CN116764343A

CN116764343A - Movable activated carbon adsorber

Info

Publication number: CN116764343A
Application number: CN202210194559.7A
Authority: CN
Inventors: 刘洋; 梁敏
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-03-01
Filing date: 2022-03-01
Publication date: 2023-09-19

Abstract

The invention relates to the technical field of activated carbon adsorbers, in particular to a movable activated carbon adsorbers, which comprises a shell mechanism, a shaking mechanism, an extrusion mechanism and a cleaning mechanism, wherein larger particles and impurities are primarily filtered through a filter screen, so that more particles and impurities are adsorbed on the outer surface of the filter screen, a hydraulic telescopic rod is started to move downwards to drive a rack to move downwards, further a first wire gauze is driven to shake, the first wire gauze drives the particles and impurities at the upper end of the filter screen to shake down, a wire rope is pulled to move leftwards in the downward movement process of the hydraulic telescopic rod, the wire rope is pulled to move leftwards to extrude a second wire gauze, the residual moisture in the sponge is extruded out through small holes formed in a fixing plate, the extruded moisture is discharged into the storage box, a motor is started to drive a rotating block to rotate, and the impurities and the particles are transferred into the storage box to be cleaned regularly.

Description

Movable activated carbon adsorber

Technical Field

The invention relates to the technical field of activated carbon adsorbers, in particular to a movable activated carbon adsorber.

Background

The active carbon is characterized by carbon as a main component, contains a small amount of elements such as oxygen, hydrogen, sulfur, nitrogen, chlorine and the like, is irregularly arranged in structure, has pores between cross connection, can generate carbon tissue defects during activation, has low bulk density and large specific surface area, has strong adsorption performance, and is an industrial adsorbent with extremely wide application.

The active carbon adsorber can cause the jam to active carbon in granule, impurity that exist in the gas after long-time use, contains more steam in the in-process air of using in addition, and active carbon is incomplete to the steam absorption, can discharge steam and pollutant in the atmosphere in this way and cause the pollution to the atmosphere.

Disclosure of Invention

Aiming at the defects of the prior art, the invention provides a movable activated carbon adsorber, which solves the technical problems that particles and impurities in gas can cause blockage to activated carbon after the activated carbon adsorber is used for a long time, and in addition, the air contains more water vapor in the using process, the activated carbon can not fully adsorb the water vapor, so that the water vapor and pollutants can be discharged into the atmosphere to pollute the atmosphere;

in order to achieve the above purpose, the present invention is realized by the following technical scheme:

the invention provides a movable activated carbon adsorber, which comprises:

the device comprises a shell mechanism, a shaking mechanism, an extrusion mechanism and a cleaning mechanism, wherein the shaking mechanism is arranged in the shell mechanism, one end of the shaking mechanism is provided with the extrusion mechanism, and the lower end of the extrusion mechanism is provided with the cleaning mechanism; carry out preliminary filtration through the filter screen to great granule, impurity, there is more granule like this, the impurity adsorbs the surface at the filter screen, start hydraulic telescoping rod downstream and drive rack downstream, rack downstream drives gear rotation, gear rotation drives first protruding piece and the protruding piece collision of second and produce the shake, and then drive first wire netting and produce the shake, first wire netting drives granule, impurity shake on the filter screen upper end, can pull wire rope to the left motion at hydraulic telescoping rod downstream's in-process, wire rope can pull the second wire netting to extrude the sponge to the left motion, the inside remaining moisture of sponge will be extruded like this, the inside of the aperture that is equipped with on the fixed plate is discharged to the receiver is passed through to the extruded moisture, start motor drive rotatory piece and rotate, rotatory piece rotates and drives impurity, the inside periodic cleaning that the granule shifted to the receiver.

Preferably, the shell mechanism comprises an air inlet, one end of the air inlet is fixedly connected with the shell, one end of the shell is fixedly connected with the air outlet, the lower end of the shell is provided with a storage box, and the lower end of the shell is provided with a pulley; firstly, air is introduced into the shell from the air inlet, and the activated carbon adsorber is convenient to move by arranging the pulley.

Preferably, the shaking mechanism comprises a telescopic barrel, a hydraulic telescopic rod is arranged in the telescopic barrel, the side wall of the hydraulic telescopic rod is fixedly connected with a rack, one end of the rack is tightly attached to a gear, the middle of the gear is fixedly connected with a first rotating shaft, one end of the first rotating shaft is rotationally connected with a shell, the side wall of the first rotating shaft is fixedly connected with a rotating block, the side wall of the rotating block is fixedly connected with a first protruding block, one end of the first protruding block is provided with a second protruding block, one end of the second protruding block is fixedly connected with a first wire gauze, one end of the first wire gauze is fixedly connected with the shell, one end of the first wire gauze is provided with a filter screen, and one end of the filter screen is fixedly connected with the shell; the hydraulic telescopic rod moves downwards to drive the rack to move downwards, the rack moves downwards to drive the gear to rotate, the gear rotates to drive the first rotating shaft to rotate, the first rotating shaft rotates to drive the rotating block to rotate, the rotating block rotates to drive the first protruding block to rotate, the first protruding block rotates to drive the second protruding block to shake, the second protruding block shakes to drive the first wire netting to shake, the first wire netting shakes to drive the filter screen to shake, and therefore particles and impurities attached to the surface of the filter screen are cleaned.

Preferably, the extrusion mechanism comprises a steel wire rope, one end of the steel wire rope is fixedly connected with the hydraulic telescopic rod, the side wall of the steel wire rope is tightly attached to the rotating pin, one end of the steel wire rope is fixedly connected with the second wire gauze, one end of the second wire gauze is in sliding connection with the shell, one end of the second wire gauze is tightly attached to the spring, one end of the second wire gauze is provided with a sponge, one end of the sponge is provided with a third wire gauze, one end of the third wire gauze is fixedly connected with the shell, the lower end of the sponge is provided with a fixing plate, one end of the fixing plate is fixedly connected with the shell, one end of the third wire gauze is provided with activated carbon, and one end of the activated carbon is fixedly connected with the shell; the in-process at hydraulic telescopic link downstream can drive wire rope downstream, and wire rope downstream drives second wire netting and slides left, and the second wire netting slides left and can extrude the sponge, and the steam in the sponge will fall to the receiver inside through the aperture on the fixed plate like this.

Preferably, the cleaning mechanism comprises a motor, one end of the motor is fixedly connected with the shell, one end of the motor is fixedly connected with the second rotating shaft, and the side wall of the second rotating shaft is fixedly connected with the rotating block; the motor rotates and drives the second rotating shaft to rotate, the second rotating shaft rotates and drives the rotating block to rotate, particles and impurities falling from the surface of the filter screen can fall into the groove of the rotating block, and the rotating block rotates to clean the particles and the impurities inside the storage box, so that the particles and the impurities are cleaned, and the particles and the impurities inside the storage box cannot fly everywhere when blown by the air blown in.

The invention has the beneficial effects that:

(1) According to the movable activated carbon adsorber disclosed by the invention, larger particles and impurities are primarily filtered through the filter screen, so that more particles and impurities are adsorbed on the outer surface of the filter screen, the hydraulic telescopic rod is started to move downwards to drive the rack to move downwards, and then the first wire gauze is driven to shake, and the first wire gauze drives the particles and impurities at the upper end of the filter screen to shake.

(2) According to the movable activated carbon adsorber disclosed by the invention, the steel wire rope is pulled to move leftwards in the downward movement process of the hydraulic telescopic rod, and the second wire gauze is pulled to extrude the sponge by the leftward movement of the steel wire rope, so that residual moisture in the sponge can be extruded, and the extruded moisture is discharged into the storage box through the small holes formed in the fixing plate.

(3) According to the movable activated carbon adsorber disclosed by the invention, the motor is started to drive the rotating block to rotate, particles and impurities falling from the surface of the filter screen can fall to the groove of the rotating block, and the particles and impurities can be cleaned to the inside of the storage box by the rotation of the rotating block, so that the particles and the impurities are cleaned, and the particles and the impurities in the storage box cannot fly everywhere by blown air.

Drawings

The invention will be further described with reference to the drawings and examples.

FIG. 1 is a schematic view of the overall structure provided by the present invention;

FIG. 2 is a cross-sectional view of the overall structure shown in FIG. 1;

FIG. 3 is an enlarged schematic view of portion A shown in FIG. 2;

FIG. 4 is a schematic view of the fixing plate structure shown in FIG. 2;

FIG. 5 is a schematic diagram illustrating a connection structure between the second shaft and the rotating block shown in FIG. 1;

fig. 6 is an enlarged schematic view of the portion B shown in fig. 2.

In the figure: 1. a housing mechanism; 11. an air inlet; 12. a housing; 13. an air outlet; 14. a storage box; 15. a pulley; 2. a dithering mechanism; 21. a telescopic barrel; 22. a hydraulic telescopic rod; 23. a rack; 24. a gear; 25. a first rotating shaft; 26. a rotating block; 27. a first bump block; 28. a second bump block; 29. a first wire netting; 210. a filter screen; 3. an extrusion mechanism; 31. a wire rope; 32. a rotation pin; 33. a second wire netting; 34. a sponge; 35. a spring; 36. a third wire netting; 37. a fixing plate; 38. activated carbon; 4. a cleaning mechanism; 41. a motor; 42. a second rotating shaft; 43. and rotating the block.

Detailed Description

For the purpose of making the objects, technical means and advantages of the embodiments of the present invention more clear, the technical solutions in the embodiments of the present invention will be clearly and completely described, and it is apparent that the described embodiments are some embodiments of the present invention, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

The embodiment of the invention solves the technical problems that particles and impurities in gas can cause blockage of active carbon after the active carbon adsorber is used for a long time, more water vapor is contained in the air in the using process, the active carbon can not completely adsorb the water vapor, and thus the water vapor and the pollutants can be discharged into the atmosphere to pollute the atmosphere;

the technical scheme in the embodiment of the invention aims to solve the technical problems, and the overall thought is as follows: through filter screen 210 to great granule, the preliminary filtration is carried out to the impurity, there is more granule like this, the impurity adsorbs at filter screen 210's surface, start hydraulic telescoping rod 22 downstream and drive rack 23 downstream, rack 23 downstream drives gear 24 rotation, gear 24 rotates and drives first boss 27 and the collision of second boss 28 and produce the shake, and then drive first wire netting 29 and produce the shake, first wire netting 29 drives granule, impurity shake of filter screen 210 upper end, can pull wire rope 31 left motion at hydraulic telescoping rod 22 downstream's in-process, wire rope 31 left motion can pull second wire netting 33 and extrude sponge 34, the inside remaining moisture of sponge 34 will be extruded like this, the inside of sponge is discharged to receiver 14 through the aperture that is equipped with on the fixed plate 37 to the moisture that extrudes, start motor 41 drives rotatory piece 43 rotation, rotatory piece 43 rotation drives impurity, the granule shifts the inside regular clearance of receiver 14.

In order to better understand the above technical solutions, the following detailed description will refer to the accompanying drawings and specific embodiments.

As shown in fig. 1 to 6, a mobile activated carbon adsorber according to the present invention comprises:

the device comprises a shell mechanism 1, a shaking mechanism 2, an extrusion mechanism 3 and a cleaning mechanism 4, wherein the shaking mechanism 2 is arranged in the shell mechanism 1, the extrusion mechanism 3 is arranged at one end of the shaking mechanism 2, and the cleaning mechanism 4 is arranged at the lower end of the extrusion mechanism 3; through filter screen 210 to great granule, the preliminary filtration is carried out to the impurity, there is more granule like this, the impurity adsorbs at filter screen 210's surface, start hydraulic telescoping rod 22 downstream and drive rack 23 downstream, rack 23 downstream drives gear 24 rotation, gear 24 rotates and drives first boss 27 and the collision of second boss 28 and produce the shake, and then drive first wire netting 29 and produce the shake, first wire netting 29 drives granule, impurity shake of filter screen 210 upper end, can pull wire rope 31 left motion at hydraulic telescoping rod 22 downstream's in-process, wire rope 31 left motion can pull second wire netting 33 and extrude sponge 34, the inside remaining moisture of sponge 34 will be extruded like this, the inside of sponge is discharged to receiver 14 through the aperture that is equipped with on the fixed plate 37 to the moisture that extrudes, start motor 41 drives rotatory piece 43 rotation, rotatory piece 43 rotation drives impurity, the granule shifts the inside regular clearance of receiver 14.

As an embodiment of the present invention, as shown in fig. 1 and 2, the housing mechanism 1 includes an air inlet 11, one end of the air inlet 11 is fixedly connected with a housing 12, one end of the housing 12 is fixedly connected with an air outlet 13, a storage box 14 is arranged at the lower end of the housing 12, and a pulley 15 is arranged at the lower end of the housing 12; air is first introduced into the housing 12 from the air inlet 11 and the activated carbon adsorber is moved by the pulley 15.

As an embodiment of the present invention, as shown in fig. 2 and 3, the shaking mechanism 2 includes a telescopic barrel 21, a hydraulic telescopic rod 22 is disposed in the telescopic barrel 21, a side wall of the hydraulic telescopic rod 22 is fixedly connected with a rack 23, one end of the rack 23 is tightly attached to a gear 24, a middle of the gear 24 is fixedly connected with a first rotating shaft 25, one end of the first rotating shaft 25 is rotatably connected with the housing 12, a side wall of the first rotating shaft 25 is fixedly connected with a rotating block 26, a side wall of the rotating block 26 is fixedly connected with a first protruding block 27, one end of the first protruding block 27 is provided with a second protruding block 28, one end of the second protruding block 28 is fixedly connected with a first wire mesh 29, one end of the first wire mesh 29 is fixedly connected with the housing 12, one end of the first wire mesh 29 is provided with a filter screen 210, and one end of the filter screen 210 is fixedly connected with the housing 12; the hydraulic telescopic rod 21 moves downwards to drive the rack 23 to move downwards, the rack 23 moves downwards to drive the gear 24 to rotate, the gear 24 rotates to drive the first rotating shaft 25 to rotate, the first rotating shaft 25 rotates to drive the rotating block 26 to rotate, the rotating block 26 rotates to drive the first protruding block 27 to rotate, the first protruding block 27 rotates to drive the second protruding block 28 to shake, the second protruding block 28 shakes to drive the first wire netting 29 to shake, the first wire netting 29 shakes to drive the filter screen 210 to shake, and particles and impurities attached to the surface of the filter screen 210 are cleaned.

As an embodiment of the present invention, as shown in fig. 2, 3 and 4, the extruding mechanism 3 includes a steel wire rope 31, one end of the steel wire rope 31 is fixedly connected with the hydraulic telescopic rod 22, the side wall of the steel wire rope 31 is tightly attached to the rotating pin 32, one end of the steel wire rope 31 is fixedly connected with the second wire gauze 33, one end of the second wire gauze 33 is slidably connected with the housing 12, one end of the second wire gauze 33 is tightly attached to the spring 35, one end of the second wire gauze 33 is provided with a sponge 34, one end of the sponge 34 is provided with a third wire gauze 36, one end of the third wire gauze 36 is fixedly connected with the housing 12, the lower end of the sponge 34 is provided with a fixing plate 37, one end of the fixing plate 37 is fixedly connected with the housing 12, one end of the third wire gauze 36 is provided with activated carbon 38, and one end of the activated carbon 38 is fixedly connected with the housing 12; the steel wire rope 31 can be driven to move downwards in the process of moving the hydraulic telescopic rod 22 downwards, the steel wire rope 31 moves downwards to drive the second wire netting 33 to slide leftwards, the second wire netting 33 slides leftwards to squeeze the sponge 34, and therefore water vapor in the sponge 34 can fall into the storage box 14 through the small holes in the fixing plate 37.

As an embodiment of the present invention, as shown in fig. 5 and 6, the cleaning mechanism 4 includes a motor 41, one end of the motor 41 is fixedly connected to the housing 12, one end of the motor 41 is fixedly connected to a second rotating shaft 42, and a side wall of the second rotating shaft 42 is fixedly connected to a rotating block 43; the motor 41 rotates to drive the second rotating shaft 42 to rotate, the second rotating shaft 42 rotates to drive the rotating block 43 to rotate, particles and impurities falling from the surface of the filter screen 210 can fall to the groove of the rotating block 43, and the rotating block 43 rotates to clean the particles and impurities inside the storage box 14, so that the particles and the impurities are cleaned, and the particles and the impurities inside the storage box cannot fly everywhere when blown by the blown air.

When the air filter is used, firstly, air is introduced into the shell 12 from the air inlet 11, the activated carbon adsorber is convenient to move by arranging the pulley 15, the hydraulic telescopic rod 21 is started, the hydraulic telescopic rod 21 moves downwards to drive the rack 23 to move downwards, the rack 23 moves downwards to drive the gear 24 to rotate, the gear 24 rotates to drive the first rotating shaft 25 to rotate, the first rotating shaft 25 rotates to drive the rotating block 26 to rotate, the rotating block 26 rotates to drive the first protruding block 27 to rotate, the first protruding block 27 rotates to drive the second protruding block 28 to shake, the second protruding block 28 shakes to drive the first wire netting 29 to shake, the first wire netting 29 shakes to drive the filter screen 210 to shake, particles and impurities attached to the surface of the filter screen 210 are cleaned, the sponge 34 is set to further adsorb residual water vapor in the air, the downward movement of the hydraulic telescopic rod 22 drives the steel wire rope 31 to move downwards, the second wire netting 33 slides leftwards, the sponge 34 is extruded, the water vapor in the sponge 34 falls into the inner part of the motor 14 through the small holes on the fixing plate 37, the second wire netting 33 rotates to blow the second wire netting 33 to rotate to the inner part of the filter screen 43, and the particles and the impurities are blown into the inner part of the filter screen 43, and the filter screen 43 can be rotated to be cleaned, and the particles and the impurities can be blown into the inner part of the filter screen 43 can be rotated to rotate, and the filter screen 43 can be rotated and the inner around the surface of the filter screen 43 can be rotated.

The foregoing has shown and described the basic principles, principal features and advantages of the invention. It will be understood by those skilled in the art that the present invention is not limited to the foregoing examples, and that the foregoing description and description are merely illustrative of the principles of this invention, and various changes and modifications may be made without departing from the spirit and scope of the invention, which is defined in the appended claims. The scope of the invention is defined by the appended claims and equivalents thereof.

Claims

1. A movable activated carbon adsorber, which is characterized in that; the device comprises a shell mechanism (1), a shaking mechanism (2), an extrusion mechanism (3) and a cleaning mechanism (4), wherein the shaking mechanism (2) is arranged in the shell mechanism (1), the extrusion mechanism (3) is arranged at one end of the shaking mechanism (2), and the cleaning mechanism (4) is arranged at the lower end of the extrusion mechanism (3);

the shell mechanism (1) comprises an air inlet (11), one end of the air inlet (11) is fixedly connected with a shell (12), one end of the shell (12) is fixedly connected with an air outlet (13), the lower end of the shell (12) is provided with a storage box (14), and the lower end of the shell (12) is provided with a pulley (15).

2. A mobile activated carbon adsorber as in claim 1 wherein; the shaking mechanism (2) comprises a telescopic barrel (21), and a hydraulic telescopic rod (22) is arranged inside the telescopic barrel (21).

3. A mobile activated carbon adsorber as in claim 2 wherein; the shaking mechanism (2) further comprises a rack (23), the side wall of the hydraulic telescopic rod (22) is fixedly connected with the rack (23), one end of the rack (23) is tightly attached to a gear (24), the middle of the gear (24) is fixedly connected with a first rotating shaft (25), and one end of the first rotating shaft (25) is rotatably connected with the shell (12).

4. A mobile activated carbon adsorber as in claim 3, wherein; the shaking mechanism (2) further comprises a rotating block (26), the side wall of the first rotating shaft (25) is fixedly connected with the rotating block (26), and the side wall of the rotating block (26) is fixedly connected with the first protruding block (27).

5. The mobile activated carbon adsorber of claim 4 wherein; the shake mechanism (2) still includes second protruding piece (28), first protruding piece (27) one end is equipped with second protruding piece (28), second protruding piece (28) one end and first wire netting (29) fixed connection, first wire netting (29) one end and shell (12) fixed connection, first wire netting (29) one end is equipped with filter screen (210), filter screen (210) one end and shell (12) fixed connection.

6. The mobile activated carbon adsorber of claim 5 wherein; the extrusion mechanism (3) comprises a steel wire rope (31), one end of the steel wire rope (31) is fixedly connected with a hydraulic telescopic rod (22), the side wall of the steel wire rope (31) is tightly attached to a rotating pin (32), one end of the steel wire rope (31) is fixedly connected with a second wire netting (33), one end of the second wire netting (33) is slidably connected with the shell (12), and one end of the second wire netting (33) is tightly attached to a spring (35).

7. The mobile activated carbon adsorber of claim 6 wherein; the extrusion mechanism (3) further comprises a sponge (34), one end of the second wire gauze (33) is provided with the sponge (34), one end of the sponge (34) is provided with a third wire gauze (36), and one end of the third wire gauze (36) is fixedly connected with the shell (12).

8. The mobile activated carbon adsorber of claim 7 wherein; the extrusion mechanism (3) further comprises a fixing plate (37), the lower end of the sponge (34) is provided with the fixing plate (37), one end of the fixing plate (37) is fixedly connected with the shell (12), one end of the third wire gauze (36) is provided with activated carbon (38), and one end of the activated carbon (38) is fixedly connected with the shell (12).

9. The mobile activated carbon adsorber of claim 8 wherein: the cleaning mechanism (4) comprises a motor (41), and one end of the motor (41) is fixedly connected with the shell (12).

10. A mobile activated carbon adsorber as in claim 9 wherein; the cleaning mechanism (4) further comprises a second rotating shaft (42), one end of the motor (41) is fixedly connected with the second rotating shaft (42), and the side wall of the second rotating shaft (42) is fixedly connected with the rotating block (43).