CN109028384A - Air processor - Google Patents

Abstract

The present invention discloses a kind of air processor, and the air processor has an air inlet, and the air processor includes: grid component, is set to the air inlet, the grid component includes multiple grille strips arranged in a crossed manner；With ion generator, positioned at the air side of the grid component.Technical solution of the present invention can reduce ion generator bring security risk.

Description

Air processor

Technical field

The present invention relates to air-treatment field, in particular to a kind of air processor.

Background technique

Generally, in air processor, ion generator is the outside that air processor is arranged in, i.e. ion Generator is exposed outside setting, and what is connect due to ion generator is high-voltage electricity, ion generator be exposed outside be easy to cause by , so there is biggish security risk in user's touching.

Summary of the invention

The main object of the present invention is to propose a kind of air processor, it is intended to it is hidden safely to reduce ion generator bring Suffer from.

To achieve the above object, air processor proposed by the present invention, the air processor have an air inlet, And the air processor includes:

Grid component is set to the air inlet, and the grid component includes multiple grille strips arranged in a crossed manner；With,

Ion generator, positioned at the air side of the grid component.

Optionally, the air processor further includes finned heat exchanger, and the finned heat exchanger is set to the lattice The air side of grid component, and finned heat exchanger ground connection setting, the ion generator are located at the finned heat exchanger Inlet side.

Optionally, the ion generator is set to the air inlet.

Optionally, the air inlet is in long strip, and the air processor includes multiple ion generators, multiple The ion generator is arranged along the length direction interval of the air inlet.

Optionally, middle part setting of the ion generator in the width direction of the air inlet.

Optionally, multiple grille strips include that multiple lined grizzly bars extended transversely and at least one are vertically extending Perpendicular grille strip, the perpendicular grille strip and the lined grizzly bar are arranged in a crossed manner；

The perpendicular grille strip extends along the length direction of the air inlet, and multiple ion generators are set to described perpendicular On grille strip.

Optionally, the air inlet is divided into two air inlet regions by the perpendicular grille strip, on the perpendicular grille strip and edge Length direction is equipped at intervals with the multipair ion generator, and is divided into the perpendicular grid with the two a pair of ion generators The two opposite sides of item.

Optionally, the air processor also has an air outlet, and the ion generator is set to the air outlet.

Optionally, the air processor further includes electrodecontamination module, and the electrodecontamination module is mounted on the grid On component.

Optionally, the air processor is air conditioner, and the air conditioner includes finned heat exchanger, described finned Heat exchanger is set to the air side of the grid component, and finned heat exchanger ground connection setting, the ion generator are located at The inlet side of the finned heat exchanger.

Optionally, the air conditioner further includes blower, and the blower is set to the air side of the grid component, the ion Generator is set between the blower and the finned heat exchanger.

Optionally, the air conditioner further includes automatic cleaning module, and the automatic cleaning module is used for described finned Heat exchanger is cleaned.

In the present invention, by the way that ion generator to be arranged in the air side of grid component, ion generator is by grid component Including blocking, more grille strips on grid component can prevent the hand of user from protruding into air processor, therefore avoid using Family is contacted with ion generator, to reduce the security risk of ion generator.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention for those of ordinary skill in the art without creative efforts, can be with The structure shown according to these attached drawings obtains other attached drawings.

Fig. 1 is the decomposition diagram of one embodiment of air processor of the present invention；

Fig. 2 is the structural schematic diagram of air inlet faceplate and air inlet bracket in Fig. 1；

Fig. 3 is the structural schematic diagram that bracket is entered the wind in Fig. 1；

Fig. 4 is the structural schematic diagram of cleaning module in Fig. 1；

Fig. 5 is the decomposition diagram of cleaning module in Fig. 4；

Fig. 6 is cleaning module and the structural schematic diagram after air inlet bracket assembled in Fig. 1；

Fig. 7 is the structural schematic diagram that bracket is entered the wind in Fig. 1；

Fig. 8 is the enlarged drawing in Fig. 4 at A；

Fig. 9 is that air inlet bracket installs the structural schematic diagram after high pressure pack assembly in Fig. 7；

Figure 10 is the structural schematic diagram of Fig. 9 mesohigh pack assembly；

Figure 11 is the structural schematic diagram of air inlet bracket from another viewpoint in Fig. 7；

Figure 12 is the enlarged drawing in Figure 11 at F；

Figure 13 is the structural schematic diagram of cleaning module from another viewpoint in Fig. 4；

Figure 14 is the enlarged drawing in Figure 13 at C；

Figure 15 is the enlarged drawing in Figure 11 at E；

Figure 16 is the decomposition diagram of Figure 10 mesohigh pack assembly；

Figure 17 is the enlarged drawing in Fig. 7 at B；

Figure 18 is the structural schematic diagram of Figure 10 mesohigh pack assembly from another viewpoint；

Figure 19 is the assembling schematic diagram of cleaning module and high pressure pack assembly in Fig. 1；

Figure 20 is the enlarged drawing in Figure 10 at D；

Figure 21 is the enlarged drawing in Figure 19 at G.

Drawing reference numeral explanation:

The embodiments will be further described with reference to the accompanying drawings for the realization, the function and the advantages of the object of the present invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiment is only a part of the embodiments of the present invention, instead of all the embodiments.Base Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts it is all its His embodiment, shall fall within the protection scope of the present invention.

It is to be appreciated that if relating to directionality instruction (such as up, down, left, right, before and after ...) in the embodiment of the present invention, Then directionality instruction be only used for explain under a certain particular pose (as shown in the picture) between each component relative positional relationship, Motion conditions etc., if the particular pose changes, directionality instruction is also correspondingly changed correspondingly.

In addition, being somebody's turn to do " vertical ", " transverse direction " etc. if relating to the description of " vertical ", " transverse direction " etc. in the embodiment of the present invention Description be used for description purposes only, be not understood to indicate or imply its relative importance or implicitly indicate indicated skill The quantity of art feature." vertical " is defined as a result, the feature of " transverse direction " can explicitly or implicitly include at least one spy Sign.It in addition, the technical solution between each embodiment can be combined with each other, but must be with those of ordinary skill in the art's energy It is enough realize based on, will be understood that the knot of this technical solution when conflicting or cannot achieve when occurs in the combination of technical solution Conjunction is not present, also not the present invention claims protection scope within.

The present invention proposes a kind of air processor, which specifically can be air conditioner, such as split type The types such as air conditioner wall-mounted machine, integrated air conditioner, mobile air conditioner, four sides air-out ceiling machine or window machine, integrated air conditioner can be also side The types such as shape cabinet-type air conditioner or round cabinet-type air conditioner；The air processor can also be air purifier, such as Mobile air purifying Device, ceiling type air purifier or vertical air eliminator etc..

In embodiments of the present invention, Fig. 1 to Fig. 3 is please referred to, air processor includes shell and blower, for air conditioner For, air conditioner also has heat exchanger (such as finned heat exchanger), an air duct is formed in shell, blower and heat exchanger are all provided with It sets in air duct.Shell generally comprises air inlet faceplate 10 and wind outlet panel (not shown go out), such as in round cabinet-type air conditioner, air inlet faceplate 10 and wind outlet panel can be enclosed a cricoid shell, and air inlet faceplate 10 and wind outlet panel are in arc-shaped.In the embodiment, Air inlet faceplate 10 is connect with wind outlet panel, is preferably detachably connected, and is connected for example, by using modes such as buckle or screws, so as to In the shell for opening air conditioner.In some embodiments, it is equipped with grid component 21 on air inlet faceplate 10, is set in wind outlet panel There are air outlet grate or wind deflector；Or in further embodiments, a big air inlet 10a is set on air inlet faceplate 10, and Be additionally provided with an air inlet bracket 20 on air inlet faceplate 10, the air inlet lid of bracket 20 is located at air inlet 10a, and enter the wind on bracket 20 The position of corresponding air inlet 10a is equipped with grid component 21.Optionally, air inlet bracket 20 is mounted on the inlet side of air inlet faceplate 10, And it enters the wind bracket 20 and forms a protrusion in the inlet side of air inlet faceplate 10, in favor of forming the lateral of installation cleaning module 30 Opening.Air inlet bracket 20 and air inlet faceplate 10 are detachably connected, for example, air inlet bracket 20 and air inlet faceplate 10 use spiral shell The modes such as nail, buckle are attached, in order to enter the wind the disassembly of bracket 20.Specifically, on air inlet bracket 20 and near side (ns) can be leaned on Multiple studs are set at edge, multiple studs are provided at circumferentially spaced along air inlet bracket 20, screw hole is set on air inlet faceplate 10, It is attached between stud and screw hole by screw.This is by being split as air inlet faceplate 10 for mounting rack and enters the wind the shape of bracket 20 Formula is conducive to simplify single structure, therefore is convenient for the processing of single structure；In addition, air inlet bracket 20 is mounted on air intake surface On plate 10, and the installation site of the two is exposed, therefore is conducive to user and entirely removes to air inlet bracket 20.Furthermore in other embodiments In, air inlet faceplate 10 and air inlet bracket 20 are also possible to integrated injection molding.When being applied in round cabinet-type air conditioner, air inlet faceplate 10, entering the wind bracket 20 and wind outlet panel is arranged in arc-shaped.

Air processor in the embodiment of the present invention has an air inlet 10a, an air outlet and an air duct, air inlet 10a is connected to air outlet by air duct.The settable grid component 21 at air inlet 10a, for example, in not set air inlet faceplate 10 Or air inlet bracket 20 embodiment in, grid component 21 can be set up directly on the air inlet 10a in air duct at, and with formation air duct Shell connection.Grid component 21 includes more grille strips being staggered, and air is from the air inlet formed between adjacent grid item Hole enters air duct, for example, as shown in figure 3, more grille strips include the more lined grizzly bars 212 extended transversely and an at least edge Vertically extending perpendicular grille strip 211, perpendicular grille strip 211 are staggered with more lined grizzly bar 212.

Further, air processor includes air-treatment device, and air-treatment device is located at going out for grid component 21 Wind side, generally, air-treatment device are arranged in air duct, can handle air, and air-treatment device can be set The air inlet 10a or air outlet in air duct are set, certainly, air-treatment device may be alternatively located at the middle part in air duct.Specifically, empty Gas disposal device can be electrodecontamination module 30, and when air flows through electrodecontamination module 30, electrodecontamination module 30 can adsorb air In charged dust；Air-treatment device can be filter screen, and filter screen can be filtered the bulky grain in air；At air Managing device can be anion generator 40, and ion generator 40 can discharge anion, increase anion concentration in air；Air Processing apparatus can be also humidifier, and humidifier can be towards indoor release steam；Air-treatment device can be also washing module, wash mould Block is capable of forming flushing water curtain, to clean to the air for flowing through washing module；In air conditioner, air-treatment device can also For heat exchanger, to be heated or be freezed to air；Certainly, air-treatment device can also for electrodecontamination module 30, filter screen, The combination of any the two such as ion generator 40, heat exchanger, humidifier, washing module, heat exchanger or more persons.

The specific structure of air-treatment device is illustrated by taking multiple embodiments as an example below, but not limited to this.

Specifically, in the first embodiment, air-treatment device includes cleaning module 30.

Incorporated by reference to reference fig. 4 to fig. 6, which is preferably electrodecontamination module 30, after electrodecontamination module 30 is powered High pressure can be generated, to adsorb the charged dust in air；Certainly, cleaning module 30 can also be common filter screen, being capable of mistake Filter the large particle in air.In addition, cleaning module 30 can also be the binding modules of electrodecontamination layer 31 and filter layer 32, also It is to say, cleaning module 30 includes the electrodecontamination layer 31 and filter layer 32 being stacked, and optionally, filter layer 32 is set to electrodecontamination layer Attachment of the large particle on electrodecontamination layer 31 is reduced first to cross the large particle in air filtering in 31 inlet side.Cleaning module 30 specifically include outline border 33 and purification ontology, and purification ontology may include electrodecontamination layer 31 and filter layer 32 among the above, outline border 33 Along purification ontology neighboring setting, and will purification ontology be disposed around in, purification ontology clamped by outline border 33.

Incorporated by reference to reference Fig. 6 and Fig. 7, in the present embodiment, mounting rack is equipped at the air inlet 10a of air processor, Cleaning module 30 is mounted on mounting rack, is equipped with grid component 21, grid component 21 and mounting rack in the air intake surface of mounting rack Accommodation groove 20a is formed between air intake surface, accommodation groove 20a is located at the air side of grid component 21, and cleaning module 30 is installed on accommodating Slot 20a, so that the purified module 30 of air passes through mounting rack.Generally, accommodation groove 20a has outlet air inwardly open, with benefit It is flowed in air, and cleaning module 30 can be installed in accommodation groove 20a from the outlet air opening.Grid component 21 is spacious towards outlet air Mouth setting, and grid component 21 constitutes a wherein cell wall of accommodation groove 20a, such as third cell wall, cleaning module 30 and grid Component 21 contacts, and grid component 21 limits cleaning module 30, and cleaning module 30 is avoided to drop out outwardly.

It should be noted that the mounting rack in the embodiment can be air inlet faceplate 10, accommodation groove 20a is formed in air inlet faceplate On 10；Alternatively, mounting rack includes air inlet bracket 20 and air inlet faceplate 10, accommodation groove 20a can be both formed on air inlet bracket 20, Also it may be formed on air inlet faceplate 10, it can also be by being collectively formed between air inlet bracket 20 and air inlet faceplate 10.Alternatively, mounting rack For to install cleaning module 30 the shelf that air inlet is arranged in, it is different from air inlet bracket and air inlet faceplate 10.? That is cleaning module 30 both may be mounted on air inlet bracket 20, also may be mounted on air inlet faceplate 10, it can also be simultaneously It is mounted on air inlet bracket 20 and air inlet faceplate 10, the component of a support can also be separately provided to supply it to be installed.

For the taking-up convenient for cleaning module 30, in one embodiment, accommodation groove 20a has a lateral openings 20b, purifies mould Block 30 is installed on accommodation groove 20a from lateral openings 20b.Lateral openings 20b is set to the air intake surface of mounting rack, that is to say, that laterally opens Mouth 20b can be emerging in outside air inlet bracket 20, be operated convenient for user to cleaning module 30.In the present embodiment, cleaning module 30 are detachably connected with mounting rack, and cleaning module 30 can slide in or out accommodation groove 20a from lateral openings 20b, thus Conducive to replacement or cleaning module 30.

Grid component 21 includes more grille strips, for example including more lined grizzly bar 212 and at least one perpendicular grille strip 211, Perpendicular grille strip 211 is sequentially connected more lined grizzly bar 212 and is arranged, and at least one perpendicular grille strip 211 is close to the end of lined grizzly bar 212 Setting.Air processor further includes vertical bar 22 and at least two transverse bars 23, and vertical bar 22 and the interval of grid component 21 are arranged, and vertical bar 22 are arranged close to the perpendicular grille strip 211 positioned at lined 212 end of grizzly bar；Transverse bar 23 is separately connected vertical bar 22 and is located at lined grizzly bar The perpendicular grille strip 211 of 212 ends, two transverse bars 23 are arranged along the length direction interval of vertical bar 22, vertical bar 22, two transverse bars 23 and position A lateral openings 20b is collectively formed in perpendicular grille strip 211 in lined 212 end of grizzly bar, and cleaning module 30 is pacified from lateral openings 20b Loaded on grid component 21.In the embodiment, grid component 21, transverse bar 23 and vertical bar 22 collectively form air inlet bracket 20.

In the embodiment, in such a way that a lateral openings 20b is set come for the installation of cleaning module 30, it is conducive to cleaning module 30 are pushed into the air side of grid component 21 from lateral openings 20b, while being also conducive to cleaning module 30 from lateral openings 20b Grid component 21 is pulled out, so that convenient cleaned or replaced to cleaning module 30.In addition, due to lateral openings 20b be by What vertical bar 22, two transverse bars 23 and the perpendicular grille strip 211 positioned at lined 212 end of grizzly bar were collectively formed, vertical bar 22 and transverse bar 23 Setting, be conducive to improve grid component 21 structural strength, greatly reduce the deformation of grid component 21.

For the more lateral openings 20b of formation, vertical bar 22 and between the perpendicular grille strip 211 of lined 212 end of grizzly bar At least three transverse bars 23 are connected with, constitute a lateral openings 20b between adjacent two transverse bar 23.For example, in some embodiments, together One vertical bar 22 is equipped with three transverse bars 23, wherein two transverse bars 23 are divided into the both ends of vertical bar 22, another transverse bar 23 is located at vertical bar 22 Middle part then to be mounted on any so that the same side of grid component 21 forms two lateral openings 20b of the same size The size of cleaning module 30 at one lateral openings 20b is identical and interchangeable, it is only necessary to produce the cleaning module 30 of same size , be conducive to save die cost.Certainly, another transverse bar 23 may also deviate from the middle part setting of vertical bar 22, then grid component 21 The same side formed two lateral openings 20b it is of different sizes.In other embodiments, in same vertical bar 22 also it is settable more More transverse bars 23, such as same vertical bar 22 are equipped with five transverse bars 23, then form four laterally in the same side of grid component 21 Be open 20b, can install four cleaning modules 30.Form multiple lateral openings 20b's by setting at least three transverse bars 23 Form, can reduce the size of each lateral openings 20b, to reduce the size of cleaning module 30, be conducive to small size and purify mould The processing of block 30, and the flexibility that cleaning module 30 is pushed into lateral openings 20b also can be improved；Furthermore more transverse bars 23 is set, It is more preferable to the reinforcing effect of 21 structure of grid component, it is more advantageous to the deformation for reducing grid component 21.

Further, the both ends of lined grizzly bar 212 are respectively provided with a perpendicular grille strip 211, and are located at lined 212 end of grizzly bar Two perpendicular grille strips 211 be equipped at intervals with a vertical bar 22, the perpendicular grille strip 211 and vertical bar 22 positioned at lined 212 the same end of grizzly bar Between be respectively connected with more transverse bars 23 so that the two opposite sides of grid component 21 are each formed with lateral openings 20b.Due in lattice The two opposite sides of grid component 21 are each formed with lateral openings 20b, then in some embodiments, same cleaning module 30 can be from grid The lateral openings 20b of any side of component 21 is installed, and the Installation Flexibility of cleaning module 30 is improved；In other embodiments In, it can be respectively mounted cleaning module 30 in the lateral openings 20b of any side of grid component 21, can so reduce cleaning module 30 Size increases the quantity of cleaning module 30, to improve the Installation Flexibility of cleaning module 30.

Further, referring to Figure 7, air processor further includes 211 ' of bit-stopping structure, 211 ' of bit-stopping structure is set In the air side of grid component 21, and 211 ' of bit-stopping structure is opposite with lateral openings 20b, and cleaning module 30 deviates from lateral openings The side wall of 20b is abutted with 211 ' of bit-stopping structure.Specifically, 211 ' of bit-stopping structure is vertically extending and in a strip shape, then it is all Lateral openings 20b can share 211 ' of a bit-stopping structure, so facilitate the setting of 211 ' of bit-stopping structure.It is lined in the present embodiment Another perpendicular grille strip 211 is additionally provided on grizzly bar, which protrudes the air side setting of lined grizzly bar, to constitute 211 ' of bit-stopping structure；Certainly, in other embodiments, chute 51 (as shown in Figure 10), cabling are installed on perpendicular grille strip 211 Frame 51 constitutes 211 ' of bit-stopping structure；Or chute 51 and perpendicular grille strip 211 collectively form 211 ' of bit-stopping structure.Work as cleaning module 30 are pushed to inwardly when supporting 211 ' of bit-stopping structure, and cleaning module 30 stops movement, and the setting of 211 ' of bit-stopping structure can prevent only It is mobile excessive inwardly to change module 30.And perpendicular grille strip 211 constitutes the form of 211 ' of bit-stopping structure, simplifies integrally-built add Work, and the perpendicular protrusion of grille strip 211 is arranged in the air side of lined grizzly bar 212, the thickness for being equivalent to the perpendicular grille strip 211 is larger, Be conducive to be promoted the structural strength of grid component 21.Certainly, 211 ' of bit-stopping structure can also go out for additional setting in grid component 21 The block of wind side, and multiple blocks can be set along the length direction interval of perpendicular grille strip 211.It should be noted that in grid The two opposite sides of component 21 are provided in the embodiment of lateral openings 20b, and 211 ' of bit-stopping structure is located at the two of grid component 21 Between opposite side, and separate the lateral openings 20b of the two opposite sides of grid component 21, the two opposite sides of grid component 21 it is lateral The 20b that is open shares 211 ' of a bit-stopping structure.

Incorporated by reference to reference Fig. 8 to Figure 10, the side wall and 211 ' of bit-stopping structure away from lateral openings 20b of cleaning module 30 it Between one of them be equipped with locating slot 30a, another one be equipped with positioning column 511, positioning column 511 and locating slot 30a are mating.Example Such as, the side wall of 211 ' of bit-stopping structure is equipped with positioning column 511, and the side wall of cleaning module 30 is equipped with to be plugged together for the adaptation of positioning column 511 Locating slot 30a；Alternatively, 211 ' of bit-stopping structure is equipped with locating slot 30a, the side wall of cleaning module 30 is equipped with positioning column 511.It should In embodiment, positioning column 511 be may be formed on chute 51.Specifically when being installed, positioned by the way that positioning column 511 to be inserted into In slot 30a, the contraposition accuracy of cleaning module 30 can be improved, avoid 30 positional shift of cleaning module and can not accurately install. For the grafting convenient for positioning column 511 and locating slot 30a, the notch of locating slot 30a can be in flared, the i.e. notch of locating slot 30a It is arranged outwardly in flaring, in favor of the insertion of positioning column 511；In addition, on the direction close to the free end of positioning column 511, it is fixed The outer diameter of position column 511 can also be gradually reduced, to form guide part in the free end of positioning column 511.Cleaning module 30 is equipped with ring Shape convex ribs, cyclic annular convex ribs, which enclose, to be set to form a positioning groove 30a；Alternatively, locating slot 30a can also be on the side wall of cleaning module 30 directly The form of aperture is formed.Among the above, in the embodiment that cleaning module 30 includes purification ontology and outline border 33, locating slot 30a is set It sets on purification ontology, such as electrodecontamination ontology or locating slot 30a is arranged on outline border 33.

Incorporated by reference to reference Figure 11 and Figure 12, further, air processor further includes position limiting structure 26, position limiting structure 26 Set on the air side of grid component 21, a position limiting structure 26, cleaning module are equipped on the lateral position where each transverse bar 23 30 between two adjacent position limiting structures 26.Specifically, position limiting structure 26 is connect with transverse bar 23, and position limiting structure 26 is along cross The extending direction of grille strip 212 extends and in a strip shape, for example, position limiting structure 26 can be plate-like.By by position limiting structure 26 and horizontal Muscle 23 connects, then after cleaning module 30 is pushed into lateral openings 20b, cleaning module 30 can move inwardly along position limiting structure 26 Dynamic, position limiting structure 26 can play better guiding role to cleaning module 30.In other embodiments, position limiting structure 26 may include Multiple spaced limited blocks of extending direction along lined grizzly bar 212.It, can be to cleaning module by the way that position limiting structure 26 is arranged 30 both ends are limited, guarantee cleaning module 30 can be moved inwardly along the space between adjacent two position limiting structure 26 and with only 211 ' of bit architecture is supported.In the embodiment, position limiting structure 26 is optionally by lined grizzly bar 212 towards projecting inward grid component 21 Outlet air surface is formed.

Air processor further includes that limit convex is equipped with a limit convex along 27 along 27, each position limiting structure 26, is limited Convex edge 27 is located at the side far from lined grizzly bar 212 of position limiting structure 26, and limit convex is arranged along 27 with lined grizzly bar 212 interval, Cleaning module 30 is located at limit convex between 27 and lined grizzly bar 212.In the embodiment, limit convex is along being laterally extended along 27 , cleaning module 30 is located at limit convex between 27 and grid component 21, so that cleaning module 30 be avoided to topple over inwardly, and limits The setting of convex edge 27 is mutually equivalent to so that limit convex forms guide groove between 27 and grid component 21, so as to cleaning module Guiding role is played in 30 push-and-pull.

Limit convex along 27 far from lateral openings 20b direction on, it is gradually close towards grid component 21, that is to say, that Close to the position of lateral openings 20b, limit convex is larger along the distance between 27 and grid component 21, therefore is conducive to cleaning module 30 Limit convex is protruded between 27 and grid component 21, guarantees smoothness when cleaning module 30 protrudes into initial；It is laterally opened separate The position of mouth 20b, limit convex is smaller along the distance between 27 and grid component 21, and the guide groove formed between the two is gradually received Hold together, to play better guiding role to cleaning module 30 so that cleaning module 30 gradually with grid component 21 and limit convex It is abutted along 27 contacts, achievees the purpose that limiting cleaning module 30 shakes.

In the present embodiment, cleaning module 30 can slide between two position limiting structures 26, two adjacent position limiting structures An accommodation groove 20a is constituted between 26, i.e. the opposite accommodation groove 20a of cleaning module 30 slidably, and is to guarantee that cleaning module 30 pushes and pulls It is smooth, while also guaranteeing after cleaning module 30 pushes in place, cleaning module 30 can be by the lower cell wall and upper slot of accommodation groove 20a Wall (i.e. two position limiting structures 26) clamping, thus in some embodiments, incorporated by reference to reference Figure 13 and Figure 14, cleaning module 30 and limit It is equipped with elastic spacing one 34 between structure 26, is abutted between cleaning module 30 and position limiting structure 26 by elastic spacing one 34.Tool For body, either two end faces are equipped with elastic spacing one 34 on any one end face of cleaning module 30, alternatively, limiting Bit architecture 26 is equipped with elastic spacing one 34.In 30 sliding process of cleaning module, elastic spacing one 34 is extruded, to guarantee Cleaning module 30 can be pushed smoothly, and after cleaning module 30 pushes in place, elastic spacing one 34 bounces, and is connected to purification In module 30 or position limiting structure 26, so that cleaning module 30 is abutted clamping with position limiting structure 26.

Specifically, elastic spacing one 34 can be the types such as elastic arm, spring or spring and the combination for abutting block.Some In embodiment, elastic spacing one 34 is elastic arm, and the surface towards position limiting structure 26 of cleaning module 30 is equipped with relief hole 30b, Elastic spacing one 34 is set in relief hole 30b, and one end of elastic spacing one 34 is connect with the peritreme of relief hole 30b, the other end Equipped with protrusion 341 is abutted, relief hole 30b setting can be protruded outwardly by abutting protrusion 341, can be abutted with position limiting structure 26, And abutting protrusion 341 can also be placed in relief hole 30b, to be detached from the abutting with position limiting structure 26.By the way that relief hole 30b is arranged Form reduce elastic spacing one 34 so that elastic spacing one 34 when being extruded, can be all contained in relief hole 30b Interference when being slided to cleaning module 30.Certainly, relief hole 30b can not also be opened up on cleaning module 30, elastic arm is directly convex Out in the outside of cleaning module 30；In addition, the structure of elastic arm is also not limited to above structure, for example, elastic arm may include edge The linking arm and the overarm arm extended transversely, linking arm one end that up and down direction extends are connect with cleaning module 30, overarm arm It is connected to the other end of linking arm, and overarm arm is abutted with the cell wall of accommodation groove 20a.

Incorporated by reference to reference Figure 15, further, position limiting structure 26 is equipped with limiting slot 20e, and elastic spacing one 34 is connected to In limiting slot 20e.By the way that limiting slot 20e is arranged, then after cleaning module 30 is pushed in place inwardly, elastic spacing one 34 is outwardly Restore flexible deformation and protrude into limiting slot 20e, and abutted with the cell wall of limiting slot 20e, upper and lower is being realized to cleaning module 30 To limit while, moreover it is possible to play certain position-limiting action on the direction lateral openings 20b, avoid cleaning module 30 due to Air conditioner shaking skids off limiting slot 20e, and it is excessively mobile inwardly also to can avoid cleaning module 30.It is sliding convenient for elastic spacing one 34 Enter or skid off limiting slot 20e, the notch of limiting slot 20e is arranged in flaring, and specifically, limiting slot 20e has along accommodation groove Spaced two guide surface in the direction lateral openings 20b of 20a, two guide surfaces close to limiting slot 20e notch direction on by Gradually extend towards the direction being located remotely from each other, guide surface is obliquely arranged or arc-shaped setting, with the cunning to elastic spacing one 34 Enter or skid off and plays guiding role.

Deviate to prevent that cleaning module 30 is shaken from lateral openings 20b, therefore the close lateral openings of cleaning module 30 The side of 20b is detachably connected with vertical bar 22, for example, the side of the close lateral openings 20b of cleaning module 30 and vertical bar It is clamped between 22 by buckle structure.Specifically, the side of the close lateral openings 20b of cleaning module 30 is equipped with buckle 35, Vertical bar 22 is equipped with clamping bump 28, and after cleaning module 30 is installed in place, buckle 35 is clamped with clamping bump 28.

Incorporated by reference to reference Fig. 9 and Figure 16, further, air processor further includes high pressure pack assembly 50, high pressure package Part 50 can power for air-treatment device.Specifically, high pressure pack assembly 50 includes high voltage package ontology 52, and high voltage package ontology 52 passes through Conducting wire is electrically connected with air-treatment device, for convenience of cabling, conducting wire at least partly depend on grille strip setting, for example, at least part according to Attached lined grizzly bar 212 or perpendicular grille strip 211 are installed.More grille strips may also comprise the types such as oblique grille strip.In the present embodiment, lead to It crosses and conducting wire is attached on lined grizzly bar 212 or perpendicular grille strip 211, so that conducting wire is along lined grizzly bar 212 or perpendicular grille strip 211 Extend, can be avoided conducting wire and accumulate in a jumble, so that the arrangement of conducting wire is cleaner and tidier, and conducting wire is attached to lined grizzly bar 212 or perpendicular On grille strip 211, i.e., position close to air inlet 10a facilitates user that conducting wire is repaired or replaced.

In some embodiments, conducting wire is set up directly on grille strip, for example, lined grizzly bar 212 on grille strip Or perpendicular grille strip 211 is equipped with cabling channel, conducting wire is located in cabling channel.By way of cabling channel is arranged, so that conducting wire accommodates It in cabling channel, not only improves and guiding installation is carried out to conducting wire, and gouging abrasion between conducting wire and other objects can be reduced Possibility.

In further embodiments, conducting wire is indirect setting on grille strip, such as lined grizzly bar 212 or perpendicular grille strip On 211.Specifically, high pressure pack assembly 50 further includes chute 51, chute 51 is mounted on grid component 21, chute 51 With cabling channel, conducting wire is set in cabling channel.In the embodiment, chute 51 and grid component 21 are two independent components, Conducting wire is mounted in the cabling channel in chute 51, rather than conducting wire is directly installed on grid component 21, therefore in conducting wire When there is connecting fault and needing repairing or replace, or when conducting wire is installed, it is only necessary to chute 51 is removed, Without entirely removing grid component 21, therefore it is conducive to the setting of 51 inside conductor of chute.In addition, since conducting wire is that setting exists It in chute 51, so avoids that conducting wire is exposed outside, the safety of air processor can either be improved, and can reduce A possibility that conducting wire is damaged by collision.

Among the above, the notch of cabling channel is also covered with cover board 514.For example, on lined grizzly bar 212 or perpendicular grille strip 211 Cabling slot cover set cover board 514, conducting wire is enclosed in, play a protective role to conducting wire.Alternatively, being set in 51 upper cover of chute Cover board 514.

Incorporated by reference to reference Figure 17, chute 51 is detachably connected with grid component 21, specifically, chute 51 and grid Component 21 is connected by screw to or chute 51 is clamped with grid component 21 by buckle 35.Chute 51 substantially can be in strip A screw hole is respectively arranged in shape, the both ends of chute 51, and two mounting bases 24 are then arranged on grid component 21, equally set in mounting base 24 Screw hole is set, one end of chute 51 is mounted in a mounting base 24, and the other end is mounted in another mounting base 24, and passes through screw By the locking of chute 51 in mounting base 24.

The air side of grid component 21 is equipped with mounting groove 20c, and chute 51 is located in mounting groove 20c.It is installed by setting Slot 20c installs chute 51, so that chute 51 is accommodated in mounting groove 20c, therefore can reduce chute 51 in grid group The protrusion height of the air side of part 21 reduces blocking of 51 protrusion of chute to air flowing.Optionally, mounting groove 20c is to set It sets on 211 ' of bit-stopping structure.

The slot bottom of mounting groove 20c is equipped with reinforcing rib 29, and the side away from mounting groove 20c slot bottom of reinforcing rib 29 is equipped with card Slot, chute 51 are arranged in card slot.In the mounting groove 20c and along its length multiple reinforcing ribs 29 of space set, for example, The reinforcing rib 29 of settable five, six, eight or other numerical value in mounting groove 20c.Reinforcing rib 29 can play lateral limit Position, avoids the movement of chute 51 in a lateral direction；In addition, being pushed inwardly in cleaning module 30 and squeezing 211 ' of bit-stopping structure When, and to 211 ' of bit-stopping structure generate impact force when, reinforcing rib 29 can play the role of reinforcement structure, can absorb impact Power, to guarantee the not deviation post of chute 51.

In some embodiments, chute 51 extends and in long strip along perpendicular grille strip 211, i.e. the setting of chute 51 is perpendicular On grille strip 211, and mounting groove 20c is set on perpendicular grille strip 211；In other embodiments, chute 51 is along lined grizzly bar 212 Extend and in long strip, i.e., the setting mounting groove 20c on lined grizzly bar 212.

In the present embodiment, high voltage package ontology 52 is mounted in cabling channel, in the embodiment for having chute 51, high voltage package sheet Body 52 is mounted on chute 51, is formed an integral module with chute 51, is conducive to integral installation, and high voltage package sheet Body 52 is located in cabling channel, and convenient for conducting wire in cabling channel interior cabling, so avoidable conducting wire is exposed at outside cabling channel.

Above and along the direction far from high voltage package ontology 52 first lead-out terminal 512 and the second output are successively arranged in cabling channel Terminal 513, conducting wire include the first conducting wire and the second conducting wire, and first lead-out terminal 512 passes through the first conducting wire and high voltage package ontology 52 Electrical connection, second output terminal 513 are electrically connected by the second conducting wire with high voltage package ontology 52；In the embodiment, high voltage package ontology 52 for accessing power supply, and power supply is carried out boosting processing；Wherein it is possible to by first lead-out terminal 512 and second output terminal 513 are electrically connected with cleaning module 30, charge cleaning module 30, to adsorb the dust with ion, achieve the effect that air cleaning； Alternatively, first lead-out terminal 512 and second output terminal 513 can also be electrically connected with ion generator 40 (as shown in figure 18) It connects, so that ion generator 40 generates cation or anion, charges the dust in air, to improve cleaning module 30 Clean-up effect.In addition, first lead-out terminal 512 and second output terminal 513 can also be connect with other components, it specifically can basis Depending on the structure of air-treatment device.

It is understood that cabling for convenience, it will usually keep the cabling mode of the first conducting wire and the second conducting wire consistent or It is close, and when first lead-out terminal 512 and sub 513 components different from air-purifying module 30 of second output terminal, alternatively, with same When the different location electrical connection of one component, first lead-out terminal 512 and second output terminal son 513 are specific with high voltage package ontology 52 It is not identical.When first lead-out terminal 512 and second output terminal 513 are arranged successively along the direction far from high voltage package ontology 52, The second conducting wire being electrically connected with second output terminal 513 can be close to first lead-out terminal 512, alternatively, with first lead-out terminal 512 Contact can have the risk for cutting the conducting wire close to the output terminal of high voltage package ontology 52 as a result, influence the work of high voltage package Stability.

To avoid the above problem, in the present embodiment, isolation part is additionally provided in cabling channel, which is located at the second conducting wire Between first lead-out terminal 512, to separate the second conducting wire and first lead-out terminal 512, first lead-out terminal 512 and the are prevented Two conductive contacts and cut the second conducting wire.Wherein, isolation part can be the shapes such as plate, bulk, specifically can be according to the first output Depending on the structure of the position and cabling channel of terminal 512 and the second conducting wire.

Incorporated by reference to reference Figure 16 and Figure 19, it is possible to further make cabling channel include separate setting the first wire casing 51a and First lead-out terminal 512 is set in the first wire casing 51a by the second wire casing 51b, and the second conducting wire is set in the second wire casing 51b.By This, can prevent first lead-out terminal 512 and the second conductive contact and cut the second conducting wire, it can also enough to the first conducting wire Certain position-limiting action is played with the second conducting wire.It should be noted that the first wire casing 51a and the second wire casing 51b can be opened in Chute 51 either grid component 21 it is ipsilateral, can also be opened in chute 51 or grid component 21 it is adjacent or opposite two Side specifically can need to only meet the first wire casing 51a and the second wire casing 51b depending on the structure of chute 51 or grid component 21 Separate setting.In addition, the second conducting wire can partially be located in the second wire casing 51b, the second wire casing 51b can also be entirely located in Interior, the present embodiment is with no restriction.

Wherein, the second conducting wire is distance piece close to one section of first lead-out terminal 512, can make the distance piece and first defeated Terminal 512 is separated by isolation part out, for example, in cabling channel and close to first lead-out terminal 512 position setting one every From portion, such as isolation part can be plate-like, and connects the cell wall of cabling channel, and the direction that isolation part is located at first lead-out terminal 512 is walked The side of wire casing opening, then distance piece extends along isolation part, so that distance piece and first lead-out terminal 512 be kept apart.

Cleaning module 30 be electrodecontamination module 30 embodiment in, electrodecontamination module 30 respectively with first lead-out terminal 512 and second output terminal 513 connect, sub 513 one of them of first lead-out terminal 512 and second output terminal are for exporting high electricity Pressure, another one is for exporting no-voltage, so that air-purifying module 30 forms electrostatic field.As shown in Fig. 8, Figure 20 and Figure 21, this In embodiment, first lead-out terminal 512 is conductive sheet, and first lead-out terminal 512 includes two conductive sheets, and on chute 51 Equipped with conductive trough, two conductive sheets are located in conductive trough, and conductive column is equipped on the side wall of cleaning module 30, and conductive column insertion two is led Conducting is contacted between electric piece.In other embodiments, the structure of first lead-out terminal 512 can also be conductive contact or other Structure, and the structure of second output terminal 513 is similar with the structure of first lead-out terminal 512, details are not described herein again.

In the present embodiment, chute 51 is extended along the edge of electrodecontamination module 30.For example, chute 51 can be located at electricity Above or below cleaning module 30, certainly, chute 51 may be alternatively located at the left side or right side of electrodecontamination module 30, so benefit In the connection of first lead-out terminal 512 and second output terminal 513 and electrodecontamination module 30 on chute 51.

In the present embodiment, the quantity of chute 51 can be depending on the structure of cleaning module 30.Such as: work as air processor When part includes the multiple electrodecontamination modules 30 being distributed along the vertical direction, quantity two of chute 51 can be made, and two are walked Coil holder 51 arranges in a downwardly direction, and each chute 51 vertically extends, and electrodecontamination module 30 is made to be located at two chutes Between 51, to shorten the length of the first conducting wire and the second conducting wire.

In a second embodiment, air-treatment device further includes ion generator 40, ion generator 40 is optional be negative from Electronic generator 40, ion generator 40 and 513 company of first lead-out terminal 512 or second output terminal for output HIGH voltage It connects.When first lead-out terminal 512 and second output terminal 513 and ion generator 40 are electrically connected, the first output end can be made Son 512 and second output terminal 513 export negative high voltage, so that ion generator 40 generates anion.Wherein, when the first output end Sub 512 output HIGH voltages when second output terminal 513 exports no-voltage, can make the first conducting wire and power supply line be set to the second line In slot 51b.Thereby, it is possible to separate the first conducting wire and power supply line with the second conducting wire, to prevent the first conducting wire and power supply line and Voltage difference with higher between two conducting wires and there is the problem of puncture short.In the present embodiment, when high pressure pack assembly 50 includes Ion generator 40, and when 512 output HIGH voltage of first lead-out terminal, ion generator 40 can be made to pass through connecting wire (not Show) be electrically connected with first lead-out terminal 512, to shorten the length of connecting wire, also, when first lead-out terminal 512 and from When electronic generator 40 is arranged successively along the direction far from high voltage package ontology 52, additionally it is possible to prevent 512 company of cutting of first lead-out terminal Connect conducting wire.

In the present embodiment, ion generator 40 is set to the air side of grid component 21, then air is flowing through grid component 21 When, the ion that ion generator 40 is discharged can be dispelled and be come, more preferably taken conducive to by the air of grid component 21 Ion.

Air processor has multiple ion generators 40, and multiple ion generators 40 are spaced setting along the vertical direction, Or, multiple ion generators 40 are spaced setting in left-right direction.Multiple ion generators 40 are set, can discharge more bear from Son, so that the dust in air more takes negative electricity, to improve cleaning effect.

Ion generator 40 can be located at any position in air inlet 10a, air outlet or air duct, for example, in some realities It applies in example, air inlet 10a is in long strip, and multiple ion generators 40 are arranged along the length direction interval of air inlet 10a.Passing through will Multiple ion generators 40 are arranged along the length direction interval of air inlet 10a, so that the distribution of ion generator 40 is wider, And relative to more dispersing, the ion that more conducively ion generator 40 discharges is distributed to each corner of air inlet 10a, guarantee into The both ends of air port 10a can be covered by ion, so that entering the equal energy of the air in air processor from air inlet 10a It is enough preferably to take ion, improve clean-up effect.Specifically, ion generator 40 can be close to the width direction of air inlet 10a On middle part setting, that is to say, that ion generator 40 can positioned at air inlet 10a medium line on, the medium line is along air inlet The length direction of 10a extends, so that the ion that ion generator 40 discharges can be more evenly distributed in the two of medium line The region of side.In addition, ion generator 40 can also be arranged close to the edge of air inlet 10a.

In the embodiment, ion generator 40 is also mountable on grid component 21.Specifically, grid component 21 includes more A grille strip arranged in a crossed manner, multiple grille strips include multiple lined grizzly bars 212 and at least one perpendicular grille strip 211, erect grille strip 211 is arranged in a crossed manner with lined grizzly bar 212.Ion generator 40 may be provided on lined grizzly bar 212 or perpendicular grille strip 211；Or Person, ion generator 40 have multiple, and a part of ion generator 40 may be provided at lined grizzly bar 212, and another part setting exists Perpendicular grille strip 211.

In the present embodiment, the length direction for erecting grille strip 211 along air inlet 10a extends, for example, perpendicular grille strip 211 is reliable The edge setting of nearly air inlet 10a, alternatively, perpendicular grille strip 211 can also be set close to the middle part in the width direction of air inlet 10a It sets.Air inlet 10a is divided into two air inlet regions by perpendicular grille strip 211, and ion generator 40 is set on perpendicular grille strip 211.It is logical It crosses and ion generator 40 is arranged on perpendicular grille strip 211, since perpendicular grille strip 211 is located between two air inlet regions, phase When in ion generator 40 to be placed between two air inlet regions, therefore it is more advantageous to so that the air passed through from air inlet 10a is more Ground takes negative electricity.Air processor includes multiple ion generators 40, length of multiple ion generators 40 along perpendicular grille strip 211 The setting of direction interval is spent, the effect that ion generator 40 discharges ion can be improved.

It is equipped at intervals on perpendicular grille strip 211 and along its length multipair ion generator 40, and with a pair of two ions hair Raw device 40 is divided into the two opposite sides of perpendicular grille strip 211, and is located at two air inlet regions.By by two ion generators 40 Combination in a pair, and is divided into the mode of the two opposite sides of perpendicular grille strip 211, the carbon brush heads of two ion generators 40 (i.e. from Sub- release end) it is arranged in the opposite direction, therefore be conducive to two ion generators 40 and discharge anion in the opposite direction, it is capable of increasing The coverage area of anion.

The plasma diffusing W,Mo end of ion generator 40 is that the side for extending transversely and stretching out perpendicular grille strip 211 is arranged, if The side surface of perpendicular grille strip 211 is stretched out farther out in the plasma diffusing W,Mo end of ion generator 40, then ion generator 40 is exposed to grid Area in the air inlet region of component 21 is larger, larger to the obstruction of air；If the plasma diffusing W,Mo end of ion generator 40 is stretched out The side surface of perpendicular grille strip 211 is closer, then the ion of the plasma diffusing W,Mo end release of ion generator 40 is concentrated on close to perpendicular grid The position of item 211, and the ion on the position far from perpendicular grille strip 211 is less.In the present embodiment, ion generator 40 from The distance between side surface of sub- release end and perpendicular grille strip 211 can be 5~60mm, optionally, the ion of ion generator 40 The distance between the side surface of release end and perpendicular grille strip 211 is 5mm, 8mm or 60mm etc..

In addition, ion generator 40 can also be arranged close to the edge of grid component 21, for example, the setting of ion generator 40 exists The outermost edge of grid component 21；Alternatively, ion generator 40 is arranged at the peritreme of air inlet 10a；Alternatively, ion is sent out Raw device 40 is arranged on the internal perisporium in air duct；Alternatively, ion generator 40 is arranged along the edge of heat exchanger.

It is placed in ion generator 40 in the return air inlet of air processor or the embodiment of air outlet, to avoid ion Generator 40 is exposed outside, thus on grid component 21 be equipped with block piece 25 (as shown in figure 17), block piece 25 can be avoided from Electronic generator 40 is exposed outside.

In the present embodiment, ion generator 40 is also mountable on chute 51, to form an entirety with chute 51 Installation.

Among the above, ion generator 40 is preferably placed at the inlet side of cleaning module 30.Such ion generator 40 can first make Negative electricity on dust lane in air, electronegative dust passes through cleaning module 30 again and is adsorbed, thus cleaning module can be improved 30 clean-up effect.Certainly, ion generator 40 may be alternatively located at the air side of cleaning module 30, then electronegative air is first blown The air outlet of air conditioner out is recycled to the return air inlet of air conditioner, and the absorption of module 30 is cleaned during through air duct.

In the present embodiment, ion generator 40 is arranged close to the lateral margin of cleaning module 30, and such ion generator 40 discharges Anion focus more near cleaning module 30, therefore may make the clean-up effect of cleaning module 30 more preferable.It is more having In the embodiment of a ion generator 40, multiple ion generators 40 are intervally arranged along the lateral margin of cleaning module 30.For example, multiple Anion can be intervally arranged along the left side edge or right side edge of cleaning module 30；Alternatively, multiple anions can be along net The top edges or lower edge for changing module 30 are intervally arranged.

Air processor includes multiple cleaning modules 30, the lateral margin of each cleaning module 30 be correspondingly provided at least one from Electronic generator 40.For example, two ion generators 40 can be respectively provided at the edge of each cleaning module 30.By by each purification mould Block 30 is correspondingly arranged at least one ion generator 40, it is ensured that the dust near each cleaning module 30 can be more Negative electricity is taken well, can more preferably be cleaned the absorption of module 30.

Specifically, grid component 21 is equipped with two groups of air inlet regions, two groups of air inlet regions are distributed in left-right direction, each Group air inlet is equipped with an at least cleaning module 30 in region, and ion generator 40 is located between two groups of air inlet regions.The present embodiment In, air inlet 10a is divided into two air inlet regions by perpendicular grille strip 211, and ion generator 40 is set on perpendicular grille strip 211.Often One group of air inlet region has multiple subregion 20d spaced along the vertical direction, and a purification mould is equipped in each subregion 20d Block 30, the lateral margin of each subregion 20d are equipped with an at least ion generator 40, such as the lateral margin of each subregion 20d can be set Two ion generators 40 are set, two ion generators 40 are spaced setting along the vertical direction.In the present embodiment, by the way that ion is occurred For 40 concentrated setting of device between two groups of air inlet regions, being equivalent to ion generator 40 is the middle part that air inlet 10a is arranged in, and is conducive to Ion generator 40 discharges anion towards surrounding.The carbon brush head of ion generator 40 is directed towards in corresponding air inlet region Extend, with can closer to air inlet region in cleaning module 30.That is two adjacent sub-regions of left and right directions Ion generator 40 on 20d, carbon brush head extend in the opposite direction, and the carbon brush head in left side protrudes into a left side towards left extension The subregion 20d of side, the carbon brush head on right side protrude into the subregion 20d on right side towards right extension.

In the embodiment that air processor is air conditioner, air processor further includes that (figure is not for finned heat exchanger Show), finned heat exchanger is set to the air side of grid component 21, and finned heat exchanger ground connection setting, ion generator 40 Positioned at the inlet side of finned heat exchanger.In the embodiment, ion generator 40 may be provided at air inlet 10a or air inlet Any position between 10a and finned heat exchanger.By the way that ion generator 40 to be arranged in the inlet side of finned heat exchanger, Since finned heat exchanger is ground connection, therefore it can adsorb negatively charged dust, play preferable clean-up effect；Meanwhile by It is adsorbed in negatively charged dust by finned heat exchanger, and anion can also be absorbed by finned heat exchanger, so as to keep away Exempt from user and generates electrostatic when blowing air-conditioning.Specifically, ion generator 40 is mountable on the mounting rack of finned heat exchanger.

Air conditioner further includes blower (not shown go out), and blower is set to the air side of grid component 21, and is located at grid component Between 21 and finned heat exchanger, ion generator 40 is set between blower and finned heat exchanger.Air from air inlet 10a into Enter in air conditioner, and enter in blower, is then sent out by blower and flow through finned heat exchanger and exchange heat.By the way that ion is sent out Raw device 40 is arranged between blower and finned heat exchanger, and the ion that ion generator 40 generates can be by after dust is charged Finned heat exchanger absorbs, that is to say, that the dust of electrification without or only a few be circulated back to blower, therefore can subtract significantly Adhered on the impeller of few blower by dust.

Since finned heat exchanger can adsorb negatively charged dust, more dust shadow can be wrapped up on finned heat exchanger The heat transfer effect of finned heat exchanger is rung, and also causes air dirtier, therefore needs to clean finned heat exchanger.This implementation In example, air processor further includes automatic cleaning module, and automatic cleaning module is for cleaning finned heat exchanger.Tool For body, automatic cleaning module may include spray equipment, dust detection and controller, when dust detection detects wing When dust is thicker on plate heat interchanger, controller controls spray equipment and carries out spraying-rinsing to finned heat exchanger；Alternatively, automatic Cleaning module may include spray equipment and controller, prestore scavenging period in controller, control spray dress every preset time It sets and spraying-rinsing is carried out to finned heat exchanger；Alternatively, automatic cleaning module may include cleaning brush, spray equipment among the above can Cleaning brush is replaced with, controller controls the dust on cleaning brush cleaning finned heat exchanger.

The above is only a preferred embodiment of the present invention, is not intended to limit the scope of the invention, all in the present invention Inventive concept under, using equivalent structure transformation made by description of the invention and accompanying drawing content, or directly/be used in it indirectly He is included in scope of patent protection of the invention relevant technical field.

Claims (11)

1. a kind of air processor, which is characterized in that the air processor has an air inlet, and the air-treatment Device includes:

Grid component is set to the air inlet, and the grid component includes multiple grille strips arranged in a crossed manner；With,

Ion generator, positioned at the air side of the grid component.

2. air processor as described in claim 1, which is characterized in that the ion generator is set to the air inlet.

3. air processor as claimed in claim 2, which is characterized in that the air inlet is in long strip, at the air Managing device includes multiple ion generators, and multiple ion generators are set along the length direction interval of the air inlet It sets.

4. air processor as claimed in claim 3, which is characterized in that the ion generator is close to the air inlet Middle part setting in width direction.

5. air processor as claimed in claim 3, which is characterized in that multiple grille strips include multiple transversely prolonging The vertically extending perpendicular grille strip of the lined grizzly bar and at least one stretched, the perpendicular grille strip and the lined grizzly bar are arranged in a crossed manner；

The perpendicular grille strip extends along the length direction of the air inlet, and multiple ion generators are set to the perpendicular grid On item.

6. air processor as claimed in claim 5, which is characterized in that the air inlet is divided by the perpendicular grille strip Two air inlet regions, are equipped at intervals on the perpendicular grille strip and along its length the multipair ion generator, and with a pair of Two ion generators are divided into the two opposite sides of the perpendicular grille strip.

7. air processor as described in claim 1, which is characterized in that the air processor also has an outlet air Mouthful, the ion generator is set to the air outlet.

8. air processor as claimed in any one of claims 1 to 7, which is characterized in that the air processor is also Including electrodecontamination module, the electrodecontamination module is mounted on the grid component.

9. the air processor as described in claim 1 to 6 any one, which is characterized in that the air processor is Air conditioner, the air conditioner include finned heat exchanger, and the finned heat exchanger is set to the air side of the grid component, and The finned heat exchanger ground connection setting, the ion generator are located at the inlet side of the finned heat exchanger.

10. air processor as claimed in claim 9, which is characterized in that the air conditioner further includes blower, the blower Set on the air side of the grid component, the ion generator is set between the blower and the finned heat exchanger.

11. air processor as claimed in claim 9, which is characterized in that the air conditioner further includes automatic cleaning module, The automatic cleaning module is for cleaning the finned heat exchanger.