CN114832600B - Be used for building construction carbon neutralization emission treatment facility - Google Patents

Abstract

The invention relates to the field of gas treatment, in particular to carbon neutralization emission treatment equipment for building construction. The technical problems are as follows: when the waste gas is filtered through the single-layer filter cotton, the phenomenon of incomplete carbon dioxide neutralization exists in the conventional equipment, the emission requirement cannot be met, and if the multi-layer filter cotton is arranged for filtering operation, the problem of poor air permeability exists, so that the waste gas neutralization filtering operation is seriously influenced. The technical proposal is as follows: the equipment for neutralizing and discharging the carbon for the building construction comprises a square cabin body, a filtering component and the like; five filter components are arranged in the square cabin body. When the filter is used, the waste gas is automatically enabled to flow upwards in an S shape to sequentially contact with the five filter components, so that the contact time of the waste gas and the water absorption cloth is greatly prolonged, meanwhile, the problem of poor air permeability is avoided, the filtering neutralization effect is greatly improved, and meanwhile, the solution and impurities with reduced adsorptivity are automatically cleaned up gradually from top to bottom, so that the phenomenon of cross residue is avoided.

Description

Be used for building construction carbon neutralization emission treatment facility

Technical Field

The invention relates to the field of gas treatment, in particular to carbon neutralization emission treatment equipment for building construction.

Background

Carbon neutralization is realized by modes such as forestation, energy saving and emission reduction and the like to offset carbon dioxide or greenhouse gas emission generated by the carbon neutralization device, positive and negative offset is realized, relative zero emission is achieved, a large amount of carbon dioxide gas can be generated in the building construction process, in order to meet the environmental protection requirement, the prior art provides carbon neutralization equipment, the existing equipment enables waste gas containing carbon dioxide to flow through filter cotton soaked with alkaline solution, carbon dioxide in the waste gas is neutralized and removed through the carbon dioxide in the alkaline solution, when the waste gas is filtered through single-layer filter cotton, the phenomenon of incomplete carbon dioxide neutralization can exist, the emission requirement cannot be met, if the multi-layer filter cotton is arranged for filtering operation, the problem of poor air permeability can exist, the waste gas neutralization filtering operation is seriously influenced, and meanwhile, fine solid impurities can be mixed in the waste gas generated in building construction, and the gas drives the fine solid impurities to the filter cotton, and the filtering effect is greatly reduced.

Therefore, there is a need to design a carbon neutral emission treatment device for use in building construction.

Disclosure of Invention

In order to overcome the defect that when the existing equipment filters waste gas through single-layer filter cotton, the phenomenon of incomplete neutralization of carbon dioxide exists, and the emission requirement cannot be met, if the multi-layer filter cotton is arranged for filtering operation, the problem of poor air permeability exists, and the waste gas neutralization filtering operation is seriously influenced, the invention provides carbon neutralization emission treatment equipment for building construction.

The technical proposal is as follows: the utility model provides a be used for construction carbon neutralization emission treatment facility, includes support column, square cabin body, top cap, second pipeline, filter element, pulls subassembly, water conservancy diversion subassembly, drive assembly, collection subassembly and material loading subassembly; four support columns are fixedly connected to the lower side of the square cabin body; a top cover is fixedly connected to the left side of the square cabin body; the left part of the lower side of the square cabin body is communicated with a second pipeline; five filter components for filtering and neutralizing waste gas are arranged in the square cabin body and are distributed in a fold line shape; five pulling assemblies for linkage are arranged on the square cabin body, and the five pulling assemblies are respectively connected with the corresponding filtering assemblies; the inner wall of the square cabin body is provided with a flow guide component for limiting and guiding gas and impurities, and the flow guide component is positioned among the five filtering components; the middle part of the front side and the middle part of the rear side of the square cabin body are respectively provided with a driving component for providing power; the lower part of the square cabin body is provided with a collecting component for collecting waste solution and impurities; the left part of the square cabin body is provided with a feeding component for supplementing alkaline solution to the filtering component.

Further, the uppermost filtering component comprises a first supporting frame, water absorbing cloth, a sliding block, a first connecting plate, an elastic telescopic rod, a pressing plate, a spring, a sleeve, a first connecting block and a hairbrush; the upper side of the inner wall of the square cabin body is fixedly connected with a first support frame which is obliquely arranged, and the right side of the first support frame is lower; the middle part of the first support frame is fixedly connected with water absorption cloth; the front part and the rear part of the first support frame are both in sliding connection with a sliding block; a first connecting plate is fixedly connected between the upper sides and the lower sides of the two sliding blocks; two elastic telescopic rods are arranged on the two first connecting plates in a penetrating manner; the telescopic ends of every two corresponding elastic telescopic rods are fixedly connected with a pressing plate; both pressing plates are contacted with the first supporting frame; a spring is fixedly connected to the middle parts of the two first connecting plates; the upper part of the left side of the square cabin body is fixedly connected with two sleeves; the left ends of the two springs are respectively fixedly connected with the corresponding sleeves; two first connecting blocks are fixedly connected to the upper side of the first connecting plate above; a hairbrush is fixedly connected between the two first connecting blocks; the brush is contacted with the water absorbing cloth.

Further, the left part and the right part of the pressing plate are respectively provided with an inclined plane, and the upper edge and the lower edge of the left side of the inner wall of the first support frame are respectively provided with a chamfer.

Further, the uppermost pulling component comprises a rope, a second connecting block, a round rod, a cylinder, a limiting ring and a first straight gear; the middle parts of the right sides of the two sliding blocks are fixedly connected with a rope; the two ropes are in sliding connection with the first support frame; the upper part of the right side of the square cabin body is fixedly connected with two second connecting blocks; the right parts of the two second connecting blocks are respectively and rotatably connected with a round rod; a cylinder is fixedly connected with the middle parts of the two round rods; two limiting rings are fixedly connected to the outer ring surfaces of the two cylinders; two ropes pass through the square cabin body and are fixedly connected with the corresponding cylinders; the opposite ends of the two round rods are fixedly connected with a first straight gear.

Further, the flow guiding assembly comprises a first bending plate and a second bending plate; four first bending plates are fixedly connected to the front side and the rear side of the inner wall of the square cabin body, and each front and rear adjacent two first bending plates are positioned above the corresponding filter assembly; the left side of the inner wall of the square cabin body and the right side of the inner wall are fixedly connected with a second bending plate, and the second bending plate is positioned at the lower part of the corresponding filtering component; both cords pass through the second uppermost bending plate.

Further, the cross section of the first bending plate is V-shaped.

Further, the front driving assembly comprises a first electric sliding rail, a second electric sliding block, a linkage plate and a first rack; the middle part of the front side of the square cabin body is fixedly connected with a first electric sliding rail; the first electric sliding rail is connected with a second electric sliding block in a sliding way; the front side of the second electric sliding block is fixedly connected with a linkage plate; the left side and the right side of the linkage plate are fixedly connected with a first rack.

Further, the collecting assembly comprises a second connecting plate, a third pipeline, a valve, a third connecting block, a storage box, a baffle, a side cover, a second rack, a motor and a second spur gear; the lower side of the inner wall of the square cabin body is fixedly connected with a second connecting plate; the middle part of the lower side of the square cabin body is communicated with a third pipeline; a valve is arranged on the third pipeline; the left part of the inner side of the square cabin body is connected with two third connecting blocks in a sliding way; a storage box is fixedly connected between the upper sides of the two third connecting blocks; the storage box is connected with the square cabin body in a sliding way; a baffle is fixedly connected to the upper side of the storage box; the front side of the storage box is spliced with a side cover; the opposite sides of the two third connecting blocks are fixedly connected with a second rack; two motors are fixedly connected to the left part of the lower side of the square cabin body; the output ends of the two motors are fixedly connected with a second spur gear; the two second spur gears are respectively meshed with the corresponding second racks.

Further, the feeding assembly comprises a water suction head, a fourth pipeline, a second support frame, a water pump, a fifth pipeline and a sixth pipeline; the lower part of the left side of the square cabin body is communicated with a water suction head; the middle part of the left side of the suction head is communicated with a fourth pipeline; the middle part of the left side of the square cabin body is fixedly connected with a second supporting frame; the front side of the second support frame is fixedly connected with a water pump; the input end of the water pump is communicated with the fourth pipeline; the output end of the water pump is communicated with a fifth pipeline; the upper part of the fifth pipeline is communicated with a sixth pipeline; the sixth pipeline is communicated with the square cabin.

Further, the dust-proof device further comprises a first pipeline, the middle part of the upper side of the top cover is communicated with the first pipeline, and a dust screen is arranged on the upper part of the first pipeline.

The beneficial effects are that: the utility model discloses a waste gas has been realized when using that automatic messenger' S waste gas presents S-shaped upward flow and has contacted five filter components in proper order, improve the contact time of waste gas and water absorption cloth greatly, the problem that the gas permeability is poor has been avoided simultaneously, thereby improve filtration neutralization effect greatly, simultaneously automatic solution and impurity with the adsorptivity decline progressively clean up from last to down, avoid alternately remaining phenomenon, and avoided partial waste gas upwards to pass first support frame and do not contact water absorption cloth and filter incomplete problem, avoid the waste gas to stay in second bent plate downside cavity simultaneously, and avoid the impurity whereabouts to the problem in the slide of first support frame, still realized the automatic water absorption cloth to five filter components circulate the fluid replacement, avoided the incomplete problem of fluid replacement, simultaneously automatic impurity with remaining in the waste solution clear away completely.

Drawings

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

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

FIG. 3 is a front view of the present invention;

FIG. 4 is a schematic view of the combination of the filter assembly, the pulling assembly and the deflector assembly of the present invention;

FIG. 5 is a schematic view of a first partial construction of a filter assembly of the present invention;

FIG. 6 is a schematic view of a second partial construction of a filter assembly of the present invention;

FIG. 7 is a schematic view of a portion of a first support frame according to the present invention;

FIG. 8 is a schematic view of the drive assembly of the present invention;

FIG. 9 is a schematic view of the combined construction of the drive assembly and the pull assembly of the present invention;

FIG. 10 is a schematic view of the structure of the collection assembly of the present invention;

FIG. 11 is a schematic structural view of the feeding assembly of the present invention.

The marks of the components in the drawings are as follows: the device comprises a support column, a square cabin, a 3-top cover, a 4-first pipeline, a 5-second pipeline, a 201-first support frame, a 202-water absorbing cloth, a 203-sliding block, a 204-first connecting plate, a 205-elastic telescopic rod, a 206-pressing plate, a 207-spring, a 208-sleeve, a 209-first connecting block, a 2010-hairbrush, a 301-rope, a 302-second connecting block, a 303-round rod, a 304-cylinder, a 305-limiting ring, a 306-first straight gear, a 401-first bent plate, a 402-second bent plate, a 501-first electric sliding rail, a 502-second electric sliding block, a 503-linked plate, a 504-first rack, a 601-second connecting plate, a 602-third pipeline, a 603-valve, a 604-third connecting block, a 605-storage box, a 606-baffle, a 607-side cover, a 608-second rack, a 609-motor, a 6010-second straight gear, a 701-water absorbing head, a 702-fourth pipeline, a 703-second support frame, a 704-water pump, a 705-fifth pipeline and a 706-sixth pipeline.

Detailed Description

The invention is further described below with reference to the drawings and examples.

Example 1

1-9, the carbon neutralization and emission treatment equipment for building construction comprises a support column 1, a square cabin body 2, a top cover 3, a second pipeline 5, a filtering component, a pulling component, a flow guiding component, a driving component, a collecting component and a feeding component; four support columns 1 are welded on the lower side of the square cabin body 2; a top cover 3 is welded on the left side of the square cabin body 2; the left part of the lower side of the square cabin body 2 is communicated with a second pipeline 5; five filter components are arranged in the square cabin body 2 and distributed in a fold line shape; five pulling assemblies are arranged on the square cabin body 2 and are respectively connected with the corresponding filtering assemblies; the inner wall of the square cabin body 2 is provided with a flow guiding component which is positioned among the five filtering components; the middle part of the front side and the middle part of the rear side of the square cabin body 2 are respectively provided with a driving component; the lower part of the square cabin body 2 is provided with a collecting assembly; the left part of the square cabin body 2 is provided with a feeding component.

The uppermost filter assembly comprises a first support frame 201, a water absorbing cloth 202, a sliding block 203, a first connecting plate 204, an elastic telescopic rod 205, a pressing plate 206, a spring 207, a sleeve 208, a first connecting block 209 and a hairbrush 2010; the upper side of the inner wall of the square cabin body 2 is fixedly connected with a first supporting frame 201, the first supporting frame 201 is obliquely arranged, and the right side of the first supporting frame 201 is lower; the middle part of the first supporting frame 201 is fixedly connected with a water absorbing cloth 202; the front part and the rear part of the first supporting frame 201 are both connected with a sliding block 203 in a sliding way; a first connecting plate 204 is connected between the upper sides and the lower sides of the two sliding blocks 203 through bolts; two elastic telescopic rods 205 are arranged on the two first connecting plates 204 in a penetrating manner; a pressing plate 206 is fixedly connected to the telescopic ends of each two corresponding elastic telescopic rods 205; both pressing plates 206 are in contact with the first supporting frame 201; a spring 207 is fixedly connected to the middle parts of the two first connecting plates 204; two sleeves 208 are fixedly connected to the upper left side of the square cabin body 2; the left ends of the two springs 207 are fixedly connected with corresponding sleeves 208 respectively; two first connecting blocks 209 are connected to the upper side of the first connecting plate 204 positioned above through bolts; a hairbrush 2010 is connected between the two first connecting blocks 209 through bolts; the brush 2010 is in contact with the water absorbing cloth 202; the left part and the right part of the pressing plate 206 are respectively provided with inclined planes, and the upper edge and the lower edge of the left side of the inner wall of the first supporting frame 201 are respectively provided with a chamfer.

The uppermost pulling assembly comprises a rope 301, a second connecting block 302, a round rod 303, a cylinder 304, a limiting ring 305 and a first straight gear 306; a rope 301 is fixedly connected to the middle parts of the right sides of the two sliding blocks 203; both ropes 301 are slidably connected to the first support frame 201; the upper part of the right side of the square cabin body 2 is connected with two second connecting blocks 302 through bolts; the right parts of the two second connecting blocks 302 are respectively and rotatably connected with a round rod 303; a cylinder 304 is fixedly connected to the middle parts of the two round rods 303; two limiting rings 305 are fixedly connected to the outer ring surfaces of the two cylinders 304; two ropes 301 are fixedly connected with corresponding cylinders 304 through the square cabin 2; the opposite ends of the two round rods 303 are fixedly connected with a first straight gear 306.

The flow directing assembly includes a first bend plate 401 and a second bend plate 402; four first bending plates 401 are welded on the front side and the rear side of the inner wall of the square cabin body 2, and each two first bending plates 401 adjacent to each other are positioned above the corresponding filter assembly; a second bending plate 402 is fixedly connected to the left side and the right side of the inner wall of the square cabin 2, and the second bending plate 402 is positioned at the lower part of the corresponding filter assembly; both cords 301 pass through the second uppermost bending plate 402; the first bending plate 401 is V-shaped in cross section.

The front driving assembly comprises a first electric sliding rail 501, a second electric sliding block 502, a linkage plate 503 and a first rack 504; the middle part of the front side of the square cabin body 2 is fixedly connected with a first electric sliding rail 501; a second electric sliding block 502 is connected to the first electric sliding rail 501 in a sliding manner; a linkage plate 503 is fixedly connected to the front side of the second electric slider 502; the left side and the right side of the linkage plate 503 are fixedly connected with a first rack 504.

Still including first pipeline 4, top cap 3 upside middle part intercommunication has first pipeline 4, and first pipeline 4 upper portion is provided with the dust screen.

When the device is ready to work, the device is arranged on a horizontal plane, a power supply is connected, an artificial external exhaust pipe is communicated to a second pipeline 5, then the external exhaust pipe is used for injecting waste gas into a square cabin body 2 through the second pipeline 5, the waste gas sequentially passes through five filter assemblies which are arranged in a fold line, and moves upwards into a top cover 3, in the process, the five filter assemblies guide the waste gas, so that the waste gas flows upwards in an S shape, the contact time of the waste gas and the filter assemblies is shortened, the problem of poor ventilation is avoided, the filtering effect is greatly improved, the waste gas contacts the surface of a water absorption cloth 202 during filtering, alkaline solution is preset in the water absorption cloth 202, so that carbon dioxide in the waste gas is neutralized and removed, the filtered waste gas flows out of a first pipeline 4, after the alkaline solution in the water absorption cloth 202 is absorbed for too long time, the capacity of the alkaline solution and the carbon dioxide is greatly reduced, at the moment, the external exhaust pipe stops conveying the waste gas, and a second electric sliding block 502 slides downwards on a first electric sliding rail 501, and a second electric sliding block 502 drives a linkage plate 503 to move downwards, and two first racks 504 move downwards, so that a right first rack 504 moves downwards, and a first rack 306 is meshed; the first rack 504 continuously drives the first straight gear 306 downwards to rotate, the first straight gear 306 drives the round rod 303 to rotate, the round rod 303 drives the cylinder 304 to rotate, the cylinder 304 winds the rope 301, the rope 301 pulls the sliding block 203 to slide downwards in an inclined way on the first supporting frame 201, the sliding block 203 drives the first connecting plate 204 to move downwards in an inclined way and stretches the two springs 207, the first connecting plate 204 drives the elastic telescopic rod 205 to move downwards in an inclined way, the elastic telescopic rod 205 drives the pressing plates 206 to move downwards in an inclined way, the two pressing plates 206 stop contacting the first supporting frame 201 in an inclined way, the elastic telescopic rod 205 in a compressed state rebounds, the two pressing plates 206 move towards each other to squeeze and deform the water absorbing cloth 202, the solution in the water absorbing cloth is extruded, meanwhile, the first connecting plate 204 positioned above drives the first connecting block 209 to move, the first connecting block 209 drives the hairbrush 2010 to move, the brush 2010 is made to brush impurities remained on the upper side surface of the water absorbing cloth 202 obliquely downwards, the sliding block 203 continues to move obliquely downwards, the brush 2010 is made to brush impurities remained on the upper side surface of the water absorbing cloth 202 to the inner side of the second bending plate 402, meanwhile, the two pressing plates 206 are made to extrude solution in the water absorbing cloth 202, the extruded solution falls into the second filtering component, the brushed impurities are guided into the second filtering component through the first connecting plate 204, then the linkage plate 503 drives the two first racks 504 to move downwards, the first rack 504 positioned on the right is separated from the first straight gear 306, the two springs 207 drive the two first connecting plates 204 to move obliquely upwards to return to the original position, the first connecting plates 204 drive parts on the first connecting plates to move to the original position, in the process, the first supporting frame 201 limits the two pressing plates 206, so that the two pressing plates 206 simultaneously perform separation movement, so that the two pressing plates 206 move to the lower side and the upper side of the first supporting frame 201 again, the four elastic telescopic rods 205 are compressed, the sliding block 203 pulls the rope 301 to move, the rope 301 is unfolded again, then the first rack 504 positioned at the left moves downwards to drive the second pulling assembly to operate, the second pulling assembly drives the second filtering assembly to remove the solution and the impurities on the second pulling assembly, the removed solution falls into the third filtering assembly, the removed impurities fall into the third filtering assembly through the second bending plate 402, then the linkage plate 503 drives the two first racks 504 to move downwards, the first rack 504 positioned at the right drives the third pulling assembly to operate, the solution and the impurities on the other three filtering assemblies are removed sequentially, part of waste gas flows upwards from the slide ways on the front side and the rear side of the first supporting frame 201 during the filtering and the filtering process, after being guided by the first bending plate 401 corresponding to the upper part of the waste gas flows to the inner side to contact the water absorbing cloth 202, thereby avoiding the problem that part of the waste gas passes upwards through the first supporting frame 201 without contacting the water absorbing cloth 202 and is incompletely filtered, meanwhile, one side of the second bending plate 402, which is close to the square cabin body 2, is provided with a gap, the waste gas is prevented from staying in a cavity at the lower side of the second bending plate 402, the second bending plate 402 guides the fallen impurities in the cleaning process, the impurities move inwards, the impurities are prevented from falling into a slideway of the first supporting frame 201, the solution and the impurities remained in the five filtering components are sequentially removed from top to bottom, the phenomenon of cross residue is avoided, the waste gas is automatically enabled to flow upwards in an S shape to sequentially contact the five filtering components during the use, the contact time of the waste gas and the water absorbing cloth 202 is greatly improved, simultaneously, the problem of poor air permeability is avoided to improve filtration neutralization effect greatly, simultaneously automatic solution and impurity from last gradual clean up to the lower that will adsorb the decline avoid alternately remaining phenomenon, and avoided partial waste gas upwards to pass first support frame 201 and not contact the cloth 202 that absorbs water and filter incomplete problem, avoid waste gas to stop in second bending plate 402 downside cavity simultaneously, and avoided the impurity to drop to the problem in the slide of first support frame 201.

Example 2

1-3 and 10-11, the collecting assembly includes a second connecting plate 601, a third pipe 602, a valve 603, a third connecting block 604, a storage box 605, a baffle 606, a side cover 607, a second rack 608, a motor 609 and a second spur gear 6010; the lower side of the inner wall of the square cabin body 2 is fixedly connected with a second connecting plate 601; a third pipeline 602 is communicated with the middle of the lower side of the square cabin 2; a valve 603 is installed on the third pipeline 602; the left part of the inner side of the square cabin body 2 is connected with two third connecting blocks 604 in a sliding way; a storage box 605 is welded between the upper sides of the two third connecting blocks 604; the storage box 605 is connected with the square cabin 2 in a sliding way; a baffle 606 is fixedly connected to the upper side of the storage box 605; the front side of the storage box 605 is inserted with a side cover 607; a second rack 608 is fixedly connected to the opposite sides of the two third connecting blocks 604; two motors 609 are fixedly connected to the left part of the lower side of the square cabin body 2; the output ends of the two motors 609 are fixedly connected with a second straight gear 6010; the two second spur gears 6010 are respectively engaged with the corresponding second racks 608.

The feeding assembly comprises a water suction head 701, a fourth pipeline 702, a second supporting frame 703, a water pump 704, a fifth pipeline 705 and a sixth pipeline 706; the lower part of the left side of the square cabin body 2 is communicated with a water suction head 701; the middle part of the left side of the suction head 701 is communicated with a fourth pipeline 702; the middle part of the left side of the square cabin body 2 is connected with a second supporting frame 703 through bolts; a water pump 704 is fixedly connected to the front side of the second supporting frame 703; the input end of the water pump 704 is communicated with the fourth pipeline 702; the output end of the water pump 704 is communicated with a fifth pipeline 705; a sixth pipeline 706 is communicated with the upper part of the fifth pipeline 705; the sixth conduit 706 communicates with the square cabin 2.

When the lowest filtering component is cleaned, the solution and impurities fall onto the second connecting plate 601, then the solution and impurities flow downwards along the second connecting plate 601 to the storage box 605, the storage box 605 filters the impurities, the solution falls onto the lower part of the square cabin 2, then the valve 603 is opened manually, the waste solution flows out of the device through the third pipeline 602, after the waste solution is cleaned, the valve 603 is closed, then the external air inlet pipe is detached manually, the external water inlet pipe is communicated with the second pipeline 5, the motor 609 is started, the motor 609 drives the second spur gear 6010 to rotate, the second spur gear 6010 drives the second rack 608 to move downwards, the second rack 608 drives the third connecting block 604 to move downwards, the third connecting block 604 drives the storage box 605 to move downwards, the storage box 605 drives the baffle 606 to move downwards, the baffle 606 covers the second connecting plate 601, at this time, the storage box 605 stops shielding the water suction head 701, then an external water inlet pipe injects a proper amount of alkaline solution into the square cabin 2 through the second pipeline 5, the alkaline solution stays on the upper sides of the baffle 606 and the second connecting plate 601, the external water inlet pipe is disassembled, then the external air inlet pipe is communicated with the second pipeline 5, the water pump 704 is started, the water pump 704 starts to operate, the alkaline solution on the upper sides of the baffle 606 and the second connecting plate 601 sequentially flows to the upper sides of the water suction cloth 202 through the water suction head 701, the fourth pipeline 702, the water pump 704, the fifth pipeline 705 and the sixth pipeline 706, so that the water suction cloth 202 is wetted, the alkaline solution sequentially wets the other four filter assemblies downwards, then flows back to the upper sides of the baffle 606 and the second connecting plate 601, the water pump 704 continues to operate, the gap solution circulates four to five times, so that the water suction cloth 202 in the five filter assemblies is wetted, the water pump 704 is closed, when the device is used, the water absorbing cloth 202 in the five filter assemblies is automatically subjected to circulating fluid infusion, the problem of incomplete fluid infusion is avoided, and meanwhile, impurities remained in the waste solution are automatically removed.

While the disclosure has been described with respect to only a limited number of embodiments, those skilled in the art, having benefit of this disclosure, will appreciate that various other embodiments can be devised which do not depart from the scope of the invention as disclosed herein. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (3)

1. The carbon neutralization emission treatment equipment for building construction comprises a support column (1), a square cabin (2), a top cover (3) and a second pipeline (5); four support columns (1) are fixedly connected to the lower side of the square cabin body (2); a top cover (3) is fixedly connected to the left side of the square cabin body (2); the left part of the lower side of the square cabin body (2) is communicated with a second pipeline (5); the device is characterized by further comprising a filtering component, a pulling component, a diversion component, a driving component, a collecting component and a feeding component; five filter components for filtering and neutralizing waste gas are arranged in the square cabin body (2) and are distributed in a fold line shape; five pulling assemblies for linkage are arranged on the square cabin body (2), and the five pulling assemblies are respectively connected with the corresponding filter assemblies; the inner wall of the square cabin body (2) is provided with a flow guide component for limiting and guiding gas and impurities, and the flow guide component is positioned among the five filtering components; the middle part of the front side and the middle part of the rear side of the square cabin body (2) are respectively provided with a driving component for providing power; the lower part of the square cabin body (2) is provided with a collecting component for collecting waste solution and impurities; the left part of the square cabin body (2) is provided with a feeding component for supplementing alkaline solution to the filtering component;

the uppermost filter assembly comprises a first support frame (201), water absorbing cloth (202), a sliding block (203), a first connecting plate (204), an elastic telescopic rod (205), a pressing plate (206), a spring (207), a sleeve (208), a first connecting block (209) and a hairbrush (2010); the upper side of the inner wall of the square cabin body (2) is fixedly connected with a first supporting frame (201), the first supporting frame (201) is obliquely arranged, and the right side of the first supporting frame (201) is lower; the middle part of the first supporting frame (201) is fixedly connected with a water absorbing cloth (202); the front part and the rear part of the first supporting frame (201) are both in sliding connection with a sliding block (203); a first connecting plate (204) is fixedly connected between the upper sides and the lower sides of the two sliding blocks (203); two elastic telescopic rods (205) are arranged on the two first connecting plates (204) in a penetrating way; the telescopic ends of every two corresponding elastic telescopic rods (205) are fixedly connected with a pressing plate (206); both pressing plates (206) are contacted with the first supporting frame (201); a spring (207) is fixedly connected at the middle parts of the two first connecting plates (204); the upper part of the left side of the square cabin body (2) is fixedly connected with two sleeves (208); the left ends of the two springs (207) are fixedly connected with corresponding sleeves (208) respectively; two first connecting blocks (209) are fixedly connected to the upper side of the first connecting plate (204) positioned above; a hairbrush (2010) is fixedly connected between the two first connecting blocks (209); the brush (2010) is contacted with the water absorbing cloth (202);

the uppermost pulling assembly comprises a rope (301), a second connecting block (302), a round rod (303), a cylinder (304), a limiting ring (305) and a first straight gear (306); the middle parts of the right sides of the two sliding blocks (203) are fixedly connected with a rope (301); both ropes (301) are in sliding connection with the first support frame (201); the upper part of the right side of the square cabin body (2) is fixedly connected with two second connecting blocks (302); the right parts of the two second connecting blocks (302) are respectively and rotatably connected with a round rod (303); a cylinder (304) is fixedly connected at the middle parts of the two round rods (303); two limiting rings (305) are fixedly connected on the outer ring surfaces of the two cylinders (304); the two ropes (301) pass through the square cabin body (2) and are fixedly connected with the corresponding cylinders (304); the opposite ends of the two round rods (303) are fixedly connected with a first straight gear (306);

the flow guiding assembly comprises a first bending plate (401) and a second bending plate (402); four first bending plates (401) are fixedly connected to the front side and the rear side of the inner wall of the square cabin body (2), and each two first bending plates (401) which are adjacent front and rear are positioned above the corresponding filtering component; a second bending plate (402) is fixedly connected to the left side and the right side of the inner wall of the square cabin body (2), and the second bending plate (402) is positioned at the lower part of the corresponding filtering component; both ropes (301) are passed through a second bending plate (402) located at the uppermost part;

the front driving assembly comprises a first electric sliding rail (501), a second electric sliding block (502), a linkage plate (503) and a first rack (504); the middle part of the front side of the square cabin body (2) is fixedly connected with a first electric sliding rail (501); a second electric sliding block (502) is connected to the first electric sliding rail (501) in a sliding manner; a linkage plate (503) is fixedly connected to the front side of the second electric sliding block (502); the left side and the right side of the linkage plate (503) are fixedly connected with a first rack (504);

the collecting assembly comprises a second connecting plate (601), a third pipeline (602), a valve (603), a third connecting block (604), a storage box (605), a baffle (606), a side cover (607), a second rack (608), a motor (609) and a second spur gear (6010); a second connecting plate (601) is fixedly connected to the lower side of the inner wall of the square cabin body (2); the middle part of the lower side of the square cabin body (2) is communicated with a third pipeline (602); a valve (603) is arranged on the third pipeline (602); the left part of the inner side of the square cabin body (2) is connected with two third connecting blocks (604) in a sliding way; a storage box (605) is fixedly connected between the upper sides of the two third connecting blocks (604); the storage box (605) is in sliding connection with the square cabin body (2); a baffle (606) is fixedly connected to the upper side of the storage box (605); a side cover (607) is inserted at the front side of the storage box (605); a second rack (608) is fixedly connected to the opposite sides of the two third connecting blocks (604); two motors (609) are fixedly connected to the left part of the lower side of the square cabin body (2); the output ends of the two motors (609) are fixedly connected with a second spur gear (6010); two second spur gears (6010) are respectively meshed with corresponding second racks (608);

the feeding assembly comprises a water suction head (701), a fourth pipeline (702), a second supporting frame (703), a water pump (704), a fifth pipeline (705) and a sixth pipeline (706); the lower part of the left side of the square cabin body (2) is communicated with a water suction head (701); the middle part of the left side of the suction head (701) is communicated with a fourth pipeline (702); the middle part of the left side of the square cabin body (2) is fixedly connected with a second supporting frame (703); a water pump (704) is fixedly connected to the front side of the second supporting frame (703); the input end of the water pump (704) is communicated with the fourth pipeline (702); the output end of the water pump (704) is communicated with a fifth pipeline (705); the upper part of the fifth pipeline (705) is communicated with a sixth pipeline (706); the sixth pipeline (706) is communicated with the square cabin body (2);

the novel dust-proof device is characterized by further comprising a first pipeline (4), wherein the middle part of the upper side of the top cover (3) is communicated with the first pipeline (4), and a dust screen is arranged on the upper part of the first pipeline (4).

2. The carbon neutralizing and discharging treatment device for construction according to claim 1, wherein the left and right parts of the pressing plate (206) are provided with inclined surfaces, and the upper and lower edges of the left side of the inner wall of the first supporting frame (201) are provided with chamfers.

3. A carbon neutral emission treatment device for construction according to claim 1, characterized in that the first bending plate (401) has a V-shaped cross section.