CN113701280A

CN113701280A - Humidifying anion household air purifier

Info

Publication number: CN113701280A
Application number: CN202110968862.3A
Authority: CN
Inventors: 张学辉
Original assignee: Shenzhen Laoba Dangjia Technology Co ltd
Current assignee: Shenzhen Laoba Dangjia Technology Co ltd
Priority date: 2021-08-23
Filing date: 2021-08-23
Publication date: 2021-11-26

Abstract

The invention provides a humidifying anion household air purifier which comprises a main machine shell, wherein a controller, an anion generator and a humidifying device are arranged in the main machine shell; the controller is respectively electrically connected with the negative ion generator and the humidifying device, and is used for controlling the negative ion generator and the humidifying device to work. The invention solves the problems that the existing air purifying equipment has poor air purifying effect and low intelligence, can not meet the use requirement of families, and simultaneously uses two machines of an air purifier and a humidifier to occupy more space and cause trouble in use.

Description

Humidifying anion household air purifier

Technical Field

The invention relates to the technical field of intelligent home systems, in particular to a humidifying negative ion household air purifier.

Background

At present, with the improvement of living standard of people, the reduction of the quality of ambient air and the outstanding appearance of the problem of tap water pollution greatly increase the demand of people on air purifiers and humidifiers. The current air purification equipment can not detect and adjust in time, and air purification effect is poor, intelligent low, can't satisfy the user demand of family, and uses two machines of air purifier and humidifier comparatively to take up an area of simultaneously, and uses troublesome, consequently, needs an air purifier that collects water purification humidification and air purification in an organic whole to overcome above-mentioned problem.

Disclosure of Invention

The invention provides a humidifying negative ion household air purifier, which is used for solving the technical problems that the use of two air purifiers and a humidifier simultaneously occupies a large space and is troublesome in use in the background technology.

The humidifying anion household air purifier comprises a main machine shell, wherein a controller, an anion generator and a humidifying device are arranged in the main machine shell; the controller is respectively electrically connected with the negative ion generator and the humidifying device, and is used for controlling the negative ion generator and the humidifying device to work.

Preferably, still be equipped with control panel and air quality detection device on the host computer shell, control panel includes a plurality of button and display screen, the controller respectively with a plurality of button, display screen, air quality detection device electric connection.

Preferably, the humidifying device comprises a first water tank, a first water filling port is arranged at the top of the first water tank, a first water outlet is arranged at the bottom of the first water tank, and the first water outlet is communicated with the inside of the second water tank through a first pipeline.

Preferably, the second water tank is further communicated with one end of the mist outlet channel, a mist outlet is formed in the main case, the other end of the mist outlet channel extends to the mist outlet, a stirring device is arranged in the second water tank, and the stirring device is electrically connected with the controller.

Preferably, still include disinfection module, disinfection module includes first disinfection unit and second disinfection unit, first disinfection unit is used for right go out the fog passageway and disinfect, first disinfection unit is used for disinfecting water in the second water tank, first disinfection unit with second disinfection unit respectively with controller electric connection.

Preferably, the mist outlet channel further comprises an air inlet channel, an air outlet channel and an air pump, the air pump is arranged between the air inlet channel and the air outlet channel, an air outlet of the air outlet channel is positioned between the second water tank and the mist outlet channel, and the air pump is electrically connected with the controller;

a filtering device is arranged in the air inlet channel and comprises an initial effect filtering layer, an HEPA filtering layer, a nano photocatalyst filtering layer, an ultraviolet lamp sterilizing layer, a negative ion dust removing layer and an ozone filtering layer which are sequentially arranged;

the bottom of the second water tank is provided with an ultrasonic vibrator, and the ultrasonic vibrator is electrically connected with the controller.

Preferably, the air quality detection device is used for monitoring the zone temperature, the relative humidity and the particulate matter concentration in a detection range, and the air quality detection device is electrically connected with the controller.

Preferably, the negative ion generator is installed in the main chassis through a quick assembly and disassembly device;

the quick dismounting device comprises a bottom plate, the bottom plate is horizontally arranged in the main case, the middle position of the top of the bottom plate is fixedly connected with one end of a supporting block, and the other end of the supporting block is fixed at the bottom of a fixing plate;

the negative ion generator is placed on the top surface of the fixed plate, and the position of the negative ion generator is fixed on the fixed plate through symmetrically arranged fixing devices;

the bottom of the fixed plate is provided with a plurality of groups of buffer damping devices which are uniformly distributed relative to the supporting block;

the fixed plate is also provided with a plurality of groups of auxiliary supporting devices which are uniformly distributed relative to the supporting blocks;

the fixing device comprises a first support, a second adjusting rod, a clamping plate, a top plate, a third adjusting rod and a pressing block;

the bottom of the clamping plate is connected to the upper surface of the fixing plate in a sliding manner, a horizontally arranged top plate is arranged on one side, close to the negative ion generator, of the top of the clamping plate, one side of the clamping plate is used for supporting the negative ion generator, and a first support arranged in the vertical direction is arranged on one side, away from the negative ion generator, of the clamping plate;

the second adjusting rod is arranged along the horizontal direction, and one end of the second adjusting rod penetrates through the first support and then is fixed on the clamping plate;

one end of the third adjusting rod penetrates through the top plate from top to bottom and then is fixedly connected with a pressing block;

the auxiliary supporting device comprises a second base, a second sleeve rod, a connecting block and two first adjusting rods symmetrically arranged relative to the second sleeve rod;

the connecting block is arranged along the horizontal direction, one end of the connecting block is fixed at the bottom of the fixing plate and is fixedly connected with one end of the second loop bar, the other end of the second loop bar extends into a connecting groove at the top of the second base, and the bottom of the second base is fixed on the upper surface of the bottom plate;

one end of the first adjusting rod penetrates through the side wall of the second base and abuts against the bottom of the second loop bar.

Preferably, the buffering and damping device comprises a first base, a buffering spring, a first loop bar and an anti-collision block;

one end of the first base is fixed on the bottom plate, the other end of the first base is provided with a buffer groove, and the bottom of the buffer groove is fixedly connected with the bottom end of the buffer spring;

one end of the anti-collision block is fixed at the bottom of the fixing plate, the other end of the anti-collision block is fixedly connected with one end of the first loop bar, and the other end of the first loop bar is fixedly connected with the top end of the buffer spring.

Preferably, the humidifying device comprises a first water tank and a second water tank;

a first mounting groove is formed in the top of the second water tank, a leakage-proof device is arranged in the first mounting groove, the leakage-proof device comprises a connecting plate, and the connecting plate is used for supporting the first water tank;

the first mounting groove is internally provided with side plates which are symmetrically arranged around the connecting plate, the side plates are arranged along the vertical direction, the top of each side plate is close to one side of the connecting plate, a plurality of first ball grooves are formed in each first ball groove, a first ball is rotatably connected in each first ball groove, the part of each first ball, which is exposed out of the corresponding first ball groove, abuts against the side wall of the connecting plate, and the bottom of each side plate is slidably connected in a second mounting groove in the top of the second water tank;

the bottom of the connecting plate is rotatably connected with one end of a push rod through a connecting shaft, the other end of the push rod penetrates through the bottom of the first mounting groove and then extends into the second water tank, and a stop plug is fixedly connected to one end of the push rod extending into the second water tank;

a guide rod which is horizontally arranged is arranged in the first mounting groove;

the bottom of the connecting plate is also provided with two auxiliary supporting rods which are symmetrically distributed about the ejector rod, the bottoms of the auxiliary supporting rods are connected to the guide rod in a sliding manner, the top of each auxiliary supporting rod is provided with a second ball groove, a second ball is rotatably connected in the second ball groove, and the part of the second ball, which is exposed out of the second ball groove, is abutted against the bottom of the connecting plate;

a first sliding block is connected to the ejector rod in a sliding mode, a first reset spring is further arranged between the first sliding block and the bottom of the connecting plate, the first reset spring is sleeved on the ejector rod, a second reset spring is further arranged between the first sliding block and the bottom of the first mounting groove, and the second reset spring is sleeved on the ejector rod;

one side of each auxiliary supporting rod, which is close to the ejector rod, is rotatably connected with a first connecting rod, and one end, which is far away from the auxiliary supporting rod, of each first connecting rod is rotatably connected to the first sliding block;

one side, far away from the ejector rod, of each auxiliary supporting rod is fixedly connected with a sliding frame, each sliding frame is connected with a second sliding block in a sliding mode, one end of a second connecting rod is rotatably connected onto each second sliding block, and the other end of each second connecting rod is rotatably connected onto the side plate;

one end of the first pipeline is communicated with the inside of the second water tank, and the other end of the first pipeline penetrates through the connecting plate and then is used for being connected with the first water tank.

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 humidifying anion household air purifier of the present invention;

FIG. 2 is an oblique side sectional view of a humidified negative ion home air cleaner of the present invention;

FIG. 3 is a front cross-sectional view of a humidified negative ion household air purifier of the present invention;

FIG. 4 is a side cross-sectional view of a humidified negative ion household air purifier of the present invention;

FIG. 5 is a schematic structural view of the quick release apparatus of the present invention;

FIG. 6 is a schematic top view of the quick release apparatus of the present invention;

FIG. 7 is a schematic view of the structure of the leakage preventing device of the present invention.

1. A main chassis; 101. a controller; 102. pressing a key; 103. a display screen; 2. a negative ion generator; 3. a humidifying device; 301. a water tank; 302. a second water tank; 303. a first water injection port; 304. a first water outlet; 305. a mist outlet channel; 306. a stirring device; 307. an air inlet channel; 308. an air outlet channel; 309. an air pump; 310. a filtration device; 4. a first pipeline; 5. a quick assembly disassembly device; 501. a base plate; 502. a support block; 503. a fixing plate; 504. a first base; 505. a buffer spring; 506. a first loop bar; 507. an anti-collision block; 508. a second base; 509. a first adjusting lever; 510. a second loop bar; 511. connecting blocks; 512. a first bracket; 513. a second adjusting lever; 514. a clamping plate; 515. a top plate; 516. a third adjusting rod; 517. briquetting; 6. a leakage prevention means; 601. a first mounting groove; 602. a second mounting groove; 603. a side plate; 604. a first ball bearing; 605. a connecting plate; 606. a connecting shaft; 607. a top rod; 608. blocking the plug; 609. a first return spring; 610. a first slider; 611. a first link; 612. an auxiliary support bar; 613. a second ball bearing; 614. a carriage; 615. a second slider; 616. a second link; 617. a guide bar; 618. a second return spring.

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.

Example 1

The invention provides a humidifying anion household air purifier, as shown in figure 1, which comprises a main machine shell 1, wherein a controller 101, an anion generator 2 and a humidifying device 3 are arranged in the main machine shell 1; the controller 101 is electrically connected with the anion generator 2 and the humidifying device 3 respectively, and the controller 101 is used for controlling the anion generator 2 and the humidifying device 3 to work.

Still be equipped with control panel and air quality detection device on the mainframe shell 1, control panel includes a plurality of button 102 and display screen 103, controller 101 respectively with a plurality of button 102, display screen 103, air quality detection device electric connection.

The air quality detection device is used for monitoring the area temperature, the relative humidity and the particulate matter concentration in a detection range, and is electrically connected with the controller 101.

The particulate matter concentration includes concentrations of PM2.5 and PM 10.

The working principle and the beneficial effects of the technical scheme are as follows:

the air quality detection device is used for detecting the air quality of the environment, including the concentration of particulate matters in the air, the relative humidity of the air, the ambient temperature and the like;

each of the plurality of keys 102 corresponds to different functions, including a start-stop control key 102 of the humidifying anion household air purifier, a start-stop control key 102 of the anion generator 2, a start-stop control key 102 of the humidifying device 3, etc., the display screen 103 is used for displaying the function corresponding to the currently pressed key 102, the working states (working or non-working) of the anion generator 2 and the humidifying device 3 and the detection result of the air quality detection device, the detection result includes the zone temperature, the relative humidity, the particulate matter concentration, etc., the user can visually observe the working state of the humidifying anion household air purifier and the air quality state of the current environment, and the use is convenient.

When in use, the humidifying anion household air purifier is started, and the anion generator 2 and the humidifying device 3 are started;

the anion generator 2 purifies air by utilizing anions generated by itself to realize dust removal, odor removal and sterilization, and optimizes indoor air by utilizing the characteristics of dust removal, sterilization and detoxification of the anions. The generated negative oxygen ions are actively attacked, so that the defects that the filter screen of the filter screen type air purifier needs to be replaced regularly, the purification is not thorough, secondary pollution is easy to form and the like are effectively avoided. The ecological negative ions with small particle size and high activity generated by the negative ion generator 2 have good natural diffusivity, can form a negative ion bath treatment environment indoors without blowing by a fan, reduce active oxygen (oxygen free radical) generated by atmospheric pollutants, nitric oxide, cigarettes and the like, reduce the harm of excessive active oxygen to human bodies, neutralize positively charged air floating dust, settle after no electric charge, and purify the air;

in northern areas with dry climate, when the humidity of indoor air is lower than the preset minimum requirement through the humidifying device 3, the humidifying device 3 is started to humidify the indoor air, so that the humidity of the indoor environment is kept in a range suitable for human health, when the humidity of the indoor environment is higher, the humidifying device 3 stops working and is started and stopped intelligently, and the effects of intelligent regulation, energy conservation and consumption reduction are achieved;

the controller 101 controls the start and stop of the work of the anion generator 2 and the humidification device 3 through the detection result of the air quality detection device, when the indoor air quality does not meet the set requirement (such as haze weather, outdoor air enters into a room or when the indoor dust concentration is higher), the controller 101 controls the anion generator 2 and the humidification device 3 to work, the indoor air is purified, when the indoor air quality (particulate matter concentration, temperature, humidity and the like) meets the set requirement, the controller 101 controls the anion generator 2 and the humidification device 3 to stop working, the automatic start and stop are carried out according to the change of the environment, and the energy-saving and consumption-reducing effects are achieved. Meanwhile, the problems that the existing air purification equipment cannot detect and adjust in time, is poor in air purification effect and low in intelligence and cannot meet the use requirements of families are solved.

Simultaneously domestic air purifier of humidification anion possesses anion generator 2 and humidification device 3 simultaneously, purifies indoor air through anion generator 2, and to indoor humidification through humidification device 3, can realize indoor purification and humidification effect through an equipment, has solved and has used two machines of air purifier and humidifier simultaneously comparatively to take up an area of, and uses troublesome problem.

Example 2

On the basis of embodiment 1, as shown in fig. 1-2, the humidifying device 3 includes a first water tank 301, a first water filling port 303 is disposed at the top of the first water tank 301, a first water outlet 304 is disposed at the bottom of the first water tank 301, and the first water outlet 304 is communicated with the inside of a second water tank 302 through a first pipeline 4.

The second water tank 302 is further communicated with one end of the mist outlet channel 305, a mist outlet is formed in the main case 1, the other end of the mist outlet channel 305 extends to the mist outlet, a stirring device 306 is arranged in the second water tank 302, and the stirring device 306 is electrically connected with the controller 101.

Still include the disinfection module, the disinfection module includes first disinfection unit and second disinfection unit, first disinfection unit be used for right it disinfects to go out fog passageway 305, first disinfection unit is used for right water in the second water tank 302 disinfects, first disinfection unit with second disinfection unit respectively with controller 101 electric connection.

The first disinfection unit and the second disinfection unit can be ultraviolet lamp disinfection devices, and the disinfection and sterilization functions are achieved through ultraviolet rays emitted by the ultraviolet lamps.

The first disinfection unit and the second disinfection unit can also be microwave disinfection devices, microwaves emitted by the microwave disinfection devices are utilized to disinfect the interior of the fog outlet channel 305 and the interior of the second water tank 302, heat effect can be generated while the microwaves emitted by the microwave disinfection devices emit, and the heat effect also enables molecular structures such as protein, nucleic acid and the like in microorganisms to be modified or inactivated; meanwhile, the microwave sterilization device can generate a high-frequency electric field when emitting microwaves, and the high-frequency electric field can change the membrane potential and the polar molecular structure of microorganisms; these all exert a destructive action on the microorganisms and thus exert a bactericidal action. The microwave sterilization is utilized, the treatment time is short, the penetrability is good, and the rapid and efficient disinfection and sterilization functions can be realized.

The mist outlet channel 305 further includes an air inlet channel 307, an air outlet channel 308 and an air pump 309, the air pump 309 is disposed between the air inlet channel 307 and the air outlet channel 308, an air outlet of the air outlet channel 308 is located between the second water tank 302 and the mist outlet channel 305, and the air pump 309 is electrically connected to the controller 101;

a filtering device 310 is arranged in the air inlet channel 307, and the filtering device 310 comprises an initial effect filtering layer, an HEPA filtering layer, a nano photocatalyst filtering layer, an ultraviolet lamp sterilizing layer, a negative ion dust removing layer and an ozone filtering layer which are sequentially arranged;

the bottom of the second water tank 302 is provided with an ultrasonic vibrator, and the ultrasonic vibrator is electrically connected with the controller 101.

the stirring device 306 is used for stirring water in the second water tank 302, the first water tank 301 is detachably connected with the second water tank 302, when the device is used, water is filled into the first water tank 301 through the first water filling port 303, the first water tank 301 is connected with the second water tank 302 through the first pipeline 4, the water in the first water tank 301 gradually flows into the second water tank 302 through the first pipeline 4, the ultrasonic vibrator at the bottom of the second water tank 302 atomizes the water in the second water tank 302, and the atomized water mist is discharged from the mist outlet through the mist outlet channel 305, so that the indoor air is humidified; the stirring device 306 in the second water tank 302 enables water in the second water tank 302 to fully flow, so that the atomization effect can be better realized;

the air pump 309 sucks the indoor air through the air inlet channel 307, the indoor air is filtered by the filter device 310 and then discharged through the air outlet channel 308, and the indoor air is filtered and purified;

through setting up disinfection module, disinfect to going out fog passageway 305 and second water tank 302, avoid long-time back of using, water and play fog passageway 305 in the second water tank 302 breed the bacterium, thereby influence domestic air purifier's of humidification anion purifying effect.

Example 3

On the basis of any one of embodiments 1 or 2, as shown in fig. 1, 3 and 4, the anion generator 2 is installed in the main chassis 1 through a quick-assembly and disassembly device 5;

the quick dismounting device 5 comprises a bottom plate 501, the bottom plate 501 is horizontally arranged in the main chassis 1, the middle position of the top of the bottom plate 501 is fixedly connected with one end of a supporting block 502, and the other end of the supporting block 502 is fixed at the bottom of a fixing plate 503;

the negative ion generator 2 is placed on the top surface of the fixed plate 503, and the position of the negative ion generator 2 is fixed on the fixed plate 503 through symmetrically arranged fixing devices;

the bottom of the fixing plate 503 is provided with a plurality of groups of buffer damping devices which are uniformly distributed relative to the supporting block 502;

a plurality of groups of auxiliary supporting devices which are uniformly distributed relative to the supporting block 502 are also arranged on the fixing plate 503;

the fixing device comprises a first bracket 512, a second adjusting rod 513, a clamping plate 514, a top plate 515, a third adjusting rod 516 and a pressing block 517;

the bottom of the clamping plate 514 is slidably connected to the upper surface of the fixing plate 503, a top plate 515 horizontally arranged is arranged on one side of the top of the clamping plate 514 close to the anion generator 2, one side of the clamping plate 514 is used for supporting the anion generator 2, and the first bracket 512 vertically arranged is arranged on one side of the clamping plate 514 away from the anion generator 2;

the second adjusting rod 513 is arranged along the horizontal direction, and one end of the second adjusting rod 513 passes through the first bracket 512 and then is fixed on the clamping plate 514;

one end of the third adjusting rod 516 penetrates through the top plate 515 from top to bottom and is fixedly connected with a pressing block 517;

the auxiliary supporting means comprises a second base 508, a second sleeve bar 510, a connecting block 511 and two first adjusting bars 509 arranged symmetrically with respect to the second sleeve bar 510;

the connecting block 511 is arranged along the horizontal direction, one end of the connecting block 511 is fixed on the side surface of the fixing plate 503, the bottom of the connecting block 511 is fixedly connected with one end of the second sleeve rod 510, the other end of the second sleeve rod 510 extends into the connecting groove at the top of the second base 508, and the bottom of the second base 508 is fixed on the upper surface of the bottom plate 501;

one end of the first adjusting rod 509 passes through the sidewall of the second base 508 and abuts against the bottom of the second sleeve 510.

The buffering and damping device comprises a first base 504, a buffering spring 505, a first sleeve rod 506 and an anti-collision block 507;

one end of the first base 504 is fixed on the bottom plate 501, the other end of the first base 504 is provided with a buffer slot, and the bottom of the buffer slot is fixedly connected with the bottom end of the buffer spring 505;

one end of the anti-collision block 507 is fixed at the bottom of the fixing plate 503, the other end of the anti-collision block 507 is fixedly connected with one end of the first sleeve rod 506, and the other end of the first sleeve rod 506 is fixedly connected with the top end of the buffer spring 505.

the anion generator 2 is fixed by arranging the fixing devices which are symmetrically arranged, when the anion generator is used, the anion generator 2 is placed on the fixing plate 503, and the clamping plate 514 is driven by the second adjusting rod 513 to move towards the anion generator 2, so that the side surface of the anion generator 2 is clamped and fixed; through the third adjusting rod 516, the pressing block 517 is driven by the third adjusting rod 516 to move towards the direction of the negative ion generator 2, so that the top surface of the negative ion generator 2 is clamped and fixed;

by arranging a plurality of groups of buffering and damping devices, the buffering and damping effect is realized when the anion generator 2 is subjected to external force, each group of buffering and damping devices comprises a first base 504, a buffering spring 505, a first sleeve rod 506 and an anti-collision block 507, when the anion generator vibrates under the external force, the first sleeve rod 506 slides relative to the first base 504, the first sleeve rod 506 moves towards the direction deep into or far away from the first base 504, the position limitation of the first sleeve rod 506 is realized through the buffering spring 505, so that the first sleeve rod 506 cannot fall off the first base 504 upwards, the first sleeve rod 506 is stressed downwards under the external force, the buffering spring 505 is stressed and compressed, when the external force is lost, the buffering spring 505 loses the external force effect and gradually recovers to the original state, the first sleeve rod 506 gradually resets under the effect of the buffering spring 505, and the buffering and damping effect is realized through the combined action of the plurality of groups of buffering and damping devices, the negative ion generator 2 is prevented from being damaged under the action of external force, so that the use is prevented from being influenced;

through arranging a plurality of groups of auxiliary supporting devices, the levelness adjustment of the fixed plate 503 is realized, and the auxiliary supporting effect of the fixed plate 503 is realized on the auxiliary supporting blocks 502, when the auxiliary supporting device is used, the second sleeve rod 510 extends into the second base 508, the first adjusting rod 509 can be a screw rod, at the moment, one end of the first adjusting rod 509 extending into the second base 508 is in threaded connection with the second base 508, the first adjusting rod 509 is rotated, so that the part of the first adjusting rod 509 extending into the second base 508 is enlarged, the parts of the two opposite first adjusting rods 509 extending into the second base 508 clamp the bottom of the second sleeve rod 510, the levelness of the fixed plate 503 is adjusted by adjusting the different depths of the second sleeve rods 510 extending into the corresponding second base 508 of each group of auxiliary supporting devices, after the adjustment is finished, the bottom of the second sleeve rods 510 is clamped by rotating the first adjusting rod 509, so that the positions of the second sleeve rods 510 in the second base 508 are fixed, the levelness adjustment of the fixing plate 503 is achieved.

Through the arrangement of the quick dismounting device 5, the quick dismounting of the anion generator 2 can be realized, the second adjusting rod 513 drives the clamping plate 514 to approach or keep away from the side surface of the anion generator 2, the clamping or loosening of the side surface of the anion generator 2 is realized, the third adjusting rod 516 drives the pressing block 517 to approach or keep away from the top surface of the anion generator 2, the clamping or loosening of the top surface of the anion generator 2 is realized, thereby the fixing and loosening of the position of the anion generator 2 are realized, compared with the traditional bolt fixing, the dismounting action of the anion generator 2 can be realized without using tools, the device is convenient and quick, when the anion generator 2 fails, the bad anion generator 2 can be dismounted and maintained, a new anion generator 2 is replaced for continuous use, and the anion generator 2 can be quickly replaced under the condition that the anion generator 2 fails, normal use is not influenced, and the condition that the whole use of the traditional air purifier is influenced when a certain component of the traditional air purifier is in fault is avoided.

Example 4

On the basis of any one of embodiments 1 to 3, as shown in fig. 1, 2 and 5, the humidifying device 3 includes a first water tank 301 and a second water tank 302;

a first mounting groove 601 is formed in the top of the second water tank 302, a leakage-proof device 6 is arranged in the first mounting groove 601, the leakage-proof device 6 comprises a connecting plate 605, and the connecting plate 605 is used for supporting the first water tank 301;

the first mounting groove 601 is further internally provided with side plates 603 symmetrically arranged around the connecting plate 605, the side plates 603 are arranged along the vertical direction, the top of each side plate 603 is close to a plurality of first ball grooves on one side of the connecting plate 605, each first ball groove is internally and rotatably connected with a first ball 604, the part of each first ball 604 exposed out of the first ball groove is abutted against the side wall of the connecting plate 605, and the bottom of each side plate 603 is slidably connected in the second mounting groove 602 on the top of the second water tank 302;

the bottom of the connecting plate 605 is rotatably connected with one end of a push rod 607 through a connecting shaft 606, the other end of the push rod 607 penetrates through the bottom of the first mounting groove 601 and then extends into the second water tank 302, and a stopper 608 is fixedly connected to one end of the push rod 607 extending into the second water tank 302;

a guide rod 617 which is horizontally arranged is arranged in the first mounting groove 601;

the bottom of the connecting plate 605 is further provided with two auxiliary support rods 612 which are symmetrically distributed about the top rod 607, the bottoms of the auxiliary support rods 612 are slidably connected to the guide rods 617, the top of the auxiliary support rods 612 is provided with a second ball groove, a second ball 613 is rotatably connected in the second ball groove, and the part of the second ball 613, which is exposed out of the second ball groove, is abutted against the bottom of the connecting plate 605;

a first sliding block 610 is connected to the top rod 607 in a sliding manner, a first return spring 609 is further arranged between the first sliding block 610 and the bottom of the connecting plate 605, the first return spring 609 is sleeved on the top rod 607, a second return spring 618 is further arranged between the first sliding block 610 and the bottom of the first mounting groove 601, and the second return spring 618 is sleeved on the top rod 607;

one side of each auxiliary support rod 612 close to the top rod 607 is rotatably connected with a first connecting rod 611, and one end of the first connecting rod 611 far away from the auxiliary support rod 612 is rotatably connected to the first sliding block 610;

a sliding frame 614 is fixedly connected to one side of each auxiliary support rod 612 far away from the top rod 607, a second sliding block 615 is connected to each sliding frame 614 in a sliding manner, one end of a second connecting rod 616 is rotatably connected to each second sliding block 615, and the other end of the second connecting rod 616 is rotatably connected to the side plate 603;

one end of the first pipeline 4 is communicated with the inside of the second water tank 302, and the other end of the first pipeline 4 passes through the connecting plate 605 and is used for being connected with the first water tank 301.

when the humidifier/purifier is used, the first water tank 301 and the second water tank 302 are placed in alignment, the first water tank 301 and the second water tank 302 are communicated through the first pipeline 4, when the water tank 301 is installed in the existing humidifier/purifier, the water outlet of the water tank 301 is located at the lower part, and in the process of placing the water tank 301 (which is equivalent to the first water tank 301 of the invention) on a base (which is equivalent to the second water tank 302 of the invention), the water outlet is usually aligned firstly, and then the water tank 301 is completely placed on the base, but in the process, water in the water tank 301 easily flows out;

in the invention, the leakage-proof device 6 is arranged, so that the contact surface of the second water tank 302 and the first water tank 301 is tiltable, when the first water tank 301 is placed on the second water tank 302, the connecting plate 605 is forced downwards, the side plate 603 and the first ball 604 on the side plate 603 support the side surface of the connecting plate 605, and the surface of the connecting plate 605 is allowed to tilt under the state, and the surface can tilt along with the angle of the first water tank 301, so that the contact surface of the connecting plate 605 and the first water tank 301 can be attached;

when the connecting plate 605 is forced to move downwards, the auxiliary supporting rod 612 is driven to rotate and be connected to one end of the bottom of the connecting plate 605 to synchronously move downwards, the other end of the auxiliary supporting rod 612 synchronously slides on the guide rod 617, the guide rod 617 drives the sliding frame 614 and the first connecting rod 611 on the guide rod 617 to synchronously move while moving, the first connecting rod 611 drives the first sliding block 610 to slide on the top rod 607 when moving, the first return spring 609 is forced to compress and the second return spring 618 is tensioned to extend when the first sliding block 610 slides upwards on the top rod 607, and the stressed first return spring 609 and the tensioned second return spring 618 give upward supporting force to the connecting plate 605; or when the first sliding block 610 slides downwards on the top rod 607, the second return spring 618 is stressed and compressed, the first return spring 609 is tensioned and extended, and the stressed first return spring 609 and the tensioned second return spring 618 provide upward supporting force for the connecting plate 605, so that the connecting plate 605 is prevented from being stressed excessively and pressed excessively;

when the sliding frame 614 moves, the sliding block connected with the sliding frame 614 and the sliding frame 614 move relatively, the sliding block is connected with the side plate 603 through the second connecting rod 616, and is combined with the first connecting rod 611 to support both sides of the auxiliary supporting rod 612, and the auxiliary supporting rod 612 can be kept vertical as the auxiliary supporting rod 612 is connected to the guide rod 617 in a sliding manner, so that a supporting effect is achieved on the ground of the connecting plate 605;

in summary, by providing the leakage preventing device 6, the contact surface between the first water tank 301 and the connecting plate 605 (i.e. the contact surface between the first water tank 301 and the second water tank 302) can be kept attached during the process of installing the first water tank 301, so as to prevent the water in the first water tank 301 from leaking out when the first water tank 301 is installed because the attachment surface between the first water tank 301 and the second water tank 302 cannot be always kept attached and aligned.

Example 5

On the basis of any one of embodiments 1 to 4, a heating device may be further disposed in the main chassis 1, and the heating device may be an existing heating wire (or may be an existing electric heater) for radiating heat to the outside of the main chassis 1; when the indoor temperature is lower than the preset minimum requirement, the heating device is started, heat is transmitted to the outside of the main case 1 through the heating device, namely, indoors, the indoor environment temperature is kept in a range suitable for human health, when the indoor environment temperature is high, the heating device stops working, is intelligently started and stopped, and the effects of intelligent adjustment, energy conservation and consumption reduction are achieved;

the automatic control device comprises a controller 101, an air quality detection device, a timing device and a data storage device, wherein the controller 101 is electrically connected with the air quality detection device, the timing device, the heating device, the anion generator 2 and the humidifying device 3 respectively, and the controller 101 controls the anion generator 2, the humidifying device 3 and the heating device to work according to the air quality detection device and the timing device;

the air quality detection device is used for detecting the ambient temperature, the air relative humidity and the ambient wind speed of the environment;

the timing device can be networked and can be used for calibrating the current time so as to judge the current month and season and obtain the corresponding value of the thermal resistance of the clothes to participate in calculation;

the data storage device is used for storing the value of the thermal resistance of the clothes corresponding to each month from 1 month to 12 months, the convection heat exchange coefficient (air convection heat exchange coefficient) corresponding to each ambient wind speed and the value of the water vapor partial pressure in the ambient air at different ambient temperatures;

firstly, the controller 101 acquires a clothes thermal resistance value corresponding to the current month according to the current month acquired by the timing device;

then, the controller 101 substitutes the obtained thermal resistance value of the clothes into the formula (1) to calculate the ratio of the surface area of the dressed human body to the surface area of the naked body,

wherein A represents the ratio of the surface area of the human body to the bare body;

z represents the thermal resistance value of the garment in m²·℃/W；

In summer, people are hot, mostly wear waistcoats and shorts, so the ratio of the surface area of the worn human body to the naked body of the human body is 1, in spring and autumn, people are cool, in winter, people mostly wear long-sleeve trousers, so the ratio of the surface area of the worn human body to the naked body of the human body is 10;

then, the controller 101 substitutes the calculation result of formula (1) into formula (2) to calculate the average temperature C of the outer surface of the human body,

t represents the current ambient temperature in units;

T₀represents a set target ambient temperature in deg.C；

B represents the convection heat exchange coefficient corresponding to the current ambient wind speed, and the unit W/(m)²·℃)，

Then, the controller 101 calculates the operation control evaluation parameter Q by combining the calculation results of the equations (1) and (2),

in the formula, e is a constant and is 2.72;

wherein X represents the human body metabolism rate in W/s;

y represents the human body working rate in W/s;

p represents the partial pressure of water vapor in the ambient air, and the unit Pa, 2600 is the value of the partial pressure of water vapor in the ambient air at the target ambient temperature, and the unit Pa;

the controller 101 controls the humidifying anion household air purifier to work according to the calculated work control evaluation parameter Q, when the calculated work control evaluation parameter Q is lower than a set threshold value, the indoor temperature is too low, and the heating device is started to heat the indoor space;

when the calculated work control evaluation parameter Q is greater than or equal to the set threshold, it indicates that the indoor temperature is high, and the anion generator 2 and the humidifying device 3 start to work, humidify the indoor, purify the indoor air, and reduce the indoor temperature.

when the weather is cold, in order to keep warm, the thermal resistance value of the worn clothes is large, and the thermal resistance value of the clothes is small in summer, so that the feeling is cool, so that summer is set as 6-8 months, the thermal resistance value of the clothes is 1, autumn is set as 9-11 months, the thermal resistance value of the clothes is 2, winter is set as 12-2 months, the thermal resistance value of the clothes is 3, spring is set as 3-5 months, and the thermal resistance value of the clothes is 2;

the convection heat exchange coefficient is different in value according to different heat exchange modes, when the air quality detection device detects that the ambient wind speed of the environment is less than or equal to 0.1m/s, the convection heat exchange coefficient is 5, when the air quality detection device detects that the ambient wind speed of the environment is more than 0.1m/s and less than 3m/s, the convection heat exchange coefficient is 20, and when the air quality detection device detects that the ambient wind speed of the environment is more than or equal to 3m/s, the convection heat exchange coefficient is 50;

the normal body temperature range of the human body is 35-37 ℃, and 35.7 is taken as a standard in the formula (2) to participate in calculation;

the value of the water vapor partial pressure in the ambient air is different according to different ambient temperatures, 700Pa is taken when the ambient temperature is 0-5 ℃, 1000Pa when the ambient temperature is 6-10 ℃, 1400Pa when the ambient temperature is 11-15 ℃, 1900Pa when the ambient temperature is 16-20 ℃, 2600Pa when the ambient temperature is 21-25 ℃, 3700Pa when the ambient temperature is 26-30 ℃, 5000Pa when the ambient temperature is 31-35 ℃, 6900Pa when the ambient temperature is 36-40 ℃, and 10000Pa when the ambient temperature is higher than 40 ℃;

the human body work rate in the formula (3) refers to the power consumed by the human body in unit time, and the power consumed in the walking state of an adult is about 10 w/s; in moderately aggressive sports, such as cycling at 5m/s, the cyclist consumes about 50w/s of power; in more strenuous sports, such as basketball, a person consumes about 200w/s of power; under the condition of more strenuous exercise, such as hectometre running, the power consumed by a good athlete can reach the KW/s level, the humidifying anion household air purifier is a humidifying anion household air purifier, and people in a room are generally in a static state, and the small-motion exercise like walking indoors is taken as the reference for participating in calculation, so 10w/s is taken.

In formula (3), 5733 is a reference value of the water vapor partial pressure in the ambient air;

the air quality detection device detects the ambient temperature, the air relative humidity and the ambient wind speed of the environment, and the controller 101 acquires the detection data of the air quality detection device and displays the detection data on the display screen 103, so that a user can visually observe the ambient state including the ambient temperature, the air relative humidity, the ambient wind speed and the like of the environment;

in the above control steps, firstly, the controller 101 obtains the thermal resistance value of the clothes corresponding to the current month according to the current month obtained by the timing device, then, the controller 101 substitutes the obtained thermal resistance value of the clothes into formula (1) to calculate the ratio of the worn human body to the naked body surface area of the human body, the ratio of the worn human body to the naked body surface area of the human body is used as a criterion for judging the amount of the clothes worn by the human body, summer weather is hot, the clothes worn by people are less, when the temperature is lower, the clothes worn by people are more for keeping out the cold, and the amount of the clothes worn by people has influence on the feeling of the human body on the environmental temperature, so the ratio a of the worn human body to the naked body surface area is calculated as one of the judgment parameters of the human body feeling;

then, the controller 101 calculates the average temperature C of the outer surface of the human body, which is the somatosensory temperature T-T of the person currently in the room, according to the calculation result of the formula (1) by the formula (2)₀The difference between the current environmental temperature and the set target environmental temperature is recorded as the environmental temperature difference,

the ratio of the environmental temperature difference to the target environmental temperature is the deviation ratio of the current environmental temperature to the target environmental temperature, the larger the value is, the larger the environmental temperature difference is, the more external force is required to be accessed to intervene the current environment, so that the current environmental temperature is close to the target environmental temperature;

the convective heat exchange coefficient and the clothes thermal resistance of the worn clothes influence the sensible temperature, BZ is the influence parameter of the parameters on the sensible temperature (Z is the clothes thermal resistance value which is the influence coefficient of the quantity of the clothes worn by the human body on the environment temperature, B is the convective heat exchange coefficient corresponding to the current environment wind speed which is the influence coefficient of the environment wind speed on the environment temperature), and then the controller 101 calculates the work control evaluation parameter Q by combining the calculation results of the formulas (1) and (2);

in the formula (3), the first and second groups,

the ratio of the set target environment temperature to the average temperature of the outer surface of the human body is represented and used as a judgment parameter of the current temperature, and the larger the difference value is, the worse the human body feeling is;

the ratio of the difference value of the reference value of the water vapor partial pressure in the ambient air and the water vapor partial pressure in the current ambient air to the water vapor partial pressure in the ambient air at the target ambient temperature is used as an influence parameter of the water vapor partial pressure in the current ambient air on human body feeling;

the human body working power is dynamic real-time data, and the values are different according to walking, running and the like of the human body and are used as judgment standards of the current motion state of the human body.

Since each person has different requirements for the ambient temperature, and the temperature of the environment is different according to different requirements of the user, the threshold setting in the above steps can be set by the person according to the individual requirements of the user (the adjustment instruction is sent by the key 102, and the controller 101 modifies the threshold according to the adjustment instruction sent by the key 102), and the threshold is set to be 30 in the factory setting.

Assuming that, at this time, it is 7 months, the clothing thermal resistance value takes 1,

if the current environment temperature is 30 ℃, the current indoor environment wind speed is 0.1m/s, the body metabolism rate is 0.83W/s, the human body working rate is 10W/s, the set target environment temperature is 26 ℃, the ratio A of the surface area of the dressed human body to the surface area of the naked body of the human body is 1, and the convection heat exchange coefficient B of the current environment is 5W/(m/s)²DEG C), the partial pressure of the water vapor in the ambient air is 3700Pa, the average temperature C of the outer surface of the dressed human body is 34.9 ℃, the work control evaluation parameter Q is 60.67, the controller 101 controls the anion generator 2 and the humidifying device 3 of the humidifying anion household air purifier to start to work to humidify the room,meanwhile, the indoor air is purified, and the indoor temperature is reduced;

if the current environment temperature is 10 ℃, the current indoor environment wind speed is 0.1m/s, the body metabolism rate is 0.83W/s, the human body working rate is 10W/s, the set target environment temperature is 26 ℃, the ratio A of the surface area of the dressed human body to the surface area of the naked body of the human body is 1, and the convection heat exchange coefficient B of the current environment is 5W/(m/s)²And DEG C), the partial pressure of the water vapor in the ambient air is 1000Pa, the average temperature C of the outer surface of the dressed human body is 32.6 ℃, the work control evaluation parameter Q is 1.57, and the controller 101 controls the heating device to work to heat the room, so that the indoor temperature is increased.

In conclusion, the indoor environment can be adjusted according to the automatic start or stop of the indoor environment temperature, and the intelligent regulation and control effect is achieved.

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. Domestic air purifier of humidification anion, including host computer shell (1), its characterized in that: a controller (101), a negative ion generator (2) and a humidifying device (3) are arranged in the main machine shell (1); the controller (101) is respectively electrically connected with the negative ion generator (2) and the humidifying device (3), and the controller (101) is used for controlling the negative ion generator (2) and the humidifying device (3) to work.

2. The humidified negative ion home air cleaner as claimed in claim 1, wherein: still be equipped with control panel and air quality detection device on mainframe shell (1), control panel includes a plurality of button (102) and display screen (103), controller (101) respectively with a plurality of button (102), display screen (103), air quality detection device electric connection.

3. The humidified negative ion home air cleaner as claimed in claim 1, wherein: the humidifying device (3) comprises a first water tank (301), a first water filling port (303) is arranged at the top of the first water tank (301), a first water outlet (304) is arranged at the bottom of the first water tank (301), and the first water outlet (304) is communicated with the inside of a second water tank (302) through a first pipeline (4).

4. The humidified negative ion home air cleaner as claimed in claim 3, wherein: second water tank (302) still communicates the one end of fog passageway (305), be equipped with out the fog mouth on host computer shell (1), the other end of fog passageway (305) extends to go out fog mouth department, be equipped with agitating unit (306) in second water tank (302), agitating unit (306) with controller (101) electric connection.

5. The humidified negative ion home air cleaner as claimed in claim 4, wherein: still include the disinfection module, the disinfection module includes first disinfection unit and second disinfection unit, first disinfection unit be used for right go out fog passageway (305) disinfect, first disinfection unit is used for right water in second water tank (302) disinfects, first disinfection unit with second disinfection unit respectively with controller (101) electric connection.

6. The humidified negative ion home air cleaner as claimed in claim 5, wherein: the fog outlet channel (305) further comprises an air inlet channel (307), an air outlet channel (308) and an air pump (309), the air pump (309) is arranged between the air inlet channel (307) and the air outlet channel (308), an air outlet of the air outlet channel (308) is positioned between the second water tank (302) and the fog outlet channel (305), and the air pump (309) is electrically connected with the controller (101);

a filtering device (310) is arranged in the air inlet channel (307), and the filtering device (310) comprises an initial effect filtering layer, an HEPA filtering layer, a nano photocatalyst filtering layer, an ultraviolet lamp sterilizing layer, a negative ion dust removing layer and an ozone filtering layer which are sequentially arranged;

the bottom of the second water tank (302) is provided with an ultrasonic vibrator, and the ultrasonic vibrator is electrically connected with the controller (101).

7. The humidified negative ion home air cleaner as claimed in claim 2, wherein: the air quality detection device is used for monitoring the area temperature, the relative humidity and the particulate matter concentration in a detection range, and is electrically connected with the controller (101).

8. The humidified negative ion home air cleaner as claimed in claim 1, wherein: the negative ion generator (2) is arranged in the main machine shell (1) through a quick assembly and disassembly device (5);

the quick dismounting device (5) comprises a bottom plate (501), the bottom plate (501) is horizontally arranged in the main case (1), the middle position of the top of the bottom plate (501) is fixedly connected with one end of a supporting block (502), and the other end of the supporting block (502) is fixed at the bottom of a fixing plate (503);

the negative ion generator (2) is placed on the top surface of the fixed plate (503), and the position of the negative ion generator (2) is fixed on the fixed plate (503) through symmetrically arranged fixing devices;

the bottom of the fixing plate (503) is provided with a plurality of groups of buffer damping devices which are uniformly distributed relative to the supporting block (502);

a plurality of groups of auxiliary supporting devices which are uniformly distributed relative to the supporting blocks (502) are also arranged on the fixing plate (503);

the fixing device comprises a first bracket (512), a second adjusting rod (513), a clamping plate (514), a top plate (515), a third adjusting rod (516) and a pressing block (517);

the bottom of the clamping plate (514) is slidably connected to the upper surface of the fixing plate (503), a horizontally arranged top plate (515) is arranged on one side, close to the negative ion generator (2), of the top of the clamping plate (514), one side of the clamping plate (514) is used for supporting the negative ion generator (2), and the first support (512) arranged in the vertical direction is arranged on one side, far away from the negative ion generator (2), of the clamping plate (514);

the second adjusting rod (513) is arranged along the horizontal direction, and one end of the second adjusting rod (513) penetrates through the first bracket (512) and then is fixed on the clamping plate (514);

one end of the third adjusting rod (516) penetrates through the top plate (515) from top to bottom and then is fixedly connected with a pressing block (517);

the auxiliary supporting device comprises a second base (508), a second sleeve rod (510), a connecting block (511) and two first adjusting rods (509) symmetrically arranged about the second sleeve rod (510);

the connecting block (511) is arranged along the horizontal direction, one end of the connecting block (511) is fixed on the side surface of the fixing plate (503), the bottom of the connecting block (511) is fixedly connected with one end of the second loop bar (510), the other end of the second loop bar (510) extends into a connecting groove at the top of the second base (508), and the bottom of the second base (508) is fixed on the upper surface of the bottom plate (501);

one end of the first adjusting rod (509) penetrates through the side wall of the second base (508) and then abuts against the bottom of the second loop bar (510).

9. The humidified negative ion home air cleaner as claimed in claim 8, wherein: the buffering and damping device comprises a first base (504), a buffering spring (505), a first sleeve rod (506) and an anti-collision block (507);

one end of the first base (504) is fixed on the bottom plate (501), the other end of the first base (504) is provided with a buffer groove, and the bottom of the buffer groove is fixedly connected with the bottom end of the buffer spring (505);

one end of the anti-collision block (507) is fixed at the bottom of the fixing plate (503), the other end of the anti-collision block (507) is fixedly connected with one end of the first loop bar (506), and the other end of the first loop bar (506) is fixedly connected with the top end of the buffer spring (505).

10. The humidified negative ion home air cleaner as claimed in claim 1, wherein: the humidifying device (3) comprises a first water tank (301) and a second water tank (302);

a first mounting groove (601) is formed in the top of the second water tank (302), a leakage-proof device (6) is arranged in the first mounting groove (601), the leakage-proof device (6) comprises a connecting plate (605), and the connecting plate (605) is used for supporting the first water tank (301);

the first mounting groove (601) is internally provided with side plates (603) which are symmetrically arranged around the connecting plate (605), the side plates (603) are arranged along the vertical direction, the top of each side plate (603) is close to a plurality of first ball grooves on one side of the connecting plate (605), each first ball groove is internally and rotatably connected with a first ball (604), the part of each first ball (604) exposed out of the first ball groove is abutted against the side wall of the connecting plate (605), and the bottom of each side plate (603) is slidably connected in a second mounting groove (602) on the top of the second water tank (302);

the bottom of the connecting plate (605) is rotatably connected with one end of a push rod (607) through a connecting shaft (606), the other end of the push rod (607) penetrates through the bottom of the first mounting groove (601) and then extends into the second water tank (302), and one end of the push rod (607) extending into the second water tank (302) is fixedly connected with a blocking plug (608);

a guide rod (617) which is horizontally arranged is arranged in the first mounting groove (601);

the bottom of the connecting plate (605) is also provided with two auxiliary supporting rods (612) which are symmetrically distributed relative to the ejector rod (607), the bottoms of the auxiliary supporting rods (612) are connected to the guide rod (617) in a sliding manner, the top of each auxiliary supporting rod (612) is provided with a second ball groove, a second ball (613) is rotatably connected in the second ball groove, and the part of the second ball (613) exposed out of the second ball groove is abutted against the bottom of the connecting plate (605);

a first sliding block (610) is connected to the top rod (607) in a sliding manner, a first return spring (609) is further arranged between the first sliding block (610) and the bottom of the connecting plate (605), the first return spring (609) is sleeved on the top rod (607), a second return spring (618) is further arranged between the first sliding block (610) and the bottom of the first mounting groove (601), and the second return spring (618) is sleeved on the top rod (607);

one side of each auxiliary supporting rod (612) close to the top rod (607) is rotatably connected with a first connecting rod (611), and one end, far away from the auxiliary supporting rod (612), of the first connecting rod (611) is rotatably connected to the first sliding block (610);

one side, far away from the top rod (607), of each auxiliary support rod (612) is fixedly connected with a sliding frame (614), each sliding frame (614) is connected with a second sliding block (615) in a sliding mode, one end of a second connecting rod (616) is connected to the second sliding block (615) in a rotating mode, and the other end of the second connecting rod (616) is connected to the side plate (603) in a rotating mode;

one end of the first pipeline (4) is communicated with the inside of the second water tank (302), and the other end of the first pipeline (4) penetrates through the connecting plate (605) and then is used for being connected with the first water tank (301).