CN116672826A - Oil mist treatment equipment for industrial waste gas and treatment method thereof - Google Patents

Abstract

The application relates to the field of waste gas purification equipment and discloses oil mist treatment equipment for industrial waste gas and a treatment method thereof, wherein the oil mist treatment equipment comprises a substrate, wherein a conveying device which is fixedly connected is arranged at the front end and the rear end of the top of the substrate, a movable groove is formed in one side of the top of the substrate, a cleaning device which is fixedly connected is arranged in the movable groove, a first transfer device, a first purification device, a second purification device and a third transfer device which are fixedly connected are arranged in the center of the top of the substrate, and a splitter plate and a second transfer device which are fixedly connected are arranged at one sides of the first purification device and the second purification device, which are far away from the cleaning device. Through the cooperation of first purifier, second purifier and second transfer device use for first purifier is in under the clean gas state, can lead to second purifier to be in the cleaning state, otherwise, if first purifier is in under the cleaning state, can make second purifier be in the clean gas state, then makes equipment can continuously carry out the oil mist and handles work.

Description

Oil mist treatment equipment for industrial waste gas and treatment method thereof

Technical Field

The application belongs to the field of waste gas purifying equipment, and particularly relates to oil mist treatment equipment for industrial waste gas and a treatment method thereof.

Background

In the field of machining and the like, a large amount of industrial waste gas is usually generated, and impurities such as oil mist, water mist or dust are stored in the waste gas, so that the environment is greatly influenced, and in order to prevent the waste gas from influencing the environment, a user needs to install an oil mist treatment device around the periphery of the waste gas in the machining process.

According to the searching hundred-degree literature, most of oil mist treatment equipment in the market at present adsorbs the work through electromagnetic adsorption mode to the oil mist in the waste gas, but because the oil mist often has the reason of adhesion, can make equipment after operating certain time, its adsorption structure can adhere more adhesion dirt, and then can influence the subsequent adsorption efficiency of equipment, therefore, the user usually needs the user to close equipment after operating certain time, then take out the adsorption structure in the equipment, wash the work to the adsorption structure in the equipment again, wait for the adsorption structure to dry at last, place the adsorption structure in the equipment inside, finally open equipment, then make equipment can continue to carry out the treatment work to the waste gas, but the use of this mode, both need consume a large amount of time, still need consume a large amount of manual labor, and then influence the work efficiency of equipment, the application provides an oil mist treatment equipment for industrial waste gas and treatment method for this.

Disclosure of Invention

In view of the above problems, the present application provides an oil mist treatment apparatus for industrial waste gas and a treatment method thereof, which solve the above-described problems.

The aim of the application can be achieved by the following technical scheme:

the utility model provides an oil mist treatment equipment for industrial waste gas, includes the base plate, the front end and the rear end at base plate top all are equipped with fixed connection's conveyor, movable groove has been seted up to one side at base plate top, the inside in movable groove is equipped with fixed connection's belt cleaning device, the center at base plate top is equipped with fixed connection's first transfer device, first purifier, second purifier and third transfer device, one side that belt cleaning device was kept away from to first purifier and second purifier is equipped with fixed connection's splitter plate and second transfer device, be equipped with rotary connection's drive between first purifier and the second purifier and move subassembly, fixed connection's electric subassembly and first tooth slat, third transfer device is located between first purifier and the second purifier, first transfer device is located between third transfer device and the belt cleaning device.

Preferably, the conveying device comprises a sliding rail, a sliding plate in sliding connection is arranged above the sliding rail, a fixed plate is fixedly connected to the top of the sliding plate, a threaded motor is fixedly connected to the top of the fixed plate, a first moving block in sliding connection is arranged on the surface of an output rod of the threaded motor, a first moving plate is fixedly connected to one side, away from the cleaning device, of the first moving block, a first cylinder is fixedly connected to one side, away from the first cleaning device, of the first moving plate, an oil scraping plate is fixedly connected to the output end of the first cylinder, and a second rack plate in fixed connection is arranged on one side, close to the first cleaning device, of the first moving block;

The bottom of fixed plate inner chamber fixedly connected with first limit pole, the surface of first limit pole is equipped with sliding connection's second movable block, one side that the fixed plate kept away from first purifier is equipped with fixed connection's second cylinder, the output fixedly connected with magnetism suction plate of second cylinder.

Preferably, the cleaning device comprises two second limiting rods, a C-shaped plate in sliding connection is arranged on the surfaces of the two second limiting rods, a liquid storage tank in fixed connection is arranged at the top of the C-shaped plate, an infusion pump in fixed connection is arranged at the top of the liquid storage tank, a spray head in fixed connection is arranged at the top of the inner wall of the C-shaped plate, and a third rack plate in fixed connection is arranged at the bottom of the inner wall of the C-shaped plate.

Preferably, the first transfer device comprises a hollow plate, a first rotary rod which is rotationally connected is arranged in the hollow plate, a first driving wheel and a first gear which are fixedly connected are arranged on the surface of the first rotary rod, a first driving belt is connected to the surface of the first driving wheel, and the surface of the first gear is meshed with the third rack plate.

Preferably, the first purifying device comprises a first sealed box, a first rear filter plate, a first magnetic plate, a second magnetic plate, a first front filter plate, a first induced draft fan and a fourth rack plate which are in sliding connection are arranged in the first sealed box, two first support plates which are in fixed connection are arranged at the top of the first sealed box, a second rotating rod which is in rotating connection is arranged at the center of the first support plate, a second gear and a first arc-shaped plate which are in fixed connection are arranged on the surface of the second rotating rod, first moving grooves are formed in two sides of an inner cavity of the first sealed box, a third limiting rod which is in fixed connection is arranged in the first moving grooves, a second moving plate which is in sliding connection is arranged on the surface of the third limiting rod, a third rotating rod which is in rotating connection is arranged in the second moving plate, a first blocking opening plate and a third gear which are in fixed connection are arranged on the surface of the third rotating rod, a first threaded rod which is in rotating connection is arranged in the first sealed box, two-way moving grooves are respectively matched with the surfaces of the two first rotating rods, and the first side of the first sealed box is far away from the first threaded rod is arranged on the bottom of the first sealed box;

The second purifying device comprises a second sealing box, a servo motor is fixedly connected to one side of the second sealing box, a second bidirectional threaded rod is arranged at the output end of the servo motor, a third movable plate is arranged on the surfaces of two sides of the second bidirectional threaded rod and is in sliding connection, a fourth rotary rod is arranged in the third movable plate and is in rotary connection, a second blocking plate and a fifth gear are fixedly connected to the surface of the fourth rotary rod, second movable grooves are formed in two sides of an inner cavity of the second sealing box, a fourth limiting rod is fixedly connected to the inside of the second movable groove, a fifth tooth plate and a second induced draft fan which are fixedly connected are in sliding fit with the third movable plate, a second rear filter plate, a third magnetic plate and a second front filter plate which are in sliding connection are arranged in the second sealing box, two second support plates are fixedly connected to the top of the second sealing box, a fifth rotary rod is fixedly connected to the center of the second support plate, a sixth gear is fixedly connected to the surface of the fifth sealing box, a second arc-shaped plate is fixedly connected to the bottom of the second rotary rod is provided with a second arc-shaped plate, and the center of the second arc-shaped plate is fixedly connected to the second rotary rod is arranged at the bottom of the second sealing box;

The sliding door sets are arranged on one sides of the first sealing box and the second sealing box, which are far away from the third transfer device, and one sides of the two sliding door sets, which are far away from the third transfer device, are respectively connected with the first arc-shaped plate and the second arc-shaped plate.

Preferably, the second transfer device comprises two third supporting plates, one sides of the two third supporting plates are respectively connected with the first sealing box and the second sealing box, a fifth limiting rod fixedly connected with the first supporting plates and a first threaded rod rotatably connected with the first supporting plates are arranged between the two third supporting plates, a sixth rack plate fixedly connected with the surface of the first threaded rod, a second driving wheel and a first worm wheel fixedly connected with the surface of the first threaded rod are arranged on the surface of the first threaded rod, a second driving belt is connected with the surface of the second driving wheel, the sixth rack plate is in sliding fit with the fifth limiting rod, and the surface of the first worm wheel is meshed with the surface of the second bidirectional threaded rod.

Preferably, the driving assembly comprises a second threaded rod, a third driving wheel and a fourth driving wheel which are fixedly connected are arranged on the surface of the second threaded rod, the surface of the third driving wheel is connected with a second driving belt, and the surface of the fourth driving wheel is connected with a third driving belt.

Preferably, the power receiving assembly comprises two sixth limiting rods, a fourth moving plate in sliding connection is arranged on the surface of each sixth limiting rod, the fourth moving plate is in sliding fit with the second threaded rod, a gear rod in rotary connection is arranged at the bottom of each fourth moving plate, and a power receiving plate in fixed connection is arranged at the bottom of each gear rod.

Preferably, the third transfer device comprises an M-shaped plate, a sixth rotary rod which is rotationally connected is arranged at the rear end inside the M-shaped plate, a fifth driving wheel, a first power transmission plate and a seventh gear which are fixedly connected are arranged on the surface of the sixth rotary rod, and the surface of the fifth driving wheel is connected with a third driving belt;

the center of the interior of the M-shaped plate is provided with a worm in rotary connection, the surface of the worm is provided with an eighth gear and a sixth driving wheel which are fixedly connected, the surface of the eighth gear is meshed with the surface of the seventh gear, and the surface of the sixth driving wheel is connected with a fourth driving belt;

the front end of the interior of the M-shaped plate is provided with a seventh rotary rod which is in rotary connection, the surface of the seventh rotary rod is provided with a second power transmission plate and a seventh driving wheel which are fixedly connected, and the surface of the seventh driving wheel is connected with a fourth driving belt;

The top at the inside center of class M template is equipped with swivelling joint's eighth rotary rod, the surface of eighth rotary rod is equipped with fixed connection's eighth drive wheel and second worm wheel, the surface of eighth drive wheel is connected with first drive belt, the surface of second worm wheel meshes with the surface of worm.

The treatment method of the oil mist treatment equipment for industrial waste gas comprises the following steps:

s1, performing S1; adjusting the structure inside the second seal box to a purified state;

the user needs to operate the servo motor firstly, then the second bidirectional threaded rod rotates, the two third moving plates can relatively move, then the fifth gear can be in contact with the fifth rack plate, and then the fourth rotating rod drives the second sealing plate to rotate, so that the second sealing plate is in a transverse state, then the structure inside the second sealing box is in a clean air working state, the rotation of the second bidirectional threaded rod can drive the first worm wheel to rotate, then the first bidirectional threaded rod and the second threaded rod can rotate through transmission, the first bidirectional threaded rod rotates, the second moving plate can move opposite to the third moving plate, and then the third gear can be in contact with the fourth rack plate, and then the first sealing plate can block the air inlet groove of the first sealing box, so that the structure inside the first sealing box is in a clean state, and the second threaded rod rotates, namely the electric connection plate and the third sealing plate can be connected with the fourth magnetic pole plate through the second magnetic pole, and the second magnetic pole can move to the side of the second sealing box;

S2, performing S2; performing gas cleaning operation on the waste gas by using a second purifying device;

the user needs to operate the second induced draft fan, so that the second induced draft fan can introduce external waste gas into the second sealing box through the flow dividing plate, the waste gas is firstly filtered by the second front filter plate to be contacted with the fourth magnetic plate, then the oil mist in the waste gas is sticky and charged through the fourth magnetic plate, then the oil mist can be adhered to the third magnetic plate, and finally the gas after the oil mist is filtered is discharged out of the second sealing box through the second rear filter plate;

s3, performing S3; adjusting the structure inside the first seal box to a clean state;

the user needs to reversely run the servo motor, so that the second plugging plate can plug the air inlet and the air outlet of the second sealing box, the structure inside the second sealing box is in a clean state, in the process, the first plugging plate can be in a transverse state inside the first sealing box through the transmission of the first transfer device, the second transfer device, the driving and moving assembly, the power receiving assembly, the first rack plate and the third transfer device, the power receiving plate can be connected with the first magnetic pole plate and the second magnetic pole plate, the structure inside the first sealing box is in a purifying state, and the C-shaped plate can be moved to the air outlet side of the first sealing box;

S4, performing S4; the first purifying device is used for purifying the waste gas and cleaning the structure in the second sealing box;

the first purifying device is used for purifying the waste gas;

the user needs to operate the first induced draft fan, so that the first induced draft fan can introduce external waste gas into the first sealing box through the flow dividing plate, then remove impurities and oil mist in the waste gas through the first front filter plate, the second magnetic plate, the first magnetic plate and the first rear filter plate, and finally enable purified gas to be discharged through the air outlet side of the first sealing box;

the step of cleaning the structure inside the second sealing box is that;

step one, opening a sliding door set arranged on a second sealing box;

the user needs to firstly operate the sliding rail at the front end of the second purifying device, then the second rack plate can move to the lower part of the sixth gear, then the screw motor at the front end of the second purifying device is operated, then the first moving block drives the second rack plate to move upwards, and then the sixth gear drives the fifth rotating rod and the second arc plate to rotate, so that a sliding door set formed by the second sealing box can be opened;

Step two, conveying the structure in the second sealing box to the C-shaped plate;

the user needs to operate the second cylinder at the front end firstly, so that the magnetic suction plate can be contacted with the second rear filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate, then the magnetic suction plate is operated, so that the magnetic suction plate is connected with the second rear filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate, and then the magnetic suction plate can move the second rear filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate to the upper part of the C-shaped plate through the sliding rail, and at the moment, the oil scraping plate at the front end and the second oil receiving groove are positioned on the same horizontal line;

step three, cleaning the second rear filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate;

the user needs to operate the infusion pump, so that the infusion pump can pump liquid in the liquid storage tank, then the liquid is discharged to the spray head, and then the spray head can flush the second back filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate;

Step four, cleaning the second oil receiving groove;

the user needs to operate the first cylinder to enable the oil scraping plate to move to the upper portion of the second oil receiving groove, then operate the threaded motor to enable the first moving plate to drive the first cylinder and the oil scraping plate to move downwards, further enable the oil scraping plate to contact the second oil receiving groove, then operate the first cylinder to enable the oil scraping plate to move back and forth at the second oil receiving groove, further enable the oil scraping plate to conduct oil scraping and cleaning on the side surface of the second oil receiving groove, finally operate the threaded motor to enable the oil scraping plate to move upwards, and further enable the oil scraping plate to conduct oil scraping and cleaning on the front surface and the rear surface of the second oil receiving groove;

s5, performing S5; resetting the structure inside the cleaned second sealing box;

the user needs to operate the second cylinder earlier, then make the magnetic attraction plate can be connected with second back filter plate, the third magnetic plate, fourth magnetic plate and second preceding filter plate, then operate the slide rail, make the magnetic attraction plate can remove second back filter plate, the third magnetic plate, fourth magnetic plate and second preceding filter plate to second seal box department, the second cylinder of rerun, make the magnetic attraction plate can carry the inside of second seal box with second back filter plate, the third magnetic plate, fourth magnetic plate and second preceding filter plate, finally operate the screw motor, make the second rack board can apply reverse rotatory power to the sixth gear, then make the push-and-pull door group that the second seal box offered close.

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

1. according to the oil mist treatment equipment for the industrial waste gas and the treatment method thereof, through the cooperation of the first purifying device, the second purifying device and the second transferring device, the first purifying device can lead the second purifying device to be in a cleaning state under the clean gas state, otherwise, if the first purifying device is in the cleaning state, the second purifying device can be in the clean gas state, then the equipment can continuously carry out oil mist treatment work, and further the oil mist treatment efficiency of the equipment can be improved.

2. According to the oil mist treatment equipment for industrial waste gas and the treatment method thereof, through the cooperation of the second transfer device, the driving and moving assembly, the power receiving assembly and the first rack plate, the power receiving plate can be stably connected with the first purification device or the second purification device in a clean air state under the condition of state change, so that the stability of equipment power supply can be ensured, wherein the cooperation of the fifth transmission wheel, the seventh gear, the eighth gear, the sixth transmission wheel and the seventh transmission wheel is used, the rotation of the first power transmission plate and the rotation of the second power transmission plate are reversed, and then the power receiving plate can be connected with the power receiving plate in the process of being connected with the first purification device or the second purification device, and the stability of power supply is further ensured.

3. The oil mist treatment equipment for industrial waste gas and the treatment method thereof enable the sliding plate to drive the fixed plate to move through the use of the two sliding rails, wherein when the second rack plate is positioned on the same horizontal line with the second gear and the sixth gear, the magnetic attraction plate, the second rear filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate are positioned on the same horizontal line, at the moment, the second rack plate included by the conveying device can be used for enabling the second gear and the sixth gear included by the first purifying device and the second purifying device to rotate, then the sliding door group formed by the first sealing box and the second sealing box can be opened or closed through the first arc plate and the second arc plate, and the second cylinder included by the conveying device and the magnetic attraction plate can be used in a matched mode, the equipment can take out and place work to the second back filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate or the first back filter plate, the first magnetic plate, the second magnetic plate and the first front filter plate in the second sealing box, and when the magnetic attraction plate and the C-shaped plate are in the same horizontal line, the oil scraping plate and the first oil receiving groove or the second oil receiving groove can be in the same horizontal line, namely, the equipment can be used through the matching of the second air cylinder and the magnetic attraction plate, so that the equipment can convey the second back filter plate, the third magnetic plate, the fourth magnetic plate and the second front filter plate in the second sealing box or the first back filter plate, the first magnetic plate, the second magnetic plate and the first front filter plate in the first sealing box to the C-shaped plate, and can also be used through the matching of the thread motor and the first air cylinder, so that the oil scraping plate can scrape the oil and clean the first oil receiving groove and the second oil receiving groove.

4. According to the oil mist treatment equipment for industrial waste gas and the treatment method thereof, through the use of the infusion pump, liquid in the liquid storage tank can be transmitted to the inside of the spray head, then the spray head can clean the structure of the C-shaped plate, wherein through the cooperation of the first transfer device, the third transfer device and the cleaning device, the first electric transmission plate or the second electric transmission plate can be made to move back and forth in the process of being connected with the electric receiving plate, the C-shaped plate can be made to move to the air outlet side of the first purifying device or the second purifying device, and then air drying can be carried out on the cleaned structure by the gas when the first purifying device or the second purifying device is used for purifying air.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present application, the drawings that are needed in the description of the embodiments will be briefly described below, it being obvious that the drawings in the following description are only some embodiments of the present application, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic view of the structure of the present application;

FIG. 2 is a front cross-sectional view of the structure of the present invention in the center of a fixed plate;

FIG. 3 is a front cross-sectional view of the structure of the present invention to the center of a second seal box;

FIG. 4 is a front cross-sectional view of the structure of the present invention to the center of the first seal box;

FIG. 5 is a front cross-sectional view of the structure of the present invention in the center of an infusion pump;

FIG. 6 is a side cross-sectional view of the center of the structure of the present invention through a third transfer device;

FIG. 7 is a side cross-sectional view of the structure of the present invention to the center of a displacement assembly;

FIG. 8 is a side cross-sectional view of the structure of the present invention to the center of a second transfer device;

FIG. 9 is a top cross-sectional view of the structure of the present invention to the center of the second support plate;

FIG. 10 is a top cross-sectional view of the structure of the present invention to the center of a second cylinder;

FIG. 11 is a top cross-sectional view of the structure of the present invention to the center of a servo motor;

FIG. 12 is a top cross-sectional view of the center of the present invention through the third transfer device;

FIG. 13 is an enlarged view at A of FIG. 5;

FIG. 14 is an enlarged view at B of FIG. 6;

FIG. 15 is an enlarged view at C of FIG. 6;

FIG. 16 is an enlarged view of FIG. 7 at D;

FIG. 17 is an enlarged view of FIG. 8 at E;

fig. 18 is an enlarged view at F of fig. 12.

In the figure: 1. a substrate; 2. a conveying device; 3. a cleaning device; 4. a first transfer device; 5. a first purifying device; 6. a second purifying device; 7. a diverter plate; 8. a second transfer device; 9. a displacement assembly; 10. a power receiving assembly; 11. a first rack plate; 12. a third transfer device; 13. a slide rail; 14. a slide plate; 15. a fixing plate; 16. a screw motor; 17. a first moving block; 18. a first moving plate; 19. a first cylinder; 20. a wiper plate; 21. a second rack plate; 22. a first limiting rod; 23. a second moving block; 24. a second cylinder; 25. a magnetic suction plate; 26. a second defining rod; 27. a C-shaped plate; 28. a liquid storage tank; 29. an infusion pump; 30. a spray head; 31. a third rack plate; 32. a hollow plate; 33. a first rotating lever; 34. a first driving wheel; 35. a first belt; 36. a first gear; 37. a first seal box; 38. a first rear filter plate; 39. a first magnetic pole plate; 40. a second magnetic pole plate; 41. a first front filter plate; 42. a first support plate; 43. a second rotating lever; 44. a second gear; 45. a first arc-shaped plate; 46. a first induced draft fan; 47. a third limiting rod; 48. a second moving plate; 49. a third rotating lever; 50. a first blanking plate; 51. a third gear; 52. a fourth rack plate; 53. a first bi-directional threaded rod; 54. a fourth gear; 55. a second seal box; 56. a servo motor; 57. a second bi-directional threaded rod; 58. a third moving plate; 59. a fourth rotating lever; 60. a second closure plate; 61. a fifth gear; 62. a fifth rack plate; 63. a fourth limiting rod; 64. a second induced draft fan; 65. a second rear filter plate; 66. a third magnetic pole plate; 67. a fourth magnetic plate; 68. a second front filter plate; 69. a second support plate; 70. a fifth rotating lever; 71. a sixth gear; 72. a second arcuate plate; 73. a third support plate; 74. a fifth limiting rod; 75. a first threaded rod; 76. a sixth rack plate; 77. a second driving wheel; 78. a second belt; 79. a first worm wheel; 80. a second threaded rod; 81. a third driving wheel; 82. a fourth driving wheel; 83. a third belt; 84. a sixth limiting rod; 85. a fourth moving plate; 86. a gear lever; 87. a power connection plate; 88. class M templates; 89. a sixth rotating lever; 90. a fifth driving wheel; 91. a first conductive plate; 92. a seventh gear; 93. a worm; 94. an eighth gear; 95. a sixth driving wheel; 96. a fourth belt; 97. a seventh rotating lever; 98. a second conductive plate; 99. a seventh driving wheel; 100. an eighth rotating lever; 101. an eighth driving wheel; 102. and a second worm wheel.

Detailed Description

The following description of the embodiments of the present application will be made clearly and completely with reference to the accompanying drawings, in which it is apparent that the embodiments described are only some embodiments of the present application, but not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the application without making any inventive effort, are intended to be within the scope of the application.

In the description of the present application, it should be understood that the terms "open," "upper," "lower," "thickness," "top," "middle," "length," "inner," "peripheral," and the like indicate orientation or positional relationships, merely for convenience in describing the present application and to simplify the description, and do not indicate or imply that the components or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus should not be construed as limiting the present application.

Referring to fig. 1, an oil mist treatment device for industrial waste gas includes a substrate 1, a fixedly connected conveying device 2 is disposed at the front end and the rear end of the top of the substrate 1, a movable groove is disposed at one side of the top of the substrate 1, a fixedly connected cleaning device 3 is disposed in the movable groove, a fixedly connected first transfer device 4, a first purifying device 5, a second purifying device 6 and a third transfer device 12 are disposed at the center of the top of the substrate 1, a fixedly connected splitter plate 7 and a fixedly connected second transfer device 8 are disposed at one side, far away from the cleaning device 3, of the first purifying device 5 and the second purifying device 6, a rotatably connected driving component 9, a fixedly connected power-on component 10 and a first rack plate 11 are disposed between the first purifying device 5 and the second purifying device 6, and the third transfer device 12 is disposed between the third transfer device 12 and the cleaning device 3.

As shown in fig. 2, 9 and 10, the conveying device 2 comprises a sliding rail 13, a sliding plate 14 in sliding connection is arranged above the sliding rail 13, a fixed plate 15 is fixedly connected to the top of the sliding plate 14, the sliding rail 13 is used to enable the sliding plate 14 to drive the fixed plate 15 to move, then the structure at the fixed plate 15 can move, a first limiting rod 22 is fixedly connected to the bottom of an inner cavity of the fixed plate 15, a second moving block 23 in sliding connection is arranged on the surface of the first limiting rod 22, the first limiting rod 22 and the second moving block 23 are matched for use, the first moving plate 18 can be limited, the first moving plate 18 is prevented from being offset, a second cylinder 24 in fixed connection is arranged on one side of the fixed plate 15 away from the first purifying device 5, the output end of the second cylinder 24 is fixedly connected with a magnetic suction plate 25, the magnetic suction plate 25 can be enabled to move forwards and backwards by using the second cylinder 24, the use of the magnetic suction plate 25 can make the magnetic suction plate 25 and the contacted structure perform magnetic suction fixing work, the top of the fixing plate 15 is fixedly connected with a screw motor 16, the surface of an output rod of the screw motor 16 is provided with a first moving block 17 which is in sliding connection, one side of the first moving block 17 far away from the cleaning device 3 is fixedly connected with a first moving plate 18, one side of the first moving plate 18 far away from the first cleaning device 5 is fixedly connected with a first cylinder 19, the output end of the first cylinder 19 is fixedly connected with an oil scraping plate 20, one side of the first moving block 17 near the first cleaning device 5 is provided with a second rack plate 21 which is fixedly connected, the use of the screw motor 16 can make the first moving block 17 drive the first moving plate 18 and the second rack plate 21 to move up and down, wherein the up and down movement of the first moving plate 18 can make the first cylinder 19 and the oil scraping plate 20 move up and down, and the use of the first cylinder 19 allows the scraper 20 to move back and forth.

As shown in fig. 5, 12, 13 and 18, the cleaning device 3 includes two second limiting rods 26, the surfaces of the two second limiting rods 26 are provided with C-shaped plates 27 in sliding connection, the second limiting rods 26 are used to limit the C-shaped plates 27, a fixedly connected liquid storage tank 28 is arranged at the top of the C-shaped plates 27, an infusion pump 29 is arranged at the top of the liquid storage tank 28, a fixedly connected spray head 30 is arranged at the top of the inner wall of the C-shaped plates 27, the infusion pump 29 operates to transfer liquid inside the liquid storage tank 28 to the inside of the spray head 30, so that the spray head 30 can spray the structure below the spray head, and a third rack 31 is arranged at the bottom of the inner wall of the C-shaped plates 27.

The first transferring device 4 comprises a hollow plate 32, a first rotary rod 33 which is rotatably connected is arranged in the hollow plate 32, a first driving wheel 34 and a first gear 36 which are fixedly connected are arranged on the surface of the first rotary rod 33, a first driving belt 35 is connected to the surface of the first driving wheel 34, and the surface of the first gear 36 is meshed with the third rack plate 31.

The third transfer device 12 comprises an M-like plate 88, a sixth rotary rod 89 which is rotationally connected is arranged at the rear end inside the M-like plate 88, a fifth transmission wheel 90, a first transmission plate 91 and a seventh transmission wheel 92 which are fixedly connected are arranged on the surface of the sixth rotary rod 89, the surface of the fifth transmission wheel 90 is connected with a third transmission belt 83, a worm 93 which is rotationally connected is arranged at the center inside the M-like plate 88, an eighth transmission wheel 94 and a sixth transmission wheel 95 which are fixedly connected are arranged on the surface of the worm 93, the surface of the eighth gear 94 is meshed with the surface of the seventh transmission wheel 92, a fourth transmission belt 96 is connected on the surface of the sixth transmission wheel 95, a seventh rotary rod 97 which is rotationally connected is arranged at the front end inside the M-like plate 88, a second transmission plate 98 and a seventh transmission wheel 99 which are fixedly connected are arranged on the surface of the seventh rotary rod 97, an eighth transmission wheel 100 which is rotationally connected is arranged at the top of the center inside the M-like plate 88, an eighth transmission wheel 101 and a second worm wheel 102 which are fixedly connected are arranged on the surface of the eighth transmission wheel 101 and the surface of the eighth transmission wheel 102 which is meshed with the surface of the worm 35.

In this embodiment, the rotation of the sixth rotating rod 89 may enable the first electricity transmitting plate 91 and the seventh gear 92 to rotate, then enable the eighth gear 94 to drive the worm 93 to rotate reversely, then enable the sixth driving wheel 95 to drive the seventh rotating rod 97 and the second electricity transmitting plate 98 to rotate reversely through the fourth driving belt 96, and enable the worm 93 to rotate reversely, and also enable the second worm wheel 102 to rotate, then enable the eighth driving wheel 101 to drive the first rotating rod 33 to rotate through the first driving belt 35, then enable the first gear 36 to drive the third rack plate 31 to move forward and backward, and further enable the C-shaped plate 27 to move forward and backward.

As shown in fig. 3, fig. 4, fig. 6, fig. 9, fig. 11, fig. 14 and fig. 15, the first purifying device 5 comprises a first sealing box 37, a first rear filter plate 38, a first magnetic plate 39, a second magnetic plate 40, a first front filter plate 41, a first induced draft fan 46 and a fourth rack plate 52 which are fixedly connected are arranged in the first sealing box 37, the first rear filter plate 38, the first magnetic plate 39, the second magnetic plate 40 and the first front filter plate 41 are matched for use, the exhaust gas can be filtered and absorbed, two first support plates 42 which are fixedly connected are arranged at the top of the first sealing box 37, a second rotary rod 43 which is rotatably connected is arranged at the center of the first support plate 42, a second gear 44 and a first arc plate 45 which are fixedly connected are arranged on the surface of the second rotary rod 43, and first moving grooves are respectively arranged on two sides of the inner cavity of the first sealing box 37, the inside of the first moving groove is provided with a third limiting rod 47 fixedly connected, the surface of the third limiting rod 47 is provided with a second moving plate 48 in sliding connection, the inside of the second moving plate 48 is provided with a third rotating rod 49 in rotating connection, the surface of the third rotating rod 49 is provided with a first plugging plate 50 and a third gear 51 in fixed connection, the inside of the first sealing box 37 is provided with a first bidirectional threaded rod 53 in rotating connection, the surfaces on two sides of the first bidirectional threaded rod 53 are respectively in sliding fit with the two second moving plates 48, the surface of the first bidirectional threaded rod 53 on the side far away from the cleaning device 3 is provided with a fourth gear 54 in fixed connection, when the fourth gear 54 is subjected to external force, the first bidirectional threaded rod 53 rotates, and then the two second moving plates 48 can relatively move, and further the third gear 51 can be contacted with the fourth toothed plate 52, and then make the third rotary rod 49 can drive first closure plate 50 to carry out rotatory work, first oil receiving groove has been seted up to the center of first seal box 37 inner chamber bottom.

Wherein the second purifying device 6 comprises a second sealed box 55, a sliding door set is arranged on one side, far away from the third transferring device 12, of the first sealed box 37 and the second sealed box 55, two sliding door sets are respectively connected with a first arc-shaped plate 45 and a second arc-shaped plate 72 on one side, a servo motor 56 is fixedly connected on one side of the second sealed box 55, a second bidirectional threaded rod 57 is arranged at the output end of the servo motor 56, a third moving plate 58 is arranged on the surfaces of two sides of the second bidirectional threaded rod 57 in a sliding manner, a fourth rotating rod 59 is arranged in the third moving plate 58 in a rotating manner, a second blocking plate 60 and a fifth gear 61 are arranged on the surface of the fourth rotating rod 59 in a fixed manner, a second moving groove is arranged on two sides of the inner cavity of the second sealed box 55, a fourth limiting rod 63 is fixedly connected in the second moving groove, the fourth limiting rod 63 is in sliding fit with the third moving plate 58, the second sealing box 55 is internally provided with a fifth rack plate 62 and a second induced draft fan 64 which are fixedly connected, a second rear filter plate 65, a third magnetic plate 66, a fourth magnetic plate 67 and a second front filter plate 68 which are in sliding clamping connection, the second rear filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68 are matched for use, the exhaust gas can be filtered and absorbed, the servo motor 56 operates, the second bidirectional threaded rod 57 can perform rotary operation, the two third moving plates 58 can perform relative movement, the two third moving plates 58 perform relative movement, the fifth gear 61 can be in contact with the fifth rack plate 62, the fourth rotary rod 59 can drive the second closure plate 60 to perform rotary operation, the top of the second sealing box 55 is provided with two second supporting plates 69 which are fixedly connected, the center of the second supporting plate 69 is provided with a fifth rotating rod 70 which is in rotating connection, the surface of the fifth rotating rod 70 is provided with a sixth gear 71 and a second arc-shaped plate 72 which are fixedly connected, and the center of the bottom of the inner cavity of the second sealing box 55 is provided with a second oil receiving groove.

In this embodiment, when the second gear 44 and the sixth gear 71 are subjected to the upward force of the second rack plate 21, the second rotating rod 43 and the fifth rotating rod 70 drive the first arc-shaped plate 45 and the second arc-shaped plate 72 to rotate, so that the sliding door set can be opened or closed.

As shown in fig. 7 and 16, the driving assembly 9 includes a second threaded rod 80, a third driving wheel 81 and a fourth driving wheel 82 which are fixedly connected are provided on the surface of the second threaded rod 80, the surface of the third driving wheel 81 is connected with the second driving belt 78, and a third driving belt 83 is connected with the surface of the fourth driving wheel 82.

The power connection assembly 10 includes two sixth limiting rods 84, a fourth moving plate 85 slidably connected is disposed on a surface of the sixth limiting rod 84, the fourth moving plate 85 is slidably matched with the second threaded rod 80, a gear rod 86 rotatably connected is disposed at a bottom of the fourth moving plate 85, and a power connection plate 87 fixedly connected is disposed at a bottom of the gear rod 86.

In this embodiment, when the third driving wheel 81 receives a rotating force, the second threaded rod 80 may be made to rotate, so that the fourth moving plate 85 may move, and in the process of moving the fourth moving plate 85, the gear rod 86 may be made to contact with the first rack plate 11, so that the power receiving plate 87 may rotate, and the second threaded rod 80 may rotate, so that the fourth driving wheel 82 may also rotate, so that a certain force may be applied to the fifth driving wheel 90 through the third driving belt 83.

As shown in fig. 8 and 17, the second transferring device 8 includes two third supporting plates 73, one sides of the two third supporting plates 73 are respectively connected with the first sealing box 37 and the second sealing box 55, a fixedly connected fifth limiting rod 74 and a rotatably connected first threaded rod 75 are arranged between the two third supporting plates 73, a slidably connected sixth rack plate 76 and a fixedly connected second driving wheel 77 and a first worm wheel 79 are arranged on the surface of the first threaded rod 75, a second driving belt 78 is connected on the surface of the second driving wheel 77, the sixth rack plate 76 is slidably matched with the fifth limiting rod 74, and the surface of the first worm wheel 79 is meshed with the surface of the second bidirectional threaded rod 57.

In this embodiment, the first worm gear 79 rotates when the second bi-directional threaded rod 57 rotates, which in turn rotates the first threaded rod 75, which in turn rotates the second drive wheel 77 and moves the sixth rack plate 76 back and forth, wherein the back and forth movement of the sixth rack plate 76 generates a rotational force on the first bi-directional threaded rod 53, and the rotation of the second drive wheel 77 causes the second drive belt 78 to apply a rotational force on the third drive wheel 81.

The treatment method of the oil mist treatment equipment for the industrial waste gas comprises the following steps:

S1, performing S1; adjusting the structure inside the second seal box 55 to a purge state;

the user needs to first operate the servo motor 56, then rotate the second bidirectional threaded rod 57, and rotate the second bidirectional threaded rod 57, so that the two third moving plates 58 can relatively move, then make the fifth gear 61 contact with the fifth rack plate 62, then make the fourth rotating rod 59 drive the second closure plate 60 to rotate, so that the second closure plate 60 is in a transverse state, then make the structure inside the second seal case 55 be in a clean air working state, wherein the rotation of the second bidirectional threaded rod 57 can also drive the first worm wheel 79 to rotate, then make the first threaded rod 75 rotate, and the rotation of the first threaded rod 75 can both make the sixth rack plate 76 move back and forth, then make the sixth rack plate 76 drive the first bidirectional threaded rod 53 to rotate, the second moving plate 48 can move opposite to the third moving plate 58, and after the third gear 51 can contact with the fourth rack plate 52, the first plugging plate 50 can plug the air inlet and outlet grooves of the first seal box 37, so that the structure inside the first seal box 37 is in a clean state, the second driving wheel 77 can rotate, and the third driving wheel 81 can be driven to rotate by the second driving belt 78, wherein the rotation of the third driving wheel 81 can rotate the second threaded rod 80, and the power receiving plate 87 can move, so that the power receiving plate 87 can be connected with the third magnetic pole plate 66 and the fourth magnetic pole plate 67, the rotation of the second threaded rod 80 can also drive the fourth driving wheel 82 to rotate, and the third driving belt 83 can drive the fifth driving wheel 90 to rotate, then, the eighth driving wheel 101 can rotate through the transmission of the seventh gear 92 and the eighth gear 94 and the transmission of the worm 93 and the second worm wheel 102, then the first driving wheel 34 can be driven to rotate through the first driving belt 35, and then the first gear 36 can drive the third rack plate 31 to move back and forth, so that the C-shaped plate 27 can move to the air outlet side of the second seal box 55;

S2, performing S2; the second purifying device 6 is used for purifying the waste gas;

the user needs to operate the second induced draft fan 64, so that the second induced draft fan 64 can introduce external waste gas into the second sealed box 55 through the splitter plate 7, then the waste gas is firstly filtered by the second front filter plate 68 to be contacted with the fourth magnetic plate 67, then the oil mist in the waste gas is sticky and charged through the fourth magnetic plate 67, then the oil mist can be adhered to the third magnetic plate 66, and finally the gas after oil mist filtration is discharged out of the second sealed box 55 through the second rear filter plate 65;

s3, performing S3; adjusting the structure inside the first seal box 37 to a purge state;

the user needs to reversely run the servo motor 56, so that the second plugging plate 60 can plug the air inlet and the air outlet of the second sealing box 55, and then the structure inside the second sealing box 55 is in a clean state, in the process, the first plugging plate 50 can be in a transverse state inside the first sealing box 37, the electric connection plate 87 can be connected with the first magnetic pole plate 39 and the second magnetic pole plate 40, and then the structure inside the first sealing box 37 is in a clean state, and the C-shaped plate 27 can be moved to the air outlet side of the first sealing box 37 through the transmission of the first transfer device 4, the second transfer device 8, the driving and moving assembly 9, the electric connection assembly 10, the first rack plate 11 and the third transfer device 12;

S4, performing S4; performing a gas cleaning operation on the exhaust gas and a cleaning operation on the structure inside the second seal box 55 by using the first purifying device 5;

the first purifying device 5 purifies the exhaust gas;

the user needs to operate the first induced draft fan 46, so that the first induced draft fan 46 can introduce external waste gas into the first sealing box 37 through the splitter plate 7, then remove impurities and oil mist in the waste gas through the first front filter plate 41, the second magnetic plate 40, the first magnetic plate 39 and the first rear filter plate 38, and finally discharge purified gas through the air outlet side of the first sealing box 37;

the cleaning of the structure inside the second seal box 55 is performed;

step one, opening a sliding door set arranged on the second sealing box 55;

the user needs to first run the sliding rail 13 at the front end of the second purifying device 6, then make the second rack plate 21 move below the sixth gear 71, then run the screw motor 16 at the front end of the second purifying device 6, then make the first moving block 17 drive the second rack plate 21 to move upwards, and then make the sixth gear 71 drive the fifth rotating rod 70 and the second arc plate 72 to rotate, so as to open the sliding door set opened by the second sealing box 55;

Step two, conveying the structure inside the second seal box 55 to the C-shaped plate 27;

the user needs to operate the front second cylinder 24 first, so that the magnetic suction plate 25 can be in contact with the second rear filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68, then operate the magnetic suction plate 25, so that the magnetic suction plate 25 is connected with the second rear filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68, and then move the second rear filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68 to the upper side of the C-shaped plate 27 through the sliding rail 13, and the oil scraping plate 20 at the front end is positioned on the same horizontal line with the second oil receiving groove;

step three, cleaning the second rear filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68;

the user needs to operate the infusion pump 29, so that the infusion pump 29 can pump the liquid in the liquid storage tank 28, then drain the liquid to the spray head 30, and then the spray head 30 can flush the second back filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68, at this time, because the C-shaped plate 27 is located on the air outlet side of the first seal box 37, after the cleaning is completed, the second back filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68 can air-dry the air discharged from the first seal box 37 to the second back filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68;

Step four, cleaning the second oil receiving groove;

the user needs to operate the first air cylinder 19 to enable the oil scraping plate 20 to move to the upper side of the second oil receiving groove, then operate the screw motor 16 to enable the first moving plate 18 to drive the first air cylinder 19 and the oil scraping plate 20 to move downwards, further enable the oil scraping plate 20 to be in contact with the second oil receiving groove, then operate the first air cylinder 19 to enable the oil scraping plate 20 to move back and forth at the second oil receiving groove, further enable the oil scraping plate 20 to scrape oil on the side surface of the second oil receiving groove, finally operate the screw motor 16 to enable the oil scraping plate 20 to move upwards, and further enable the oil scraping plate 20 to scrape oil on the front surface and the rear surface of the second oil receiving groove;

s5, performing S5; resetting the structure inside the cleaned second seal box 55;

the user needs to operate the second cylinder 24 first, then make the magnetic attraction plate 25 connect with the second back filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68, then operate the slide rail 13, make the magnetic attraction plate 25 move the second back filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68 to the second seal box 55, then operate the second cylinder 24, make the magnetic attraction plate 25 transport the second back filter plate 65, the third magnetic plate 66, the fourth magnetic plate 67 and the second front filter plate 68 to the inside of the second seal box 55, finally operate the screw motor 16, make the second rack plate 21 apply a force of reverse rotation to the sixth gear 71, and then make the sliding door set opened by the second seal box 55 close.

Finally, it should be noted that: the above embodiments are only for illustrating the technical solution of the present application, and are not limiting; although the application has been described in detail with reference to the foregoing embodiments, it will be appreciated by those of ordinary skill in the art that: the technical scheme described in the foregoing embodiments can be modified or some technical features thereof can be replaced by equivalents; such modifications and substitutions do not drive the essence of the corresponding technical solutions to depart from the spirit and scope of the technical solutions of the embodiments of the present application.

Claims (10)

1. The utility model provides an oil mist treatment equipment for industrial waste gas, includes base plate (1), its characterized in that, front end and the rear end at base plate (1) top all are equipped with fixed connection's conveyor (2), movable groove has been seted up to one side at base plate (1) top, the inside of movable groove is equipped with fixed connection's belt cleaning device (3), the center at base plate (1) top is equipped with fixed connection's first transfer device (4), first purifier (5), second purifier (6) and third transfer device (12), one side that belt cleaning device (3) were kept away from to first purifier (5) and second purifier (6) is equipped with fixed connection's splitter plate (7) and second transfer device (8), be equipped with swivelling joint's between first purifier (5) and second purifier (6) and drive and move subassembly (9), fixed connection's electric subassembly (10) and first tooth strip (11), third transfer device (12) are located between first purifier (5) and second purifier (6), first transfer device (4) are located between third transfer device (12) and the belt cleaning device.

2. The oil mist treatment equipment for industrial waste gas according to claim 1, wherein the conveying device (2) comprises a sliding rail (13), a sliding plate (14) which is in sliding connection is arranged above the sliding rail (13), a fixed plate (15) is fixedly connected to the top of the sliding plate (14), a threaded motor (16) is fixedly connected to the top of the fixed plate (15), a first sliding block (17) which is in sliding connection is arranged on the surface of an output rod of the threaded motor (16), a first sliding plate (18) is fixedly connected to one side, far away from the cleaning device (3), of the first sliding block (17), a first air cylinder (19) is fixedly connected to one side, far away from the first cleaning device (5), a second scraping plate (21) which is fixedly connected to one side, close to the first cleaning device (5), of the first sliding block (17) is provided with a second scraping plate (21);

the bottom of fixed plate (15) inner chamber fixedly connected with first limit pole (22), the surface of first limit pole (22) is equipped with sliding connection's second movable block (23), one side that first purifier (5) were kept away from to fixed plate (15) is equipped with fixed connection's second cylinder (24), the output fixedly connected with magnetic attraction plate (25) of second cylinder (24).

3. An oil mist treatment device for industrial waste gas according to claim 2, characterized in that the cleaning device (3) comprises two second limiting rods (26), the surfaces of the two second limiting rods (26) are provided with C-shaped plates (27) in sliding connection, the tops of the C-shaped plates (27) are provided with fixedly connected liquid storage tanks (28), the tops of the liquid storage tanks (28) are provided with fixedly connected liquid delivery pumps (29), the tops of the inner walls of the C-shaped plates (27) are provided with fixedly connected spray heads (30), and the bottoms of the inner walls of the C-shaped plates (27) are provided with fixedly connected third rack plates (31).

4. An oil mist treatment device for industrial waste gas according to claim 3, characterized in that the first transfer device (4) comprises a hollow plate (32), a first rotary rod (33) which is rotatably connected is arranged in the hollow plate (32), a first driving wheel (34) and a first gear (36) which are fixedly connected are arranged on the surface of the first rotary rod (33), a first driving belt (35) is connected on the surface of the first driving wheel (34), and the surface of the first gear (36) is meshed with the third rack plate (31).

5. The oil mist treatment device for industrial waste gas according to claim 4, wherein the first purifying device (5) comprises a first sealing box (37), a first rear filter plate (38), a first magnetic pole plate (39), a second magnetic pole plate (40), a first front filter plate (41) and a first induced draft fan (46) and a fourth rack plate (52) which are fixedly connected are arranged in the first sealing box (37), two first supporting plates (42) which are fixedly connected are arranged at the top of the first sealing box (37), a second rotary rod (43) which is rotatably connected is arranged in the center of the first supporting plate (42), a second gear (44) and a first arc-shaped plate (45) which are fixedly connected are arranged on the surface of the second rotary rod (43), first moving grooves are formed in two sides of an inner cavity of the first sealing box (37), third limiting rods (47) which are fixedly connected are arranged in the inner portions of the first moving grooves, second moving plates (48) which are fixedly connected are arranged on the surfaces of the third limiting rods (47), a third rotary rod (49) which are fixedly connected with the inner surfaces of the third rotary rod (49) are arranged on the surfaces of the third sealing box (37), the surfaces of two sides of the first bidirectional threaded rod (53) are respectively in sliding fit with the two second movable plates (48), a fourth gear (54) which is fixedly connected is arranged on the surface of one side, away from the cleaning device (3), of the first bidirectional threaded rod (53), and a first oil receiving groove is formed in the center of the bottom of the inner cavity of the first sealing box (37);

The second purifying device (6) comprises a second sealing box (55), a servo motor (56) fixedly connected with one side of the second sealing box (55) is arranged, a second bidirectional threaded rod (57) in rotary connection is arranged at the output end of the servo motor (56), a third movable plate (58) in sliding connection is arranged on the surfaces of two sides of the second bidirectional threaded rod (57), a fourth rotary rod (59) in rotary connection is arranged in the third movable plate (58), a second plugging plate (60) and a fifth gear (61) in fixed connection are arranged on the surface of the fourth rotary rod (59), second movable grooves are formed in two sides of an inner cavity of the second sealing box (55), a fourth limiting rod (63) in fixed connection is arranged in the second movable groove, the fourth limiting rod (63) is in sliding fit with the third movable plate (58), a fifth tooth slat (62) in fixed connection with a second induced draft fan (64) and a second rear filter plate (65) in sliding connection are arranged in the second sealing box (55), a fifth rotary rod (69) in sliding connection is arranged in the second sealing box (69), a second supporting plate (69) is arranged in front of the second sealing box (55), a second supporting plate (69) is arranged in front of the second sealing box (69), the surface of the fifth rotating rod (70) is provided with a sixth gear (71) and a second arc-shaped plate (72) which are fixedly connected, and the center of the bottom of the inner cavity of the second sealing box (55) is provided with a second oil receiving groove;

The sliding door sets are respectively arranged on one sides, far away from the third transfer device (12), of the first sealing box (37) and the second sealing box (55), and one sides, far away from the third transfer device (12), of the two sliding door sets are respectively connected with the first arc-shaped plate (45) and the second arc-shaped plate (72).

6. An oil mist treatment device for industrial waste gas according to claim 5, characterized in that the second transfer means (8) comprises two third support plates (73), one side of each of the two third support plates (73) is connected with a first sealing box (37) and a second sealing box (55), a fifth limiting rod (74) fixedly connected and a first threaded rod (75) rotatably connected are arranged between the two third support plates (73), a sixth toothed plate (76) in sliding connection and a second driving wheel (77) and a first worm wheel (79) fixedly connected are arranged on the surface of the first threaded rod (75), a second driving belt (78) is connected on the surface of the second driving wheel (77), the sixth toothed plate (76) is in sliding fit with the fifth limiting rod (74), and the surface of the first worm wheel (79) is meshed with the surface of the second bidirectional threaded rod (57).

7. An oil mist treatment device for industrial waste gas according to claim 6, characterized in that the driving assembly (9) comprises a second threaded rod (80), a third driving wheel (81) and a fourth driving wheel (82) which are fixedly connected are arranged on the surface of the second threaded rod (80), the surface of the third driving wheel (81) is connected with a second driving belt (78), and a third driving belt (83) is connected on the surface of the fourth driving wheel (82).

8. An oil mist treatment device for industrial waste gas according to claim 7, characterized in that the electricity receiving assembly (10) comprises two sixth limiting rods (84), the surfaces of the sixth limiting rods (84) are provided with fourth moving plates (85) which are in sliding connection, the fourth moving plates (85) are in sliding fit with the second threaded rods (80), the bottoms of the fourth moving plates (85) are provided with gear rods (86) which are in rotary connection, and the bottoms of the gear rods (86) are provided with electricity receiving plates (87) which are in fixed connection.

9. An oil mist treatment device for industrial waste gas according to claim 8, characterized in that the third rotating device (12) comprises an M-like plate (88), a sixth rotating rod (89) which is rotationally connected is arranged at the rear end inside the M-like plate (88), a fifth driving wheel (90), a first electricity transmission plate (91) and a seventh gear (92) which are fixedly connected are arranged on the surface of the sixth rotating rod (89), and the surface of the fifth driving wheel (90) is connected with a third driving belt (83);

The center of the inside of the M-shaped plate (88) is provided with a worm (93) which is in rotary connection, the surface of the worm (93) is provided with an eighth gear (94) and a sixth driving wheel (95) which are fixedly connected, the surface of the eighth gear (94) is meshed with the surface of the seventh gear (92), and the surface of the sixth driving wheel (95) is connected with a fourth driving belt (96);

a seventh rotary rod (97) which is rotationally connected is arranged at the front end inside the M-shaped plate (88), a second power transmission plate (98) and a seventh transmission wheel (99) which are fixedly connected are arranged on the surface of the seventh rotary rod (97), and the surface of the seventh transmission wheel (99) is connected with a fourth transmission belt (96);

the top at the inside center of class M template (88) is equipped with eighth rotary rod (100) of swivelling joint, the surface of eighth rotary rod (100) is equipped with eighth drive wheel (101) and second worm wheel (102) of fixed connection, the surface of eighth drive wheel (101) is connected with first drive belt (35), the surface of second worm wheel (102) meshes with the surface of worm (93).

10. A treatment method of an oil mist treatment device for industrial waste gas according to claim 9, characterized in that the treatment method comprises the steps of:

S1, performing S1; adjusting the structure inside the second seal box (55) to a clean state;

the user needs to operate the servo motor (56) firstly, then the second bidirectional threaded rod (57) rotates, the two third moving plates (58) can relatively move, then the fifth gear (61) can be in contact with the fifth rack plate (62), then the fourth rotating rod (59) drives the second plugging plate (60) to rotate, so that the second plugging plate (60) is in a transverse state, then the structure inside the second sealing box (55) is in a clean air working state, wherein the rotation of the second bidirectional threaded rod (57) can drive the first worm wheel (79) to rotate, then the first bidirectional threaded rod (53) and the second threaded rod (80) can rotate through transmission, the rotation of the first bidirectional threaded rod (53) can enable the second moving plate (48) to move opposite to the third moving plate (58), then the third gear (51) can be in contact with the fourth rack plate (52), the first magnetic plate (50) can be in contact with the fourth rack plate (52), the first magnetic plate (37) can be in a clean air working state, then the first magnetic plate (37) can be in a sealing box (37) can be in a clean air working state, and the first magnetic plate (37) can be in a sealing box (37) can be in a sealing state, the C-shaped plate (27) can be moved to the air outlet side of the second sealing box (55) through transmission;

S2, performing S2; purifying the exhaust gas by using a second purifying device (6);

the user needs to operate the second induced draft fan (64), so that the second induced draft fan (64) can introduce external waste gas into the second sealing box (55) through the flow dividing plate (7), then the waste gas is firstly filtered by the second front filter plate (68) to be contacted with the fourth magnetic plate (67), then the oil mist in the waste gas is sticky and charged through the fourth magnetic plate (67), then the oil mist can be adhered to the third magnetic plate (66), and finally the gas after the oil mist is filtered is discharged out of the second sealing box (55) through the second rear filter plate (65);

s3, performing S3; adjusting the structure inside the first seal box (37) to a clean state;

the user needs to reversely run the servo motor (56), so that the second plugging plate (60) can plug the air inlet and the air outlet of the second sealing box (55), the structure inside the second sealing box (55) is in a clean state, in the process, the first plugging plate (50) can be in a transverse state inside the first sealing box (37), the power receiving plate (87) can be connected with the first magnetic plate (39) and the second magnetic plate (40), the structure inside the first sealing box (37) is in a clean state, and the C-shaped plate (27) can be moved to the air outlet side of the first sealing box (37) through the transmission of the first transfer device (4), the second transfer device (8), the driving component (9), the power receiving component (10), the first toothed plate (11) and the third transfer device (12);

S4, performing S4; the first purifying device (5) is used for purifying the waste gas and cleaning the structure inside the second sealing box (55);

the first purifying device (5) is used for purifying the waste gas;

the user needs to operate the first induced draft fan (46), so that the first induced draft fan (46) can introduce external waste gas into the first sealed box (37) through the flow dividing plate (7), then remove impurities and oil mist in the waste gas through the first front filter plate (41), the second magnetic plate (40), the first magnetic plate (39) and the first rear filter plate (38), and finally discharge purified gas through the air outlet side of the first sealed box (37);

the step of cleaning the structure inside the second sealing box (55);

step one, opening a sliding door set arranged on a second sealing box (55);

the user needs to firstly operate the sliding rail (13) at the front end of the second purifying device (6), then the second rack plate (21) can move to the lower part of the sixth gear (71), then the screw motor (16) at the front end of the second purifying device (6) is operated, then the first moving block (17) drives the second rack plate (21) to move upwards, and then the sixth gear (71) drives the fifth rotating rod (70) and the second arc plate (72) to rotate, so that a sliding door group formed by the second sealing box (55) can be opened;

Step two, conveying the structure inside the second sealing box (55) to the C-shaped plate (27);

the user needs to operate the second air cylinder (24) at the front end firstly, so that the magnetic suction plate (25) can be in contact with the second rear filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68), then the magnetic suction plate (25) is operated, so that the magnetic suction plate (25) is connected with the second rear filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68), and then the magnetic suction plate (25) can move the second rear filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68) to the upper part of the C-shaped plate (27), and at the moment, the oil scraping plate (20) at the front end is positioned on the same horizontal line with the second oil receiving groove;

step three, cleaning the second rear filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68);

the user needs to operate the infusion pump (29), so that the infusion pump (29) can pump the liquid in the liquid storage tank (28), then the liquid is discharged to the spray head (30), and then the spray head (30) can flush the second back filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68), at this time, because the C-shaped plate (27) is positioned on the air outlet side of the first seal box (37), the second back filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68) can air-dry the air discharged by the first seal box (37) to the second back filter plate (65), the third magnetic plate (66), the fourth magnetic plate (67) and the second front filter plate (68) after the cleaning is completed;

Step four, cleaning the second oil receiving groove;

the user needs to operate the first air cylinder (19) to enable the oil scraping plate (20) to move to the upper side of the second oil receiving groove, then operate the thread motor (16), enable the first moving plate (18) to drive the first air cylinder (19) and the oil scraping plate (20) to move downwards, further enable the oil scraping plate (20) to contact with the second oil receiving groove, then operate the first air cylinder (19), enable the oil scraping plate (20) to move back and forth at the second oil receiving groove, further enable the oil scraping plate (20) to conduct oil scraping and cleaning on the side surface of the second oil receiving groove, finally operate the thread motor (16), enable the oil scraping plate (20) to move upwards, and further enable the oil scraping plate (20) to conduct oil scraping and cleaning on the front surface and the back surface of the second oil receiving groove;

s5, performing S5; resetting the structure inside the cleaned second sealing box (55);

the user needs to operate the second air cylinder (24) firstly, then make the magnetic attraction plate (25) can be connected with the second back filter plate (65), the third magnetic pole plate (66), the fourth magnetic pole plate (67) and the second front filter plate (68), then operate the sliding rail (13), make the magnetic attraction plate (25) can move the second back filter plate (65), the third magnetic pole plate (66), the fourth magnetic pole plate (67) and the second front filter plate (68) to the second sealing box (55), then operate the second air cylinder (24), make the magnetic attraction plate (25) can convey the second back filter plate (65), the third magnetic pole plate (66), the fourth magnetic pole plate (67) and the second front filter plate (68) to the inside of the second sealing box (55), finally operate the screw motor (16), make the second rack plate (21) can apply a reverse rotation force to the sixth gear (71), and then make the door set opened by the second sealing box (55) close.