CN115445371A

CN115445371A - Be used for industrial waste gas clean processing equipment

Info

Publication number: CN115445371A
Application number: CN202211078996.9A
Authority: CN
Inventors: 步长千
Original assignee: Individual
Current assignee: Individual
Priority date: 2022-09-05
Filing date: 2022-09-05
Publication date: 2022-12-09

Abstract

The invention discloses a device for cleaning and treating industrial waste gas, which comprises a dust removal mechanism and a photolysis mechanism, wherein the photolysis mechanism is arranged on one side of the dust removal mechanism; photolysis mechanism includes photolysis case, the outlet duct, goes into the gas port, the bracing piece, the board of keeping off the gas, the swivel rack, the rack slider, the headstock, the third motor, power gear, the UV fluorescent tube, support swivel, the swivel piece, rotating gear, the case that rotates, adjusting gear, hexagonal pole, fourth motor, regulating block, electric putter, scribble washing mechanism, wiper mechanism, photolysis case one side is equipped with the outlet duct, photolysis case opposite side is equipped with into the gas port. According to the invention, the cleaning agent is smeared to moisten and dissolve dust and condensed stains on the surface of the UV lamp tube, the UV lamp tube is scrubbed after water is absorbed by the cleaning wheel, and water on the surface of the lamp tube is scraped by the right-angle scraping box, so that the lamp tube is cleaned regularly and thoroughly, and the photolysis efficiency of the UV lamp tube is ensured.

Description

Be used for industrial waste gas clean processing equipment

Technical Field

The invention belongs to the technical field of industrial waste gas, and particularly relates to a cleaning treatment device for industrial waste gas.

Background

The working principle of the UV photolysis industrial waste gas treatment equipment is as follows: the exhaust gas discharged by cracking is irradiated by a special high-energy high-ozone UV ultraviolet beam, and the method can effectively treat the following steps: the molecular chain structure of waste gases such as hydrogen sulfide, methylthio hydrogen, methyl mercaptan, carbon disulfide, styrene, sulfides, hydrogen sulfide, VOC and the like enables organic or inorganic high-molecular waste gas compound molecular chains to be degraded and converted into low-molecular compounds such as CO2, H20 and the like under the irradiation of high-energy ultraviolet beams, thereby achieving effective treatment and realizing standard discharge.

The existing UV photolysis clean treatment equipment has the following problems: 1) Because the UV lamp tube is in the long-time use process, tiny dust can be attached to the surface of the lamp tube gradually, the photolysis efficiency of the UV lamp tube can be seriously influenced, and common dust brushing and dust scraping cannot remove stains condensed on the surface of the lamp tube.

Disclosure of Invention

The invention aims to overcome the defects in the prior art, and provides a device for cleaning and treating industrial waste gas.

In order to achieve the purpose, the invention adopts the technical scheme that:

the device for the clean treatment of the industrial waste gas comprises a dust removal mechanism and a photolysis mechanism, wherein the photolysis mechanism is arranged on one side of the dust removal mechanism;

the photolysis mechanism comprises a photolysis box, an air outlet pipe, an air inlet, support rods, an air baffle, a swivel rack, a rack slider, a power box, a third motor, a power gear, UV lamp tubes, a support swivel, a swivel block, a rotating gear, a rotating box, an adjusting gear, a hexagonal rod, a fourth motor, an adjusting block, an electric push rod, a coating mechanism and a cleaning mechanism, wherein the air outlet pipe is arranged on one side of the photolysis box, the air inlet is arranged on the other side of the photolysis box, the inner wall of the photolysis box is fixedly connected with the support rods, the support rods are fixedly connected with the air baffle, the air baffle is a transparent plate, one side inside the photolysis box is fixedly connected with the rack sliders, the rack sliders are in sliding connection with the swivel rack, a plurality of UV lamp tubes are uniformly arranged on the outer side of the center of the swivel rack, one end of the UV lamp tubes is movably connected with the swivel rack, the other end of the UV lamp tube is movably connected with a supporting swivel, one end of the UV lamp tube is connected with a rotating gear, the supporting swivel is slidably connected with a plurality of swivel blocks, the swivel blocks are fixed on the inner wall of the photolysis box, one side of the top of the photolysis box is fixedly connected with the power box, a power gear is arranged inside the power box, the power gear is connected with the output end of a third motor, the third motor is fixed on the photolysis box, the power gear is meshed with a swivel rack, one side of the bottom of the photolysis box is fixedly connected with the rotating box, the fourth motor and an electric push rod are both fixed on the inner side of the rotating box, the output end of the fourth motor is connected with a six-side rod, the six-side rod is slidably connected with an adjusting gear, the output end of the electric push rod is connected with an adjusting block, the adjusting gear is arranged on the inner side of the adjusting block, a cleaning mechanism is arranged on the bottom side of the photolysis box, and a coating and cleaning mechanism is arranged on one side of the bottom of the photolysis box;

filtered waste gas enters the photolysis box through the gas inlet, the UV lamp tube further photolyzes organic waste gas in the waste gas, the photolyzed waste gas is discharged through the gas outlet pipe, and the gas baffle plate guides the waste gas;

the coating and washing mechanism comprises a coating and washing box, a first hydraulic cylinder, a fifth motor, a guide rod, a first lead screw, a moving block, a moving box, a coating brush, a spray head, a sixth motor, a rotating wheel and a liquid feeding pipe, wherein the coating and washing box is movably connected with the photolysis box, two sides of the coating and washing box are fixedly connected with the first hydraulic cylinder, the output end of the first hydraulic cylinder is connected with the photolysis box, the fifth motor is arranged on one side of the bottom of the coating and washing box, the output end of the fifth motor penetrates through the coating and washing box and is connected with one end of the first lead screw, the other end of the first lead screw is movably connected with the coating and washing box, the first lead screw is connected with the moving block through threads, the moving block is fixedly connected with the moving box, one side of the top of the moving box is slidably connected with the guide rod through another moving block, two ends of the guide rod are fixed on the inner wall of the coating and washing box, the coating brush is arranged on the inner side of the moving box, the coating and washing box is provided with the rotating wheel and the output end of the sixth motor, the sixth motor is fixed on the inner side of the moving block, the coating and washing box, the coating and washing box are provided with the spray head;

the third motor provides power for rotation of the power gear, the power gear further drives the swivel rack to rotate on the rack slider and further drives the UV lamp tube to rotate, the UV lamp tube drives the support swivel to rotate on the swivel block, the UV lamp tube rotates 90 degrees each time, the first hydraulic cylinder provides power for the movement of the cleaning box on the photolysis box, the cleaning box drives other components of the cleaning mechanism to move, the moving box further approaches the UV lamp tube and feeds cleaning agent into the liquid feeding tube, the cleaning agent is sprayed to the cleaning brush through the spray head, meanwhile, the sixth motor provides power for rotation of the rotating wheel, the rotating wheel drives the cleaning brush to rotate through friction, the cleaning brush further cleans the UV lamp tube through the cleaning brush, meanwhile, the fourth motor provides power for rotation of the six side rods, the six side rods drive the adjusting gear to rotate, the electric push rod provides power for movement of the adjusting blocks, the adjusting gear further pushes the adjusting gear to be meshed with the rotating gear, the adjusting gear further drives the rotating gear and the UV lamp tube to rotate, the cleaning gear and the UV lamp tube to rotate, so that the cleaning agent is uniformly cleaned on the periphery of the UV lamp tube, the fifth motor provides power for rotation of the first lead screw, the moving block and the cleaning box to drive the cleaning mechanism to clean the UV lamp tube, and reset the UV lamp tube, and clean the whole lamp tube.

Preferably, the cleaning mechanism comprises an extension box, a cleaning box, a second hydraulic cylinder, an extension frame, a fixed block, a seventh motor, a second screw rod, a drain pipe, a water supply pipe, a guide plate, a cleaning frame, a connecting frame, a water baffle, a running water box, a cleaning wheel, an auxiliary plate, an eighth motor, a water pumping pipe, a spring rod and a right-angle scraping box, wherein the extension box is fixed at the bottom of the cleaning box, the cleaning box is arranged at the inner side of the extension box, the bottom of the cleaning box is fixedly connected with a plurality of extension frames, the second hydraulic cylinder is arranged on each extension frame, the output end of the second hydraulic cylinder is connected with the photolysis box, the two ends of the inner side of the cleaning box are fixedly connected with the fixed block, the two ends of the fixed block and the two ends of the second screw rod are movably connected, one end of the second screw rod is connected with the output end of the seventh motor through a belt and a wheel belt, and the seventh motor is fixed at the inner side of the cleaning box, the second screw rod is connected with the multiple connecting frames through threads, the connecting frames are fixedly connected with the cleaning frame, two ends of the water baffle are fixedly connected with the connecting frames, the two sides of the bottom of the cleaning frame are respectively provided with the multiple guide plates, the guide plates are fixedly connected with the cleaning box, the top of the cleaning frame is fixedly connected with the running water box, one side of the running water box is communicated with the water pumping pipe, the water pumping pipe is provided with a water pump, the inner side of the running water box is provided with a cleaning wheel, the cleaning wheel is connected with the output end of an eighth motor, the eighth motor is fixed on an auxiliary plate, the auxiliary plate is fixedly connected with the cleaning frame, the two sides of the cleaning frame are respectively provided with a spring rod, the outer side of the spring rod is provided with a spring, the top of the spring rod is slidably connected with a right-angle scraping box, one side of the right-angle scraping box is provided with a notch corresponding to a rotating shaft of the eighth motor, the bottom of the cleaning box is provided with a water discharge pipe and a water supply pipe, and the water supply pipe are respectively provided with an electromagnetic valve;

the second hydraulic cylinder is an extension frame, the cleaning box moves to provide power, an electromagnetic valve at the position of a water supply pipe is opened to supply water into the cleaning box through the water supply pipe, when the amount of water in the cleaning box reaches a set value, the water discharge pipe electromagnetic valve is opened to discharge the water through a water discharge pipe, the cleaning box drives parts in the cleaning box to move together, the right-angle cleaning box firstly contacts with a UV lamp tube coated with a cleaning agent until the cleaning wheel contacts with the UV lamp tube, the right-angle cleaning box slides on a spring rod and presses against a spring, meanwhile, a water pump pumps the water in the cleaning box to a flowing water box through a water pump, the cleaning wheel absorbs the water in the flowing water box, the redundant water directly flows out of the flowing water box to the cleaning box, meanwhile, an eighth motor provides power for the rotation of the cleaning wheel, the second lead screw further drives the cleaning frame to slide under the guidance of the cleaning agent and dirt on the UV lamp tube, meanwhile, the UV lamp tube continues to rotate, the cleaning wheel after cleaning, the cleaning wheel cleans the cleaning box and the cleaning rack after the cleaning box moves, the cleaning rack moves to clean the lamp tube, the cleaning rack after the cleaning operation is completed.

Preferably, the dust removal mechanism comprises a dust removal box, an air inlet pipe, a treatment box, a filter chamber, a transition chamber, a filter bag, an inner support frame, a back flushing mechanism and a transition port, the bottom of the dust removal box is connected with the treatment box, a plurality of air inlet pipes are arranged on one side of the dust removal box, the transition port is arranged on the other side of the dust removal box, the transition port is communicated with the air inlet, the filter chamber and the transition chamber are respectively arranged on the inner side of the treatment box, a partition plate is arranged between the filter chamber and the transition chamber, the partition plate is fixedly connected with one end of the inner support frame, the filter bag is arranged on the outer side of the inner support frame, and the back flushing mechanism is arranged on the top of the dust removal box;

waste gas enters the filtering chamber through the gas inlet pipe, dust in the waste gas is filtered by the filtering bag and then enters the transition chamber, the dust in the waste gas flows to the gas inlet through the transition port of the filtering chamber, the filtered dust falls into the processing box and is periodically cleaned, and meanwhile, the back flushing mechanism performs back flushing dust removal on the filtering bag.

Preferably, the back-blowing mechanism comprises a high-pressure spray pipe, a high-pressure spray head, spiral teeth, a key groove belt wheel, an internal thread belt wheel, a limiting frame, a first motor and a second motor, the high-pressure spray pipe is arranged at the bottom of the high-pressure spray pipe, the spiral teeth are arranged on the outer side of the high-pressure spray pipe, the internal thread belt wheel is arranged on the outer side of the top of the high-pressure spray pipe and is meshed with the spiral teeth through threads, the internal thread belt wheel is movably connected with the limiting frame, the limiting frame is fixed on the dust removal box, the key groove belt wheel is arranged on the bottom side of the internal thread belt wheel, the outer side of the key groove belt wheel is movably connected with the dust removal box, the inner side of the key groove belt wheel is slidably connected with the high-pressure spray pipe, a key groove is formed in the inner side of the key groove belt wheel and corresponds to the spiral teeth, the internal thread belt wheel is connected with the output end of the second motor through a belt wheel and a belt, the output end of the first motor is connected with the output end of the first motor, and the second motor are both fixed on the dust removal box through a motor support;

high-pressure gas is sent into a high-pressure nozzle through a high-pressure spray pipe, the high-pressure nozzle carries out reverse dust blowing on the filter bag, meanwhile, a first motor provides power for the rotation of a key groove belt wheel through a belt pulley, the key groove belt wheel drives a spiral tooth, the high-pressure spray pipe, the high-pressure nozzle and an internal thread belt wheel to rotate, the high-pressure nozzle further carries out rotating and dust removing on the filter bag, a second motor drives an internal thread belt wheel to rotate on a limiting frame through the belt pulley, the rotation directions of the key groove belt wheel and the internal thread belt wheel are opposite, and the internal thread belt wheel further drives the high-pressure spray pipe to move relative to the internal thread belt wheel through a thread and a spiral tooth; the keyway band pulley drives high-pressure spray tube, high-pressure nozzle, spiral shell tooth, internal thread band pulley and rotates after the displacement, and the second motor outage, internal thread band pulley follow the keyway band pulley and rotate, and high-pressure nozzle then changes the circle to crossing the filter bag and removes dust, and above action circulation is accomplished until crossing the bag blowback operation, and high-pressure spray tube resets, stops the high pressure gas that pressurizes of high pressure.

Compared with the prior art, the invention has the beneficial effects that:

1) The first hydraulic cylinder provides power for the coating box to move on the photolysis box, the coating box drives other parts of the coating mechanism to move, the moving box is further close to the UV lamp tube, a cleaning agent is fed into the liquid feeding tube and sprayed to the coating brush through the spraying head, meanwhile, the sixth motor provides power for the rotation of the rotating wheel, the rotating wheel drives the coating brush to rotate through friction force, the coating brush further coats the cleaning agent on the UV lamp tube, meanwhile, the fourth motor provides power for the rotation of the hexagonal rod, the hexagonal rod drives the adjusting gear to rotate, the electric push rod provides power for the movement of the adjusting block, the adjusting block further pushes the adjusting gear to be meshed with the rotating gear, the adjusting gear further drives the rotating gear and the UV lamp tube to rotate, the cleaning agent is uniformly coated on the periphery of the UV lamp tube, the fifth motor provides power for the rotation of the first lead screw, the first lead screw further drives the moving block and the moving box to move, the moving block slides on the guide rod, the coating brush further coats the cleaning agent for the whole UV lamp tube, and the coating mechanism is reset after the coating mechanism is completely coated; the second hydraulic cylinder provides power for the extension frame and the cleaning box to move, the electromagnetic valve at the water supply pipe is opened to supply water into the cleaning box through the water supply pipe, when the water amount in the cleaning box reaches a set value, the water drain pipe electromagnetic valve is opened to drain the water through the water drain pipe, the cleaning box drives parts in the cleaning box to move together, the right-angle cleaning box firstly contacts with the UV lamp tube coated with the cleaning agent until the cleaning wheel contacts with the UV lamp tube, meanwhile, the right-angle cleaning box slides on the spring rod and presses against the spring, meanwhile, the water in the cleaning box is pumped to the running water box through the water pump by the water pump, the cleaning wheel absorbs the water in the running water box, the redundant water directly flows out of the running water box to the cleaning box, meanwhile, the eighth motor provides power for the rotation of the cleaning wheel, the cleaning wheel rotates and cleans the cleaning agent and dirt on the UV lamp tube together, meanwhile, the UV lamp tube continues to rotate, the cleaning wheel after cleaning is cleaned, the seventh motor provides power for the rotation of the second lead screw further drives the cleaning frame to slide under the guide plate, the cleaning wheel and the right-angle cleaning box to clean the whole UV lamp tube; dust and condensed stains on the surface of the UV lamp tube can be wetted and dissolved by smearing a cleaning agent, the UV lamp tube is scrubbed after water is absorbed by the cleaning wheel, and water on the surface of the lamp tube is scraped by the right-angle scraping box, so that the lamp tube is cleaned regularly and thoroughly, and the photolysis efficiency of the UV lamp tube is ensured;

2) High-pressure gas is sent into a high-pressure nozzle through a high-pressure spray pipe, the high-pressure nozzle carries out reverse dust blowing on the filter bag, meanwhile, a first motor provides power for the rotation of a key groove belt wheel through a belt pulley, the key groove belt wheel drives the high-pressure spray pipe, the high-pressure nozzle, spiral teeth and an internal thread belt wheel to rotate, the high-pressure nozzle further carries out rotating and dust removing on the filter bag, a second motor drives the internal thread belt wheel to rotate on a limiting frame through the belt pulley, the rotation directions of the key groove belt wheel and the internal thread belt wheel are opposite, and the internal thread belt wheel further drives the high-pressure spray pipe to move relative to the internal thread belt wheel through the threads and the spiral teeth; the keyway band pulley drives high-pressure spray tube, high-pressure nozzle, spiral shell tooth, internal thread band pulley and rotates after the displacement, and the outage of second motor, internal thread band pulley follow the keyway band pulley and rotate, and high-pressure nozzle and then change the circle to crossing the filter bag and remove dust, and above action circulation is accomplished until crossing the operation of filter bag blowback, regularly carries out reverse dust blowing to crossing the filter bag, guarantees the filter effect of crossing the filter bag.

Drawings

FIG. 1 is a schematic structural view of an apparatus for cleaning and treating industrial waste gas according to the present invention;

FIG. 2 is another schematic view of the structure of an industrial waste gas cleaning and treating apparatus according to the present invention;

FIG. 3 is a schematic view of the internal structure of an apparatus for cleaning and treating industrial waste gas according to the present invention;

FIG. 4 is a schematic view of the internal structure of a dust removing mechanism used in the industrial waste gas cleaning and treating equipment according to the present invention;

FIG. 5 is a schematic diagram of an internal structure of a photolysis tank for industrial waste gas clean-up processing equipment according to the present invention;

FIG. 6 is a schematic structural view of a coating and washing mechanism used in an industrial waste gas cleaning and treating apparatus according to the present invention;

FIG. 7 is a schematic view of the internal structure of a movable box used in an industrial waste gas cleaning and treating apparatus according to the present invention;

FIG. 8 is a schematic view of a flow water tank for an industrial waste gas cleaning apparatus according to the present invention;

FIG. 9 is a schematic view of a spline pulley used in an industrial waste gas cleaning apparatus according to the present invention;

in the figure: 1. a dust removal mechanism; 11. a dust removal box; 12. an air inlet pipe; 13. a treatment box; 14. a filtering chamber; 15. a transition chamber; 16. a filter bag; 17. an inner support frame; 18. a blowback mechanism; 81. a high pressure nozzle; 82. a high pressure spray head; 83. screw teeth; 84. a keyway pulley; 85. an internal threaded pulley; 86. a limiting frame; 87. a first motor; 88. a second motor; 19. a transition port; 2. a photolysis mechanism; 21. a photolysis tank; 22. an air outlet pipe; 23. an air inlet; 24. a support bar; 25. a gas baffle; 26. a swivel rack; 27. a rack slider; 28. a power box; 29. a third motor; 201. a power gear; 202. a UV lamp tube; 203. supporting the swivel; 204. a rotating ring block; 205. a rotating gear; 206. a rotating box; 207. adjusting the gear; 208. a hexagonal rod; 209. a fourth motor; 211. an adjusting block; 212. an electric push rod; 213. a coating mechanism; 31. a coating and washing box; 32. a first hydraulic cylinder; 33. a fifth motor; 34. a guide bar; 35. a first lead screw; 36. a moving block; 37. a mobile box; 38. coating and brushing; 39. spraying and washing the head; 301. a sixth motor; 302. a rotating wheel; 303. a liquid delivery pipe; 214. a cleaning mechanism; 41. an extension box; 42. a cleaning tank; 43. a second hydraulic cylinder; 44. an extension frame; 45. a fixed block; 46. a seventh motor; 47. a second lead screw; 48. a drain pipe; 49. a water supply pipe; 401. a guide plate; 402. a cleaning frame; 403. a wire connecting frame; 404. a water baffle; 405. a water flowing tank; 406. cleaning the wheel; 407. a sub-board; 408. an eighth motor; 409. a water pumping pipe; 412. a spring lever; 413. and (5) scraping the box at a right angle.

Detailed Description

For the understanding of the technical field, the technical solution of the present invention is further explained in detail with reference to the accompanying drawings 1-9.

The device for the clean treatment of the industrial waste gas comprises a dust removal mechanism 1 and a photolysis mechanism 2, wherein the photolysis mechanism 2 is arranged on one side of the dust removal mechanism 1;

the photolysis mechanism 2 comprises a photolysis box 21, an air outlet pipe 22, an air inlet 23, a support rod 24, an air baffle plate 25, a swivel rack 26, a rack slider 27, a power box 28, a third motor 29, a power gear 201, a UV lamp tube 202, a support swivel 203, a swivel block 204, a rotating gear 205, a rotating box 206, an adjusting gear 207, a six-sided rod 208, a fourth motor 209, an adjusting block 211, an electric push rod 212, a coating and washing mechanism 213 and a washing mechanism 214, wherein the photolysis box 21 is provided with the air outlet pipe 22 at one side, the other side of the photolysis box 21 is provided with the air inlet 23, the inner wall of the photolysis box 21 is fixedly connected with the support rods 24, the support rods 24 are fixedly connected with the air baffle plate 25, the air baffle plate 25 is a transparent plate, one side of the inside of the photolysis box 21 is fixedly connected with the rack sliders 27, the rack sliders 27 are slidably connected with the swivel rack 26, the central outer side of the photolysis box 21 is uniformly provided with a plurality of UV lamps 202, one end of the UV lamp tube 202 is movably connected with the swivel rack 26, the rotating block 203 is movably connected with the rotating ring 203, one side of the rotating box 203 is connected with the adjusting gear 203, the rotating box 21, the adjusting gear 21 is connected with the third motor 21, the rotating box 21 is connected with the rotating rack slider 204, the rotating box 21, the rotating rod 201, the rotating box 21, the rotating rod 207 is connected with the rotating box 21, the rotating rod 207, the rotating box, the rotating rod 201, the rotating box 21 is connected with the rotating rod 207, the rotating box 21, the rotating rod 206, the rotating box 21, the rotating rod 207 is connected with the rotating box 21, the rotating box 21, the rotating rod 207, the adjusting block 206, a cleaning mechanism 214 is arranged at the bottom side of the photolysis tank 21, and a coating and cleaning mechanism 213 is arranged at one side of the bottom of the photolysis tank 21;

the filtered waste gas enters the photolysis box 21 through the gas inlet 23, the UV lamp tube 202 further photolyzes the organic waste gas in the waste gas, the photolyzed waste gas is discharged through the gas outlet tube 22, and the gas baffle plate 25 guides the waste gas;

the coating and washing mechanism 213 comprises a coating and washing box 31, a first hydraulic cylinder 32, a fifth motor 33, a guide rod 34, a first lead screw 35, a moving block 36, a moving box 37, a coating brush 38, a spray washing head 39, a sixth motor 301, a rotating wheel 302 and a liquid sending pipe 303, wherein the coating and washing box 31 is movably connected with the optical decomposition box 21, two sides of the coating and washing box 31 are fixedly connected with the first hydraulic cylinder 32, the output end of the first hydraulic cylinder 32 is connected with the optical decomposition box 21, the fifth motor 33 is arranged on one side of the bottom of the coating and washing box 31, the output end of the fifth motor 33 penetrates through the coating and washing box 31 and is connected with one end of the first lead screw 35, the other end of the first lead screw 35 is movably connected with the coating and washing box 31, the first lead screw 35 is connected with the moving block 36 through threads, the moving block 36 is fixedly connected with the moving box 37, one side of the top of the moving box 37 is slidably connected with the other moving block 36 and the guide rod 34, two ends of the guide rod 34 are fixed on the inner wall of the coating and washing box 31, the coating and washing pipe 38 is arranged on the inner side of the coating and washing box 37, the coating and washing box 38, the rotating wheel 302 is connected with the spraying brush head 303, the spraying brush 301, the spraying brush 38, the spraying brush 13 and the spraying brush 13, the spraying brush 38 are connected with the spraying head 303, the spraying head 303;

the third motor 29 provides power for the rotation of the power gear 201, the power gear 201 further drives the swivel rack 26 to rotate on the rack slider 27, and further drives the UV lamp 202 to rotate, the UV lamp 202 drives the support swivel 203 to rotate on the swivel block 204, the UV lamp 202 rotates 90 degrees each time, the first hydraulic cylinder 32 provides power for the movement of the painting box 31 on the optical decomposition box 21, the painting box 31 drives other components of the painting mechanism 213 to move, the moving box 37 further approaches the UV lamp 202, and feeds cleaning agent into the liquid feeding pipe 303, the cleaning agent is sprayed to the painting brush 38 through the spraying head 39, meanwhile, the sixth motor 301 provides power for the rotation of the rotating wheel 302, the rotating wheel 302 drives the painting brush 38 to rotate through friction force, the painting brush 38 further paints the cleaning agent on the UV lamp 202, and simultaneously, the fourth motor 209 provides power for the rotation of the six-sided rod 208, the hexagonal rod 208 drives the adjusting gear 207 to rotate, the electric push rod 212 provides power for the movement of the adjusting block 211, the adjusting block 211 further pushes the adjusting gear 207 to be meshed with the rotating gear 205, the adjusting gear 207 further drives the rotating gear 205 and the UV lamp tube 202 to rotate, so that cleaning agents are uniformly coated on the periphery of the UV lamp tube 202, the fifth motor 33 provides power for the rotation of the first lead screw 35, the first lead screw 35 further drives the moving block 36 and the moving box 37 to move, the moving block 36 slides on the guide rod 34, the coating brush 38 further coats the cleaning agents on the whole UV lamp tube 202, after the coating is completed, the coating mechanism 213 is reset integrally, the spray head 39 stops spraying the cleaning agents, the lower group of UV lamp tubes 202 is prepared to be coated, and the coated UV lamp tube 202 is cleaned by the cleaning mechanism 214.

The cleaning mechanism 214 comprises an extension box 41, a cleaning box 42, a second hydraulic cylinder 43, an extension frame 44, a fixed block 45, a seventh motor 46, a second lead screw 47, a drain pipe 48, a water supply pipe 49, a guide plate 401, a cleaning frame 402, a connecting frame 403, a water baffle 404, a running water tank 405, a cleaning wheel 406, a secondary plate 407, an eighth motor 408, a water pumping pipe 409, a spring rod 412 and a right-angle scraping box 413, wherein the extension box 41 is fixed at the bottom of the cleaning box 42, the cleaning box 42 is arranged at the inner side of the extension box 41, the bottom of the cleaning box 42 is fixedly connected with a plurality of extension frames 44, the second hydraulic cylinder 43 is arranged on the extension frame 44, the output end of the second hydraulic cylinder 43 is connected with the photolysis box 21, two ends of the inner side of the cleaning box 42 are fixedly connected with the fixed block 45, two ends of the fixed block 45 are movably connected with two ends of the second lead screw 47, one end of the second lead screw 47 is connected with the output end of the seventh motor 46 through a belt and a wheel belt, the seventh motor 46 is fixed at the inner side of the cleaning box 42, the second lead screw 47 is connected with a plurality of connecting frames 403 through threads, the connecting frames 403 are fixedly connected with the cleaning frame 402, two ends of a water baffle 404 are fixedly connected with the connecting frames 403, two sides of the bottom of the cleaning frame 402 are respectively provided with a plurality of guide plates 401, the guide plates 401 are fixedly connected with the cleaning box 42, the top of the cleaning frame 402 is fixedly connected with a flow box 405, one side of the flow box 405 is communicated with a water pumping pipe 409, the water pumping pipe 409 is provided with a water pump, the inner side of the flow box 405 is provided with a cleaning wheel 406, the cleaning wheel 406 is connected with the output end of an eighth motor 408, the eighth motor 408 is fixed on an auxiliary plate 407, the auxiliary plate 407 is fixedly connected with the cleaning frame 402, two sides of the cleaning frame 402 are respectively provided with a spring rod 412, the outer side of the spring rod 412 is provided with a spring, the top of the spring rod 412 is slidably connected with a right-angle scraping box 413, one side of the right-angle scraping box 413 is provided with a notch corresponding to the rotating shaft of the eighth motor 408, the bottom of the cleaning box 42 is provided with a drain pipe 48, electromagnetic valves are arranged on the water supply pipe 49, the water discharge pipe 48 and the water supply pipe 49;

the second hydraulic cylinder 43 provides power for the extension frame 44 and the cleaning box 42 to move, the solenoid valve at the water supply pipe 49 is opened to supply water into the cleaning box 42 through the water supply pipe 49, when the water amount in the cleaning box 42 reaches a set value, the solenoid valve of the water discharge pipe 48 is opened to discharge the water through the water discharge pipe 48, the cleaning box 42 drives the components in the cleaning box 42 to move together, the right-angle scraping box 413 firstly contacts the UV lamp tube 202 coated with the cleaning agent until the cleaning wheel 406 contacts the UV lamp tube 202, the right-angle scraping box 413 slides on the spring rod 412 and presses the spring, the water suction pipe 409 pumps the water in the cleaning box 42 to the flow box 405 through the water pump, the cleaning wheel 406 absorbs the water in the flow box 405, the surplus water directly flows out of the flow box 405 to the cleaning box 42, the eighth motor 408 provides power for the rotation of the cleaning wheel 406, the cleaning wheel 406 rotates and cleans the cleaning agent and the dirt on the UV lamp tube 202, simultaneously, the UV lamp tube 202 continuously rotates to complete the cleaning of the periphery of the UV lamp tube 202, the cleaned cleaning wheel 406 is cleaned in the flowing water tank 405, the seventh motor 46 provides power for the rotation of the second lead screw 47, the second lead screw 47 further drives the cleaning frame 402 to slide under the guide of the guide plate 401 through the connecting frame 403, the cleaning frame 402 further drives the cleaning wheel 406 and the right-angle scraping box 413 to move, the cleaning wheel 406 further cleans the UV lamp tube 202 integrally, meanwhile, the right-angle scraping box 413 scrapes water off the cleaned lamp tube, when the cleaning wheel 406 cleans the UV lamp tube 202, the cleaning box 42 moves to drive the cleaning wheel 406 to move away from the UV lamp tube 202, meanwhile, the right-angle scraping box 413 continuously clings to the UV lamp tube 202 to perform the wiping operation under the elastic support of a spring, after the cleaning operation is completed, the moving box 37 resets, and after the UV lamp tube 202 rotates 90 degrees along with the rotating rack 26, the coating and cleaning operations are repeated for a new group of UV lamps 202 until all UV lamps 202 are cleaned.

The dust removal mechanism 1 comprises a dust removal box 11, an air inlet pipe 12, a treatment box 13, a filter chamber 14, a transition chamber 15, a filter bag 16, an inner support frame 17, a back flushing mechanism 18 and a transition port 19, the bottom of the dust removal box 11 is connected with the treatment box 13, a plurality of air inlet pipes 12 are arranged on one side of the dust removal box 11, the transition port 19 is arranged on the other side of the dust removal box 11, the transition port 19 is communicated with an air inlet 23, the filter chamber 14 and the transition chamber 15 are respectively arranged on the inner side of the treatment box 13, a partition plate is arranged between the filter chamber 14 and the transition chamber 15 and fixedly connected with one end of the inner support frame 17, the filter bag 16 is arranged on the outer side of the inner support frame 17, and the back flushing mechanism 18 is arranged on the top of the dust removal box 11;

the waste gas enters the filter chamber 14 through the gas inlet pipe 12, the dust in the waste gas is filtered by the filter bag 16, the waste gas enters the transition chamber 15, the waste gas flows to the gas inlet 23 through the transition port 19 of the filter chamber 14, the filtered dust partially falls into the treatment box 13 and is periodically cleaned, and the filter bag 16 is subjected to back blowing and dust removal by the back blowing mechanism 18.

The back blowing mechanism 18 comprises a high-pressure spray pipe 81, a high-pressure spray head 82, spiral teeth 83, a key groove belt wheel 84, an internal thread belt wheel 85, a limiting frame 86, a first motor 87 and a second motor 88, wherein the high-pressure spray head 82 is arranged at the bottom of the high-pressure spray pipe 81, a plurality of spiral teeth 83 are arranged on the outer side of the high-pressure spray pipe 81, the internal thread belt wheel 85 is arranged on the outer side of the top of the high-pressure spray pipe 81, the internal thread belt wheel 85 is meshed with the spiral teeth 83 through threads, the internal thread belt wheel 85 is movably connected with the limiting frame 86, the limiting frame 86 is fixed on the dust removal box 11, the key groove belt wheel 84 is arranged on the bottom side of the internal thread belt wheel 85, the outer side of the key groove belt wheel 84 is movably connected with the dust removal box 11, the inner side of the key groove belt wheel 84 is slidably connected with the high-pressure spray pipe 81, a key groove is arranged on the inner side of the key groove belt wheel 84 and corresponds to the spiral teeth 83, the internal thread belt wheel 85 is connected with the output end of the second motor 88 through a belt wheel and a belt, the first motor 87 is connected with the output end of the first motor 88 through a belt wheel and a belt wheel, and a second motor support is fixed on the dust removal box 11;

high-pressure gas is sent into a high-pressure nozzle 82 through a high-pressure spray pipe 81, the high-pressure nozzle 82 reversely blows dust to the filter bag 16, meanwhile, a first motor 87 provides power for the rotation of a key groove belt wheel 84 through a belt pulley, the key groove belt wheel 84 drives a spiral tooth 83, the high-pressure nozzle 81, the high-pressure nozzle 82 and an internal thread belt wheel 85 to rotate, the high-pressure nozzle 82 further rotates and removes dust for the filter bag 16, a second motor 88 drives the internal thread belt wheel 85 to rotate on a limiting frame 86 through the belt pulley belt, the rotation directions of the key groove belt wheel 84 and the internal thread belt wheel 85 are opposite, and the internal thread belt wheel 85 further drives the high-pressure nozzle 81 to displace relative to the internal thread belt wheel 85 through threads and the spiral tooth 83; the keyway band pulley 84 drives high-pressure spray tube 81, high-pressure shower nozzle 82, spiral tooth 83, internal thread band pulley 85 and rotates behind the displacement, and second motor 88 cuts off the power supply, and internal thread band pulley 85 follows keyway band pulley 84 and rotates, and high-pressure shower nozzle 82 and then go on circling to filter bag 16 and remove dust, and above action circulation is accomplished until the blowback operation of filter bag 16 is accomplished, and high-pressure spray tube 81 resets, stops to supply high-pressure gas, and the dust of blowing off falls into through stewing and handles the case 13.

The industrial waste gas cleaning and treating equipment comprises the following working processes:

waste gas enters a filter chamber through an air inlet pipe, dust in the waste gas is filtered by a filter bag and then enters a transition chamber, the dust flows to an air inlet through a transition port of the filter chamber, the filtered dust falls into a treatment box and is periodically cleaned, and meanwhile, a back flushing mechanism performs back flushing dust removal on the filter bag; filtered waste gas enters the photolysis tank through the gas inlet, the UV lamp tube further photolyzes organic waste gas in the waste gas, and the photolyzed waste gas is discharged through the gas outlet pipe;

the third motor provides power for the rotation of the power gear, the power gear further drives the swivel rack to rotate on the rack sliding block and further drives the UV lamp tube to rotate, the UV lamp tube drives the supporting swivel to rotate on the swivel block, the UV lamp tube rotates 90 degrees each time, the first hydraulic cylinder provides power for the movement of the coating box on the photolysis box, the coating box drives other parts of the coating mechanism to move, the moving box further approaches the UV lamp tube and feeds cleaning agent into the liquid feeding pipe, the cleaning agent is sprayed to the coating brush through the spraying head, meanwhile, the sixth motor provides power for the rotation of the rotating wheel, the rotating wheel drives the coating brush to rotate through friction force, the coating brush further coats the cleaning agent on the UV lamp tube, and meanwhile, the fourth motor provides power for the rotation of the six side rods, the hexagonal rods drive the adjusting gears to rotate, the electric push rods provide power for movement of the adjusting blocks, the adjusting blocks further push the adjusting gears to be meshed with the rotating gears, the adjusting gears further drive the rotating gears and the UV lamp tubes to rotate, so that cleaning agents are uniformly coated on the peripheries of the UV lamp tubes, the fifth motor provides power for rotation of the first lead screw, the first lead screw further drives the moving block and the moving box to move, the moving block slides on the guide rods, the cleaning agents are coated on the UV lamp tubes integrally, after coating is completed, the coating mechanism integrally resets, the spray heads stop spraying the cleaning agents, the UV lamp tubes of the lower group are prepared to be coated, and the coated UV lamp tubes are cleaned by the cleaning mechanism

The second hydraulic cylinder provides power for the extension frame and the cleaning box to move, the electromagnetic valve at the water supply pipe is opened to supply water into the cleaning box through the water supply pipe, when the water amount in the cleaning box reaches a set value, the water discharge pipe electromagnetic valve is opened to discharge the water through the water discharge pipe, the cleaning box drives the parts in the cleaning box to move together, the right-angle cleaning box firstly contacts with the UV lamp tube coated with the cleaning agent until the cleaning wheel contacts with the UV lamp tube, meanwhile, the right-angle cleaning box slides on the spring rod and presses against the spring, meanwhile, the water in the cleaning box is pumped to the flowing water box through the water pump by the water pumping pipe, the cleaning wheel absorbs the water in the flowing water box, the redundant water directly flows out of the flowing water box to the cleaning box, meanwhile, the eighth motor provides power for the rotation of the cleaning wheel, the cleaning wheel rotates and cleans the cleaning agent and dirt on the UV lamp tube, and the UV lamp tube continues to rotate, the cleaning of the periphery of the UV lamp tube is completed, the cleaned cleaning wheel is washed in the flow water tank, the seventh motor provides power for the rotation of the second screw rod, the second screw rod further drives the cleaning frame to slide under the guiding of the guiding plate through the connecting frame, the cleaning frame further drives the cleaning wheel and the right-angle scraping box to move, the cleaning wheel further cleans the UV lamp tube integrally, meanwhile, the right-angle scraping box scrapes the lamp tube to scrape water, after the cleaning wheel cleans the UV lamp tube, the cleaning box moves to drive the cleaning wheel to move away from the UV lamp tube, meanwhile, the right-angle scraping box continues to cling to the UV lamp tube to wipe water under the elastic support of the spring, the rear moving box resets after the cleaning is completed, after the UV lamp tube rotates 90 degrees along with the rotating ring rack, the cleaning operation and the cleaning operation of a new group of UV lamp tubes are repeated again until all the UV lamp tubes are cleaned.

The foregoing is merely exemplary and illustrative of the present invention and various modifications, additions and substitutions may be made by those skilled in the art to the specific embodiments described without departing from the scope of the present invention as defined in the accompanying claims.

Claims

1. The device for the clean treatment of the industrial waste gas comprises a dust removal mechanism and a photolysis mechanism, and is characterized in that the photolysis mechanism is arranged on one side of the dust removal mechanism;

the photolysis mechanism comprises a photolysis box, an air outlet pipe, an air inlet, support rods, an air baffle plate, a swivel rack, a rack slider, a power box, a third motor, a power gear, UV lamp tubes, a support swivel, a swivel block, a rotating gear, a rotating box, an adjusting gear, a hexagonal rod, a fourth motor, a regulating block, an electric push rod, a coating and washing mechanism and a cleaning mechanism, wherein the air outlet pipe is arranged on one side of the photolysis box, the air inlet is arranged on the other side of the photolysis box, the inner wall of the photolysis box is fixedly connected with the support rods, the support rods are fixedly connected with the air baffle plate, the air baffle plate is a transparent plate, one side inside the photolysis box is fixedly connected with the rack sliders, the rack sliders are in sliding connection with the swivel rack, a plurality of UV lamp tubes are uniformly arranged on the outer side of the center of the swivel rack, one end of the UV lamp tubes is movably connected with the swivel rack, the other end of the UV lamp tube is movably connected with a supporting swivel, one end of the UV lamp tube is connected with a rotating gear, the supporting swivel is slidably connected with a plurality of swivel blocks, the swivel blocks are fixed on the inner wall of the photolysis box, one side of the top of the photolysis box is fixedly connected with the power box, a power gear is arranged inside the power box, the power gear is connected with the output end of a third motor, the third motor is fixed on the photolysis box, the power gear is meshed with a swivel rack, one side of the bottom of the photolysis box is fixedly connected with the rotating box, the fourth motor and an electric push rod are both fixed on the inner side of the rotating box, the output end of the fourth motor is connected with a six-side rod, the six-side rod is slidably connected with an adjusting gear, the output end of the electric push rod is connected with an adjusting block, the adjusting gear is arranged on the inner side of the adjusting block, a cleaning mechanism is arranged on the bottom side of the photolysis box, and a coating and cleaning mechanism is arranged on one side of the bottom of the photolysis box;

the coating and washing mechanism comprises a coating and washing box, a first hydraulic cylinder, a fifth motor, a guide rod, a first lead screw, a moving block, a moving box, a coating brush, a spray washing head, a sixth motor, a rotating wheel and a liquid feeding pipe, wherein the coating and washing box is movably connected with the photolysis box, two sides of the coating and washing box are fixedly connected with the first hydraulic cylinder, the output end of the first hydraulic cylinder is connected with the photolysis box, the fifth motor is arranged on one side of the bottom of the coating and washing box, the output end of the fifth motor penetrates through the coating and washing box to be connected with one end of the first lead screw, the other end of the first lead screw is movably connected with the coating and washing box, the first lead screw is connected with the moving block through threads, the moving block is fixedly connected with the moving box, one side of the top of the moving box is connected with the other moving block and the guide rod in a sliding mode, two ends of the guide rod are fixed to the inner wall of the coating box, the coating brush is arranged on the inner side of the moving box, one side of the coating brush is provided with the rotating wheel, the rotating wheel is connected with the output end of a sixth motor, the sixth motor is fixed to the inner side of the moving block, the inner side of the coating brush is provided with a plurality of spraying heads, the spraying heads are fixed to the liquid conveying pipe, the coating brush is movably connected with the liquid conveying pipe, and the liquid conveying pipe penetrates through the moving box and the coating box in a sliding mode.

2. The industrial waste gas cleaning and processing device as claimed in claim 1, wherein the cleaning mechanism comprises an extension box, a cleaning box, a second hydraulic cylinder, an extension frame, a fixing block, a seventh motor, a second lead screw, a drain pipe, a water supply pipe, a guide plate, a cleaning frame, a wire connecting frame, a water baffle, a flowing water box, a cleaning wheel, a subplate, an eighth motor, a water pumping pipe, a spring rod and a right-angle scraping box, wherein the extension box is fixed at the bottom of the cleaning box, the inner side of the extension box is provided with the cleaning box, the bottom of the cleaning box is fixedly connected with the extension frame, the second hydraulic cylinder is fixedly connected with the photodissociation box, the two ends of the inner side of the cleaning box are fixedly connected with the fixing block, the fixing block and the two ends of the second lead screw are movably connected, one end of the second lead screw is connected with the output end of the seventh motor through a belt, a belt and a belt, the seventh motor is fixed at the inner side of the cleaning box, the second lead screw and the plurality of the wire connecting frame are connected through threads, the wire connecting frame and the cleaning box are fixedly connected with the water pump, the water pump is fixedly connected with the water pump, the water pump and the water tank are connected with the spring rod, the water supply pipe, the water pump and the spring rod, the water tank, the water supply pipe are connected with the spring rod, the spring box, the water tank, the water pump is connected with the water supply pipe, the spring rod, the water tank, the water pump and the spring rod.

3. The industrial waste gas cleaning and processing equipment according to claim 1, wherein the dust removing mechanism comprises a dust removing box, an air inlet pipe, a processing box, a filtering chamber, a transition chamber, a filtering bag, an inner support frame, a back flushing mechanism and a transition port, the bottom of the dust removing box is connected with the processing box, a plurality of air inlet pipes are arranged on one side of the dust removing box, the transition port is arranged on the other side of the dust removing box, the transition port is communicated with an air inlet, the filtering chamber and the transition chamber are respectively arranged on the inner side of the processing box, a partition plate is arranged between the filtering chamber and the transition chamber, the partition plate is fixedly connected with one end of the inner support frame, the filtering bag is arranged on the outer side of the inner support frame, and the back flushing mechanism is arranged on the top of the dust removing box.

4. The industrial waste gas cleaning and processing equipment according to claim 1, wherein the back-blowing mechanism comprises a high-pressure nozzle, spiral teeth, a key groove belt wheel, an internal thread belt wheel, a limiting frame, a first motor and a second motor, the high-pressure nozzle is arranged at the bottom of the high-pressure nozzle, a plurality of spiral teeth are arranged on the outer side of the high-pressure nozzle, the internal thread belt wheel is arranged on the outer side of the top of the high-pressure nozzle and is meshed with the spiral teeth through threads, the internal thread belt wheel is movably connected with the limiting frame, the limiting frame is fixed on the dust removal box, the key groove belt wheel is arranged at the bottom side of the internal thread belt wheel, the outer side of the key groove belt wheel is movably connected with the dust removal box, the inner side of the key groove belt wheel is slidably connected with the high-pressure nozzle, the key groove is arranged on the inner side of the key groove belt wheel and corresponds to the spiral teeth, the internal thread belt wheel is connected with the output end of the second motor through a belt wheel and a belt, and the first motor and the second motor are both fixed on the dust removal box through a motor support.