CN118059624B - Cyclone wet dust collector - Google Patents

Abstract

The invention belongs to the technical field of cyclone wet dust collectors, in particular to a cyclone wet dust collector, which comprises a machine body and further comprises: an air inlet arranged on the machine body; an air outlet arranged at the upper end of the machine body; an atomizer installed at the air inlet; the fan blades are rotatably arranged in the machine body; a plurality of round blocks rotatably installed in the machine body; a plurality of rotary blades arranged on the round block; a first nozzle installed in the body; a water outlet arranged at the bottom of the machine body; through setting up a plurality of whirl leaves, when air current and whirl leaf contact, can promote the whirl leaf rotatory for the incessant alternation and the air current contact of whirl leaf, even the dust granule on one of them whirl leaf is not in time erodeed away, and gas can contact with next clean whirl leaf, has improved the dust removal effect of device.

Description

Cyclone wet dust collector

Technical Field

The invention belongs to the field of cyclone wet dust collectors, and particularly relates to a cyclone wet dust collector.

Background

Waste gas generated by coal-fired power plants, boilers and the like has certain dust, certain humidity and viscosity, and the gas contains harmful substances such as granular dust, acid mist, PM2.5 and the like, so that a wet dust collector is required to treat the dust-containing gas, wherein the cyclone wet dust collector has the characteristics of simple structure and low manufacturing cost, and therefore, the application of the cyclone wet dust collector is wider.

One patent application with publication number CN105148676B discloses a wet cyclone dust collector, which comprises a box body, wherein a cyclone dust collector and a demister are arranged in the box body, a water inlet device is connected to the cyclone dust collector, a sewage discharging device is arranged in the box body, an air inlet is arranged in the cyclone dust collector, and an air outlet is arranged in the box body; the waste gas enters the cyclone dust collector from the air inlet, the waste gas is fully contacted with water entering from the water inlet device, particles in the waste gas are adhered in the water, clean gas is discharged from the air outlet after passing through the demisting device, and waste water containing the particles flows into the sewage disposal device.

For places with smaller sites and heavier dust, such as mining sites, the device of the scheme cannot be too high due to the height limitation, dust particles on the inner wall of a machine body cannot be washed clean by water discharged by the water discharging device in time, dust-containing gas still contains part of dust when discharged from the device, and the dust removal rate of the device is not high.

To this end, the present invention provides a cyclone wet scrubber.

Disclosure of Invention

In order to overcome the deficiencies of the prior art, at least one technical problem presented in the background art is solved.

The technical scheme adopted for solving the technical problems is as follows: the invention relates to a cyclone wet dust collector, which comprises a machine body and further comprises: an air inlet and an air outlet which are arranged on the machine body; the atomizer is arranged at the air inlet and is used for spraying mist, and dust-containing gas contacts with the mist to form dust-containing mist drops; the fan blade is rotatably arranged in the machine body, and the air flow in the machine body forms upward rotational flow after the fan blade rotates; a plurality of round blocks rotatably installed in the machine body; a plurality of rotary blades arranged on the round block, and dust-containing mist drops impact and are attached to the rotary blades; the first nozzle is arranged in the machine body, and water flow sprayed out of the first nozzle is used for cleaning the rotary vane; a water outlet arranged at the bottom of the machine body, and sewage containing dust flows out from the water outlet.

Preferably, the method further comprises: the round rod is fixedly arranged on the machine body, penetrates through the round block, and is provided with a plurality of second nozzles; a bubbler mounted on the body; the pipeline is fixedly arranged on the machine body, the pipeline is communicated with the round rod and the second nozzle, and the second nozzle sprays foam onto the rotary vane; a plurality of first round holes are formed in the rotary vane.

Preferably, the round blocks are distributed in a circular array in the machine body, the rotary blades on the round blocks are not contacted, and the rotary blades are arc-shaped.

Preferably, the length of the rotary vane is greater than the distance between the round block and the inner wall of the machine body, the rotary vane is rotationally connected with the round block, and a first torsion spring is arranged between the rotary vane and the round block.

Preferably, the method further comprises: a plurality of baffles fixedly arranged in the machine body; the arc plates are fixedly arranged on two adjacent baffle plates and are rotationally connected with the round blocks; the sliding plate is arranged in the rotary blade in an up-down sliding way, and a plurality of second round holes with the same diameter as the first round holes are formed in the sliding plate.

Preferably, the sliding plate further comprises a plurality of protruding blocks which are slidably arranged on the sliding plate, and a first spring is arranged between the protruding blocks and the sliding plate.

Preferably, the method further comprises: the threaded rod is driven to move up and down, is in threaded connection with the sliding plate and is in rotary connection with the rotary blade; a circular plate fixedly arranged at the upper end of the threaded rod; the slide bar is used for driving the circular plate to rotate and is connected with the rotary vane in an up-down sliding manner, and the slide bar is connected with the circular plate in a threaded manner; and a third torsion spring arranged between the circular plate and the rotary vane.

Preferably, the method further comprises: the arc groove is formed in the arc plate; a scraping plate slidably mounted on the circular arc groove; the rotating rod is rotatably arranged on the circular arc plate and is in sliding connection with the scraping plate; the first gear is rotationally connected with the machine body; the second gear is fixedly arranged below the first gear; the third gear is rotationally connected with the machine body; and a second torsion spring arranged between the rotating rod and the machine body.

Preferably, the method further comprises: a concave plate mounted on the inner wall of the machine body; two round grooved plates rotatably mounted on the concave plate; the circulating pipe is arranged on the machine body, the defoaming agent circulates in the circulating pipe, and two ends of the circulating pipe are respectively communicated with the two circular groove plates.

Preferably, the method further comprises: the main gear is fixedly arranged at the top end of the fan blade and is rotationally connected with the machine body; the fourth gear is rotationally connected with the machine body; the gear five is used for transmission and is rotationally connected with the machine body.

The beneficial effects of the invention are as follows:

1. The cyclone wet dust collector disclosed by the invention has the advantages that for some places with smaller places and heavier dust, the machine body is not excessively high due to the limitation of the height, so that dust particles on the inner wall of the machine body cannot be washed clean in time, and the gas still contains part of dust when being discharged from the machine body; through setting up a plurality of whirl leaves, when air current and whirl leaf contact, can promote the whirl leaf rotatory for the incessant alternation of whirl leaf and air current contact, even dust granule on one of them whirl leaf is not in time erodeed away, and gas can contact with next clean whirl leaf, makes the device can use in highly restricted place.

2. According to the cyclone wet dust collector, the foamer is arranged, the foam is sprayed on the rotary vane, compared with water flow, the effect of the foam on adhering dust-containing fog drops in the air flow is better, and the rotary vane is provided with the plurality of first round holes, so that the air flow can penetrate through the foam and the rotary vane, and the adhesion of the device to the dust-containing fog drops in the air flow is further improved.

3. According to the cyclone wet dust collector, the circulating defoaming agent is arranged on the concave plate, so that when clean air flows to the concave plate, the air flows are contacted with the side wall of the concave plate, foam wrapped in the air flows can be removed by the defoaming agent, and the problem that when the clean air flows to the air outlet, the wrapped foam flows to the air outlet together is solved.

Drawings

The invention is further described below with reference to the accompanying drawings.

FIG. 1 is a perspective view of a first embodiment of the present invention;

FIG. 2 is a cross-sectional view of the body of the present invention;

FIG. 3 is an internal structural view of the body of the present invention;

FIG. 4 is a schematic view of the structure of the baffle plate of the present invention;

FIG. 5 is a schematic view of the structure of the round bar and the nozzle number two of the present invention;

FIG. 6 is a schematic view of the structure of the rotor blade and scraper of the present invention;

FIG. 7 is a schematic view of the structure of the rotor blade and the slide plate of the present invention;

FIG. 8 is a schematic view of the structure of the threaded rod and slide plate of the present invention;

In the figure: 1. a body; 2. an air inlet; 3. an air outlet; 4. an atomizer; 5. a fan blade; 6. round blocks; 7. rotating leaves; 8. a first nozzle; 9. a water outlet; 10. a round bar; 11. a second nozzle; 12. a bubbler; 13. a pipe; 14. a first round hole; 15. a first torsion spring; 16. a baffle; 17. an arc plate; 18. a slide plate; 19. a second round hole; 20. a bump; 21. a first spring; 22. a threaded rod; 23. a circular plate; 24. a slide bar; 25. a third torsion spring; 26. an arc groove; 27. a scraper; 28. a rotating rod; 29. a first gear; 30. a second gear; 31. a third gear; 32. a second torsion spring; 33. a concave plate; 34. a circular groove plate; 35. a circulation pipe; 36. a main gear; 37. a fourth gear; 38. and a fifth gear.

Detailed Description

The invention is further described in connection with the following detailed description in order to make the technical means, the creation characteristics, the achievement of the purpose and the effect of the invention easy to understand.

Example 1

As shown in fig. 1 to 8, the cyclone wet dust collector according to the embodiment of the present invention includes a machine body 1, and further includes: an air inlet 2 and an air outlet 3 which are arranged on the machine body 1; the atomizer 4 is arranged at the air inlet 2, and the atomizer 4 is used for spraying mist, and dust-containing gas contacts the mist to form dust-containing mist drops; the fan blade 5 is rotatably arranged in the machine body 1, and the fan blade 5 is used for forming upward rotational flow in the machine body 1; a plurality of round blocks 6 rotatably installed in the machine body 1; a plurality of rotary blades 7 arranged on the round block 6, and dust-containing mist drops impact and are attached to the rotary blades 7; a first nozzle 8 installed in the machine body 1, wherein water flow sprayed from the first nozzle 8 is used for cleaning the rotary vane 7; a water outlet 9 arranged at the bottom of the machine body 1, and sewage containing dust flows out from the water outlet 9.

Specifically, in some factories or sites with more dust, in order to ensure the physical health of workers in the factories, dust collectors are usually required to be used for treating dust-containing gas in the factories or on the sites; the machine body 1 and the fan blades 5 adopt the components of the existing cyclone dust remover, the atomizer 4 adopts compressed air to atomize water into tiny water drops and spray the tiny water drops towards the air inlet 2, so that dust-containing gas contacts with mist to form dust-containing mist drops; when the cyclone dust collector works, the fan blade 5 is controlled to rotate, dust-containing gas enters the machine body 1 from the air inlet 2 and passes through the atomizer 4, the dust-containing gas is contacted with mist generated by the atomizer 4, dust particles in the gas are contacted with the mist to form dust-containing mist drops, the machine body 1 and the fan blade 5 adopt the structure of the traditional cyclone dust collector, in the traditional cyclone dust collector, dust-containing mist drops flow upwards at a higher speed along the inner wall of the machine body 1 through the rotating fan blade 5 to form a cyclone, the dust-containing mist drops are attached to the inner wall of the machine body 1, a plurality of round blocks 6 are arranged around the inner wall of the machine body 1, rotating blades 7 are arranged on the round blocks 6, so that the air flow mainly contacts with the rotating blades 7, the dust-containing mist drops in the air flow are adhered to the rotating blades 7, water flow on the rotating blades 7 and the dust-containing mist drops are fused to form sewage, the water flow is sprayed out of the rotating blades 7 uninterruptedly, the water flow is blown out, the sewage flows downwards to a water outlet 9 of the machine body 1, the water outlet 9 is processed, and clean gas with the dust-containing mist drops is discharged from the air outlet 3; for places with smaller sites and heavier dust, such as the inside of mines, the machine body 1 cannot be excessively high due to the height limitation, dust particles on the inner wall of the machine body 1 cannot be washed clean in time, and the gas still contains part of dust when being discharged from the machine body 1, so that the dust removal rate of the device is not high; through setting up a plurality of whirl leaves 7, when air current and whirl leaf 7 contact, can promote whirl leaf 7 rotatory for a plurality of whirl leaves 7 incessantly alternate with the air current contact, with the position that whirl leaf 7 that is close to organism 1 axle center department is located on the button 6 is the workstation, the air current mainly contacts with whirl leaf 7 on the workstation, the whirl leaf 7 that is not located the workstation receives the washing of nozzle 8, becomes clean gradually, consequently the air current constantly contacts with clean whirl leaf 7, the foretell problem has been improved, make the dust remover under the unchangeable circumstances of height, the dust removal effect has been improved.

As shown in fig. 2, 5 and 7, further comprising: the round bar 10 is fixedly arranged on the machine body 1, the round bar 10 penetrates through the round block 6, and a plurality of second nozzles 11 are arranged on the round bar 10; a bubbler 12 mounted on the body 1; a pipe 13 fixedly installed on the machine body 1, wherein the pipe 13 is communicated with the round rod 10 and the No. two nozzles 11, and the No. two nozzles 11 spray foam onto the rotary vane 7; a plurality of first round holes 14 are formed on the rotary vane 7.

Specifically, the bubbler 12 adopts high-pressure air, and when the foam mixed liquid flows through the nozzle of the generator, a diffused atomization jet flow is formed, negative pressure is generated around the foam mixed liquid so as to suck a large amount of air and contact the foam to form air foam, when the dust remover works, the foam is sprayed on the rotary vane 7, the air flow contacts the foam on the rotary vane 7, compared with water flow, the adhesion effect of the foam on dust-containing mist drops in the air flow is better, and a plurality of first round holes 14 are formed in the rotary vane 7, so that the air flow can penetrate through the foam and the rotary vane 7, and the dust removing effect of the dust remover is further improved.

As shown in fig. 7, the round blocks 6 are distributed in a ring-shaped array in the machine body 1, the rotary blades 7 on the round blocks 6 are not contacted, and the rotary blades 7 are arc-shaped.

Specifically, circular blocks 6 and rotary blades 7 distributed in an annular array can be better attached to the rotational flow track, the rotary blades 7 are arc-shaped, and compared with a straight plate shape, the arc-shaped rotary blades 7 have larger contact area with air flow, namely more dust can be attached to the rotary blades 7 under the condition that space is unchanged.

As shown in fig. 2 and 7, the length of the rotary vane 7 is greater than the distance between the circular block 6 and the inner wall of the machine body 1, the rotary vane 7 is rotatably connected with the circular block 6, and a first torsion spring 15 is installed between the rotary vane 7 and the circular block 6.

Specifically, the distance between one end of the rotary vane 7 away from the circular block 6 and the circular block 6 is a, the distance between the circular block 6 and the inner wall of the machine body 1 is b, and because a is larger than b, when the rotary vane 7 is in contact with the inner wall of the machine body 1, the circular block 6 continuously rotates, the rotary vane 7 is blocked by the inner wall of the machine body 1 and keeps still, namely, the rotary vane 7 rotates relative to the circular block 6, a gradually decreases, the first torsion spring 15 twists, when a is equal to b, the circular block 6 can drive the rotary vane 7 to synchronously rotate, the axle center of the circular block 6 is used as an axle, when the rotary vane 7 is not in contact with the inner wall of the machine body 1, the rotary vane 7 is restored under the action of the elastic force of the first torsion spring 15, and when the rotary vane 7 is in contact with the inner wall of the machine body 1, resistance is generated, the rotary vane 7 can block the rotation of the circular block 6 through the rotary vane 7, so that the air current can not smoothly push the rest rotary vane 7 to rotate, and when the air current in the machine body 1 can penetrate the foam and the rotary vane 7 keeps still relative to the inner wall of the machine body 1, the rotary vane 7 can wash the rotary vane 7 for a long time.

As shown in fig. 4-7, further includes: a plurality of baffles 16 fixedly installed in the machine body 1; the arc plates 17 are fixedly arranged on two adjacent baffle plates 16, and the arc plates 17 are rotationally connected with the round blocks 6; the sliding plate 18 is arranged in the rotary vane 7 in a vertical sliding way, and a plurality of second round holes 19 with the same diameter as the first round holes 14 are formed in the sliding plate 18.

Specifically, the position of the rotary vane 7 which is not contacted with the arc plate 17 is taken as a working station, when the rotary vane 7 rotates, the sliding plate 18 in the rotary vane 7 is controlled to move up and down, so that the second round hole 19 on the sliding plate 18 positioned at the working station is aligned with the first round hole 14 on the rotary vane 7, the first round hole 14 on the rotary vane 7 which is not positioned at the working station is blocked by the sliding plate 18, the air flow cannot circulate into the space where the first nozzle 8 and the second nozzle 11 are positioned, and the problem that the first nozzle 8 and the second nozzle 11 are contacted with the air flow in the machine body 1 for a long time and the nozzle openings of the first nozzle 8 and the second nozzle 11 are blocked is solved.

As shown in fig. 7, the sliding plate 18 further comprises a plurality of protruding blocks 20 slidably mounted on the sliding plate 18, and a number one spring 21 is mounted between the protruding blocks 20 and the sliding plate 18.

Specifically, due to the contact of the rotary vane 7 with the air flow, the long-time accumulation of the rotary vane 7 causes the problem that the first round hole 14 on the rotary vane 7 is blocked; the sliding plate 18 in the rotary vane 7 is controlled to move up and down, so that the second round hole 19 on the sliding plate 18 at the working station is aligned with the first round hole 14 on the rotary vane 7, the first spring 21 is in a compressed state, the first round hole 14 on the rotary vane 7 which is not on the working station is blocked by the protruding block 20, and mud in the blocked first round hole 14 can be extruded into the first round hole 14 in the process of ejecting the protruding block 20 in the first round hole 14, and then the mud is flushed away by water flow ejected from the first nozzle 8, so that the problems are solved.

As shown in fig. 7-8, further comprising: a threaded rod 22 for driving the sliding plate 18 to move up and down, wherein the threaded rod 22 is in threaded connection with the sliding plate 18, and the threaded rod 22 is in rotary connection with the rotary vane 7; a circular plate 23 fixedly installed at the upper end of the threaded rod 22; a slide bar 24 for driving the circular plate 23 to rotate, wherein the slide bar 24 is connected with the rotary vane 7 in a vertical sliding way, and the slide bar 24 is connected with the circular plate 23 in a threaded way; a third torsion spring 25 installed between the circular plate 23 and the rotary vane 7.

Specifically, the side wall of the circular arc plate 17 is an inclined slope, when the rotary vane 7 rotates to leave the working station, the rotary vane 7 moves to drive the sliding rod 24 to synchronously move, the sliding rod 24 contacts with the side wall of the circular arc plate 17, and under the pushing of the side wall of the circular arc plate 17, the sliding rod 24 slides downwards relative to the rotary vane 7, the sliding rod 24 slides downwards to enable the circular plate 23 to rotate, the circular plate 23 rotates to drive the threaded rod 22 to synchronously rotate, the threaded rod 22 rotates to drive the sliding plate 18 to downwards move, the convex block 20 on the sliding plate 18 is driven to synchronously move downwards until the convex block 20 blocks the first round hole 14, at the moment, the third torsion spring 25 is in a torsion state, when the rotary vane 7 reenters the working station, the circular plate 23 rotates to be original under the action of the elastic force of the third torsion spring 25, so that the sliding rod 24 moves upwards, the threaded rod 22 is driven to synchronously rotate, the sliding plate 18 moves upwards, the convex block 20 is driven to synchronously move upwards, the convex block 20 contracts in the upwards moving process, and the upward movement of the sliding plate 18 is automatically realized by the rotating force of the rotary vane 7.

As shown in fig. 2-4 and 6, further includes: an arc groove 26 formed in the arc plate 17; a scraper 27 slidably mounted on the circular arc groove 26; a rotating rod 28 rotatably mounted on the circular arc plate 17, the rotating rod 28 being slidably connected with the scraper 27; a first gear 29 for driving the rotating rod 28 to rotate, wherein the first gear 29 is rotationally connected with the machine body 1; a second gear 30 fixedly installed below the first gear 29; a third gear 31 for driving the second gear 30 to rotate, wherein the third gear 31 is rotatably connected with the machine body 1; a second torsion spring 32 is installed between the rotating lever 28 and the body 1.

Specifically, the third gear 31 is electrically controlled to rotate, and the first gear 29 is an incomplete gear; in an initial state, the scraping plate 27 is tightly attached to the baffle 16, during operation, the third gear 31 is controlled to rotate, the second gear 30 is driven to rotate, the first gear 29 is driven to rotate by the second gear 30, the first gear 29 is driven to rotate intermittently, the rotating rod 28 is driven to rotate by the rotating rod 28, the scraping plate 27 is driven to move along the circular arc groove 26 by the rotating rod 28, the scraping plate 27 is enabled to smear foam on the rotating blade 7, at the moment, the second torsion spring 32 is twisted, when the first gear 29 is not meshed with the rotating rod 28, the second torsion spring 32 drives the rotating rod 28 and the scraping plate 27 to rotate to be original, and the action of smearing foam on the rotating blade 7 is carried out by arranging the scraping plate 27, so that the foam on the rotating blade 7 is more uniform.

As shown in fig. 2-3, further includes: a concave plate 33 mounted on the inner wall of the body 1; two circular grooved plates 34 rotatably mounted on the concave plate 33; a circulation pipe 35 mounted on the machine body 1, wherein a defoaming agent flows through the circulation pipe 35, and two ends of the circulation pipe 35 are respectively communicated with the two circular groove plates 34.

Specifically, the concave plate 33 is located above the rotary vane 7, the circulating pipe 35 is provided with a suction device, so that the defoaming agent circulates in the circulating pipe 35, the circular groove plate 34 and the concave plate 33, the defoaming agent is a silicone emulsion defoaming agent, when clean air flows to the air outlet 3, the problem that the foam is wrapped and circulated to the air outlet 3 together exists, the air flows to the concave plate 33 still in a spiral rising state by arranging the concave plate 33, the air flows are in contact with the inner wall of the concave plate 33, the foam wrapped and clamped in the air flows are in contact with the defoaming agent on the concave plate 33, and the defoaming agent can remove the foam, so that the problem is improved.

Example two

As shown in fig. 2-3, comparative example one, wherein another embodiment of the present invention is: further comprises: the main gear 36 is fixedly arranged at the top end of the fan blade 5, and the main gear 36 is rotationally connected with the machine body 1; a fourth gear 37 for driving the concave plate 33 to rotate, wherein the fourth gear 37 is rotationally connected with the machine body 1; the gear No. five 38 is used for transmission, and the gear No. five 38 is rotationally connected with the machine body 1.

Specifically, during operation, the main gear 36 rotates to drive the fan blade 5 to rotate, the main gear 36 rotates to drive the gear No. five 38 to reversely rotate, the gear No. five 38 rotates to drive the gear No. four 37 to reversely rotate, and the gear No. four 37 rotates to drive the concave plate 33 to reversely rotate, so that the rotation directions of the gear No. four 37 and the main gear 36 are different, the rotation directions of the air flow are different from the rotation directions of the concave plate 33, and further, the foam wrapped in the air flow and the defoaming agent on the concave plate 33 can be fully contacted.

Working principle: when the air flow is in contact with the rotating blades 7, the rotating blades 7 can be pushed to rotate, so that the rotating blades 7 are in continuous alternating contact with the air flow, the first nozzle 8 continuously sprays water flow, the rotating blades 7 below the first nozzle 8 are flushed, dust-containing foam on the rotating blades 7 flows downwards to the position of the air body 1, the clean air for removing the dust-containing foam is continuously spirally and upwards moved from the water outlet 9 to the position of the concave plate 33 through the rotating blades 5, the air flow is contacted with the inner wall of the concave plate 33 when the air flow is upwards moved to the concave plate 33, and the foam in the air flow is contacted with the foam, so that the foam in the air flow can be removed.

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 embodiments described above, and that the above embodiments and descriptions are merely illustrative of the principles of the present 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 (7)

1. A cyclone wet dust collector, comprising a machine body (1), characterized in that it further comprises:

An air inlet (2) and an air outlet (3) which are arranged on the machine body (1);

The atomizer (4) is arranged at the air inlet (2), and the atomizer (4) is used for spraying mist, and dust-containing gas contacts with the mist to form dust-containing mist drops;

the fan blade (5) is rotatably arranged in the machine body (1), and the fan blade (5) is used for forming upward rotational flow in the machine body (1);

A plurality of round blocks (6) rotatably arranged in the machine body (1), wherein the round blocks (6) are distributed in a circular array in the machine body (1);

The dust-containing material drop impact and attachment device comprises a plurality of rotary blades (7) arranged on a round block (6), dust-containing material drops are impacted and attached to the rotary blades (7), the rotary blades (7) on the round block (6) are not contacted, the rotary blades (7) are arc-shaped, the length of each rotary blade (7) is larger than the distance between the round block (6) and the inner wall of a machine body (1), the rotary blades (7) are rotationally connected with the round block (6), and a first torsion spring (15) is arranged between each rotary blade (7) and the round block (6);

a first nozzle (8) arranged in the machine body (1), wherein water flow sprayed from the first nozzle (8) is used for cleaning the rotary vane (7);

a water outlet (9) arranged at the bottom of the machine body (1), and the sewage containing dust flows out from the water outlet (9);

A round rod (10) fixedly arranged on the machine body (1), wherein the round rod (10) penetrates through the round block (6), and a plurality of second nozzles (11) are arranged on the round rod (10);

A bubbler (12) mounted on the body (1);

A pipeline (13) fixedly arranged on the machine body (1), wherein the pipeline (13) is communicated with the round rod (10) and a second nozzle (11), and the second nozzle (11) sprays foam onto the rotary vane (7);

a plurality of first round holes (14) are formed on the rotary vane (7).

2. A cyclone wet scrubber as claimed in claim 1, wherein: further comprises:

A plurality of baffles (16) fixedly arranged in the machine body (1);

The arc plates (17) are fixedly arranged on two adjacent baffle plates (16), and the arc plates (17) are rotationally connected with the round blocks (6);

The sliding plate (18) is arranged in the rotary blade (7) in an up-down sliding mode, and a plurality of second round holes (19) with the same diameter as the first round holes (14) are formed in the sliding plate (18).

3. A cyclone wet scrubber as claimed in claim 2, wherein: the sliding plate also comprises a plurality of protruding blocks (20) which are slidably arranged on the sliding plate (18), and a first spring (21) is arranged between the protruding blocks (20) and the sliding plate (18).

4. A cyclone wet scrubber as claimed in claim 3, wherein: further comprises:

a threaded rod (22) for driving the sliding plate (18) to move up and down, the threaded rod (22) is in threaded connection with the sliding plate (18), and the threaded rod (22) is in rotary connection with the sliding plate (18);

A circular plate (23) fixedly arranged at the upper end of the threaded rod (22);

A slide bar (24) for driving the circular plate (23) to rotate, wherein the slide bar (24) is connected with the rotary vane (7) in a vertical sliding way, and the slide bar (24) is in threaded connection with the circular plate (23);

And a third torsion spring (25) installed between the circular plate (23) and the rotary vane (7).

5. A cyclone wet scrubber as recited in claim 4, wherein: further comprises:

An arc groove (26) formed on the arc plate (17);

A scraper (27) slidably mounted on the circular arc groove (26);

A rotating rod (28) rotatably mounted on the circular arc plate (17), wherein the rotating rod (28) is in sliding connection with the scraping plate (27);

a first gear (29) for driving the rotating rod (28) to rotate, wherein the first gear (29) is rotationally connected with the machine body (1);

a second gear (30) fixedly installed below the first gear (29);

A third gear (31) for driving the second gear (30) to rotate, wherein the third gear (31) is rotationally connected with the machine body (1);

And a second torsion spring (32) arranged between the rotating rod (28) and the machine body (1).

6. A cyclone wet scrubber as recited in claim 5, wherein: further comprises: a concave plate (33) mounted on the inner wall of the machine body (1);

two circular grooved plates (34) rotatably mounted on the concave plate (33);

The circulating pipe (35) is arranged on the machine body (1), defoaming agents are communicated in the circulating pipe (35), and two ends of the circulating pipe (35) are respectively communicated with the two circular groove plates (34).

7. A cyclone wet scrubber as recited in claim 6, wherein: further comprises:

a main gear (36) fixedly arranged at the top end of the fan blade (5), wherein the main gear (36) is rotationally connected with the machine body (1);

A fourth gear (37) for driving the concave plate (33) to rotate, wherein the fourth gear (37) is rotationally connected with the machine body (1);

and the fifth gear (38) is used for transmission, and the fifth gear (38) is rotationally connected with the machine body (1).