CN116499068A - Indoor intelligent air purifier based on information processing - Google Patents

Abstract

The invention relates to the technical field of air purification and discloses an indoor intelligent air purifier based on information processing, which comprises a box body, wherein a box cover is detachably arranged at the top of the box body, ventilation nets are arranged on the front surface and the back surface of the box body, a limit groove is further formed in the inner wall of the box body, a primary filter screen, a sterilizing mechanism and a sterilizing mechanism which are positioned in the limit groove and photocatalyst plates arranged on the front side and the rear side of the sterilizing mechanism are sequentially arranged in an inner cavity of the box body from front to rear, and a breaking control mechanism is further arranged on the outer wall of the box body; the gravity sensor is arranged, so that gravity change of a power grid is detected and intelligently identified, and the control module is used for controlling the lifting assembly and the decontamination assembly to be corresponding to each other, so that when the power grid is overweight, namely when the surface is excessively accumulated with dirt, the lifting assembly and the decontamination assembly are controlled to clean the surface of the power grid, and the low-energy operation of the power grid is maintained.

Description

Indoor intelligent air purifier based on information processing

Technical Field

The invention relates to the technical field of air purification, in particular to an indoor intelligent air purifier based on information processing.

Background

The indoor air purifier is a product capable of treating pollutants in air and effectively improving air quality, and is widely applied to offices, residential environments and the like.

The air purifier mainly comprises a motor, a fan, an air filter screen and an intelligent monitoring system, wherein a part of machines are provided with a water tank with a humidifying function, or auxiliary purifying devices such as a negative ion generator, a high-voltage circuit and the like, the air filter screen is a core component thereof, and other purifying devices actually play an auxiliary function, so that the quality of the air filter screen is the most critical factor for directly affecting the effect of the air purifier; the negative ion generator and the high-voltage circuit are generally used as auxiliary purifying functions, and mainly send out negative ions along with clean air, wherein the negative ions have the functions of calming, hypnotizing, relieving pain, stimulating appetite, lowering blood pressure and the like, and the air negative ions can reduce active oxygen (oxygen free radicals) generated by atmospheric pollutants, nitrogen oxides, cigarettes and the like and reduce the harm of excessive active oxygen to human bodies.

How to automatically control the start and stop of the auxiliary purifying device according to the quality of the indoor air quality, so as to realize that when the air quality is poor, the auxiliary purifying device is automatically controlled to start so as to improve the efficiency of air purification, and conversely, when the air quality is excellent, the auxiliary purifying device is automatically controlled to stop operation so as to reduce energy consumption and improve the economy of the purifier in use; in addition, as the negative ion generator generates a strong electric field around the power grid in the negative ion generator in the working process, the strong electric field breaks down the cell membrane of bacteria to realize sterilization, and part of broken bacterial residues can be adsorbed on the surface of the power grid, so that a residual layer is formed on the surface of the power grid, the resistance of the power grid in operation is increased, the energy consumption of the power grid in operation is further increased, and therefore, a cleaning mechanism is automatically controlled to clean the surface of the power grid according to the weight change of the surface of the power grid so as to maintain the low-energy operation of the power grid; these are problems we need to solve.

Therefore, a new indoor intelligent air purifier based on information processing is needed.

Disclosure of Invention

In order to overcome the defects in the prior art, the invention provides an indoor intelligent air purifier based on information processing, which solves the problems in the prior art.

The invention provides the following technical scheme: the utility model provides an indoor intelligent air purifier based on information processing, includes the box, the top demountable installation of box has the case lid, the front and the back of box all are provided with the ventilation net, still be provided with the spacing groove on the inner wall of box, the box has set gradually primary filter screen, sterilizing mechanism and the photocatalyst board of setting both sides around sterilizing mechanism in the spacing inslot from front to back in the inner chamber, still be provided with on the outer wall of box and break the accuse mechanism, break the accuse mechanism and carry out the electricity with sterilizing mechanism and sterilizing mechanism respectively and be connected;

the sterilization mechanism comprises a first frame body, a first electrifying seat, a conductive block, a power grid, an insulating block, a lifting assembly and a decontamination assembly, wherein the power grid consists of a plurality of metal mesh wires;

the lifting assembly comprises a screw rod, a driving wheel, a limiting block and a first waiting motor;

the dirt removing component comprises a dust collecting box, a connecting seat, a guide pipe, a dirt removing head, a hose and an air pump;

the disinfection mechanism is internally provided with a fan, the box body is internally provided with a biosensor, a gravity sensor and a control module, wherein the biosensor is used for detecting formaldehyde, PM2.5 and other air pollutants in indoor air, the gravity sensor is used for detecting the total weight of a power grid and dirt accumulated on the surface of the power grid along with the purification time, and the control module is used for receiving corresponding judgment signals output by the biosensor and the gravity sensor, further forming control instructions corresponding to an electric connection assembly, a lifting assembly and a dirt removal assembly, and executing corresponding control;

detecting the gravity of the power grid change through a gravity sensor, forming gravity information, comparing the gravity information with a preset gravity threshold, and outputting third judgment information if the gravity threshold is exceeded; if the gravity threshold is not exceeded, outputting fourth judgment information;

the control module receives the third judging information to control the lifting assembly and the decontamination assembly, controls the first waiting motor in the lifting assembly to drive, and controls the air pump to start; the output shaft of the first servo motor drives the screw rod connected with the first servo motor to spin along the surface of the driving wheel, meanwhile, the limiting blocks fixedly sleeved on the end parts of the screw rod rotate together, the two limiting blocks drive the two longitudinal screw rods to rotate synchronously through crawler transmission, and the output shaft of the first servo motor finally brings forward and backward bidirectional reciprocating spin of the screw rod, so that the dirt removing assembly sleeved on the surface of the screw rod through the connecting seat screw thread reciprocates up and down along the surface of the screw rod;

meanwhile, the dust collecting box is fixedly connected to one side of the connecting seat far away from the screw rod, the dust collecting box, the guide pipe and the cleaning head are sequentially connected, the cleaning head moves synchronously along with the up-and-down reciprocating movement, in the process that the cleaning head moves up and down along the surface of a net wire of a power grid, the dirt on the surface of the net wire is scraped loose by a dirt stripping end at the top of the cleaning head, the loose dirt is sucked and removed by a dust suction pipe at the bottom of the cleaning head under the suction of the air pump, and the air flow dirt is introduced from the cleaning head and sequentially passes through the guide pipe, the dust collecting box, the hose and the air pump, wherein the dirt is collected and stored at the dust collecting box, and the air flow is formed and circulated and conveyed into the inner cavity of the first frame body again;

and the control module receives the fourth judgment information, controls the lifting assembly and the decontamination assembly, and controls the first waiting motor and the air pump in the lifting assembly to be in a standby state.

Further, the first circular telegram seat is installed at the top of first framework, the output of first circular telegram seat carries out the electricity with the conducting block that is located first framework inner wall and is connected, be provided with the electric wire netting between the conducting block, fixed mounting is on first framework inner wall the insulating block sets up in the both sides of conducting block, wherein installs the lifting unit on the insulating block that is close to primary filter screen one side, and installs the ESP net on the insulating block that is kept away from primary filter screen one side, still be provided with the scrubbing subassembly that is used for clearing up electric wire netting surface dirt on the lifting unit.

Further, the driving wheel is fixedly arranged on the inner wall of the first frame body, the driving wheel is movably sleeved with the smooth end head of the screw rod, the surface of the end part of the screw rod is fixedly sleeved with the limiting block, the adjacent limiting blocks are in transmission connection through the crawler belt, and the tail end of the screw rod is fixedly sleeved with the output shaft of the first waiting motor.

Further, the connecting seat is in threaded sleeve connection on the surface of the screw rod, the dust collecting box is fixedly connected with the connecting seat, one side, far away from the connecting seat, of the dust collecting box is sequentially connected with the guide pipe and the trash cleaning head, the trash cleaning head is movably sleeved on the surface of the net wire of the power grid, the inner cavity of the dust collecting box is further connected with the input end of the air pump arranged on the outer top wall of the first frame body through a hose, and the output end of the air pump is also connected with the inner cavity of the first frame body through the hose again.

Further, the disinfection mechanism comprises a second frame body, a second electricity-conducting seat and an ultraviolet lamp, wherein the second electricity-conducting seat is arranged at the top of the outer wall of the second frame body, the ultraviolet lamp is arranged at the top of the inner cavity of the second frame body, and the output end of the second electricity-conducting seat is electrically connected with the input end of the ultraviolet lamp.

Further, the disconnection control mechanism comprises a plug, a socket, a wire, an electric connection assembly and an iron block, wherein the input end of the plug is electrically connected with the output end of the power supply through the wire, the socket arranged right above the plug is fixedly arranged on the outer wall of the box body, the output end of the socket is electrically connected with the first electric connection seat and the second electric connection seat through the wire, and the electric connection assembly is further arranged on the side wall of the plug.

Further, connect electric subassembly includes connecting block, pivot, gear, the second and wait for motor and protective housing, wherein connecting block fixed mounting is on the outer wall of plug, one side that the plug was kept away from to the connecting block is movably cup jointed with the pivot, the pivot runs through the axle center of gear and the second and waits for the output shaft of motor and fixedly cup joints, wherein the gear is fixed to be cup jointed on the surface of pivot, the second is waited for motor fixed mounting and is served on the inner wall of protective housing.

Further, the iron block and a side wall of the protective shell, which is close to the box body, are fixedly connected with the iron block, a magnetic groove matched with the iron block is formed in the outer wall body of the box body, and a tooth groove meshed with the gear is formed in the outer wall body of the box body.

Further, the magnetic attraction force between the iron block and the magnetic groove is larger than the gravity of the plug, the power receiving assembly and the iron block, and the transmission force of the gear along the tooth groove surface driven by the second waiting motor is larger than the magnetic attraction force between the iron block and the magnetic groove.

The invention has the technical effects and advantages that:

1. the invention is beneficial to detecting indoor air and intelligently identifying air quality through the biosensor, and outputting corresponding control instructions to the control module through judging the indoor air quality detection, and further receiving corresponding judging instructions through the control module to form corresponding control on the electric assembly, so that when the air quality is poor, the auxiliary purifying device is automatically controlled to be started to improve the air purifying efficiency, and conversely, when the air quality is superior, the auxiliary purifying device is automatically controlled to stop operating to reduce the energy consumption.

2. The gravity sensor is arranged, so that the gravity sensor is favorable for detecting the gravity of the power grid change and intelligently identifying the gravity change, the control module is used for outputting corresponding control instructions through the judgment of the gravity detection, the control module is used for receiving corresponding judgment instructions, and corresponding control of the lifting component and the decontamination component is respectively formed, so that when the power grid is overweight, the surface of the power grid is excessively polluted, the lifting component and the decontamination component are controlled to clean the surface of the power grid to maintain the low-energy consumption operation of the power grid, and after the cleaning is finished, the power grid is restored to the standard gravity, and at the moment, the lifting component and the decontamination component are automatically controlled to be in a standby state to stop cleaning work.

Drawings

Fig. 1 is a schematic diagram of the overall structure of the present invention.

FIG. 2 is a schematic view of the structure of the whole structure of the invention with the top cover removed and the assembly connected with the top cover removed.

Fig. 3 is a schematic view of a cross-section of a main body of a case and a connection assembly thereof according to one side of the present invention.

Fig. 4 is a schematic view of the cross-section structure of the main body of the case and the other side of the connecting assembly structure of the present invention.

Fig. 5 is a schematic diagram of the structure at a in the present invention.

Fig. 6 is a schematic structural view of the sterilization mechanism of the present invention.

Fig. 7 is a schematic diagram of the structure at B of the present invention.

Fig. 8 is a schematic diagram of the structure at C of the present invention.

Fig. 9 is a schematic structural view of a sterilizing mechanism according to the present invention.

Fig. 10 is a schematic flow chart of a control system for intelligent start-stop and automatic cleaning of a power grid in a powerful purification mode.

The reference numerals are: 1. a case; 101. a ventilation screen; 102. a limit groove; 2. a primary filter screen; 3. a sterilization mechanism; 301. a first frame; 302. a first power-on seat; 303. a conductive block; 304. a power grid; 305. an insulating block; 306. a lifting assembly; 3061. a screw rod; 3062. a driving wheel; 3063. a limiting block; 3064. a first waiting motor; 307. a decontamination assembly; 3071. a dust collection box; 3072. a connecting seat; 3073. a conduit; 3074. a cleaning head; 3075. a hose; 3076. an air pump; 308. an ESP network; 4. a sterilizing mechanism; 401. a second frame; 402. a second power-on seat; 403. an ultraviolet lamp; 5. a photocatalyst plate; 6. a breaking control mechanism; 601. a plug; 602. a socket; 603. a wire; 604. a power receiving assembly; 6041. a connecting block; 6042. a rotating shaft; 6043. a gear; 6044. a second waiting motor; 6045. a protective shell; 605. iron blocks; 606. a magnetic groove; 607. tooth slots; 7. a blower; 8. a biosensor; 9. a gravity sensor; 10. and a control module.

Detailed Description

The embodiments of the present invention will be clearly and completely described below with reference to the drawings in the present invention, and the configurations of the structures described in the following embodiments are merely examples, and the intelligent indoor air purifier based on information processing according to the present invention is not limited to the structures described in the following embodiments, and all other embodiments obtained by a person having ordinary skill in the art without making any creative effort are within the scope of protection of the present invention.

Referring to fig. 1-10, the invention provides an indoor intelligent air purifier based on information processing, which comprises a box body 1, wherein a box cover is detachably arranged at the top of the box body 1, ventilation nets 101 are arranged on the front and the back of the box body 1, a limit groove 102 is further formed in the inner wall of the box body 1, a primary filter screen 2, a sterilization mechanism 3, a sterilization mechanism 4 and photocatalyst plates 5 arranged on the front side and the rear side of the sterilization mechanism 4 are sequentially arranged in an inner cavity of the box body 1 from front to rear, a breaking control mechanism 6 is further arranged on the outer wall of the box body 1, and the breaking control mechanism 6 is respectively and electrically connected with the sterilization mechanism 3 and the sterilization mechanism 4;

the inside of the disinfection mechanism 4 is provided with a fan 7, the inside of the box body 1 is also provided with a biosensor 8, a gravity sensor 9 and a control module 10, wherein the biosensor 8 is used for detecting formaldehyde, PM2.5 and other air pollutants in indoor air, the gravity sensor 9 is used for detecting the total gravity of the power grid 304 and the accumulated filth on the surface of the power grid 304 along with the purification time, and the control module 10 is used for receiving corresponding judging signals output by the biosensor 8 and the gravity sensor 9, so as to form control instructions corresponding to the electric docking assembly 604, the lifting assembly 306 and the decontamination assembly 307, and execute corresponding control.

In this embodiment, it is to be specifically explained that the fan 7 is the most core of the air purifier and is an indispensable accessory, and the main function is to control the air to circulate, and the air with pollutants is sucked and filtered and then the clean air is blown out, and the composition structure, the connection structure and the control method are all conventional technical means in the field, so that specific details are not made in this implementation;

after the box cover at the top of the box body 1 is opened, the primary filter screen 2, the sterilizing mechanism 3, the sterilizing mechanism 4 and the photocatalyst plates 5 arranged at the front side and the rear side of the sterilizing mechanism 4 can be pulled upwards along the surface of the limit groove 102 arranged on the inner wall of the box body 1 to be pulled out of the inner cavity of the box body 1, and the primary filter screen 2, the sterilizing mechanism 3, the sterilizing mechanism 4 and the photocatalyst plates 5 are replaced by manpower;

the photocatalyst plate 5 is made of titanium dioxide.

Referring to fig. 2, fig. 4 and fig. 5, the breaking control mechanism 6 includes a plug 601, a socket 602, a wire 603, a power connection assembly 604 and an iron block 605, wherein an input end of the plug 601 is electrically connected with an output end of a power supply through the wire 603, the socket 602 arranged right above the plug 601 is fixedly installed on an outer wall of the box body 1, an output end of the socket 602 is also electrically connected with the first power connection seat 302 and the second power connection seat 402 through the wire 603, and the power connection assembly 604 is also installed on a side wall of the plug 601;

the power connection assembly 604 comprises a connecting block 6041, a rotating shaft 6042, a gear 6043, a second waiting motor 6044 and a protective shell 6045, wherein the connecting block 6041 is fixedly arranged on the outer wall of the plug 601, one side, far away from the plug 601, of the connecting block 6041 is movably sleeved with the rotating shaft 6042, the rotating shaft 6042 penetrates through the axis of the gear 6043 to be fixedly sleeved with the output shaft of the second waiting motor 6044, the gear 6043 is fixedly sleeved on the surface of the rotating shaft 6042, and the second waiting motor 6044 is fixedly arranged on the inner wall of the protective shell 6045;

iron plate 605 and protective housing 6045 are close to the equal fixedly connected with iron plate 605 of a side wall of box 1, and offer on the outer wall body of box 1 with iron plate 605 looks adaptation magnetism groove 606, still offered on the outer wall body of box 1 with gear 6043 intermeshing's tooth groove 607.

In this embodiment, it is to be specifically described that the connection block 6041, the rotation shaft 6042, the gear 6043 and the second waiting motor 6044 are wrapped in the protection shell 6045, so as to separate the transmission parts from the outside, prevent the user from touching the transmission parts and being damaged, and protect the transmission parts;

the magnetic attraction force between the iron block 605 and the magnetic slot 606 is greater than the gravity of the plug 601, the power receiving component 604 and the iron block 605, and the driving force of the gear 6043 along the surface of the tooth slot 607 driven by the second power receiving motor 6044 is greater than the magnetic attraction force between the iron block 605 and the magnetic slot 606, so that the plug 601, the power receiving component 604 and the iron block 605 can move along the surface of the magnetic slot 606 and the tooth slot 607 only when the second power receiving motor 6044 is driven.

Referring to fig. 6-8, the sterilization mechanism 3 comprises a first frame 301, a first power-on seat 302, a conductive block 303, a power grid 304, an insulating block 305, a lifting component 306 and a decontamination component 307, wherein the first power-on seat 302 is installed at the top of the first frame 301, the output end of the first power-on seat 302 is electrically connected with the conductive block 303 positioned on the inner wall of the first frame 301, the power grid 304 is arranged between the conductive blocks 303, the power grid 304 consists of a plurality of metal mesh wires, the insulating blocks 305 fixedly installed on the inner wall of the first frame 301 are arranged on two sides of the conductive block 303, the lifting component 306 is installed on the insulating block 305 close to one side of the primary filter screen 2, the ESP network 308 is installed on the insulating block 305 far away from one side of the primary filter screen 2, and the decontamination component 307 for cleaning the surface dirt of the power grid 304 is also arranged on the lifting component 306;

the lifting assembly 306 comprises a screw rod 3061, a driving wheel 3062, a limiting block 3063 and a first waiting motor 3064, wherein the driving wheel 3062 is fixedly arranged on the inner wall of the first frame 301, the driving wheel 3062 is movably sleeved with a smooth end of the screw rod 3061, the surface of the end part of the screw rod 3061 is fixedly sleeved with the limiting block 3063, adjacent limiting blocks 3063 are in transmission connection through a crawler, and the tail end of the screw rod 3061 is fixedly sleeved with an output shaft of the first waiting motor 3064;

the decontamination assembly 307 comprises a dust collection box 3071, a connecting seat 3072, a guide pipe 3073, a decontamination head 3074, a hose 3075 and an air pump 3076, wherein the connecting seat 3072 is in threaded sleeve connection with the surface of a screw rod 3061, the dust collection box 3071 is fixedly connected with the connecting seat 3072, one side, far away from the connecting seat 3072, of the dust collection box 3071 is sequentially connected with the guide pipe 3073 and the decontamination head 3074, the decontamination head 3074 is movably sleeved on the surface of a net wire of the electric network 304, the inner cavity of the dust collection box 3071 is further connected with the input end of the air pump 3076 arranged on the outer top wall of the first frame 301 through the hose 3075, and the output end of the air pump 3076 is also connected with the inner cavity of the first frame 301 again through the hose 3075.

In this embodiment, it should be specifically described that when the power grid 304 is energized, it generates a strong electric field to bring the particles in the air to an electric ion, and under the action of the strong electric field, the particles will adhere to the surface of the ESP network 308, so as to realize the separation of the particles from the air;

the top of the dust box 3071 is movably provided with a top cover, and a filter screen is arranged at the joint of the dust box 3071 and the hose 3075, so that the dirt is collected in the inner cavity of the dust box 3071.

Referring to fig. 9, the disinfection mechanism 4 includes a second frame 401, a second power-on seat 402 and an ultraviolet lamp 403, wherein the top of the outer wall of the second frame 401 is provided with the second power-on seat 402, the ultraviolet lamp 403 is installed at the top of the inner cavity of the second frame 401, and the output end of the second power-on seat 402 is electrically connected with the input end of the ultraviolet lamp 403.

The control steps of the intelligent start-stop of the powerful purification mode and automatic cleaning of the power grid 304 are as follows:

intelligent start-stop process of strong-efficiency purification mode: detecting the indoor air quality condition through the biosensor 8, forming air quality information, comparing the air quality information with a preset standard air quality, and outputting first judgment information if the air quality exceeds the standard air quality; if the standard air quality is not exceeded, outputting second judgment information;

the control module 10 receives the first judging information and forms control on the power connection assembly 604, the second power connection motor 6044 in the power connection assembly 604 is controlled to drive, and then the output shaft of the second power connection motor 6044 drives the rotating shaft 6042 connected with the second power connection motor 6044 to spin along the axis of the connecting block 6041, the rotating shaft 6042 drives the gear 6043 sleeved on the surface of the rotating shaft to coaxially rotate, and then the gear 6043 drives upwards along the surface of the tooth socket 607 meshed with the gear 6043, so that the power connection assembly 604 and the plug 601 move upwards together along the inner wall of the magnetic groove 606 by virtue of the iron blocks 605 connected at the bottoms of the power connection assembly and the plug 601 until the output end of the plug 601 is spliced in the input end of the socket 602, and the electric connection between the plug 601 and the socket 602 is completed;

after the electric connection of the plug 601 and the socket 602 is paired, the current output by the power supply is transmitted to the plug 601 connected with the plug through the wire 603, then transmitted to the socket 602 connected with the plug through the plug 601, and then transmitted to the first power-on seat 302 and the second power-on seat 402 through the socket 602 and the wire 603 connected with the socket 602; the first electrifying seat 302 transmits the received current to the conductive blocks 303, and the power grid 304 connected between the two conductive blocks 303 is electrified to generate a strong electric field, and the strong electric field breaks through cell membranes of bacteria to destroy cell tissues and kill bacteria; the second electricity-passing seat 402 transmits the received current to the ultraviolet lamp 403, the ultraviolet lamp 403 is turned on and ultraviolet irradiation is performed on the surfaces of the photocatalyst plates 5 positioned at two sides of the disinfection mechanism 4, when the titanium dioxide is irradiated by ultraviolet rays, electrons and holes are released from the surfaces of the photocatalyst plates, and electrons with negative electricity are combined with holes with positive electricity to generate free radicals, so that the free radicals have strong oxidizing capacity, and harmful microorganisms such as bacteria and viruses are decomposed or converted into harmless substances, so that the disinfection process is performed;

the control module 10 receives the second judging information and also forms control on the power receiving assembly 604, and controls the second waiting motor 6044 in the power receiving assembly 604 to drive reversely, so that the power receiving assembly 604 and the plug 601 move downwards along the inner wall of the magnetic groove 606 together by virtue of the iron blocks 605 connected at the bottoms of the power receiving assembly 604 until the output end of the plug 601 is gradually separated from the input end of the socket 602 and finally moves to the lowest ends of the magnetic groove 606 and the tooth grooves 607 to reset so as to block the electric connection of the plug 601 and the socket 602, and then current cannot be transmitted to the power grid 304 and the ultraviolet lamp 403, and the power grid 304 and the ultraviolet lamp 403 do not work;

process of automatic cleaning of grid 304: detecting the gravity changed by the power grid 304 through the gravity sensor 9, forming gravity information, comparing the gravity information with a preset gravity threshold, and outputting third judging information if the gravity threshold is exceeded; if the gravity threshold is not exceeded, outputting fourth judgment information;

receiving the third determination information through the control module 10, forming control over the lifting assembly 306 and the decontamination assembly 307, controlling the first waiting motor 3064 in the lifting assembly 306 to drive, and simultaneously controlling the air pump 3076 to start; the output shaft of the first servo motor 3064 drives the screw rod 3061 connected with the first servo motor 3064 to spin along the surface of the driving wheel 3062, meanwhile, the limiting blocks 3063 fixedly sleeved at the end parts of the screw rod 3061 rotate together, the two limiting blocks 3063 drive the two longitudinal screw rods 3061 to rotate synchronously through crawler transmission, and the output shaft of the first servo motor 3064 finally carries forward and backward bidirectional reciprocating spin of the screw rod 3061, so that the dirt removing assembly 307 sleeved on the surface of the screw rod 3061 through the threads of the connecting seat 3072 moves up and down along the surface of the screw rod 3061;

meanwhile, the dust collecting box 3071 fixedly connected to one side of the connecting seat 3072, far from the screw rod 3061, and the dust collecting box 3071, the guide pipe 3073 and the cleaning head 3074 are sequentially connected, the cleaning head 3074 moves synchronously along with the up-and-down reciprocating movement, in the process that the cleaning head 3074 moves up-and-down along the mesh surface of the power grid 304, the dust smoothing end at the top of the cleaning head 3074 scrapes the dirt on the mesh surface, further under the suction of the air pump 3076, the dust suction pipe at the bottom of the cleaning head 3074 sucks the loosened dirt, and the air flow is mixed with the dirt and enters from the cleaning head 3074 and sequentially passes through the guide pipe 3073, the dust collecting box 3071, the hose 3075 and the air pump 3076, wherein the dirt is collected and stored at the position of the dust collecting box 3071, and the air flow is circularly conveyed into the inner cavity of the first frame 301 again;

receiving the fourth determination information by the control module 10, control of the lift assembly 306 and the decontamination assembly 307 is also provided, controlling the first servo motor 3064 and the air pump 3076 in the lift assembly 306 to be in a standby state.

While the invention has been described with respect to one preferred embodiment, the scope of the invention is not limited thereto, and any person skilled in the art will be able to practice the invention; equivalent substitutions or modifications are made according to the technical plan of the present invention and its modified idea, which should be included under the protection of the present invention.

Claims (9)

1. The utility model provides an indoor intelligent air purifier based on information processing, includes box (1), the top demountable installation of box (1) has the case lid, the front and the back of box (1) all are provided with ventilation net (101), still be provided with spacing groove (102), its characterized in that on the inner wall of box (1): the novel sterilizing device is characterized in that a primary filter screen (2), a sterilizing mechanism (3), a sterilizing mechanism (4) and photocatalyst plates (5) arranged on the front side and the rear side of the sterilizing mechanism (4) are sequentially arranged in an inner cavity of the box body (1) from front to back, a breaking control mechanism (6) is further arranged on the outer wall of the box body (1), and the breaking control mechanism (6) is respectively electrically connected with the sterilizing mechanism (3) and the sterilizing mechanism (4);

the sterilization mechanism (3) comprises a first frame body (301), a first power-on seat (302), a conductive block (303), a power grid (304), an insulating block (305), a lifting assembly (306) and a decontamination assembly (307), wherein the power grid (304) consists of a plurality of metal mesh wires;

the lifting assembly (306) comprises a screw rod (3061), a driving wheel (3062), a limiting block (3063) and a first waiting motor (3064);

the decontamination assembly (307) comprises a dust collection box (3071), a connecting seat (3072), a conduit (3073), a decontamination head (3074), a hose (3075) and an air pump (3076);

the disinfection mechanism (4) is internally provided with a fan (7), the box body (1) is internally provided with a biosensor (8), a gravity sensor (9) and a control module (10), wherein the biosensor (8) is used for detecting formaldehyde, PM2.5 and other air pollutants in indoor air, the gravity sensor (9) is used for detecting the total weight of the power grid (304) and the pollutant accumulated on the surface of the power grid (304) along with the purification time, and the control module (10) is used for receiving corresponding judging signals output by the biosensor (8) and the gravity sensor (9) so as to further form control instructions corresponding to the butt joint electric component (604), the lifting component (306) and the pollutant removal component (307) and execute corresponding control;

detecting the gravity of the change of the power grid (304) through a gravity sensor (9) and forming gravity information, comparing the gravity information with a preset gravity threshold value, and outputting third judging information if the gravity threshold value is exceeded; if the gravity threshold is not exceeded, outputting fourth judgment information;

receiving third judgment information through the control module (10), forming control on the lifting assembly (306) and the decontamination assembly (307), controlling the first waiting motor (3064) in the lifting assembly (306) to drive, and simultaneously controlling the air pump (3076) to start; the output shaft of the first servo motor (3064) drives a screw rod (3061) connected with the first servo motor to spin along the surface of a driving wheel (3062), meanwhile, limiting blocks (3063) fixedly sleeved at the end parts of the screw rod (3061) rotate together, the two limiting blocks (3063) drive two longitudinal screw rods (3061) to rotate synchronously through crawler transmission, and the output shaft of the first servo motor (3064) finally brings forward and backward bidirectional reciprocating spin of the screw rod (3061) due to forward and backward bidirectional reciprocating rotation of the output shaft of the first servo motor, so that a decontamination component (307) sleeved on the surface of the screw rod (3061) through a connecting seat (3072) in a threaded mode moves up and down along the surface of the screw rod (3061);

meanwhile, the dust collecting box (3071) is fixedly connected to one side, far away from the screw rod (3061), of the connecting seat (3072), the dust collecting box (3071), the guide pipe (3073) and the cleaning head (3074) are sequentially connected, the cleaning head (3074) moves synchronously along with the up-and-down reciprocating movement, in the process that the cleaning head (3074) moves up and down along the surface of a net wire of the power grid (304), the dust stripping end at the top of the cleaning head (3074) scrapes off the dirt on the surface of the net wire, further under the suction of the air pump (3076), a dust collecting pipe at the bottom of the cleaning head (3074) sucks the loosened dirt, and air flow is mixed with the dirt and enters from the cleaning head (3074) and sequentially passes through the guide pipe (3073), the dust collecting box (3071), the hose (3075) and the air pump (3076), wherein the dirt is collected and stored at the dust collecting box (3071), and the air flow forms circulation and is conveyed into the inner cavity of the first frame body (301) again;

the control module (10) receives the fourth judgment information, controls the lifting assembly (306) and the decontamination assembly (307) as well, and controls the first waiting motor (3064) and the air pump (3076) in the lifting assembly (306) to be in a standby state.

2. An intelligent indoor air purifier based on information processing according to claim 1, wherein: the utility model discloses a clean water filter, including first framework (301), electric power grid (304), lifting component (306) are installed on insulating block (305) that are close to primary filter screen (2) one side, and install ESP net (308) on insulating block (305) that keep away from primary filter screen (2) one side, lifting component (306) are last still to be provided with on the insulating block (306) and are used for clearing up dirt subassembly (307) of electric wire netting (304) surface dirt, first energization seat (302) are installed at the top of first framework (301), the output of first energization seat (302) carries out the electricity with electric conduction block (303) that are located first framework (301) inner wall, be provided with electric wire netting (304) between electric conduction block (303).

3. An intelligent indoor air purifier based on information processing according to claim 1, wherein: the transmission wheel (3062) is fixedly arranged on the inner wall of the first frame body (301), the transmission wheel (3062) is movably sleeved with the smooth end head of the screw rod (3061), the surface of the end part of the screw rod (3061) is fixedly sleeved with the limiting block (3063), the adjacent limiting blocks (3063) are in transmission connection through the crawler belt, and the tail end of the screw rod (3061) is fixedly sleeved with the output shaft of the first servo motor (3064).

4. An intelligent indoor air purifier based on information processing according to claim 1, wherein: the utility model discloses a dust collection device, including connecting seat (3072), dust collection box (3071), connecting seat (3072) are connected in proper order, dust collection box (3071) carries out fixed connection with connecting seat (3072), one side that connecting seat (3072) was kept away from to dust collection box (3071) has connected gradually pipe (3073) and trash cleaning head (3074), wherein trash cleaning head (3074) activity cup joints the net silk surface at electric wire netting (304), the inner chamber of dust collection box (3071) still is connected through hose (3075) with the input of air pump (3076) that sets up on the outer roof of first framework (301), and the output of air pump (3076) is connected again through hose (3075) and the inner chamber of first framework (301) equally.

5. An intelligent indoor air purifier based on information processing according to claim 1, wherein: the disinfection mechanism (4) comprises a second frame body (401), a second electricity-passing seat (402) and an ultraviolet lamp (403), wherein the top of the outer wall of the second frame body (401) is provided with the second electricity-passing seat (402), the ultraviolet lamp (403) is installed at the top of the inner cavity of the second frame body (401), and the output end of the second electricity-passing seat (402) is electrically connected with the input end of the ultraviolet lamp (403).

6. An intelligent indoor air purifier based on information processing according to claim 1, wherein: the power-off control mechanism (6) comprises a plug (601), a socket (602), a wire (603), a power-on assembly (604) and an iron block (605), wherein the input end of the plug (601) is electrically connected with the output end of a power supply through the wire (603), the socket (602) arranged right above the plug (601) is fixedly arranged on the outer wall of the box body (1), the output end of the socket (602) is electrically connected with the first power-on seat (302) and the second power-on seat (402) through the wire (603) respectively, and the power-on assembly (604) is further arranged on the side wall of the plug (601).

7. An intelligent indoor air purifier based on information processing as defined in claim 6, wherein: connect electric subassembly (604) including connecting block (6041), pivot (6042), gear (6043), second wait for motor (6044) and protective housing (6045), wherein connecting block (6041) fixed mounting is on the outer wall of plug (601), one side that plug (601) was kept away from to connecting block (6041) is cup jointed with pivot (6042) activity, pivot (6042) runs through the axle center of gear (6043) and the output shaft of motor (6044) is looked after to the second is fixed cup joint, wherein gear (6043) is fixed to be cup jointed on the surface of pivot (6042), second wait for motor (6044) fixed mounting is on the inner wall of protective housing (6045).

8. An intelligent indoor air purifier based on information processing as defined in claim 7, wherein: iron plate (605) and protective housing (6045) are close to the equal fixedly connected with iron plate (605) of a side wall of box (1), and offer on the outer wall body of box (1) with iron plate (605) looks adaptation magnetic groove (606), still offered on the outer wall body of box (1) with tooth's socket (607) of gear (6043) intermeshing.

9. An intelligent indoor air purifier based on information processing as defined in claim 8, wherein: the magnetic attraction force between the iron block (605) and the magnetic groove (606) is larger than the gravity of the plug (601), the power receiving assembly (604) and the iron block (605), and the transmission force of the gear (6043) driven by the second servo motor (6044) along the surface of the tooth groove (607) is larger than the magnetic attraction force between the iron block (605) and the magnetic groove (606).