CN118022527A

CN118022527A - Purifying equipment for atmospheric pollution treatment

Info

Publication number: CN118022527A
Application number: CN202410431069.3A
Authority: CN
Inventors: 王中原; 李玲密; 赵德宽; 郭海宾
Original assignee: Shandong Lechen Energy Saving Environmental Protection Technology Co ltd
Current assignee: Shandong Lechen Energy Saving Environmental Protection Technology Co ltd
Priority date: 2024-04-11
Filing date: 2024-04-11
Publication date: 2024-05-14
Anticipated expiration: 2044-04-11
Also published as: CN118022527B

Abstract

The invention provides purification equipment for treating atmospheric pollution, which relates to the technical field of atmospheric pollution treatment equipment and comprises a support frame, wherein an air inlet unit, a first purification unit and a second purification unit are arranged on the support frame, the air inlet unit, the first purification unit and the second purification unit are sequentially connected, a wastewater purification unit is connected between the first purification unit and the second purification unit, and the wastewater purification unit is arranged at the bottom of the support frame; the first purifying unit comprises a supporting mechanism, a purifying mechanism, a shaking mechanism and a material cleaning mechanism, wherein the supporting mechanism is arranged on the supporting frame, one side of the supporting mechanism is connected with the air inlet unit, the other side of the supporting mechanism is connected with the second purifying unit, the purifying mechanism, the shaking mechanism and the material cleaning mechanism are all arranged in the supporting mechanism, the shaking mechanism is connected with the material cleaning mechanism, and the material cleaning mechanism is connected with the purifying mechanism; the invention improves the efficiency of purifying the air and improves the purifying effect of the air.

Description

Purifying equipment for atmospheric pollution treatment

Technical Field

The invention relates to the technical field of atmospheric treatment equipment, in particular to purification equipment for atmospheric pollution treatment.

Background

With the continuous development of human society and the continuous acceleration of industrialization process, the emission of pollutant is continuously increased, the atmospheric environment is also becoming worse and worse, the harmful substances in the atmosphere are also continuously increased, the treatment of the atmosphere is also becoming more and more important, sulfur dioxide in the air can not be rapidly removed when the atmosphere is purified in the prior art, and meanwhile, the purifying equipment in the prior art needs to be cleaned frequently when in use, so that the efficiency of air purification can be influenced due to excessive cleaning times.

The chinese patent with application number "201511009388.2" proposes an air purification device, which purifies and precipitates the particulate matters in the air by setting an atomization mixing chamber and a multi-stage separation air purification device, but the sulfur dioxide in the air cannot be removed, and meanwhile, the air cannot be fully contacted with a desulfurization solution, so that the precipitate is inconvenient to clean.

The chinese patent application with application number "201410422778.1" proposes an air purification device, and this patent application purifies the air through setting up reservoir, inlet portion, portion of giving vent to anger, delivery pump, and this patent is though can retrieve the treatment fluid, but can't guarantee that air and solution fully contact, can't clear up the impurity of deposit simultaneously and get rid of fast, uses a period of time to produce the problem of jam easily.

Disclosure of Invention

Aiming at the technical problems, the invention provides purifying equipment for treating atmospheric pollution, which comprises a support frame, wherein a program control unit is arranged at the bottom of the support frame, an air inlet unit, a first purifying unit and a second purifying unit are arranged on the support frame, the air inlet unit, the first purifying unit and the second purifying unit are sequentially connected, a wastewater purifying unit is connected between the first purifying unit and the second purifying unit, and the wastewater purifying unit is arranged at the bottom of the support frame; the first purifying unit comprises a supporting mechanism, a purifying mechanism, a material shaking mechanism and a material cleaning mechanism, wherein the supporting mechanism is arranged on a supporting frame, one side of the supporting mechanism is connected with an air inlet unit, the other side of the supporting mechanism is connected with a second purifying unit, the purifying mechanism, the material shaking mechanism and the material cleaning mechanism are all arranged in the supporting mechanism, the material shaking mechanism is connected with the material cleaning mechanism, and the material cleaning mechanism is connected with the purifying mechanism.

Further, the supporting mechanism comprises a first purifying box, a first cover plate, a third exhaust pipe, a second cover plate and a partition plate, wherein the first purifying box is fixedly installed on the supporting frame, the first cover plate is fixedly installed above the first purifying box, the second cover plate is fixedly installed on the side face of the first purifying box, the partition plate is slidably installed in the first purifying box, an air channel for gas flow is formed in the partition plate and the first purifying box, the third exhaust pipe is fixedly installed on the side face of the first purifying box, the third exhaust pipe is communicated with the air channel, a first liquid outlet opening is formed in the lower portion of the first purifying box, and the first liquid outlet opening is connected with the waste water purifying unit.

Further, the purification mechanism comprises a protection frame, a first liquid inlet pipe, a third liquid inlet pipe and a driving mechanism, wherein the protection frame is fixedly arranged in the first purification box, the protection frame is arranged in the first purification box and is arranged on one side far away from a partition plate, the first liquid inlet pipe and the third liquid inlet pipe are fixedly arranged on the protection frame, connecting shafts are fixedly arranged on the first liquid inlet pipe and the third liquid inlet pipe, the connecting shafts are in sliding connection with the partition plate, liquid inlet openings are fixedly arranged on the first liquid inlet pipe and the third liquid inlet pipe, liquid injection devices are externally connected to the liquid inlet openings, desulfurization solution is stored in the liquid injection devices, the first liquid inlet pipe penetrates out of the first purification box, the third liquid inlet pipe is arranged below the first liquid inlet pipe, a plurality of first liquid inlet pipes are rotatably arranged on the first liquid inlet pipe, a plurality of spray heads are fixedly arranged on the second liquid inlet pipe, the first liquid inlet pipes are communicated with the first liquid inlet pipes, the second liquid inlet pipes are fixedly arranged on the third liquid inlet pipes, the fourth liquid inlet pipes are fixedly arranged on the fourth liquid inlet pipes, and the driving mechanism are arranged on the fourth liquid inlet pipes, and the fourth liquid inlet pipes are fixedly arranged on the fourth liquid inlet pipes.

Further, actuating mechanism includes rack board one, motor two, gear three, rack board two, track board one and track board two, motor two, track board one and track board two all fixed mounting are on the side of purifying box one, track board one sets up in the below of track board two, every equal coaxial fixed mounting has the pivot two on the feed liquor pipe two, pivot two is connected with purifying box one rotation, every equal coaxial fixed mounting has motor two on the pivot two, every equal coaxial fixed mounting has the pivot three on the feed liquor pipe four, every equal coaxial fixed mounting has the gear four on the pivot three, coaxial fixed mounting has the gear three on the output shaft of motor two, rack board one slidable mounting is on track board two, rack board two slidable mounting is on track board one, rack board two and rack board one's both sides all are provided with the tooth, rack board one's upper end and gear two meshing are connected, rack board one's lower extreme and gear three meshing are connected, rack board two upper end and gear three meshing connection, rack board two is connected with the gear three meshing.

Further, the material cleaning mechanism comprises an electric cylinder, a first gas distribution plate, a fourth motor, a lead screw, a support plate and a material cleaning plate, wherein the electric cylinder is fixedly arranged on one side, close to an exhaust pipe III, of a purifying box, a partition plate is fixedly connected with a piston rod of the electric cylinder, the partition plates are arranged in two, two partition plates are distributed at intervals, the first gas distribution plate is slidably arranged on a protection frame, the first gas distribution plate is slidably connected with the partition plates, the first gas distribution plate is arranged between the first liquid inlet pipe and the third liquid inlet pipe, the first gas distribution plate is arranged between the first air inlet pipe and the third liquid inlet pipe, the second gas distribution plate is arranged between the first air inlet pipe and the third air inlet pipe, each gas distribution plate is provided with a fourth motor, a lead screw, a support plate and a material cleaning plate, the second gear is rotatably arranged on the first gas distribution plate, the lead screw is rotatably connected with the support plate, the first gas distribution plate is slidably arranged on the first gas distribution plate, the first lead screw is coaxially and fixedly connected with the output shaft of the fourth motor, the first gas distribution plate is arranged on the first air distribution plate and the second air distribution plate through the fourth motor, the first gas distribution plate is fixedly connected with the fourth lead screw, the first gas distribution plate and the second air distribution plate is provided with one side of the fourth air inlet plate, and the first air distribution plate is provided with four air inlet and is provided with four air holes.

Further, tremble the material mechanism and include power component and tremble the material subassembly, power component and tremble the material subassembly and all install on the protection frame, tremble the material subassembly and be connected with the baffle, tremble the material subassembly and be provided with two, upper and lower distribution, one tremble the material subassembly of top and be connected with the gaseous equipartition board of top, one tremble the material subassembly of below and be connected with the gaseous equipartition board of below, power component includes cam and motor three, motor three fixed mounting is on the protection frame, cam fixed mounting is on the output shaft of motor three.

Further, tremble the material subassembly and include first spring, slide bar, lifter, striking round pin second and spring second, slide bar slidable mounting is on the protection frame, the one end fixed mounting of spring first is on the protection frame, the other end fixed mounting of spring first is on slide bar, every tremble the material subassembly in all be provided with two slide bars first, two slide bars first distribute respectively in the both sides of motor three, connect through the lifter between two slide bars first, striking round pin fixed mounting is on the protection frame, and striking round pin first in the material subassembly is trembled in the top and is installed in the top and tremble the material subassembly slide bar downside, and striking round pin first in the material subassembly is tremble in the below and is installed in the upside of slide bar first in the material subassembly, the one end and the baffle fixed connection of spring second, the other end and the gas equipartition board first fixed connection of striking round pin second fixed mounting is on the baffle, and striking round pin second in the material subassembly is tremble in the top and is installed in the downside of top gas equipartition board first, and the striking round pin second in the material subassembly is installed in the equipartition board of below.

Further, the air inlet unit comprises a first supporting seat, a first motor, a first rotating shaft, an air inlet hopper, a first gear, a first exhaust pipe, a gear ring and a second exhaust pipe, wherein the first supporting seat is fixedly installed on a supporting frame, the first motor is fixedly installed on the first supporting seat, the rotating shaft is fixedly installed on an output shaft of the first motor in a coaxial mode, the gear is fixedly installed on the first rotating shaft in a coaxial mode, the second exhaust pipe is fixedly installed on the first supporting seat, one end of the second exhaust pipe is simultaneously communicated with an air inlet on the first purifying box and the protecting frame, one end of the second exhaust pipe is rotatably installed on the second exhaust pipe, the gear ring is fixedly installed on the first exhaust pipe, the first gear is in meshed connection with the gear ring, the air inlet hopper is fixedly installed at the end portion of the first exhaust pipe, the air inlet hopper is in a horn mouth shape with a big front and a small back, and the first exhaust pipe is provided with the second exhaust pipe.

Further, the second purifying unit includes purifying box two, play aerofoil, inlet tube one and wet electrostatic precipitator, purifying box two fixed mounting is on the support frame, be provided with gaseous equipartition board two in the purifying box two, wet electrostatic precipitator sets up the top at gaseous equipartition board two, wet electrostatic precipitator's top is provided with the fan, play aerofoil sets up the top at the fan, be provided with a plurality of vents on the aerofoil, inlet tube one fixed mounting is in the side of purifying box two, inlet tube one external has water injection mechanism, inlet tube one is connected with wet electrostatic precipitator, exhaust column three communicates with purifying box two with the wind channel through exhaust column three, purifying box two's below is provided with out liquid opening two, out liquid opening two is connected with waste water purifying unit, be provided with exhaust column two on the exhaust column three.

Further, the waste water purification unit includes waste water purification device, feed liquor fill, feed liquor pipe five, go out liquid fill, feed water fill and inlet tube two, waste water purification device fixed mounting is in the below of support frame, feed liquor fill and feed water fill all fixed mounting are on the support frame, feed liquor fill and first intercommunication of play liquid opening on the purifying box one, feed liquor fill and purifying box two go out liquid opening two intercommunication, the one end and the feed liquor fill intercommunication of feed liquor pipe five, the other end and the waste water purification device intercommunication of feed liquor pipe five, the one end and the feed water fill intercommunication of inlet tube two, the other end and the waste water purification device intercommunication of inlet tube two, go out liquid fill fixed mounting at waste water purification device's lower extreme, go out the lower extreme that liquid was fought and install the control valve.

Compared with the prior art, the invention has the beneficial effects that: (1) The invention can automatically adjust the angle of the air inlet hopper, and adjust the air inlet hopper to the windward position, thereby improving the speed and efficiency of the air inlet hopper for extracting air and further improving the efficiency of purifying air; (2) The purification mechanism and the driving mechanism are mutually matched, so that the desulfurization solution can be sprayed towards a plurality of angles, the desulfurization solution is sprayed more uniformly, and sulfur dioxide in the air can fully react with the desulfurization solution, thereby improving the desulfurization effect and the desulfurization efficiency of the air, and simultaneously, large-particle impurities in the air fall onto the first gas uniformly-distributed plate under the action of the desulfurization solution, and the desulfurization solution fully reacted with the sulfur dioxide enters the wastewater purification unit through the first liquid outlet opening; (3) According to the invention, the large-particle impurities adhered to the air holes of the first gas distribution plate can be cleaned to the impurity removal opening through the material shaking mechanism and enter the wastewater purification unit through the impurity removal opening through the first liquid outlet opening, and the shaking mechanism can drive the first gas distribution plate to shake, so that the cleaning effect of the large-particle impurities adhered to the first gas distribution plate is greatly improved under the pushing of the material cleaning plate, the problem of blocking the air holes due to excessive impurities is prevented, the manual cleaning is avoided, the cleaning times of the whole equipment are reduced, the whole working efficiency is improved, and the flow rate of gas is also improved, so that the desulfurization effect of the gas is improved; (4) The waste liquid in the first purifying box enters the waste water purifying device through the liquid inlet hopper and the liquid inlet pipe five, the impurity-containing waste liquid in the second purifying box enters the waste water purifying device through the water inlet hopper and the water inlet pipe two, the waste water is purified through the waste water purifying device, after the waste water is treated, the control valve on the liquid outlet hopper is opened, the treated liquid is discharged, and then the air is purified, so that the air purifying efficiency and effect are further improved, and the whole purifying process is perfect.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

Fig. 2 is a top view of the present invention.

Fig. 3 is a side view of the present invention.

Fig. 4 is a front view of the present invention.

Fig. 5 is a schematic diagram of the overall structure of the present invention.

Fig. 6 is a schematic diagram of a partial structure of the present invention.

Fig. 7 is a schematic diagram of a partial structure of the present invention.

Fig. 8 is a schematic diagram showing a partial structure of a first purifying cell according to the present invention.

Fig. 9 is a schematic diagram showing a partial structure of a first purifying cell according to the present invention.

Fig. 10 is a plan view showing a partial structure of the first purifying cell of the present invention.

Fig. 11 is a cross-sectional view taken along A-A in fig. 10 in accordance with the present invention.

Fig. 12 is a schematic diagram of a partial structure of a first purifying cell according to the present invention.

Fig. 13 is a schematic diagram showing a partial structure of a first purifying cell according to the present invention.

FIG. 14 is a schematic diagram of the structure of the wastewater purification unit of the present invention.

Reference numerals: 101-supporting frames; 201-a first supporting seat; 202-motor one; 203-a first rotating shaft; 204-an air inlet scoop; 205-gear one; 206-exhaust tube I; 207-ring gear; 208-exhaust tube II; 301-purifying a first tank; 302-cover plate one; 303-exhaust tube III; 304-cover plate II; 305-an electric cylinder; 306-gear two; 307-spindle two; 308-rack plate one; 309-motor two; 310-gear three; 311-a rack plate II; 312-rotating shaft III; 313-gear four; 314-track plate one; 315-track plate two; 316-a protective frame; 317-spring one; 318-slide bar one; 319-lifting rod; 320-cam; 321-motor three; 322-strike pin one; 323-strike pin two; 324-spring two; 325-separator; 326-first liquid inlet pipe; 327-a second liquid inlet pipe; 328-first nozzle; 329-connecting shaft; 330-air duct; 331-a liquid inlet pipe III; 332-a liquid inlet pipe IV; 333-second nozzle; 334-gas uniform distribution plate one; 335-motor four; 336-lead screw; 337-supporting the plate; 338-a material cleaning plate; 401-purifying a second tank; 402-an air outlet plate; 403-first water inlet pipe; 501-a wastewater purification device; 502-a liquid inlet hopper; 503-a liquid inlet pipe five; 504-a liquid outlet hopper; 505-water inlet bucket; 506-a second water inlet pipe.

Detailed Description

The invention will be further described with reference to specific examples, illustrative examples and illustrations of which are provided herein to illustrate the invention, but are not to be construed as limiting the invention.

Examples: the purifying device for treating the atmospheric pollution as shown in fig. 1-14 comprises a supporting frame 101, wherein a program control unit is arranged at the bottom of the supporting frame 101, an air inlet unit, a first purifying unit and a second purifying unit are installed on the supporting frame 101, the air inlet unit, the first purifying unit and the second purifying unit are sequentially connected, a waste water purifying unit is connected between the first purifying unit and the second purifying unit, and the waste water purifying unit is arranged at the bottom of the supporting frame 101; the first purifying unit comprises a supporting mechanism, a purifying mechanism, a shaking mechanism and a material cleaning mechanism, wherein the supporting mechanism is arranged on the supporting frame 101, one side of the supporting mechanism is connected with the air inlet unit, the other side of the supporting mechanism is connected with the second purifying unit, the purifying mechanism, the shaking mechanism and the material cleaning mechanism are all arranged in the supporting mechanism, the shaking mechanism is connected with the material cleaning mechanism, and the material cleaning mechanism is connected with the purifying mechanism.

The supporting mechanism comprises a first purifying box 301, a first cover plate 302, a third exhaust pipe 303, a second cover plate 304 and a partition plate 325, wherein the first purifying box 301 is fixedly arranged on the supporting frame 101, the first cover plate 302 is fixedly arranged above the first purifying box 301, the second cover plate 304 is fixedly arranged on the side face of the first purifying box 301, the partition plate 325 is slidably arranged in the first purifying box 301, an air channel 330 for gas flow is formed between the partition plate 325 and the inside of the first purifying box 301, the third exhaust pipe 303 is fixedly arranged on the side face of the first purifying box 301, the third exhaust pipe 303 is communicated with the air channel 330, a first liquid outlet opening is formed below the first purifying box 301, and the first liquid outlet opening is connected with the wastewater purifying unit.

The purification mechanism comprises a protection frame 316, a first liquid inlet pipe 326, a third liquid inlet pipe 331 and a driving mechanism, wherein the protection frame 316 is fixedly arranged in the first purification box 301, the protection frame 316 is arranged in the first purification box 301 and is far away from one side of a partition plate 325, the first liquid inlet pipe 326 and the third liquid inlet pipe 331 are fixedly arranged on the protection frame 316, a connecting shaft 329 is fixedly arranged on the first liquid inlet pipe 326 and the third liquid inlet pipe 331, the connecting shaft 329 is in sliding connection with the partition plate 325, liquid inlets are fixedly arranged on the first liquid inlet pipe 326 and the third liquid inlet pipe 331, liquid injection devices are externally connected to the liquid inlets, desulfurization solution is stored in the liquid injection devices, the liquid inlets penetrate out of the first purification box 301, the third liquid inlet pipe 331 is arranged below the first liquid inlet pipe 326, a plurality of liquid inlet pipes 327 are rotatably arranged on the first liquid inlet pipe 326, a plurality of spray heads 328 are fixedly arranged on the second liquid inlet pipe 327, the second liquid inlet pipe 327 are communicated with the first liquid inlet pipe 327, the spray heads 328 are fixedly arranged on the third liquid inlet pipe 327, the fourth liquid inlet pipe 327 are fixedly arranged on the fourth liquid inlet pipe 331, the fourth liquid inlet pipe 332 is fixedly arranged on the fourth liquid inlet pipe 331, and the driving mechanism is fixedly arranged on the side face of the fourth liquid inlet pipe 331, and is fixedly arranged on the fourth liquid inlet pipe cover plate 332.

The driving mechanism comprises a rack plate I308, a motor II 309, a third gear 310, a rack plate II 311, a track plate I314 and a track plate II 315, wherein the motor II 309, the track plate I314 and the track plate II 315 are fixedly arranged on the side surface of the purifying box I301, the track plate I314 is arranged below the track plate II 315, a rotating shaft II 307 is coaxially and fixedly arranged on each liquid inlet pipe II 327, the rotating shaft II 307 is rotationally connected with the purifying box I301, a motor II 309 is coaxially and fixedly arranged on each rotating shaft II 307, a rotating shaft III 312 is coaxially and fixedly arranged on each liquid inlet pipe IV 332, a fourth gear 313 is coaxially and fixedly arranged on each rotating shaft III 312, a third gear 310 is coaxially and fixedly arranged on the output shaft of the motor II 309, the rack plate I308 is slidably arranged on the track plate II 315, teeth are respectively arranged on two sides of the rack plate I311 and the rack plate I308, the upper end of the rack plate I308 is in meshed connection with the second gear 306, the lower end of the rack I308 is in meshed connection with the third gear 310, and the upper end of the rack plate 311 is in meshed connection with the fourth gear 313.

The material cleaning mechanism comprises an electric cylinder 305, a first gas distribution plate 334, a fourth motor 335, a lead screw 336, a supporting plate 337 and a material cleaning plate 338, wherein the electric cylinder 305 is fixedly installed on one side, close to the exhaust pipe III 303, of the first purifying box 301, the partition 325 is fixedly connected with a piston rod of the electric cylinder 305, the partition 325 is provided with two partition 325, the two partition 325 are distributed at intervals, the first gas distribution plate 334 is slidably installed on a protection frame 316, the first gas distribution plate 334 is slidably connected with the partition 325, the first gas distribution plate 334 is provided with two, one first gas distribution plate 334 is arranged between the first liquid inlet pipe 326 and the third liquid inlet 331, the other first gas distribution plate 334 is arranged between the air inlet and the third liquid inlet 331, each first gas distribution plate 334 is provided with a fourth motor 335, the lead screw 336, the supporting plate 337 and the material cleaning plate 338, the supporting plate 337 is fixedly installed on the first gas distribution plate 334, the second gear 306 is rotatably installed on the first gas distribution plate 334, the lead screw 336 is rotatably connected with the supporting plate 337, the material cleaning plate 338 is slidably installed on the first gas distribution plate 334, the output shaft of the first lead screw 336 and the fourth motor 335 is fixedly connected with the fourth motor 335, the fourth motor 335 is fixedly connected with the fourth motor 335 through the fourth motor 335, the fourth motor 335 is arranged on the two sides of the fourth motor is fixedly connected with the fourth motor 335, the fourth motor is fixedly arranged on the fourth motor and is fixedly connected with the fourth motor plate 337, each side is arranged on the upper than the supporting plate 334 is fixedly arranged.

The material shaking mechanism comprises a power component and a material shaking component, the power component and the material shaking component are all installed on the protection frame 316, the material shaking component is connected with the partition plate 325, the material shaking components are arranged in two and distributed up and down, one material shaking component above is connected with a first gas uniform distribution plate 334 above, one material shaking component below is connected with a first gas uniform distribution plate 334 below, the power component comprises a cam 320 and a third motor 321, the third motor 321 is fixedly installed on the protection frame 316, and the cam 320 is fixedly installed on an output shaft of the third motor 321.

The shaking component comprises a first spring 317, a first slide rod 318, a lifting rod 319, a first impact pin 322, a second impact pin 323 and a second spring 324, wherein the first slide rod 318 is slidably arranged on the protective frame 316, one end of the first spring 317 is fixedly arranged on the protective frame 316, the other end of the first spring 317 is fixedly arranged on the first slide rod 318, each shaking component is provided with two first slide rods 318, the two first slide rods 318 are respectively distributed on two sides of a third motor 321, the two first slide rods 318 are connected through the lifting rod 319, the first impact pin 322 is fixedly arranged on the protective frame 316, the first impact pin 322 in the upper shaking component is arranged on the lower side of the first slide rod 318 in the upper shaking component, the first impact pin 322 in the lower shaking component is arranged on the upper side of the first slide rod 318 in the lower shaking component, one end of the second spring 324 is fixedly connected with a partition plate 325, the other end of the second spring 324 is fixedly connected with a first gas plate 334, the second impact pin 323 in the upper shaking component is fixedly arranged on the partition plate 325, the second impact pin 323 in the upper shaking component is arranged on the lower side of the upper gas plate 334, and the second impact pin 323 in the lower shaking component is uniformly distributed on the lower side of the upper shaking component 334.

The air inlet unit comprises a first supporting seat 201, a first motor 202, a first rotating shaft 203, an air inlet hopper 204, a first gear 205, a first exhaust pipe 206, a gear 207 and a second exhaust pipe 208, wherein the first supporting seat 201 is fixedly arranged on the supporting frame 101, the first motor 202 is fixedly arranged on the first supporting seat 201, the first rotating shaft 203 is coaxially and fixedly arranged on an output shaft of the first motor 202, the first gear 205 is coaxially and fixedly arranged on the first rotating shaft 203, the second exhaust pipe 208 is fixedly arranged on the first supporting seat 201, one end of the second exhaust pipe 208 is simultaneously communicated with air inlets on the first purifying box 301 and the protecting frame 316, the first exhaust pipe 206 is rotatably arranged on the second exhaust pipe 208, the gear 207 is fixedly arranged on the first exhaust pipe 206, the first gear 205 is in meshed connection with the gear 207, the air inlet hopper 204 is fixedly arranged at the end part of the first exhaust pipe 206, the air inlet hopper 204 is in a horn shape with a front big back small, and the second exhaust pipe 208 is provided with the first exhaust pipe 208.

The second purifying unit comprises a purifying box II 401, an air outlet plate 402, a water inlet pipe I403 and a wet electrostatic precipitator, wherein the purifying box II 401 is fixedly arranged on the supporting frame 101, a gas uniform distribution plate II is arranged in the purifying box II 401, the wet electrostatic precipitator is arranged above the gas uniform distribution plate II, a fan is arranged above the wet electrostatic precipitator, the air outlet plate 402 is arranged above the fan, a plurality of ventilation openings are formed in the air outlet plate 402, the water inlet pipe I403 is fixedly arranged on the side face of the purifying box II 401, the water inlet pipe I403 is externally connected with a water injection mechanism, the water inlet pipe I403 is connected with the wet electrostatic precipitator, an exhaust pipe III 303 is communicated with the purifying box II 401, an air flue 330 is communicated with the purifying box II through the exhaust pipe III 303, a liquid outlet opening II is connected with the waste water purifying unit, and an exhaust fan II is arranged on the exhaust pipe III 303.

The waste water purifying unit comprises a waste water purifying device 501, a liquid inlet bucket 502, a liquid inlet pipe five 503, a liquid outlet bucket 504, a water inlet bucket 505 and a water inlet pipe two 506, wherein the waste water purifying device 501 is fixedly arranged below the supporting frame 101, the liquid inlet bucket 502 and the water inlet bucket 505 are fixedly arranged on the supporting frame 101, the liquid inlet bucket 502 is communicated with a liquid outlet opening I on the first purifying box 301, the water inlet bucket 505 is communicated with a liquid outlet opening II on the second purifying box 401, one end of the liquid inlet pipe five 503 is communicated with the liquid inlet bucket 502, the other end of the liquid inlet pipe five 503 is communicated with the waste water purifying device 501, one end of the water inlet pipe two 506 is communicated with the water inlet bucket 505, the other end of the water inlet pipe two 506 is communicated with the waste water purifying device 501, the liquid outlet bucket 504 is fixedly arranged at the lower end of the waste water purifying device 501, and a control valve is arranged at the lower end of the liquid outlet bucket 504.

The working principle of the invention is as follows:

The air inlet unit works: the output shaft of the motor I202 drives the gear I205 to rotate through the rotating shaft I203, the gear I205 drives the exhaust pipe I206 to rotate through the gear ring 207, and the exhaust pipe I206 drives the air inlet hopper 204 to rotate, so that the angle of the air inlet hopper 204 is adjusted, the air inlet hopper 204 is adjusted to a windward position, and the exhaust fan I on the exhaust pipe II 208 works, so that the speed and efficiency of extracting air from the air inlet hopper 204 are improved.

The purifying mechanism and the driving mechanism work as follows: closing a control valve at the lower end of the liquid outlet hopper 504, leading the extracted air to enter the lower part of the first purifying box 301 from an air inlet on the protective frame 316, leading the air to enter the second purifying box 401 from the third exhaust pipe 303 after passing through the first air distribution plate 334, leading the air to uniformly move upwards under the action of the first air distribution plate 334, injecting desulfurization solution into the first nozzle 328 through the first liquid inlet pipe 327 and the third nozzle 331 by the liquid injection device, leading the desulfurization solution to enter the second nozzle 333 through the fourth liquid inlet pipe 332, ejecting the desulfurization solution through the first nozzles 328 and the second nozzle 333, leading the output shaft of the second motor 309 to drive the third gear 310 to rotate, leading the third gear 310 to drive the first rack plate 308 and the second rack plate 311 to move, leading the first rack plate 308 to drive the second gear 306 to rotate, the rack plate II 311 drives the gear IV 313 to rotate, the gear II 306 drives the liquid inlet pipe II 327 to rotate through the rotating shaft II 307, the liquid inlet pipe II 327 drives the spray head I328 to rotate, the gear IV 313 drives the liquid inlet pipe IV 332 to rotate through the rotating shaft III 312, the liquid inlet pipe IV 332 drives the spray head II 333 to rotate, and the rotation of the spray head I328 and the spray head II 333 can spray desulfurization solution towards a plurality of angles, so that the desulfurization solution is sprayed more uniformly, sulfur dioxide in air and the desulfurization solution can be fully reacted, the desulfurization effect on air and the desulfurization efficiency are improved, and simultaneously, large particle impurities in air fall onto the gas uniform distribution plate I334 under the action of the desulfurization solution, and the desulfurization solution fully reacted with the sulfur dioxide enters the wastewater purification unit through the liquid outlet opening I.

The material shaking mechanism and the material cleaning mechanism work: when the purification desulfurization is carried out, an output shaft of a motor III 321 drives a cam 320 to rotate, the cam 320 drives a slide bar I318 to move through a lifting rod 319, under the action of a spring I317 and a spring II 324, the lifting rod 319 and the slide bar I318 can vibrate reciprocally, and then a connected gas uniform distribution plate I334 is driven to vibrate reciprocally, and when the gas uniform distribution plate I334 and the corresponding impact pin I322 and the impact pin II 323 are impacted, large particle impurities adhered to the gas uniform distribution plate I334 can be conveniently shaken off, and the shaken-off large particle impurities enter a wastewater purification unit through a liquid outlet opening I; after purifying for a period of time (according to the time set during practical use), the piston rod of the electric cylinder 305 drives the baffle 325 to move, the baffle 325 slides on the connecting shaft 329, thereby make the baffle 325 keep away from the edulcoration opening on the first 334 of gas equipartition board, the output shaft of motor four 335 drives lead screw 336 and rotates, drive when the lead screw 336 rotates and clear flitch 338 and remove, clear up edulcoration opening part with the large granule impurity of adhesion on the first 334 of gas equipartition board air pocket, get into waste water purification unit through edulcoration opening through first, because shake off the mechanism and can drive the first shake 334 of gas equipartition board, simultaneously under the promotion of clear flitch 338, can prevent to lead to blockking up the problem of air pocket because of impurity is too much, avoided artifical clearance, reduce the clearance number of times of whole equipment, and improved holistic work efficiency, simultaneously also improved the flow rate of gas, make the desulfurization effect to gas obtain promoting.

The second purifying unit works: the desulfurized air enters the second purifying box 401 through the third exhaust pipe 303, enters the wet electrostatic precipitator through the second gas uniformly-distributed plate in the second purifying box 401, and is further cleaned through the wet electrostatic precipitator, the water injection device injects water through the first water inlet pipe 403, and the impurities are brought into the wastewater purifying unit through the second liquid outlet opening by utilizing water.

The waste water purifying unit works: waste liquid in the first purifying box 301 enters the waste water purifying device 501 through the liquid inlet hopper 502 and the liquid inlet pipe five 503, waste liquid containing impurities in the second purifying box 401 enters the waste water purifying device 501 through the water inlet hopper 505 and the water inlet pipe two 506, the waste water is purified through the waste water purifying device 501, after the waste water is treated, a control valve on the liquid outlet hopper 504 is opened, the treated liquid is discharged, and then the air is purified.

The starting and stopping of the working process and the power piece are controlled by the program control unit, the program control unit comprises a software control system and a hardware execution system, and the software control system controls the starting and stopping of the working process and the power piece through the hardware execution system.

Claims

1. The utility model provides a clarification plant for atmospheric pollution treatment, includes support frame (101), the bottom of support frame (101) is provided with program control unit, its characterized in that, install air inlet unit, first purification unit, second purification unit on support frame (101), air inlet unit, first purification unit, second purification unit connect gradually, be connected with waste water purification unit between first purification unit and the second purification unit, waste water purification unit sets up the bottom at support frame (101); the first purifying unit comprises a supporting mechanism, a purifying mechanism, a material shaking mechanism and a material cleaning mechanism, wherein the supporting mechanism is arranged on a supporting frame (101), one side of the supporting mechanism is connected with an air inlet unit, the other side of the supporting mechanism is connected with a second purifying unit, the purifying mechanism, the material shaking mechanism and the material cleaning mechanism are all arranged in the supporting mechanism, the material shaking mechanism is connected with the material cleaning mechanism, and the material cleaning mechanism is connected with the purifying mechanism.

2. The purification apparatus for atmospheric pollution abatement according to claim 1, wherein the support mechanism comprises a first purification tank (301), a first cover plate (302), a third exhaust pipe (303), a second cover plate (304) and a partition plate (325), wherein the first purification tank (301) is fixedly installed on the support frame (101), the first cover plate (302) is fixedly installed above the first purification tank (301), the second cover plate (304) is fixedly installed on a side surface of the first purification tank (301), the partition plate (325) is slidably installed in the first purification tank (301), an air channel (330) for air flow is formed inside the partition plate (325) and the first purification tank (301), the third exhaust pipe (303) is fixedly installed on a side surface of the first purification tank (301), the third exhaust pipe (303) is communicated with the air channel (330), a first liquid outlet opening is arranged below the first purification tank (301), and the first liquid outlet opening is connected with the wastewater purification unit.

3. The purifying apparatus for treating air pollution according to claim 2, wherein the purifying mechanism comprises a protective frame (316), a first liquid inlet pipe (326), a third liquid inlet pipe (331) and a driving mechanism, the protective frame (316) is fixedly installed in the first purifying tank (301), the protective frame (316) is arranged at one side far away from the partition plate (325) in the first purifying tank (301), the first liquid inlet pipe (326) and the third liquid inlet pipe (331) are fixedly installed on the protective frame (316), the first liquid inlet pipe (326) and the third liquid inlet pipe (331) are fixedly installed with a connecting shaft (329), the connecting shaft (329) is in sliding connection with the partition plate (325), the first liquid inlet pipe (326) and the third liquid inlet pipe (331) are fixedly installed with liquid inlet openings, liquid injection devices are externally connected to the liquid injection devices, desulfurization solutions are stored in the liquid injection devices, the liquid inlet openings penetrate through the first purifying tank (301), the third liquid inlet pipe (326) is arranged at the first liquid inlet pipe (326) and the third liquid inlet pipe (331), the first liquid inlet pipe (326) is fixedly connected with the second liquid inlet pipe (327), the first liquid inlet pipe (327) is fixedly connected with the first liquid inlet pipe (327) and the second liquid inlet pipe (327) are fixedly connected with the first liquid inlet pipe (327) and the second liquid inlet pipe (327) respectively, the liquid inlet pipe III (331) is rotationally provided with a plurality of liquid inlet pipes IV (332), each liquid inlet pipe IV (332) is fixedly provided with a plurality of spray heads II (333), the liquid inlet pipes IV (332) and the liquid inlet pipes II (327) are distributed at intervals, the driving mechanism is arranged on the side face of the purifying box I (301), the driving mechanism is arranged in the cover plate II (304), the liquid inlet pipes II (327) and the liquid inlet pipes IV (332) are connected with the driving mechanism, the lower end of the protecting frame (316) is provided with an air inlet, and the air inlet is arranged below the liquid inlet pipe III (331).

4. A purification apparatus for atmospheric pollution abatement according to claim 3, wherein the drive mechanism comprises a rack plate I (308), a motor II (309), a gear III (310), a rack plate II (311), a rail plate I (314) and a rail plate II (315), wherein the motor II (309), the rail plate I (314) and the rail plate II (315) are fixedly mounted on the side of the purification tank I (301), the rail plate I (314) is disposed below the rail plate II (315), each of the liquid inlet pipes II (327) is coaxially and fixedly mounted with a rotation shaft II (307), the rotation shaft II (307) is rotatably connected with the purification tank I (301), each of the rotation shafts II (307) is coaxially and fixedly mounted with a motor II (309), each of the liquid inlet pipes IV (332) is coaxially and fixedly mounted with a rotation shaft III (312), each of the rotation shafts III (312) is coaxially and fixedly mounted with a gear IV (313), the output shaft III (310) of the motor II (309) is coaxially and fixedly mounted with a gear III (310), the rack plate (308) is mounted on the rack III (308) and the rack (315) is mounted on the rack II (308), the upper end of the first rack plate (308) is in meshed connection with the second gear (306), the lower end of the first rack plate (308) is in meshed connection with the third gear (310), the upper end of the second rack plate (311) is in meshed connection with the third gear (310), and the lower end of the second rack plate (311) is in meshed connection with the fourth gear (313).

5. The purifying device for treating the atmospheric pollution, as set forth in claim 4, wherein the cleaning mechanism comprises an electric cylinder (305), a first gas uniformly distributing plate (334), a fourth motor (335), a lead screw (336), a supporting plate (337) and a cleaning plate (338), the electric cylinder (305) is fixedly installed on one side of the purifying box (301) close to the third exhaust pipe (303), the partition plate (325) is fixedly connected with a piston rod of the electric cylinder (305), the partition plate (325) is provided with two partition plates (325) at intervals, the first gas uniformly distributing plate (334) is slidably installed on the protecting frame (316), the first gas uniformly distributing plate (334) is slidably connected with the partition plate (325), the first gas uniformly distributing plate (334) is provided with two gas uniformly distributing plates, one gas uniformly distributing plate (334) is arranged between the first inlet pipe (326) and the third inlet pipe (331), the other gas uniformly distributing plate (334) is arranged between the air inlet and the third inlet pipe (331), each first gas uniformly distributing plate (334) is provided with the fourth motor (334), the second gas uniformly distributing plate (334) is fixedly installed on the first gas uniformly distributing plate (334) and the second gas uniformly distributing plate (334) is fixedly installed on the supporting plate (306), lead screw (336) and backup pad (337) rotate to be connected, clear flitch (338) slidable mounting is on gaseous equipartition board one (334), lead screw (336) and the coaxial fixed connection of output shaft of motor four (335), clear flitch (338) and lead screw (336) pass through threaded connection, motor four (335) fixed mounting is on pushing equipment, motor four (335) and protection frame (316) slidable connection, lead screw (336) on two gaseous equipartition boards one (334) set up in both sides respectively, every all be provided with a plurality of air equalizing openings on gaseous equipartition board one (334), every gaseous equipartition board one (334) is kept away from the one end of motor four (335) and all is set up the edulcoration opening.

6. The purifying apparatus for treating atmospheric pollution according to claim 5, wherein the material shaking mechanism comprises a power assembly and a material shaking assembly, the power assembly and the material shaking assembly are both mounted on the protective frame (316), the material shaking assembly is connected with the partition plate (325), the material shaking assemblies are provided with two material shaking assemblies which are distributed up and down, one material shaking assembly above is connected with a gas uniform distribution plate one (334) above, one material shaking assembly below is connected with a gas uniform distribution plate one (334) below, the power assembly comprises a cam (320) and a motor three (321), the motor three (321) is fixedly mounted on the protective frame (316), and the cam (320) is fixedly mounted on an output shaft of the motor three (321).

7. The purifying apparatus for treating air pollution according to claim 6, wherein the shaking units comprise a first spring (317), a first slide bar (318), a lifting rod (319), a first impact pin (322), a second impact pin (323) and a second spring (324), wherein the first slide bar (318) is slidably mounted on the first protective frame (316), one end of the first spring (317) is fixedly mounted on the first protective frame (316), the other end of the first spring (317) is fixedly mounted on the first slide bar (318), two first slide bars (318) are arranged in each shaking unit, the two first slide bars (318) are respectively distributed on two sides of the third motor (321), the two first slide bars (318) are connected through the lifting rod (319), the first impact pin (322) is fixedly mounted on the first protective frame (316), the first impact pin (322) in the upper shaking unit is mounted on the lower side of the first vibration unit, the second impact pin (322) in the lower shaking unit is fixedly mounted on the second impact unit (318) on the first slide bar (324), the other end of the second vibration unit (325) is fixedly connected with the second baffle plate (325) by the lifting rod (319), the second impact pin (323) in the upper material shaking component is arranged on the lower side of the first upper gas uniform distribution plate (334), and the second impact pin (323) in the lower material shaking component is arranged on the upper side of the first lower gas uniform distribution plate (334).

8. The purifying apparatus for treating air pollution according to claim 7, wherein the air intake unit comprises a first supporting seat (201), a first motor (202), a first rotating shaft (203), an air intake hopper (204), a first gear (205), a first exhaust pipe (206), a gear ring (207) and a second exhaust pipe (208), the first supporting seat (201) is fixedly installed on the supporting frame (101), the first motor (202) is fixedly installed on the first supporting seat (201), the first rotating shaft (203) is coaxially and fixedly installed on an output shaft of the first motor (202), the first gear (205) is coaxially and fixedly installed on the first rotating shaft (203), the second exhaust pipe (208) is fixedly installed on the first supporting seat (201), one end of the second exhaust pipe (208) is simultaneously communicated with the first exhaust pipe (301) and the second exhaust pipe (208), the first exhaust pipe (206) is rotatably installed on the second exhaust pipe (208), the gear ring (207) is fixedly installed on the first exhaust pipe (206), the first gear (205) is coaxially and fixedly installed on the first exhaust pipe (208), the second exhaust pipe (208) is fixedly installed on the front end of the second exhaust pipe (204), and the first exhaust pipe (204) is fixedly installed on the front end of the second exhaust pipe (204).

9. The purification device for treating atmospheric pollution according to claim 8, wherein the second purification unit comprises a purification box II (401), an air outlet plate (402), a water inlet pipe I (403) and a wet electrostatic precipitator, the purification box II (401) is fixedly installed on the support frame (101), a gas uniform distribution plate II is arranged in the purification box II (401), the wet electrostatic precipitator is arranged above the gas uniform distribution plate II, a fan is arranged above the wet electrostatic precipitator, the air outlet plate (402) is arranged above the fan, a plurality of ventilation openings are formed in the air outlet plate (402), the water inlet pipe I (403) is fixedly installed on the side face of the purification box II (401), the water inlet pipe I (403) is externally connected with a water injection mechanism, the air exhaust pipe I (403) is connected with the wet electrostatic precipitator, the air exhaust pipe III (303) is communicated with the purification box II (401) through the air exhaust pipe III (303), an opening of the purification box II (401) is formed in the lower portion of the purification box II, and the waste water outlet unit II is connected with the exhaust pipe III.

10. The purification device for atmospheric pollution abatement according to claim 9, wherein the wastewater purification unit comprises a wastewater purification device (501), a liquid inlet hopper (502), a liquid inlet pipe five (503), a liquid outlet hopper (504), a water inlet hopper (505) and a water inlet pipe two (506), wherein the wastewater purification device (501) is fixedly installed below the support frame (101), the liquid inlet hopper (502) and the water inlet hopper (505) are fixedly installed on the support frame (101), the liquid inlet hopper (502) is communicated with a liquid outlet opening one of the first purification tank (301), the water inlet hopper (505) is communicated with a liquid outlet opening two of the second purification tank (401), one end of the liquid inlet pipe five (503) is communicated with the liquid inlet hopper (502), the other end of the liquid inlet pipe five (503) is communicated with the wastewater purification device (501), one end of the water inlet pipe two (506) is communicated with the water inlet hopper (505), the other end of the water inlet pipe two (506) is communicated with the purification device (501), and the liquid outlet valve (504) is fixedly installed at the lower end of the wastewater purification tank (501).