CN214680844U - Carbon dioxide trapping device - Google Patents
Carbon dioxide trapping device Download PDFInfo
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- CN214680844U CN214680844U CN202120304784.2U CN202120304784U CN214680844U CN 214680844 U CN214680844 U CN 214680844U CN 202120304784 U CN202120304784 U CN 202120304784U CN 214680844 U CN214680844 U CN 214680844U
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- carbon dioxide
- air inlet
- supply pipe
- entrapment
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Abstract
The utility model discloses a carbon dioxide entrapment device, including entrapment screen panel body and dust separation filter screen, screen panel installation slot has been seted up on the right side of entrapment screen panel body, and screen panel installation slot's internal connection has an installation fixture block, the mouth of pipe is installed on the right side of installation fixture block, and the mouth of pipe right side is connected with flexible pipe intake pipe, the gas outlet has been seted up to the top of cyclone body, and the top of gas outlet is connected with the secondary air supply pipe, the end-to-end connection of secondary air supply pipe has the gas holder, the surface of cyclone body is provided with the separator support, and the below of cyclone body is provided with and connects the sediment basin, the dust separation filter screen sets up in the inside of entrapment screen panel body. The carbon dioxide capturing device is provided with the cyclone separator body, so that solid particle impurities contained in captured carbon dioxide gas can be separated, and the purity of captured carbon dioxide is improved.
Description
Technical Field
The utility model relates to a carbon dioxide entrapment device technical field specifically is a carbon dioxide entrapment device.
Background
Carbon dioxide, a carbon oxide, is a colorless and tasteless or colorless and odorless gas at normal temperature and pressure, and the aqueous solution of the carbon dioxide is slightly sour, is also a common greenhouse gas, is one of components of air, has a melting point of-56.6 ℃, a boiling point of-78.5 ℃ and a density higher than that of air (under standard conditions) in terms of physical properties, is soluble in water, is chemically inert and has high thermal stability, cannot be combusted and usually cannot be combusted, belongs to an acidic oxide, has the general property of the acidic oxide, and is carbonic acid anhydride because carbonic acid is generated by reaction with water.
The existing carbon dioxide collecting device contains trace impurities in carbon dioxide generated by reaction of substances or carbon dioxide in air, and pure carbon dioxide is generally required to be collected for collecting the carbon dioxide, so that in the collecting process of the device, the impurities are generally important to be filtered, and meanwhile, the problem that the collecting range of the collecting device has certain limitation exists, the using requirements of people cannot be well met, and technical innovation is performed on the basis of the existing carbon dioxide collecting device according to the situation.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide a carbon dioxide entrapment device to it all contains micro-impurity to put forward current carbon dioxide entrapment device among the solution above-mentioned background art to exist no matter the carbon dioxide in the air or the carbon dioxide that the material reaction produced, and need collect pure carbon dioxide usually to the collection of carbon dioxide, consequently in the device collection process, it is more important usually to the filtration of impurity, the problem that the collection scope that has collection device simultaneously has certain limitation, the user demand problem of satisfying people that can not be fine.
In order to achieve the above object, the utility model provides a following technical scheme: a carbon dioxide capturing device comprises a capturing screen cover body and a dust-separation filter screen, wherein a screen cover mounting clamping groove is formed in the right side of the capturing screen cover body, a mounting clamping block is connected inside the screen cover mounting clamping groove, a connecting pipe orifice is mounted on the right side of the mounting clamping block, a telescopic pipe air inlet pipe is connected to the right side of the connecting pipe orifice, an air pump is connected to the right side of the telescopic pipe air inlet pipe, a primary air supply pipe is connected to the right side of the air pump, a separator air inlet is connected to the right side of the primary air supply pipe, a cyclone separator body is arranged on the right side of the separator air inlet, a gas outlet is formed above the cyclone separator body, a secondary air supply pipe is connected above the gas outlet, a gas storage tank is connected to the tail end of the secondary air supply pipe, a separator support is arranged on the surface of the cyclone separator body, and a slag receiving basin is arranged below the cyclone separator body, the dust-proof filter screen is arranged in the collecting mesh enclosure body, and the V-shaped supporting clamp is arranged below the telescopic pipe air inlet pipe.
Preferably, the catching net cover body forms a clamping structure with the connecting pipe orifice through the net cover mounting clamping groove and the mounting clamping block, and the net cover mounting clamping grooves are uniformly distributed along the periphery of the catching net cover body.
Preferably, the air inlet pipe of the telescopic pipe is communicated with the cyclone separator body through an air pump, a primary air supply pipe and a separator air inlet, and the air inlet pipe of the telescopic pipe is in threaded connection with the air pump.
Preferably, the cyclone separator body forms a communication structure with the gas storage tank through the gas outlet and the secondary gas supply pipe, and the gas outlet is tightly attached to the secondary gas supply pipe.
Preferably, the slag receiving basin is perpendicular to the cyclone separator body, and the slag receiving basin is of an internal hollow structure.
Preferably, be threaded connection between dust separation filter screen and the entrapment screen panel body, and the dust separation filter screen sets up to fretwork network structure.
Preferably, the V-shaped supporting clamp support and the air inlet pipe of the telescopic pipe are mutually attached, and the V-shaped supporting clamp support and the air inlet pipe of the telescopic pipe are movably connected.
Compared with the prior art, the beneficial effects of the utility model are as follows:
1. the net cover mounting clamping groove and the mounting clamping block are arranged, so that the catching net cover body and the connecting pipe orifice can be conveniently connected, the area of the connecting pipe orifice can be increased, the air inlet catching efficiency is improved, the catching net cover body can be conveniently detached and cleaned, the air inlet pipe with the telescopic pipe can be extended and bent, the length of the connecting pipe orifice can be extended, the catching range of the catching device is increased, and the primary air supply pipe is used for conveying the caught air;
2. the cyclone separator body is arranged to separate solid particle impurities contained in the captured carbon dioxide gas, so that the purity of the captured carbon dioxide is improved, and the slag receiving basin is arranged to collect the solid particle impurities separated by the cyclone separator body conveniently, so that the impurities are prevented from polluting the environment;
3. be provided with the solid impurity that the dust separation filter screen can contain in the gas to initial entrapment and carry out preliminary filtration, prevent that impurity from entering into the inside of air pump, cause the influence to the use of air pump, it can carry out certain support to flexible pipe intake pipe fixed to be provided with V type support clamp, prevents that flexible pipe intake pipe body is softer, influences the entrapment direction of entrapment screen panel body.
Drawings
FIG. 1 is a schematic view of the structure of the present invention;
fig. 2 is a left side view structural diagram of the catching net cover body of the present invention;
fig. 3 is a schematic view of the slag receiving basin of the present invention.
In the figure: 1. a catching net cover body; 2. a dust-proof filter screen; 3. a clamping groove is formed in the net cover; 4. mounting a clamping block; 5. connecting the pipe orifices; 6. an air inlet pipe of the extension pipe; 7. an air pump; 8. a primary air supply pipe; 9. a separator gas inlet; 10. a cyclone body; 11. a gas outlet; 12. a secondary air supply pipe; 13. a gas storage tank; 14. a separator holder; 15. a slag receiving basin; 16. the V-shaped supporting clamp is supported.
Detailed Description
The technical solutions in the embodiments of the present invention will be described clearly and completely with reference to the accompanying drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.
Referring to fig. 1-3, the present invention provides a technical solution: a carbon dioxide capturing device comprises a capturing screen cover body 1 and a dust-proof filter screen 2, wherein a screen cover mounting clamping groove 3 is formed in the right side of the capturing screen cover body 1, a mounting clamping block 4 is connected inside the screen cover mounting clamping groove 3, a connecting pipe opening 5 is formed in the right side of the mounting clamping block 4, a telescopic pipe air inlet pipe 6 is connected to the right side of the connecting pipe opening 5, an air pump 7 is connected to the right side of the telescopic pipe air inlet pipe 6, a primary air supply pipe 8 is connected to the right side of the air pump 7, a separator air inlet 9 is connected to the right side of the primary air supply pipe 8, a cyclone separator body 10 is arranged on the right side of the separator air inlet 9, an air outlet 11 is formed above the cyclone separator body 10, a secondary air supply pipe 12 is connected above the air outlet 11, an air storage tank 13 is connected to the tail end of the secondary air supply pipe 12, and a separator support 14 is arranged on the surface of the cyclone separator body 10, and a slag receiving basin 15 is arranged below the cyclone separator body 10, the dust-proof filter screen 2 is arranged inside the collecting mesh enclosure body 1, and a V-shaped supporting clamp 16 is arranged below the telescopic pipe air inlet pipe 6.
The utility model discloses in: the catching net cover body 1 forms a clamping structure with the connecting pipe orifice 5 through the net cover mounting clamping grooves 3 and the mounting clamping blocks 4, and the net cover mounting clamping grooves 3 are uniformly distributed along the periphery of the catching net cover body 1; be provided with screen panel installation draw-in groove 3 and installation fixture block 4 and be convenient for connect entrapment screen panel body 1 and mouth of pipe 5, and then can increase mouth of pipe 5's area, promote the efficiency of the entrapment of admitting air, be convenient for dismantle the clearance to entrapment screen panel body 1 simultaneously.
The utility model discloses in: the telescopic pipe air inlet pipe 6 forms a communicating structure with the cyclone separator body 10 through an air pump 7, a primary air supply pipe 8 and a separator air inlet 9, and the telescopic pipe air inlet pipe 6 is in threaded connection with the air pump 7; the air inlet pipe 6 with the telescopic pipe can be extended and bent, so that the length of the connecting pipe opening 5 can be extended, the collecting range of the collecting device is increased, and the collected gas is conveyed through the primary air supply pipe 8.
The utility model discloses in: the cyclone separator body 10 forms a communication structure with the gas storage tank 13 through the gas outlet 11 and the secondary gas supply pipe 12, and the gas outlet 11 is tightly attached to the secondary gas supply pipe 12; the cyclone body 10 is provided to separate solid particle impurities contained in the captured carbon dioxide gas, thereby improving the purity of the captured carbon dioxide.
The utility model discloses in: the slag receiving basin 15 is vertical to the cyclone separator body 10, and the slag receiving basin 15 is of a hollow structure; the slag receiving basin 15 is arranged to collect solid particle impurities separated by the cyclone separator body 10 conveniently, so that the impurities are prevented from polluting the environment.
The utility model discloses in: the dust-proof filter screen 2 is in threaded connection with the catching mesh enclosure body 1, and the dust-proof filter screen 2 is in a hollow mesh structure; the dust-proof filter screen 2 is arranged to preliminarily filter solid impurities contained in the initially trapped gas, so that the impurities are prevented from entering the air pump 7 to influence the use of the air pump 7.
The utility model discloses in: the V-shaped supporting clamp holder 16 is attached to the air inlet pipe 6 of the extension pipe, and the V-shaped supporting clamp holder 16 is movably connected with the air inlet pipe 6 of the extension pipe; the V-shaped supporting clamp 16 is arranged to support and fix the telescopic pipe air inlet pipe 6 to a certain extent, so that the pipe body of the telescopic pipe air inlet pipe 6 is prevented from being softer, and the collecting direction of the collecting net cover body 1 is prevented from being influenced.
The working principle of the carbon dioxide trapping device is as follows: firstly, connecting a collecting mesh enclosure body 1 with a connecting pipe orifice 5, clamping a mounting clamping block 4 on the surface of the connecting pipe orifice 5 in a mesh enclosure mounting clamping groove 3 on the surface of the collecting mesh enclosure body 1, secondly, aligning the collecting mesh enclosure body 1 to a collecting position, starting an air pump 7, enabling the air pump 7 to filter partial particle impurities of outside air through a dust-proof filter screen 2 in the collecting mesh enclosure body 1, entering the air pump 7 through a telescopic pipe air inlet pipe 6 connected with the connecting pipe orifice 5, then conveying the air to a primary air supply pipe 8 through the air pump 7, connecting the primary air supply pipe 8 with a cyclone separator body 10 through a separator air inlet 9, further enabling the air to reach the inside of the cyclone separator body 10, further secondarily separating solid particles in the air through the cyclone separator body 10, and enabling the separated solid particles to fall into a slag receiving basin 15 below the cyclone separator body 10 under the action of gravity, the separated pure gas reaches a secondary gas supply pipe 12 through a gas outlet 11 above the cyclone separator body 10, and then is conveyed to the inside of a gas storage tank 13 by the secondary gas supply pipe 12 for storage, a separator bracket 14 stably supports the cyclone separator body 10, and a V-shaped support clamp 16 supports the telescopic pipe gas inlet pipe 6.
Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.
Claims (7)
1. The utility model provides a carbon dioxide entrapment device, includes entrapment screen panel body (1) and dust separation filter screen (2), its characterized in that: the right side of the collecting mesh enclosure body (1) is provided with mesh enclosure mounting clamping grooves (3), the inner part of the mesh enclosure mounting clamping grooves (3) is connected with mounting clamping blocks (4), the right side of the mounting clamping blocks (4) is provided with connecting pipe orifices (5), the right side of the connecting pipe orifices (5) is connected with telescopic pipe air inlet pipes (6), the right side of the telescopic pipe air inlet pipes (6) is connected with an air pump (7), the right side of the air pump (7) is connected with a primary air supply pipe (8), the right side of the primary air supply pipe (8) is connected with a separator air inlet (9), the right side of the separator air inlet (9) is provided with a cyclone separator body (10), a gas outlet (11) is formed above the cyclone separator body (10), a secondary air supply pipe (12) is connected above the gas outlet (11), and the tail end of the secondary air supply pipe (12) is connected with a gas storage tank (13), the surface of cyclone body (10) is provided with separator support (14), and the below of cyclone body (10) is provided with and connects slag pan (15), dust separation filter screen (2) set up in the inside of entrapment screen panel body (1), V type support clamp holds in the palm (16) is installed to the below of flexible pipe intake pipe (6).
2. A carbon dioxide capture device according to claim 1, wherein: the catching net cover body (1) is provided with a clamping structure through a net cover mounting clamping groove (3), a mounting clamping block (4) and a connecting pipe orifice (5), and the net cover mounting clamping grooves (3) are uniformly distributed around the catching net cover body (1).
3. A carbon dioxide capture device according to claim 1, wherein: the air inlet pipe (6) of the telescopic pipe is communicated with the cyclone separator body (10) through an air pump (7), a primary air supply pipe (8) and a separator air inlet (9), and the air inlet pipe (6) of the telescopic pipe is in threaded connection with the air pump (7).
4. A carbon dioxide capture device according to claim 1, wherein: the cyclone separator body (10) forms a communication structure with the gas storage tank (13) through the gas outlet (11) and the secondary gas supply pipe (12), and the gas outlet (11) is tightly attached to the secondary gas supply pipe (12).
5. A carbon dioxide capture device according to claim 1, wherein: the slag receiving basin (15) is perpendicular to the cyclone separator body (10), and the slag receiving basin (15) is of an internal hollow structure.
6. A carbon dioxide capture device according to claim 1, wherein: the dust-proof filter screen (2) is in threaded connection with the collecting screen body (1), and the dust-proof filter screen (2) is of a hollow mesh structure.
7. A carbon dioxide capture device according to claim 1, wherein: the V-shaped supporting clamp holder (16) is attached to the air inlet pipe (6) of the telescopic pipe, and the V-shaped supporting clamp holder (16) is movably connected with the air inlet pipe (6) of the telescopic pipe.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120304784.2U CN214680844U (en) | 2021-02-03 | 2021-02-03 | Carbon dioxide trapping device |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN202120304784.2U CN214680844U (en) | 2021-02-03 | 2021-02-03 | Carbon dioxide trapping device |
Publications (1)
Publication Number | Publication Date |
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CN214680844U true CN214680844U (en) | 2021-11-12 |
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Family Applications (1)
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CN202120304784.2U Active CN214680844U (en) | 2021-02-03 | 2021-02-03 | Carbon dioxide trapping device |
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2021
- 2021-02-03 CN CN202120304784.2U patent/CN214680844U/en active Active
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