CN207786212U - Air purifier with parallel pipeline - Google Patents

Abstract

The utility model discloses a kind of air purifier with parallel pipeline, which includes the first wet tank, air pump and second liquid storage tank；First wet tank is closed container, and lower inside is loaded with liquid, polylith partition board is vertically arranged in first wet tank, and the space of ullage in the first wet tank is separated into multiple mutually independent subspaces by the partition board；It is all corresponding per sub-spaces that there are one first pipe and a second pipes, wherein first pipe inlet end is outside storage tank, outlet side is in the liquid level below subspace, second pipe one end is located at the top in subspace, since each sub-spaces are independent from each other, the gas passage being made of first pipe, subspace and second pipe will not be influenced by other gas passages, and each gas passage can work independently, to improve air filter efficiency.

Description

Air purifier with parallel pipeline

Technical field

The utility model is related to a kind of air cleaning facility, the air purifier being dusted especially by liquid, tool It is related to a kind of air purifier with parallel pipeline for body.

Background technology

In the industries such as steel, thermal power generation, cement, mining, a large amount of dust and dust can be mixed into air, if not It is directly discharged in air through processing, air pollution can be further exacerbated by；Continuous improvement with country to environmental requirement, environmental protection Policy is increasingly severe, and each manufacturer all pays much attention to environmental protection, using a large amount of cleaner come handle pollution exhaust gas, control Post dust is managed, one of the most common dedusting method is bag-type dust,

However, bag-type dust is since own structural characteristics determine that it necessarily has some defects, cloth bag volume is larger, It is the case where certainly existing discontinuity equalization, higher so as to cause cloth bag damage rate under the higher gas shock of temperature, Er Qiegeng It is comparatively laborious to change maintenance process, so in fact many manufacturers all work in the case where dust removal by filtration equipment is impaired, directly To green audit next time, although way remains to be discussed, the difficulty faced is it will be apparent that mainly repair and replacement Economic cost and time cost it is excessively high, general enterprises are difficult to bear, for this purpose, inventor wishes to design a kind of completely new dedusting Cleaning equipment, to overcome the defect of existing dust separation device；

By the study found that filter structure can be with the particulate matter in adsorbed gas, solution or common water are also can be with The particulate matter carried in air is left by way of dissolving or washing away；It is introduced into water when the air containing particulate matter When, air is so that existing for larger bubble form, smaller with the contact area of solution or water, time of contact is shorter, air The particulate matter of middle carrying can seldom be dissolved or washed away by solution/water, so how to make air in the form of minute bubbles and solution Or water contact is to restrict the key factor of the cleaner success or not；

In addition, the air capacity of the pending/purification generated in industrial processes is bigger, a pipeline can be defeated The amount sent is than relatively limited, so multigroup pipeline is needed to work together, in order to save space and cost, multiple pipelines are all introduced into In the same liquid container, then the purified treatment by doing next step in multiple pipelines to next container, but if only It is provided so as to, tends not to realize target, because the air-tightness of different, each contact points of the length of pipeline is different, pipe The amount of force that interior sundries siltation degree is different, air pump provides is different, and the pressure in each pipeline naturally will not be identical, Air can only pass through from the smaller pipeline of pressure, it is actual the result is that only some pipeline play the role of it is due, And in advance it is difficult to it is expected which pipeline can successfully work；For this reason, it may be necessary to the specific of above-mentioned air cleaning unit Structure, which is made, to be specifically designed, it is ensured that each pipeline can work normally；

The present inventor has done various further investigations to the specific configuration of air purifier due to the above reasons, so as to Design a kind of air purifier with parallel pipeline that can be solved the above problems.

Utility model content

In order to overcome the above problem, present inventor has performed sharp studies, design a kind of sky with parallel pipeline Gas purifier, the clarifier include the first wet tank, air pump and second liquid storage tank；First wet tank is closed Container, lower inside are loaded with liquid, are vertically arranged with polylith partition board in first wet tank, pass through the partition board The space of ullage in first wet tank is separated into multiple mutually independent subspaces；It is all corresponding with one per sub-spaces A first pipe and a second pipe, wherein first pipe inlet end is outside storage tank, liquid of the outlet side below subspace In face, second pipe one end is located at the top in subspace, since each sub-spaces are independent from each other, by first pipe, son The gas passage that space and second pipe are constituted will not be influenced by other gas passages, and each gas passage can be only Vertical work, to complete the utility model.

Specifically, the purpose of this utility model is to provide a kind of air purifier with parallel pipeline, features It is, which includes：First wet tank 1, air pump 2 and second liquid storage tank 3；

First wet tank 1 be closed container, inside be loaded with liquid, in first wet tank 1 erect Directly be provided with partition board 4, by the partition board 4 by the space of ullage in the first wet tank 1 be separated into it is multiple independently of each other Subspace 5；

A plurality of first pipe 6 is additionally provided in first wet tank 1, the inlet end of the pipeline is all stored up in the first liquid Outside tank 1, the outlet side 61 of a plurality of first pipe is all inserted respectively into the liquid of each subspace 5 times in the first wet tank 1 It is interior；

A plurality of second pipe 7 is provided between first wet tank 1 and air pump 2, a plurality of second pipe 7 Inlet end is all located at the ullage in 1 subspace 5 of the first wet tank.

Wherein, the partition board 4 includes at least one lateral partitions 41, sealingly coupled with each other between each longitudinal baffle, respectively every Plate is connect with the first wet tank inner wall sealing.

Wherein, the partition board 4 further includes at least one longitudinal baffle 42, and each lateral partitions are connected by longitudinal baffle 42 41。

Wherein, each lateral partitions 41 are embedded under the liquid level of liquid, and the bottom end of each longitudinal baffle 42 is embedded into liquid Liquid level under.

Wherein, the liquid levels height of each subspace 5 times is all identical.

Wherein, first pipe 6 below liquid levels have outlet side 61, and the outlet side be located at 4 bottom end of partition board it On, first pipe 6 also has the other end in liquid bottom.

Wherein, a plurality of third pipeline 8 is provided between the air pump 2 and the second liquid storage tank 3,

The second liquid storage tank 3 is closed container, and lower inside is loaded with liquid,

One end of each third pipeline 8 is passed through to the liquid level of liquid in second liquid storage tank 3, the other end and sky Air pump 2 is connected.

Wherein, air to be clean is introduced from outside by the inlet end of first pipe 6, and from the outlet side of first pipe 6 61 are introduced into the liquid in the first wet tank 1, enter in 1 each sub-spaces 5 of the first wet tank via after liquid, and pass through It is transferred in the liquid in second liquid storage tank 3 by second pipe, air pump and third pipeline.

Wherein, 2 or more outlet sides 61, and the height where the multiple outlet side 61 are equipped in each first pipe 6 Degree is all consistent.

Wherein, the quantity of first pipe 6 is consistent with the quantity of second pipe 7,

The quantity of second pipe 7 is than or equal to the quantity of third pipeline 8.

Advantageous effect possessed by the utility model includes：

(1) according to the air purifier provided by the utility model with parallel pipeline with multiple partition boards, by the first liquid Body storage tank is divided into multiple independent subspaces, and first pipe and second pipe are separately connected based on each sub-spaces, from And make each pipeline not unicom from each other, it can work normally；

(2) according to liquid energy in the first wet tank of the air purifier provided by the utility model with parallel pipeline Air to be clean that is enough while handling the first pipe introducing, and the liquid is an entirety, and the liquid is enabled to follow Circulation is dynamic or quickly replaces simultaneously；

(3) one need to be arranged according in the air pump of the air purifier provided by the utility model with parallel pipeline Drive the power plant of piston, you can it is cost-effective to be respectively that multiple parallel pipelines provide compression power, save space.

Description of the drawings

Fig. 1 shows that the air purifier with parallel pipeline according to a kind of preferred embodiment of the utility model is integrally tied Structure schematic diagram；

Fig. 2 shows integrally tied according to a kind of air purifier with parallel pipeline of preferred embodiment of the utility model Structure schematic diagram；

Fig. 3 shows partition board in the air purifier with parallel pipeline according to a kind of preferred embodiment of the utility model Sectional view and Fig. 1 and Fig. 2 in Section A-A figure；

Fig. 4 shows air in the air purifier with parallel pipeline according to a kind of preferred embodiment of the utility model Pump piston is towards movement outside pressure chamber, i.e., the overall structure diagram of air pump when pressure chamber stretches；

Fig. 5 shows air in the air purifier with parallel pipeline according to a kind of preferred embodiment of the utility model Pump piston is towards movement inside pressure chamber, i.e., the overall structure diagram of air pump when pressure chamber compresses；

Fig. 6 shows the air purifier for having parallel pipeline according to a kind of another kind of preferred embodiment of the utility model Overall structure diagram.

Drawing reference numeral explanation：

The first wet tanks of 1-

2- air pumps

3- second liquid storage tanks

4- partition boards

41- lateral partitions

42- longitudinal baffles

The subspaces 5-

6- first pipes

The outlet sides 61-

7- second pipes

8- third pipelines

21- inlet plenums

22- pressure chamber

23- outlet chambers

24- pistons

25- air admission holes

26- ventholes

27- admission lines

28- air intake valves

29- outlet pipes

210- outlet valves

211- inlet seal pieces

212- outlet diaphragm seals

Specific implementation mode

The utility model is further described below by drawings and examples.By these explanations, this practicality is new The characteristics of type and advantage will become more apparent from clear.

Dedicated word " exemplary " means " being used as example, embodiment or illustrative " herein.Here as " exemplary " Illustrated any embodiment should not necessarily be construed as preferred or advantageous over other embodiments.Although each of embodiment is shown in the accompanying drawings In terms of kind, but unless otherwise indicated, it is not necessary to attached drawing drawn to scale.

Described in the utility model refer to two or more more, if polylith partition board refers to more than two partition boards, a plurality of pipeline Refer to more than two pipelines.

According to a kind of air purifier with parallel pipeline provided by the utility model, institute as shown in Figure 1, Figure 2 and in Fig. 3 Show, which includes：First wet tank 1, air pump 2 and second liquid storage tank 3；

First wet tank 1 is closed container, and lower inside is loaded with liquid, in first wet tank 1 It is inside vertically arranged with polylith partition board 4, is separated into the space of ullage in the first wet tank 1 by the partition board 4 multiple Mutually independent subspace 5；

The five-surfac airtight that i.e. subspace 5 can be as shown in Figure 1 and Figure 2, last bottom surface are liquid levels；It can also It is six-sides airtight as shown in Figure 6/be completely closed.

A plurality of parallel first pipe 6 is additionally provided in first wet tank 1, the inlet end of the pipeline is all first Outside wet tank 1, the outlet side 61 of the pipeline is inserted into the first wet tank 1 and below the liquid level of liquid；This In utility model refers to concatenated relationship parallel,

Be provided with a plurality of parallel second pipe 7 between first wet tank 1 and air pump 2, second pipe 7 into Gas end is all located at the ullage in the first wet tank 1,

Wherein, the inlet end of second pipe 7 is both provided in each subspace 5.

Liquid described in the utility model can dissolve or wash away the impurity in air, such as particulate matter, the liquid Preferably aqueous solution, wherein can adulterate respective substance according to the ingredient of air to be clean is configured to solution, such as acid solution, alkali Property solution etc.；Some can be dissolved the impurity carried in air in the liquid such as water, also some be cannot It dissolves, for example tiny dust granule, the undissolvable particle can form suspension in the solution such as water, and with liquid Body flows, i.e., is washed away by water/liquid, is dissolved described in the utility model both including the dissolving on ordinary meaning, also includes above-mentioned The case where forming suspension.

In one preferred embodiment, it is both provided with strainer on the outlet side of each first pipe 6 61, from outlet The air that is discharged will can just enter in liquid after the strainer in end 61, by the strainer by the air to be clean It breaks up as tiny bubble；Preferably, the strainer is located at the outermost of outlet side 61, is directly in contact on one side with liquid, passes through The air of strainer is divided into multiple small bubbles, when multiple small bubbles not yet are in time for accumulating air pocket again just with Liquid contacts, so that the impurity such as particulate matter carried in air also come into full contact with liquid, the particulate matter therein Equal impurity are dissolved or are washed away by liquid.

It is further preferred that the aperture size of the strainer is 20~50 microns, preferably 30~40 microns；The strainer Mesh number be 270-500；

Preferably, the strainer can be made of materials such as fine denier nylons, and it can also be multilayer which, which can be one layer,.

In one preferred embodiment, as shown in Figures 1 and 2, the outlet side 61 of first pipe 6 is towards oblique upper It tilts；Help to concentrate by the large particle of strainer filtering/interception, after the large particle is intercepted by strainer, along air outlet section Slope scroll down through/slide, be precisely towards obliquely downward to roll/slide, finally slip over outlet side 61, continue on First pipe 6 moves downward, and enters eventually into the bottom of the first wet tank.

In one preferred embodiment, as shown in Figure 1, Figure 2 and shown in Fig. 3, the partition board 4 includes lateral partitions, or Person's longitudinal baffle or the lateral partitions of orthogonal setting 41 and longitudinal baffle 42, lateral partitions 41 and longitudinal baffle 42 are close Envelope connection.It is sealingly coupled with each other between each longitudinal baffle, it is also sealingly coupled with each other between each lateral partitions；Preferably, it is described every Plate is all plate-like, and thickness is minimized in the case where meeting intensity, can be made of high molecular material, can also be by made of metal At；Gasket can be set at sealed connection.

In one preferred embodiment, as shown in Figure 1, Figure 2 and shown in Fig. 3, the bottom end of each partition board 4 is stretched into To below the liquid level of liquid,

Other sides on each partition board 4 in addition to bottom end are connect with the inner wall sealing of the first wet tank 1.It is preferred that The section on ground, each partition board is rectangular.

In one preferred embodiment, as shown in Figure 1, Figure 2 and shown in Fig. 3, the liquid liquid where 4 bottom end of each partition board Face height is all consistent, and specifically, the bottom end is the lateral straight line in first pipe below outlet side in Fig. 1 and Fig. 2.

In one preferred embodiment, as shown in Figure 1, Figure 2 and shown in Fig. 3, the outlet side 61 of first pipe 6 is located at institute The top of 4 bottom end of partition board is stated, i.e. the surrounding of 61 horizontal direction of outlet side is surrounded by partition board.

In one preferred embodiment, as shown in Figure 1, Figure 2 and shown in Fig. 3, the underface in each subspace 5 It is both provided with the outlet side 61 of first pipe 6.

Preferably, main part of each first pipe 6 in the first wet tank 1 passes through a subspace；

Preferably, the underface of each subspace 5 is both provided with the outlet side 61 of a first pipe 6.

In one preferred embodiment, as shown in Figures 1 and 2, the air pump 2 and the second liquid storage tank A plurality of parallel third pipeline 8 is provided between 3,

The second liquid storage tank 3 is closed container, and lower inside is loaded with liquid,

The third pipeline 8 is all connected to below the liquid level of liquid in second liquid storage tank 3；Specific mode of communicating can have It is a variety of, different mode of communicating is set forth if Fig. 1 and Fig. 2.

Preferably, it is provided with strainer on the outlet end that third pipeline 8 is located in second liquid storage tank 3, it will by strainer Gas therethrough is divided into multiple tiny bubbles.

In one preferred embodiment, as shown in Figures 1 and 2, in the second liquid storage tank 3 liquid it is upper Side is additionally provided with isolation oil reservoir,

The liquid level thickness of the isolation oil reservoir is 10~30mm.

The density of the isolation oil reservoir is less than the density of liquid, the optional not volatile, nonhazardous of the isolation oil reservoir and Organic solution not soluble in water is made.

Wherein, by the isolation oil reservoir sealing liquid, liquid is prevented to be contacted with the air in second liquid storage tank 3.From And take the impurity such as particulate matter suspended in liquid out of when preventing bubble from passing through liquid top surface, even if there is partial particulate object to be brought into Into isolation oil reservoir, since the density smaller of oil reservoir is isolated, particulate matter can quickly be fallen after rise into liquid.

Preferably, as shown in Figure 2, in the second liquid storage tank 3, it is arranged between 8 liquid levels of third pipeline There is deflector, increases the flowing stroke of bubble by deflector.

In one preferred embodiment, as shown in Figures 1 and 2, by the air pump 2 by the first wet tank In air pump to second liquid storage tank 3 in 1 each sub-spaces 5 below the liquid level of liquid, and then under the action of negative pressure, by the The inlet end of one pipeline 6 is introduced from outside into air and is injected into the liquid in the first wet tank 1 from outlet side 61, to shape At the flow path of air to be clean.

In one preferred embodiment, the outlet side 61 in each first pipe 6 has multiple and described more Liquid level where a outlet side 61 is all consistent.

In one preferred embodiment, the quantity of first pipe 6 is consistent with the quantity of second pipe 7, that is, the first pipe The quantity and second pipe 7 in road 6 are one-to-one, and a first pipe 6, a sub-spaces 5 and a second pipe 7 are constituted One complete enclosed gas channel, flowing through the air of the gas passage can all contact with strainer and liquid, obtain filtering/purification It handles, is mutually isolated between each gas passage, gas will not be caused mutually to flow because pressure value to each other is different.

The quantity of second pipe 7 be than or equal to third pipeline 8 quantity, though from air pump out gas by Several third pipelines 8, finally can all enter in second liquid storage tank, and need to only meet the circulation total amount of gas at this time, Whether pipeline enclosure, which is spaced, all has no substantial effect, it is possible to flexibly selection as the case may be.

In one preferred embodiment, as shown in Figures 4 and 5, the air pump 2 includes the air inlet being sequentially connected Chamber 21, pressure chamber 22 and outlet chamber 23, it is preferable that inlet plenum 21 shares a wall surface, outlet with pressure chamber 22 Chamber 23 and pressure chamber 22 share another wall surface, and described two shared wall surfaces are oppositely arranged；

Wherein, piston 24 sliding back and forth is provided in the pressure chamber 22, it is preferable that piston 24 can be along pressure The inner wall of power chamber 22 reciprocatingly slides, and is tightly connected between piston 24 and the inner wall of pressure chamber 22；

Air admission hole 25 and venthole 6 are offered on the wall surface for constituting the pressure chamber 22, which is described total Wall surface；

The inlet plenum 21 is connected to by air admission hole 25 with pressure chamber 22,

The outlet chamber 23 is connected to by venthole 26 with pressure chamber 22, the preferably described air admission hole and venthole 26 All be straight section it is circular through-hole；

It is further preferred that the air admission hole 25 and venthole 26 are both provided with two.

Multiple admission lines 27 are communicated on the inlet plenum 21, being both provided on each admission line 27 can open The air intake valve 28 closed,

Multiple outlet pipes 29 are communicated on the outlet chamber 3, being both provided on each outlet pipe 29 can open The outlet valve 210 closed.

In one preferred embodiment, as shown in Figures 4 and 5, inside the pressure chamber 22, it is described into Foldable inlet seal piece 211 is provided on wall surface near stomata 25, it is preferable that the inlet seal piece 211 is located at two Between a air admission hole, 211 both ends of inlet seal piece can turn down；

Specifically, the inlet seal piece 211 is vertically arranged, and when not turning down, which can cover Air admission hole 25, after fold, air admission hole 25 is exposed outside,

In the case where the inlet seal piece 211 turns down, the air admission hole 25 is opened,

In the case of 211 return of inlet seal piece, the air admission hole 25 is closed,

Preferably, in the case of no outer force effect, which is in return state, covers air admission hole.

In one preferred embodiment, as shown in Figures 4 and 5, outside the pressure chamber 22, it is described go out Foldable outlet diaphragm seal 212 is provided on wall surface near stomata 26, it is preferable that the outlet diaphragm seal 212 is located at two Between a venthole, 212 both ends of outlet diaphragm seal can turn down；

Specifically, the outlet diaphragm seal 212 is vertically arranged, and when not turning down, which can cover Venthole 26, after fold, venthole 26 is exposed outside,

In the case where the outlet diaphragm seal 212 turns down, the venthole 26 is opened,

In the case of 212 return of outlet diaphragm seal, the venthole 26 is closed；

Preferably, in the case of no outer force effect, which is in return state, covers venthole.

In one preferred embodiment, as shown in Figures 4 and 5, it is moved towards 22 outside of pressure chamber by piston 4 It moves to force inlet seal piece 211 to turn down, 212 return of outlet diaphragm seal, i.e., it is mobile towards 22 outside of pressure chamber when piston 24 When, in pressure chamber air pressure reduce, force inlet seal piece 211 to turn down naturally, to which inlet plenum is connected to pressure chamber, outlet 212 return of diaphragm seal, disconnects between outlet chamber and pressure chamber；

By piston 24 211 return of inlet seal piece, outlet diaphragm seal 212 are forced towards 22 inside movement of pressure chamber Fold, i.e., when piston 24 is mobile towards 22 inside of pressure chamber, air pressure raising in pressure chamber forces outlet diaphragm seal naturally 212 folds, to which outlet chamber is connected to pressure chamber, 211 return of inlet seal piece, the interruption of inlet plenum and pressure chamber Open connection.

In one preferred embodiment, as shown in Figures 4 and 5, closed in the air admission hole 25, often A air intake valve 28 is all closed,

In the case where the air admission hole 25 is opened, an air intake valve 28 in multiple air intake valves 28 is opened；Due to Piston is moved back and forth according to preset frequency, and the air admission hole 25 naturally also can open and close two kinds according to corresponding frequencies Switch under state, the multiple air intake valve 28 is opened successively according to predetermined order.

In one preferred embodiment, as shown in Figures 4 and 5, closed in the venthole 26, often A outlet valve 210 is all closed,

In the case where the venthole 26 is opened, an outlet valve 210 in multiple outlet valves 210 is opened, by In piston moved back and forth according to preset frequency, the venthole 26 naturally also can open and close two according to corresponding frequencies Switch under kind state, the multiple outlet valve 210 is opened successively according to predetermined order.

Specifically, the air intake valve 28 and outlet valve 210 are all hinged with the pipeline where it, you can rotatably connect It connects, in the case of no outer force effect, is locked all in closed state, and by buckle structure；

It is both provided with electronic sensing device on the inlet seal piece 211 and outlet diaphragm seal 212, when inlet seal piece 211 and/or outlet diaphragm seal 212 when bending, which can sense corresponding information, as bend signal, and will The signal passes to the buckle structure,

When the buckle structure on air intake valve 28 receives the information of the bending of inlet seal piece 211, one is unclamped Lock on air intake valve 28 so that the air intake valve can be opened under the action of air pressure；Correspondingly, work as outlet valve When the buckle structure on 210 receives the information of the bending of outlet diaphragm seal 212, the lock in an outlet valve 210 is unclamped Button so that the outlet valve can open under the action of air pressure.

In one preferred embodiment, as shown in Figure 1, Figure 2, shown in Fig. 3, Fig. 4 and Fig. 5, the admission line 27 with The first wet tank 1 is connected in the air purifier, specifically passes through in second pipe 7 and the air purifier the One wet tank 1 is connected；

The outlet pipe 29 is connected with second liquid storage tank 3 in the air purifier；Specifically pass through third Pipeline 8 is connected with second liquid storage tank 3 in the air purifier；

A plurality of pipeline shares a set of liquid, can greatly improve working efficiency；It is by the pressure chamber and piston Air flows in the duct provides power.

In the description of the present invention, it should be noted that term "upper", "lower", "inner", "outside", "front", "rear" etc. The orientation or positional relationship of instruction is to be merely for convenience of retouching based on the orientation or positional relationship under utility model works state State the utility model and simplify and describe, do not indicate or imply the indicated device or element must have a particular orientation, with Specific azimuth configuration and operation, therefore should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " is used for description purposes only, and is not understood to indicate or imply relative importance.

The utility model is illustrated above in association with preferred embodiment, but these embodiments are only models Example property, only play the role of illustrative.On this basis, a variety of replacements and improvement can be carried out to the utility model, these It each falls in the scope of protection of the utility model.

Claims (10)

1. a kind of air purifier with parallel pipeline, which is characterized in that the clarifier includes：First wet tank (1), sky Air pump (2) and second liquid storage tank (3)；

First wet tank (1) be closed container, inside be loaded with liquid, in first wet tank (1) erect It directly is provided with partition board (4), the space of the first wet tank (1) interior ullage is separated by multiple phases by the partition board (4) Mutual independent subspace (5)；

A plurality of first pipe (6) is additionally provided in first wet tank (1), the inlet end of the first pipe (6) all exists First wet tank (1) is external, and the outlet side (61) of a plurality of first pipe is all inserted respectively into the first wet tank (1) Under each subspace (5) in liquid；

A plurality of second pipe (7), a plurality of second pipe are provided between first wet tank (1) and air pump (2) (7) inlet end is all located at the ullage in the first wet tank (1) subspace (5).

2. air purifier according to claim 1, which is characterized in that

The partition board (4) includes at least one lateral partitions (41), sealingly coupled with each other, each partition board (4) between each lateral partitions It is connect with the first wet tank inner wall sealing.

3. air purifier according to claim 1 or 2, which is characterized in that

The partition board (4) further includes at least one longitudinal baffle (42), and each lateral partitions (41) are connected by longitudinal baffle (42).

4. air purifier according to claim 3, which is characterized in that

The bottom end of each lateral partitions (41) is all embedded under the liquid level of liquid, and the bottom end of each longitudinal baffle (42) is all embedded into liquid Under the liquid level of body.

5. air purifier according to claim 3, which is characterized in that

Liquid levels height is all identical under each subspace (5).

6. air purifier according to claim 4, which is characterized in that

First pipe (6) has outlet side (61) below liquid levels, and the outlet side is located on partition board (4) bottom end, First pipe (6) also has the other end in liquid bottom.

7. air purifier according to claim 1, which is characterized in that

A plurality of third pipeline (8) is provided between the air pump (2) and the second liquid storage tank (3),

The second liquid storage tank (3) is closed container, and lower inside is loaded with liquid,

One end of each third pipeline (8) is passed through to the liquid level of second liquid storage tank (3) interior liquid, the other end and sky Air pump (2) is connected.

8. air purifier according to claim 7, which is characterized in that

It is introduced from outside into air to be clean by the inlet end of first pipe (6), and is drawn from the outlet side of first pipe (6) (61) Enter into the liquid in the first wet tank (1), enters in the first wet tank (1) each sub-spaces (5) via after liquid, and It is transferred in the liquid in second liquid storage tank (3) via second pipe, air pump and third pipeline.

9. air purifier according to claim 1, which is characterized in that

2 or more outlet sides (61) are equipped in each first pipe (6), and the height where the multiple outlet side (61) is all Unanimously.

10. air purifier according to claim 1, which is characterized in that

The quantity of first pipe (6) is consistent with the quantity of second pipe (7),

The quantity of second pipe (7) is than or equal to the quantity of third pipeline (8).