CN115945053A - Building environment carbon neutralization emission treatment equipment - Google Patents

Abstract

The invention relates to the technical field of carbon neutralization, in particular to a building environment carbon neutralization emission treatment device which comprises a treatment box, wherein a treatment piece penetrates through the side surface of the treatment box, a push cover piece penetrates through the upper end of the treatment box, a support is fixedly arranged in the middle of the lower end surface of the treatment box, a placing disc is fixedly arranged at the lower end part of the support, an air inlet pipe is fixedly communicated with the lower end surface of the treatment box and the side part of the support, the push cover piece is attached to the end part of the air inlet pipe, a liquid discharge port is fixedly communicated with the lower end surface of the treatment box and the front part of the air inlet pipe, and a sealing cover is screwed at the lower end of the liquid discharge port. The invention improves the carbon neutralization effect, ensures that all the air entering can be fully contacted with the alkaline solution, and simultaneously ensures the normal movement of the tube cover.

Description

Building environment carbon neutralization emission treatment equipment

Technical Field

The invention relates to the technical field of carbon neutralization, in particular to a carbon neutralization emission treatment device for a building environment.

Background

A large amount of carbon dioxide can be produced in the building construction process, the carbon dioxide can be often treated for meeting the requirement of environmental protection, however, in the prior art, when the air is treated, the air is added into the equipment and is contacted with alkaline solution sprayed out of the equipment, so that the carbon dioxide in the air is absorbed by the alkaline solution, and the air is continuously added into the equipment, at the moment, the air entering the equipment is not fully contacted with the alkaline solution, namely, the air is pushed and discharged by subsequently added air, namely, the air flow rate is too fast, so that the contact time with the alkaline solution is short, the phenomenon that the carbon dioxide in the air cannot be fully absorbed is caused, and the carbon neutralization effect of the air is seriously influenced.

Disclosure of Invention

The invention aims to solve the defects in the prior art and provides a carbon neutralization emission treatment device for a building environment.

In order to achieve the above purposes, the technical scheme adopted by the invention is as follows: the utility model provides a building environment carbon is with discharging treatment facility, includes and handles the case, the side of handling the case is run through and is installed and handle the piece, the upper end of handling the case is run through and is installed and push away the cover piece, the lower terminal surface middle part fixed mounting who handles the case has the support, the lower tip fixed mounting of support has places the dish, the fixed intercommunication in side of the lower terminal surface of handling the case, support has the intake pipe, it pastes in the tip of intake pipe to push away the cover piece, the fixed intercommunication in the place ahead of the lower terminal surface of handling the case, intake pipe has the leakage fluid dram, the lower extreme of leakage fluid dram is screwed and is had sealed lid, the up end of handling the case is close to the fixed intercommunication in edge and has the blast pipe, the lower tip of blast pipe is inlayed and is had the otter board.

Preferably, it includes that the level sets up the feed liquor pipe in handling case side, the side level rotation intercommunication that the feed liquor was managed has four group's pipes, four groups the group pipe all runs through to rotate and inlays in the side of handling the case, four groups the surface of branch pipe is coaxial fixed mounting respectively has four group connecting gear, and wherein is located anterior two sets of connecting gear meshes mutually, is located the rear portion two sets of connecting gear meshes mutually, the side of handling the case is provided with servo motor No. two, servo motor No. two is located the side below of feed liquor pipe, servo motor No. two's the coaxial fixed mounting of output has drive gear, drive gear meshes with two sets of connecting gear at middle part mutually respectively.

Preferably, the lower terminal surface fixed mounting who handles the case bears the frame, bear the side that the frame is located the intake pipe, the tip that bears the frame is connected with servo motor No. two, four groups the equal annular array fixed mounting in surface of branch pipe has the multiunit to stir the piece, four groups the equal annular array fixed intercommunication in surface of branch pipe has multiunit spray nozzle, stir the piece and be located spray nozzle's side, be located anterior two sets of stir piece, spray nozzle on the branch pipe are the dislocation set, are located the rear portion two sets of stir piece, spray nozzle on the branch pipe are the dislocation set.

Preferably, push away the lid and include running through the connecting axle of inlaying the up end of handling the case, the connecting axle is located the side of blast pipe, the coaxial inlaying in surface upper portion of connecting axle has the gear wheel, the gear wheel is located the top of handling the case, the up end fixed mounting who handles the case has the housing, the housing is located the side of blast pipe, the up end of housing runs through to rotate and inlays and have the output shaft, the coaxial fixed mounting in upper portion of output shaft has servo motor No. one, servo motor is connected with the housing, the coaxial inlaying of lower tip of output shaft has the pinion, the pinion meshes with the gear wheel mutually, the housing cover is located the outside of gear wheel and pinion.

Preferably, servo motor's side fixed mounting has the motor frame, the lower tip of motor frame and the up end fixed connection of housing, the upper end fixed mounting of feed liquor pipe has the mount, the tip of mount and the side fixed connection of housing, the coaxial inlaying of the lower tip of connecting axle has the cam, the cam is located the inboard of handling the case, the inside bottom surface laminating elastic mounting who handles the case has the tube cap, the tube cap is located between the two component pipes at middle part, the tube cap laminating is in the tip of intake pipe.

Preferably, the edge of the upper end face of the pipe cover is fixedly provided with a connecting and fixing frame, the middle of the side face of the connecting and fixing frame is fixedly provided with a wheel shaft, the upper edge of the outer surface of the wheel shaft is coaxially provided with a guide wheel, the guide wheel is attached to the cam, the front part and the rear part of the side face of the connecting and fixing frame are respectively attached to and penetrated through two groups of guide rods, two groups of guide rods are coaxially embedded into one ends of the guide rods respectively and are provided with limit caps, the guide rods and the limit caps are integrally formed, the other ends of the guide rods are respectively coaxially embedded with two groups of fixing seats, and the lower ends of the fixing seats are fixed on the inner bottom surface of the treatment box.

Preferably, link the side front and back portion of solid frame and run through respectively and seted up two sets of guide holes, the guide arm is laminated in the inside of guide hole, the outside winding of guide arm has a top tension spring, the one end of top tension spring with link solid frame fixed connection, the other end and the fixing base fixed connection of top tension spring, the inboard middle part of handling the case is inlayed and is had the baffle, one side middle part of baffle runs through and has seted up the through-hole, the guide arm runs through in the through-hole, divide the tip of pipe and the opposite side rotation of baffle to be connected.

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

1. through the push away the lid piece that sets up, can be continuous promote the guide pulley under the effect of pivoted cam, and then drive and link and solidly put up and slide on the guide arm, make the tube cap can be the continuous side-to-side motion that carries on of rectilinear state, in order to open or close the intake pipe continuously, carry out the discontinuity and admit air with this, avoid because of the too fast phenomenon of the air velocity that leads to of continuously admitting air, in order to increase the contact time of air and alkaline solution, make the carbon dioxide in the air can be fully absorbed, with this effect that improves the carbon neutralization.

2. Through the processing piece that sets up, can become into foggy the spouting to the air that gets into from the intake pipe through the spray nozzle on the four component pipes, drive the rotation that carries out different turnings between the four component pipes through connecting the gear afterwards under the drive of pivoted drive gear to this lets become foggy alkaline solution can evenly spout in order fully to fill in the cavity between processing case and baffle, the stirring piece on the pivoted branch pipe is continuous stirs air and foggy alkaline solution this moment, in order to ensure that the whole air that gets into can with the abundant contact of alkaline solution.

3. And under the effect of the tight spring in top, can promote linking solid frame, and then prop the guide pulley, make the guide pulley laminate all the time and roll on the cam, with this normal motion of guaranteeing the tube cap, the air that fully contacts simultaneously has alkaline solution can spill over to another cavity between processing case and the baffle through the through-hole on the baffle in, with dwell in another cavity after a period in mesh overflow into the blast pipe on the otter board and discharge, with this further extension air and alkaline solution's contact time, promote the effect of carbon neutralization.

Drawings

FIG. 1 is a schematic diagram of a carbon neutralization emission treatment facility for a building environment according to the present invention;

FIG. 2 is a schematic view of a liquid inlet pipe of the carbon neutralization and discharge treatment equipment for the building environment;

FIG. 3 is a cross-sectional view of a housing of a carbon neutralization emission treatment apparatus for a construction environment according to the present invention;

FIG. 4 is an interior view of a treatment housing of a construction environment carbon neutralization emission treatment apparatus of the present invention;

FIG. 5 is a schematic view of a carbon neutralization emission treatment apparatus for a building environment at the pipe cap of the present invention;

FIG. 6 is a cross-sectional view of an exhaust pipe of a carbon neutralization emission treatment apparatus for a building environment according to the present invention.

In the figure: 1. a treatment tank; 2. a support; 3. placing a tray; 4. an air inlet pipe; 5. a liquid discharge port; 6. an exhaust pipe; 7. a first servo motor; 8. a housing; 9. a liquid inlet pipe; 10. a branch conduit; 11. a connecting gear; 12. a fixed mount; 13. a carrier; 14. a drive gear; 15. a second servo motor; 16. a motor frame; 17. an output shaft; 18. a connecting shaft; 19. a bull gear; 20. a pinion gear; 21. a cam; 22. a guide wheel; 23. a baffle plate; 24. a through hole; 25. a fixed seat; 26. a guide bar; 27. the spring is tightly propped; 28. stirring the slices; 29. a spray nozzle; 30. a tube cover; 31. a connecting and fixing frame; 32. a wheel axle; 33. a guide hole; 34. a limiting cap; 35. a mesh plate.

Detailed Description

The following description is presented to disclose the invention so as to enable any person skilled in the art to practice the invention. The preferred embodiments in the following description are given by way of example only, and other obvious variations will occur to those skilled in the art.

As shown in fig. 1-6, a building environment carbon neutralization emission treatment device comprises a treatment box 1, a treatment member is installed on the side surface of the treatment box 1 in a penetrating manner, a push cover member is installed on the upper end of the treatment box 1 in a penetrating manner, a support 2 is fixedly installed in the middle of the lower end surface of the treatment box 1, a placing disc 3 is fixedly installed at the lower end portion of the support 2, an air inlet pipe 4 is fixedly communicated with the side of the support 2, the push cover member is attached to the end portion of the air inlet pipe 4, a liquid outlet 5 is fixedly communicated with the lower end surface of the treatment box 1 and the front of the air inlet pipe 4, a sealing cover is screwed at the lower end of the liquid outlet 5 and plays a role in sealing the liquid outlet 5, an exhaust pipe 6 is fixedly communicated with the upper end surface of the treatment box 1 close to the edge, a mesh plate 35 is embedded at the lower end portion of the exhaust pipe 6, and the mesh plate 35 can delay the time for air to enter the exhaust pipe 6.

The treatment part comprises a liquid inlet pipe 9 horizontally arranged on the side of the treatment box 1, the side surface of the liquid inlet pipe 9 is horizontally and rotatably communicated with a four-component guide pipe 10, the four-component guide pipe 10 penetrates through the side surface of the treatment box 1 in a rotating and embedding manner, four groups of connecting gears 11 are respectively and fixedly arranged on the outer surface of the four-component guide pipe 10 coaxially, two groups of connecting gears 11 positioned on the front part are meshed, the connecting gears 11 play a role in transmission and enable the four-component guide pipe 10 to rotate in different directions, two groups of connecting gears 11 positioned on the rear part are meshed, a second servo motor 15 is arranged on the side of the treatment box 1, the second servo motor 15 is positioned below the liquid inlet pipe 9, a driving gear 14 is coaxially and fixedly arranged at the output end of the second servo motor 15, the driving gear 14 plays a driving role, and the driving gear 14 is respectively meshed with two groups of connecting gears 11 in the middle part.

The lower end face of the treatment box 1 is fixedly provided with a bearing frame 13, the bearing frame 13 is positioned on the side of the air inlet pipe 4, the end part of the bearing frame 13 is connected with a second servo motor 15, the bearing frame 13 plays a role in mounting the second servo motor 15, multiple groups of stirring pieces 28 are fixedly arranged on the outer surface of the four-component guide pipe 10 in an annular array mode, the stirring pieces 28 play a role in stirring air and foggy alkaline solution, multiple groups of spray nozzles 29 are fixedly communicated with the outer surface of the four-component guide pipe 10 in an annular array mode, the stirring pieces 28 are positioned on the side of the spray nozzles 29, the stirring pieces 28 and the spray nozzles 29 on the front two-component guide pipe 10 are arranged in a staggered mode, the stirring pieces 28 and the spray nozzles 29 on the rear two-component guide pipe 10 are arranged in a staggered mode, and the stirring pieces 28 on the adjacent two-component guide pipe 10 can be prevented from colliding together.

The cover pushing component comprises a connecting shaft 18 penetrating and embedded in the upper end face of the treatment box 1, the connecting shaft 18 is located on the side of the exhaust pipe 6, a large gear 19 is coaxially embedded in the upper portion of the outer surface of the connecting shaft 18, the large gear 19 is located above the treatment box 1, a housing 8 is fixedly installed on the upper end face of the treatment box 1, the housing 8 is located on the side of the exhaust pipe 6, an output shaft 17 penetrates and is embedded in the upper end face of the housing 8 in a rotating mode, a servo motor 7 is coaxially and fixedly installed on the upper portion of the output shaft 17, the servo motor 7 is connected with the housing 8, the servo motor 7 plays a role in driving the output shaft 17 to rotate, a small gear 20 is coaxially embedded in the lower end portion of the output shaft 17, the small gear 20 is meshed with the large gear 19, the small gear 20 and the large gear 19 play a transmission and deceleration role, the housing 8 covers the large gear 19 and the small gear 20, and the housing 8 plays a shielding role.

Side fixed mounting of servo motor 7 has motor frame 16, the lower tip of motor frame 16 and the up end fixed connection of housing 8, motor frame 16 plays the effect of connecting servo motor 7 No. one, the upper end fixed mounting of feed liquor pipe 9 has mount 12, the tip of mount 12 and the side fixed connection of housing 8, mount 12 plays the effect of fixing feed liquor pipe 9, the coaxial inlaying of the lower tip of connecting axle 18 has cam 21, cam 21 is located the inboard of handling case 1, the inside bottom surface laminating elastic mounting of handling case 1 has tube cap 30, tube cap 30 is located between the two component pipes 10 at middle part, tube cap 30 laminates in the tip of intake pipe 4, tube cap 30 plays the effect of carrying out the shutoff to intake pipe 4.

The edge of the upper end face of the tube cover 30 is fixedly provided with a connecting and fixing frame 31, the middle of the side face of the connecting and fixing frame 31 is fixedly provided with a wheel shaft 32, the edge of the outer surface of the wheel shaft 32 is coaxially provided with a guide wheel 22, the wheel shaft 32 plays a role in connecting the guide wheel 22, the guide wheel 22 is attached to a cam 21, the cam 21 plays a role in pushing the guide wheel 22 and further driving the tube cover 30 to move, the front and the rear of the side face of the connecting and fixing frame 31 are respectively attached to and penetrated by two groups of guide rods 26, one ends of the two groups of guide rods 26 are respectively and coaxially embedded with a limit cap 34, the limit cap 34 plays a role in preventing the connecting and fixing frame 31 from being separated from the guide rods 26, the guide rods 26 and the limit cap 34 are integrally formed, the guide rods 26 play a role in guiding the connecting and fixing frame 31 to drive the tube cover 30 to linearly move, the other ends of the two groups of the guide rods 26 are respectively and coaxially embedded with two groups of fixing seats 25, the lower ends of the fixing seats 25 are fixed on the inner bottom face of the treatment box 1, and the fixing seats 25 play a role in fixing the guide rods 26.

Two groups of guide holes 33 are respectively formed in the front and rear parts of the side surface of the connecting and fixing frame 31 in a penetrating mode, the guide rods 26 are attached to the inner parts of the guide holes 33, the guide holes 33 have the effect of being matched with the guide rods 26, the outer sides of the guide rods 26 are wound with the jacking springs 27, one ends of the jacking springs 27 are fixedly connected with the connecting and fixing frame 31, the other ends of the jacking springs 27 are fixedly connected with the fixing seats 25, the jacking springs 27 push the connecting and fixing frame 31 to enable the guide wheels 22 and the cams 21 to be always attached to each other, the baffle 23 is embedded in the middle of the inner side of the processing box 1 and used for separating the inner cavity of the processing box 1 into two halves, through holes 24 are formed in the middle of one side of the baffle 23 in a penetrating mode, the through holes 24 play a role in enabling air to flow, the guide rods 26 penetrate through the through holes 24, and the end parts of the branch guide tubes 10 are rotatably connected with the other sides of the baffle 23.

When carbon is neutralized, alkaline solution is injected in a pressurized manner through a liquid inlet pipe 9 to flow in a branch guide pipe 10 and is changed into mist to be sprayed out through a spray nozzle 29 on the branch guide pipe 10, then a second servo motor 15 works to drive a driving gear 14 to rotate, further a connecting gear 11 drives four component guide pipes 10 to rotate in different directions, so that the atomized alkaline solution can be uniformly sprayed out to be fully filled in a cavity between a treatment box 1 and a baffle 23, at the moment, part of air is added through an air inlet pipe 4, then a first servo motor 7 works to drive a cam 21 to rotate through a pinion 20 and a bull gear 19, so that a rotating cam 21 drives a guide wheel 22 to move, so that a pipe cover 30 covers the air inlet pipe 4, the air inlet pipe 4 is closed, the added part of air is contacted with the atomized alkaline solution in the cavity to absorb carbon dioxide in the air, a stirring sheet 28 on the rotating branch guide pipe 10 continuously stirs the air and the alkaline solution in the atomized solution, so that all air entering the air can be fully contacted with the alkaline solution, the rotating cam 21 drives the guide wheel 22 to open the pipe cover 30 to open from the air inlet pipe 4 to push the air to enter the other cavity to be discharged from a through hole 24 in the treatment box, and the other through hole of the air inlet pipe 23, and the other through hole in the treatment box, and the other through hole 24, so that the air in the treatment box flows out of the other cavity, and the treatment box, and the other cavity, and the air outlet pipe 6, and the other cavity, and the air in the air outlet pipe 23.

The foregoing shows and describes the general principles, essential features, and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are merely illustrative of the principles of the invention, but various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined by the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims (7)

1. A building environment carbon neutralization emission treatment facility, includes processing case (1), its characterized in that: the side of handling case (1) is run through and is installed and handle the piece, the upper end of handling case (1) is run through and is installed and push away the cover piece, the lower terminal surface middle part fixed mounting who handles case (1) has support (2), the lower tip fixed mounting of support (2) has place dish (3), the fixed intercommunication in side of the lower terminal surface of handling case (1), support (2) has intake pipe (4), it pastes in the tip of intake pipe (4) to push away the cover piece, the fixed intercommunication in the place ahead of the lower terminal surface of handling case (1), intake pipe (4) has leakage fluid dram (5), the lower extreme of leakage fluid dram (5) is screwed and is sealed the lid, the up end of handling case (1) is close to the fixed intercommunication in edge and has blast pipe (6), the lower tip of blast pipe (6) is inlayed and is had otter board (35).

2. The building environment carbon neutralization emission treatment facility of claim 1, wherein: handle the piece and set up feed liquor pipe (9) handling case (1) side including the level, the side level of feed liquor pipe (9) is rotated the intercommunication and is had four group's pipe (10), four groups divide pipe (10) all to run through to rotate and inlay in the side of handling case (1), four groups the surface of dividing pipe (10) coaxial fixed mounting respectively has four group connecting gear (11), wherein is located anterior two sets of connecting gear (11) mesh mutually, is located the rear portion two sets of connecting gear (11) mesh mutually, the side of handling case (1) is provided with No. two servo motor (15), no. two servo motor (15) are located the side below of feed liquor pipe (9), the coaxial fixed mounting of output of No. two servo motor (15) has drive gear (14), drive gear (14) mesh mutually with two sets of connecting gear (11) at middle part respectively.

3. The building environment carbon neutralization emission treatment facility of claim 2, wherein: the lower terminal surface fixed mounting who handles case (1) bears frame (13), bear the side that frame (13) is located intake pipe (4), the tip that bears frame (13) is connected with servo motor (15) No. two, and is four groups the equal annular array fixed mounting in surface of branch pipe (10) has multiunit stirring piece (28), and is four groups the equal annular array fixed intercommunication in surface of branch pipe (10) has multiunit spray shower nozzle (29), stirring piece (28) are located the side of spray shower nozzle (29), are located anterior two sets of stirring piece (28), spray shower nozzle (29) on branch pipe (10) are the dislocation set, are located the rear two sets of stirring piece (28), spray shower nozzle (29) on branch pipe (10) are the dislocation set.

4. The building environment carbon neutralization emission treatment facility of claim 2, wherein: push away the lid including running through connecting axle (18) of inlaying the up end of handling case (1), connecting axle (18) are located the side of blast pipe (6), the coaxial inlaying in surface upper portion of connecting axle (18) has gear wheel (19), gear wheel (19) are located the top of handling case (1), the up end fixed mounting who handles case (1) has housing (8), housing (8) are located the side of blast pipe (6), the up end of housing (8) runs through to rotate and inlays and have output shaft (17), the coaxial fixed mounting in upper portion of output shaft (17) has servo motor (7), servo motor (7) are connected with housing (8), the coaxial inlaying of lower tip of output shaft (17) has pinion (20), pinion (20) mesh with gear wheel (19), housing (8) cover is located the outside of gear wheel (19) and pinion (20).

5. The building environment carbon neutralization emission treatment facility of claim 4, wherein: the side fixed mounting of a servo motor (7) has motor frame (16), the lower tip of motor frame (16) and the up end fixed connection of housing (8), the upper end fixed mounting of feed liquor pipe (9) has mount (12), the tip of mount (12) and the side fixed connection of housing (8), the coaxial inlaying of lower tip of connecting axle (18) has cam (21), cam (21) are located the inboard of handling case (1), the inside bottom surface laminating elastic mounting who handles case (1) has tube cap (30), tube cap (30) are located between two group's pipe (10) at middle part, tube cap (30) laminate in the tip of intake pipe (4).

6. The building environment carbon neutralization emission treatment facility of claim 5, wherein: fixed mounting has even solid frame (31) at the up end edge of tube cap (30), even the side middle part fixed mounting of solid frame (31) has shaft (32), coaxial mounting has guide pulley (22) at the surface top edge of shaft (32), guide pulley (22) are laminated on cam (21), it laminates respectively to run through and installs two sets of guide arm (26) even to laminate respectively the side front and back portion of solid frame (31), and is two sets of the one end of guide arm (26) is coaxial inlay respectively and is had spacing cap (34), guide arm (26) and spacing cap (34) integrated into one piece, and are two sets of the other end of guide arm (26) is coaxial inlay respectively and is had two sets of fixing base (25), the lower extreme of fixing base (25) is fixed in the inside bottom surface of handling case (1).

7. The building environment carbon neutralization emission treatment facility of claim 6, wherein: link the side front and back portion of solid frame (31) and run through respectively and seted up two sets of guide holes (33), guide arm (26) are laminated in the inside of guide hole (33), the outside winding of guide arm (26) has top tension spring (27), the one end of top tension spring (27) with link solid frame (31) fixed connection, the other end and fixing base (25) fixed connection of top tension spring (27), the inboard middle part of handling case (1) is inlayed and is had baffle (23), one side middle part of baffle (23) is run through and has been seted up through-hole (24), guide arm (26) run through in through-hole (24), divide the tip of pipe (10) and the opposite side rotation of baffle (23) to be connected.

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