CN222855076U - Flue gas absorption anti-corrosion tower that facilitates gas-liquid fusion - Google Patents

Abstract

The utility model relates to the technical field of a smoke absorption anti-corrosion tower, in particular to a smoke absorption anti-corrosion tower convenient for gas-liquid fusion, which comprises a tower body, an air inlet mechanism, a spraying mechanism, a filter plate, an active carbon adsorption plate and a wind shielding mechanism, wherein the air inlet mechanism is arranged on the tower body and is used for introducing smoke into the tower body, the spraying mechanism is arranged in the tower body and is used for spraying purifying liquid to the smoke in the tower body, the filter plate and the active carbon adsorption plate are fixedly arranged in the tower body, the wind shielding mechanism is arranged in the tower body, and by the aid of the technical scheme, a spray head can reciprocate in the height direction in the process of moving around a supporting tube, meanwhile, the circulating path of the smoke is lifted through a first wind shielding ring and a second wind shielding ring, and the time of the smoke passing through the tower body is further prolonged, so that the fusion time of the purifying liquid and the smoke is prolonged, the fusion effect of the smoke and the purifying liquid is improved, and the problem of low fusion efficiency of the smoke and the purifying liquid in the related technology is solved.

Description

Flue gas absorption anti-corrosion tower convenient for gas-liquid fusion

Technical Field

The utility model relates to the technical field of smoke absorption anti-corrosion towers, in particular to a smoke absorption anti-corrosion tower convenient for gas-liquid fusion.

Background

The smoke is a mixture of gas and smoke dust, is a main cause for polluting the atmosphere of residential areas, has complex components, contains water vapor, sulfur dioxide, nitrogen, oxygen, carbon monoxide, carbon dioxide, hydrocarbon, oxynitride and the like, and the smoke dust contains ash, coal particles, oil drops, pyrolysis products and the like of fuel, and the content of toxic and harmful substances contained in industrial smoke is always higher because the smoke dust is required to be discharged after being treated, so that the smoke dust is required to be absorbed and purified by a smoke absorption and corrosion prevention tower.

For example, the prior art discloses an industrial flue gas desulfurization denitration and integrated treatment facility of publication No. CN215742816U, including absorption tower, blast pipe, denitration subassembly, intake pipe, shower, circulation subassembly and defroster, circulation subassembly is installed on the absorption tower, and circulation subassembly includes kuppe, gas spraying ring, air pump and air duct, kuppe fixed mounting is in the cistern and is located under the intake pipe gas outlet, has seted up a plurality of through-hole on the kuppe.

When the utility model is used, the spray pipe and the spray head for spraying the desulfurization liquid are arranged in the air inlet pipe, and because the space of the inner cavity of the air inlet pipe is narrow and the flue gas passing speed is high, the desulfurization liquid is difficult to be in full mixed contact with industrial flue gas, and after the industrial flue gas is guided out of the air inlet pipe, the industrial flue gas can quickly rise along the inner cavities of the lower shell and the upper shell, and is difficult to be in contact reaction with the formed high-temperature atomized desulfurization liquid for a long time, so that the desulfurization treatment effect of the industrial flue gas is affected to a certain extent, and the utility model has general practicability.

Disclosure of utility model

The utility model provides a smoke absorption anti-corrosion tower convenient for gas-liquid fusion, which solves the problem of low fusion efficiency of smoke and purifying liquid in the related technology.

The utility model has the technical scheme that the smoke absorption anti-corrosion tower convenient for gas-liquid fusion comprises a tower body, an air inlet mechanism, a spraying mechanism, a filter plate, an active carbon adsorption plate and a wind shielding mechanism;

The air inlet mechanism is arranged on the tower body and is used for introducing flue gas into the tower body;

the spraying mechanism is arranged in the tower body and is used for spraying the purifying liquid to the flue gas in the tower body;

The filter plate and the activated carbon adsorption plate are fixedly arranged in the tower body;

the wind shielding mechanism is arranged in the tower body and is used for shielding smoke in the tower body.

Preferably, the wind shielding mechanism includes:

the tower body is provided with a first wind shielding ring, and two first wind shielding rings are fixedly arranged on the inner wall of the tower body;

a second wind shielding ring arranged between the two first wind shielding rings;

and a plurality of fixing rods are fixedly arranged between the second wind shielding ring and the inner wall of the tower body.

Further, the air intake mechanism includes:

The air inlet ring is arranged in the tower body, and a plurality of fixing columns are fixedly arranged between the air inlet ring and the inner wall of the tower body;

The air inlet pipe is arranged on the tower body in a penetrating mode and is communicated with the air inlet ring;

The air inlet ring is communicated with a plurality of air inlet nozzles.

Still further, the spraying mechanism includes:

the support shell is arranged in the tower body, and a plurality of connecting columns are fixedly arranged between the support shell and the inner wall of the tower body;

the support opening is formed in the inner bottom wall of the support shell;

The support plate is arranged in the support shell in a sliding manner;

The support tube is rotatably arranged on the support plate, penetrates through the support opening and the second wind shielding ring, and is sealed at one end far away from the support plate;

The spraying assembly is arranged on the supporting tube and used for spraying the purifying liquid into the flue gas;

The rotating mechanism is arranged in the supporting shell and used for controlling the supporting tube to rotate;

and the lifting mechanism is arranged in the supporting shell and used for controlling the supporting plate to lift in a reciprocating manner.

Still further, the spray assembly includes:

The spray pipes are positioned on two sides of the second wind shielding ring, and a plurality of spray pipes are rotatably arranged on the support pipes;

the spraying pipe is communicated with a plurality of spraying heads;

The liquid inlet pipe penetrates through the side wall of the tower body, and one end of the liquid inlet pipe penetrates through the support shell and the support plate and stretches into the support tube.

On the basis of the scheme, the rotating mechanism comprises:

The first annular rack is fixedly arranged on the supporting tube;

the first gear is rotatably arranged on the supporting plate;

The driving rod is rotatably arranged in the supporting shell, penetrates through the supporting plate and the first gear, and is in sliding connection with the first gear;

And the power input mechanism is arranged in the support shell and used for controlling the driving rod to rotate.

On the basis of the above scheme, the power input mechanism comprises:

the second gear is fixedly arranged on the driving rod;

The third gear is rotatably arranged on the inner top wall of the support shell;

wherein the second gear is meshed with the third gear;

The first motor is fixedly arranged on the support shell, and the output end of the first motor is fixedly connected with the third gear.

On the basis of the scheme, the lifting mechanism comprises:

The lifting ports are formed in the supporting plate, and screw nuts are fixedly arranged in the lifting ports;

The reciprocating screw rod is rotatably arranged in the supporting shell and penetrates through the screw rod nut through threaded fit;

And the fourth gear is fixedly arranged on the reciprocating screw rod and meshed with the third gear.

On the basis of the scheme, the supporting plate is fixedly provided with a supporting rod, the supporting rod is rotationally connected with the supporting tube, the supporting rod is fixedly provided with two first bevel gears, the spraying tube stretches into the supporting tube, the side wall of the spraying tube is fixedly provided with a second bevel gear, and the second bevel gear is meshed with the first bevel gears.

On the basis of the scheme, a first driving port is formed in the supporting plate, a second driving port is formed in the first gear, the driving rod penetrates through the first driving port and the second driving port, a sliding groove is formed in the driving rod, a sliding block is fixedly arranged on the side wall of the second driving port, and the sliding block stretches into the sliding groove and is in sliding connection with the side wall of the sliding groove.

The working principle and the beneficial effects of the utility model are as follows:

1. According to the utility model, through the arrangement of the air inlet mechanism, the flue gas can be introduced into the air inlet ring through the air inlet pipe, and then the flue gas is introduced into the tower body through the plurality of air inlet nozzles, so that the air inlet uniformity of the flue gas after entering the tower body is improved;

2. According to the utility model, the arrangement of the wind shielding mechanism facilitates shielding of the smoke through the first wind shielding ring and the second wind shielding ring, so that the flow path of the smoke is improved, the time of the smoke passing through the tower body is further improved, the fusion time of the purifying liquid and the smoke can be improved, and the fusion effect of the smoke and the purifying liquid is improved;

3. according to the utility model, through the arrangement of the spraying mechanism, the purifying liquid can be introduced into the supporting pipe and the spraying pipe through the liquid inlet pipe, and then the purifying liquid is sprayed into the flue gas through the spraying head, in the process, the supporting pipe is controlled to rotate through the rotating mechanism, so that the spraying pipe and the spraying head move around the supporting pipe, and meanwhile, the lifting mechanism is used for controlling the spraying head to reciprocate in the height direction, so that the fusion efficiency of the flue gas and the purifying liquid is further improved;

4. according to the utility model, through the arrangement of the tower body, the air inlet mechanism, the spraying mechanism, the filter plate, the activated carbon adsorption plate and the wind shielding mechanism, the spray head can reciprocate in the height direction in the moving process around the supporting pipe, and meanwhile, the first wind shielding ring and the second wind shielding ring are used for lifting the flow path of the smoke, so that the time of the smoke passing through the tower body is further prolonged, the fusion time of the purifying liquid and the smoke can be prolonged, the fusion effect of the smoke and the purifying liquid is improved, and the problem of low fusion efficiency of the smoke and the purifying liquid in the related technology is solved.

Drawings

The utility model will be described in further detail with reference to the drawings and the detailed description.

FIG. 1 is a schematic diagram of the structure of the present utility model;

FIG. 2 is a schematic cross-sectional view of the present utility model;

FIG. 3 is a schematic cross-sectional view of the support housing of the present utility model;

Fig. 4 is a schematic view of the structure of the spraying mechanism of the present utility model.

The device comprises a tower body, a filter plate, a 3-activated carbon adsorption plate, a 4-first wind shielding ring, a 5-second wind shielding ring, a 6-air inlet ring, a 7-air inlet pipe, an 8-air inlet nozzle, a 9-support shell, a 10-support plate, a 11-support tube, a 12-spray tube, a 13-liquid inlet tube, a 14-first annular rack, a 15-first gear, a 16-drive rod, a 17-second gear, a 18-third gear, a 19-first motor, a 20-reciprocating screw rod, a 21-fourth gear, a 22-support rod, a 23-first bevel gear, a 24-second bevel gear, a 25-chute.

Detailed Description

The technical solutions of the embodiments of the present utility model will be clearly and completely described below in conjunction with the embodiments of the present utility model, and it is apparent that the described embodiments are only some embodiments of the present utility model, not all embodiments. All other embodiments, which can be made by one of ordinary skill in the art based on the embodiments of the utility model without making any inventive effort, are intended to be within the scope of the utility model.

As shown in fig. 1-4, this embodiment provides a flue gas absorption anti-corrosion tower convenient to gas-liquid fuses, including tower body 1, air inlet mechanism, spraying mechanism, filter 2, active carbon adsorption board 3 and wind shielding mechanism, air inlet mechanism sets up on tower body 1 for let in flue gas to tower body 1, spraying mechanism sets up in tower body 1, is used for spraying the purifying liquid to the flue gas in the tower body 1, and filter 2 and active carbon adsorption board 3 are fixed to be set up in tower body 1, and wind shielding mechanism sets up in tower body 1 for shelter from the flue gas in the tower body 1.

Referring to fig. 2, the wind shielding mechanism includes a first wind shielding ring 4, a second wind shielding ring 5 and a fixing rod, two first wind shielding rings 4 are fixedly arranged on the inner wall of the tower body 1, the second wind shielding ring 5 is arranged between the two first wind shielding rings 4, and a plurality of fixing rods are fixedly arranged between the second wind shielding ring 5 and the inner wall of the tower body 1.

Specifically, at the in-process that the flue gas flows in tower body 1, can shelter from the flue gas through first ring 4 and the second ring 5 that keep out the wind to promote the circulation path of flue gas, and then promote the time that the flue gas passes through tower body 1, thereby can promote the fusion time of purifying liquid and flue gas, thereby promote the effect of fusion of flue gas and purifying liquid.

Referring to fig. 2, the air intake mechanism includes an air intake ring 6, an air intake pipe 7 and an air intake nozzle 8, the air intake ring 6 is arranged in the tower body 1, a plurality of fixing columns are fixedly arranged between the air intake ring 6 and the inner wall of the tower body 1, the air intake pipe 7 is arranged on the tower body 1 in a penetrating manner, the air intake pipe 7 is communicated with the air intake ring 6, and a plurality of air intake nozzles 8 are arranged on the air intake ring 6 in a communicating manner.

Specifically, the operating personnel lets in the gas inlet ring 6 with the flue gas through intake pipe 7, later lets in the tower body 1 with the flue gas through a plurality of air inlet shower nozzles 8 to the homogeneity of admitting air after the flue gas gets into in the tower body 1 has been promoted.

Referring to fig. 2-4, the spraying mechanism includes support casing 9, the supporting mouth, backup pad 10, stay tube 11, spray the subassembly, rotary mechanism and elevating system, support casing 9 sets up in tower 1, fixedly be provided with a plurality of spliced poles between support casing 9 and the tower 1 inner wall, the supporting mouth is seted up on the inner bottom wall of support casing 9, backup pad 10 slides and sets up in support casing 9, stay tube 11 rotates and sets up on backup pad 10, stay tube 11 runs through the supporting mouth and second wind-proof ring 5, stay tube 11 keeps away from stay tube 10 one end sealedly, spray the subassembly and set up on stay tube 11, be used for carrying out the spraying of purifying liquid in the flue gas, rotary mechanism sets up in support casing 9, be used for controlling stay tube 11 and rotate, elevating system sets up in support casing 9, be used for controlling backup pad 10 and carry out reciprocal lift, the spraying subassembly includes spray pipe 12, spray head and feed pipe 13 are located second wind-proof ring 5 both sides and all rotate and are provided with a plurality of spray pipe 12, the intercommunication is provided with a plurality of spray head on spray pipe 12, feed pipe 13 runs through and sets up on tower 1 lateral wall, feed pipe 13 one end runs through support casing 9 and stretches into in the backup pad 11.

Specifically, the operator can introduce the cleaning liquid into the support pipe 11 and the spray pipe 12 through the liquid inlet pipe 13, and then spray the cleaning liquid into the flue gas through the spray head.

Referring to fig. 3 and 4, the rotating mechanism includes a first annular rack 14, a first gear 15, a driving rod 16 and a power input mechanism, the first annular rack 14 is fixedly disposed on the supporting tube 11, the first gear 15 is rotatably disposed on the supporting plate 10, the driving rod 16 is rotatably disposed in the supporting housing 9, the driving rod 16 penetrates through the supporting plate 10 and the first gear 15, the driving rod 16 is slidably connected with the first gear 15, the power input mechanism is disposed in the supporting housing 9 and is used for controlling the driving rod 16 to rotate, the power input mechanism includes a second gear 17, a third gear 18 and a first motor 19, the second gear 17 is fixedly disposed on the driving rod 16, the third gear 18 is rotatably disposed on an inner top wall of the supporting housing 9, the second gear 17 is meshed with the third gear 18, the first motor 19 is fixedly disposed on the supporting housing 9, an output end of the first motor 19 is fixedly connected with the third gear 18, a second driving opening is formed in the first gear 15, the driving rod 16 penetrates through the first driving opening and the second driving opening, a sliding chute 25 is formed in the second driving rod 16, and a sliding chute 25 is formed in the sliding chute 25.

Specifically, in the spraying process, an operator controls the first motor 19 to work, the first motor 19 can control the third gear 18 to rotate, meanwhile, the driving rod 16 is driven to rotate through the engagement of the third gear 18 and the second gear 17, meanwhile, in the process of rotating the driving rod 16, the first gear 15 can be driven to rotate through the cooperation of the sliding block and the sliding groove 25, meanwhile, the supporting tube 11 can be driven to rotate through the engagement of the first gear 15 and the first annular rack 14, and accordingly the spraying tube 12 and the spraying head are driven to rotate around the supporting tube 11 through the rotation of the supporting tube 11.

Referring to fig. 3 and 4, the lifting mechanism includes a lifting opening, a reciprocating screw 20 and a fourth gear 21, a plurality of lifting openings are formed in the support plate 10, screw nuts are fixedly arranged in the lifting openings, a plurality of reciprocating screws 20 are rotatably arranged in the support housing 9, the reciprocating screws 20 penetrate through the screw nuts through threaded fit, the fourth gear 21 is fixedly arranged on the reciprocating screw 20, and the fourth gear 21 is meshed with the third gear 18.

Specifically, in the process of rotating the third gear 18, the third gear 18 and the fourth gear 21 are meshed to drive the reciprocating screw 20 to rotate, and meanwhile, the supporting plate 10 is driven to reciprocate through the cooperation of the screw nut and the reciprocating screw 20, so that the spraying pipe 12 and the spraying head are driven to reciprocate in the height direction through the supporting pipe 11.

Referring to fig. 3 and 4, a support rod 22 is fixedly arranged on the support plate 10, the support rod 22 is rotatably connected with the support tube 11, two first bevel gears 23 are fixedly arranged on the support rod 22, the spray tube 12 extends into the support tube 11, a second bevel gear 24 is fixedly arranged on the side wall of the spray tube 12, and the second bevel gear 24 is meshed with the first bevel gears 23.

Specifically, during the rotation of the support tube 11, the second bevel gear 24 may be driven to move around the support rod 22, and simultaneously, the first bevel gear 23 and the second bevel gear 24 are meshed to drive the spray tube 12 to rotate, so that the spray head moves around the spray tube 12.

In this embodiment, when in use, an operator introduces the flue gas into the air inlet ring 6 through the air inlet pipe 7, then introduces the flue gas into the tower body 1 through the plurality of air inlet nozzles 8, thereby improving the air inlet uniformity of the flue gas after entering the tower body 1, then in the process of flowing the flue gas in the tower body 1, the flue gas can be shielded through the first wind shielding ring 4 and the second wind shielding ring 5, thereby improving the flow path of the flue gas, further improving the time of the flue gas passing through the tower body 1, thereby improving the fusion time of the purifying liquid and the flue gas, thereby improving the fusion effect of the flue gas and the purifying liquid, simultaneously, the operator can introduce the purifying liquid into the supporting pipe 11 and the spraying pipe 12 through the liquid inlet pipe 13, then spray the purifying liquid into the flue gas through the spraying nozzle, in the spraying process, the operator controls the first motor 19 to work, the first motor 19 can control the third gear 18 to rotate, simultaneously, the driving rod 16 is driven to rotate through the engagement of the third gear 18 and the second gear 17, meanwhile, in the process of the rotation of the driving rod 16, the first gear 15 can be driven to rotate through the cooperation of the sliding block and the sliding groove 25, meanwhile, the supporting tube 11 can be driven to rotate through the engagement of the first gear 15 and the first annular rack 14, thereby, the spraying tube 12 and the spraying head can be driven to rotate around the supporting tube 11 through the rotation of the supporting tube 11, meanwhile, in the process of the rotation of the third gear 18, the reciprocating screw 20 can be driven to rotate through the engagement of the third gear 18 and the fourth gear 21, meanwhile, the supporting plate 10 is driven to reciprocate through the cooperation of the screw nut and the reciprocating screw 20, thereby, the spraying tube 12 and the spraying head can be driven to reciprocate in the height direction through the supporting tube 11, in the process of the rotation of the supporting tube 11, the second bevel gear 24 can be driven to move around the supporting rod 22, and meanwhile, the spraying pipe 12 is driven to rotate through the engagement of the first bevel gear 23 and the second bevel gear 24, so that the spraying head moves around the spraying pipe 12, and the purifying liquid can be uniformly sprayed into the flue gas to fuse the purifying liquid with the flue gas.

The foregoing description of the preferred embodiments of the utility model is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the utility model.

Claims (10)

1. Flue gas absorption anti-corrosion tower convenient to gas-liquid fuses, its characterized in that includes:

a tower body (1);

The air inlet mechanism is arranged on the tower body (1) and is used for introducing flue gas into the tower body (1);

the spraying mechanism is arranged in the tower body (1) and is used for spraying the purifying liquid to the flue gas in the tower body (1);

The device comprises a filter plate (2) and an activated carbon adsorption plate (3), wherein the filter plate (2) and the activated carbon adsorption plate (3) are fixedly arranged in a tower body (1);

The wind shielding mechanism is arranged in the tower body (1) and is used for shielding smoke in the tower body (1).

2. The flue gas absorbing anticorrosive tower for facilitating gas-liquid fusion according to claim 1, wherein the wind shielding mechanism comprises:

The tower body (1) is provided with a first wind shielding ring (4), and two first wind shielding rings (4) are fixedly arranged on the inner wall of the tower body (1);

-a second wind deflector ring (5), said second wind deflector ring (5) being arranged between two of said first wind deflector rings (4);

the fixing rods are fixedly arranged between the second wind shielding ring (5) and the inner wall of the tower body (1).

3. The flue gas absorbing anticorrosive tower for facilitating gas-liquid fusion according to claim 2, wherein the air intake mechanism comprises:

the air inlet ring (6) is arranged in the tower body (1), and a plurality of fixing columns are fixedly arranged between the air inlet ring (6) and the inner wall of the tower body (1);

The air inlet pipe (7) is arranged on the tower body (1) in a penetrating mode, and the air inlet pipe (7) is communicated with the air inlet ring (6);

The air inlet nozzle (8) is communicated with the air inlet ring (6), and a plurality of air inlet nozzles (8) are arranged on the air inlet ring.

4. A flue gas absorbing anticorrosive tower for facilitating gas-liquid fusion according to claim 3, wherein the spraying mechanism comprises:

The support shell (9), the support shell (9) is arranged in the tower body (1), and a plurality of connecting columns are fixedly arranged between the support shell (9) and the inner wall of the tower body (1);

the support opening is formed in the inner bottom wall of the support shell (9);

a support plate (10), the support plate (10) being slidably arranged within the support housing (9);

The support tube (11) is rotatably arranged on the support plate (10), the support tube (11) penetrates through the support opening and the second wind shielding ring (5), and one end, far away from the support plate (10), of the support tube (11) is sealed;

The spraying assembly is arranged on the supporting tube (11) and is used for spraying the purifying liquid into the flue gas;

The rotating mechanism is arranged in the support shell (9) and is used for controlling the support tube (11) to rotate;

and the lifting mechanism is arranged in the support shell (9) and used for controlling the support plate (10) to lift in a reciprocating manner.

5. The flue gas absorbing anticorrosive tower for facilitating gas-liquid fusion according to claim 4, wherein the spray assembly comprises:

the spray pipes (12), the support pipes (11) are positioned on two sides of the second wind shielding ring (5), and a plurality of the spray pipes (12) are rotatably arranged;

the spray pipe (12) is communicated with a plurality of spray heads;

The liquid inlet pipe (13), the liquid inlet pipe (13) runs through and is arranged on the lateral wall of the tower body (1), one end of the liquid inlet pipe (13) runs through the support shell (9) and the support plate (10) stretches into in the support tube (11).

6. The flue gas absorbing and anti-corrosion tower for facilitating gas-liquid fusion according to claim 5, wherein the rotating mechanism comprises:

the first annular rack (14) is fixedly arranged on the supporting tube (11);

A first gear (15), the first gear (15) being rotatably arranged on the support plate (10);

The driving rod (16) is rotatably arranged in the supporting shell (9), the driving rod (16) penetrates through the supporting plate (10) and the first gear (15), and the driving rod (16) is in sliding connection with the first gear (15);

and the power input mechanism is arranged in the support shell (9) and is used for controlling the driving rod (16) to rotate.

7. The flue gas absorbing anticorrosive tower for facilitating gas-liquid fusion according to claim 6, wherein the power input mechanism comprises:

A second gear (17), wherein the second gear (17) is fixedly arranged on the driving rod (16);

a third gear (18), the third gear (18) being rotatably arranged on the inner top wall of the support housing (9);

Wherein the second gear (17) is in mesh with the third gear (18);

The first motor (19), first motor (19) is fixed to be set up on supporting casing (9), first motor (19) output with third gear (18) fixed connection.

8. The flue gas absorbing anticorrosive tower for facilitating gas-liquid fusion according to claim 7, wherein the lifting mechanism comprises:

The lifting ports are formed in the supporting plate (10), and screw nuts are fixedly arranged in the lifting ports;

A plurality of reciprocating screws (20) are rotatably arranged in the support shell (9), and the reciprocating screws (20) penetrate through the screw nuts through threaded fit;

And a fourth gear (21), wherein the fourth gear (21) is fixedly arranged on the reciprocating screw (20), and the fourth gear (21) is meshed with the third gear (18).

9. The flue gas absorption corrosion prevention tower convenient for gas-liquid fusion according to claim 8, wherein a supporting rod (22) is fixedly arranged on the supporting plate (10), the supporting rod (22) is rotationally connected with the supporting tube (11), two first bevel gears (23) are fixedly arranged on the supporting rod (22), the spraying pipe (12) stretches into the supporting tube (11), a second bevel gear (24) is fixedly arranged on the side wall of the spraying pipe (12), and the second bevel gear (24) is meshed with the first bevel gears (23).

10. The flue gas absorption anti-corrosion tower convenient for gas-liquid fusion according to claim 9, wherein a first driving port is formed in the supporting plate (10), a second driving port is formed in the first gear (15), the driving rod (16) penetrates through the first driving port and the second driving port, a sliding groove (25) is formed in the driving rod (16), and a sliding block is fixedly arranged on the side wall of the second driving port and extends into the sliding groove (25) and is in sliding connection with the side wall of the sliding groove (25).