CN115634568A

CN115634568A - Neutralization reaction device capable of reducing carbon dioxide emission

Info

Publication number: CN115634568A
Application number: CN202211415881.4A
Authority: CN
Inventors: 朱珍德; 陆立群; 秦雪兰
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-11-12
Filing date: 2022-11-12
Publication date: 2023-01-24

Abstract

The application provides a neutralization reaction device with reduce carbon dioxide and discharge applies to exhaust-gas treatment equipment technical field, includes: the reation kettle has the gas vent on it, still includes: with the shell that holds that the gas vent is connected, hold and install the intake pipe on the shell, intake pipe one end with the gas vent intercommunication, the other end with hold the inside intercommunication of shell, hold and set up the water inlet of one-way intaking and the outlet of one-way drainage on the shell. This application discharges the carbon dioxide in the reation kettle and holds in the shell, react with the waste water that holds in the shell, advancing the reaction time, increase the mobility of waste water and carbon dioxide through stirring piece, making the stirring piece drive through the interlock piece and changeing the board rotation, make stirring end luffing motion through the ejector pin on changeing the board, further increased stirring effect, through the stirring to waste water and carbon dioxide, increase the contact of waste water and carbon dioxide, be convenient for carry on neutralization reaction, improve reaction efficiency.

Description

Neutralization reaction device capable of reducing carbon dioxide emission

The application relates to the technical field of waste gas treatment equipment, in particular to a neutralization reaction device capable of reducing carbon dioxide emission.

Background

With the development of society, chemical industry is more common at present, and in most chemical industries, carbon dioxide is discharged in the step of reacting compounds, and the discharged carbon dioxide is recycled.

According to the prior publication (CN 202122664133.7): disclosed is a neutralization reaction device capable of reducing carbon dioxide emission, which comprises a reaction cylinder, wherein the bottom of the reaction cylinder is fixedly provided with a fixed supporting leg. This with have the neutralization reaction device who reduces carbon dioxide emission, it makes waste water circulate through the opening to move waste water through pressing, stir the blast pipe simultaneously and discharge carbon dioxide, thereby make carbon dioxide and waste water fully contact, the contact degree of consistency of carbon dioxide and waste water has been improved, the effect of neutralization reaction and the efficiency of neutralization have been improved, the transmission shaft rotates and drives spacing dop through the spacing groove and reciprocate, spacing dop drives the lifting ring and reciprocates, lifting ring zone movive seal clamping ring reciprocates and presses down waste water, the effect that carbon dioxide gas and waste water dissolve has been improved through carrying out the pressurized mode, the effect that carbon dioxide and waste water contact are mixed has been improved, thereby the effect of neutralization has further been improved.

In prior art, go through the carbon dioxide and carry out neutralization reaction with alkaline waste water, the carbon dioxide that produces in the neutralization reaction before will, discharge to in the waste water treatment pipeline, carry out neutralization reaction once more with alkaline waste water, when using, or directly discharge carbon dioxide to waste water and react, or make carbon dioxide and waste water contact through atmospheric pressure, but because the density of carbon dioxide is greater than the air at ordinary temperature, the effect of pressing carbon dioxide through the effect of atmospheric pressure is not good, make the treatment effeciency to carbon dioxide lower, this application provides a neutralization reaction device with reduction carbon dioxide and discharges to improve this problem.

Disclosure of Invention

The application aims to provide a neutralization reaction device capable of reducing carbon dioxide emission, and aims to solve the problems that business problems in a business problem library are inaccurate in proportion due to errors in business problem classification, and unexpected business problems cannot be prevented.

In order to achieve the above purpose, the present application provides the following technical solutions:

the application provides a neutralization reaction device with reduce carbon dioxide and discharge, includes reation kettle, has the gas vent on it, still includes:

the accommodating shell is connected with the exhaust port, an air inlet pipe is mounted on the accommodating shell, one end of the air inlet pipe is communicated with the exhaust port, the other end of the air inlet pipe is communicated with the inside of the accommodating shell, a water inlet for one-way water inlet and a water outlet for one-way water drainage are formed in the accommodating shell, and the water inlet and the water outlet are communicated with a waste water pipeline;

the stirring piece is rotatably arranged in the accommodating shell and provided with a stirring end, the stirring end is connected with the stirring piece in a sliding mode along the axial direction of the rotating position of the stirring piece, and the stirring end makes circular motion around the axial line of the rotating point of the stirring piece;

the rotating plate is rotatably arranged on the accommodating shell, a plurality of ejector rods with different heights are arranged on the rotating plate, when the ejector rods are contacted with the stirring end, the stirring end slides along the axis direction of the rotating position of the stirring piece, and the rotating point of the rotating plate is not in the same point with the rotating point of the stirring piece, so that the ejector rods are sequentially contacted with the stirring end;

install the interlock piece in the shell that holds, the interlock piece will stirring with change the board and be connected, work as when stirring rotates, the interlock piece drives change the board and rotate.

Further, the stirring member includes:

the rotating rod is rotatably arranged on the accommodating shell, and one end of the rotating rod, which is rotatably connected with the accommodating shell, is connected with the linkage piece;

the limiting rods are arranged on the peripheral sides of the rotating rods, each limiting rod is provided with two ends, the two ends of each limiting rod are respectively connected with the corresponding rotating rod, and the rod bodies of the limiting rods are of curved structures, so that a space is reserved between the rod bodies of the limiting rods and the peripheral sides of the rotating rods;

the sliding plate is slidably mounted on the limiting rod, a hole for accommodating the limiting rod is formed in the sliding plate, the caliber of the hole is larger than the rod diameter of the limiting rod, and the sliding direction of the sliding plate is the axial direction of the rotating rod;

the stirring blade is arranged on the peripheral side of the sliding plate, the stirring blade is arranged on the peripheral side of the edge of the sliding plate, and an included angle is formed between the surface of the stirring blade and the upper surface of the sliding plate;

and the output shaft of the driving motor is coaxially connected with the rotating rod.

Further, the interlock piece includes:

the driving gear is mounted on the rotating rod and is coaxially mounted with the rotating rod;

the inner gear ring is installed on the rotating plate and meshed with the driving gear, and the inner gear ring and the rotating plate are coaxially installed.

Further, install the auxiliary member in the accommodation shell, the auxiliary member includes:

a turntable board rotatably mounted on the accommodating shell;

the contact plates are annularly arrayed on the rotating table plate along the axial direction of the rotating table plate, and included angles exist among the contact plates;

the rotating plate is connected with the top plate through the contact plate, the top plate is provided with a driving piece, the driving piece is connected with the rotating rod, and when the rotating rod rotates, the driving piece drives the top plate to move.

Further, the driving member includes:

the driving gear is arranged on the rotating rod and is coaxially arranged with the rotating rod;

the driven gear is rotatably installed on the accommodating shell, the driven gear is meshed with the driving gear, an actuating rod is eccentrically hinged to the driven gear, one end of the actuating rod is hinged to the driven gear, the other end of the actuating rod is hinged to the top plate, and the actuating rod is not collinear with the axis of the hinged point of the top plate and the rotating axis of the top plate.

Furthermore, sliding hinge has the inserted block on the roof, the inserted block is installed all sides of roof, the actuating lever with the inserted block is articulated, install on the accommodation shell and be used for holding the limiting plate of inserted block, the limiting plate forces the inserted block is linear motion only.

Further, the stirring blade comprises a connecting part and a rotating part, the connecting part is connected with the sliding plate, the rotating part is rotatably connected with the connecting part, and the surface area of the rotating part is larger than that of the connecting part.

Further, the intake pipe is installed hold on the shell lateral wall, the intake pipe has both ends, and one end is in the horizontal direction, and other end opening is towards vertical decurrent direction, the intake pipe is located towards vertical decurrent one end inside holding the shell.

Furthermore, the intake pipe is located one of holding the inside shell is served and is installed the filter, set up the filtration hole that is used for carbon dioxide to pass through on the filter.

Furthermore, threaded holes are formed in the sliding plate and the connecting part, and the connecting part is connected with the sliding plate through bolts.

The application provides a neutralization reaction device with reduce carbon dioxide and discharge, has following beneficial effect:

this application discharges the carbon dioxide in the reation kettle and holds in the shell, react with the waste water that holds in the shell, when advancing the reaction, increase waste water and carbon dioxide's mobility through stirring, make the stirring piece drive through the interlock piece and change the board rotation, make stirring end luffing motion through the ejector pin on changeing the board, the stirring effect has further been increased, through the stirring to waste water and carbon dioxide, increase waste water and carbon dioxide's contact, be convenient for carry on neutralization reaction, improve reaction efficiency.

This application drives the bull stick through driving motor and rotates for the stirring leaf stirs waste water and carbon dioxide holding the shell internal rotation, through the gag lever post, makes the sliding plate when sliding, and its gliding range can not be too big, has reduced the damage to the stirring leaf, when being convenient for stir waste water and carbon dioxide, has increased the life of stirring.

This application with drive gear and interior ring gear meshing, when the bull stick rotated, thereby it rotates to drive interior ring gear and drives the commentaries on classics board and rotate, is convenient for drive commentaries on classics board and stirring piece through same power source, has practiced thrift the power supply.

Drawings

Fig. 1 is a schematic structural diagram of a neutralization reaction apparatus with reduced carbon dioxide emissions according to an embodiment of the present application.

FIG. 2 is a schematic perspective view of another embodiment of the present application;

FIG. 3 is an exploded view of a portion of the structure of the present application;

FIG. 4 is an exploded view of yet another portion of the structure of the present application;

FIG. 5 is an exploded view of yet another portion of the structure of the present application;

fig. 6 is a perspective half-sectional view of fig. 2 of the present application.

Reference numerals: 1. a housing case; 101. a water inlet; 102. a water discharge port; 2. an air inlet pipe; 3. a stirring member; 301. a rotating rod; 302. a limiting rod; 303. a sliding plate; 304. stirring blades; 3041. a connecting portion; 3042. a rotating part; 305. a drive motor; 4. rotating the plate; 5. a top rod; 6. a linkage member; 601. a drive gear; 602. an inner gear ring; 7. an auxiliary member; 701. a turntable plate; 702. a contact plate; 703. a top plate; 8. a drive member; 801. a driving gear; 802. a driven gear; 803. a drive rod; 9. inserting a block; 10. a limiting plate; 11. a filter plate.

The implementation, functional features and advantages of the present application will be further explained with reference to the accompanying drawings.

Detailed Description

It should be understood that the specific embodiments described herein are merely illustrative of the present application and are not intended to limit the present application.

The technical solutions in the embodiments of the present application will be described clearly and completely with reference to the drawings in the embodiments of the present application, and it is obvious that the described embodiments are only some embodiments of the present application, and not all embodiments. All other embodiments obtained by a person of ordinary skill in the art based on the embodiments in the present application without making any creative effort belong to the protection scope of the present application.

Referring to fig. 1, fig. 2 and fig. 6, a schematic diagram of a neutralization reaction apparatus with reduced carbon dioxide emission proposed by the present application includes a reaction vessel having an exhaust port thereon, the reaction vessel being an existing container for performing a chemical reaction, and comprising a vessel body, a transmission device, a stirring device, a heating device, a cooling device, a sealing device, and the like, wherein the exhaust port for carbon dioxide emission is opened thereon, and further comprising:

the gas-water separation device comprises a containing shell 1 connected with an exhaust port, wherein a gas inlet pipe 2 is installed on the containing shell 1, one end of the gas inlet pipe 2 is communicated with the exhaust port, the other end of the gas inlet pipe 2 is communicated with the inside of the containing shell 1, a water inlet 101 for one-way water inlet and a water outlet 102 for one-way water drainage are formed in the containing shell 1, the water inlet 101 and the water outlet 102 are communicated with a waste water pipeline, the containing shell 1 is connected with the waste water pipeline through the water inlet 101 and the water outlet 102, waste water flows through the containing shell 1, one-way valves are installed on the water inlet 101 and the water outlet 102, the possibility of backflow of the waste water is reduced, the gas inlet pipe 2 is connected with a reaction kettle and used for discharging carbon dioxide in the reaction kettle into the containing shell 1, and a gas outlet is also formed in the containing shell 1;

the stirring part 3 is rotatably arranged in the accommodating shell 1, the stirring part 3 is provided with a stirring end, the stirring end is in sliding connection with the stirring part 3 along the axis direction of the rotating part of the stirring part 3, the stirring end does circular motion around the axis of the rotating point of the stirring part 3, the stirring part 3 is rotatably arranged in the accommodating shell 1, the stirring end is slidably arranged on the stirring part 3 along the axis of the rotating part of the stirring part 3, and when the stirring device is used, wastewater and carbon dioxide are stirred through the stirring end, so that the wastewater and the carbon dioxide are better contacted, and the reaction is facilitated;

the stirring device comprises a rotating plate 4 rotatably mounted on a containing shell 1, wherein a plurality of ejector rods 5 with different heights are mounted on the rotating plate 4, when the ejector rods 5 are in contact with a stirring end, the stirring end slides along the axis direction of the rotating position of a stirring piece 3, the rotating point of the rotating plate 4 is not in common with the rotating point of the stirring piece 3, so that the ejector rods 5 are sequentially in contact with the stirring end, the rotating plate 4 is rotatably mounted on the containing shell 1 and is eccentrically mounted with the stirring piece 3, one end plate surface of the rotating plate 4 is superposed with the projection of the stirring piece 3 on the rotating plate 4, the rest part of the rotating plate is not superposed with the projection of the stirring piece 3 on the rotating plate 4, the rotating plate 4 is an annular plate, the ejector rods 5 are annularly arrayed on the rotating plate 4 along the circle center of the cross section of the ejector rods 5, the lengths of the ejector rods 5 are not consistent, but the height of the lowest ejector rod 5 is higher than the lowest position of the stirring end on the stirring piece 3, when the rotating plate 4 is used, the ejector rods 5 can be in turn in contact with the stirring end, so that the stirring end can be jacked upwards, the stirring end can be changed in the vertical direction, and the stirring effect is increased;

the linkage part 6 is arranged in the accommodating shell 1, the stirring part 3 is connected with the rotating plate 4 through the linkage part 6, when the stirring part 3 rotates, the rotating plate 4 is driven to rotate by the linkage part 6, the rotating plate 4 is connected with the stirring part 3 through the linkage part 6, the rotating plate 4 and the stirring part 3 are conveniently driven through the same driving force, when the stirring device is used, a power source is saved, and the occupancy rate of the upper space of the accommodating shell 1 is reduced;

compared with the prior art, when using, through stirring 3 and the cooperation of ejector pin 5, make the stirring end when stirring, increased the contact of waste water with carbon dioxide, be convenient for the two better react, when the reaction, increased the reaction efficiency of carbon dioxide with waste water.

As shown in fig. 3, 4, 5 and 6, in some embodiments, the stirring member 3 includes:

the rotating rod 301 is rotatably mounted on the accommodating shell 1, one end of the rotating rod 301, which is rotatably connected with the accommodating shell 1, is connected with the linkage part 6, the accommodating shell 1 is a cylindrical shell, and the rotating rod 301 is coaxial with the accommodating shell 1 and is rotatably mounted in the accommodating shell 1;

a plurality of limiting rods 302 arranged on the peripheral side of the rotating rod 301, wherein each limiting rod 302 is provided with two ends, the two ends of each limiting rod 302 are respectively connected with the rotating rod 301, the rod body of each limiting rod 302 is of a curved structure, so that a space exists between the rod body of each limiting rod 302 and the peripheral side of the rotating rod 301, the limiting rods 302 are curved rods, the two ends of each limiting rod 302 are close to each other, the middle section is arched, the two ends of each limiting rod 302 are connected with the side wall of the rotating rod 301, and a space exists between the arched part of the middle section and the side wall of the rotating rod 301;

the sliding plate 303 is slidably mounted on the limiting rod 302, a hole for accommodating the limiting rod 302 is formed in the sliding plate 303, the caliber of the hole is larger than the rod diameter of the limiting rod 302, the sliding direction of the sliding plate 303 is the axial direction of the rotating rod 301, a connecting hole is formed in the sliding plate 303, the connecting hole is in sliding fit with the rotating rod 301, the hole is in sliding fit with the limiting rod 302, and the hole diameter is larger than the rod diameter of the limiting rod 302;

the stirring blades 304 are arranged on the peripheral side of the sliding plate 303, the stirring blades 304 are arranged on the peripheral side of the edge of the sliding plate 303, an included angle is formed between the surface of each stirring blade 304 and the upper surface of the sliding plate 303, the stirring blades 304 are plate bodies, the largest plate surface of each stirring blade and the upper surface of the sliding plate 303 form an included angle, when the stirring blades rotate along with the sliding plate 303, the contact area between the stirring piece 3 and wastewater and carbon dioxide can be increased through the plate surface, the contact between the stirring piece 3 and the wastewater and the carbon dioxide can be better facilitated, the reaction between the stirring piece and the wastewater and the carbon dioxide can be more complete, and the sliding plate 303 and the stirring blades 304 form a stirring end;

install driving motor 305 on holding shell 1, driving motor 305's output shaft and bull stick 301 coaxial coupling, driving motor 305 installs at holding shell 1 top, and its output shaft is connected with bull stick 301, drives bull stick 301 through driving motor 305 and rotates, when being convenient for drive bull stick 301 rotates, has also practiced thrift the manpower.

As shown in fig. 4 and 6, in some embodiments, the linkage 6 includes:

the driving gear 601 is installed on the rotating rod 301, the driving gear 601 and the rotating rod 301 are coaxially installed, the driving gear 601 is installed at the bottom of the rotating rod 301, the driving gear 601 is rotatably connected with the accommodating shell 1, and when the driving motor 305 drives the rotating rod 301 to rotate, the rotating rod 301 can drive the driving gear 601 to rotate;

install interior ring gear 602 on commentaries on classics board 4, interior ring gear 602 and drive gear 601 meshing, interior ring gear 602 and commentaries on classics 4 coaxial arrangement of board, because commentaries on classics board 4 is the crown plate, interior ring gear 602 is installed in the inner ring of commentaries on classics board 4, with drive gear 601 meshing, when bull stick 301 rotates, it rotates to drive interior ring gear 602 through drive gear 601 drive, thereby it rotates to drive commentaries on classics board 4, make and change board 4 go up ejector pin 5 and contact bottom sliding plate 303 in proper order, be convenient for drive the slip of sliding plate 303 through the rotation of bull stick 301 self, the power supply has been practiced thrift.

As shown in fig. 3, in some embodiments, an auxiliary 7 is installed in the receiving case 1, and the auxiliary 7 includes:

the rotating platform plate 701 is rotatably arranged on the accommodating shell 1, a rod body is arranged at the bottom of the rotating platform plate 701, and the rod body is rotatably connected with the bottom of the accommodating shell 1;

the plurality of contact plates 702 are annularly arrayed on the rotating table 701 along the axial direction of the rotating table 701, included angles exist among the contact plates 702, the contact plates 702 are installed on the upper surface of the rotating table 701, and included angles exist among the contact plates 702, so that the contact plates are obliquely installed on the rotating table 701, when the rotating table 701 rotates, the contact area between the rotating table 701 and waste water is increased, and the stirring effect is increased;

the top plate 703 that sets up with the revolving stage board 701 symmetry, the contact plate 702 is connected the revolving stage board 701 with top plate 703, install driving piece 8 on the top plate 703, driving piece 8 is connected with bull stick 301, when bull stick 301 rotates, driving piece 8 drives the motion of top plate 703, top plate 703 is located the contact plate 702 top, revolving stage board 701 is located the contact plate 702 below, be connected with bull stick 301 through driving piece 8 on the top plate 703, through the cooperation of driving piece 8 when bull stick 301 rotates, make top plate 703 drive contact plate 702 and rotate, increased the stirring to waste water and carbon dioxide, the stirring efficiency of device has been increased.

As shown in fig. 3 and 5, in some embodiments, the driver 8 comprises:

the driving gear 801 is arranged on the rotating rod 301, and the driving gear 801 and the rotating rod 301 are coaxially arranged;

the driven gear 802 is rotatably installed on the accommodating shell 1, the driven gear 802 is meshed with the driving gear 801, the driven gear 802 is eccentrically hinged with a driving rod 803, one end of the driving rod 803 is hinged with the driven gear 802, the other end of the driving rod 803 is hinged with the top plate 703, the axis of the hinged point of the driving rod 803 and the top plate 703 is not collinear with the rotating axis of the top plate 703, the driving gear 801 is meshed with the driven gear 802, a rod body is installed inside the accommodating shell 1, the driven gear 802 is rotatably installed on the rod body, the rod body is higher than the highest sliding position of the sliding plate 303 and cannot affect the movement of the stirring blade 304, a hinged block is installed on the driven gear 802, the driving rod 803 is hinged with the hinged block, a hinged block hinged with the driving rod 803 is also installed on the top plate 703, the installation position of the hinged block on the top plate 703 is eccentrically connected with the rotation direction of the hinged block, when the driven gear 802 rotates, the driving rod 803 is pushed or pulled, the hinged block on the top plate 703 is pushed or pulled through the driving rod 803, the hinged block is convenient to drive the top plate 703 to rotate or swing, the power source for driving the auxiliary 7, and the installation space in the accommodating shell 1 is saved.

As shown in fig. 5, in some embodiments, an insert 9 is slidably hinged on the top plate 703, the insert 9 is installed on the periphery of the top plate 703, a driving rod 803 is hinged with the insert 9, a limiting plate 10 for accommodating the insert 9 is installed on the accommodating shell 1, the limiting plate 10 forces the insert 9 to move only linearly, a connecting column is installed above the top plate 703, a hinged plate is installed on the connecting column, a sliding groove is formed in the insert 9 in the horizontal direction, a hinged plate is slidably installed in the sliding groove, and the hinged plate on the connecting column is hinged with the hinged plate on the insert 9, when in use, the limiting plate 10 is located on both sides of the insert 9, when in use, the movement path of the insert 9 is limited, so that the insert can only move linearly and reciprocally in the horizontal direction, thereby the top plate 703 drives the contact plate 702 to swing in the direction of the rotating shaft thereof, and by bidirectional stirring, a reverse force is applied to the water flow moving along with the contact plate 702, so that the contact plate 702 collides with the water flow, the water flow 702 is disturbed, contact between waste water and carbon dioxide is increased, and the reaction efficiency is increased.

As shown in fig. 4, in some embodiments, the stirring blade 304 includes a connecting portion 3041 and a rotating portion 3042, the connecting portion 3041 is connected to the sliding plate 303, the rotating portion 3042 is rotatably connected to the connecting portion 3041, the surface area of the rotating portion 3042 is greater than that of the connecting portion 3041, the connecting portion 3041 is a block body connected to the sliding plate 303, a rotating slot is formed on the connecting portion 3041, the rotating portion 3042 includes a plate body and a rod body, the rod body is tightly and rotatably connected to the rotating slot, the plate body is in contact with waste water, when in use, the rotating portion 3042 is rotatably connected to the connecting portion 3041 through the rotating portion 3042, when stirring is performed, the impact of too fast water flow on the rotating portion 3042 is reduced, when the rotating portion 3042 is tightly rotated to rotate with the connecting portion 3041 through the rotating portion 3042, the plate body of the rotating portion 3042 is flushed to be parallel to the upper surface of the sliding plate 303, and the sliding plate 303 is in a swinging state due to the push of the push rod 5, further reducing the possibility that the rotating portion 3042 is parallel to the upper surface of the sliding plate 303.

As shown in fig. 6, in some embodiments, the air inlet pipe 2 is installed on a side wall of the accommodating case 1, the air inlet pipe 2 has two ends, one end is in a horizontal direction, the other end is opened in a vertical downward direction, one end of the air inlet pipe 2, which is opened in the vertical downward direction, is located inside the accommodating case 1, the opening of the air inlet pipe 2, which is located inside the accommodating case 1, is opened vertically downward, when carbon dioxide is discharged into the accommodating case 1, since the density of carbon dioxide is less than that of water, the opening is opened vertically downward, the movement distance of carbon dioxide in the accommodating case 1 is convenient to increase, the contact time of waste water and carbon dioxide is increased, and the reaction efficiency is increased.

As shown in fig. 6, in some embodiments, a filter plate 11 is installed at one end of the air inlet pipe 2 inside the housing 1, the filter plate 11 is provided with filter holes for carbon dioxide to pass through, and dust particles in the exhaust gas discharged from the reaction vessel are shielded by the filter plate 11, so that the carbon dioxide passes through the filter holes, and the possibility of reaction between other internal impurities and the wastewater is reduced.

As shown in fig. 4, in some embodiments, the sliding plate 303 and the connecting portion 3041 are both provided with threaded holes, the connecting portion 3041 is connected to the sliding plate 303 through bolts, a top cover is mounted on the accommodating casing 1 through bolts, the inside of the accommodating casing 1 can be communicated with the outside by detaching the top cover, so as to facilitate replacement and cleaning of components inside the accommodating casing 1, and the stirring blade 304 can be replaced and maintained by detachably connecting the connecting portion 3041 and the sliding plate 303 through bolts.

It should be noted that, in this document, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, apparatus, article, or method that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, apparatus, article, or method. Without further limitation, an element defined by the phrases "comprising a," "8230," "8230," or "comprising" does not exclude the presence of another identical element in a process, apparatus, article, or method comprising the element.

The above description is only for the preferred embodiment of the present application and not intended to limit the scope of the present application, and all modifications of equivalent structures and equivalent processes, which are made by the contents of the specification and the drawings of the present application, or which are directly or indirectly applied to other related technical fields, are intended to be included within the scope of the present application.

Although embodiments of the present application have been shown and described, it will be appreciated by those skilled in the art that various changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the application, the scope of which is defined in the appended claims and their equivalents.

Claims

1. A neutralization reaction apparatus with reduced carbon dioxide emissions, comprising a reaction vessel having a vent therein, and further comprising:

the accommodating shell (1) is connected with the exhaust port, an air inlet pipe (2) is mounted on the accommodating shell (1), one end of the air inlet pipe (2) is communicated with the exhaust port, the other end of the air inlet pipe is communicated with the inside of the accommodating shell (1), a water inlet (101) for one-way water inlet and a water outlet (102) for one-way water drainage are formed in the accommodating shell (1), and the water inlet (101) and the water outlet (102) are communicated with a waste water pipeline;

the stirring piece (3) is rotatably installed in the accommodating shell (1), the stirring piece (3) is provided with a stirring end, the stirring end is connected with the stirring piece (3) in a sliding mode along the axial line direction of the rotating position of the stirring piece (3), and the stirring end moves circularly around the axial line of the rotating point of the stirring piece (3);

a rotating plate (4) rotatably mounted on the accommodating shell (1), wherein a plurality of ejector rods (5) with different heights are mounted on the rotating plate (4), when the ejector rods (5) are in contact with the stirring end, the stirring end slides along the axis direction of the rotating part of the stirring piece (3), and the rotating point of the rotating plate (4) is not in common with the rotating point of the stirring piece (3), so that the ejector rods (5) are sequentially in contact with the stirring end;

install interlock spare (6) in holding shell (1), interlock spare (6) will stirring piece (3) with change board (4) and be connected, work as when stirring piece (3) rotate, interlock spare (6) drive change board (4) rotate.

2. A neutralization reaction apparatus with carbon dioxide emission reduction according to claim 1, characterized in that the stirring member (3) comprises:

the rotating rod (301) is rotatably installed on the accommodating shell (1), and one end, rotatably connected with the accommodating shell (1), of the rotating rod (301) is connected with the linkage piece (6);

the limiting rods (302) are mounted on the peripheral sides of the rotating rods (301), the limiting rods (302) are provided with two ends, the two ends of the limiting rods (302) are respectively connected with the rotating rods (301), and the rods of the limiting rods (302) are of curved structures, so that a space exists between the rods of the limiting rods (302) and the peripheral sides of the rotating rods (301);

the sliding plate (303) is slidably mounted on the limiting rod (302), a hole for accommodating the limiting rod (302) is formed in the sliding plate (303), the caliber of the hole is larger than the rod diameter of the limiting rod (302), and the sliding direction of the sliding plate (303) is the axial direction of the rotating rod (301);

the stirring blade (304) is arranged on the peripheral side of the sliding plate (303), the stirring blade (304) is arranged on the peripheral side of the edge of the sliding plate (303), and an included angle is formed between the surface of the stirring blade (304) and the upper surface of the sliding plate (303);

a driving motor (305) installed on the accommodating shell (1), wherein an output shaft of the driving motor (305) is coaxially connected with the rotating rod (301).

3. A neutralization reaction apparatus with carbon dioxide emission reduction according to claim 2, characterized in that the linkage (6) comprises:

the driving gear (601) is mounted on the rotating rod (301), and the driving gear (601) is mounted coaxially with the rotating rod (301);

install in interior ring gear (602) on commentaries on classics board (4), interior ring gear (602) with drive gear (601) meshing, interior ring gear (602) with commentaries on classics board (4) coaxial arrangement.

4. A neutralization reaction apparatus with carbon dioxide emission reduction according to claim 2, characterized in that an auxiliary (7) is installed in the containment vessel (1), the auxiliary (7) comprising:

a turntable plate (701) rotatably mounted on the housing case (1);

a plurality of contact plates (702) which are arranged on the rotating table plate (701) in an annular array along the axial direction of the rotating table plate (701), wherein included angles exist among the contact plates (702);

the top plate (703) is symmetrically arranged with the rotating table plate (701), the contact plate (702) connects the rotating table plate (701) with the top plate (703), a driving part (8) is installed on the top plate (703), the driving part (8) is connected with the rotating rod (301), and when the rotating rod (301) rotates, the driving part (8) drives the top plate (703) to move.

5. A neutralization reaction device with reduced carbon dioxide emissions according to claim 4, characterized in that the drive member (8) comprises:

the driving gear (801) is mounted on the rotating rod (301), and the driving gear (801) and the rotating rod (301) are mounted coaxially;

the driven gear (802) is rotatably installed on the accommodating shell (1), the driven gear (802) is meshed with the driving gear (801), a driving rod (803) is eccentrically hinged to the driven gear (802), one end of the driving rod (803) is hinged to the driven gear (802), the other end of the driving rod (803) is hinged to the top plate (703), and the axis of the hinged point of the driving rod (803) and the top plate (703) is not collinear with the rotating axis of the top plate (703).

6. The neutralization reaction device with the function of reducing carbon dioxide emission according to claim 5, characterized in that the top plate (703) is slidably hinged with an insert (9), the insert (9) is installed on the periphery of the top plate (703), the driving rod (803) is hinged with the insert (9), the accommodating shell (1) is installed with a limiting plate (10) for accommodating the insert (9), and the limiting plate (10) forces the insert (9) to move only in a straight line.

7. The neutralization reaction apparatus with carbon dioxide emission reduction according to claim 2, wherein the stirring vanes (304) comprise a connecting portion (3041) and a rotating portion (3042), the connecting portion (3041) is connected with the sliding plate (303), the rotating portion (3042) is rotatably connected with the connecting portion (3041), and the surface area of the rotating portion (3042) is larger than that of the connecting portion (3041).

8. The neutralization reaction device with the function of reducing carbon dioxide emission according to claim 1, characterized in that the air inlet pipe (2) is mounted on the side wall of the containing shell (1), the air inlet pipe (2) has two ends, one end is in the horizontal direction, the other end is opened in the vertical downward direction, and one end of the air inlet pipe (2) in the vertical downward direction is positioned inside the containing shell (1).

9. The neutralization reaction device with the function of reducing the emission of carbon dioxide according to claim 8, characterized in that the end of the air inlet pipe (2) inside the containing shell (1) is provided with a filter plate (11), and the filter plate (11) is provided with filter holes for the carbon dioxide to pass through.

10. A neutralization reaction device with carbon dioxide emission reduction according to claim 7, characterized in that the sliding plate (303) and the connecting portion (3041) are both provided with threaded holes, and the connecting portion (3041) and the sliding plate (303) are connected by bolts.