CN105251617A - Electrode structure of air purifier and air purifier - Google Patents

Abstract

The invention relates to an electrode structure of an air purifier and the air purifier. The electrode structure comprises a plurality of dust collection electrode assemblies and discharging electrode assemblies. The dust collection electrode assemblies and the discharging electrode assemblies are overlapped alternately, and each discharging electrode assembly is clamped between the corresponding two adjacent dust collection electrode assemblies. By means of the air purifier with the electrode structure, air entering the air purifier can be filtered and purified through multiple layers, the purifying effect is effectively improved, and the clean air delivery rate (CADR) value of the air purifier is increased. Meanwhile, as impurities in the air can be distributed on the dust collection electrode assemblies, the cleaning period of the dust collection electrode assemblies and the discharging electrode assemblies is prolonged, and the maintenance cost of the air purifier is lowered.

Description

The electrode structure of air purifier and air purifier

Technical field

The present invention relates to technical field of air purification, particularly relate to a kind of electrode structure and air purifier of air purifier.

Background technology

At present, existing air purifier is mostly the flat electronic air cleaner be made up of dust collecting electrode assembly and discharge electrode assembly.This type electronic air cleaner mainly utilizes the mode of electrion, adsorbs or sterilization the dust in air, and it generally comprises housing, is arranged at the discharge electrode assembly of enclosure interior and dust collecting electrode assembly.During work, air enters in housing by the air inlet of housing, and then air flow to discharge electrode assembly and dust collecting electrode assembly, and discharge electrode assembly and dust collecting electrode assembly purify air, is finally discharged outside in environment by the air outlet of housing by the air after purification.

Usually a discharge electrode assembly and a dust collecting electrode assembly are close to setting in the mode of tiling or inclination in existing air purifier.Because air purifier is when purifying, the pollutants such as the dust in air are all attracted to the inside of dust collecting electrode assembly, need regular dismounting discharge electrode assembly and dust collecting electrode assembly to clean pollutant.The discharge electrode assembly arranged for existing single group and dust collecting electrode assembly, limited in one's ability due to pollutants such as adsorption of dust, dust removing effects is limited on the one hand, and the cleaning frequency of dust collecting electrode assembly and discharge electrode assembly is short on the other hand.Meanwhile, the air inlet being usually close to housing due to discharge electrode assembly is arranged, and makes to there is highfield near housing air inlet, thus produces very strong electrostatic at housing adjacent, brings less desirable puzzlement to user.

Summary of the invention

In view of this, the object of the present invention is to provide a kind of electrode structure and air purifier thereof of air purifier, there is at least one technical problem above-mentioned at least to solve in prior art.

According to a first aspect of the invention, provide a kind of electrode structure of air purifier, comprise multiple dust collecting electrode assembly and discharge electrode assembly, described multiple dust collecting electrode assembly and the alternately laminated setting of discharge electrode assembly, and each described discharge electrode assembly is folded between two adjacent described dust collecting electrode assemblies.

Preferably, three dust collecting electrode assemblies and two discharge electrode assemblies are comprised.

Preferably, described dust collecting electrode assembly comprises collecting plate and the first framework, and described collecting plate has multiple, parallel and be arranged in described first framework equably, and the dust collecting surface of multiple described collecting plate is oppositely arranged.

Preferably, the end of described collecting plate is provided with arc-shaped protrusions, the arc-shaped protrusions of multiple described collecting plate is positioned at the same side.

Preferably, the collecting plate being arranged in outside dust collecting electrode assembly is only at one end provided with arc-shaped protrusions; The collecting plate being arranged in inner dust collecting electrode assembly is all provided with arc-shaped protrusions at two ends, and these arc-shaped protrusions are oppositely arranged with the sparking electrode in its discharging electrode assembly be disposed adjacent.

Preferably, described first framework comprises interconnective upper installing rack and lower installing rack, and the both sides of installing rack and lower installing rack are provided with handle position on described.

Preferably, described first framework is provided with conducting strip.

Preferably, described discharge electrode assembly comprises sparking electrode and the second framework, and multiple discharge electrode is arranged in described second framework in a parallel manner equably.

Preferably, described second framework comprises: support, described support is provided with handle ear; Be positioned at the first upper cover and first lower cover of described support side; And be positioned at the second upper cover and second lower cover of the other side of described support; Described first upper cover and the first lower cover, the second upper cover and the second lower cover are connected on described support respectively by the mode fastened.

According to a second aspect of the invention, provide a kind of air purifier, comprise air inlet and air exit, and be provided with above-mentioned electrode structure.

Preferably, the dust collecting electrode assembly be positioned at outside electrode structure is positioned at the position near described air inlet and/or air exit.

According to the present invention, by at the inner multiple dust collecting electrode assembly of alternately laminated layout of air purifier and discharge electrode assembly, the air multiple filtration purification to entering air purifier can be realized, by the mode of the discharge electrode assembly and dust collecting electrode assembly that arrange single group in existing electronic air cleaner, effectively improve clean-up effect, the Clean air delivery rate of air purifier (CADR) value is got a promotion.Meanwhile, because the impurity in air can be distributed on multiple dust collecting electrode assembly, thus extend the cleaning frequency of dust collecting electrode assembly and discharge electrode assembly, it reduce the maintenance cost of air purifier.Further, owing to being erected in dust collecting electrode assembly by discharge electrode assembly, shield the electric field of clarifier air inlet, thus efficiently solve the problem of air purifier static electrification, thus effectively improve the Consumer's Experience of air purifier.

Accompanying drawing explanation

By referring to the description of accompanying drawing to the embodiment of the present invention, above-mentioned and other objects of the present invention, feature and advantage will be more clear, in the accompanying drawings:

Fig. 1 is the decomposing schematic representation of the electrode structure in air purifier of the present invention;

Fig. 2 is the front schematic view of dust collecting electrode assembly of the present invention;

Fig. 3 is the A-A schematic cross-section of Fig. 2;

Fig. 4 is the side schematic view of dust collecting electrode assembly of the present invention;

Fig. 5 is the internal structure schematic diagram removing dust collecting electrode assembly after installing rack of the present invention;

Fig. 6 is the front schematic view of discharge electrode assembly of the present invention;

Fig. 7 is the B-B schematic cross-section of Fig. 6;

Fig. 8 is the internal structure schematic diagram removing discharge electrode assembly after upper cover of the present invention.

Detailed description of the invention

Referring to accompanying drawing, the preferred embodiment of the present invention is described.In various figures, identical element adopts identical or similar Reference numeral to represent.For the sake of clarity, the various piece in accompanying drawing is not proportionally drawn.

It should be noted that, term used herein " on ", D score, "front", "rear", "left", "right" and similar statement just for illustrative purposes, and unrestricted.Especially, for convenience of description, in the application " on ", D score, " side " etc. be all be reference relative to the corresponding orientation in Fig. 1, the absolute above-below direction do not referred to.

Electrode structure in the application comprises multiple discharge electrode assembly and dust collecting electrode assembly, and described multiple discharge electrode assembly and the alternately laminated setting of dust collecting electrode assembly and each described discharge electrode assembly are folded between two adjacent described dust collecting electrode assemblies.As shown in Figure 1, in a preferred embodiment of the application, described electrode structure comprises three dust collecting electrode assemblies 1 and two discharge electrode assemblies 2.Three dust collecting electrode assemblies 1 and two alternately laminated settings of discharge electrode assembly 2, and each discharge electrode assembly 2 is folded between two adjacent dust collecting electrode assemblies 1.When air flows through the sparking electrode in discharge electrode assembly 2, dust impurity in air induction charging under the effect of sparking electrode, when charged particle flows through dust collecting electrode assembly adsorb by dust collecting electrode assembly, thus achieve the effect purifying air and remove dust in air.Because air flows through multiple dust collecting electrode assembly and discharge electrode assembly successively, the dust removing effects of air purifier is greatly promoted, the Clean air delivery rate (CADR) that air purifier exports can be improved.Meanwhile, because the dust in air is being deposited on multiple dust collecting electrode assembly 1 respectively, than single dust collecting electrode assembly, the cleaning frequency of dust collecting electrode assembly and discharge electrode assembly can be extended.Further, because the discharge electrode assembly producing electrostatic is folded between dust collecting electrode assembly 1, by the shielding action of dust collecting electrode assembly 1, the electric field of discharge electrode assembly 2 is made substantially to be confined to the inside of dust collecting electrode assembly, and the outside of dust collecting electrode assembly can't be appeared at, the shell of such as air purifier or air inlet produce electrostatic.These can improve the Consumer's Experience of air purifier effectively.

As shown in Figure 2-5, described dust collecting electrode assembly 1 comprises collecting plate 10, upper installing rack 11 and lower installing rack 12, and described collecting plate 10 is sheet metal, such as, be aluminium flake, be provided with arc-shaped protrusions 101 on its end.Described collecting plate 10 has multiple, parallel and be arranged on described upper installing rack 11 and lower installing rack 12 equably, and the dust collecting surface of multiple described collecting plate 10 is oppositely arranged, and the arc-shaped protrusions 101 of multiple described collecting plate 10 is positioned at the same side.In a preferred embodiment, the collecting plate 10 being arranged in the dust collecting electrode assembly 1 of electrode structure outside (such as Fig. 1 is arranged in topmost and two dust collecting electrode assemblies 1 bottom) is only at one end provided with arc-shaped protrusions 101, and the arc-shaped protrusions 101 on multiple collecting plate 10 is positioned at the side near described discharging electrode assembly 2; The collecting plate 10 being arranged in inner dust collecting electrode assembly 1 is all provided with arc-shaped protrusions 101 at two ends, and these arc-shaped protrusions 101 are oppositely arranged with the sparking electrode 20 in its discharging electrode assembly 2 be disposed adjacent.The setting of these arc-shaped protrusions can reduce the electric discharge phenomena of collecting plate 10 end, can improve the discharging efficiency of sparking electrode 20.

Described upper installing rack 11 can be such as connected with the jockey of screw association by such as button bit with lower installing rack 12, thus combination obtains framework.Described framework is generally square structure, but framework is not limited to square, alternative, and this framework can also be formed as circular semicircle or the oval or circular arc of polygon.At the lower edges place of upper installing rack 11 and lower installing rack 12, correspondence is provided with groove muscle respectively, and the both sides of upper installing rack 11 and lower installing rack 12 are provided with handle position 13, wherein preferably described handle position 13 can be formed as groove, and such structure is easy to operating personnel's assembling or safeguards multiple dust collecting electrode assembly.Multiple collecting plate 10 is arranged in framework equably in mode arranged in parallel.Specifically, one end of multiple collecting plate 10 is fastened in the groove muscle of installing rack 11, other one end of multiple collecting plate is fastened in the groove muscle of lower installing rack 12, groove muscle shape in described upper installing rack 11 and lower installing rack 12 and the end construction of collecting plate 10 match, such as the end construction being provided with arc-shaped protrusions 101, groove muscle in described upper installing rack 11 and/or lower installing rack 12 is formed as arcuation, for the end not arranging arc-shaped protrusions 101, the groove muscle shape in upper installing rack 11 and lower installing rack 12 is formed as narrow channel-shaped.By such mode, dismounting can be carried out to the collecting plate 10 in dust collecting electrode assembly 1 in a straightforward manner, greatly convenient operation personnel can carry out cleaned at regular intervals to collecting plate.In order to realize the electrical connection with outside, be also connected with conducting strip 15 on said frame.Schematically, wherein conducting strip 15 can for the copper sheet conducted electricity very well, and collecting plate 10 can be the aluminium flake of lighter weight.By such setting, on the one hand can in limited framework the multiple collecting plate of close arrangement, thus improve the ability of collecting plate attract dust and extend clean and maintenance cycle of collecting plate.On the other hand, the overall weight of the ability conducting electricity very well and can improve pre-antistatic with the material of lighter weight further and reduction air purifier is used.

Illustrate in accompanying drawing 6-8 according to discharge electrode assembly 2 of the present invention.Described discharge electrode assembly 2 comprises sparking electrode 20 and framework, described framework usually has and is formed as square frame structure, but framework is not limited to and is formed as square, alternative, this framework can also be formed as circular semicircle or the oval or circular arc of polygon.Specifically, framework comprises the support 25 of band handle ear (26), and be wherein provided with the first upper cover 21 and the first lower cover 22 in the side of support 25, wherein the first upper cover 21 and the first lower cover 22 are fastened on support by the mode of such as buckle.Meanwhile, be provided with the second upper cover 24 and the second lower cover 23 in the other side of support 25, wherein the second upper cover 24 and the second lower cover 23 are also fastened on support by the mode of such as buckle.One end of described sparking electrode 20 is arranged between described first upper cover 21 and the first lower cover 22, and one end is arranged between described second upper cover 24 and the second lower cover 23 in addition.Described sparking electrode 20 is preferably made up of tungsten filament, and discharge effect is good, and durable in use.Multiple sparking electrode 20 is arranged in framework in a parallel manner equably, makes in framework, produce uniform electric field, and makes air flow through multiple sparking electrode 20 equably.By such mode, dismounting can be carried out to the sparking electrode 20 in discharge electrode assembly in a straightforward manner, this greatly convenient operation personnel cleaned at regular intervals is carried out to discharge electrode assembly.

Preferably, the framework of described discharge electrode assembly 2 is provided with handle ear 26, this handle ear 26 can be projection or bulge loop, facilitates the dismounting of the framework of described discharge electrode assembly 2, convenient cleaning.

Be described to the electrode structure in the present invention and with the assembling of the air purifier of the electrode structure in the present invention and the course of work below.

First, single discharge electrode assembly 2 is placed on a dust collecting electrode assembly 1, then above discharge electrode assembly 2, covers second dust collecting electrode assembly 1, thus single discharge electrode assembly 2 is folded between two adjacent dust collecting electrode assemblies 1.Then repeat above-mentioned steps, define the electrode structure be made up of the dust collecting electrode assembly 1 of multiple alternately laminated layout and discharge electrode assembly 2 in this way.

The electrode structure assembled is installed to the inside of air purifier, wherein will be positioned at the lateral surface of the circuit board assembly 1 in outside respectively towards air inlet and the air exit of air purifier.Like this, when the air in external environment condition is inhaled into, air purifier is inner also flows through dust collecting electrode assembly 1 and discharge electrode assembly 2 successively, due to the electric field that discharge electrode assembly 2 is formed, dust impurity in air induction charging under electric field action, and be positioned at the dust collecting electrode assembly 1 of discharge electrode assembly 2 both sides adsorb, achieve the function of dedusting.Because two sides of each discharge electrode assembly 2 are provided with dust collecting electrode assembly 1, thus effectively shield the electric field of discharge electrode assembly 2, make the electrostatic of air purifier be zero substantially, improve the safety in utilization of air purifier.Further, multiple discharge electrode assembly 2 and dust collecting electrode assembly 1 are set because air purifier of the present invention is stacked, Clean air delivery rate (CADR) value externally exported significantly is promoted.Further, because the impurity in air can be deposited on multiple dust collecting electrode assembly 1 equably, this makes the cleaning cycle of each dust collecting electrode assembly 1 be extended.

Unless otherwise defined, technology used herein is identical with the implication that those skilled in the art of the present invention understand usually with scientific terminology.Term used herein, just in order to describe concrete enforcement object, is not intended to limit the present invention.Terms such as such as " parts " that occur herein both can represent single part, also can represent the combination of multiple part.The term such as such as " installation ", " setting " etc. occurred herein both can represent that parts were directly attached to another parts, also can represent that parts are attached to another parts by middleware.The feature described in one embodiment herein can be applied to another embodiment individually or with further feature in combination, unless this feature is inapplicable or be otherwise noted in this another embodiment.

The present invention is illustrated by above-mentioned embodiment, but should be understood that, above-mentioned embodiment just for the object of illustrating and illustrate, and is not intended to the present invention to be limited within the scope of described embodiment.It will be appreciated by persons skilled in the art that and can also make more kinds of variants and modifications according to instruction of the present invention, within these variants and modifications all drop on the present invention's scope required for protection.

Claims (11)

1. the electrode structure of an air purifier, it is characterized in that, comprise multiple dust collecting electrode assembly (1) and discharge electrode assembly (2), described multiple dust collecting electrode assembly (1) and discharge electrode assembly (2) alternately laminated setting, and each described discharge electrode assembly (2) is folded between two adjacent described dust collecting electrode assemblies (1).

2. electrode structure as claimed in claim 1, is characterized in that, comprise three dust collecting electrode assemblies (1) and two discharge electrode assemblies (2).

3. electrode structure as claimed in claim 1 or 2, it is characterized in that, described dust collecting electrode assembly (1) comprises collecting plate (10) and the first framework, described collecting plate (10) has multiple, parallel and be arranged in described first framework equably, the dust collecting surface of multiple described collecting plate (10) is oppositely arranged.

4. electrode structure as claimed in claim 3, it is characterized in that, the end of described collecting plate (10) is provided with arc-shaped protrusions (101), and the arc-shaped protrusions (101) of multiple described collecting plate (10) is positioned at the same side.

5. electrode structure as claimed in claim 4, is characterized in that, upper of the collecting plate (10) being arranged in outside dust collecting electrode assembly (1) is at one end provided with arc-shaped protrusions (101); The collecting plate (10) being arranged in inner dust collecting electrode assembly (1) is all provided with arc-shaped protrusions (101) at two ends, these arc-shaped protrusions (101) are oppositely arranged with the sparking electrode (20) in its discharging electrode assembly be disposed adjacent (2).

6. electrode structure as claimed in claim 3, it is characterized in that, described first framework comprises interconnective upper installing rack (11) and lower installing rack (12), and the both sides of installing rack (11) and lower installing rack (12) are provided with handle position (13) on described.

7. electrode structure as claimed in claim 6, is characterized in that, described first framework is provided with conducting strip (15).

8. electrode structure as claimed in claim 1 or 2, it is characterized in that, described discharge electrode assembly (2) comprises sparking electrode (20) and the second framework, and multiple sparking electrode (20) is arranged in described second framework in a parallel manner equably.

9. electrode structure as claimed in claim 8, it is characterized in that, described second framework comprises:

Support (25), described support (25) is provided with handle ear (26);

Be positioned at the first upper cover (21) and first lower cover (22) of described support (25) side;

And be positioned at the second upper cover (24) and second lower cover (23) of the other side of described support (25);

Described first upper cover (21) and the first lower cover (22), the second upper cover (24) and the second lower cover (23) are connected on described support (25) respectively by the mode fastened.

10. an air purifier, comprises air inlet and air exit, it is characterized in that, is provided with the electrode structure described in any one of claim 1-9.

11. air purifiers as claimed in claim 10, is characterized in that, the dust collecting electrode assembly (2) be positioned at outside electrode structure is positioned at the position near described air inlet and/or air exit.