CN109894279A - Air cleaning device and dust collecting mechanism - Google Patents

Abstract

The invention relates to an air purification device and a dust collection mechanism, wherein the dust collection mechanism comprises: a support; a power supply terminal disposed on the bracket; a receiving electrode including a plurality of sub-electrodes insulated from each other; the plurality of sub-electrodes move synchronously relative to the support, and the power supply terminal is positioned on the movement path of the plurality of sub-electrodes; and one part of the sub-electrodes move to be in butt joint with the power supply end and are electrified, and the other part of the sub-electrodes move to be staggered with the power supply end and are powered off. Above-mentioned collection dirt mechanism is applied to air purification device, and the circular telegram of partial sub-electrode in the receiving electrode, partial sub-electrode outage does not cut off the power supply to the receiving electrode whole, so, can form the dust removal electric field dust removal between circular telegram sub-electrode and the repulsion utmost point, and the sub-electrode of outage can take water to wash simultaneously, can wash the receiving electrode when removing dust, and the washing of receiving electrode is comparatively convenient.

Description

Air cleaning unit and dust-collecting mechanism

Technical field

The present invention relates to technical field of air purification, more particularly to air cleaning unit and dust-collecting mechanism.

Background technique

Generally, it after electrostatic air cleaner dedusting, needs to clear up the dust for receiving pole surface, prevents from receiving Pole surface accumulates too many dust, reduces dust removal performance after preventing receiving pole from being corroded by dust accumulation.

During clearing up receiving pole, if being cleaned with water, it is necessary to after shutting down power-off, can just spray and clean to receiving pole Water prevents ejected wash water from causing short circuit.That is, can just clean receiving pole, receiving pole after needing to shut down air purifier Cleaning it is inconvenient.

Summary of the invention

Based on this, it is necessary to aiming at the problem that receiving pole inconvenience cleaning, provide a kind of precipitron convenient for cleaning receiving pole Structure.

A kind of dust-collecting mechanism, comprising:

Bracket；

Power supply terminal is arranged on the bracket；

Receiving pole, the sub-electrode including multiple mutually insulateds；

Wherein, the relatively described bracket of the multiple sub-electrode moves synchronously, and the power supply terminal is located at the multiple son electricity On the motion path of pole；A part of sub-electrode in the multiple sub-electrode, which is moved to, to be docked and leads to the feeder ear Electricity, sub-electrode described in another part in the multiple sub-electrode, which is moved to, to misplace and powers off with the feeder ear.

Above-mentioned dust-collecting mechanism is applied to air cleaning unit, and the part sub-electrode in receiving pole is powered, and part sub-electrode is disconnected Electricity, not to receiving pole entirety power on/off, in this way, dedusting electric field dedusting can be formed between the sub-electrode and repeller that are powered, simultaneously The sub-electrode of power-off can be cleaned with water.Also, surface dust is more after a period of work for the sub-electrode that ought be powered, and needs to clean When, multiple sub-electrodes are moved synchronously with respect to bracket, so that the sub-electrode for being attached with dust is deviateed power supply terminal and are powered off, then The sub-electrode for being attached with dust is cleared up, while the sub-electrode cleaned up is movable to after docking with power supply terminal and is removed Dirt can so make receiving pole remain that partial current dedusting, part power-off cleaning do not need after power-off is shut down again to receiving pole It is cleaned, receiving pole can be cleaned while dedusting, the cleaning of receiving pole is more convenient.

The receiving pole includes insulated connecting piece in one of the embodiments, and the insulated connecting piece connection is described more A sub-electrode.

Each sub-electrode has conducting end in one of the embodiments, and each conducting end protrusion is described absolutely It edge connector and can be docked with the power supply terminal.

The multiple sub-electrode is arranged around an axis along annular, peripheral in one of the embodiments, and the multiple son Electrode can revolve around the pivot center in the same direction under external force using the axis as pivot center.

It in one of the embodiments, further include cleaning assembly, the cleaning assembly is for cleaning the multiple sub-electrode The sub-electrode of middle power-off.

Air-flow flows out the path of the receiving pole after the cleaning assembly deviation purifies in one of the embodiments,.

The cleaning assembly includes hydro-peening part and drying part, the hydro-peening part and the baking in one of the embodiments, Dry part is set gradually along the direction of motion of the multiple sub-electrode.

It in one of the embodiments, further include effluent cycle component, the effluent cycle component is located at the flowing of sewage It on path, and is connected to the hydro-peening part, for the hydro-peening part will to be re-entered after sewage purification.

The effluent cycle component includes foul water tank and sewage purification part, the foul water tank in one of the embodiments, Entrance be located on the flow path of sewage, the sewage purification part be set to the foul water tank in purify sewage, the sewage Case outlet is connected to the hydro-peening part.

It in one of the embodiments, further include driving assembly, the driving component is set on the bracket, is described more The relatively described bracket of a sub-electrode moves synchronously offer driving force.

The bracket is insulating part in one of the embodiments,.

The present invention also provides a kind of air cleaning unit, including repeller and above-mentioned dust-collecting mechanism, the repeller and institute The setting of receiving pole relative spacing is stated, forms dedusting electric field between the repeller and the receiving pole.

The repeller has allow air-flow to pass through to cross air port in one of the embodiments, and air-flow passes through the mistake Air port flows to the receiving pole by the repeller, and repeller ionization flows through the air for crossing air port, makes in air Dust electrification.

Detailed description of the invention

Fig. 1 is the decomposition diagram of air cleaning unit in one embodiment of the invention；

Fig. 2 is the structural schematic diagram of air cleaning unit shown in Fig. 1；

Fig. 3 is the structural schematic diagram of repeller and receiving pole in air cleaning unit shown in Fig. 1；

Fig. 4 is the structural schematic diagram of bracket and power supply terminal in air cleaning unit shown in Fig. 1；

Fig. 5 is the structural schematic diagram of hydro-peening part in air cleaning unit shown in Fig. 1；

Fig. 6 is the structural schematic diagram that part is dried in air cleaning unit shown in Fig. 1；

Fig. 7 is the structural schematic diagram in one embodiment of the invention purification mechanism；

Fig. 8 is the flow schematic diagram in another embodiment of the present invention purification mechanism.

Specific embodiment

To facilitate the understanding of the present invention, a more comprehensive description of the invention is given in the following sections with reference to the relevant attached drawings.In attached drawing Give presently preferred embodiments of the present invention.But the invention can be realized in many different forms, however it is not limited to this paper institute The embodiment of description.On the contrary, purpose of providing these embodiments is keeps the understanding to the disclosure more thorough Comprehensively.

It should be noted that it can directly on the other element when element is referred to as " being fixed on " another element Or there may also be elements placed in the middle.When an element is considered as " connection " another element, it, which can be, is directly connected to To another element or it may be simultaneously present centering elements.

Unless otherwise defined, all technical and scientific terms used herein and belong to technical field of the invention The normally understood meaning of technical staff is identical.Term as used herein in the specification of the present invention is intended merely to description tool The purpose of the embodiment of body, it is not intended that in the limitation present invention.Term as used herein "and/or" includes one or more phases Any and all combinations of the listed item of pass.

As shown in Figs. 1-2, in one embodiment of the invention, a kind of air cleaning unit 200 is provided.Air cleaning unit 200 With corona zone and accumulation area, corona zone is for charging the dust in air, and accumulation area is for adsorbing charged dust, Jin Erda To the purpose of dedusting.

Air cleaning unit 200 includes repeller 210 and dust-collecting mechanism 100, and dust-collecting mechanism 100 includes receiving pole 50, row Denounce pole 210 and 50 relative spacing of receiving pole to be arranged, forms dedusting electric field, charged particle warp between repeller 210 and receiving pole 50 It is moved when crossing dedusting electric field to the direction close to receiving pole 50.In this way, by the driving of electric field force in dedusting electric field, by dedusting Charged dust in the air-flow of electric field moves and is attached to 50 surface of receiving pole to close receiving pole 50, and then fills from air cleaning It sets and purified air is discharged in 200.

In some embodiments, repeller 210 has allow air-flow to pass through to cross air port 212, and air-flow passed through air port 212 Receiving pole 50 is flowed to by repeller 210, and the ionization stream of repeller 210 makes the dust band in air by the air in air port 212 Electricity, repeller 210 for charging the dust in air before entering dedusting electric field, are also used to cooperate shape with receiving pole 50 At dedusting electric field.Optionally, repeller 210 includes multiple spaced electrode stems, is formed between two neighboring electrode stem Air port 212.

It is to be appreciated that air cleaning unit 200 further includes ionization part in some other embodiment, part is ionized to sky Gas is ionized, and the dust in air is charged, and the dedusting electric field formed between repeller 210 and receiving pole 50 is located at ionization The downstream of part is dusted the charged dust for flowing to dedusting electric field from ionization part.Optionally, repeller 210 is electrode plate.

As Figure 2-3, dust-collecting mechanism 100 further includes bracket 10 and power supply terminal 30, and power supply terminal 30 is set to bracket On 10, receiving pole 50 includes the sub-electrode 52 of multiple mutually insulateds, and the opposite bracket 10 of multiple sub-electrodes 52 moves synchronously, feeder ear Son 30 is located on the motion path of multiple sub-electrodes 52, is equivalent to the whole opposite bracket 10 of receiving pole 50 and moves, power supply terminal 30 On the motion path of receiving pole 50.A part of sub-electrode 52 in multiple sub-electrodes 52 is moved to be docked with power supply terminal 30 And be powered, another part sub-electrode 52 in multiple sub-electrodes 52, which is moved to, to misplace and powers off with power supply terminal 30.That is, Part sub-electrode 52 in receiving pole 50 is powered, and part sub-electrode 52 powers off, not to the whole power on/off of receiving pole 50, in this way, logical Dedusting electric field dedusting can be formed between the sub-electrode 52 and repeller 210 of electricity, while the sub-electrode 52 powered off can be cleaned with water.

Also, when surface dust is more after a period of work for the sub-electrode 52 being powered, when needing to clean, multiple sub-electrodes 52 opposite brackets 10 move synchronously, and so that the sub-electrode for being attached with dust 52 is deviateed power supply terminal 30 and power off, then can be to attached There is the sub-electrode 52 of dust to clear up, while the sub-electrode 52 cleaned up is movable to after docking with power supply terminal 30 and is removed Dirt can so make receiving pole 50 remain that partial current dedusting, part power-off cleaning do not need after power-off is shut down again to reception Pole 50 is cleaned, and receiving pole 50 can be cleaned while dedusting, and the cleaning of receiving pole 50 is more convenient.Meanwhile by multiple Sub-electrode 52 moves synchronously, and circulation drives the sub-electrode 52 after cleaning to move to and docks with power supply terminal 30, can make to put into The sub-electrode 52 of dedusting remains more clean, guarantees dust removal performance, prevents dust removal performance because of collector surface dirt product Tire out and declines.

Specifically, multiple intervals of sub-electrode 52 setting, so that 52 mutually insulated of multiple sub-electrodes.

Optionally, receiving pole 50 includes insulated connecting piece 54, and insulated connecting piece 54 connects multiple sub-electrodes 52, passes through insulation Multiple sub-electrodes 52 are connected as an entirety by connector 54, move synchronously the opposite bracket 10 of multiple sub-electrodes 52.Also, it is every A sub-electrode 52 has conducting end 521, and each conducting end 521 is protruded insulated connecting piece 54 and can be docked with power supply terminal 30, such as This sub-electrode 52 moves to when docking with power supply terminal 30, and the conducting end 521 by protruding insulated connecting piece 54 can be with power supply Terminal 30 reliably connects energization, can not dock with power supply terminal 30 after preventing conducting end 521 to be depressed in insulated connecting piece 54.

In some embodiments, multiple sub-electrodes 52 are arranged around an axis along annular, peripheral, and 52 or more multiple sub-electrodes Stating axis is pivot center, can be revolved in the same direction around pivot center under external force, so that the son electricity in receiving pole 50 Pole 52 circulates through power supply terminal 30 and is electrically connected with power supply terminal 30, and making can between the sub-electrode 52 and repeller 210 that are powered Form dedusting electric field.In this embodiment, receiving pole 50 is annular element, receiving pole 50 it is whole can around own axis, Realize that the sub-electrode 52 in 30 pairs of part receiving poles 50 of power supply terminal is powered.

It is to be appreciated that receiving pole 50 is plate, extension side of the receiving pole 50 along its own in some other embodiment To alternating translational, during alternating translational, dock a part of sub-electrode 52 with power supply terminal 30, another part and feeder ear Son 30 misplaces, and can be realized partial current, and part powers off, for the concrete shape and motion mode of receiving pole 50, herein Without limitation.

Optionally, each sub-electrode 52 is in the form of a column or strip, and multiple sub-electrodes 52 with itself extending direction along intersecting Direction setting.In this way, the receiving pole 50 of a variety of formation, receiving pole can be made up of multiple strips or columnar sub-electrode 52 50 are broken down into multiple strips or columnar sub-electrode 52, and the whole shape of receiving pole 50 can be by adjusting multiple sub-electrodes 52 combination flexibly changes.

Dust-collecting mechanism 100 further includes cleaning assembly 70, and cleaning assembly 70 is for cleaning the son powered off in multiple sub-electrodes 52 Electrode 52 automates cleaning to the sub-electrode 52 of power-off, cleans more efficient and convenient.

Specifically, as shown in Fig. 1 and Fig. 5-6, cleaning assembly 70 includes hydro-peening part 72 and drying part 74, hydro-peening part 72 and baking Dry part 74 is set gradually along the direction of motion of multiple sub-electrodes 52, and the sub-electrode 52 of the movement in receiving pole 50 is made to first pass through hydro-peening Part 72 cleans, and is then moved at drying part 74 and dries, finally obtains clean sub-electrode 52.Wherein, hydro-peening part 72 is built-in steams Vapour heating device can spray the higher ejected wash water of temperature to sub-electrode 52, improve cleaning effect.Meanwhile it being distributed on hydro-peening part 72 Multiple/multiple rows of nozzles, can the more ejected wash water of disposable jet, can also be improved cleaning effect.Dry 74 built-in heating part of part With the equal components of wind guide vane 741, hot wind concentration is delivered to by sub-electrode 52 by wind guide vane 741.Also, PTC can be used in heat generating member Equal heating systems.

Optionally, as Figure 7-8, cleaning assembly 70 deviates the path of air-flow outflow receiving pole 50 after purification, so clear Wash component 70 cleaning not will receive air-flow flowing influence, while by the purified air-flow of dedusting electric field without going past Cleaning assembly 70 is secondarily contaminated.Specifically, the flow path of air-flow can be set as many different forms according to demand. For example, receiving pole 50 includes two the first sides 51 being oppositely arranged and two second side being connected between two the first sides 51 53, one of them first side 51 is correspondingly formed dedusting electric field with repeller 210, can be from one by the air-flow flowed out in dedusting electric field A first side 51 flows to another opposite first side 51 (as shown in Figure 7), and the corresponding second side 53 of cleaning assembly 70 is arranged at this time； Alternatively, flowing to a second side 53 (as shown in Figure 8), cleaning assembly from first side 51 by the air-flow flowed out in dedusting electric field 70 corresponding another first sides 51 and/or the setting of another second side 53.

Further, dust-collecting mechanism 100 further includes effluent cycle component, and effluent cycle component is located at the flow path of sewage On, and be connected to hydro-peening part 72, for hydro-peening part 72 will to be re-entered after sewage purification, water flow is recycled.

Effluent cycle component includes foul water tank 92 (as shown in Figure 4) and sewage purification part, and the entrance of foul water tank 92 is located at dirt On the flow path of water, sewage purification part is set in foul water tank 92 to purify sewage, and the outlet of foul water tank 92 is connected to hydro-peening part 72, For purified water flow to be inputted hydro-peening part 72, for cleaning sub-electrode 52 again, realize that water circulation utilizes.Optionally, Foul water tank 92 is located on bracket 10.Wherein, sewage purification part can be ionization purification part or filtration members etc..

Dust-collecting mechanism 100 further includes driving assembly (not shown), and driving assembly is set on bracket 10, is multiple sub-electrodes 52 The opposite movement of bracket 10 provides driving force, and multiple sub-electrodes 52 is driven to move synchronously.Driving assembly includes actuator and driving member, Driving member is connected between actuator and receiving pole 50, by the driving of actuator, receiving pole 50 is driven to move.Wherein, it is driven Part can be gear, and the teeth with gear cooperation can be set on receiving pole 50, be driven by teeth, receiving pole 50 is driven to transport It is dynamic.

As shown in Fig. 1 and Fig. 4, bracket 10 includes upper bracket 12 and lower bracket 14, and power supply terminal 30 is set to 12 He of upper bracket In any one in lower bracket 14, receiving pole 50 is movably set between upper bracket 12 and lower bracket 14, passes through upper branch Frame 12 and lower bracket 14 install receiving pole 50.Specifically, it is provided with guide rail on upper bracket 12 and lower bracket 14, receiving pole 50 is along leading Rail movement limits guidance receiving pole 50 by guide rail, keeps the movement of receiving pole 50 more stable.Optionally, bracket 10 is insulation Part, the material of bracket 10 are polytetrafluoroethylene (PTFE), ceramics, PP, PPE etc., and such bracket 10 is also achieved in addition to providing installation foundation The division of electrification and uncharged region prevents conductive between sub-electrode 52 and bracket 10.

Also, in this embodiment, repeller 210 and dust-collecting mechanism 100 are respectively provided with over the mount 10.It is understood that Ground, in some other embodiment, repeller 210 can also be provided separately on other component, it is not limited here.

In one embodiment of the invention, a kind of above-mentioned dust-collecting mechanism 100 is also provided.Dust-collecting mechanism 100 includes bracket 10, power supply Terminal 30 and receiving pole 50.Power supply terminal 30 is set on bracket 10, and receiving pole 50 includes the sub-electrode 52 of multiple mutually insulateds, The opposite bracket 10 of multiple sub-electrodes 52 moves synchronously, and power supply terminal 30 is located on the motion path of multiple sub-electrodes 52；Multiple sons A part of sub-electrode 52 in electrode 52, which is moved to, to be docked and is powered with feeder ear, another part electricity in multiple sub-electrodes 52 Pole 52, which is moved to, to be misplaced and is powered off with feeder ear.That is, the part sub-electrode 52 in receiving pole 50 is powered, part sub-electrode 52 power-off, not to the whole power on/off of receiving pole 50, in this way, dedusting electricity can be formed between the sub-electrode 52 and repeller 210 that are powered Field dedusting, while the sub-electrode 52 powered off can be cleaned with water.

Also, when surface dust is more after a period of work for the sub-electrode 52 being powered, when needing to clean, multiple sub-electrodes 52 opposite brackets 10 move synchronously, and so that the sub-electrode for being attached with dust 52 is deviateed power supply terminal 30 and power off, then can be to attached There is the sub-electrode 52 of dust to clear up, while the sub-electrode 52 cleaned up is movable to after docking with power supply terminal 30 and is removed Dirt can so make receiving pole 50 remain that partial current dedusting, part power-off cleaning do not need after power-off is shut down again to reception Pole 50 is cleaned, and receiving pole 50 can be cleaned while dedusting, and the cleaning of receiving pole 50 is more convenient.Meanwhile by multiple Sub-electrode 52 moves synchronously, and circulation drives the sub-electrode 52 after cleaning to move to and docks with power supply terminal 30, can make to put into The sub-electrode 52 of dedusting remains more clean, guarantees dust removal performance, prevents dust removal performance because of collector surface dirt product Tire out and declines.

Each technical characteristic of embodiment described above can be combined arbitrarily, for simplicity of description, not to above-mentioned reality It applies all possible combination of each technical characteristic in example to be all described, as long as however, the combination of these technical characteristics is not deposited In contradiction, all should be considered as described in this specification.

The embodiments described above only express several embodiments of the present invention, and the description thereof is more specific and detailed, but simultaneously It cannot therefore be construed as limiting the scope of the patent.It should be pointed out that coming for those of ordinary skill in the art It says, without departing from the inventive concept of the premise, various modifications and improvements can be made, these belong to protection of the invention Range.Therefore, the scope of protection of the patent of the invention shall be subject to the appended claims.

Claims (13)

1. a kind of dust-collecting mechanism (100) characterized by comprising

Bracket (10)；

Power supply terminal (30) is set on the bracket (10)；

Receiving pole (50), the sub-electrode (52) including multiple mutually insulateds；

Wherein, the relatively described bracket (10) of the multiple sub-electrode (52) moves synchronously, and the power supply terminal (30) is located at described On the motion path of multiple sub-electrodes (52)；A part of sub-electrode (52) in the multiple sub-electrode (52) move to The feeder ear is docked and is powered, sub-electrode (52) described in another part in the multiple sub-electrode (52) move to it is described Feeder ear misplaces and powers off.

2. dust-collecting mechanism (100) according to claim 1, which is characterized in that the receiving pole (50) includes insulation connection Part (54), the insulated connecting piece (54) connect the multiple sub-electrode (52).

3. dust-collecting mechanism (100) according to claim 2, which is characterized in that each sub-electrode (52) has conduction It holds (521), each conducting end (521) is protruded the insulated connecting piece (54) and can be docked with the power supply terminal (30).

4. dust-collecting mechanism (100) according to claim 1, which is characterized in that the multiple sub-electrode (52) is around an axis It is arranged along annular, peripheral, and the multiple sub-electrode is using the axis as pivot center, it can under external force in the same direction It revolves around the pivot center.

5. dust-collecting mechanism (100) according to any one of claims 1-4, which is characterized in that further include cleaning assembly (70), the cleaning assembly (70) is used to clean the sub-electrode (52) powered off in the multiple sub-electrode (52).

6. dust-collecting mechanism (100) according to claim 5, which is characterized in that after the cleaning assembly (70) deviates purification Air-flow flows out the path of the receiving pole (50).

7. dust-collecting mechanism (100) according to claim 5, which is characterized in that the cleaning assembly (70) includes hydro-peening part (72) and part (74) are dried, the hydro-peening part (72) and dry part (74) are along the direction of motion of the multiple sub-electrode (52) It sets gradually.

8. dust-collecting mechanism (100) according to claim 7, which is characterized in that further include effluent cycle component, the sewage Recirculation assembly is located on the flow path of sewage, and is connected to the hydro-peening part (72), for will re-enter after sewage purification The hydro-peening part (72).

9. dust-collecting mechanism (100) according to claim 8, which is characterized in that the effluent cycle component includes foul water tank (92) it is located on the flow path of sewage with sewage purification part, the entrance of the foul water tank (92), the sewage purification part is set to To purify sewage in the foul water tank (92), foul water tank (92) outlet is connected to the hydro-peening part (72).

10. dust-collecting mechanism (100) according to any one of claims 1-4, which is characterized in that it further include driving assembly, The driving component is set on the bracket (10), is moved synchronously and is mentioned for the multiple sub-electrode (52) relatively described bracket (10) For driving force.

11. dust-collecting mechanism (100) according to any one of claims 1-4, which is characterized in that the bracket (10) is exhausted Edge part.

12. a kind of air cleaning unit (200), which is characterized in that any including repeller (210) and the claims 1-11 Dust-collecting mechanism (100) described in one, the repeller (210) and the receiving pole (50) relative spacing are arranged, the repulsion Dedusting electric field is formed between pole (210) and the receiving pole (50).

13. air cleaning unit (200) according to claim 12, which is characterized in that the repeller (210), which has, permits Perhaps mistake air port (212) that air-flow passes through, air-flow flow to the reception by the repeller (210) by air port (212) excessively Pole (50), and the repeller (210) ionization flows through the air for crossing air port (212), charges the dust in air.