CN114413377A

CN114413377A - Integrated form new trend purifying box

Info

Publication number: CN114413377A
Application number: CN202111661621.0A
Authority: CN
Inventors: 潘婷; 李民; 丁伟平
Original assignee: Zhejiang Shangfeng High Tech Special Wind Industry Co ltd
Current assignee: Zhejiang Shangfeng High Tech Special Wind Industry Co ltd
Priority date: 2021-12-31
Filing date: 2021-12-31
Publication date: 2022-04-29

Abstract

The invention discloses an integrated fresh air purification box, which comprises an air inlet arranged at one end of a box body, an air outlet arranged at the other end of the box body, and a baffle plate, a cylindrical filter element, a second cleaning structure, a first cleaning structure and a vibration structure, wherein the box body is divided into three module spaces by a side plate and a side plate; three module space is divided through two blocks of curb plates in the box, sets up electrostatic precipitator module, fan module and sterilization module along the air current direction, and the design of integrated form can make the new trend purifying box small can ensure again to get rid of particulate matter, gaseous pollutant and disinfect the disinfection purification treatment effect not influenced to the air.

Description

Integrated form new trend purifying box

Technical Field

The invention belongs to the technical field of purification fans, and particularly relates to an integrated fresh air purification box.

Background

In recent years, along with the continuous development of economy, the living standard of people is improved, the air quality problem increasingly attracts people's attention, and in order to resist haze harm and maintain healthy, people have higher and higher requirements for indoor air quality. One or more air purification devices with different functions are arranged in places such as families, banks, schools, hotels, kindergartens and the like to create a healthy air environment, so that space resources are wasted; the integrated fresh air purifying box can effectively solve the problems;

the air purification equipment in the prior art has the defects of single function and large volume; therefore, an integrated fresh air purification box needs to be designed, the volume of the integrated fresh air purification box is small, particulate matters and gaseous pollutants can be removed from air, and the integrated fresh air purification box can be used for sterilization, disinfection and purification treatment, so that the treated air is clean.

Disclosure of Invention

In order to overcome the defects of the prior art, the invention provides the integrated fresh air purifying box which is small in size, good in air purifying effect and easy to maintain.

In order to achieve the purpose, the invention adopts the following technical scheme: the utility model provides an integrated form new trend purifying box which characterized in that: the air purifier comprises a box body, wherein one end of the box body is provided with an air inlet, the other end of the box body is provided with an air outlet, the box body is divided into three module spaces by a side plate and a side plate, an electrostatic dust removal module, a fan module and a sterilization module are arranged along the air flow direction, a filter box is arranged at the end part of the air inlet, a baffle plate is arranged at the end part of the filter box and used for blocking the filter box, a cylindrical filter element is arranged in the filter box, a second cleaning structure is arranged in the cylindrical filter element and used for cleaning the cylindrical filter element, a first cleaning structure is arranged outside the cylindrical filter element and positioned in the filter box, and a vibration structure is connected with the cylindrical filter element and the second cleaning structure; the filter box comprises a filter plate fixedly connected to the filter box and positioned in front of the cylindrical filter element, a fixing ring fixedly connected to the filter box, a first telescopic rod fixedly connected to the fixing ring, a support ring fixedly connected to the first telescopic rod and used for supporting the cylindrical filter element, a first spring arranged between the support ring and the fixing ring, and a tenth support plate arranged behind the cylindrical filter element; the vibration structure comprises a motor fixedly arranged on the tenth supporting plate, a rotating assembly connected to the motor, a third rotating shaft fixedly connected to the motor, a crank assembly connected to the third rotating shaft, a first driving assembly arranged on the third rotating shaft, a second driving assembly connected to the first driving assembly and used for controlling the crank assembly, a first control assembly connected to the second driving assembly, a second control assembly connected to the first control assembly and a third control assembly;

when the dust filter is in use, external wind can reach the cylindrical filter element and then blows out outwards through the side face of the cylindrical filter element, so that dust can be filtered through the circumference face of the cylindrical filter element, then the motor drives the rotating assembly to move, so that the rotating assembly drives the cylindrical filter element to rotate, then the cylindrical filter element rotates, namely the dust can be uniformly filtered, namely the dust is not uniformly fed with the wind, so that more dust can be arranged and smaller, then the problem that the dust can be arranged on the cylindrical filter element in a larger position and smaller position can be caused, then the cylindrical filter element rotates, so that the dust can be uniformly distributed on the cylindrical filter element, the dust can be filtered by the cylindrical filter element, so that the dust can be better and more uniformly filtered by the cylindrical filter element, and the problem that the dust on the cylindrical filter element is uniformly adhered to cause more dust is avoided, one place the dust is few, thereby also can be better guarantee the air permeability of cylinder filter core, better assurance air can be better pass through the cylinder filter core, can not influence the ventilation, later the motor still can drive the third pivot and rotate, the third pivot passes through crank assembly and second clearance structure and drives the cylinder filter core and carry out reciprocating vibrations from top to bottom, thereby also can make the cylinder filter core carry out reciprocating motion from top to bottom, through inertia, make the dust can be shaken off, thereby also better avoid the dust too much, the adhesion is on the cylinder filter core, thereby can guarantee that the dust on the cylinder filter core is less, thereby better assurance cylinder filter core's air permeability and the filtration of cylinder filter core, later still can scrape off through the inside dust of second clearance structure to the cylinder filter core, thereby also guaranteed that cylinder filter core surface does not have too much dust yet, thereby also the stability of cylinder filter core to the filter effect of dust and better assurance have further improved The rear surface has the air purification effect.

Furthermore, the second cleaning structure comprises a first chute arranged on the tenth supporting plate, a guide disc arranged in the first chute in a sliding manner, a first rotating shaft fixedly connected with the guide disc, an eighth rotating shaft fixedly connected with the first rotating shaft and rotatably arranged in the cylindrical filter element, a sleeve arranged on the eighth rotating shaft in a sliding manner, a connecting rod fixedly connected with the sleeve, a cleaning plate fixedly connected with the connecting rod and attached in the cylindrical filter element, and a rope connected with the sleeve, the filter box comprises a rope pulling assembly, a double-sided rack, a second supporting plate, an electric rod, a first rack, a first gear, a second rotating shaft and a second transmission belt, wherein the rope pulling assembly is connected to a rope and used for driving a sleeve to move through the rope;

make the eighth pivot rotate when mainly reducing the inside dust attached quantity of cylinder filter core through the up-and-down motion of cylinder filter core, later the eighth pivot is rotatory to be realized through first gear up-and-down motion and first rack toothing, thereby the rotation speed and the direction of rotation of the eighth pivot all are different with the cylinder filter core, thereby it is relative motion to be exactly the rotation between eighth pivot and the cylinder filter core, thereby it can carry out circumferencial direction's slip on the internal surface of cylinder filter core to be exactly the clearance board, thereby it clears up the dust to make the clearance board to the internal surface of cylinder filter core even, thereby keep the internal surface of cylinder filter core clean, thereby guarantee to the filtration of dust and ventilate well.

Furthermore, the pull rope assembly comprises a second gear rotatably arranged in the first rotating shaft, a fourth rotating shaft fixedly connected to the second gear and meshed with the double-sided rack, a second helical gear fixedly connected to the fourth rotating shaft, a third helical gear meshed with the second helical gear, a tenth rotating shaft fixedly connected to the third helical gear and rotatably arranged in the eighth rotating shaft, a ninth rotating shaft rotatably arranged in the eighth rotating shaft, a belt wheel fixedly arranged on the ninth rotating shaft, and a fourth transmission belt wound on the tenth rotating shaft and the ninth rotating shaft; the number of the ninth rotating shafts is two; are respectively positioned at the upper part and the lower part of the rope;

the eighth rotating shaft reciprocates up and down along with the first chute, namely the second gear moves, namely the second gear drives the fourth rotating shaft to rotate, then the tenth rotating shaft rotates through the second bevel gear and the third bevel gear, then the belt wheels rotate through the fourth transmission belt, then the two belt wheels clamp the rope in the middle, so that the two belt wheels drive the rope to move, then the rope drives the eighth rotating shaft to transmit, so that the rope drives the sleeve to slide in the eighth rotating shaft, so that the sleeve moves from one end of the eighth rotating shaft to the other end of the eighth rotating shaft in the eighth rotating shaft, so that the cleaning plate can clean the inner surface of the cylindrical filter element without dead angles, the inner surface of the cylindrical filter element is cleaner, and no dust exists, and then, the stability of the cylindrical filter element for filtering dust and the good durability of ventilation are further improved, so that the cylindrical filter element can be conveniently used for a long time.

Furthermore, the first driving assembly comprises a third supporting plate fixedly connected to the third rotating shaft, a fifth rotating shaft rotatably arranged on the third supporting plate, a toothed belt wound on the fifth rotating shaft, a bevel toothed edge arranged on the toothed belt, an internal gear fixedly arranged on the tenth supporting plate and concentrically arranged with the third rotating shaft, and a third gear fixedly arranged on the fifth rotating shaft and meshed with the internal gear; the second driving assembly comprises a first bevel gear meshed with the bevel gear edge, a lead screw fixedly connected to the first bevel gear, a fifth supporting plate and a fourth supporting plate rotatably connected to the lead screw, and a nut block in threaded connection with the lead screw; the crank assembly comprises a first connecting rod fixedly connected to the third rotating shaft and a second connecting rod connected to the first connecting rod; the fifth supporting plate and the fourth supporting plate are connected to the first connecting rod; the second connecting rod is hinged to the nut block; the lead screw and the side surface of the first connecting rod are arranged in parallel;

the third rotating shaft rotates to drive the first connecting rod to move, and then the second connecting rod is driven to move, so that the first rotating shaft is driven by the second connecting rod to reciprocate up and down in the first sliding groove, the third rotating shaft also drives the third supporting plate to move, then the third supporting plate drives the fifth rotating shaft to move, the fifth rotating shaft rotates under the action of the third gear and the internal gear, so that the toothed belt is driven, then the inclined toothed edge and the first helical gear core are driven, so that the first helical gear is driven to rotate, the position of the meshing part of the second connecting rod and the nut block on the first connecting rod is changed through the matching of the screw rod and the nut block, so that the position of the meshing part of the second connecting rod and the nut block is close to a sixth spring of the vibration structure or away from the third rotating shaft, and the distance of the driving crank is lengthened or shortened, therefore, when the first connecting rod drives the second connecting rod to move, the frequency of the reciprocating motion of the first rotating shaft in the first sliding groove can be changed, so that the vibration of the cylindrical filter element can be adjusted, the motion of the second cleaning structure can be adjusted, so that the first rotating shaft firstly moves fast and then slowly and then circulates from slow to fast, so that the cylindrical filter element can be in different vibrations, the cylindrical filter element can better generate larger inertia, so that dust can be better shaken off, the rotating speed of the sleeve in the cylindrical filter element can be changed, the moving speed of the sleeve in the eighth rotating shaft can be changed, the sleeve can move on the eighth rotating shaft for different distances after the sleeve rotates for different turns, so that the cleaning plate can more uniformly scrape the dust off the inside of the cylindrical filter element, avoid the clearance board not yet at the inside rotatory round of cylinder filter core just the forward motion distance that is greater than clearance board width to just also can be better make the clearance board strike off the dust to the inside no dead angle of cylinder filter core, can also make the rotation of clearance board and connecting rod outwards release the dust simultaneously, push away the outside of cylinder filter core, thereby the assurance cylinder filter core that can be better carries out the effect purified to the air.

Furthermore, the first control assembly comprises a fifth telescopic rod and a fifth spring which are fixedly connected between the fourth support plate and the first connecting rod and used for resetting the fourth support plate, a sixth support plate fixedly arranged below the fourth support plate, a lifting rod fixedly connected to the sixth support plate, a ninth support plate fixedly arranged on the nut block, a fourth spring fixedly arranged below the ninth support plate, a triangular clamping plate fixedly arranged below the fourth spring, and a fourth telescopic rod fixedly arranged between the triangular clamping plate and the ninth support plate; the second control assembly comprises an arc-shaped lug fixedly connected to the sixth supporting plate, a seventh supporting plate fixedly connected to the first connecting rod, a second telescopic rod and a second spring fixedly arranged between the seventh supporting plate and the angular clamping plate, an eighth supporting plate fixedly arranged on the first connecting rod, a third telescopic rod and a third spring fixedly arranged on the eighth supporting plate, and an arc-shaped clamping plate fixedly connected to the third telescopic rod and the third spring and matched with the ice river lifting rod;

the nut block can move on the first connecting rod under the action of the angle-shaped clamping plate, so that the nut block drives the ninth supporting plate to move, the triangular clamping plate and the arc-shaped convex block can be matched after the nut block moves to the position of the fourth supporting plate, the kinetic energy of the movement of the nut block is converted into the elastic potential energy of the second spring, so that the energy is stored, the nut block moves to the limit position and cannot move continuously to the position of the fourth supporting plate, then the fourth supporting plate and the fifth supporting plate can move downwards through the second spring, so that the positions where the first bevel gear is meshed with the bevel gear edge are changed, the lead screw can rotate reversely, the nut block can move in the opposite direction, and the time for the downward movement of the fourth supporting plate and the fifth supporting plate is avoided, later as long as just can make first helical gear and helical tooth limit disengage with moving, thereby lose drive power, lead to the problem that can't realize, thereby also better improvement the stability of equipment operation, later also can make the nut piece carry out reciprocating motion under the effect of lead screw, thereby also realized that cylinder filter core reciprocating motion and connecting rod rotation and the speed of motion carry out even change from top to bottom, thereby better adjust it, also can make the dust can more even handle, thereby guaranteed the effect of purifying to the air.

Furthermore, two sixth supporting plates and two lifting rods are respectively connected with the fourth supporting plate and the fifth supporting plate; the number of the arc-shaped clamping plate, the number of the eighth supporting plate, the number of the third telescopic rod and the number of the third spring are also two, and the arc-shaped clamping plate, the eighth supporting plate, the third telescopic rod and the third spring are respectively matched with the two lifting rods; the third control component comprises a second rack and a third rack which are connected to the arc-shaped clamping plate, a fourth gear meshed with the third rack, a sixth rotating shaft which is fixedly connected to the third rack and is rotatably arranged on the first connecting rod, a fifth gear which is fixedly connected to the sixth rotating shaft and is meshed with the second rack, a connecting frame which is fixedly connected to the nut block, and a fourth rack which is fixedly connected to the connecting frame and is matched with the fourth gear; the second rack is fixedly connected to the arc-shaped clamping plate close to the third rotating shaft; the third rack is fixedly connected to the arc-shaped clamping plate far away from the third rotating shaft;

the nut piece can make the arc cardboard no longer block the lifter through the third control assembly after moving to the position that is close to the fifth backup pad, thereby can make fifth backup pad and fourth backup pad upwards reset under the effect of fifth telescopic link and fifth spring, thereby also can make fourth backup pad and fifth backup pad reset, thereby messenger's fourth backup pad and fifth backup pad that can be better carry out the switch position and make the lead screw change the direction that drives the nut piece motion, the better change that even continuation was carried out to the stroke that makes first pivot up-and-down reciprocating motion in first spout.

Furthermore, the rotating assembly comprises a seventh rotating shaft rotatably arranged on the tenth supporting plate, a sixth gear fixedly connected to the seventh rotating shaft, a third transmission belt wound on the seventh rotating shaft and the output end of the motor, and a seventh gear fixedly arranged on the cylindrical filter element and meshed with the sixth gear; the seventh rotating shaft is also arranged on the tenth supporting plate in a sliding manner; a tensioning device is arranged on the third transmission belt;

the motor can drive the third drive belt and move to can make the third drive belt drive the seventh gear through seventh pivot and sixth gear, thereby can drive the cylinder filter core just also and rotate, later cylinder filter core still can remove, thereby overspeed device tensioner on the third drive belt can be that the third drive belt keeps good transmission always, can not appear lax and tension, later overspeed device tensioner is prior art, does not explain.

Further, the baffle comprises a connecting block fixedly arranged on the baffle, a supporting block fixedly arranged on the outer side of the filter box, a first supporting plate fixedly arranged on the supporting block, and an electric rotating shaft rotatably arranged on the first supporting plate and fixedly connected to the connecting block; the first cleaning structure comprises a first transmission belt wound on the electric rotating shaft, a fourth supporting plate connected to the nut block, a driving plate connected to the fourth supporting plate, a second chute arranged on the driving plate, a first guide rod arranged on the driving plate in a sliding manner, a blower fixedly connected to the first guide rod, a sixth telescopic rod and a sixth spring fixedly arranged between the blower and the filter box, and a turbine arranged on the driving plate and matched with the worm; the filter box is provided with a positioning plate for supporting and guiding the outside of the driving disc;

can close the baffle when not using, thereby prevent that the dust from getting into, thereby the cylinder filter core can not be in work always, the life of improvement cylinder filter core, when later baffle is closed, can make the hair-dryer paste on the excircle of cylinder filter core, and blow to the cylinder filter core from the outside, thereby reach the effect of clearing up the cylinder filter core, later can better guarantee the clean degree of cylinder filter core, better assurance cylinder filter core filterable effect, later the baffle is opened, can make the hair-dryer keep away from the cylinder filter core, thereby further improve the stability of equipment use.

Furthermore, a metal primary effect assembly, an electrostatic dust collection assembly and an ozone filtering assembly are sequentially arranged in the electrostatic dust collection module.

Further, the fan module comprises a current collector, a fan, a motor and a motor base.

Furthermore, the side surface of the box body is provided with an access hole.

The electrostatic dust removal module is used for removing particle pollutants and gaseous pollutants in fresh air, releasing ionic chlorine, increasing vitamins in the air and having a health-care effect, and the sterilization module is used for sterilizing and disinfecting the fresh air. Fresh air enters the box body from the air inlet of the box body under the action of the fan module, and after the air is filtered, sterilized, disinfected and purified by the electrostatic dust removal module and the disinfection module, clean air is discharged out of the box body from the air outlet of the box body and is sent into a room;

preferably, the electrostatic dust removal module is composed of a metal primary effect assembly, an electrostatic dust removal assembly and an ozone filtering assembly;

preferably, the metal primary effect component performs metal primary effect filtration on air, the particle size efficiency is more than or equal to 5um, and the filtration efficiency is 20-50%;

preferably, the electrostatic dust removal assembly performs electrostatic dust removal and filtration on air, and the filtration parameters of the electrostatic dust remover are as follows: when the wind speed is 3 meters, the efficiency can reach more than 80 percent, and when the wind speed is 2 meters, the efficiency can reach more than 90 percent;

preferably, the fan module comprises a current collector, a fan and a motor. The fan module is arranged between the electrostatic dust collection module and the sterilization module, so that fresh air can well enter the box body, and after the air is filtered, sterilized, disinfected and purified by the electrostatic dust collection module and the sterilization module, clean air is discharged out of the box body and is sent into a room;

three module space is divided through two blocks of curb plates in the box, sets up electrostatic precipitator module, fan module and sterilization module along the air current direction, and the design of integrated form can make the new trend purifying box small, can ensure again to get rid of particulate matter, gaseous pollutant and disinfect the disinfection purification treatment effect not influenced to the air.

In conclusion, the cylindrical filter element and the vibration structure are arranged, so that dust is better and uniformly filtered, the filtering effect is improved, and the service life of the filtering is prolonged; the second cleaning structure is arranged, when the filter is used, the cylindrical filter element is cleaned, and the filter can continuously maintain the high-strength filtering and purifying effect in a place with much dust.

Drawings

FIG. 1 is a schematic structural view of the present invention;

FIG. 2 is a schematic view of the structure of the filtration tank of the present invention;

FIG. 3 is an enlarged view of A of FIG. 2 according to the present invention;

FIG. 4 is a schematic view of the cleaning plate according to the present invention;

FIG. 5 is a schematic view of a retaining ring according to the present invention;

FIG. 6 is a schematic structural view of a drive plate according to the present invention;

FIG. 7 is a schematic structural view of a vibrating structure according to the present invention;

FIG. 8 is an enlarged view of B of FIG. 7 in accordance with the present invention;

FIG. 9 is a schematic structural diagram of a second driving assembly according to the present invention;

FIG. 10 is a schematic structural diagram of a first driving assembly according to the present invention;

FIG. 11 is an enlarged view of C of FIG. 9 in accordance with the present invention;

FIG. 12 is an enlarged view of D of FIG. 9 in accordance with the present invention;

FIG. 13 is an enlarged view of E of FIG. 12 in accordance with the invention;

FIG. 14 is a schematic structural view of a first link according to the present invention;

FIG. 15 is a schematic view of the position structure of M-M in the present invention;

FIG. 16 is a schematic sectional view of M-M in the present invention;

FIG. 17 is an enlarged view of F of FIG. 16 in accordance with the invention;

FIG. 18 is an enlarged view of G of FIG. 16 in accordance with the present invention;

FIG. 19 is an enlarged view of H of FIG. 16 in accordance with the invention;

FIG. 20 is an enlarged view of K of FIG. 16 in accordance with the invention;

FIG. 21 is a schematic view of the structure of the motor of the present invention;

Detailed Description

In order to make the technical solutions of the present invention better understood, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention.

As shown in fig. 1-21, an integrated form new trend purifying box, its characterized in that: the air purifier comprises a box body 1A, wherein an air inlet 1 is formed in one end of the box body 1A, an air outlet 15 is formed in the other end of the box body 1A, the box body 1A is divided into three module spaces through a side plate 1G and a side plate 12, an electrostatic dust removal module 1C, a fan module 1H and a killing module 13 are arranged in the air flow direction, a filter box 2 arranged at the end part of the air inlet 1, a baffle 3 arranged at the end part of the filter box 2 and used for blocking the filter box 2, a cylindrical filter element 5 arranged inside the filter box 2, a second cleaning structure 7 arranged inside the cylindrical filter element 5 and used for cleaning the cylindrical filter element 5, a first cleaning structure 4 arranged outside the cylindrical filter element 5 and located inside the filter box 2, and a vibration structure 6 connected with the cylindrical filter element 5 and the second cleaning structure 7; a filter plate 51 fixedly connected to the filter box 2 and located in front of the cylindrical filter element 5, a fixing ring 50 fixedly connected to the filter box 2, a first telescopic rod 53 fixedly connected to the fixing ring 50, a support ring 52 fixedly connected to the first telescopic rod 53 for supporting the cylindrical filter element 5, a first spring 54 arranged between the support ring 52 and the fixing ring 50, and a tenth support plate 55 arranged behind the cylindrical filter element 5; the vibrating structure 6 comprises a motor 61 fixedly arranged on the tenth supporting plate 55, a rotating assembly 62 connected to the motor 61, a third rotating shaft 63 fixedly connected to the motor 61, a crank assembly 64 connected to the third rotating shaft 63, a first driving assembly 65 arranged on the third rotating shaft 63, a second driving assembly 67 connected to the first driving assembly 65 and used for controlling the crank assembly 64, a first control assembly 66 connected to the second driving assembly 67, a second control assembly 68 connected to the first control assembly 66 and a third control assembly 69; the 2 is provided with an air outlet for discharging air and dust;

when the dust filter is in use, external wind can reach the cylindrical filter element 5 and then is blown out outwards through the side surface of the cylindrical filter element 5, so that dust can be filtered through the circumferential surface of the cylindrical filter element 5, then the motor 61 drives the rotating component 62 to move, so that the rotating component 62 drives the cylindrical filter element 5 to rotate, then the cylindrical filter element 5 rotates, namely the dust can be uniformly filtered, namely the dust is not uniformly coming along with the wind, more dust can be arranged and smaller, then the problem that the dust can be arranged on the cylindrical filter element 5 in a larger position and smaller position can be caused, then the cylindrical filter element 5 can rotate, so that the dust can be uniformly distributed on the cylindrical filter element 5, and then the dust can be filtered by the cylindrical filter element 5, so that the dust can be better uniformly filtered by the cylindrical filter element 5, therefore, the phenomenon that one part of dust is more and one part of dust is less due to uneven adhesion of the dust on the cylindrical filter element 5 can be avoided, the ventilation performance of the cylindrical filter element 5 can be better ensured, air can better pass through the cylindrical filter element 5 without influencing ventilation, then the motor 61 can drive the third rotating shaft 63 to rotate, the third rotating shaft 63 drives the cylindrical filter element 5 to vibrate up and down through the crank assembly 64 and the second cleaning structure 7, so that the dust can be shaken off through inertia when the cylindrical filter element 5 reciprocates up and down, and thus the dust is better prevented from being too much and adhered on the cylindrical filter element 5, the dust on the cylindrical filter element 5 is less, the ventilation performance of the cylindrical filter element 5 and the filtration of the cylindrical filter element 5 are better ensured, and then the dust in the cylindrical filter element 5 can be scraped off through the second cleaning structure 7, thereby, the surface of the cylindrical filter element 5 is ensured not to have too much dust, and the stability of the dust filtering effect of the cylindrical filter element 5 is further improved and the rear air purification effect is better ensured.

Specifically, the second cleaning structure 7 includes a first sliding slot 60 disposed on the tenth supporting plate 55, a guiding plate 601 slidably disposed in the first sliding slot 60, a first rotating shaft 602 fixedly connected to the guiding plate 601, an eighth rotating shaft 71 fixedly connected to the first rotating shaft 602 and rotatably disposed inside the cylindrical filter element 5, a sleeve 782 slidably disposed on the eighth rotating shaft 71, a connecting rod 78 fixedly connected to the sleeve 782, a cleaning plate 781 fixedly connected to the connecting rod 78 and attached inside the cylindrical filter element 5, a rope 72 connected to the sleeve 782, a pull-rope assembly 73 connected to the rope 72 for driving the sleeve 782 to move through the rope 72, a double-sided rack 74 connected to the pull-rope assembly 73, a second supporting plate 751 fixedly disposed on the tenth supporting plate 55, an electric rod 75 fixedly connected to the double-sided rack 74 and the second supporting plate 751, a first rack 771 fixedly disposed on the filter box 2, a second rack 74 fixedly disposed on the tenth supporting plate 55, a second rack 771, A first gear 77 engaged with the first rack 771, a second rotating shaft 761 fixedly connected to the first gear 77, and a second driving belt 76 wound around the second rotating shaft 761 and the first rotating shaft 602.

Specifically, the pulling rope assembly 73 includes a second gear 731 rotatably disposed inside the first rotating shaft 602, a fourth rotating shaft 732 fixedly connected to the second gear 731 and engaged with the double-sided rack 74, a second helical gear 733 fixedly connected to the fourth rotating shaft 732, a third helical gear 734 engaged with the second helical gear 733, a tenth rotating shaft 737 fixedly connected to the third helical gear 734 and rotatably disposed inside the eighth rotating shaft 71, a ninth rotating shaft 735 rotatably disposed inside the eighth rotating shaft 71, a pulley 738 fixedly disposed on the ninth rotating shaft 735, and a fourth transmission belt 736 wound on the tenth rotating shaft 737 and the ninth rotating shaft 735; two ninth rotating shafts 735 are provided; respectively located at two locations above and below the cable 72.

Specifically, the first driving assembly 65 includes a third support plate 652 fixedly connected to the third rotating shaft 63, a fifth rotating shaft 653 rotatably disposed on the third support plate 652, a toothed belt 651 wound around the fifth rotating shaft 653, a bevel toothed edge 654 disposed on the toothed belt 651, an internal gear 655 fixedly disposed on the tenth support plate 55 and concentrically disposed with the third rotating shaft 63, and a third gear 656 fixedly disposed on the fifth rotating shaft 653 and engaged with the internal gear 655; the second driving assembly 67 comprises a first bevel gear 675 engaged with the bevel gear edge 654, a lead screw 672 fixedly connected to the first bevel gear 675, a fifth supporting plate 674 and a fourth supporting plate 671 rotatably connected to the lead screw 672, and a nut block 673 screwed to the lead screw 672; the crank assembly 64 includes a first connecting rod 641 fixedly connected to the third rotating shaft 63, and a second connecting rod 642 connected to the first connecting rod 641; the fifth and

fourth support plates

674 and 671 are connected to the first link 641; the second link 642 is hinged to the nut block 673; the lead screw 672 and the first connecting rod 641 are arranged in parallel.

Specifically, the first control assembly 66 includes a fifth expansion link 667 and a fifth spring 668 fixedly connected between the fourth support plate 671 and the first link 641 for restoring the fourth support plate 671, a sixth support plate 665 fixedly disposed below the fourth support plate 671, a lifting rod 666 fixedly connected to the sixth support plate 665, a ninth support plate 661 fixedly disposed on the nut block 673, a fourth spring 662 fixedly disposed below the ninth support plate 661, a triangle catch plate 663 fixedly disposed below the fourth spring 662, and a fourth expansion link 664 fixedly disposed between the triangle catch plate 663 and the ninth support plate 661; the second control assembly 68 includes an arc-shaped protrusion 681 fixedly connected to the sixth support plate 665, a seventh support plate 685 fixedly connected to the first link 641, a second extension bar 683 and a second spring 684 fixedly disposed between the seventh support plate 685 and the angle-shaped catch plate 682, an eighth support plate 687 fixedly disposed on the first link 641, a third extension bar 688 and a third spring 689 fixedly disposed on the eighth support plate 687, and an arc-shaped catch plate 686 fixedly connected to the third extension bar 688 and the third spring 689 for engaging with the ice river lifting bar 666.

Specifically, two sixth support plates 665 and two lifting rods 666 are respectively connected with the fourth support plate 671 and the fifth support plate 674; the number of the arc-shaped clamping plates 686, the eighth supporting plate 687, the third telescopic rod 688 and the third spring 689 is also two, and the arc-shaped clamping plates are respectively matched with the two lifting rods 666; the third control assembly 69 comprises a second rack 691 and a third rack 692 connected to the arc-shaped clamping plate 686, a fourth gear 693 meshed with the third rack 692, a sixth rotating shaft 694 fixedly connected to the third rack 692 and rotatably arranged on the first connecting rod 641, a fifth gear 695 fixedly connected to the sixth rotating shaft 694 and meshed with the second rack 691, a connecting frame 697 fixedly connected to the nut block 673, and a fourth rack 696 fixedly connected to the connecting frame 697 and matched with the fourth gear 693; the second rack 691 is fixedly connected to an arc-shaped clamping plate 686 close to the third rotating shaft 63; the third rack 692 is fixedly connected to an arc-shaped catch plate 686 away from the third rotating shaft 63.

Specifically, the rotating assembly 62 includes a seventh rotating shaft 622 rotatably disposed on the tenth supporting plate 55, a sixth gear 623 fixedly connected to the seventh rotating shaft 622, a third transmission belt 621 wound around the seventh rotating shaft 622 and the output end of the motor 61, and a seventh gear 624 fixedly disposed on the cylindrical filter element 5 and engaged with the sixth gear 623; the seventh rotating shaft 622 is also slidably disposed on the tenth supporting plate 55; a tensioning device is arranged on the third transmission belt 621.

Specifically, the baffle 3 comprises a connecting block 31 fixedly arranged on the baffle 3, a supporting block 33 fixedly arranged on the outer side of the filter box 2, a first supporting plate 34 fixedly arranged on the supporting block 33, and an electric rotating shaft 32 rotatably arranged on the first supporting plate 34 and fixedly connected to the connecting block 31; the first cleaning structure 4 comprises a first driving belt 473 wound on the electric rotating shaft 32, a fourth supporting plate 671 connected with the nut block 673, a driving plate 44 connected with the fourth supporting plate 671, a second sliding chute 46 arranged on the driving plate 44, a first guide rod 45 arranged on the driving plate 44 in a sliding manner, a blower 41 fixedly connected with the first guide rod 45, a sixth telescopic rod 42 and a sixth spring 43 fixedly arranged between the blower 41 and the filter box 2, and a turbine 47 arranged on the driving plate 44 and matched with the worm 471; and a positioning plate for supporting and guiding the outside of the driving plate 44 is arranged on the filter box 2.

Specifically, a metal primary effect assembly 1D, an electrostatic dust collection assembly 1E and an ozone filtering assembly 1F are sequentially arranged in the electrostatic dust collection module 1C.

Specifically, the fan module includes a current collector 1K, a fan 10, a motor 11, and a motor base 16.

Specifically, the side surface of the box body 1A is provided with an access hole.

The specific working process of the invention is as follows: the outside air is sucked into the air inlet 1 along the filter box 2 through the fan, then passes through the cylindrical filter element 5 when passing through the filter box 2, then the filter plate 51 guides the air, so that the air can only pass through the cylindrical filter element 5 and reach the air inlet 1, then passes through the inside of the cylindrical filter element 5, and then cannot pass through the cylindrical filter element 5, so that the air can be blown out outwards from the outer circle side of the cylindrical filter element 5 and then reaches between the filter box 2 and the cylindrical filter element 5, then the air can only pass through the air inlet 1 and is blown out from the other end of the air inlet 1 due to the shielding of the filter plate 51, then the motor 61 drives the third transmission belt 621 to transmit, then the third transmission belt 621 drives the seventh rotating shaft 622 to rotate, so that the seventh rotating shaft 622 drives the sixth gear 623 to rotate, and then the sixth gear 623 drives the seventh gear 624 to rotate, then, the seventh gear 624 drives the cylindrical filter element 5 to rotate, so that the cylindrical filter element 5 rotates under the support of the support ring 52, then the first spring 54 makes the third rotating shaft 63 located at the center of the filter box 2, and can make the cylindrical filter element 5 move up and down, then the motor 61 drives the first connecting rod 641 and the second connecting rod 642 to move, so that the first rotating shaft 602 is driven to move, then the first rotating shaft 602 reciprocates up and down under the guide of the guide disc 601 and the first sliding chute 60, so that the first rotating shaft 602 drives the eighth rotating shaft 71 to reciprocate up and down, then the eighth rotating shaft 71 drives the cylindrical filter element 5 to reciprocate up and down, then the first sliding chute 60 drives the second rotating shaft 761 to move together through the connecting frame 697, and then the second rotating shaft 761 drives the first gear 77 to move, then the position of the first rack 771 is fixed, so that the first gear 77 reciprocates the first gear 77 under the action of the first rack 771, then the first gear 77 drives the second rotating shaft 761, and the first sliding chute 60 is driven to reciprocate by the second transmission belt 76, so that the eighth rotating shaft 71 reciprocates, then the cylindrical filter element 5 rotates continuously, the first sliding chute 60 rotates intermittently, and the driving modes are different, so that the rotating speeds of the two are different, the motor 61 drives the first connecting rod 641 and the second connecting rod 642 to move through the third rotating shaft 63, then the third rotating shaft 63 drives the third supporting plate 652 to rotate, so that the third supporting plate 652 drives the fifth rotating shaft 653 to move, and the fifth rotating shaft 653 drives the third gear 656 to move together, then the third gear 656 will engage with the internal gear 655, so that the third gear 656 will drive the fifth rotating shaft 653 to rotate, so that the toothed belt 651 will be driven to rotate, so that the toothed belt 651 will drive the first bevel gear 675 to rotate through the bevel edge 654, then the driving direction of the toothed belt 651 is fixed, so that the first bevel gear 675 will always rotate in one direction, so that the first bevel gear 675 will drive the lead screw 672 to move, so that the lead screw 672 will drive the nut block 673 to move on the first connecting rod 641, then the bevel edges 654 are disposed on the upper and lower sides of the toothed belt 651, so that the upper bevel edge 654 and the first bevel gear 675 are normally engaged, so as to drive the lead screw 672 to rotate, so that the nut block 673 is driven to move in the direction close to the third rotating shaft 63 by the lead screw 672, and then the nut block 673 will drive the ninth supporting plate 661 and the triangular clamping plate 663 to move after the nut block 673 moves to the position of the fifth supporting plate 674 When the triangular clamping plates 663 are moved to the same position, the triangular clamping plates 663 contact the arc-shaped convex blocks 681, so that the triangular clamping plates 663 move upwards through the inclined surfaces on the triangular clamping plates 663 and the curved surfaces on the arc-shaped convex blocks 681, then the fourth springs 662 and the fourth telescopic rods 664 are compressed, then the arc-shaped convex blocks 681 are clamped by the angle-shaped clamping plates 682, so that the arc-shaped convex blocks 681 cannot move upwards, then the nut blocks 673 continue to move, then the triangular clamping plates 663 contact the angle-shaped clamping plates 682 and drive the angle-shaped clamping plates 682 to move away from the arc-shaped convex blocks 681, then the angle-shaped clamping plates 682 and the arc-shaped convex blocks 681 are separated, then the arc-shaped convex blocks 681 are not clamped, then the arc-shaped convex blocks 681 move downwards under the action of downward pressure of the triangular clamping plates 663 driven by the fourth springs 662 and the fourth telescopic rods 664, then the arc-shaped convex blocks 681 drive the sixth supporting plate 665 to move downwards, the sixth support plate 665 then moves the lifting rod 666 downward, the lifting rod 666 then engages the arcuate clamp plate 686 so that the lifting rod 666 pushes the arcuate clamp plate 686 to move so that the arcuate clamp plate 686 does not block the downward movement of the lifting rod 666, the lifting rod 666 then moves below the arcuate clamp plate 686, the arcuate clamp plate 686 is reset by the third spring 689 so that the arcuate clamp plate 686 clamps the lifting rod 666 below, the sixth support plate 665 and the fifth support plate 674 are fixed in position so that the fifth support plate 674 moves downward, the fifth support plate 674, the lead screw 672 and the fourth support plate 671 all move downward so that the first helical gear 675 and the lower helical gear edge 654 engage so that the direction of rotation of the first helical gear 675 is changed to rotate in the opposite direction and the lead screw 672 is then rotated in the opposite direction, so that the lead screw 672 drives the nut block 673 to move reversely, then the nut block 673 drives the connecting rack 697 and the fourth rack 696 to move to the position of the fourth supporting plate 671, and then the fourth rack 696 and the fourth gear 693 are engaged, and then the fourth gear 693 is driven to rotate, so that the fourth gear 693 drives the sixth rotating shaft 694 to rotate, then the sixth rotating shaft 694 drives the fifth gear 695 to rotate, so that the fourth gear 693 and the fifth gear 695 rotate identically, and then the fourth gear 693 drives the arc-shaped chuck plates 686 to move away from the fourth supporting plate 671 through the third rack 692, and the first helical gear 675 drives the other arc-shaped chuck plate 686 to move away from the fifth supporting plate 674 through the second rack 691, so that the two arc-shaped chuck plates 686 move towards each other, so that the two arc-shaped chuck plates 686 do not seize the lifting rod 666 any more, the lifting rod 666 is then reset under the action of the fifth spring 668 and the fifth telescopic rod 667, and then the first helical gear 675 is again engaged with the upper helical gear 654, so that the lead screw 672 is again rotated in the opposite direction, and the nut block 673 is driven to move in the opposite direction, so that the nut block 673 reciprocates on the first connecting rod 641, and then the nut block 673 moves to drive the second connecting rod 642 to move, so that the hinge point between the first connecting rod 641 and the second connecting rod 642 is continuously changed, so that the first connecting rod 641 and the second connecting rod 642 drive the first rotating shaft 602 to reciprocate up and down at different frequencies, so that the cylindrical filter element 5 reciprocates up and down at different frequencies, and the eighth rotating shaft 71 also reciprocates at different frequencies;

when the first rotating shaft 602 moves, the fourth rotating shaft 732 is also driven to move together, then the fourth rotating shaft 732 drives the second gear 731 to move, the second gear 731 is engaged with the double-sided rack 74, then the second gear 731 moves to the end to be reset, the double-sided rack 74 is driven to move by the electric rod 75, so that the teeth on the other side of the double-sided rack 74 are engaged with the second gear 731, then the second gear 731 continuously rotates, then the second gear 731 rotates to drive the fourth rotating shaft 732 to rotate in the first rotating shaft 602, then the fourth rotating shaft 732 drives the second helical gear 733 to rotate, the second helical gear 733 drives the third helical gear 734 to rotate, the third helical gear 734 drives the ninth rotating shaft 735 and the pulley 738 to rotate through the fourth transmission belt 736, and then there are two ninth rotating shafts 735 and pulleys 738, the two mutually matched ropes 72 can be driven to move, so that the ropes 72 can drive the sleeve 782 to slide on the eighth rotating shaft 71 in a reciprocating manner, the position of the sleeve 782 on the eighth rotating shaft 71 can be changed, the hi sleeve 782 is connected with the eighth rotating shaft 71 through a long sliding key, the sleeve 782 can rotate along with the eighth rotating shaft 71, then the sleeve 782 drives the connecting rod 78 to move, the connecting rod 78 drives the cleaning plate 781 to move, and then the cleaning plate 781 can scrape dust from the inner side of the cylindrical filter element 5;

when the air blower is not needed to be used, the electric rotating shaft 32 drives the connecting block 31 and the baffle 3 to rotate, so that the inlet direction of the filter box 2 is sealed, dust is prevented from entering the air blower when the air blower is not used, then the electric rotating shaft 32 also drives the first transmission belt 473 to transmit, the first transmission belt 473 drives the worm 471 to rotate, the worm 471 drives the driving disc 44 to rotate through the turbine 47, the driving disc 44 drives the first guide rod 45 to move through the second sliding groove 46, so that the air blowers 41 can move towards the outer circle of the cylindrical filter element 5 under the guidance of the sixth telescopic rod 42 and cling to the outer circle of the cylindrical filter element 5, and the air blowers 41 can contact with the outer circle of the cylindrical filter element 5 and blow air towards the outer circle of the cylindrical filter element 5; when the baffle 3 is opened, the blower 41 is moved away from the outer circle of the cylindrical filter element 5 in a reverse movement manner, so that the cylindrical filter element 5 can perform normal filtration.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Claims

1. The utility model provides an integrated form new trend purifying box which characterized in that: comprises an air inlet (1) arranged at one end of a box body (1A), an air outlet (15) arranged at the other end of the box body (1A), the box body (1A) is divided into three module spaces through a side plate (1G) and a side plate (12), an electrostatic dust removal module (1C), a fan module (1H) and a sterilization module (13) are arranged in the air flow direction, a filter box (2) is arranged at the end part of the air inlet (1), a baffle (3) which is arranged at the end part of the filter box (2) and used for blocking the filter box (2), a cylindrical filter element (5) which is arranged inside the filter box (2), a second cleaning structure (7) which is arranged inside the cylindrical filter element (5) and used for cleaning the cylindrical filter element (5), a first cleaning structure (4) which is arranged outside the cylindrical filter element (5) and inside the filter box (2), and a vibration structure (6) which is connected with the cylindrical filter element (5) and the second cleaning structure (7); the filter device comprises a filter plate (51) fixedly connected to a filter box (2) and positioned in front of a cylindrical filter element (5), a fixing ring (50) fixedly connected to the filter box (2), a first telescopic rod (53) fixedly connected to the fixing ring (50), a support ring (52) fixedly connected to the first telescopic rod (53) and used for supporting the cylindrical filter element (5), a first spring (54) arranged between the support ring (52) and the fixing ring (50), and a tenth support plate (55) arranged behind the cylindrical filter element (5); the vibration structure (6) comprises a motor (61) fixedly arranged on a tenth supporting plate (55), a rotating assembly (62) connected to the motor (61), a third rotating shaft (63) fixedly connected to the motor (61), a crank assembly (64) connected to the third rotating shaft (63), a first driving assembly (65) arranged on the third rotating shaft (63), a second driving assembly (67) connected to the first driving assembly (65) and used for controlling the crank assembly (64), a first control assembly (66) connected to the second driving assembly (67), a second control assembly (68) connected to the first control assembly (66) and a third control assembly (69).

2. The integrated fresh air purifying box according to claim 1, wherein: the second cleaning structure (7) comprises a first sliding groove (60) arranged on a tenth supporting plate (55), a guide disc (601) arranged in the first sliding groove (60) in a sliding manner, a first rotating shaft (602) fixedly connected to the guide disc (601), an eighth rotating shaft (71) fixedly connected to the first rotating shaft (602) and rotatably arranged inside the cylindrical filter element (5), a sleeve (782) arranged on the eighth rotating shaft (71) in a sliding manner, a connecting rod (78) fixedly connected to the sleeve (782), a cleaning plate (781) fixedly connected to the connecting rod (78) and attached inside the cylindrical filter element (5), a rope (72) connected to the sleeve (782), a pull rope assembly (73) connected to the rope (72) and used for driving the sleeve (782) to move through the rope (72), a double-sided rack (74) connected to the pull rope assembly (73), and a second supporting plate (751) fixedly arranged on the tenth supporting plate (55), The filter box comprises an electric rod (75) fixedly connected to a double-sided rack (74) and a second supporting plate (751), a first rack (771) fixedly arranged on the filter box (2), a first gear (77) meshed with the first rack (771), a second rotating shaft (761) fixedly connected to the first gear (77), and a second transmission belt (76) wound on the second rotating shaft (761) and the first rotating shaft (602).

3. The integrated fresh air purifying box of claim 2, wherein: the pull rope assembly (73) comprises a second gear (731) rotatably arranged in the first rotating shaft (602), a fourth rotating shaft (732) fixedly connected to the second gear (731) and meshed with the double-sided rack (74), a second helical gear (733) fixedly connected to the fourth rotating shaft (732), a third helical gear (734) meshed with the second helical gear (733), a tenth rotating shaft (737) fixedly connected to the third helical gear (734) and rotatably arranged in the eighth rotating shaft (71), a ninth rotating shaft (735) rotatably arranged in the eighth rotating shaft (71), a belt wheel (738) fixedly arranged on the ninth rotating shaft (735), and a fourth transmission belt (736) wound on the tenth rotating shaft (737) and the ninth rotating shaft (735); two ninth rotating shafts (735) are provided; are respectively positioned at the upper part and the lower part of the rope (72).

4. The integrated fresh air purifying box according to claim 1, wherein: the first driving assembly (65) comprises a third supporting plate (652) fixedly connected to the third rotating shaft (63), a fifth rotating shaft (653) rotatably arranged on the third supporting plate (652), a toothed belt (651) wound on the fifth rotating shaft (653), a bevel toothed edge (654) arranged on the toothed belt (651), an internal gear (655) fixedly arranged on the tenth supporting plate (55) and concentrically arranged with the third rotating shaft (63), and a third gear (656) fixedly arranged on the fifth rotating shaft (653) and meshed with the internal gear (655); the second driving assembly (67) comprises a first bevel gear (675) meshed with the bevel gear edge (654), a lead screw (672) fixedly connected to the first bevel gear (675), a fifth supporting plate (674) and a fourth supporting plate (671) rotatably connected to the lead screw (672), and a nut block (673) in threaded connection with the lead screw (672); the crank assembly (64) comprises a first connecting rod (641) fixedly connected to the third rotating shaft (63) and a second connecting rod (642) connected to the first connecting rod (641); the fifth support plate (674) and the fourth support plate (671) are connected to the first link (641); the second connecting rod (642) is hinged to a nut block (673); the lead screw (672) and the side surface of the first connecting rod (641) are arranged in parallel.

5. The integrated fresh air purification box of claim 4, wherein: the first control assembly (66) comprises a fifth telescopic rod (667) and a fifth spring (668) which are fixedly connected between the fourth supporting plate (671) and the first connecting rod (641) and used for enabling the fourth supporting plate (671) to reset, a sixth supporting plate (665) fixedly arranged below the fourth supporting plate (671), a lifting rod (666) fixedly connected with the sixth supporting plate (665), a ninth supporting plate (661) fixedly arranged on the nut block (673), a fourth spring (662) fixedly arranged below the ninth supporting plate (661), a triangular clamping plate (663) fixedly arranged below the fourth spring (662), and a fourth telescopic rod (664) fixedly arranged between the triangular clamping plate (663) and the ninth supporting plate (661); the second control assembly (68) comprises an arc-shaped convex block (681) fixedly connected to the sixth supporting plate (665), a seventh supporting plate (685) fixedly connected to the first connecting rod (641), a second telescopic rod (683) and a second spring (684) fixedly arranged between the seventh supporting plate (685) and the angle-shaped clamping plate (682), an eighth supporting plate (687) fixedly arranged on the first connecting rod (641), a third telescopic rod (688) and a third spring (689) fixedly arranged on the eighth supporting plate (687), and an arc-shaped clamping plate (686) fixedly connected to the third telescopic rod (688) and the third spring (689) and matched with the ice river lifting rod (666).

6. The integrated fresh air purification box of claim 5, wherein: the number of the sixth supporting plate (665) and the number of the lifting rods (666) are two, and the sixth supporting plate (665) and the lifting rods are respectively connected with the fourth supporting plate (671) and the fifth supporting plate (674); the number of the arc-shaped clamping plates (686), the number of the eighth supporting plates (687), the number of the third telescopic rods (688) and the number of the third springs (689) are also two, and the arc-shaped clamping plates are respectively matched with the two lifting rods (666); the third control assembly (69) comprises a second rack (691) and a third rack (692) connected to the arc-shaped clamping plate (686), a fourth gear (693) meshed with the third rack (692), a sixth rotating shaft (694) fixedly connected to the third rack (692) and rotatably arranged on the first connecting rod (641), a fifth gear (695) fixedly connected to the sixth rotating shaft (694) and meshed with the second rack (691), a connecting frame (697) fixedly connected to the nut block (673), and a fourth rack (696) fixedly connected to the connecting frame (697) and matched with the fourth gear (693); the second rack (691) is fixedly connected to an arc-shaped clamping plate (686) close to the third rotating shaft (63); the third rack (692) is fixedly connected to an arc-shaped clamping plate (686) far away from the third rotating shaft (63).

7. The integrated fresh air purification box of claim 6, wherein: the rotating assembly (62) comprises a seventh rotating shaft (622) rotatably arranged on the tenth supporting plate (55), a sixth gear (623) fixedly connected to the seventh rotating shaft (622), a third transmission belt (621) wound on the seventh rotating shaft (622) and the output end of the motor (61), and a seventh gear (624) fixedly arranged on the cylindrical filter element (5) and meshed with the sixth gear (623); the seventh rotating shaft (622) is also arranged on the tenth supporting plate (55) in a sliding manner; and a tensioning device is arranged on the third transmission belt (621).

8. The integrated fresh air purifying box according to claim 1, wherein: the baffle (3) comprises a connecting block (31) fixedly arranged on the baffle (3), a supporting block (33) fixedly arranged on the outer side of the filter box (2), a first supporting plate (34) fixedly arranged on the supporting block (33), and an electric rotating shaft (32) rotatably arranged on the first supporting plate (34) and fixedly connected with the connecting block (31); the first cleaning structure (4) comprises a first transmission belt (473) wound on the electric rotating shaft (32), a fourth supporting plate (671) connected to the nut block (673), a driving plate (44) connected to the fourth supporting plate (671), a second sliding chute (46) arranged on the driving plate (44), a first guide rod (45) arranged on the driving plate (44) in a sliding manner, a blower (41) fixedly connected to the first guide rod (45), a sixth telescopic rod (42) and a sixth spring (43) fixedly arranged between the blower (41) and the filter box (2), and a turbine (47) arranged on the driving plate (44) and matched with the worm (471); and a positioning plate for supporting and guiding the outside of the driving disc (44) is arranged on the filter box (2).

9. The integrated fresh air purifying box according to claim 1, wherein: and a metal primary effect assembly (1D), an electrostatic dust collection assembly (1E) and an ozone filtering assembly (1F) are sequentially arranged in the electrostatic dust collection module (1C).

10. The integrated fresh air purifying box according to claim 1, wherein: the fan module comprises a current collector (1K), a fan (10), a motor (11) and a motor base (16).