CN109945344A - A kind of pure nano-negative ion air cleaning unit of intelligence - Google Patents
A kind of pure nano-negative ion air cleaning unit of intelligence Download PDFInfo
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- CN109945344A CN109945344A CN201910211535.6A CN201910211535A CN109945344A CN 109945344 A CN109945344 A CN 109945344A CN 201910211535 A CN201910211535 A CN 201910211535A CN 109945344 A CN109945344 A CN 109945344A
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Abstract
The invention discloses a kind of pure nano-negative ion air cleaning units of intelligence, it can solve traditional nanometer air-purifier when in use, be inconvenient to dismantle and clean first, secondly, intelligence degree is inadequate, although existing nanometer air-purifier also has the function of needing to be automatically reminded to when cleaning to its inside, but does not have and which can partially need to clean specific to its inside, and cleaning also needs to its inside comprehensively to be cleaned device integral demounting, and it is extremely troublesome.Exhaust outlet including cabinet and on one end side wall, the air inlet on its other end side wall, the cabinet is successively spliced by eight air inlet layer, blower layer, macromolecular filter layer, deodorizing layer, adhesive layer, small molecule filter layer, outer layer and exhaust level layers, and the air inlet layer, macromolecular filter layer, deodorizing layer, adhesive layer, is provided with perforation at four edge corner of small molecule filter layer, outer layer and exhaust level at blower layer.
Description
Technical field
The present invention relates to a kind of air cleaning units, and in particular to a kind of pure nano-negative ion air cleaning unit of intelligence.
Background technique
Nanometer air cleaning be generated by multi-catalytic oxidation reaction a large amount of hydroxy radicals, a certain amount of negative oxygen ion and
The oxidative ionics such as micro ozone kill bacterium and microorganism by oxidation, and decompose harmful organic gas, and device must have
There is the photon fluorescent tube that can issue two kinds of different-waveband ultraviolet lights of UVC and UVD respectively.
But there are still certain defects when in use for existing nanometer air-purifier, be inconvenient to dismantle first and
Cleaning, secondly, intelligence degree is inadequate, needs to clean its inside although existing nanometer air-purifier also has
When the function that is automatically reminded to, but do not have and which can partially need to clean specific to its inside, and cleaning also needs
Device integral demounting comprehensively cleans its inside, it is extremely troublesome.
Summary of the invention
The purpose of the present invention is to provide a kind of pure nano-negative ion air cleaning units of intelligence, can solve traditional receive
Rice air cleaning unit when in use, is inconvenient to dismantle and clean, secondly, intelligence degree is inadequate, although existing first
Nanometer air-purifier also has the function of needing to be automatically reminded to when cleaning to its inside, but does not have and can have
Body to its it is internal which partially need to clean, and cleaning also need to come device integral demounting to carry out its inside it is comprehensive clear
It is clean, it is extremely troublesome.
The purpose of the present invention can be achieved through the following technical solutions:
A kind of pure nano-negative ion air cleaning unit of intelligence, the exhaust including cabinet and on one end side wall
Mouthful, the air inlet on its other end side wall, the cabinet is by air inlet layer, blower layer, macromolecular filter layer, deodorizing layer, attached
Eight layer, small molecule filter layer, outer layer and exhaust level layers be successively spliced, the air inlet layer, blower layer, macromolecular mistake
Filtering layer, adhesive layer, is provided with perforation at four edge corner of small molecule filter layer, outer layer and exhaust level at deodorizing layer, and it is described into
Lead between gas-bearing formation, blower layer, macromolecular filter layer, deodorizing layer, adhesive layer, small molecule filter layer, outer layer and exhaust level
It crosses the bar worn and connect in perforated inner to be fixedly connected, the air inlet is located in the middle part of air inlet layer side wall, peace inside the blower layer
It is used for the blower of air inlet there are two filling, filtering grid, installation inside the deodorizing layer are installed inside the macromolecular filter layer
There is several nanometer of UV UV photons lamp, first nanometer of rack, the small molecule filter layer are installed inside the adhesive layer
Inside is equipped with second nanometer of rack, and the outer layer is internally provided with mounting rack, and several are equipped with inside the mounting rack can
The active carbon stick of disassembly, exhaust level side wall middle position are provided with exhaust outlet;
It is provided with side channel on the adhesive layer, small molecule filter layer and macromolecular filter layer side wall, the adhesive layer,
Small molecule filter layer and macromolecular filter layer are provided with sliding slot on the inner wall of two sides up and down, inside the underlying sliding slot
Weight sensor is installed, is mounted in the middle part of the adhesive layer, small molecule filter layer and macromolecular filter layer side inner wall
Controller, the controller is mounted on air pump in two sides up and down, a Pneumatic extension bar is connected on the air pump side wall, described
Pneumatic extension bar is mounted on inside bar slot, and the bar slot position is on the inside of adhesive layer, small molecule filter layer and macromolecular filter layer
On wall, Pneumatic extension bar one end inside the adhesive layer is connected with first nanometer of rack side wall, is located at described small point
Pneumatic extension bar one end inside sub- filter layer is connected with second nanometer of rack side wall, is located inside the macromolecular filter layer
Pneumatic extension bar one end be connected with filtering grid side wall;
Several equally distributed net circles are provided on first nanometer of rack and second nanometer of rack side wall, each
It is provided with the collecting tank being located on rack side wall below net circle described in a lateral row, first nanometer of rack and the
Groove is provided at the top of two nanometers of racks and filtering grid, in bottom outer wall, the inside grooves slide pearl embedded with several.
Preferably, to be provided with a circle on first nanometer of rack and second nanometer of rack and filtering grid side wall close
Packing, and first nanometer of rack is adapted after installing gasket with side channel with second nanometer of rack and filtering grid side wall.
Preferably, the air inlet layer, blower layer, macromolecular filter layer, deodorizing layer, adhesive layer, small molecule filter layer, outer layer
And the cabinet of sealing is spliced between eight layers of exhaust level by four bars.
Preferably, pass through conducting wire wired connection between the controller and weight sensor and two air pumps.
Preferably, first nanometer of rack passes through corresponding two pneumatically with second nanometer of rack and filtering grid
Be slidably connected between telescopic rod and side channel, and the glide direction of first nanometer of rack and second nanometer of rack and filtering grid with
Sliding slot direction is identical.
Preferably, several equally distributed cyclic structures are provided on the mounting rack, active carbon stick fixed placement exists
In cyclic annular each cyclic structure.
Preferably, handle is provided on first nanometer of rack and second nanometer of rack and filtering grid side wall.
Preferably, the nanometer UV UV photons lamp includes the photon lamp of two kinds of different-waveband ultraviolet lights of UVC and UVD
Pipe.
Preferably, the application method of this kind of air cleaning unit, specific steps are as follows:
Step 1: air is sucked cabinet inside from air inlet by the blower of starter, two air inlets, and air is first
By macromolecular filter layer, by its internal filtering grid primary filtration;
Step 2: subsequent air passes through deodorizing layer, issues UVC and UVD using its internal nanometer UV UV photons lamp
Two kinds of different-waveband ultraviolet beams, high energy high ozone UV ultraviolet beam decompose the oxygen molecule in air and generate anion, i.e.,
Active oxygen, so need to be in conjunction with oxygen molecule because of the taken positron-electron imbalance of anion, and then generates ozone, using ozone to gas
The deodorization of body;
Step 3: subsequent gas successively passes through adhesive layer, small molecule filter layer, utilizes the first nano net inside adhesive layer
Second nanometer of rack inside frame and small molecule filter layer is filtered and adheres to the particulate matter in air, subsequent gas warp
Outer layer is crossed, is discharged after its internal active carbon stick processing from exhaust outlet;
Step 4: when device needs to clean, corresponding filtering grid, first nanometer of rack, second nanometer of rack bottom
The respective weight of weight sensor real-time detection, when filtering grid, first nanometer of rack, second nanometer of rack one of those or
It is multiple because of long-time using the particulate matters such as excessive dust are attached with inside it when, weight sensor is detected and is sent data to
Corresponding controller, can control corresponding two air pumps by corresponding controller and start, and drive Pneumatic extension using air pump
Bar elongation by filtering grid, first nanometer of rack, second nanometer of rack one or more eject from side channel, then by making
User can be cleaned using handle taking-up.
Beneficial effects of the present invention: air is preliminary by its internal filtering grid when by inside macromolecular filter layer
Filtering, subsequent air pass through deodorizing layer, issue UVC and two kinds of UVD different waves using its internal nanometer UV UV photons lamp
Section ultraviolet beam, high energy high ozone UV ultraviolet beam decomposes the oxygen molecule in air and generates anion, i.e. active oxygen, because negative
The taken positron-electron of ion is uneven so need to be with oxygen molecule ining conjunction with, and then generates ozone, it is known that Pre-Ozonation on Organic Matter has
There is extremely strong oxidation, so as to play the deodorization to gas, subsequent gas successively passes through adhesive layer, small molecule mistake
Filtering layer, using first nanometer of rack inside adhesive layer and second nanometer of rack inside small molecule filter layer in air
Particulate matter is filtered and adheres to, and the deodorization and filtering inside device are all made of nano molecular technology and purify to air,
Clean-up effect is more preferably while also more environmentally-friendly.
Due to being mounted on one in the middle part of adhesive layer, small molecule filter layer and macromolecular filter layer side inner wall individually
Controller, each controller has corresponding two air pumps of line traffic control by conducting wire, and is located at the Pneumatic extension inside adhesive layer
Bar one end is connected with first nanometer of rack side wall, Pneumatic extension bar one end inside small molecule filter layer with second nanometer
Rack side wall is connected, and Pneumatic extension bar one end inside macromolecular filter layer is connected with filtering grid side wall, and
It is mounted on weight sensor inside the sliding slot in adhesive layer, small molecule filter layer and macromolecular filter layer bottom interior wall,
Same wired connection between weight sensor and controller simultaneously, so that when device needs to clean, corresponding filtering grid, the
One nanometer of rack, second nanometer of rack bottom the respective weight of weight sensor real-time detection, when filtering grid, first nanometer
Rack, second nanometer of rack one or more because of long-time using the particulate matters such as excessive dust are attached with inside it when,
Weight sensor detects and sends data to corresponding controller, can control corresponding two by corresponding controller
Air pump starting is extended filtering grid, first nanometer of rack, second nanometer of rack wherein using air pump driving Pneumatic extension bar
It is one or more ejected from side channel, then by user using handle taking-up, thus not only more convenient cleaning, Er Qieneng
It enough explicitly points out and needs clean position inside device, more intelligently.
Detailed description of the invention
In order to facilitate the understanding of those skilled in the art, the present invention will be further described below with reference to the drawings.
Fig. 1 is overall structure of the present invention;
Fig. 2 is top view of the present invention;
Fig. 3 is explosive view of the present invention;
Fig. 4 is present invention attachment schematic diagram of a layer structure;
Fig. 5 is first nanometer of rack structural schematic diagram of the invention;
Fig. 6 is adhesive layer schematic diagram of internal structure of the present invention;
In figure: 1, cabinet;2, exhaust outlet;3, bar;4, exhaust level;5, outer layer;6, small molecule filter layer;7, adhesive layer;
8, deodorizing layer;9, macromolecular filter layer;10, blower layer;11, air inlet layer;12, it perforates;13, air inlet;14, blower;15, it filters
Grid;16, nanometer UV UV photons lamp;17, first nanometer of rack;18, second nanometer of rack;19, mounting rack;20, active
Carbon rod;21, net circle;22, collecting tank;23, handle;24, groove;25, sliding pearl;26, gasket;27, side channel;28, air pump;29,
Bar slot;30, Pneumatic extension bar;31, controller;32, sliding slot;33, weight sensor.
Specific embodiment
Technical solution of the present invention is clearly and completely described below in conjunction with embodiment, it is clear that described reality
Applying example is only a part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, this field is general
Logical technical staff all other embodiment obtained without creative efforts belongs to what the present invention protected
Range.
Please refer to shown in Fig. 1-6, a kind of pure nano-negative ion air cleaning unit of intelligence, including cabinet 1 and be located at its
Exhaust outlet 2 on the side wall of one end, the air inlet 13 on its other end side wall, cabinet 1 is by air inlet layer 11, blower layer 10, big
4 eight molecular filtration layer 9, deodorizing layer 8, adhesive layer 7, small molecule filter layer 6, outer layer 5 and exhaust level layers are successively spliced,
Air inlet layer 11, blower layer 10, macromolecular filter layer 9, deodorizing layer 8, adhesive layer 7, small molecule filter layer 6, outer layer 5 and exhaust level
Be provided with perforation 12 at 4 four edge corners, and air inlet layer 11, blower layer 10, macromolecular filter layer 9, deodorizing layer 8, adhesive layer 7,
It is fixedly connected between small molecule filter layer 6, outer layer 5 and exhaust level 4 eight by wearing the bar 3 connect inside perforation 12, into
Port 13 is located in the middle part of 11 side wall of air inlet layer, and there are two the blower 14 for being used for air inlet, macromolecular filterings for installation inside blower layer 10
Filtering grid 15 is installed inside layer 9, several nanometer of UV UV photons lamp 16 be installed inside deodorizing layer 8, in adhesive layer 7
Portion is equipped with first nanometer of rack 17, and second nanometer of rack 18 is equipped with inside small molecule filter layer 6, and outer layer 5 is internally provided with
Mounting rack 19 is equipped with several dismountable active carbon sticks 20 inside mounting rack 19, and 4 side wall middle position of exhaust level is provided with
Exhaust outlet 2;
It is provided with side channel 27 on 9 side wall of adhesive layer 7, small molecule filter layer 6 and macromolecular filter layer, it is adhesive layer 7, small
Sliding slot 32 is provided on about 9 two sides inner wall of molecular filtration layer 6 and macromolecular filter layer, inside underlying sliding slot 32
Weight sensor 33 is installed, is mounted in the middle part of 9 side inner wall of adhesive layer 7, small molecule filter layer 6 and macromolecular filter layer
Controller 31, about 31 two sides of controller are mounted on air pump 28, a Pneumatic extension bar 30, gas are connected on 28 side wall of air pump
Dynamic telescopic rod 30 is mounted on inside bar slot 29, and bar slot 29 is located in adhesive layer 7, small molecule filter layer 6 and macromolecular filter layer 9
On side wall, 30 one end of Pneumatic extension bar inside adhesive layer 7 is connected with first nanometer of 17 side wall of rack, is located at small molecule
30 one end of Pneumatic extension bar inside filter layer 6 is connected with second nanometer of 18 side wall of rack, is located inside macromolecular filter layer 9
30 one end of Pneumatic extension bar be connected with 15 side wall of filtering grid;
Several equally distributed net circles 21 are provided on first nanometer of rack 17 and second nanometer of 18 side wall of rack, often
The collecting tank 22 being located on rack side wall, first nanometer of rack 17 and the are provided with below a lateral row's net circle 21
It is provided with groove 24 on 15 top of two nanometers of racks 18 and filtering grid, bottom outer wall, is embedded with several inside groove 24
Sliding pearl 25.
A circle gasket is provided on 15 side wall of first nanometer of rack 17 and second nanometer of rack 18 and filtering grid
26, and first nanometer of rack 17 and second nanometer of rack 18 and 15 side wall of filtering grid after gasket 26 is installed with side channel 27
It is adapted, so that side channel 27 can be sealed that pad 26 is sealed, from the case where leakage without gas.
Air inlet layer 11, blower layer 10, macromolecular filter layer 9, deodorizing layer 8, adhesive layer 7, small molecule filter layer 6, outer layer 5 with
And the cabinet 1 of sealing is spliced between 4 eight layers of exhaust level by four bars 3, so that cabinet 1 is whole either in group
Dress or disassembly are extremely convenient.
Pass through conducting wire wired connection, corresponding filtering grid between controller 31 and weight sensor 33 and two air pumps 28
15, the respective weight of 33 real-time detection of weight sensor of first nanometer of rack, 17, second nanometers of 18 bottoms of rack, works as filter grid
15, first nanometers of grid, 17, second nanometers of rack rack 18 one or more be attached with using inside it because of long-time
When the particulate matters such as more dust, weight sensor 33 detects and sends data to corresponding controller 31.
First nanometer of rack 17 passes through corresponding two Pneumatic extensions with second nanometer of rack 18 and filtering grid 15
It is slidably connected between bar 30 and side channel 27, and the sliding of first nanometer of rack 17 and second nanometer of rack 18 and filtering grid 15
Direction is identical as 32 direction of sliding slot, can control corresponding two air pumps 28 by corresponding controller 31 and start, utilize air pump
28 driving Pneumatic extension bars 30 elongation by 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18 one of those
Or it is multiple ejected from side channel 27, thus not only more convenient cleaning, but also can explicitly point out and need clean portion inside device
Position, more intelligently.
Several equally distributed cyclic structures are provided on mounting rack 19,20 fixed placement of active carbon stick is cyclic annular each
In cyclic structure, replacement easy to disassemble.
It is provided with handle 23 on 15 side wall of first nanometer of rack 17 and second nanometer of rack 18 and filtering grid, when
One nanometer of rack 17 is taken out by user using handle 23 again after being ejected with second nanometer of rack 18 and filtering grid 15.
Nanometer UV UV photons lamp 16 includes the photon fluorescent tube of two kinds of different-waveband ultraviolet lights of UVC and UVD.
The application method of this kind of air cleaning unit, specific steps are as follows:
Step 1: the blower 14 of starter, two air inlets sucks air inside cabinet 1 from air inlet 13, air
Macromolecular filter layer 9 is first passed through, by its internal 15 primary filtration of filtering grid;
Step 2: subsequent air passes through deodorizing layer 8, using its internal nanometer UV UV photons lamp 16 issue UVC and
Two kinds of different-waveband ultraviolet beams of UVD, high energy high ozone UV ultraviolet beam decompose the oxygen molecule in air and generate anion,
That is active oxygen, so need to be in conjunction with oxygen molecule because of the taken positron-electron imbalance of anion, and then generates ozone, utilizes ozone pair
The deodorization of gas;
Step 3: subsequent gas successively passes through adhesive layer 7, small molecule filter layer 6, is received using first inside adhesive layer 7
Second nanometer of rack 18 inside rice rack 17 and small molecule filter layer 6 is filtered and adheres to the particulate matter in air,
Subsequent gas passes through outer layer 5, is discharged after being handled by its internal active carbon stick 20 from exhaust outlet 2;
Step 4: when device needs to clean, corresponding 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18
The respective weight of 33 real-time detection of weight sensor of bottom, when 15, first nanometers of filtering grid, 17, second nanometers of rack rack
18 one or more because of long-time using the particulate matters such as excessive dust are attached with inside it when, weight sensor 33 detect
To and send data to corresponding controller 31, corresponding two air pumps 28 can be controlled by corresponding controller 31 and opened
It is dynamic, drive the elongation of Pneumatic extension bar 30 by 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18 using air pump 28
One or more is ejected from side channel 27, then can be cleaned by user using the taking-up of handle 23.
The invention has the benefit that air is when by 9 inside of macromolecular filter layer, by its internal filtering grid 15
Primary filtration, subsequent air pass through deodorizing layer 8, issue UVC and two kinds of UVD using its internal nanometer UV UV photons lamp 16
Different-waveband ultraviolet beam, high energy high ozone UV ultraviolet beam decomposes the oxygen molecule in air and generates anion, i.e., active
Oxygen because the taken positron-electron of anion is uneven so need to be with oxygen molecule ining conjunction with, and then generates ozone, and well-known ozone is to having
Machine object has extremely strong oxidation, so as to play the deodorization to gas, subsequent gas successively pass through adhesive layer 7,
Small molecule filter layer 6 utilizes first nanometer of rack 17 inside adhesive layer 7 and second nanometer inside small molecule filter layer 6
Rack 18 is filtered and adheres to the particulate matter in air, and the deodorization and filtering inside device are all made of nano molecular technology
Air is purified, clean-up effect is more preferably while also more environmentally-friendly.
Due to being mounted on a list in the middle part of 9 side inner wall of adhesive layer 7, small molecule filter layer 6 and macromolecular filter layer
Only controller 31, each controller 31 has corresponding two air pumps 28 of line traffic control by conducting wire, and is located inside adhesive layer 7
30 one end of Pneumatic extension bar be connected with first nanometer of 17 side wall of rack, the Pneumatic extension inside small molecule filter layer 6
30 one end of bar is connected with second nanometer of 18 side wall of rack, 30 one end of Pneumatic extension bar inside macromolecular filter layer 9 with
15 side wall of filtering grid is connected, and in 9 bottom interior wall of adhesive layer 7, small molecule filter layer 6 and macromolecular filter layer
Weight sensor 33, while same wired connection between weight sensor 33 and controller 31 are mounted on inside sliding slot 32, from
And when device being made to need to clean, the weight of corresponding 15, first nanometers of filtering grid, 17, second nanometers of rack, 18 bottom of rack passes
The respective weight of 33 real-time detection of sensor, when 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18 one of those
Or it is multiple because of long-time using the particulate matters such as excessive dust are attached with inside it when, weight sensor 33 detects and passes data
Corresponding controller 31 is transported to, corresponding two air pumps 28 can be controlled by corresponding controller 31 and started, air pump 28 is utilized
Drive Pneumatic extension bar 30 elongation by 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18 one of those or
It is multiple to be ejected from side channel 27, then taken out by user using handle 23, thus not only more convenient cleaning, but also can be bright
It really points out to need clean position inside device, more intelligently.
In the use of the present invention, being assembled first to whole device, two are installed inside blower layer 10 and is used for air inlet
Blower 14, filtering grid 15 is installed inside macromolecular filter layer 9, several nanometer of UV purple is installed inside deodorizing layer 8
Outside line photon lamp 16 is equipped with first nanometer of rack 17 inside adhesive layer 7, is equipped with second inside small molecule filter layer 6
Nanometer rack 18, is internally provided with mounting rack 19 in outer layer 5, several dismountable active carbon sticks is installed inside mounting rack 19
20, due in air inlet layer 11, blower layer 10, macromolecular filter layer 9, deodorizing layer 8, adhesive layer 7, small molecule filter layer 6, outer layer 5
And it is provided with perforation 12 at 4 four edge corner of exhaust level, thus air inlet layer 11, blower layer 10, macromolecular filter layer 9, deodorization
It can be connect inside perforation 12 by wearing between layer 8, adhesive layer 7, small molecule filter layer 6, outer layer 5 and exhaust level 4 eight
Bar 3 is fixedly connected, not only easy to assembly but also easy to disassemble.Device when in use, is first connected by device with external power supply,
The blower 14 of subsequent start-up device, two air inlets sucks air inside cabinet 1 from air inlet 13, and air first passes through macromolecular
Filter layer 9, by its internal 15 primary filtration of filtering grid, subsequent air passes through deodorizing layer 8, purple using its internal nanometer UV
Outside line photon lamp 16 issues two kinds of different-waveband ultraviolet beams of UVC and UVD, and high energy high ozone UV ultraviolet beam decomposes air
In oxygen molecule generate anion, i.e. active oxygen, because of the taken positron-electron imbalance of anion thus need in conjunction with oxygen molecule, into
And ozone is generated, it is known that Pre-Ozonation on Organic Matter has extremely strong oxidation, so as to play the deodorization work to gas
With, subsequent gas successively passes through adhesive layer 7, small molecule filter layer 6, using inside adhesive layer 7 first nanometer of rack 17 and
Second nanometer of rack 18 inside small molecule filter layer 6 is filtered and adheres to the particulate matter in air, and subsequent gas passes through
Outer layer 5 is discharged after being handled by its internal active carbon stick 20 from exhaust outlet 2, and the deodorization and filtering inside device, which are all made of, to be received
Rice molecular engineering purifies air, and clean-up effect is more preferably while also more environmentally-friendly.Due to adhesive layer 7, small molecule filter layer 6
And 31 model of individual controller is mounted in the middle part of 9 side inner wall of macromolecular filter layer are as follows: CPM1A, each control
Device 31 has corresponding two air pumps 28 of line traffic control by conducting wire, and be located at 30 one end of Pneumatic extension bar inside adhesive layer 7 and
First nanometer of 17 side wall of rack is connected, 30 one end of Pneumatic extension bar inside small molecule filter layer 6 and the second nano net
18 side wall of frame is connected, and 30 one end of Pneumatic extension bar inside macromolecular filter layer 9 is connected with 15 side wall of filtering grid,
And weight is mounted on inside the sliding slot 32 in 9 bottom interior wall of adhesive layer 7, small molecule filter layer 6 and macromolecular filter layer
Quantity sensor 33, while same wired connection between weight sensor 33 and controller 31, so that when device needs to clean,
33 real-time detection of weight sensor of corresponding 15, first nanometers of filtering grid, 17, second nanometers of rack, 18 bottom of rack is respective
Weight, when 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18 one or more because long-time use its
When inside is attached with the particulate matters such as excessive dust, weight sensor 33 detects and sends data to corresponding controller 31,
Corresponding two air pumps 28 starting can be controlled by corresponding controller 31, drives Pneumatic extension bar 30 to extend using air pump 28
By 15, first nanometers of filtering grid, 17, second nanometers of rack rack 18, one or more is ejected from side channel 27, then by
User is taken out using handle 23, thus not only more convenient cleaning, but also can explicitly point out and be needed inside device clearly
Clean position, more intelligently.
Present invention disclosed above preferred embodiment is only intended to help to illustrate the present invention.There is no detailed for preferred embodiment
All details are described, are not limited the invention to the specific embodiments described.Obviously, according to the content of this specification,
It can make many modifications and variations.These embodiments are chosen and specifically described to this specification, is in order to better explain the present invention
Principle and practical application, so that skilled artisan be enable to better understand and utilize the present invention.The present invention is only
It is limited by claims and its full scope and equivalent.
Claims (9)
1. a kind of pure nano-negative ion air cleaning unit of intelligence, including cabinet (1) and the exhaust on one end side wall
Mouth (2), the air inlet (13) on its other end side wall, which is characterized in that the cabinet (1) is by air inlet layer (11), blower
Layer (10), macromolecular filter layer (9), deodorizing layer (8), adhesive layer (7), small molecule filter layer (6), outer layer (5) and exhaust level
(4) eight layers are successively spliced, the air inlet layer (11), blower layer (10), macromolecular filter layer (9), deodorizing layer (8), attached
Layer (7), be provided with perforation (12) at (4) four edge corner of small molecule filter layer (6), outer layer (5) and exhaust level, and it is described
It is air inlet layer (11), blower layer (10), macromolecular filter layer (9), deodorizing layer (8), adhesive layer (7), small molecule filter layer (6), outer
It is fixedly connected by wearing to connect in the internal bar (3) of perforation (12) between layer (5) and exhaust level (4) eight, the air inlet
(13) it is located in the middle part of air inlet layer (11) side wall, there are two the blower (14) for being used for air inlet, institutes for installation inside the blower layer (10)
It states and is equipped with filtering grid (15) inside macromolecular filter layer (9), several nanometer of UV purple is installed inside the deodorizing layer (8)
Outside line photon lamp (16), the adhesive layer (7) is internal to be equipped with first nanometer of rack (17), and the small molecule filter layer (6) is interior
Portion is equipped with second nanometer of rack (18), and the outer layer (5) is internally provided with mounting rack (19), peace inside the mounting rack (19)
Equipped with several dismountable active carbon sticks (20), exhaust level (4) the side wall middle position is provided with exhaust outlet (2);
Side channel (27), institute are provided on the adhesive layer (7), small molecule filter layer (6) and macromolecular filter layer (9) side wall
It states adhesive layer (7), small molecule filter layer (6) and macromolecular filter layer (9) and is provided with sliding slot (32) on the inner wall of two sides up and down,
It is equipped with weight sensor (33) inside the underlying sliding slot (32), the adhesive layer (7), small molecule filter layer (6)
And be mounted on controller (31) in the middle part of the inner wall of macromolecular filter layer (9) side, the controller (31) is pacified two sides up and down
Equipped with air pump (28), a Pneumatic extension bar (30), Pneumatic extension bar (30) peace are connected on air pump (28) side wall
Internal mounted in bar slot (29), the bar slot (29) is located at adhesive layer (7), small molecule filter layer (6) and macromolecular filter layer (9)
On inner sidewall, it is located at the adhesive layer (7) internal Pneumatic extension bar (30) one end and is connected with first nanometer of rack (17) side wall
It connects, is located at internal Pneumatic extension bar (30) one end of the small molecule filter layer (6) and is connected with second nanometer of rack (18) side wall
It connects, is located at internal Pneumatic extension bar (30) one end of the macromolecular filter layer (9) and is connected with filtering grid (15) side wall;
Several equally distributed net circles are provided on first nanometer of rack (17) and second nanometer of rack (18) side wall
(21), the collecting tank (22) being located on rack side wall, institute are provided with below net circle (21) described in each lateral row
State at the top of first nanometer of rack (17) and second nanometer of rack (18) and filtering grid (15), be provided in bottom outer wall it is recessed
Slot (24), the groove (24) is internal to slide pearl (25) embedded with several.
2. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that described first
It is provided with a circle gasket (26) on nanometer rack (17) and second nanometer of rack (18) and filtering grid (15) side wall, and
First nanometer of rack (17) and second nanometer of rack (18) and filtering grid (15) side wall installation gasket (26) afterwards and side
Slot (27) is adapted.
3. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that the air inlet
Layer (11), blower layer (10), macromolecular filter layer (9), deodorizing layer (8), adhesive layer (7), small molecule filter layer (6), outer layer (5)
And the cabinet (1) of sealing is spliced between (4) eight layers of exhaust level by four bars (3).
4. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that the control
Pass through conducting wire wired connection between device (31) and weight sensor (33) and two air pumps (28).
5. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that described first
Nanometer rack (17) passes through corresponding two Pneumatic extension bars (30) with second nanometer of rack (18) and filtering grid (15)
It is slidably connected between side channel (27), and first nanometer of rack (17) and second nanometer of rack (18) and filtering grid (15)
Glide direction is identical as sliding slot (32) direction.
6. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that the installation
Several equally distributed cyclic structures are provided on frame (19), active carbon stick (20) fixed placement is in cyclic annular each cyclic structure
On.
7. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that described first
Handle (23) are provided on nanometer rack (17) and second nanometer of rack (18) and filtering grid (15) side wall.
8. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that the nanometer
UV UV photons lamp (16) includes the photon fluorescent tube of two kinds of different-waveband ultraviolet lights of UVC and UVD.
9. the pure nano-negative ion air cleaning unit of a kind of intelligence according to claim 1, which is characterized in that this kind of air
The application method of purification device, specific steps are as follows:
Step 1: starter, the blower (14) of two air inlets is by air out of air inlet (13) sucking cabinet (1)
Portion, air first pass through macromolecular filter layer (9), by its internal filtering grid (15) primary filtration;
Step 2: subsequent air passes through deodorizing layer (8), using its internal nanometer UV UV photons lamp (16) issue UVC and
Two kinds of different-waveband ultraviolet beams of UVD, high energy high ozone UV ultraviolet beam decompose the oxygen molecule in air and generate anion,
That is active oxygen, so need to be in conjunction with oxygen molecule because of the taken positron-electron imbalance of anion, and then generates ozone, utilizes ozone pair
The deodorization of gas;
Step 3: subsequent gas successively passes through adhesive layer (7), small molecule filter layer (6), utilizes the first of adhesive layer (7) inside
Second nanometer of rack (18) of nanometer rack (17) and small molecule filter layer (6) inside is filtered the particulate matter in air
And adhere to, subsequent gas passes through outer layer (5), is discharged after its internal active carbon stick (20) processing from exhaust outlet (2);
Step 4: when device needs to clean, corresponding filtering grid (15), first nanometer of rack (17), second nanometer of rack
(18) the respective weight of weight sensor (33) real-time detection of bottom, when filtering grid (15), first nanometer of rack (17),
Two nanometers of racks (18) one or more because of long-time using the particulate matters such as excessive dust are attached with inside it when, weight
Sensor (33) detects and sends data to corresponding controller (31), can be controlled pair by corresponding controller (31)
Two air pumps (28) starting answered, is extended using air pump (28) driving Pneumatic extension bar (30) by filtering grid (15), first
Nanometer rack (17), second nanometer of rack (18) one or more ejected from side channel (27), then handle is utilized by user
Hand (23) taking-up can be cleaned.
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