CN218188843U - Carbon dioxide separator among mist - Google Patents

Abstract

The utility model discloses a carbon dioxide separation device in mixed gas, which comprises a cyclone separator, a separation membrane component and a collecting box, wherein the cyclone separator is provided with an air inlet pipeline and an air outlet pipeline, a filter screen is arranged at the joint of the air inlet pipeline and the cyclone separator, a cleaning mechanism is arranged on the opposite side of the filter screen and penetrates through the side wall of the cyclone separator, the separation membrane component comprises a separation membrane body, a compression plate I and a compression plate II which are communicated with the pipeline, and the compression plate I and the compression plate II are connected through a connecting piece; the separation device also comprises a flushing mechanism positioned above the cyclone separator and an interference gas filtering mechanism positioned between the cyclone separator and the separation membrane assembly. The utility model discloses have and treat that separation gas carries out pretreatment and prevent that the large granule solid that wherein contains, tiny particle solid and liquid pollution from blockking up the technological effect of separation membrane in order to improve separation efficiency and can separate the gas that pollutes more seriously.

Description

Carbon dioxide separator among mist

Technical Field

The utility model relates to a carbon dioxide entrapment device technical field, concretely relates to carbon dioxide separator among mist.

Background

Carbon dioxide is an indispensable carbon source in plant photosynthesis, the plant photosynthesis can be hindered due to the deficiency of the carbon dioxide, the quality and the yield of crops are influenced, but the greenhouse effect caused by random emission of waste gas containing the carbon dioxide is increasingly aggravated, and serious burden is brought to the environment.

For example, in the utility model patent application document with publication number CN204365110U, a carbon dioxide capturing device is provided, which comprises a filter, a carbon dioxide separation membrane assembly and the like, and the device can separate carbon dioxide in the atmosphere through the carbon dioxide separation membrane assembly and then collect the carbon dioxide, and has the technical effects of simple structure, portability, low carbon and environmental protection, and can capture carbon dioxide in the atmosphere without time and space limitation, but only directly filter the atmosphere through the carbon dioxide separation membrane in the filter in the device, and a small amount of liquid and solid particles in the atmosphere and waste gas easily block the carbon dioxide separation membrane, and especially when separating gas with serious pollution, the phenomenon that the carbon dioxide separation membrane is blocked so as to not separate gas is more easily generated, so the separation device in the prior art has the problems of poor separation effect, low separation efficiency, difficulty in separating gas with serious pollution due to pretreatment such as not filtering the gas to be separated.

SUMMERY OF THE UTILITY MODEL

For solving the problem that proposes in the above-mentioned background art at least, the utility model provides a carbon dioxide separator among mist can solve that separation effect is poor, separation efficiency is low, treat that the gas that separates and carry out pretreatment such as filtration, be difficult to the problem of the more serious gas of separation pollution, has to treat that the gas that separates carries out pretreatment and prevents that the large granule solid that contains wherein, granule solid and liquid pollution from blockking up the separation membrane to improve separation efficiency, and can separate the technological effect of the more serious gas of pollution.

In order to achieve the above purpose, the utility model discloses a following technical scheme realizes:

the utility model provides a carbon dioxide separator in mixed gas, including cyclone, separation membrane subassembly and collecting box, cyclone, separation membrane subassembly and collecting box communicate through the pipeline in proper order, last admission line and the pipeline of giving vent to anger of being provided with of cyclone, the junction of admission line and cyclone is provided with the filter screen, the filter screen offside and run through the cyclone lateral wall is provided with cleans the mechanism, the separation membrane subassembly includes the separation membrane body, with the compacting plate I and the compacting plate II of pipeline intercommunication;

the separation device also comprises a flushing mechanism positioned above the cyclone separator and an interference gas filtering mechanism positioned between the cyclone separator and the separation membrane assembly.

The pressing plate I is provided with a positioning rod, and the pressing plate II is provided with a positioning hole corresponding to the positioning rod.

And a solid particle containing box is arranged between the air inlet pipeline and the filter screen and below the air inlet pipeline, and the solid particle containing box is communicated with the air inlet pipeline.

The cleaning mechanism comprises a rotating plate fixing plate which is embedded on the side wall of the cyclone separator, a rotating plate is arranged on the rotating plate fixing plate, a hollow tube with a curved hollow part is fixedly arranged on the rotating plate, a telescopic rod with a limiting rod is placed in the hollow tube, a sleeve is sleeved on the limiting rod, the limiting rod penetrates through the curved hollow part, a turntable is mounted at one end, far away from the side wall of the cyclone separator, of the telescopic rod, and a brush head is mounted on the turntable.

The flushing mechanism is a shower-shaped nozzle penetrating through the pipeline.

The interference gas filtering mechanism comprises an interference gas collecting box arranged outside the pipeline, an interference gas through hole is formed between the interference gas collecting box and the pipeline, an opening is formed above the interference gas through hole, and an interference gas membrane placing assembly is tightly placed in a cavity formed by the opening and the interference gas through hole.

The interference gas film placing assembly comprises a magnetic ring I and a magnetic ring II, wherein hollow parts are arranged between the magnetic ring I and the magnetic ring II, an annular groove is formed in the magnetic ring I, and an annular bulge corresponding to the position of the annular groove is formed in the magnetic ring II.

The separating device also comprises a booster pump connected with the air inlet pipeline of the cyclone separator.

The separator also comprises a flowmeter positioned between the booster pump and the cyclone separator.

The utility model provides a technical scheme, through setting up cyclone, can subside the liquid and the tiny particle solid of the gas of waiting to separate, only make gas flow out from cyclone's gas outlet pipe, through setting up the filter screen, can carry out primary filtration with the large granule solid among the gas of waiting to separate that lets in from the admission line, prevent that large granule solid from getting into cyclone, through setting up interference gas filtering mechanism, can filter the gas that waits to collect among the gas of waiting to separate that discharges from cyclone's gas outlet pipe, improve the concentration of the gas of waiting to collect among the gas that gets into separation membrane module department, above-mentioned setting all has and carries out the preliminary treatment with the gas of waiting to separate, with the technological effect of the separation efficiency who improves separator; through setting up and cleaning the mechanism, can need not to open separator at the gas separation in-process, can automize and clean the filter screen, prevent that the filter screen from taking place the phenomenon of jam, have the technological effect that improves the work efficiency when treating the separation gas coarse filtration.

Drawings

FIG. 1 is a simplified diagram of a device for separating carbon dioxide from a mixed gas according to the present invention;

FIG. 2 is a partially enlarged view of an embodiment of the apparatus for separating carbon dioxide from a mixed gas according to the present invention;

FIG. 3 is a partial enlarged view of an embodiment of the apparatus for separating carbon dioxide from a mixed gas according to the present invention;

FIG. 4 is a partial enlarged view of an embodiment of the apparatus for separating carbon dioxide from a mixed gas according to the present invention;

in the figure: 1-cyclone separator, 2-collection box, 3-pipeline, 4-gas inlet pipeline, 5-gas outlet pipeline, 6-filter screen, 7-cleaning mechanism, 8-pressing plate I, 9-pressing plate II, 10-positioning rod, 11-positioning hole, 20-solid particle holding box, 21-shower-shaped spray head, 71-rotating plate fixing plate, 72-rotating plate, 73-hollow tube, 74-curved hollow, 75-limiting rod, 76-telescopic rod, 77-rotating disc, 78-brush head, 30-interference gas collection box, 31-interference gas through hole, 32-opening, 33-magnetic ring I, 34-magnetic ring II, 35-hollow, 36-annular groove and 37-annular protrusion.

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, the present application provides a carbon dioxide separation apparatus in a mixed gas, including a cyclone separator 1, a separation membrane assembly and a collection box 2, the cyclone separator 1, the separation membrane assembly and the collection box 2 are sequentially communicated through a pipeline 3, the cyclone separator 1 is provided with an air inlet pipeline 4 and an air outlet pipeline 5, a filter screen 6 is arranged at a connection position of the air inlet pipeline 4 and the cyclone separator 1, a cleaning mechanism 7 is arranged at an opposite side of the filter screen 6 and penetrates through a side wall of the cyclone separator 1, and the separation membrane assembly includes a separation membrane body, a pressure plate i 8 and a pressure plate ii 9 which are communicated with the pipeline;

the separating apparatus further comprises a flushing mechanism located above the cyclone 1 and an interfering gas filtering mechanism located between the cyclone 1 and the separating membrane module.

In this device, the mesh diameter of filter screen 6 is less, and primary filter effect is better more, can separate the more serious gas of pollution, cleans 7 electricity connection external motors of mechanism, can be at the separator during operation, regularly clean filter screen 6, and do not influence the normal work of filter screen 6 and cyclone 1.

The utility model provides a technical scheme, through setting up cyclone 1, can subside the liquid and the tiny particle solid of the gas of waiting to separate, only make gaseous discharge from cyclone 1's gas outlet pipe 5, through setting up filter screen 6, can carry out the primary filtration with the large particle solid in the gas of waiting to separate who lets in from admission line 4, prevent that the large particle solid from getting into cyclone 1, through setting up interference gas filtering mechanism, can filter the gas of waiting to collect in the gas of waiting to separate that discharges from cyclone 1's gas outlet pipe 5, improve the concentration of the gas of waiting to collect in the gas that gets into separation membrane module department, above-mentioned setting all has and carries out the preliminary treatment with the gas of waiting to separate to improve separator's separation efficiency's technological effect; through setting up and cleaning mechanism 7, can need not to open separator at the gas separation in-process, can automize and clean filter screen 6, prevent that filter screen 6 from taking place the phenomenon of jam, have the technological effect that improves the work efficiency when treating separation gas coarse filtration.

The pressing plate I8 is provided with a positioning rod 10, and the pressing plate II 9 is provided with a positioning hole 11 corresponding to the positioning rod 10. In this setting, pressure strip I8 intercommunication cyclone 1's pipeline 5 of giving vent to anger, pressure strip II 9 passes through pipeline 3 intercommunication collecting box 2. The optimal arrangement of the positioning rod 10 is as follows: four locating levers 10 set up around pressure strip I8, and the best mode of setting of locating hole 11 does: four locating holes 11 set up around pressure strip II 9, and every locating lever 10 inserts in locating hole 11, and the part of wearing out carries out the shutoff with the shutoff head to fix the unidirectional separation membrane between pressure strip I8 and pressure strip II 9, this setting has the technical effect that sets up simply and can easily change the separation membrane.

Between above-mentioned inlet line 4 and filter screen 6 and be located the below of inlet line 4 and install solid particle and hold case 20, solid particle holds case 20 and inlet line 4 intercommunication. Solid particle holds case 20 and is arranged in holding the unable large granule solid that passes through the filter screen, and the large granule solid can't fall into solid particle and holds case 20 through filter screen 6, can prevent the accumulation shutoff admission line 4 of large granule solid, and solid particle holds the case 20 bottom and can open, after gas separation device work, opens solid particle and holds case 20, emptys out solid particle, has the technological effect that improves the primary filter efficiency of filter screen 6.

Referring to fig. 2, the cleaning mechanism 7 includes a rotating plate fixing plate 71 embedded on the sidewall of the cyclone separator 1, a rotating plate 72 is disposed on the rotating plate fixing plate 71, a hollow tube 73 with a curved hollow 74 is fixedly mounted on the rotating plate 72, an expansion rod 76 with a limiting rod 75 is disposed in the hollow tube 73, a sleeve is sleeved on the limiting rod 75, the limiting rod 75 penetrates through the curved hollow 74, a rotating disc 77 is mounted at one end of the expansion rod 76 away from the sidewall of the cyclone separator 1, and a brush head 78 is mounted on the rotating disc 77. In this setting rotating plate fixed plate 71 is arranged in cyclone 1 lateral wall that has certain thickness, with do not occupy the inside space of cyclone 1 as far as possible, bent shape fretwork 74 extends to another port from the rotation of a port of hollow tube 73, rotating plate 72 and carousel 77 are by different motor control, can realize when needs clean filter screen 6, clean mechanism 7 and be close to filter screen 6 and clear up filter screen 6, when need not clear up filter screen 6, clean the shrink of mechanism 7 on cyclone 1 lateral wall, this setting has automatic clearance filter screen 6, with the primary filter effect that improves filter screen 6 and can automated control filter screen 6 and the technological effect of cleaning the distance between the mechanism 7.

The flushing mechanism is a shower-shaped nozzle 21 which penetrates through the pipeline 3. Shower head shape shower nozzle 21 can wash out cyclone 1's under the condition of the external water pipe of switch-on inner wall under the non-operating condition, and the rivers after cleaning discharge through the detachable material receiving box of cyclone 1 bottom, have the inside of cleaning cyclone 1 with the technological effect that improves cyclone 1's separation efficiency.

Referring to fig. 3 and 4, the interference gas filtering mechanism includes an interference gas collecting box 30 disposed outside the duct 3, an interference gas through hole 31 disposed between the interference gas collecting box 30 and the duct 3, an opening 32 disposed above the interference gas through hole 31, and an interference gas film placing member tightly placed in a cavity formed by the opening 32 and the interference gas through hole 31. In the device, the interference gas is discharged from the interference gas filtering mechanism, so that the concentration of the gas to be separated in the gas entering the separation membrane module is improved, and the separation efficiency of the separation device is improved.

The interference gas film placing assembly comprises a magnetic ring I33 and a magnetic ring II 34, wherein hollow parts 35 are arranged between the magnetic ring I33 and the magnetic ring II 34, an annular groove 36 is formed in the magnetic ring I33, and an annular bulge 37 corresponding to the annular groove 36 is arranged on the magnetic ring II 34. In the device, the magnetic ring I33 and the magnetic ring II 34 are used for fixing the interference gas separation membrane, the interference gas separation membrane is also a one-way membrane, and a user can independently select the interference gas separation membrane arranged in the magnetic ring I33 and the magnetic ring II 34 so as to improve the technical effect of the applicability of the separation device.

The separator also comprises a booster pump, and the booster pump is connected with the air inlet pipeline 4 of the cyclone separator 1. The booster pump can improve the fluidity of the gas to be separated under the action of electrification, so that the gas flows into the cyclone separator 1 as soon as possible, and the separation efficiency of the separation device is improved.

The above separation apparatus further comprises a flow meter located between the booster pump and the cyclone 1. The flowmeter is a glass rotameter and is used for detecting the flow of gas flowing out of the booster pump, when the flow is too large, the excessive gas easily causes the poor separation effect of the filter screen 6, the cyclone separator 1 and the separation membrane, at the moment, the power of the booster pump needs to be reduced, the excessive gas is prevented from flowing into the cyclone separator 1, on the contrary, when the flow is too large, the separation efficiency is low, at the moment, the power of the booster pump needs to be increased, more gas flows into the cyclone separator 1, and therefore the flowmeter has the advantages of monitoring the flow of gas sucked by the separation device and improving the separation effect.

The utility model discloses a specific embodiment does: when gas to be separated is separated, a carbon dioxide separation one-way membrane is placed into a compression plate I8 and a compression plate II 9, a positioning rod 10 is inserted into a positioning hole 11, the penetrated part is blocked by a blocking head so that pipelines 3 of the separation device are communicated with each other, interference gas (non-gas to be collected) with high content in the gas to be separated is determined, the interference gas separation one-way membrane corresponding to the interference gas is placed between a magnetic ring I33 and a magnetic ring II 34 and is fixed and sealed by an annular groove 36 and an annular bulge 37, an interference gas membrane placing component is tightly inserted into a cavity formed by an opening 32 and an interference gas through hole 31, at the moment, the cyclone separator 1, the separation membrane component and a collecting box 2 are kept in a communicated state through the pipelines 3, and an air inlet pipeline 4 of the cyclone separator 1 is communicated with the gas to be separated, gas to be separated enters the cyclone separator 1 through a booster pump arranged in the gas inlet pipeline 4, after a separating device performs separating work for a period of time, a motor for controlling the rotating plate 72 is started, the rotating plate 72 rotates to drive a hollow pipe 73 fixedly connected with the rotating plate to rotate, a limiting rod 75 arranged in the hollow pipe 73 moves in a curved hollow 74 to drive the telescopic rod 76 to be far away from the hollow pipe 73, a brush head 78 on the telescopic rod 76 is close to the filter screen 6, a motor for controlling the rotation of the rotary disc 77 is started to rotate the rotary disc 77 to drive the brush head 78 to rotate so as to clean the filter screen 6, after the cleaning is finished, the motor for controlling the rotation of the rotary disc 77 is stopped, the motor for controlling the rotating plate 72 to start the rotating plate 72 to rotate reversely, the limiting rod 75 reversely moves in the curved hollow 74 to drive the telescopic rod 76 to return to the hollow pipe 73, and after the gas separating work is finished, a material receiving box of the cyclone separator 1 is detached, utilize gondola water faucet shape shower nozzle 21 to wash cyclone 1, open the bottom that solid particle held case 20, pour out the large granule solid.

And those not described in detail in this specification are well within the skill of the art.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus 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, method, article, or apparatus.

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 (9)

1. The utility model provides a carbon dioxide separator in mist, includes cyclone, separation membrane module and collecting box, cyclone, separation membrane module and collecting box communicate its characterized in that through the pipeline in proper order:

the cyclone separator is provided with an air inlet pipeline and an air outlet pipeline, a filter screen is arranged at the joint of the air inlet pipeline and the cyclone separator, a cleaning mechanism is arranged on the opposite side of the filter screen and penetrates through the side wall of the cyclone separator, the separation membrane assembly comprises a separation membrane body, and a compression plate I and a compression plate II which are communicated with the pipeline, and the compression plate I and the compression plate II are connected through a connecting piece;

the separation device also comprises a flushing mechanism positioned above the cyclone separator and an interference gas filtering mechanism positioned between the cyclone separator and the separation membrane component.

2. The apparatus for separating carbon dioxide from a mixed gas according to claim 1, wherein: the connecting piece is including setting up the locating lever on pressure strip I and setting up on pressure strip II with the locating hole that the locating lever position corresponds.

3. The apparatus for separating carbon dioxide from a mixed gas according to claim 1, wherein: and a solid particle containing box is arranged between the air inlet pipeline and the filter screen and below the air inlet pipeline, and the solid particle containing box is communicated with the air inlet pipeline.

4. The apparatus for separating carbon dioxide from a mixed gas according to claim 1, wherein: the cleaning mechanism comprises a rotating plate fixing plate which is embedded on the side wall of the cyclone separator, a rotating plate is arranged on the rotating plate fixing plate, a hollow tube with a curved hollow part is fixedly mounted on the rotating plate, a telescopic rod with a limiting rod is placed in the hollow tube, a sleeve is sleeved on the limiting rod, the limiting rod penetrates through the curved hollow part, a turntable is mounted at one end, far away from the side wall of the cyclone separator, of the telescopic rod, and a brush head is mounted on the turntable.

5. The apparatus for separating carbon dioxide from a mixed gas according to claim 1, wherein: the flushing mechanism is a shower-shaped nozzle penetrating through the pipeline.

6. The apparatus for separating carbon dioxide from a mixed gas according to claim 1, wherein: the interference gas filtering mechanism comprises an interference gas collecting box arranged outside the pipeline, an interference gas through hole is formed between the interference gas collecting box and the pipeline, an opening is formed above the interference gas through hole, and an interference gas membrane placing assembly is tightly placed in a cavity formed by the opening and the interference gas through hole.

7. The apparatus for separating carbon dioxide from a mixed gas according to claim 6, wherein: the interference gas membrane placing assembly comprises a magnetic ring I and a magnetic ring II, wherein hollow parts are arranged between the magnetic ring I and the magnetic ring II, an annular groove is formed in the magnetic ring I, and an annular bulge corresponding to the annular groove is formed in the magnetic ring II.

8. The apparatus for separating carbon dioxide from a mixed gas according to claim 1, wherein: the separating device also comprises a booster pump connected with the air inlet pipeline of the cyclone separator.

9. The apparatus for separating carbon dioxide from a mixed gas according to claim 8, wherein: the separation device also comprises a flow meter positioned between the booster pump and the cyclone separator.

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