CN113739320A

CN113739320A - High-efficient virus bacteria room air purifier that disappears

Info

Publication number: CN113739320A
Application number: CN202110944620.0A
Authority: CN
Inventors: 张学辉
Original assignee: Shenzhen Laoba Dangjia Technology Co ltd
Current assignee: Shenzhen Laoba Dangjia Technology Co ltd
Priority date: 2021-08-17
Filing date: 2021-08-17
Publication date: 2021-12-03
Anticipated expiration: 2041-08-17
Also published as: CN113739320B

Abstract

The invention provides an indoor air purifier capable of efficiently killing viruses and bacteria, which comprises a shell, wherein a humidifying cavity, a mixing cavity and a purifying component are arranged inside the shell, an air inlet and an air outlet are arranged outside the shell, the air inlet, the mixing cavity, the purifying component and the air outlet are sequentially communicated, the mixing cavity is communicated with the humidifying cavity, and the humidifying component is arranged inside the humidifying cavity.

Description

High-efficient virus bacteria room air purifier that disappears

Technical Field

The invention relates to the technical field of air purification treatment, in particular to an indoor air purifier capable of efficiently killing viruses and bacteria.

Background

An air purifier is also called as an air cleaner, an air freshener and a purifier, and is a product which can adsorb, decompose or convert various air pollutants (generally including PM2.5, dust, pollen, peculiar smell, formaldehyde and other decoration pollutants, bacteria, allergen and the like) and effectively improve the air cleanliness, and is mainly a household and commercial air purifier for removing indoor air pollution; the structure of the air purifier generally comprises a shell and an air purification assembly arranged in the shell, wherein a filter screen is arranged in the purifier; however, the existing air purification device has a single function, does not have the function of adjusting the air humidity, and has certain limitation in a dry climate environment.

Disclosure of Invention

The invention provides an indoor air purifier capable of efficiently killing viruses and bacteria, which is used for solving the technical problems that the existing air purifier has a single function, does not have the function of adjusting air humidity and has certain limitation in a dry climate environment.

In order to achieve the purpose, the invention provides an indoor air purifier capable of efficiently sterilizing virus and bacteria, which comprises a shell, wherein a humidifying cavity, a mixing cavity and a purifying assembly are arranged inside the shell, an air inlet and an air outlet are arranged outside the shell, the humidifying cavity is communicated with the air inlet, the mixing cavity, the purifying assembly and the air outlet in sequence, the mixing cavity is communicated with the humidifying cavity, and the humidifying assembly is arranged inside the humidifying cavity.

Preferably, the humidifying chamber is arranged at the lower side inside the shell, the purification component is arranged at the upper side of the humidifying chamber and communicated with the mixing chamber at the upper side of the right end of the shell, and a partition board is arranged inside the shell and separates the humidifying chamber from the mixing chamber.

Preferably, the air inlet sets up the right-hand member middle part of shell, the air inlet includes the edge a plurality of intake ducts that shell right-hand member interval equipartition set up, the inside air inlet fan that is equipped with respectively of a plurality of intake ducts, the gas outlet sets up the left end middle part of shell, the gas outlet includes the edge a plurality of off-gas channels that shell left end interval equipartition set up, the inside fan of giving vent to anger that is equipped with respectively of a plurality of off-gas channels.

Preferably, purify the subassembly including purifying the shell, purify the shell about both ends link up the setting, purify the inside of shell from left to right in proper order the interval be equipped with purify layer one and purify layer two, the upper and lower both ends symmetry that purifies the shell is equipped with a plurality of ultraviolet lamp, purify the inlet end of shell with the hybrid chamber intercommunication, purify the shell give vent to anger the end with the gas outlet intercommunication.

Preferably, purify layer one and be except that formaldehyde honeycomb active carbon filter layer, purify layer two and be the photocatalysis disinfection net layer, the coating has quantum dot nanometer photocatalyst coating on the photocatalysis disinfection net layer.

Preferably, a third purifying layer is arranged in the mixing cavity and is an HEPA filter screen layer.

Preferably, the humidification assembly includes a humidification device disposed in a middle portion of the humidification chamber, the humidification device including:

the humidifying device comprises a humidifying shell, wherein power blocks are arranged inside the humidifying shell, the power blocks are used for distributing the interior of the humidifying shell into a power cavity I and a water storage bin at intervals, the power cavity I and the water storage bin are distributed up and down, a power cavity II, a power cavity III and a liquid supply bin are arranged inside the power blocks, and the power cavity II, the power cavity III and the liquid supply bin are sequentially communicated from right to left;

the motor shell is arranged inside the power cavity II, a rack is fixedly arranged at the left end of the motor shell and is meshed with a gear seventh, the gear seventh is connected with a driving motor, a double-head motor I is arranged inside the motor shell, a rotating shaft I is fixedly connected to the lower end of the double-head motor I, the rotating shaft I is fixedly connected with the gear I, and the gear I is meshed with the gear II;

the two lifting holes are symmetrically arranged on the left side and the right side of the power block and penetrate through the upper end and the lower end of the power block, a lifting sleeve is arranged in the lifting holes in a sliding mode and is in threaded connection with a first threaded rod, a cylindrical section at the lower part of the first threaded rod is fixedly connected with a first belt wheel, the first belt wheels on the left side and the right side are connected through a first belt, and a second gear is fixedly connected with a cylindrical section of the first threaded rod on the right side;

the two first grooves are symmetrically arranged on the left side and the right side of the first power cavity, bearings are arranged inside the first grooves, and the bearings are fixedly connected with the lower end of the first threaded rod;

the second rotating shaft is fixedly connected with the upper end of the first double-head motor, one end, far away from the first double-head motor, of the second rotating shaft is fixedly connected with a first bevel gear, the first bevel gear is meshed with a second bevel gear, the second bevel gear is fixedly connected with a second belt wheel, the second belt wheel is connected with a third belt wheel through a second belt penetrating through the side end of the second power cavity, the third belt wheel is fixedly connected with a rotating disc, the rotating disc is eccentrically connected with a sliding shaft, and the sliding shaft is slidably connected with a sliding groove in a sliding block;

the connecting block is fixedly connected with the sliding block, one end of the connecting block, which is far away from the sliding block, penetrates through one end of the power cavity III and is fixedly connected with the sliding plate, and the sliding plate is arranged in the liquid supply bin in a left-right sliding manner;

the left end of the lifting plate is provided with a motor which is fixedly connected with a third rotating shaft, the third rotating shaft is rotatably arranged between the left end and the right end of the lifting plate, and the third rotating shaft is uniformly provided with a plurality of stirring fans at intervals;

the feeding pipe is arranged on the lifting plate in a penetrating mode, communicated with a hose and communicated with the water storage bin;

the apron, the apron can be dismantled the setting and be in the upper end of humidification shell, both ends link up about the apron and set up the atomizer, the atomizer will reservoir storehouse and hybrid chamber intercommunication.

Preferably, the humidification subassembly still includes liquid storage shell and water storage shell, the left side of humidifying chamber is equipped with the liquid storage shell, the inside of liquid storage shell is the slope chamber, and the slope chamber pass through conveying pipeline one with supply the feed bin intercommunication, the right side of humidifying chamber is equipped with the water storage shell, the inside water storage cavity that is equipped with of water storage shell, and water storage intracavity portion is equipped with filter screen one and suction pump, the suction pump is connected with conveying pipeline two, conveying pipeline two with the water storage bin intercommunication, the lower extreme of liquid storage shell and water storage shell with sliding connection around the lower extreme of humidifying chamber.

Preferably, the dust removal device is provided with an air inlet and an air outlet, the dust removal device is arranged in the mixing cavity, the air inlet of the dust removal device is communicated with the air inlet, and the air outlet of the dust removal device is communicated with the air outlet.

Preferably, the dust removing device includes:

the dust removal device comprises a dust removal shell, wherein a working cavity is arranged on the left side inside the dust removal shell, a filtering bin II and a filtering bin I are sequentially communicated from top to bottom on the right side inside the dust removal shell, an air inlet is arranged on the right side outside the dust removal shell, the air inlet is communicated with the air inlet from left to right, an air outlet is arranged on the left side outside the dust removal shell, a purification component is communicated with the air outlet from left to right, the filtering bin I is communicated with the air inlet from left to right, the air outlet, the working cavity and the filtering bin II are sequentially communicated from left to right, a purification layer III is arranged at the communication position of the working cavity and the filtering bin II, and a filter screen II is arranged at the communication position of the filtering bin II and the filtering bin I;

the dust remover comprises a first driving cavity, a second double-headed motor, a first driving shaft, a fourth driving shaft, a fifth driving shaft, a third bevel gear, a fourth bevel gear, a third driving shaft, a third threaded sleeve, a second threaded rod and a dust remover, wherein the first driving cavity is arranged inside the dust removing shell, the second double-headed motor is arranged inside the driving cavity, the second double-headed motor is fixedly connected with the first driving shaft, the middle part of the first driving shaft is fixedly connected with a fourth belt wheel, the fourth belt wheel is connected with a fifth belt wheel through a third belt, the fifth belt wheel is fixedly connected with the sliding sleeve, the sliding sleeve is slidably connected with the second driving shaft, the second driving shaft is fixedly connected with the third bevel gear, the third bevel gear is meshed with the fourth bevel gear, the fourth bevel gear is fixedly connected with the third driving shaft, the third driving shaft is fixedly connected with the threaded sleeve, the second threaded sleeve is fixedly connected with the second threaded rod, the second threaded rod is fixedly connected with the dust remover communicated with the upper side of the first driving cavity, and the dust remover is arranged corresponding to the filter screen;

the first connecting shell is arranged at the communication position of the second filtering bin and the first filtering bin and is fixedly arranged between the second connecting shell and the first driving cavity, the first connecting shell and the second driving cavity in the second connecting shell are sequentially communicated from left to right;

the driving shaft IV is fixedly connected with one end, far away from the driving shaft I, of the double-head motor II, penetrates through the interior of the connecting shell I, enters the driving cavity II and is fixedly connected with a gear III, the gear III is meshed with the gear IV, the gear IV is meshed with a gear V, the gear V is meshed with a gear VI, and the gear IV and the gear VI enter the interior of the filtering cabin II through a fixed shaft penetrating through the side end of the driving cavity II and are fixedly connected with a fan;

the two atomizing blocks are symmetrically arranged on the front side and the rear side of the working cavity, a plurality of nozzles are uniformly distributed at the side ends of the atomizing blocks in the circumferential direction, a fixed shell is rotatably arranged between the two atomizing blocks, a fixed shaft is fixedly connected to one end, close to each other, of each atomizing block, the fixed shaft is fixedly connected with a bevel gear V, the bevel gears V on the front side and the rear side are symmetrically meshed with the front side and the rear side of a bevel gear VI, and the bevel gear VI is fixedly connected with the left end of a first driving shaft penetrating through one side end of a driving cavity;

two atomizing pipes, two atomizing pipes respectively with the atomizing piece is kept away from the one end intercommunication of fixed axle, the atomizing pipe sets up the inside of dust removal shell, and the atomizing pipe keep away from the one end of atomizing piece with humidification subassembly intercommunication of humidification intracavity portion.

Additional features and advantages of the invention will be set forth in the description which follows, and in part will be obvious from the description, or may be learned by practice of the invention. The objectives and other advantages of the invention will be realized and attained by the structure particularly pointed out in the written description and claims hereof as well as the appended drawings.

The technical solution of the present invention is further described in detail by the accompanying drawings and embodiments.

Drawings

The accompanying drawings, which are included to provide a further understanding of the invention and are incorporated in and constitute a part of this specification, illustrate embodiments of the invention and together with the description serve to explain the principles of the invention and not to limit the invention. In the drawings:

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

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

FIG. 3 is a schematic view of a humidifying device according to the present invention;

FIG. 4 is a schematic structural diagram of a dust removing apparatus according to the present invention;

FIG. 5 is a schematic side view of the working chamber of the present invention.

In the figure: 1. a housing; 101. a humidification chamber; 102. a mixing chamber; 103. a partition plate; 2. an air inlet; 201. An air intake fan; 202. an air inlet channel; 3. an air outlet; 301. an air outlet fan; 302. an air outlet channel; 4. purifying the shell; 401. a first purification layer; 402. a second purification layer; 403. an ultraviolet lamp; 5. a third purification layer; 6. a humidifying shell; 601. a power block; 602. a first power cavity; 603. a second power cavity; 604. a third power cavity; 605. a liquid supply bin; 606. a water storage bin; 607. a double-head motor I; 608. rotating a first shaft; 609. a first gear; 610. a second gear; 611. a first threaded rod; 612. a first belt wheel; 613. a first belt; 614. a first groove; 615. a bearing; 616. a lifting hole; 617. a seventh gear; 618. a rack; 619. a motor housing; 620. a second rotating shaft; 621. a first bevel gear; 622. a second bevel gear; 623. a second belt wheel; 624. a second belt; 625. a third belt wheel; 626. a turntable; 627. a sliding shaft; 628. a slider; 6281. a chute; 629. connecting blocks; 630. a sliding plate; 631. a lifting sleeve; 632. a hose; 633. a lifting plate; 634. a motor; 635. a third rotating shaft; 636. a stirring fan; 637. a cover plate; 638. an atomizer; 639. feeding pipes; 7. a dust removal shell; 701. an air inlet; 702. a first filtering bin; 703. a second filter screen; 704. a dust remover; 705. a second filtering bin; 706. a first driving cavity; 707. a double-head motor II; 708. driving shaft four; 709. a third gear; 710. a fourth gear; 711. A fifth gear; 712. a sixth gear; 713. a second driving cavity; 714. a second connecting shell; 715. a fan; 716. Connecting the shell I; 717. a fixed shaft; 718. a stationary case; 719. a first driving shaft; 720. a belt wheel IV; 721. A second groove; 722. a third belt; 723. a fifth belt wheel; 724. a sliding sleeve; 725. a second driving shaft; 726. A third bevel gear; 727. a fourth bevel gear; 728. a third driving shaft; 729. a threaded sleeve; 730. a second threaded rod; 731. a working chamber; 732. an air outlet; 733. an atomizing tube; 734. an atomizing block; 735. a nozzle; 736. A sixth bevel gear; 737. a fifth bevel gear; 8. a liquid storage shell; 801. a water storage shell; 802. a first material conveying pipe; 803. A second conveying pipe; 804. a first filter screen; 805. a water pump.

Detailed Description

The preferred embodiments of the present invention will be described in conjunction with the accompanying drawings, and it will be understood that they are described herein for the purpose of illustration and explanation and not limitation.

In addition, the descriptions related to the first, the second, etc. in the present invention are only used for description purposes, do not particularly refer to an order or sequence, and do not limit the present invention, but only distinguish components or operations described in the same technical terms, and are not understood to indicate or imply relative importance or implicitly indicate the number of indicated technical features. Thus, a feature defined as "first" or "second" may explicitly or implicitly include at least one such feature. In addition, technical solutions and technical features between various embodiments can be combined with each other, but must be realized by a person skilled in the art, and when the technical solutions are contradictory or cannot be realized, the combination of the technical solutions should be considered to be absent and not be within the protection scope of the present invention.

The invention provides the following examples

Example 1

The embodiment of the invention provides a high-efficiency sterilizing and disinfecting virus bacteria indoor air purifier, as shown in fig. 1-2, the high-efficiency sterilizing and disinfecting virus bacteria indoor air purifier comprises a shell 1, a humidifying cavity 101, a mixing cavity 102 and a purifying component are arranged inside the shell 1, an air inlet 2 and an air outlet 3 are arranged outside the shell 1, the humidifying cavity 101, the air inlet 2, the mixing cavity 102, the purifying component and the air outlet 3 are sequentially communicated, the mixing cavity 102 is communicated with the humidifying cavity 101, and the humidifying component is arranged inside the humidifying cavity 101.

The beneficial effects of the above technical scheme are:

unpurified air gets into the hybrid chamber 102 in the shell 1 through air inlet 2 in, if air purifier does not open the humidification function, then unpurified air purifies through the purification subassembly, then discharge from gas outlet 3, be equipped with two purification layers and ultraviolet lamp in the purification subassembly, hybrid chamber 102 is equipped with a purification layer, be favorable to improving the effect of killing of virus bacterium in the air, reach the purpose of high-efficient killing virus bacterium, through setting up the humidification subassembly, can make the humidification subassembly work under dry climate environment, the humidification subassembly is discharged atomizing liquid into hybrid chamber 102 and is got rid of from gas outlet 3 through the purification subassembly after the air mixing, the purpose of humidification has been reached, the function singleness of current air purification device has been solved, do not have the function of air humidity, there is the technical problem of certain limitation under dry climate environment.

Example 2

On the basis of the embodiment 1, as shown in fig. 1, the humidification chamber 101 is arranged at the lower side in the casing 1, the purification component is arranged at the upper side of the humidification chamber 101 and is communicated with the mixing chamber 102 at the upper side of the right end of the casing 1, a partition plate 103 is arranged in the casing 1, and the partition plate 103 separates the humidification chamber 101 from the mixing chamber 102;

air inlet 2 sets up the right-hand member middle part of shell 1, air inlet 2 includes the edge a plurality of intake ducts 202 that 1 right-hand member interval equipartition of shell set up, a plurality of intake ducts 202 are inside to be equipped with air intake fan 201 respectively, gas outlet 3 sets up the left end middle part of shell 1, gas outlet 3 includes the edge a plurality of gas off-takes 302 that 1 left end interval equipartition of shell set up, a plurality of gas off-takes 302 are inside to be equipped with air outlet fan 301 respectively.

The beneficial effects of the above technical scheme are:

separate humidification chamber 101 and hybrid chamber 102 through setting up baffle 103 for humidification subassembly in the humidification chamber 101 can the independent work, the air in the hybrid chamber 102 can not receive humidification chamber 101's influence when humidification subassembly does not work, air inlet 2 sets up a plurality of intake ducts 202, the inside air inlet fan 201 that sets up of every intake duct 202, gas outlet 3 sets up a plurality of ventiduct 302, every inside air outlet fan 301 that sets up of ventiduct 302, can improve the air input flow of air inlet 2, and then improve air purifier's purification efficiency.

Example 3

On the basis of embodiment 1, as shown in fig. 1, the purification assembly includes a purification shell 4, the left and right ends of the purification shell 4 are arranged in a through manner, a first purification layer 401 and a second purification layer 402 are sequentially arranged in the purification shell 4 from left to right at intervals, a plurality of ultraviolet lamps 403 are symmetrically arranged at the upper and lower ends of the purification shell 4, the air inlet end of the purification shell 4 is communicated with the mixing chamber 102, and the air outlet end of the purification shell 4 is communicated with the air outlet 3;

purify layer one 401 for removing formaldehyde honeycomb activated carbon filter layer, purify layer two 402 for photocatalysis disinfection net layer, the coating has quantum dot nanometer photocatalyst coating on the photocatalysis disinfection net layer.

A third purification layer 5 is arranged in the mixing cavity 102, and the third purification layer 5 is a HEPA filter screen layer.

The beneficial effects of the above technical scheme are:

through the arrangement of the first purification layer 401, the ultraviolet lamp and the second purification layer 402, the gas conveyed from the mixing cavity 102 can be disinfected, formaldehyde, peculiar smell and other pollution sources can be removed by the formaldehyde-removing honeycomb activated carbon filter layer, bacteria, viruses, formaldehyde and VOC can be treated by the photocatalytic disinfection grid layer, the photocatalyst coating coated on the photocatalytic disinfection grid layer is titanium dioxide, the titanium dioxide has a photocatalytic effect under the light source of the ultraviolet lamp 403, the titanium dioxide nanoparticles have a quantum effect, so that the titanium dioxide nanoparticles generate physicochemical characteristics different from common powdery titanium dioxide in the aspects of structure and performance of substances, and have new characteristics of radiation, catalysis, adsorption and the like, the photocatalytic efficiency of the nano titanium dioxide can be improved, the HEPA filter screen layer is used for removing suspended particles with the size of more than 0.1 micron passing through the filter screen, and the effect can reach more than 99 percent, is favorable for improving the purifying effect of the air purifier and achieving the purpose of high-efficiency purification.

Example 4

On the basis of embodiment 1, as shown in fig. 3, the humidifying assembly includes a humidifying device disposed in the middle of the humidifying chamber 101, and the humidifying device includes:

the humidifying device comprises a humidifying shell 6, wherein a power block 601 is arranged inside the humidifying shell 6, the power block 601 divides the interior of the humidifying shell 6 into a first power cavity 602 and a water storage bin 606 at intervals, the first power cavity 602 and the water storage bin 606 are distributed up and down, a second power cavity 603, a third power cavity 604 and a liquid supply bin 605 are arranged inside the power block 601, and the second power cavity 603, the third power cavity 604 and the liquid supply bin 605 are sequentially communicated from right to left;

the motor shell 619 is arranged inside the power cavity II 603, a rack 618 is fixedly arranged at the left end of the motor shell 619, the rack 618 is meshed with a gear seven 617, the gear seven 617 is connected with a driving motor, a double-head motor I607 is arranged inside the motor shell 619, the lower end of the double-head motor I607 is fixedly connected with a rotating shaft I608, the rotating shaft I608 is fixedly connected with a gear I609, and the gear I609 is meshed with a gear II 610;

the two lifting holes 616 are symmetrically arranged on the left side and the right side of the power block 601 and penetrate through the upper end and the lower end of the power block 601, a lifting sleeve 631 is slidably arranged in the lifting holes 616, the lifting sleeve 631 is in threaded connection with a first threaded rod 611, a cylindrical section at the lower part of the first threaded rod 611 is fixedly connected with a first belt wheel 612, the first belt wheels 612 on the left side and the right side are connected through a first belt 613, and a second gear 610 is fixedly connected with a cylindrical section of the first threaded rod 611 on the right side;

the two first grooves 614 are symmetrically arranged on the left side and the right side of the first power cavity 602, bearings 615 are arranged inside the first grooves 614, and the bearings 615 are fixedly connected with the lower ends of the first threaded rods 611;

the second rotating shaft 620 is fixedly connected with the upper end of the first double-head motor 607, one end, away from the first double-head motor 607, of the second rotating shaft 620 is fixedly connected with a first bevel gear 621, the first bevel gear 621 is meshed with a second bevel gear 622, the second bevel gear 622 is fixedly connected with a second belt wheel 623, the second belt wheel 623 is connected with a third belt wheel 625 through a second belt 624 penetrating through the side end of the second power cavity 603, the third belt wheel 625 is fixedly connected with a rotating disc 626, the rotating disc 626 is eccentrically connected with a sliding shaft 627, and the sliding shaft 627 is slidably connected with a sliding groove 6281 in a sliding block 628;

a connecting block 629, wherein the connecting block 629 is fixedly connected with a sliding block 628, one end of the connecting block 629, which is far away from the sliding block 628, penetrates through one end of the power cavity III 604 and is fixedly connected with a sliding plate 630, and the sliding plate 630 is arranged inside the liquid supply bin 605 in a left-right sliding manner;

the left side and the right side of the lower end of the lifting plate 633 are symmetrically provided with the lifting sleeves 631, the lifting plate 633 is arranged in the water storage bin 606 in a vertically sliding manner, the left end of the lifting plate 633 is provided with a motor 634, the motor 634 is fixedly connected with a rotating shaft tri 635, the rotating shaft tri 635 is rotatably arranged between the left end and the right end of the lifting plate 633, and a plurality of stirring fans 636 are uniformly distributed on the rotating shaft tri 635 at intervals;

a feeding pipe 639, wherein the feeding pipe 639 is arranged on the lifting plate 633 in a penetrating manner, the feeding pipe 639 is communicated with a hose 632, and the hose 632 is communicated with the water storage bin 606;

the cover plate 637 is detachably arranged at the upper end of the humidifying shell 6, the upper end and the lower end of the cover plate 637 are provided with atomizers 638 in a penetrating manner, and the water storage bin 606 is communicated with the mixing chamber 102 through the atomizers 638;

the humidification subassembly still includes liquid storage shell 8 and water storage shell 801, the left side of humidification chamber 101 is equipped with liquid storage shell 8, the inside of liquid storage shell 8 is the slope chamber, and the slope chamber pass through conveying pipeline 802 with supply the silo 605 intercommunication, the right side of humidification chamber 101 is equipped with water storage shell 801, the inside water storage chamber that is equipped with of water storage shell 801, and water storage intracavity portion is equipped with filter screen 804 and suction pump 805, suction pump 805 is connected with two 803 of conveying pipelines, two 803 of conveying pipelines with water storage silo 606 intercommunication, the lower extreme of liquid storage shell 8 and water storage shell 801 with sliding connection around the lower extreme of humidification chamber 101.

The beneficial effects of the above technical scheme are:

if the room where the air purifier is located is dry, the humidifying function of the air purifier can be started, firstly, the gear seven 617 rotates through the motor, the gear seven 617 drives the rack 618 to move upwards, the rack 618 drives the motor shell 619 to move, the motor shell 619 drives the double-head motor I607 inside the motor shell to move upwards, so that the bevel gear I621 is meshed with the bevel gear II 622, the double-head motor I607 is started, the double-head motor I607 drives the rotating shaft II 620, the rotating shaft II 620 drives the bevel gear I621 to rotate, the bevel gear I621 drives the bevel gear II 622 to rotate, the bevel gear II 622 drives the belt pulley II 623 to rotate, the belt pulley II 623 drives the belt pulley III 625 to rotate through the belt II 624, the belt pulley III 625 drives the rotating disc 626 to rotate, the rotating disc 626 drives the eccentrically arranged sliding shaft 627 to rotate, the sliding shaft 627 is in sliding connection with the sliding groove 6281 to play a guiding role in moving the sliding block 628 and drive the sliding block 628 to reciprocate leftwards and rightwards, the sliding block 628 drives the sliding plate 630 to reciprocate through the connecting block 629, the sliding plate 630 extrudes liquid in the liquid supply bin 605 to extrude the liquid into the water storage bin 606 through the hose 632 and the feeding pipe 639, the first double-head motor 607 is closed after a certain amount of liquid is extruded, a disinfectant can be arranged in the liquid supply bin 605, the disinfection effect of the air purifier can be further improved, other liquid such as a cleaning agent can be arranged in the liquid supply bin 605, the multifunctional purpose of the air purifier can be realized, after the liquid in the liquid supply bin 605 is extruded into the water storage bin 606 to be mixed with water, the seventh motor 617 is driven to rotate through the motor, the seventh gear 617 drives the rack 618 to move downwards to drive the motor shell 619 to move downwards, the first double-head motor 607 in the motor shell 619 drives the first double-head motor 609 to be meshed with the second gear 610, the first double-head motor 607 is started again, the second rotating shaft 620 is driven to rotate, the second rotating shaft 620 drives the first gear 609 to rotate, the first gear 609 drives the second gear 610 to rotate, the second gear 610 drives the first threaded rod 611 on the right side to rotate, the first threaded rod 611 on the right side synchronously drives the first threaded rod 611 on the left side to rotate through the first belt wheel 612 and the first belt 613, the first threaded rods 611 on the left side and the right side rotate to enable the upgrading sleeve 631 to slowly move upwards, the upgrading sleeve 631 drives the lifting plate 633 to move upwards, the lifting plate 633 can push mixed liquid in the water storage bin 606 to slowly push the mixed liquid into the atomizer 638, the atomizer 638 atomizes the mixed liquid and sends the atomized mixed liquid into the mixing chamber 102, the aim of humidifying and entering the air purifier is achieved, the air humidity blown by the air purifier is high, the humidifying function is achieved, the liquid storage shell 8 is arranged, the inner cavity in the liquid storage shell 8 and the liquid supply bin 605 are at the same height, and the inner cavity in the liquid storage shell 8 is an inclined bin, the liquid in the liquid storage shell 8 can flow into the liquid supply bin 605 through the first conveying pipe 802, the liquid in the liquid supply bin 605 can be kept at the same liquid level all the time, backflow of mixed liquid in the water storage bin 606 can be avoided, the water storage shell 801 is communicated with the water storage bin 606 through the second conveying pipe 803, water is conveyed into the water storage bin 606 through the water suction pump 805, the water suction pump 805 stops working in the process that the lifting plate 633 ascends, the water storage bin 606 is replenished with water in the process of returning to the original position after the lifting plate 633 ascends to the top point and the mixed liquid in the water storage bin 606 is pushed into the atomizer 638 completely, the water suction pump 805 and the first double-head motor 607 work independently, the power required by the work of the air purifier can be reduced, the water storage shell 801 and the liquid storage shell 8 are arranged in a sliding mode, the water storage shell 801 and the liquid storage shell 8 can be conveniently pumped out to replenish water and the liquid required to be used, the motor 634 is arranged in the lifting plate 633, the motor 634 drives the rotating shaft tri 635 to rotate, so that the stirring fan 636 stirs the liquid in the water storage bin 606, and the mixing degree of the mixed liquid is more uniform.

Example 5

On the basis of embodiment 3, as shown in fig. 4 to 5, the mixing chamber 102 further includes a dust removing device, the dust removing device is provided with an air inlet and an air outlet, the dust removing device is disposed inside the mixing chamber, the air inlet of the dust removing device is communicated with the air inlet 2, and the air outlet of the dust removing device is communicated with the air outlet 3;

the dust removing device comprises:

the dust removing device comprises a dust removing shell 7, wherein a working cavity 731 is arranged on the left side inside the dust removing shell 7, a second filter bin 705 and a first filter bin 702 are sequentially communicated from top to bottom on the right side inside the dust removing shell 7, an air inlet 701 is arranged on the right side outside the dust removing shell 7, the air inlet 701 is communicated with the air inlet 2 from left to right, an air outlet 732 is arranged on the left side outside the dust removing shell 7, a purifying component is communicated with the air outlet 732 from left to right, the first filter bin 702 is communicated with the air inlet 701 from left to right, the air outlet 732, the working cavity 731 and the second filter bin 705 are sequentially communicated from left to right, a third purifying layer 5 is arranged at the communication position of the working cavity 731 and the second filter bin 705, and a second filter screen 703 is arranged at the communication position of the second filter bin 705 and the first filter bin 702;

the first driving cavity 706 is arranged inside the dust removing shell 7, a double-headed motor 707 is arranged inside the driving cavity 706, the double-headed motor 707 is fixedly connected with a first driving shaft 719, the middle part of the first driving shaft 719 is fixedly connected with a fourth belt pulley 720, the fourth belt pulley 720 is connected with a fifth belt pulley 723 through a third belt 722, the fifth belt pulley 723 is fixedly connected with a sliding sleeve 724, the sliding sleeve 724 is slidably connected with a second driving shaft 725, the second driving shaft 725 is fixedly connected with a third bevel gear 726, the third bevel gear 726 is meshed with a fourth bevel gear 727, the fourth bevel gear 727 is fixedly connected with a third driving shaft 728, the third driving shaft 728 is fixedly connected with a threaded sleeve 729, the threaded sleeve 729 is fixedly connected with a second threaded rod 730, the second threaded rod 730 is fixedly connected with a dust remover 704 inside a second groove 721 communicated with the upper side of the first driving cavity 706, the dust remover 704 is arranged corresponding to the second filter screen 703;

the first connecting shell 716 is arranged at the communication part of the second filter cartridge 705 and the first filter cartridge 702 and is fixedly arranged between the second connecting shell 714 and the first driving cavity 706, the interior of the first connecting shell 716 and the second driving cavity 713 in the interior of the second connecting shell 714 are sequentially communicated from left to right;

a fourth driving shaft 708, wherein the fourth driving shaft 708 is fixedly connected with one end of the second double-headed motor 707 far away from the first driving shaft 719, penetrates through the inside of the first connecting shell 716, enters the second driving cavity 713, and is fixedly connected with a third gear 709, the third gear 709 is meshed with a fourth gear 710, the fourth gear 710 is meshed with a fifth gear 711, the fifth gear 711 is meshed with a sixth gear 712, and the fourth gear 710 and the sixth gear 712 enter the inside of the second filter cabin 705 through a fixed shaft penetrating through the side end of the second driving cavity 713 and are fixedly connected with a fan 715;

the two atomizing blocks 734 are symmetrically arranged on the front side and the rear side of the working cavity 731, a plurality of nozzles 735 are uniformly distributed on the side ends of the atomizing blocks 734 in the circumferential direction, a fixed shell 718 is rotatably arranged between the two atomizing blocks 734, a fixed shaft 717 is fixedly connected to one end of each atomizing block 734, which is close to each other, the fixed shaft 717 is fixedly connected with a bevel gear five 737, the bevel gear five 737 on the front side and the bevel gear five 737 on the rear side are symmetrically engaged with the front side and the rear side of a bevel gear six 736, and the bevel gear six 736 is fixedly connected with the left end of a driving shaft 719 penetrating through the side end of the driving cavity one 706;

two atomizing pipes 733, the two atomizing pipes 733 are respectively communicated with one end of the atomizing block 734 far away from the fixed shaft 717, the atomizing pipes 733 are arranged inside the dust removing shell 7, and one end of the atomizing pipes 733 far away from the atomizing block 734 is communicated with the humidifying component inside the humidifying cavity 101.

The beneficial effects of the above technical scheme are:

a dust removal device is arranged in a mixing cavity 102 of an air purifier and used for removing dust in air, the cleaning operation of the air purifier is reduced, and meanwhile the service life of the air purifier can be prolonged, when the air purifier works, a double-head motor II 707 is started firstly, the double-head motor II 707 can drive a driving shaft I719 and a driving shaft II 708 to rotate, the driving shaft IV 708 can drive a gear III 709 to rotate, the gear III 709 drives a gear IV 710 to rotate, the gear IV 710 drives a gear V711 to rotate, the gear V711 drives a gear VI 712 to rotate, the gear IV 710 and the gear VI 712 drive a fan 715 to rotate through a fixed shaft fixedly connected with the gear IV and the gear IV, the flow rate of the air in the dust removal device is favorably accelerated, the unpurified air enters a first filter bin 702 in the dust removal device through an air inlet 701 from an air inlet 2 and then enters a second filter bin 705 through a second filter screen 703, then the air filtered out of dust enters the working chamber 731 through the third purification layer 5 under the acceleration action in the fan 715, and is used for filtering dust in the air by arranging the second filter screen 703, so as to be beneficial to improving the dust removal effect of the air, then the air filtered out of dust passes through the third purification layer 5, so as to filter out suspended particles with the size of more than 0.1 micrometer, when the air enters the working chamber 731, the first drive shaft 719 drives the six bevel gear 736 to rotate, the six bevel gear 736 drives the five bevel gear 737 to rotate, the bevel gear 737 drives the fixed shaft 717 to rotate, the fixed shaft 717 drives the atomizing block 734 to rotate, the atomizing block 734 is communicated with an atomizer 638 of a humidifying device in a humidifying assembly through an atomizing pipe 733, and the atomized liquid is sprayed out through a nozzle 735 by rotating the atomizing block 734, so as to be beneficial to improving the spraying area of the atomized liquid, thereby achieving the purpose of improving the uniform mixing degree of the atomized liquid and the air after dust removal, then the atomized liquid and the air after dust removal enter the purification assembly through the air outlet 732 to kill viruses and bacteria in the air after dust removal and the atomized liquid, so that the purpose of killing the viruses and bacteria in the air purifier is achieved, when the second filter screen 703 is cleaned, the second drive shaft 725 is controlled to move rightwards, so that the third bevel gear 726 is meshed with the fourth bevel gear 727, the third bevel gear 726 drives the fourth bevel gear 727 to rotate, the fourth bevel gear 727 drives the third drive shaft 728 to rotate, the third drive shaft 728 drives the threaded sleeve 729 to rotate, the threaded sleeve 729 rotates to enable the second threaded rod 730 to move upwards, the dust remover 704 is pushed to be in contact with the second filter screen 703, the second filter screen 703 is cleaned, manual operation is reduced, and the intelligent effect of the air purifier is improved.

Example 6

On the basis of embodiment 3, the method further comprises the following steps:

a speed sensor: the speed sensor is provided in the intake passage 202 for detecting the flow rate of air in the intake passage 202;

a flow sensor: the flow sensor is arranged in the humidifying assembly and used for detecting the liquid outlet flow of the humidifying assembly;

a first temperature sensor: the first temperature sensor is arranged outside the air purifier and used for detecting the temperature value of the room where the air purifier is located;

and a second temperature sensor: the second temperature sensor is arranged in the air purifier and used for detecting a temperature value in the air purifier;

an alarm device: the alarm is arranged outside the air purifier;

a controller: the controller is electrically connected with the speed sensor, the flow sensor, the first temperature sensor, the second temperature sensor and the alarm;

the controller controls the alarm to work based on the speed sensor, the flow sensor, the first temperature sensor and the second temperature sensor, and the method comprises the following steps:

step 1, when the air purifier starts a humidifying function, the controller calculates T according to the air flow rate in the air inlet 202 detected by the speed sensor, the liquid outlet flow rate of the humidifying component detected by the flow sensor, the indoor temperature value of the air purifier detected by the first temperature sensor, the indoor temperature value of the air purifier detected by the second temperature sensor and a formula (1)₂The air outlet enthalpy value of the air purifier at the temperature;

wherein, J₂Is T₂The air outlet enthalpy value of the air purifier at the temperature, Q is the liquid outlet flow of the middle humidifying component of the air purifier, n is the number of the air inlet channels 202, V is the detection value of the speed sensor, A is the cross-sectional area of the air inlet channels 202, and J₁Is T₁The enthalpy value of indoor air where the air purifier is positioned at the temperature is rho, the liquid outlet density of the humidifying component of the air purifier, B, the specific heat of liquid in the humidifying component and T₁Is the detected value of a temperature sensor one, T₂The detected value of the temperature sensor II is, and sigma is the air density;

step 2, the controller calculates T according to the step 1₂Calculating the air supply humidity of the air purifier during working according to the air outlet enthalpy value of the air purifier at the temperature and the formula (2), comparing the air supply humidity of the air purifier during working with the preset humidity in the room where the air purifier is located by using the controller, and if the calculated air supply humidity of the air purifier during working is not the preset humidity in the room where the air purifier is located, controlling an alarm to give an alarm by using the controller to remind a user of increasing the liquid outlet flow of a humidifying component in the air purifier;

wherein K is the air supply humidity when the air purifier works, C is the atmospheric pressure in the room where the air purifier is positioned, and F is T₂The saturated water vapor partial pressure of the air purifier at the temperature, W is the wet load of a user, and M is the air outlet flow of the air outlet 3 of the air purifier;

in the formula (1), n V A is the air inlet flow of an air inlet (2) in the air purifier, n is 1, V is 0.35m/min, and A is 0.01m²Then n V A is 3.5L/min,

in order to obtain the theoretical difference between the enthalpy of the air inside the air purifier and the enthalpy of the air in the room in which the air purifier is positioned under the difference between the temperature inside the air purifier and the indoor temperature in which the air purifier works, the liquid in the humidifying component is water, and the sigma is 1.18Kg/m³，T₁Taking at 25 ℃, T₂At 27 ℃ J₁Taking 55.9KJ/Kg, rho is 1000Kg/m³B is 4.18 KJ/(Kg. degreeC.), then

16.4KJ/Kg, and 2.1mL/min of Q; j. the design is a square₂Taking 72.3KJ/Kg of the mixture,

in the formula (2), the first and second groups,

is T₂The water vapor pressure of the air purifier at the temperature is 1.013 x 10⁵Pa, W is 1090g/min, M is the same as n V A, 3.5L/min, then

Is 526.76Pa, T₁When the temperature is 25 ℃, F is 3000Pa, K is 17.56 percent and is less than 40 to 50 percent of the preset relative humidity, and the controller controls the alarm to give an alarm.

The beneficial effects of the above technical scheme are:

a speed sensor is provided in the intake passage 202 to detect intake airThe air flow rate in duct 202; arranging a first temperature sensor outside the air purifier to detect the indoor temperature value of the air purifier; arranging a second temperature sensor in the air purifier to detect a temperature value in the air purifier; when heating in winter, if the indoor environment of the user is too dry, the humidifying function of the air purifier can be turned on, and when the humidifying function humidifying assembly is turned on to work, the controller calculates T according to the air flow rate in the air inlet channel 202 detected by the speed sensor, the indoor temperature value of the air purifier detected by the first temperature sensor, the indoor temperature value of the air purifier detected by the second stable sensor and the formula (1)₂The air outlet enthalpy value of the air purifier at the temperature; then calculating T according to the step 1₂Air purifier's air-out enthalpy value and formula (2) calculate out the air supply humidity of air purifier during operation under the temperature, the indoor humidity of presetting of air purifier institute and the air purifier during operation of controller comparison air supply humidity, if the indoor humidity of presetting of air purifier institute of the air purifier during operation that calculates, controller control alarm reports to the police, remind the user to increase humidification subassembly's among the air purifier play liquid flow, it is not obvious to avoid air purifier's humidification effect, remind the person of facilitating the use to operate through the alarm, user's comfort improves.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. The utility model provides a high-efficient virus bacteria room air purifier that disappears, its characterized in that includes shell (1), the inside of shell (1) is equipped with humidification chamber (101), hybrid chamber (102) and purifies the subassembly, the outside of shell (1) is equipped with air inlet (2) and gas outlet (3), humidification chamber (101), air inlet (2), hybrid chamber (102), purification subassembly and gas outlet (3) communicate in proper order, hybrid chamber (102) and humidification chamber (101) intercommunication, humidification chamber (101) inside is equipped with the humidification subassembly.

2. A high efficiency air purifier in indoor for sterilizing and killing virus bacteria as claimed in claim 1, wherein said humidification chamber (101) is arranged at the lower side of the inside of the casing (1), said purification component is arranged at the upper side of said humidification chamber (101) and is communicated with the mixing chamber (102) at the upper side of the right end of the casing (1), a partition plate (103) is arranged inside the casing (1), and said partition plate (103) separates said humidification chamber (101) and the mixing chamber (102).

3. The indoor air purifier for efficiently killing viruses and bacteria according to claim 1, wherein the air inlet (2) is arranged in the middle of the right end of the shell (1), the air inlet (2) comprises a plurality of air inlet channels (202) which are uniformly distributed at intervals along the right end of the shell (1), the air inlet fans (201) are respectively arranged in the air inlet channels (202), the air outlet (3) is arranged in the middle of the left end of the shell (1), the air outlet (3) comprises a plurality of air outlet channels (302) which are uniformly distributed at intervals along the left end of the shell (1), and the air outlet fans (301) are respectively arranged in the air outlet channels (302).

4. The indoor air purifier for killing bacteria and viruses as claimed in claim 1, wherein said purifying assembly comprises a purifying shell (4), said purifying shell (4) is disposed at both ends thereof, said purifying shell (4) is sequentially provided with a first purifying layer (401) and a second purifying layer (402) from left to right, said purifying shell (4) is symmetrically provided with a plurality of UV lamps (403) at both ends thereof, said mixing chamber (102) is connected to the air inlet end of said purifying shell (4), and said air outlet end of said purifying shell (4) is connected to said air outlet (3).

5. The indoor air purifier as claimed in claim 4, wherein the first purifying layer (401) is a formaldehyde-removing honeycomb activated carbon filter layer, the second purifying layer (402) is a photocatalytic disinfection mesh layer, and the photocatalytic disinfection mesh layer is coated with a quantum dot nano photocatalyst coating.

6. The indoor air purifier as claimed in claim 1, wherein a third purifying layer (5) is disposed in the mixing chamber (102), and the third purifying layer (5) is a HEPA filter screen layer.

7. A highly efficient air purifier in room for sterilizing and killing virus and bacteria as claimed in claim 1, wherein said humidification module comprises a humidification device disposed at the middle of said humidification chamber (101), said humidification device comprises:

the humidifying device comprises a humidifying shell (6), wherein power blocks (601) are arranged inside the humidifying shell (6), the power blocks (601) are used for distributing the interior of the humidifying shell (6) into a power cavity I (602) and a water storage bin (606) at intervals, the power cavity I (602) and the water storage bin (606) are distributed up and down, a power cavity II (603), a power cavity III (604) and a liquid supply bin (605) are arranged inside the power blocks (601), and the power cavity II (603), the power cavity III (604) and the liquid supply bin (605) are sequentially communicated from right to left;

the motor shell (619), the motor shell (619) is arranged inside the second power cavity (603), a rack (618) is fixedly arranged at the left end of the motor shell (609), the rack (618) is meshed with a seventh gear (617), the seventh gear (617) is connected with a driving motor, a first double-head motor (607) is arranged inside the motor shell (619), a first rotating shaft (608) is fixedly connected to the lower end of the first double-head motor (607), the first rotating shaft (608) is fixedly connected with the first gear (609), and the first gear (609) is meshed with a second gear (610);

the two lifting holes (616) are symmetrically arranged on the left side and the right side of the power block (601) and penetrate through the upper end and the lower end of the power block (601), a lifting sleeve (631) is arranged inside the lifting holes (616) in a sliding mode, the lifting sleeve (631) is in threaded connection with a first threaded rod (611), a cylindrical section of the lower portion of the first threaded rod (611) is fixedly connected with a first belt wheel (612), the first belt wheels (612) on the left side and the right side are connected through a first belt (613), and a second gear (610) is fixedly connected with a cylindrical section of the first threaded rod (611) on the right side;

the two first grooves (614) are symmetrically arranged on the left side and the right side of the first power cavity (602), bearings (615) are arranged inside the first grooves (614), and the bearings (615) are fixedly connected with the lower end of the first threaded rod (611);

a second rotating shaft (620), wherein the second rotating shaft (620) is fixedly connected with the upper end of the first double-head motor (607), one end of the second rotating shaft (620) far away from the first double-head motor (607) is fixedly connected with a first bevel gear (621), the first bevel gear (621) is meshed with a second bevel gear (622), the second bevel gear (622) is fixedly connected with a second belt wheel (623), the second belt wheel (623) is connected with a third belt wheel (625) through a second belt (624) penetrating through the side end of the second power cavity (603), the third belt wheel (625) is fixedly connected with a rotating disc (626), the rotating disc (626) is eccentrically connected with a sliding shaft (627), and the sliding shaft (627) is in sliding connection with a sliding groove (6281) in a sliding block (628);

the connecting block (629) is fixedly connected with the sliding block (628), one end, far away from the sliding block (628), of the connecting block (629) penetrates through one end of the power cavity III (604) and is fixedly connected with the sliding plate (630), and the sliding plate (630) is arranged inside the liquid supply bin (605) in a left-right sliding mode;

the left side and the right side of the lower end of the lifting plate (633) are symmetrically provided with the lifting sleeve (631), the lifting plate (633) is arranged in the water storage bin (606) in a vertically sliding mode, the left end of the lifting plate (633) is provided with a motor (634), the motor (634) is fixedly connected with a rotating shaft III (635), the rotating shaft III (635) is rotatably arranged between the left end and the right end of the lifting plate (633), and a plurality of stirring fans (636) are uniformly distributed on the rotating shaft III (635) at intervals;

the feeding pipe (639) is arranged on the lifting plate (633) in a penetrating manner, the feeding pipe (639) is communicated with a hose (632), and the hose (632) is communicated with the water storage bin (606);

the cover plate (637) is detachably arranged at the upper end of the humidifying shell (6), atomizers (638) are arranged at the upper end and the lower end of the cover plate (637) in a penetrating mode, and the water storage bin (606) is communicated with the mixing cavity (102) through the atomizers (638).

8. The indoor air purifier for killing bacteria and viruses as claimed in claim 7, the humidifying component also comprises a liquid storage shell (8) and a water storage shell (801), the liquid storage shell (8) is arranged on the left side of the humidifying cavity (101), the inside of the liquid storage shell (8) is an inclined cavity, the inclined cavity is communicated with the liquid supply bin (605) through a first conveying pipe (802), a water storage shell (801) is arranged on the right side of the humidifying cavity (101), a water storage cavity is arranged inside the water storage shell (801), a first filter screen (804) and a water pump (805) are arranged in the water storage cavity, the water pump (805) is connected with a second delivery pipe (803), the second delivery pipe (803) is communicated with the water storage bin (606), and the lower ends of the liquid storage shell (8) and the water storage shell (801) are in front-back sliding connection with the lower end of the humidifying cavity (101).

9. The indoor air purifier as claimed in claim 6, further comprising a dust removing device, wherein the dust removing device is provided with an air inlet and an air outlet, the dust removing device is disposed inside the mixing chamber (102), the air inlet of the dust removing device is communicated with the air inlet (2), and the air outlet of the dust removing device is communicated with the air outlet (3).

10. The air purifier as claimed in claim 9, wherein the dust removing device comprises:

a dust removing shell (7), a working cavity (731) is arranged at the left side inside the dust removing shell (7), a second filter bin (705) and a first filter bin (702) are sequentially communicated from top to bottom on the right side in the dust removal shell (7), an air inlet (701) is formed in the right side of the outer portion of the dust removing shell (7), the air inlet (701) is communicated with the air inlet (2) in the left-right direction, an air outlet (732) is arranged on the left side outside the dust removing shell (7), the purification component is communicated with the air outlet (732) left and right, the first filter bin (702) is communicated with the air inlet (701) from left to right, the air outlet (732), the working cavity (731) and the second filter bin (705) are communicated in sequence from left to right, the third purification layer (5) is arranged at the communication position of the working cavity (731) and the second filter bin (705), a second filter screen (703) is arranged at the communication position of the second filter bin (705) and the first filter bin (702);

the dust removing device comprises a first driving cavity (706), the driving cavity (706) is arranged inside the dust removing shell (7), a double-headed motor second (707) is arranged inside the driving cavity (706), the double-headed motor second (707) is fixedly connected with a first driving shaft (719), the middle of the first driving shaft (719) is fixedly connected with a belt wheel fourth (720), the belt wheel fourth (720) is connected with a belt wheel fifth (723) through a belt third (722), the belt wheel fifth (723) is fixedly connected with a sliding sleeve (724), the sliding sleeve (724) is slidably connected with a second driving shaft (725), the second driving shaft (725) is fixedly connected with a bevel gear third (726), the bevel gear third (727) is meshed with the bevel gear fourth (727), the bevel gear fourth (727) is fixedly connected with a third driving shaft (728), the third driving shaft (728) is fixedly connected with a threaded sleeve (729), and the threaded sleeve (729) is fixedly connected with a second threaded rod (730), the second threaded rod (730) is fixedly connected with a dust remover (704) in a second groove (721) communicated with the upper side of the first driving cavity (706), and the dust remover (704) is arranged corresponding to the second filter screen (703);

the first connecting shell (716) is arranged at the communication position of the second filter bin (705) and the first filter bin (702), and is fixedly arranged between the second connecting shell (714) and the first driving cavity (706), the interior of the first connecting shell (716) and the second driving cavity (713) in the second connecting shell (714) are sequentially communicated from left to right;

a driving shaft four (708), wherein the driving shaft four (708) is fixedly connected with one end, away from the driving shaft one (719), of the double-head motor two (707), penetrates through the inside of the connecting shell one (716) to enter the driving cavity two (713) to be fixedly connected with a gear three (709), the gear three (709) is meshed with a gear four (710), the gear four (710) is meshed with a gear five (711), the gear five (711) is meshed with a gear six (712), and the gear four (710) and the gear six (712) enter the inside of the filter bin two (705) through a fixed shaft penetrating through the side end of the driving cavity two (713) to be fixedly connected with a fan (715);

the two atomizing blocks (734) are symmetrically arranged on the front side and the rear side of the working cavity (731), a plurality of nozzles (735) are uniformly distributed on the side end of each atomizing block (734) in the circumferential direction, a fixing shell (718) is rotatably arranged between the two atomizing blocks (734), one ends, close to each other, of the two atomizing blocks (734) are fixedly connected with fixing shafts (717), the fixing shafts (717) are fixedly connected with bevel gear five (737), the bevel gear five (737) on the front side and the rear side are symmetrically meshed with the front side and the rear side of a bevel gear six (736), and the bevel gear six (736) is fixedly connected with the left end of a driving shaft one (719) penetrating through the side end of the driving cavity one (706);

two atomizing pipe (733), two atomizing pipe (733) respectively with atomizing piece (734) is kept away from the one end intercommunication of fixed axle (717), atomizing pipe (733) set up in the inside of dust removal shell (7), and atomizing pipe (733) keep away from the one end of atomizing piece (734) with humidification subassembly intercommunication inside humidification chamber (101).