 is horizontally communicated with the air inlet pipe 8, the middle part of the outer side of the filter chamber 20 is horizontally communicated with the air outlet pipe 1, and the partition plates among the cooling sedimentation chamber 30, the heat exchange chamber 18 and the filter chamber 20 are all provided with the communication ports 16, and the outer side of the water storage tank 6 is horizontally communicated with the water adding pipe 7.

The gas discharged from the factory is introduced into the filter box 4 through the gas inlet pipe 8, the filtered and cooled gas is discharged from the gas outlet pipe 1, and the gas moves among the cooling sedimentation chamber 30, the heat exchange chamber 18 and the filter chamber 20 through the communication port 16 and is added with water into the water storage tank 6 through the water adding pipe 7.

Referring to fig. 2 and 5, in a preferred embodiment, a reversible motor 9 is fixedly installed at a middle portion of an outer side of the cooling sedimentation chamber 30 horizontally, and an output shaft of the reversible motor 9 extends into the cooling sedimentation chamber 30 and is rotatably connected to the cooling sedimentation chamber 30, and a top end of an output shaft of the reversible motor 9 is fixedly installed at a middle portion of one side of the installation frame 27.

When the filter screen 25 needs to be cleaned, the front and back motor 9 is started to drive the installation frame 27 to rotate, so that the filter screen 25 in the inside of the front and back motor is driven to rotate until the angle of the front and back motor is the same as that of the rack, and at the moment, the bottom of the brush roller 22 is tightly attached to the upper surface of the filter screen 25.

Referring to fig. 2, in a preferred embodiment, an electric door 10 is installed under one side of a cooling sedimentation chamber 30, a dust guide plate 11 is inclined and welded under the electric door 10 on the outer side of the cooling sedimentation chamber 30, and a dust storage box 12 is horizontally and welded under the dust guide plate 11 on the outer side of the cooling sedimentation chamber 30.

When the electric door 10 is opened during cleaning, the cleaned impurities fall to the dust storage and storage along the dust guide plate 11, and the impurities are directly cleaned outside the filter box 4, so that the impurities are prevented from being accumulated inside and being difficult to clean.

Referring to fig. 1 and 6, in a preferred embodiment, the moving mechanism includes an electric telescopic rod 5, the electric telescopic rod 5 is obliquely and fixedly installed above one side of the outside of the cooling sedimentation chamber 30, a connecting shaft 29 is horizontally welded to the other end of the brush roller 22, and a fixing block 28 is sleeved outside the connecting shaft 29.

Referring to fig. 1 and 6, in a preferred embodiment, the connecting shaft 29 is rotatably connected to the inside of the fixed block 28, and the telescopic end of the electric telescopic rod 5 extends into the cooling sedimentation chamber 30 and is slidably connected to the cooling sedimentation chamber 30, and the top end of the telescopic end of the electric telescopic rod 5 is fixedly connected to one side of the fixed block 28.

The electric telescopic rod 5 is started to extend the telescopic end of the electric telescopic rod, the fixed block 28 is driven to move forwards, the brush roller 22 is driven to move forwards through the connecting shaft 29, the brush roller 22 drives the gear 21 to move forwards, the gear 21 is meshed with the rack 24 in the moving process of the gear 21, so that the gear 21 drives the brush roller 22 to rotate, and impurities filtered on the surface of the filter screen 25 are swept down by the rotation of the brush roller 22 while moving, and the impurities are cleaned more thoroughly.

Referring to fig. 5, in a preferred embodiment, a plurality of spray heads 23 are provided, and the plurality of spray heads 23 are uniformly distributed at the top in the cooling and settling chamber 30, and the plurality of spray heads 23 are in communication with the distribution chamber 14.

Referring to fig. 1 and 4, in a preferred embodiment, a mounting plate 2 is inserted into one side of the outside of a filtering chamber 20, the mounting plate 2 is fixed to the filtering chamber 4 by bolts, an activated carbon adsorption net 19 is horizontally and fixedly installed on one side of the mounting plate 2 located inside the filtering chamber 20, and the activated carbon adsorption net 19 is provided in plurality and uniformly distributed on the side surface of the mounting plate 2.

Bolts can be disassembled, the mounting plate 2 and the activated carbon adsorption net 19 are removed from the inside of the filter chamber 20 for replacement, and the impurities in the gas are secondarily filtered and adsorbed by the plurality of activated carbon adsorption nets 19.

Referring to fig. 1 and 4, in a preferred embodiment, the same communication pipe is connected between the water outlet of the water pump 26 and one end of the coil 17, the other end of the coil 17 is communicated with the water outlet pipe 3, and the other end of the water outlet pipe 3 extends from the inside of the heat exchange chamber 18. The water at the bottom of the cooling sedimentation chamber 30 is pumped by the water pump 26, enters the coil 17 through the communicating pipe, and finally is discharged from the water outlet pipe 3, so that the hot water after heat absorption is utilized.

Working principle: when the cooling sedimentation chamber 30 is used, when gas enters the cooling sedimentation chamber 30 through the gas inlet pipe 8, a plurality of electric valves 13 are opened, water in the water storage tank 6 uniformly enters the distribution chamber 14 through the electric valves 13 and is uniformly sprayed into the cooling sedimentation chamber 30 through a plurality of spray heads 23, the water not only sediments impurities in the gas but also sprays and cools the gas, and after the impurities are filtered by the filter screen 25, clean heat-absorbed water falls on the bottom of the cooling sedimentation chamber 30;

the water at the bottom in the cooling sedimentation chamber 30 is pumped by the water suction pump 26 to enter the coil 17 through the communicating pipe, meanwhile, the gas enters the heat exchange chamber 18 again, the gas contacts the coil 17 and exchanges heat with the water in the coil 17 again, the heat exchange chamber 18 is separated into intermittent parts by the two heat conducting plates 15, the heat exchange time of the gas in the heat exchange chamber 18 is prolonged, part of the heat of the gas is guided into the water in the water storage tank 6 by the heat conducting plates 15, the hot water is finally discharged from the water outlet pipe 3, the hot water after absorbing the heat is utilized, the gas is cooled and absorbed through a plurality of working procedures, so that the heat can be recycled, the rise of the environmental temperature caused by the direct discharge of a large amount of heat into the air is avoided, and the resource utilization rate is increased;

the gas enters the filtering chamber again, the impurities in the gas are filtered and adsorbed for the second time through a plurality of activated carbon adsorption nets 19, and finally the gas is discharged from the gas outlet pipe 1;

when the filter screen 25 needs to be cleaned, the positive and negative motor 9 is started to drive the installation frame 27 to rotate, the filter screen 25 inside the filter screen is driven to rotate until the angle of the filter screen is the same as that of the rack, at the moment, the bottom of the brush roller 22 is tightly attached to the upper surface of the filter screen 25, the electric telescopic rod 5 is started to enable the telescopic end of the electric telescopic rod to stretch out, the fixed block 28 is driven to move forwards, the brush roller 22 is driven to move forwards through the connecting shaft 29, the gear 21 is driven to move forwards, the gear 21 is meshed with the rack 24 in the moving process, the gear 21 drives the brush roller 22 to rotate, so that the brush roller 22 moves and rotates to sweep impurities filtered on the surface of the filter screen 25, the electric door 10 is opened during cleaning, the cleaned impurities fall into the dust storage and are stored along the dust guide plate 11, and the impurities are directly cleaned out of the filter box 4, and the impurities are prevented from being accumulated inside and difficult to clean.

The above description is only a preferred embodiment of the present invention, but the scope of the present invention is not limited thereto. The substitutions may be partial structures, devices, or method steps, or may be a complete solution. The technical proposal and the invention concept are equivalent to or changed in accordance with the invention, and the invention is covered in the protection scope of the invention.

Claims

1. The utility model provides a low carbon emission factory air filter device, includes storage water tank (6) and rose box (4), its characterized in that, rose box (4) inside is equipped with cooling sedimentation chamber (30), heat transfer chamber (18) and filter chamber (20), storage water tank (6) inside is equipped with distribution room (14), installation frame (27) are installed to the middle part horizontal inside cooling sedimentation chamber (30), install filter screen (25) in installation frame (27), inside one side oblique welding of cooling sedimentation chamber (30) has rack (24), the bottom meshing of rack (24) has gear (21), gear (21) side horizontal welding has brush roller (22), cooling sedimentation chamber (30) outside is equipped with the mobile mechanism that drives brush roller (22) and removes, shower nozzle (23) are installed at cooling sedimentation chamber (30) inside top, fixed mounting has coil pipe (17) in heat transfer chamber (18), heat transfer pump (26) are installed to the bottom in heat transfer chamber (18) inside vertical heat transfer plate (15), top (15) stretch into heat transfer chamber (18) and two and are equipped with heat transfer chamber (18) inner wall (15) in alternation.

2. The low-carbon-emission factory-area air filtering device according to claim 1, wherein the water storage tank (6) is welded at the top of the filtering box (4), the cooling sedimentation chamber (30), the heat exchange chamber (18) and the filtering chamber (20) are sequentially arranged along the horizontal direction, the distribution chamber (14) is positioned right above the cooling sedimentation chamber (30), an electric valve (13) is arranged at one side of the distribution chamber (14), and a plurality of electric valves (13) are arranged and uniformly distributed at one side of the distribution chamber (14).

3. The low-carbon emission factory air filtering device according to claim 2, wherein an air inlet pipe (8) is horizontally communicated with the middle part of one side of the outside of the cooling sedimentation chamber (30), an air outlet pipe (1) is horizontally communicated with the middle part of one side of the outside of the filtering chamber (20), communication ports (16) are formed in partition plates among the cooling sedimentation chamber (30), the heat exchange chamber (18) and the filtering chamber (20), and a water adding pipe (7) is horizontally communicated with one side of the outside of the water storage tank (6).

4. The low-carbon-emission factory air filtering device according to claim 1, wherein a positive motor (9) is horizontally and fixedly arranged in the middle of one side of the outer part of the cooling sedimentation chamber (30), an output shaft of the positive motor (9) stretches into the cooling sedimentation chamber (30) and is rotationally connected with the cooling sedimentation chamber (30), and the top end of the output shaft of the positive motor (9) is fixedly arranged in the middle of one side of the mounting frame (27).

5. The low-carbon-emission factory air filtering device according to claim 1, wherein an electric door (10) is installed below one side of the cooling sedimentation chamber (30), a dust guide plate (11) is obliquely welded below the electric door (10) outside the cooling sedimentation chamber (30), and a dust storage box (12) is horizontally welded below the dust guide plate (11) outside the cooling sedimentation chamber (30).

6. The low-carbon-emission factory-area air filtering device according to claim 1, wherein the moving mechanism comprises an electric telescopic rod (5), the electric telescopic rod (5) is obliquely and fixedly arranged above one side outside a cooling sedimentation chamber (30), a connecting shaft (29) is horizontally welded at the other end of the brush roller (22), and a fixing block (28) is sleeved outside the connecting shaft (29).

7. The low-carbon-emission factory-area air filtering device according to claim 6, wherein the connecting shaft (29) is rotatably connected inside the fixed block (28), the telescopic end of the electric telescopic rod (5) stretches into the cooling sedimentation chamber (30) and is slidably connected with the cooling sedimentation chamber (30), and the top end of the telescopic end of the electric telescopic rod (5) is fixedly connected to one side of the fixed block (28).

8. The low-carbon-emission factory-area air filtering device according to claim 2, wherein a plurality of spray heads (23) are arranged, the spray heads (23) are uniformly distributed at the top in the cooling sedimentation chamber (30), and the spray heads (23) are communicated with the distribution chamber (14).

9. The low-carbon-emission factory air filtering device according to claim 1, wherein a mounting plate (2) is inserted into one side of the outside of the filtering chamber (20), the mounting plate (2) is fixed with the filtering box (4) through bolts, an activated carbon adsorption net (19) is horizontally and fixedly arranged on one side of the mounting plate (2) positioned in the filtering chamber (20), and the activated carbon adsorption net (19) is provided with a plurality of activated carbon adsorption nets and is uniformly distributed on the side surface of the mounting plate (2).

10. The low-carbon-emission factory-area air filtering device according to claim 1, wherein the same communicating pipe is connected between the water outlet of the water pump (26) and one end of the coil pipe (17), the other end of the coil pipe (17) is communicated with a water outlet pipe (3), and the other end of the water outlet pipe (3) extends out of the heat exchange chamber (18).