CN112516754A

CN112516754A - Washing tower capable of replacing adsorption liquid medicine based on filtering industrial waste gas impurity amount

Info

Publication number: CN112516754A
Application number: CN202011368495.5A
Authority: CN
Inventors: 曾艳芝
Original assignee: Individual
Current assignee: Beijing Hi Tech Engineering Technology Co ltd
Priority date: 2020-11-30
Filing date: 2020-11-30
Publication date: 2021-03-19
Anticipated expiration: 2040-11-30
Also published as: CN112516754B

Abstract

The invention relates to the field of industrial waste gas evolution, in particular to a washing tower capable of replacing adsorption liquid medicine based on filtering the impurity content of industrial waste gas, which comprises a supporting tower frame, a supporting frame, an air inlet clapboard, an industrial waste gas washing component, a waste liquid extraction and supply component and the like; the supporting frame is installed at the top of the supporting tower frame, the air inlet partition plate is fixedly connected to the top surface of the supporting frame, the industrial waste gas washing assembly is installed in the supporting tower frame, and the industrial waste gas washing assembly is connected with the waste liquid extraction and supply assembly in a sliding mode. Through waste liquid extraction and supply subassembly, rely on mutually supporting between the spare part, according to the automatic washing liquid of changing when the filth quality reaches a certain amount in the washing tank, control air pump is whole to be taken out the washing liquid in the washing tank and filth impurity and is changed new washing liquid, has realized the washing liquid of automatic change washing tank.

Description

Washing tower capable of replacing adsorption liquid medicine based on filtering industrial waste gas impurity amount

Technical Field

The invention relates to the field of industrial waste gas evolution, in particular to a washing tower capable of replacing an adsorption liquid medicine based on filtering the impurity content of industrial waste gas.

Background

The waste gas purification mainly refers to the work of treating industrial waste gas such as dust particles, smoke and dust, peculiar smell gas and poisonous and harmful gas generated in industrial places, an industrial waste gas washing tower is novel gas purification treatment equipment and is widely applied to the aspects of industrial waste gas purification, dust removal and the like, the washing tower is suitable for separating mixed gas containing a small amount of dust, and the basic principle of the industrial waste gas washing tower is that the pollutants in the gas are conveyed into liquid by utilizing the contact between the gas and the liquid to liquefy the pollutants.

The scrubbing tower generally adopts gas-liquid countercurrent operation, and the waste gas that will collect is sucked in the scrubbing tower through other equipment, lets waste gas and the washing liquid on filler surface fully contact, washes acidic or alkaline filth in the waste gas through the washing liquid, and the scrubbing tower workman that generally commonly uses need regularly inspect, and need regularly change the washing liquid.

Disclosure of Invention

The invention aims to provide a washing tower capable of replacing and adsorbing liquid medicine based on the impurity amount of filtered industrial waste gas, which can automatically replace washing liquid when the quality of dirt in a washing box reaches a certain amount, so as to solve the problems in the background technology.

The technical scheme of the invention is as follows: the utility model provides a wash tower based on it can replace absorption liquid medicine to filter industrial waste gas impurity volume, including the support pylon, the carriage, the baffle admits air, industrial waste gas washing subassembly, waste liquid extraction and supply subassembly, admit air closed assembly and air current direction subassembly, the carriage is installed at support pylon top, admit air baffle rigid coupling in the carriage top surface, install industrial waste gas washing subassembly in the support pylon, the gliding style is connected with waste liquid extraction and supply subassembly on the industrial waste gas washing subassembly, be equipped with the closed assembly that admits air on the carriage, the gliding style is connected with air current direction subassembly in the carriage.

In one embodiment, the industrial waste gas washing assembly comprises a slotted support plate, a first compression spring, a movable plate, a washing box, an air inlet pipe frame and an air outlet pipe frame, wherein the support tower is symmetrically provided with sliding grooves, the slotted support plate is fixedly connected to the lower portion of each sliding groove, the first compression spring is fixedly connected to the top surface of each slotted support plate, one end of each first compression spring is fixedly connected with the movable plate, the movable plate is in sliding fit with the sliding grooves, one end of each movable plate is fixedly connected with the washing box, the air inlet pipe frame is fixedly connected to the washing box, the air inlet pipe frame is slidably connected with a support frame, and the.

In one embodiment, the waste liquid extracting and supplying assembly comprises a pushing plate, a floating plate, a second compression spring, a movable frame, a third compression spring, a clamping rod, an opening liquid guide sleeve, a first magnet strip, a connecting frame, a fourth compression spring, a second magnet strip and a connecting pipe frame, the pushing plate is symmetrically connected with the top of the washing box in a sliding way, the floating plate is fixedly connected with one end of the pushing plate, the second compression spring is connected between the floating plate and the washing box, the movable frame is connected with the supporting tower in a sliding way and is in mutual contact with the pushing plate, two third compression springs are connected between the movable frame and the supporting tower, the clamping rod is connected with one end of the movable frame, clamping grooves are symmetrically formed in the lower part of the washing box, the opening liquid guide sleeve is symmetrically connected with the lower part of the washing box, the first magnet strip is fixedly connected with one end of the opening liquid guide sleeve, the connecting frame is fixedly connected with the inner side of the washing box, the slotted support plate is internally and fixedly connected with a second magnet strip, the lower part of the support tower is fixedly connected with a connecting pipe frame, and the connecting pipe frame and the slotted support plate are communicated with each other.

In one embodiment, the air inlet closing assembly comprises a connecting plate, a supporting plate, a convex panel, a circular frame, a movable rod, an air baffle, a fifth compression spring and a push rod, the connecting plate is fixedly connected to the top of the movable frame, the supporting plate is fixedly connected to the upper portion of the connecting plate, the convex panel is fixedly connected to the supporting plate, the circular frame is fixedly connected to the inside of the supporting frame, the movable rod is symmetrically connected to the top of the movable rod, the air baffle is fixedly connected to the top of the movable rod, the fifth compression spring is connected between the movable rod and the circular frame, the push rod is fixedly connected to one side of the air baffle, the push rod is in sliding fit with the air inlet partition plate, and the push rod and the convex.

In one embodiment, the airflow guiding assembly comprises a clamping plate, a sliding rod, a sixth compression spring and a inclined plate, a movable groove is formed in one side of the supporting frame, the clamping plate is connected in the movable groove in a sliding mode, the sliding rod is fixedly connected to the top surface of the clamping plate, the sixth compression spring is connected between the sliding rod and the air inlet partition plate, one end of the sliding rod is connected with the inclined plate, and the inclined plate is in contact with the supporting plate.

In one embodiment, the air inlet pipe frame further comprises a filter screen, and the filter screen is distributed on the upper portion of the air inlet pipe frame.

The beneficial effects are that: through waste liquid extraction and supply subassembly, rely on mutually supporting between the spare part, according to the automatic washing liquid of changing when the filth quality reaches a certain amount in the washing tank, control air pump is whole to be taken out the washing liquid in the washing tank and filth impurity and is changed new washing liquid, has realized the washing liquid of automatic change washing tank.

Through the closed subassembly that admits air, the waste gas that the fender gas board will dredge blocks for when the aspiration pump extraction waste liquid, waste gas no longer gets into the pipe support that admits air, and the cardboard no longer blocks the movable groove simultaneously, makes in the waste gas of carriage imports the gas transmission pipe once more from the movable groove, realizes not influencing the purpose that waste gas stabilized circulation when the aspiration pump extraction waste liquid.

In getting into the carriage through waste gas, waste gas gets into to the pipe support of admitting air through the filter screen on the pipe support of admitting air, and the filter screen blocks the large granule filth in with waste gas, prevents that the large granule filth from getting into the pipe support of admitting air in, and the washing liquid is difficult to wash it.

Drawings

Fig. 1 is a schematic perspective view of a first embodiment of the present invention.

Fig. 2 is a schematic perspective view of a second embodiment of the present invention.

Fig. 3 is a third perspective view of the present invention.

Fig. 4 is a schematic diagram of a first separated three-dimensional structure of the present invention.

FIG. 5 is a schematic diagram of a separated perspective view of the waste liquid extraction and replenishment assembly of the present invention.

Fig. 6 is a partial perspective view of the present invention.

Fig. 7 is a schematic diagram of a second separated perspective structure of the present invention.

FIG. 8 is a schematic perspective view of a portion of the intake closure assembly of the present invention.

Labeled as: 1-support tower, 2-support frame, 3-air inlet baffle, 4-industrial waste gas washing component, 401-sliding groove, 402-slotted support plate, 403-first compression spring, 404-movable plate, 405-washing box, 406-air inlet pipe frame, 407-air outlet pipe frame, 5-waste liquid extracting and supplying component, 501-pushing plate, 502-floating plate, 503-second compression spring, 504-movable frame, 505-third compression spring, 506-clamping rod, 507-clamping groove, 508-opening liquid guide sleeve, 509-first magnet strip, 5010-connecting frame, 5011-fourth compression spring, 5012-second magnet strip, 5013-connecting pipe frame, 6-air inlet closing component, 601-connecting plate, 602-support plate, 603-convex panel, 604-square frame, 605-movable rod, 606-air baffle, 607-fifth compression spring, 608-push rod, 7-airflow guide component, 701-movable groove, 702-snap plate, 703-sliding rod, 704-sixth compression spring, 705-inclined plane plate and 8-filter screen.

Detailed Description

The invention will be further described with reference to examples of embodiments shown in the drawings to which the invention is attached.

Example 1

A washing tower capable of replacing and adsorbing liquid medicine based on filtering industrial waste gas impurity amount is disclosed, as shown in figures 1-8, and comprises a support tower frame 1, a support frame 2, an air inlet partition plate 3, an industrial waste gas washing component 4, a waste liquid extraction and supply component 5, an air inlet closing component 6 and an airflow guide component 7, wherein the support frame 2 is installed at the top of the support tower frame 1, the air inlet partition plate 3 is fixedly connected to the top surface of the support frame 2, the industrial waste gas washing component 4 is installed in the support tower frame 1, the waste liquid extraction and supply component 5 is slidably connected to the industrial waste gas washing component 4, the waste liquid extraction and supply component 5 is used for replacing washing liquid in a washing box, the air inlet closing component 6 is arranged on the support frame 2, the air inlet closing component 6 is used for preventing waste gas from entering an air inlet pipe frame 406 when an air suction pump extracts waste liquid, the air flow guide assembly 7 is used for achieving the purpose of not influencing the stable circulation of waste gas when the waste liquid is extracted by the suction pump.

The industrial waste gas washing component 4 comprises slotted support plates 402, first compression springs 403, movable plates 404, a washing box 405, an air inlet pipe frame 406 and an air outlet pipe frame 407, wherein the supporting tower 1 is symmetrically provided with sliding grooves 401, the lower parts of the sliding grooves 401 are fixedly connected with the slotted support plates 402, the top surfaces of the slotted support plates 402 are fixedly connected with the first compression springs 403, one ends of the first compression springs 403 are fixedly connected with the movable plates 404, the movable plates 404 are in sliding fit with the sliding grooves 401, one ends of the movable plates 404 far away from the sliding grooves 401 are fixedly connected with the washing box 405 for containing washing liquid, the air inlet pipe frame 406 is fixedly connected to the washing box 405, the air inlet pipe frame 406 is used for discharging waste gas into the washing box 405, the air inlet pipe frame 406 is connected with the supporting frame 2 in a sliding manner, the air outlet pipe frame 407 is fixedly connected to.

The waste liquid extracting and supplying assembly 5 comprises a pushing plate 501, a floating plate 502, a second compression spring 503, a movable frame 504, a third compression spring 505, a clamping rod 506, an opening liquid guide sleeve 508, a first magnetic strip 509, a connecting frame 5010, a fourth compression spring 5011, a second magnetic strip 5012 and a connecting pipe frame 5013, wherein the pushing plate 501 is connected with the top of the washing tank 405 in a sliding and symmetrical mode, the floating plate 502 is fixedly connected to one end of the pushing plate 501, the second compression spring 503 is connected between the floating plate 502 and the washing tank 405, the movable frame 504 is connected on the supporting tower 1 close to the movable plate 404 in a sliding mode, the movable frame 504 is in contact with the pushing plate 501, two third compression springs 505 are connected between the movable frame 504 and the supporting tower 1, the clamping rod 506 used for fixing the washing tank 405 and the upper part of the movable frame 504 far away from the pushing plate 501 is connected to one end of the movable frame 504, the clamping groove 507 is symmetrically opened at the lower part of the washing tank 405, the opening liquid guide sleeve 508 is, one end of the opening liquid guiding sleeve 508 is fixedly connected with a first magnetic strip 509, the inner side of the washing tank 405 is fixedly connected with a connecting frame 5010, a fourth compression spring 5011 is connected between the opening liquid guiding sleeve 508 and the connecting frame 5010, a second magnetic strip 5012 is fixedly connected in the slotted support plate 402, the lower part of the support tower 1 is fixedly connected with a connecting pipe frame 5013, the connecting pipe frame 5013 is used for completely pumping the washing liquid and dirt and impurities in the washing tank 405 into the air suction pump, and the connecting pipe frame 5013 and the slotted support plate 402 are communicated with each other.

The air inlet closing component 6 comprises a connecting plate 601, a supporting plate 602, a convex panel 603, a circular frame 604, a movable rod 605, an air baffle plate 606, a fifth compression spring 607 and a push rod 608, the connecting plate 601 is fixedly connected to the top of the movable frame 504 far away from the clamping rod 506, the supporting plate 602 is fixedly connected to the upper portion of the connecting plate 601, the convex panel 603 is fixedly connected to the supporting plate 602, the circular frame 604 is fixedly connected to the supporting frame 2, the movable rod 605 is slidably and symmetrically connected to the circular frame 604, the air baffle plate 606 is fixedly connected to the top end of the movable rod 605, the air baffle plate 606 is used for blocking the dredged waste gas, the fifth compression spring 607 for assisting the resetting is connected between the movable rod 605 and the circular frame 604, the push rod 608 is fixedly connected to one side of the air baffle plate 606 close to the convex panel 603, the push rod 608 is slidably matched with the air inlet partition plate 3.

Airflow direction subassembly 7 is including cardboard 702, slide bar 703, sixth compression spring 704 and inclined plane board 705, open support frame 2 one side has movable groove 701, sliding connection has cardboard 702 in the movable groove 701, movable groove 701 and cardboard 702 sliding fit make do not influence the stable circulation of waste gas when the aspiration pump extracts the waste liquid, cardboard 702 top surface rigid coupling has slide bar 703, be connected with the sixth compression spring 704 that is used for supplementary reset between slide bar 703 and the baffle 3 that admits air, the slide bar 703 one end of keeping away from cardboard 702 is connected with inclined plane board 705, mutual contact between inclined plane board 705 and the backup pad 602.

The washing box 405 is filled with washing liquid, industrial waste gas enters the supporting frame 2 through a hose on the air inlet partition plate 3 from a gas pipe, the waste gas enters the washing box 405 through a filter screen 8 on the air inlet pipe frame 406, the washing liquid dissolves acidic or alkaline dirt in the waste gas, and then the gas separated from the dirt is discharged through the air outlet pipe frame 407, the process is carried out for several weeks, the dirt is deposited in the washing box 405 for a long time, so that the weight of the washing box 405 and the devices on the washing box 405 is increased, the washing box 405 and the devices on the washing box move towards the direction far from the air inlet partition plate 3, the first compression spring 403 is compressed, as the pushing plate 501 moves towards the direction far from the air inlet partition plate 3, the stretched third compression spring 505 resets to drive the movable frame 504 and the devices on the washing box to move towards the direction close to the washing box 405, and the washing box 405 and, the movable frame 504 drives the clamping rod 506 to be clamped into the clamping groove 507, so that the washing tank 405 and the device thereon do not move towards the direction far away from the air inlet partition plate 3 any more, and the washing tank 405 and the device thereon are fixed.

When the catch lever 506 is snapped into the catch slot 507, the first compression spring 403 is compressed, the first magnet strip 509 is positioned opposite the second magnet strip 5012, by the principle that the first magnet strip 509 and the second magnet strip 5012 repel each other in opposite polarities, the second magnet strip 5012 pushes the first magnet strip 509 and the open drain cover 508 to move toward the inside of the washing tub 405, the fourth compression spring 5011 is compressed, and at the same time, the suction pump activation switch is activated, under the action of the air pump, the cleaning solution and the dirt and impurities in the cleaning tank 405 flow into the opening liquid guide sleeve 508 through the slot hole on the opening liquid guide sleeve 508, so that the cleaning solution and its dirt and impurities flow into the slotted plate 402 through the open fluid-guiding sleeve 508, then the washing liquid and impurities thereof enter the connecting pipe frame 5013 through the slotted support plate 402, the washing liquid and impurities thereof in the washing tank 405 are completely pumped into the air suction pump through the connecting pipe frame 5013, and then the air suction pump pumps new washing liquid into the washing tank 405 through the connecting pipe frame 5013 and the devices on the same.

When new washing liquid is injected into the washing tank 405, the water level of the washing liquid in the washing tank 405 gradually rises to push the floating plate 502 to move away from the bottom of the washing tank 405, the second compression spring 503 is compressed, the push plate 501 pushes the movable frame 504 and the upper device thereof to move away from the washing tank 405, the third compression spring 505 is stretched, the movable frame 504 drives the clamping rod 506 to separate from the clamping groove 507, the clamping rod 506 is not clamped into the clamping groove 507 any more, the washing tank 405 and the upper device thereof are not fixed any more, at this time, the suction pump start switch is not triggered any more, the suction pump stops operating along with the suction pump, the compressed first compression spring 403 resets to drive the washing tank 405 and the upper device thereof to move towards the direction close to the air inlet partition 3, the first magnet strip 509 is separated from the second magnet strip 5012, the compressed fourth compression spring 5011 resets to drive the opening liquid guide sleeve 508 and the upper device thereof to reset, the washing tank 405 is blocked by the opening liquid guide, the washing liquid is prevented from flowing out, and the washing liquid in the washing tank 405 is automatically replaced. Through the mutual cooperation of the above parts, the purpose of automatically replacing the washing liquid when the quality of dirt in the washing tank 405 reaches a certain amount is realized.

When the movable frame 504 and the devices thereon move towards the direction close to the washing tank 405, the connecting plate 601 and the devices thereon also move towards the direction close to the washing tank 405, the push rod 608 and the sliding rod 703 simultaneously lose the support of the convex panel 603 and the inclined panel 705, the push rod 608 and the sliding rod 703 simultaneously move towards the direction close to the support tower frame 1, the compressed fifth compression spring 607 resets to drive the air baffle 606 to be clamped on the return frame 604, the air baffle 606 stops the dredged waste gas, so that the waste gas does not enter the intake pipe frame 406 when the waste liquid is extracted by the air extracting pump, at the same time, the extended sixth compression spring 704 returns to move the catch plate 702 toward the direction of approaching the support tower 1, make cardboard 702 no longer block activity groove 701 for the waste gas of carriage 2 is inputed the gas transmission pipe once more from activity groove 701 in, does not influence the purpose that the waste gas circulates steadily when the aspiration pump extracts the waste liquid. After the new washing liquid is replaced, the movable frame 504 and the device thereon move in the direction away from the washing tank 405, the convex panel 603 and the inclined panel 705 push the push rod 608 and the sliding rod 703 simultaneously, the push rod 608 and the sliding rod 703 move in the direction away from the support tower 1 simultaneously, the fifth compression spring 607 is compressed, the air baffle 606 is separated from the return-type frame 604, so that the waste gas is dredged to enter the support frame 2, meanwhile, the sixth compression spring 704 is stretched, and the clamping plate 702 blocks the movable groove 701.

Example 2

On the basis of embodiment 1, as shown in fig. 5, the exhaust gas purification device further includes a filter screen 8, the filter screen 8 is fixedly connected to the upper portion of the intake pipe frame 406 away from the washing tank 405 in a distributed manner, and the filter screen 8 is used for blocking large particles in the exhaust gas.

Waste gas gets into in the carriage 2, and waste gas gets into to the pipe support 406 of admitting air through the filter screen 8 on the pipe support 406 of admitting air, and filter screen 8 blocks the large granule filth in with waste gas, prevents that the large granule filth from getting into pipe support 406 of admitting air in, and the washing liquid is difficult to wash it.

The above description is only an example of the present invention and is not intended to limit the present invention. All equivalents which come within the spirit of the invention are therefore intended to be embraced therein. Details not described herein are well within the skill of those in the art.

Claims

1. The utility model provides a wash tower of absorption liquid medicine can be replaced based on filter industrial waste gas impurity volume which characterized in that: including supporting tower (1), carriage (2), baffle (3) admit air, industrial waste gas washing subassembly (4), waste liquid extraction and supply subassembly (5), admit air closed assembly (6) and air current guide assembly (7), carriage (2) are installed at supporting tower (1) top, baffle (3) rigid coupling admits air is in carriage (2) top surface, install industrial waste gas washing subassembly (4) in supporting tower (1), sliding connection has waste liquid extraction and supply subassembly (5) on industrial waste gas washing subassembly (4), be equipped with on carriage (2) and admit air closed assembly (6), carriage (2) internal sliding type is connected with air current guide assembly (7).

2. The scrubber tower according to claim 1, wherein the scrubber tower is configured to alternatively adsorb a chemical solution based on the amount of impurities in the industrial waste gas, and further comprises: the industrial waste gas washing component (4) comprises a slotted support plate (402), a first compression spring (403), a movable plate (404), a washing box (405), an air inlet pipe frame (406) and an air outlet pipe frame (407), wherein the support tower frame (1) is symmetrically provided with a sliding groove (401), the lower part of the sliding groove (401) is fixedly connected with the slotted support plate (402), the top surface of the slotted support plate (402) is fixedly connected with the first compression spring (403), one end of the first compression spring (403) is fixedly connected with the movable plate (404), the movable plate (404) is in sliding fit with the sliding groove (401), one end of the movable plate (404) is fixedly connected with the washing box (405), the air inlet pipe frame (406) is fixedly connected to the washing box (405), the air inlet pipe frame (406) is in sliding connection with the support frame (2), and the air outlet pipe frame (407.

3. The scrubber tower according to claim 2, wherein the scrubber tower is configured to alternatively adsorb the chemical solution based on the amount of impurities in the industrial waste gas, and is further configured to: the waste liquid extraction and supply assembly (5) comprises a pushing plate (501), a floating plate (502), a second compression spring (503), a movable frame (504), a third compression spring (505), a clamping rod (506), an opening liquid guide sleeve (508), a first magnet strip (509), a connecting frame (5010), a fourth compression spring (5011), a second magnet strip (5012) and a connecting pipe frame (5013), wherein the pushing plate (501) is connected to the top of the washing tank (405) in a sliding and symmetrical mode, the floating plate (502) is fixedly connected to one end of the pushing plate (501), the second compression spring (503) is connected between the floating plate (502) and the washing tank (405), the movable frame (504) is connected to the supporting tower frame (1) in a sliding mode, the movable frame (504) is in mutual contact with the pushing plate (501), two third compression springs (505) are connected between the movable frame (504) and the supporting tower frame (1), and one end of the movable frame (504) is connected with the clamping rod (506), the lower portion of the washing box (405) is symmetrically provided with clamping grooves (507), the lower portion of the washing box (405) is connected with an opening liquid guiding sleeve (508) in a sliding type symmetrical mode, one end of the opening liquid guiding sleeve (508) is fixedly connected with a first magnetic strip (509), the inner side of the washing box (405) is fixedly connected with a connecting frame (5010), a fourth compression spring (5011) is connected between the opening liquid guiding sleeve (508) and the connecting frame (5010), a second magnetic strip (5012) is fixedly connected in the slotting support plate (402), the lower portion of the support tower (1) is fixedly connected with a connecting pipe frame (5013), and the connecting pipe frame (5013) and the slotting support plate (402) are communicated with each other.

4. The scrubber tower according to claim 3, wherein the scrubber tower is configured to alternatively adsorb the chemical solution based on the amount of impurities in the industrial waste gas, and is further configured to: the air inlet closing component (6) comprises a connecting plate (601), a supporting plate (602), a convex panel (603), a clip frame (604), a movable rod (605), an air baffle plate (606), a fifth compression spring (607) and a push rod (608), connecting plate (601) is fixedly connected to the top of movable frame (504), supporting plate (602) is fixedly connected to the upper portion of connecting plate (601), convex panel (603) is fixedly connected to supporting plate (602), return frame (604) is fixedly connected to supporting frame (2), movable rod (605) is slidably and symmetrically connected to return frame (604), air baffle plate (606) is fixedly connected to the top end of movable rod (605), movable rod (605) and return frame (604) are connected, fifth compression spring (607), push rod (608) is fixedly connected to one side of air baffle plate (606), push rod (608) is slidably matched with air inlet partition plate (3), and push rod (608) and convex panel (603) are in contact with each other.

5. The scrubber tower according to claim 4, wherein the scrubber tower is capable of replacing adsorption chemicals based on the impurity content of industrial waste gas, and is characterized in that: airflow direction subassembly (7) is including cardboard (702), slide bar (703), sixth compression spring (704) and inclined plane board (705), it has movable groove (701) to open supporting frame (2) one side, sliding connection has cardboard (702) in movable groove (701), cardboard (702) top surface rigid coupling has slide bar (703), be connected with sixth compression spring (704) between slide bar (703) and air inlet baffle (3), slide bar (703) one end is connected with inclined plane board (705), contact each other between inclined plane board (705) and backup pad (602).

6. The scrubber tower according to claim 5, wherein the scrubber tower is configured to alternatively adsorb the chemical solution based on the amount of impurities in the industrial waste gas, and comprises: the air inlet pipe frame is characterized by further comprising a filter screen (8), wherein the filter screen (8) is distributed on the upper portion of the air inlet pipe frame (406).