CN217367796U - Seawater type carbon capture and sealing device - Google Patents

Abstract

The utility model discloses a sea water formula carbon entrapment seals up and deposits device belongs to the environmental protection technology field. The device comprises a carbon capture tank and a plurality of washing tanks, wherein an air inlet pipe is arranged on one side wall of the carbon capture tank close to the bottom, an air guide pipe is arranged at the top, a discharge valve is arranged at the bottom, and a filtering structure is arranged in the carbon capture tank; the filtration is including the pivot, the filter screen, the clearance subassembly, a plurality of filtering component and the subassembly of bleeding, the clearance unit mount is in the pivot, and be located the top of filter screen, and including an at least striking pole, an at least striking pole rotates when the pivot rotates and can extrude or break away from the filter screen, this application is through being provided with the clearance subassembly, make the continuous upper surface of strikeing the filter screen of striking pole, and then make the filter screen produce the vibration of certain range, so that the drop that can be smooth of the granular impurity of filter screen lower surface adhesion, cause the jam to the filter screen after avoiding its a large amount of aggregations, influence the normal treatment effeciency of waste gas.

Description

Seawater type carbon capture and sealing device

Technical Field

The utility model relates to the field of electronic technology, in particular to sea water formula carbon entrapment seals up deposits device.

Background

The carbon capture and sequestration refers to a technology of collecting carbon dioxide generated by a large-scale power plant and storing the carbon dioxide by various methods to avoid the carbon dioxide from being discharged into the atmosphere, at present, due to the influence of human activities, the global greenhouse effect is more and more serious, the control and prevention of the carbon dioxide in the air becomes one of the key concerns of people to the environmental protection industry, and the carbon capture and sequestration technology is the most economical and feasible method for reducing the greenhouse gas emission in a large scale and slowing down the global warming in the future.

Through retrieval, the utility model with publication number CN215311183U discloses a seawater type carbon capture and sealing device, which sequentially filters the waste gas to remove larger floating objects and impurities in the gas, so that the carbon capture treatment effect in the subsequent gas is better, and the subsequent seawater can conveniently wash the gas containing carbon dioxide; above-mentioned sealing up and depositing the device and after leading-in carbon entrapment jar is inside with waste gas, separate smoke and dust or other granular impurity that contain in to waste gas through the filter screen, but along with the increase of live time, the lower surface of filter screen can be stained with the granular impurity of certain thickness, and then probably leads to the fact the jam to the mesh of filter screen, influences the filter separation effect of filter screen to granular impurity in the waste gas, and then has reduced the availability factor of carbon entrapment jar.

SUMMERY OF THE UTILITY MODEL

The utility model mainly aims at providing a sea water formula carbon entrapment seals up deposits device aims at solving the clearance problem that makes things convenient for the filter screen.

In order to achieve the purpose, the seawater type carbon capture and sealing device provided by the utility model comprises a carbon capture tank, wherein an air inlet pipe is arranged on one side wall of the carbon capture tank close to the bottom, an air guide pipe is arranged at the top, a discharge valve is arranged at the bottom, and a filtering structure is arranged in the carbon capture tank; the filtering structure comprises a rotating shaft, a filtering screen, a cleaning assembly, a plurality of filtering assemblies and an air exhaust assembly, the lower end of the rotating shaft is rotatably arranged on the bottom wall of the carbon trapping tank, and the filtering screen is sleeved on the rotating shaft and can vibrate up and down along the rotating shaft; the cleaning assembly is arranged on the rotating shaft, is positioned above the filter screen and comprises at least one knocking rod, and the at least one knocking rod rotates when the rotating shaft rotates to extrude or separate from the filter screen; the filtering components are fixedly sleeved on the rotating shaft respectively, are arranged up and down and are positioned above the cleaning component; the air pumping assembly is arranged on the rotating shaft, is close to the top of the rotating shaft and is used for pumping the gas; and

and the washing tanks are sequentially connected in series and are communicated with the gas guide pipe after being connected in series, and the washing tanks are used for washing the gas led in by the carbon capture tank and then discharging the gas.

Optionally, install two at least elastic components on the lateral wall of carbon capture jar, the upper portion of two at least elastic components supports the filter screen, and can the filter screen receive at least one strikes elastic deformation when beating the pole extrusion, at least one strikes the pole and breaks away from elasticity is replied when the filter screen promotes the filter screen removes.

Optionally, the cleaning assembly further includes a closed box, a first bevel gear and at least one second bevel gear, the closed box is fixed on the rotating shaft, and the first bevel gear is fixedly sleeved on the rotating shaft and can rotate along with the rotating shaft; the second bevel gear is rotatably arranged on the side wall of the closed box, and the at least one knocking rod is arranged on a rotating shaft of the at least one second bevel gear and is positioned on the outer side of the closed box.

Optionally, the number of the at least one second bevel gear is two, the number of the at least one knocking rod is two, the two second bevel gears are respectively installed in the closed box, the rotating shafts respectively extend out of the closed box, and the two knocking rods are respectively connected with the rotating shafts of the two second bevel gears.

Optionally, the filter screen is clamped between the at least two elastic members and the closed box.

Optionally, each filter assembly comprises a rotary table, a first gear, a second gear and a plurality of fan blades, wherein the rotary table is sleeved on the rotating shaft and is positioned outside the first gear; the first gear is fixedly sleeved on the rotating shaft, and the second gear is respectively meshed with the first gear and the inner wall of the rotating disc; the fan blades are respectively arranged on the outer wall of the rotary disc.

Optionally, the plurality of fan blades are distributed equidistantly and distributed in a circumferential array with the rotating shaft as the center.

Optionally, the upper and lower surfaces of each fan blade are respectively provided with a plurality of breathable meshes, and an accommodating groove capable of accommodating activated carbon is formed inside the fan blade.

Optionally, the plurality of filter assemblies are distributed on the rotating shaft at equal intervals.

Optionally, the air inlet pipe is located below the filter screen, and the filter screen is perpendicular to the rotating shaft.

Compared with the prior art, the utility model discloses following beneficial effect has:

the technical proposal of the utility model is that the carbon collecting tank and a plurality of washing tanks are arranged, one side wall of the carbon collecting tank is provided with an air inlet pipe near the bottom, the top is provided with an air duct, the bottom is provided with a discharge valve, and the inside is provided with a filtering structure; the filtering structure comprises a rotating shaft, a filtering screen, a cleaning assembly, a plurality of filtering assemblies and an air exhaust assembly, the lower end of the rotating shaft is rotatably arranged on the bottom wall of the carbon trapping tank, and the filtering screen is sleeved on the rotating shaft and can vibrate up and down along the rotating shaft; the cleaning assembly is arranged on the rotating shaft, is positioned above the filter screen and comprises at least one knocking rod, and the at least one knocking rod rotates when the rotating shaft rotates to extrude or separate from the filter screen; the filtering components are fixedly sleeved on the rotating shaft respectively, are arranged up and down and are positioned above the cleaning component; the subassembly of bleeding is installed in the pivot, and be close to the pivot top is used for taking out gas, a plurality of washing jars concatenate in proper order to concatenate the back and air duct intercommunication, be used for washing the leading-in gas of carbon entrapment jar back and discharge, this application is through being provided with the clearance subassembly, makes the continuous upper surface of beating the filter screen of strikeing of beating the pole, and then makes the filter screen produce the vibration of certain range, so that the drop that the graininess impurity of filter screen lower surface adhesion can be smooth, avoids causing the jam to the filter screen after its a large amount of gathers, influences the normal treatment effeciency of waste gas.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the structures shown in the drawings without creative efforts.

Fig. 1 is a perspective assembly view of an embodiment of the seawater type carbon capture and sequestration apparatus of the present invention;

FIG. 2 is a perspective view of a portion of the carbon capture tank shown in FIG. 1;

FIG. 3 is a perspective view of a portion of the cleaning assembly shown in FIG. 2;

fig. 4 is a perspective view of the turntable, first gear and second gear of the filter assembly of fig. 2.

The reference numbers illustrate:

the objects, features and advantages of the present invention will be further described with reference to the accompanying drawings.

Detailed Description

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs; the terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention; the terms "including" and "having," and any variations thereof, in the description and claims of this invention and the description of the above figures are intended to cover non-exclusive inclusions; the terms "first," "second," and the like in the description and in the claims, or in the drawings, are used for distinguishing between different objects and not necessarily for describing a particular sequential or chronological order.

Reference herein to "an embodiment" means that a particular feature, structure, or characteristic described in connection with the embodiment can be included in at least one embodiment of the invention. The appearances of the phrase in various places in the specification are not necessarily all referring to the same embodiment, nor are separate or alternative embodiments mutually exclusive of other embodiments. It is explicitly and implicitly understood by one skilled in the art that the embodiments described herein can be combined with other embodiments.

In an embodiment of the utility model, a sea water formula carbon capture seals up deposits device is provided, sea water formula carbon capture seals up deposits device and includes:

the carbon capture device comprises a carbon capture tank, wherein an air inlet pipe is arranged on one side wall of the carbon capture tank close to the bottom, an air guide pipe is arranged at the top, a discharge valve is arranged at the bottom, and a filtering structure is arranged in the carbon capture tank; the filtering structure comprises a rotating shaft, a filtering screen, a cleaning assembly, a plurality of filtering assemblies and an air exhaust assembly, the lower end of the rotating shaft is rotatably arranged on the bottom wall of the carbon trapping tank, and the filtering screen is sleeved on the rotating shaft and can vibrate up and down along the rotating shaft; the cleaning assembly is arranged on the rotating shaft, is positioned above the filter screen and comprises at least one knocking rod, and the at least one knocking rod rotates when the rotating shaft rotates to extrude or separate from the filter screen; the filtering components are fixedly sleeved on the rotating shaft respectively, are arranged up and down and are positioned above the cleaning component; the air pumping assembly is arranged on the rotating shaft, is close to the top of the rotating shaft and is used for pumping the gas; and

and the washing tanks are sequentially connected in series and are communicated with the gas guide pipe after being connected in series, and the washing tanks are used for washing the gas led in by the carbon capture tank and then discharging the gas.

The utility model discloses a be provided with the clearance subassembly for strike the continuous upper surface that strikes the filter screen of pole, and then make the filter screen produce the vibration of certain range, so that the graininess impurity of filter screen lower surface adhesion can be smooth drop, cause the jam to the filter screen after avoiding its a large amount of aggregations, influence the normal treatment effeciency of waste gas.

In order to make the technical field person understand the scheme of the present invention better, the following will combine the drawings in the embodiments of the present invention to clearly and completely describe the technical scheme in the embodiments of the present invention.

Referring to fig. 1 to 4, the present invention provides a seawater type carbon capture and storage device, which comprises a carbon capture tank 10 and a plurality of washing tanks 80,

particularly, in an embodiment of the present invention, the carbon capture tank 10 is large in the middle, and has a tank body with a necking in the upper and lower ends, a side wall of the carbon capture tank 10 is provided with an air inlet pipe 11 communicating with the inside of the carbon capture tank 10 near the bottom for leading in external waste gas in the carbon capture tank 10, the top is provided with an air duct 12 for discharging the gas after being processed, the bottom is provided with a discharge valve 13, the inside is provided with a filter structure 20, in order to control the discharge of sundries in the carbon capture tank 10, the discharge valve 13 is arranged on the outside of the carbon capture tank 10 for controlling the opening and closing of the carbon capture tank 10.

In addition, a plurality of supporting legs 14 are provided at the bottom of the carbon capture tank 10, and the supporting legs 14 are used for supporting the carbon capture tank 10.

The utility model discloses an in an embodiment, filtration 20 is including pivot 21, filter screen 22, clearance subassembly 23, a plurality of filter assembly 24 and air exhaust subassembly 25, pivot 21 lower extreme is rotationally installed on the diapire of carbon entrapment jar 10, the upper end is the free end, can understand ground to be, the lower extreme of pivot 21 is passed through common mode, rotates like the bearing to be fixed on the bottom of carbon entrapment jar 10 to be provided with drive division such as motor, no longer describe here.

Filter screen 22 cover is established in the pivot 21, and can along pivot 21 shakes from top to bottom, specifically, filter screen 22's center is located on the center pin of pivot 21, filter screen 22 is arranged in filtering waste gas particulate matter, filter screen 22 can be relative pivot 21 vibrations can shake like this and drop the particulate matter shake on filter screen 22, thereby prevents the particulate matter jam filter screen 22 has improved filterable effect and filter screen 22's life. In addition, in order to sufficiently filter the exhaust gas, the intake pipe 11 for introducing the exhaust gas is located below the filter 22, so that the exhaust gas can be filtered by the filter 22 after being introduced into the carbon capture tank 10.

The cleaning assembly 23 is mounted on the rotating shaft 21, is located above the filter screen 22, and includes at least one knocking rod 231, and the at least one knocking rod 231 rotates when the rotating shaft 21 rotates so as to be capable of squeezing or separating from the filter screen 22; the filtering components 24 are respectively fixedly sleeved on the rotating shaft 21, are arranged up and down and are positioned above the cleaning component 23; the air pumping assembly 25 is installed on the rotating shaft 21 and close to the top of the rotating shaft 21, and is used for pumping the gas, and specifically, the air pumping assembly 25 is composed of a plurality of air pumping blades.

In the embodiment of the present invention, in order to make the filter screen 22 vibrate up and down, at least two elastic members 221 are installed on the sidewall of the carbon capture tank 10, the upper portions of the two elastic members 221 support the filter screen 22, and the filter screen 22 is elastically deformed when being pressed by the at least one knocking rod 231, so that the at least one knocking rod 231 is separated from the filter screen 22 and the filter screen 22 is elastically restored to move. The number of the at least two elastic members 221 may be plural, the plural elastic members 221 are equidistantly distributed on the sidewall of the carbon capture tank 10, and a rubber body is disposed at an end of each knocking rod 231.

Referring to fig. 1-4, in an embodiment of the present invention, the cleaning assembly 23 further includes a closed box 232, a first bevel gear 233 and at least one second bevel gear 234, the closed box 232 is fixed on the rotating shaft 21, the filter screen 22 is clamped between the at least two elastic members 221 and the closed box 23, and the first bevel gear 233 is fixedly sleeved on the rotating shaft 21 and can rotate along with the rotating shaft 21; the second bevel gear 234 is rotatably installed on a side wall of the closed box 232, and the at least one tapping rod 231 is installed on a rotation axis 2341 of the at least one second bevel gear 234 and is located outside the closed box 232.

Further, two second bevel gears 234 are provided, two knocking levers 231 are provided, the two second bevel gears 234 are respectively installed on the closed box 232, and the rotating shafts respectively extend out of the closed box 232, and the two knocking levers 231 are respectively connected with the rotating shafts 2341 of the two second bevel gears 234.

In an embodiment of the present invention, each filtering assembly 24 includes a rotating disc 241, a first gear 242, a second gear 243, and a plurality of fan blades 244, the rotating disc 241 is sleeved on the rotating shaft 21 and is located outside the first gear 242; the first gear 242 is fixedly sleeved on the rotating shaft 21, the second gear 243 is respectively meshed with the first gear 242 and the inner wall of the rotating disc 241, in the embodiment, the tooth ratio of the first gear 242 to the second gear 243 to the inner wall of the rotating disc 241 is 2:1:4, so that the rotating speeds of the rotating disc 241 and the first gear 242 are different; the fan blades 244 are respectively disposed on the outer wall of the rotating plate 241. Preferably, the plurality of blades 244 of each filter assembly 24 are equidistantly distributed and are circumferentially arrayed around the rotating shaft 21, and the plurality of filter assemblies 24 are equidistantly distributed on the rotating shaft 21.

More specifically, a plurality of air-permeable meshes are respectively arranged on the upper surface and the lower surface of each fan blade 244, and an accommodating groove capable of accommodating activated carbon is arranged inside the fan blade 244, so that the gas filtered by the filter screen 22 passes through the activated carbon in the fan blades 244 of the filter assemblies 24 to adsorb toxic substances in the exhaust gas, thereby realizing multiple filtration.

Referring to fig. 1-4, the washing tanks 80 are connected in series in sequence, and are connected in series and then communicated with the gas guide tube 12 for washing and discharging the gas introduced by the carbon capture tank 10, a device for cleaning the waste gas is disposed inside each washing tank 80, the cleaning device is a common structure, such as a sprayer, the sprayer is controlled by a spray valve, the sprayer is communicated with an external water pump, and the seawater is used for cleaning the waste gas entering the washing tank 80 by supplying water from the external water pump, so as to facilitate subsequent sealing and storage of the treated gas.

During the use, start the drive division drive pivot 21 rotates, pivot 21 rotates and drives a plurality of filter assemblies 24 and the subassembly 25 of bleeding rotate, intake pipe 11 and the leading-in mechanism through connection of outside waste gas, with waste gas to carbon entrapment jar 10 inside, the subassembly 25 of bleeding rotates and forms the negative pressure with waste gas to the top of carbon entrapment jar 10 is inhaled, and waste gas passes through like this filter screen 22 carries out primary filtration, filter screen 22 filters the particulate matter interception in the waste gas, and the gas after primary filtration upwards moves, via the active carbon in a plurality of filter assemblies 24 carries out secondary filtration again, adsorbs the harmful substance in the waste gas, then via air duct 12 discharges inside washing jar 80, through opening belt cleaning device this moment for outside sea water washs the inside waste gas of washing jar 80 to obtain more pure waste gas, the subsequent sealing and storing operation is convenient,

further, the rotation shaft 21 rotates to drive the first bevel gear 233 of the cleaning assembly 23 to rotate, the first bevel gear 233 rotates to drive the two second bevel gears 234 to rotate, the two second bevel gears 234 rotate to respectively drive the corresponding knocking rods 231 to continuously rotate, so that the rubber body at the end of the knocking rod 231 continuously knocks the upper surface of the filter screen 22, the filter screen 22 extrudes the elastic member 221 to elastically deform, after the knocking rod 231 rotates and separates from the filter screen 22, the elastic member 221 elastically returns to push the filter screen 22 to move upwards, the knocking rod 231 repeatedly extrudes and separates from the filter screen, so that the filter screen 22 generates vibration with a certain amplitude, the vibration effect of the filter screen 22 is improved, granular impurities adhered to the lower surface of the filter screen 22 can smoothly drop, and the phenomenon that the filter screen 22 is blocked after a large amount of impurities are gathered is avoided, thereby affecting the normal treatment efficiency of waste gas,

in addition, the rotation shaft 21 rotates to drive the first gear 242 of each filter assembly 12 to rotate, the first gear 422 rotates to drive the second gear 234 to rotate, and the second gear 243 drives the rotating disc 241 to rotate, so that the rotating disc 241 and the rotation shaft 21 keep different rotating speeds, further, the rotating disc 241 drives the fan blades 244 to rotate reversely relative to the rotation shaft 21, and the contact efficiency of the activated carbon inside the fan blades 244 and the waste gas passing through the carbon capture tank 10 is improved, thereby improving the filtering and purifying efficiency of the activated carbon to the waste gas.

The above only is the preferred embodiment of the present invention, not limiting the scope of the present invention, all the equivalent structure changes made by the contents of the specification and the drawings under the inventive concept of the present invention, or the direct/indirect application in other related technical fields are included in the patent protection scope of the present invention.

Claims (10)

1. A seawater-type carbon capture sequestration apparatus, comprising:

the carbon capture tank is provided with an air inlet pipe close to the bottom on one side wall, an air guide pipe is arranged at the top, a discharge valve is arranged at the bottom, and a filtering structure is arranged inside the carbon capture tank; the filtering structure comprises a rotating shaft, a filtering screen, a cleaning assembly, a plurality of filtering assemblies and an air exhaust assembly, the lower end of the rotating shaft is rotatably arranged on the bottom wall of the carbon trapping tank, and the filtering screen is sleeved on the rotating shaft and can vibrate up and down along the rotating shaft; the cleaning assembly is arranged on the rotating shaft, is positioned above the filter screen and comprises at least one knocking rod, and the at least one knocking rod rotates when the rotating shaft rotates to extrude or separate from the filter screen; the filtering components are fixedly sleeved on the rotating shaft respectively, are arranged up and down and are positioned above the cleaning component; the air pumping assembly is arranged on the rotating shaft, is close to the top of the rotating shaft and is used for pumping the gas; and

and the washing tanks are sequentially connected in series and are communicated with the gas guide pipe after being connected in series, and the washing tanks are used for washing the gas led in by the carbon capture tank and then discharging the gas.

2. The seawater type carbon capture and storage device of claim 1, wherein at least two elastic members are installed on the side wall of the carbon capture tank, the upper parts of the at least two elastic members support the filter screen and can elastically deform when the filter screen is pressed by the at least one knocking rod, and the at least one knocking rod elastically returns to push the filter screen to move when being separated from the filter screen.

3. The seawater type carbon capture and sequestration device according to claim 2, wherein the cleaning assembly further comprises a closed box, a first bevel gear and at least one second bevel gear, the closed box is fixed on the rotating shaft, and the first bevel gear is sleeved on the rotating shaft and can rotate along with the rotating shaft; the second bevel gear is rotatably arranged on the side wall of the closed box, and the at least one knocking rod is arranged on a rotating shaft of the at least one second bevel gear and is positioned on the outer side of the closed box.

4. The seawater type carbon capture and sequestration device according to claim 3, wherein there are two second bevel gears, there are two knocking rods, the two second bevel gears are respectively mounted on the closed box, and the rotating shafts respectively extend out of the closed box, and the two knocking rods are respectively connected with the rotating shafts of the two second bevel gears.

5. The seawater type carbon capture and storage device of claim 3, wherein the filter screen is clamped between the at least two elastic members and the closed box.

6. The seawater type carbon capture and sequestration device according to claim 1, wherein each filtering component comprises a rotary disc, a first gear, a second gear and a plurality of fan blades, wherein the rotary disc is sleeved on the rotating shaft and is positioned outside the first gear; the first gear is fixedly sleeved on the rotating shaft, and the second gear is respectively meshed with the first gear and the inner wall of the rotary table; the fan blades are respectively arranged on the outer wall of the rotary disc.

7. The seawater type carbon capture and sequestration apparatus according to claim 6, wherein the plurality of blades of each filtering assembly are distributed equidistantly and are distributed in a circumferential array around the rotation axis.

8. The seawater type carbon capture and sequestration device according to claim 6 or 7, wherein each fan blade is provided with a plurality of air permeable meshes on the upper and lower surfaces thereof, and is internally provided with a holding tank for placing activated carbon.

9. The seawater type carbon capture and sequestration device of claim 8, wherein the plurality of filtering components are distributed on the rotating shaft at equal intervals.

10. The seawater type carbon capture and sequestration device according to claim 8, wherein the air intake pipe is located below the filter screen, and the filter screen is perpendicular to the rotating shaft.

Images