CN103406206A

CN103406206A - Electric dust remover with moving anodes

Info

Publication number: CN103406206A
Application number: CN2013103946970A
Authority: CN
Inventors: 林翔; 陈艺聪; 廖增安; 杨文贞; 吴桂平
Original assignee: Fujian Longking Co Ltd.
Current assignee: Fujian Longking Co Ltd.
Priority date: 2013-09-03
Filing date: 2013-09-03
Publication date: 2013-11-27
Anticipated expiration: 2033-09-03
Also published as: CN103406206B

Abstract

The invention discloses an electric dust remover with moving anodes. The electric dust remover comprises a shell, a plurality of dust collecting anodes, a first dust collecting cathode and second dust collecting cathodes, wherein the dust collecting anodes are arranged in the shell and distributed in a loop, the first dust collecting cathode is positioned in the loop, the second dust collecting cathodes are positioned between two adjacent dust collecting anodes, the first dust collecting cathode and the second dust collecting cathodes are fixedly connected to form an integral structure which is suspended on the top of the shell by suspenders, and the suspenders are positioned in airflow channels formed by the two adjacent dust collecting anodes, and fixedly connected to the second dust collecting cathodes. According to the electric dust remover, the suspenders are fixedly connected to the second dust collecting cathodes and positioned in the airflow channels formed by the two adjacent dust collecting anodes, and compared with the prior art, the electric dust remover has the advantages that the actual length of an electric field is obviously shortened in the condition that the effective length of the electric field is not changed. In addition, when an electric dust remover with fixed anodes is upgraded and reformed, the dust removing efficiency can be improved, and additionally, the purposes of reducing the reforming cost and difficulty and shortening the reforming period can be realized.

Description

A kind of moving anode electric cleaner

Technical field

The present invention relates to the electrostatic precipitation technology field, be specifically related to a kind of moving anode electric cleaner.

Background technology

As depicted in figs. 1 and 2, wherein, the master that Fig. 1 shows moving anode electric cleaner in prior art looks schematic diagram, and Fig. 2 shows the schematic side view of the electric cleaner of moving anode shown in Fig. 1.The moving anode electric cleaner comprises the housing 1 that offers air inlet and gas outlet ' and be arranged at housing 1 ' interior fixed anode dust arrester and moving anode dust arrester along air flow direction; The moving anode dust arrester comprise many groups be the anode 2 that gathers dust that loop distributes ', in loop first gather dust negative electrode 31 ' and adjacent two anodes 2 that gather dust ' between second gather dust negative electrode 32 '.

Wherein, gather dust anode 2 ' under the driving of driving mechanism with respect to housing 1 ' move along loop, first negative electrode 31 ' and the second the gather dust negative electrode 32 ' by stretching out with the gas channel both sides left-right symmetry of the anode 2 that gathers dust ' form separately that gathers dust, then respectively by two big frames 4 with the setting of gas channel vertical direction ' the formation overall structure is connected, this overall structure by be fixed on big frame 4 ' suspension rod 5 ' be suspended to housing 1 ' top, it is suspension rod 5 ' be positioned at gas channel outside, last again by be arranged at big frame 4 ' sidepiece around the mechanical vibrator of arm vibration body 6 ' realization to it, so that be attached to integrally-built dust, come off.

Obviously, above-mentioned moving anode electric cleaner utilizes being used in conjunction with of fixed anode dust arrester and moving anode dust arrester, has improved greatly its efficiency of dust collection.But, with the fixed anode electric cleaner, compare, for meet fixed derrick 5 ' pressure-bearing insulator 7 ' constant temperature working environment and safe-discharge required distance, both effective electric fields are equal in length in the situation that guarantee, the former actual electrical field length is far longer than the latter.In other words, the moving anode electric cleaner is compared with the fixed anode electric cleaner, and the difference of the former actual electrical field length and effective electric field length is far longer than the latter's actual electrical field length and the difference of effective electric field length.

For the ease of understanding the relation of actual electrical field length and effective electric field length, illustrate below in conjunction with Fig. 1:

The effective electric field length L ₁'=l ₁(1)

Actual electrical field length L ₂'=l ₁+ 2l ₂+ 2l ₃+ 2l ₄(2)

Wherein, l ₁ Anode 2 length of gathering dust, l ₂, l ₃And l ₄Be respectively the anode 2 that gathers dust ' to chain 21 ', chain 21 ' to big frame 4 ' edge and big frame 4 ' edge to housing 1 ' between (l ₄Also comprise sidepiece around arm vibration body 6 ' around the arm radius) the safe-discharge distance.

Be appreciated that larger actual electrical field length need to meet its assembly technology requirement by increasing volume, certainly will increase the manufacturing cost of moving anode electric cleaner like this.To a certain extent, that is to say that the raising of moving anode ESP Efficiency is that to increase manufacturing cost be that cost obtains.

In addition, the actual electrical field length is excessive also is unfavorable for the upgrading to existing fixed anode electric cleaner, and concrete unfavorable factor will be from following two aspect analytic explanations:

If 1 guarantees that transformation front and back effective electric field length is constant, will inevitably relate to the reconstruction of a series of infrastructure, will increase like this improvement cost and transformation difficulty;

If 2 guarantee that transformation front and back actual electrical field length is constant, although can effectively utilize former having ready conditions, but using, dwindle effective electric field length reduction dust removing effects as cost, certainly will weaken the advantage of moving anode electric cleaner aspect the raising efficiency of dust collection, thereby run in the opposite direction with the original intention that significantly improves efficiency of dust collection by transformation and upgrade.

In view of this, those skilled in the art urgently improve the structure of existing moving anode electric cleaner, to dwindle as far as possible the difference of its actual electric field length and effective electric field length.

Summary of the invention

For above-mentioned defect, the invention provides a kind of moving anode electric cleaner, to reduce as far as possible the difference of actual electrical field length and effective electric field length.

A kind of moving anode electric cleaner provided by the present invention, comprise housing, be arranged at a plurality of anode that gathers dust that loop distributes, first negative electrode and adjacent two described second between anodes that gather dust negative electrodes that gather dust that gather dust in described loop of being in described housing, described first negative electrode and the described second negative electrode formation overall structure that is connected of gathering dust of gathering dust, described overall structure is suspended to described case top by least one suspension rod, described suspension rod is positioned at the gas channel of adjacent two described anodic formations that gather dust, and is fixed on described second and gathers dust on negative electrode.

Preferably, described first negative electrode and described second negative electrode that gathers dust that gathers dust is connected in series successively and forms described overall structure by least one connecting rod.

Preferably, described first negative electrode that gathers dust comprises a plurality of the first longerons and at least one first crossbeam be connected with a plurality of and described the first longeron, described second negative electrode that gathers dust comprises a plurality of the second longerons and at least one second cross beam be connected with a plurality of described the second longerons, and the end of the described connecting rod described first crossbeam of serial connection and second cross beam forms described overall structure.

Preferably, described suspension rod is connected by described second cross beam and described second negative electrode that gathers dust.

Preferably, the described anode that gathers dust comprises a plurality of dust collection plates that connect successively, described dust collection plate has breach, when described dust collection plate moves near described suspension rod along described loop, the breach wall of described breach is to the minimum range A of described suspension rod >=B, and B is the gather dust safe-discharge distance of negative electrode of the described anode and described second that gathers dust.

Preferably, described first negative electrode and described second that gathers dust gathers dust on negative electrode and is respectively arranged with the 3rd crossbeam and the 4th crossbeam away from described suspension rod one end, and the end of described the 3rd crossbeam and described the 4th crossbeam is connected in series and is connected successively by the anti-fork of at least one negative electrode.

Preferably, also comprise that at least one anode prevents fork, to limit the described anode that gathers dust along the swing perpendicular to the face direction of gathering dust.

Preferably, an end and the described housing of the anti-fork of described anode are connected, and the other end has the chute passed through for the described anode that gathers dust.

Preferably, also comprise vibration body, described vibration body is arranged at described hull outside, and an end of described suspension rod runs through described housing and is connected with described vibration body.

A kind of moving anode electric cleaner provided by the present invention, comprise housing, be arranged at a plurality of anodes that gather dust that are the loop distribution in housing, and first negative electrode and adjacent two second between anodes that the gather dust negative electrode that gathers dust that gathers dust in loop, first negative electrode and the second negative electrode formation overall structure that is connected of gathering dust of gathering dust, this overall structure is suspended in housing by suspension rod, this suspension rod is positioned at the gas channel of adjacent two anodic formations that gather dust, and is fixed on second and gathers dust on negative electrode.

The present invention is by being fixed on suspension rod the second mode of gathering dust negative electrode, and be located in the gas channel of adjacent two anodic formations that gather dust, with in prior art, compare by two suspension rods suspention overall structures that are positioned at the gas channel outside, in the situation that effective electric field length is constant, the actual electrical field length of moving anode electric cleaner provided by the present invention has obtained significant shortening.In addition, during to traditional fixed anode electric cleaner upgrading, can when improving efficiency of dust collection, realize reducing improvement cost and difficulty, and the purpose that shortens the transformation cycle.

In a preferred version of the present invention, also comprise vibration body, vibration body is arranged at hull outside, and an end of suspension rod runs through housing and is connected with vibration body.Obviously, compare around arm rapping mode with sidepiece of the prior art, the present invention adopts the top rapping mode, is guaranteeing can further to reduce the actual electrical field length of moving anode electric dust collector on the constant basis of effective electric field length.

The accompanying drawing explanation

The master that Fig. 1 shows existing moving anode electric cleaner looks schematic diagram;

Fig. 2 shows the schematic side view of the electric cleaner of moving anode shown in Fig. 1;

The master that Fig. 3 shows moving anode electric cleaner specific embodiment provided by the present invention looks schematic diagram;

Fig. 4 shows the schematic side view of the electric cleaner of moving anode shown in Fig. 2;

The master that Fig. 5 shows the first cathode frame in Fig. 3 looks schematic diagram;

The master that Fig. 6 shows the second cathode frame in Fig. 3 looks schematic diagram;

Fig. 7 shows the local enlarged diagram in A place in Fig. 3;

Fig. 8 shows shown in Fig. 7 the structural representation of the dust collection plate of the anode that gathers dust;

Fig. 9 shows housing shown in Fig. 2, gather dust anode and the anti-swinging mechanism three's of anode the local main schematic diagram of looking of assembly;

Figure 10 shows the schematic top plan view of assembly shown in Figure 9.

In Fig. 1 and Fig. 2, the corresponding relation of each Reference numeral and component names is respectively:

1 ' housing, the 2 ' anode that gathers dust, 21 ' chain, 31 ' the first gather dust negative electrode, 32 ' the second gather dust negative electrode, 4 ' big frame, 5 ' suspension rod, 6 ' around arm vibration body, 7 ' negative electrode pressure-bearing insulator;

In Fig. 3 to Figure 10, the corresponding relation of each Reference numeral and component names is respectively:

1 housing, 2 gather dust anode, 21 dust collection plates, 211 breach, 31 first gather dust negative electrode, 31-1 first longeron, 31-2 first crossbeams, 31-3 the 3rd crossbeams, 32 second gather dust negative electrode, 32-1 second longeron, 32-2 second cross beams, 32-3 the 4th crossbeams, 4 connecting rods, 5 suspension rods, 6 electromagnetic rapping mechanisms, the anti-fork of 7 negative electrodes, the anti-fork of 8 anodes, 81 chutes.

The specific embodiment

Core of the present invention is to provide a kind of moving anode electric cleaner, by will by first the gather dust integrally-built suspension rod that negative electrode forms of negative electrode and second that gathers dust, being located at second negative electrode that gathers dust for suspention, and make suspension rod be positioned at the gas channel of adjacent two anodic formations that gather dust, thereby, in the situation that effective electric field length is constant, reduced significantly the actual electrical field length of moving anode electric cleaner.

Without loss of generality, below in conjunction with Figure of description, the moving anode electric cleaner specific embodiment provided by the present invention is described.

Refer to Fig. 3 and Fig. 4, wherein, the master that Fig. 3 shows moving anode electric cleaner specific embodiment provided by the present invention looks schematic diagram, and Fig. 4 shows the schematic side view of the electric cleaner of moving anode shown in Fig. 3.

In conjunction with Fig. 3 and shown in Figure 4, the moving anode electric cleaner that this programme provides, comprise housing 1, be arranged in described housing 1 anode 2 that gathers dust that is loop and distributes, first negative electrode 31 and adjacent two second between anodes 2 that the gather dust negative electrode 32 that gathers dust that gathers dust in loop, the first cathode frame 31 and the second cathode frame 32 formation overall structure that is connected, this overall structure is suspended to housing 1 top by suspension rod 5, and this suspension rod 5 is positioned at adjacent two gas channels that the anode 2 of gathering dust forms, and is fixed on second and gathers dust on negative electrode 32.

This programme is by being fixed on suspension rod 5 the second mode of gathering dust negative electrode 32, and be located in the gas channel of adjacent two anodes 2 formation of gathering dust, with in prior art, compare by two suspension rods suspention overall structures that are positioned at the gas channel outside, in the effective electric field length L ₂In constant situation, the actual electrical field length L of the moving anode electric cleaner that this programme provides ₁Obtained significant shortening.In addition, during to traditional fixed anode electric cleaner upgrading, can when improving efficiency of dust collection, realize reducing improvement cost and difficulty, and the purpose that shortens the transformation cycle.

Next in conjunction with Fig. 3 to Fig. 6, the first gather dust negative electrode and second the gather dust concrete structure of negative electrode and both annexations is described, wherein, the master that Fig. 5 shows the first cathode frame in Fig. 3 looks schematic diagram, and the master that Fig. 6 shows the second cathode frame in Fig. 3 looks schematic diagram

As shown in Figure 5 and Figure 6, the negative electrode 31 that gathers dust of first in this programme comprises a plurality of the first longerons 31-1 and at least one the second cross beam 32-2 be connected with a plurality of the first longerons 31-1; Second negative electrode 32 that gathers dust comprises a plurality of the second longerons 32-1 and the second cross beam 32-2 be connected with a plurality of the second longeron 32-.For the ease of understanding both annexations, please in the lump with reference to figure 3 and shown in Figure 4, two connecting rods 4 are connected in series respectively the end formation overall structure of first crossbeam 31-2 and second cross beam 32-2 homonymy successively, this overall structure is suspended to the top of housing 1 by suspension rod 5, and suspension rod 5 is fixed on second cross beam 32-2.

Be appreciated that, first of this programme negative electrode 31 and second negative electrode 32 that gathers dust that gathers dust all adopts frame structure, reduce the integrally-built weight that both form, can reduce like this overall structure to the active force on the vertical direction of suspension rod 5 generations, thereby can extend the service life of suspension rod 5.In addition, this programme middle hanger 5 is by second cross beam 32-2 and second mode that negative electrode 32 is connected of gathering dust, under the effect that suspension rod 5 is produced, can pass through second cross beam 32-2, evenly being passed to second gathers dust on a plurality of first longerons 31-1 of negative electrode 32, finally via the first longeron 31-1, be passed to whole overall structure again, thereby can improve integrally-built stability.

It should be noted that, form on the basis of high-voltage electrostatic field, processing and assembly technology requirements meeting with the anode 2 that gathers dust, the negative electrode 31 and second that gathers dust of first in this programme gathers dust in negative electrode 32 that at least one can be solid steel plate etc.In addition, with the anode 2 of gathering dust, form on the basis of high-voltage electrostatic fields meeting overall structure, the suspension rod 5 in we also can be fixed on arbitrary the first longeron 32-1.

In addition, as previously mentioned, in this programme first negative electrode 31 and second that gathers dust gathers dust negative electrode 32 by the connecting rod 4 formation overall structure that is connected, with the overall structure formed by two big frames in prior art, compare, this programme utilizes first the negative electrode 31 and second self structure characteristics of negative electrode 32 of gathering dust of gathering dust, more cleverly both is connected by connecting rod 4, has so not only reduced integrally-built weight, and reduced consumable quantity, thereby further reduced whole manufacturing cost.It should be noted that, with the anode 2 of gathering dust, form electrostatic fields and realize on the basis of dedusting function, processing technology and assembly technology requirement meeting overall structure, first negative electrode 31 and second negative electrode 32 that gathers dust that gathers dust also can adopt other modes to be connected.

Further, please continue referring to Fig. 3, the moving anode electric cleaner that this programme provides has adopted the top rapping mode, and particularly, electromagnetic hammer vibration body 6 is arranged at housing 1 outside, and an end of suspension rod 5 is run through housing 1 and is connected with electromagnetic rapping mechanism 6.Obviously, compare around arm rapping mode with negative electrode sidepiece of the prior art, this programme, by the top rapping mode, is guaranteeing effective electric field length L ₂In constant situation, further dwindled the actual electrical field length L of moving anode electric cleaner ₁.In addition, this programme is the mode of housing 1 outside by electromagnetic rapping mechanism 6 being arranged to the moving anode electric cleaner also, can reduce maintenance difficulties and maintenance cost to electromagnetic rapping mechanism 6.

It should be noted that, electromagnetic rapping mechanism 6 is ripe prior art, and those skilled in the art can realize fully based on prior art, so do not repeat them here its concrete structure and operation principle.Certainly, guaranteeing effective electric field length L ₂In constant situation, and meet the actual effective electric field length L of shortening ₁Basis on, in this programme, also can adopt the side arm sinker mode, or adopt this area habitual except electromagnetic rapping mechanism 6 other vibration bodies.

It is to be noted, in this programme, the volume of related moving anode electric cleaner is except being limited by aforesaid electric field length direction size, the size that also depends on the electric field width, therefore in order further to reduce the overall volume of moving anode electric cleaner, also can realize by shortening its size at the electric field width.Particularly, refer to Fig. 3 and Fig. 7, wherein, Fig. 7 shows the local enlarged diagram in I place in Fig. 3.

As shown in Figure 7, the anode 2 that gathers dust in this programme comprises a plurality of dust collection plates 21 that connect successively, when each dust collection plate 21 moves to the upset of rotating shaft 9 places along loop under the driving mechanism effect, dust collection plate 21 and the tangent perk of this rotating shaft 9, and distance between dust collection plate 21 and suspension rod 6 is not met heteropole apart from requiring, it should be noted that, related heteropole is apart from the anode and first that refers to gather dust the gather dust safe-discharge distance between negative electrode of negative electrode or second of gathering dust herein, in like manner, with pole span anode and first the gather dust safe-discharge distance between negative electrode of negative electrode and second of gathering dust that refers to gather dust itself.Next three kinds of methods that guarantee with pole span and heteropole distance are described by reference to the accompanying drawings, are respectively:

The first, adopt the anode that gathers dust of new structure, the perk phenomenon does not occur while making it turn to rotating shaft place;

The second, in the global design process by increase gather dust anode 2 and the second distance of gathering dust between negative electrode 32, while compensating dust collection plate 21 upset with the pole span reduction volume;

Three, as shown in Figure 7 and Figure 8, wherein, Fig. 8 shows shown in Fig. 7 the structural representation of the dust collection plate of the anode that gathers dust.Dust collection plate 21 has breach 211, when dust collection plate 21 moves near suspension rod 6 along loop, the breach wall of breach 211 is to the minimum range A of suspension rod 6 >=B, and B is the gather dust safe-discharge distance of negative electrode 32 of anode 2 and second of gathering dust, the anode 2 and second that namely the gathers dust heteropole distance between negative electrode 32 of gathering dust.

Obviously, by method in the 3rd, can, on the basis that guarantees the normal trouble free service of moving anode electric cleaner, can reduce it along electric field width L ₃The size of direction.Be appreciated that solving the gather dust method of the heteropole distance between negative electrode 32 of the anode 2 and second that gathers dust is not limited only to above-mentioned three kinds, those skilled in the art can adopt other conventional processes according to actual conditions.

As shown in Figure 4, gather dust in the loop of anode 2 and adjacent two gather dust between anode 2 and form the gas channels that air feed stream passes through, and the anode 2 and first that gathers dust in this gas channel the gather dust negative electrode 32 of negative electrode 31 and second that gathers dust forms high-voltage electrostatic fields to realize the electric precipitation function, gather dust anode 2 along in the loop moving process, or the anode 2 that gathers dust, first negative electrode 31, second swing of negative electrode 32 under electromagnetic rapping mechanism 6 effect of gathering dust of gathering dust, and have influence on heteropole distance and same pole span, will have influence on like this normal operation of moving anode electric cleaner.This programme gathers dust on negative electrode 32 and all is provided with anti-swinging mechanism at the anode 2 that gathers dust, first negative electrode 31 and second that gathers dust, so that the actual heteropole distance of moving anode electric cleaner and actually meet the trouble free service requirement with pole span.

Connect the lower concrete structure that anti-sway mechanism is described in conjunction with Fig. 3, Fig. 4, Fig. 9 and Figure 10, wherein, Fig. 9 shows housing shown in Fig. 2, gather dust anode and the anti-swinging mechanism three's of anode assembly structure master looks schematic diagram, and Figure 10 shows the schematic top plan view of assembly shown in Fig. 9.

As shown in Figure 3 and Figure 4, first negative electrode 31 and second that gathers dust gathers dust on negative electrode 32 and is respectively arranged with the 3rd crossbeam 31-3 and the 4th crossbeam 32-3 away from suspension rod one end, and the end of the 3rd crossbeam 31-3 and the 4th crossbeam 32-3 homonymies is connected in series and is connected successively by the anti-fork 5 of two negative electrodes respectively.

Obviously, by negative electrode, prevent setting up of fork 5, not only can guarantee the actual heteropole distance of moving anode electric cleaner and meet theoretical requirement with pole span, and, in the Machine Design stage, can reduce cause actual heteropole distance and measure with pole span and inconsistent design She who provides of theoretical value because of swing.

In like manner, for the anode 2 that prevents from gathering dust, swing and cause the heteropole distance and with the theoretical trouble free service requirement of the discontented foot of pole span, this programme also is provided with the anti-swinging mechanism of anode, gathers dust anode 2 along the swing perpendicular to the face direction of gathering dust with restriction.Refer to Fig. 9 and Figure 10, the anti-swinging mechanism of anode is specially the anti-fork 8 of a plurality of anodes, and an end and the housing 1 of the anti-fork 8 of this anode are connected, and the other end has the chute 81 passed through for the anode 2 that gathers dust.Gather dust anode 2 along in the loop moving process, and dust collection plate 21 can be along the interior movement of chute 81, thus on the regular event basis of anode 2 that guarantees to gather dust, but the reality of moving-limiting positive electricity deduster with pole span and heteropole apart from meeting theoretical trouble free service requirement.For the ease of better understanding the position relationship of the anti-swinging mechanism of anode and the anode that gathers dust, please in the lump with reference to figure 3 and Fig. 4.

It should be noted that, the anti-swinging mechanism of anode is identical with the technique effect that the anti-swinging mechanism of negative electrode reaches, so do not repeat them here.Certainly, meet under moving anode electric cleaner normal operation actual with pole span and heteropole apart from meeting on the basis of theoretical trouble free service requirement, in this programme, also can adopt the anti-swinging mechanism of negative electrode and the anti-swinging mechanism of anode of other structures.

The foregoing is only the preferred embodiment of the present invention, do not form the restriction to protection domain of the present invention.Any any modification of doing within the spirit and principles in the present invention, be equal to and replace and improvement etc., within all should being included in claim protection domain of the present invention.

Claims

1. moving anode electric cleaner, comprise housing (1), be arranged at a plurality of anodes that gather dust (2) that are the loop distribution in described housing (1), be positioned at gather dust negative electrode (31) and be positioned at the negative electrode (32) that gathers dust of second between adjacent two described anodes that gather dust (2) of first of described loop, described first negative electrode (31) and described second negative electrode (32) the formation overall structure that is connected of gathering dust of gathering dust, described overall structure is suspended to described housing (1) top by suspension rod (5), it is characterized in that, described suspension rod (5) is positioned at the gas channel of adjacent two described anodic formations that gather dust, and be fixed on described second and gather dust on negative electrode (32).

2. moving anode electric cleaner according to claim 1, is characterized in that, described first gather dust negative electrode (31) and described second gather dust negative electrode (32) by least one connecting rod (4) be connected in series successively formation described overall structure.

3. moving anode electric cleaner according to claim 2, it is characterized in that, described first negative electrode (31) that gathers dust comprises a plurality of the first longerons (31-1) and at least one first crossbeam (31-2) be connected with a plurality of described the first longerons (31-1), described second negative electrode (32) that gathers dust comprises a plurality of the second longerons (32-1) and at least one second cross beam (32-2) be connected with a plurality of described the second longerons (32-1), and described connecting rod (4) is connected in series the end of described first crossbeam (31-2) and described second cross beam (32-2) homonymy.

4. moving anode electric cleaner according to claim 3, is characterized in that, described suspension rod (5) is connected by described second cross beam (32-2) and described second negative electrode (32) that gathers dust.

5. according to the described moving anode electric cleaner of any one in claim 1 to 4, it is characterized in that, the described anode that gathers dust (2) comprises a plurality of dust collection plates (21) that connect successively, described dust collection plate (21) has breach (211), when described dust collection plate (211) moves near described suspension rod (5) along described loop, the breach wall of described breach (211) is the minimum range A of described suspension rod (5) >=B extremely, and B is the described anode that gathers dust (2) and the described second safe-discharge distance of gathering dust between negative electrode (32).

6. moving anode electric cleaner according to claim 5, it is characterized in that, described first negative electrode (31) and described second that gathers dust gathers dust on negative electrode (32) and is respectively arranged with the 3rd crossbeam (31-3) and the 4th crossbeam (32-3), described the 3rd crossbeam (31-3) and described the 4th crossbeam (32-3) are positioned at away from described suspension rod (5) one ends, and the end of both homonymies is connected in series and is connected successively by the anti-fork (7) of at least one negative electrode.

7. moving anode electric cleaner according to claim 6, is characterized in that, also comprises that at least one anode prevents fork (8), to limit the described anode that gathers dust (2) along the swing perpendicular to the face direction of gathering dust.

8. moving anode electric cleaner according to claim 7, is characterized in that, described anode prevents that an end of fork (8) and described housing (1) are connected, and the other end has the chute (81) passed through for the described anode that gathers dust (2).

9. moving anode electric cleaner according to claim 8, it is characterized in that, also comprise vibration body (6), described vibration body (6) is arranged at described housing (1) outside, and an end of described suspension rod (5) runs through described housing (1) and is connected with described vibration body (6).