CN204866207U - Static purification structure's negative pole and static purification structure - Google Patents

Abstract

The utility model particularly relates to a static purification structure's negative pole and static purification structure, wherein, static purification structure's negative pole includes a M first conducting strip that sets up side by side and a N second conducting strip that sets up side by side, every first conducting strip all peg graft in a N second conducting strip, every adjacent two first conducting strip is with every adjacent two the second conducting strip encloses into one jointly and adsorbs the grid, and M is for being greater than 1 integer, and N is for being greater than 1 integer. The utility model discloses static purification structure's negative pole simple structure does benefit to and improves production efficiency, adsorption efficiency, and reduce cost.

Description

A kind of negative pole of electrostatic depuration structure and electrostatic depuration structure

Technical field

The utility model relates to cleaning equipment, particularly relates to a kind of negative pole and electrostatic depuration structure of electrostatic depuration structure.

Background technology

Existing electrostatic depuration structure generally includes negative pole and positive pole, multiple metal tubes that negative pole comprises insulation fixed mount and is located on fixed mount, and positive pole is provided with the pointed tooth corresponding with each metal tube.There is following problem in existing electrostatic depuration structure: needs design insulation fixed mount to put above-mentioned multiple metal tube, and to make above-mentioned multiple metal tube keep relatively fixing, therefore, the structure of negative pole becomes complicated; In addition, the design difficulty of will get on from the outer wall of metal tube fixing metal pipe, increase insulation fixed mount, the insulation fixed mount of existing design is all not easy to install metal tube.Therefore, current negative pole is unfavorable for the raising of production efficiency.

Utility model content

Technical problem to be solved in the utility model is to provide a kind of negative pole of electrostatic depuration structure, and its structure is simple, be beneficial to enhance productivity, adsorption capacity, and to reduce costs.

Above-mentioned technical problem is solved by following scheme:

A kind of negative pole of electrostatic depuration structure, comprise M the first conducting strip be arranged side by side and N number of second conducting strip be arranged side by side, each described first conducting strip is all plugged in described N number of second conducting strip, often adjacent two described first conducting strips and often adjacent two described second conducting strips surround an absorption grid jointly, M be greater than 1 integer, N be greater than 1 integer.

Wherein in an embodiment, in interconnective first conducting strip and the second conducting strip, described first conducting strip is provided with first inserting groove of interface towards described second conducting strip, described second conducting strip is provided with second inserting groove of interface towards described first conducting strip, and the first inserting groove of described first conducting strip and the second inserting groove of described second conducting strip close grafting.

The negative pole of above-mentioned electrostatic depuration structure, each first conducting strip is utilized all to form the individual absorption grid of (M-1) × (N-1) with the socket connection of all second conducting strips, there is following effect: 1, multiple absorbing unit is formed for needs, the structure of above-mentioned negative pole is simple, easy to assembly, easy to use; 2, relative to the adsorbent only including single absorption grid, be made up of the adsorbent of a same volume multiple absorption grid, greatly increase unit adsorption area; 3, relative to the adsorbent be spliced by separate absorption grid, (adsorbent of this structure not easily closely splices, easily occur in work that air void electric discharge is to affect absorption stability), stop air void electric discharge, improve absorption stability, also save material and simplify processing technology; 4, because all first conducting strips become identical structure or/and all second conducting strips can design, too much production mould is not needed.Therefore, the negative pole of above-mentioned electrostatic depuration structure be beneficial to enhance productivity, adsorption capacity, and to reduce costs.

The utility model also provides a kind of electrostatic depuration structure, comprises positive pole and negative pole described in the utility model; Described positive pole is provided with the pointed tooth corresponding with each absorption grid of described negative pole, and described pointed tooth points to the absorption grid corresponding with it.In this scenario, each absorption grid can be a corresponding pointed tooth or corresponding multiple pointed tooth.

Wherein in an embodiment, the equal corresponding multiple pointed tooth of each absorption grid of described negative pole.

Wherein in an embodiment, in each described absorption grid and the multiple pointed tooths corresponding with it, each pointed tooth is identical or different with the distance part at the edge of absorption grid.

Wherein in an embodiment, in each described absorption grid and the multiple pointed tooths corresponding with it, the tapering degree part of each pointed tooth is identical or different.

Wherein in an embodiment, in each described absorption grid and the pointed tooth corresponding with it, pointed tooth is placed within absorption grid or is placed in outside absorption grid.

Wherein in an embodiment, as M=2K+1, K is positive integer, described positive pole comprises K positive pole bar, 2L the described absorption grid that described K positive pole bar is corresponding different respectively, L=N-1, the pointed tooth corresponding with absorption grid is located at the positive pole bar corresponding with this absorption grid.

Above-mentioned electrostatic depuration structure employs above-mentioned negative pole, be beneficial to enhance productivity, adsorption capacity, and to reduce costs.

Accompanying drawing explanation

Fig. 1 is the decomposition texture schematic diagram of a kind of negative pole of embodiment one;

Fig. 2 is the combining structure schematic diagram of the negative pole in Fig. 1;

Fig. 3 is the decomposition texture schematic diagram of the another kind of negative pole of embodiment one;

Fig. 4 is the combining structure schematic diagram of negative pole in Fig. 3;

Fig. 5 is the structural representation of the first electrostatic depuration structure of embodiment two;

Fig. 6 is the structural representation of the second electrostatic depuration structure of embodiment two;

Fig. 7 is the structural representation of the third electrostatic depuration structure of embodiment two;

Fig. 8 is the side schematic view of electrostatic depuration structure in Fig. 7;

Fig. 9 is the another side schematic diagram of electrostatic depuration structure in Fig. 7.

Detailed description of the invention

Embodiment one

As shown in Figures 1 to 4, the negative pole 300 of the electrostatic depuration structure that the present embodiment provides, comprise M the first conducting strip 31 be arranged side by side and N number of second conducting strip 32 be arranged side by side, each first conducting strip 31 is all plugged in above-mentioned N number of second conducting strip 32, two often adjacent the first conducting strips 31 and two often adjacent the second conducting strips 32 jointly surround absorption grid 301, M, a N be greater than 1 integer.

The negative pole 300 of above-mentioned electrostatic depuration structure utilizes each first conducting strip 31 all to form the individual absorption grid 301 of (M-1) × (N-1) with the socket connection of all second conducting strips 32, there is following effect: 1, multiple absorbing unit is formed for needs, the structure of above-mentioned negative pole is simple, easy to assembly, easy to use; 2, relative to the adsorbent only including single absorption grid, be made up of the adsorbent of a same volume multiple absorption grid, greatly increase unit adsorption area; 3, relative to the adsorbent be spliced by separate absorption grid, (adsorbent of this structure not easily closely splices, easily occur in work that air void electric discharge is to affect absorption stability), stop air void electric discharge, improve absorption stability, also save material and simplify processing technology; 4, because all first conducting strips 31 become identical structure or/and all second conducting strips 32 can design, too much production mould is not needed.Therefore, the negative pole of above-mentioned electrostatic depuration structure be beneficial to enhance productivity, adsorption capacity, and to reduce costs.

As shown in Figure 1 to Figure 2, in the negative pole 300 of this electrostatic depuration structure shown by two accompanying drawings, M=2, N=2, two the first conducting strips 31 are plugged in two the second conducting strips 32 respectively, form an absorption grid 301.

As shown in Figure 3 to Figure 4, in the negative pole 300 of this electrostatic depuration structure shown by two accompanying drawings, M=5, N=5, five the first conducting strips 31 are plugged in five the second conducting strips 32 respectively, form (M-1) × (N-1)=4 × 4=16 absorption grid 301.

In interconnective first conducting strip 31 and the second conducting strip 32, first conducting strip 31 is provided with first inserting groove 311 of interface towards the second conducting strip 32, second conducting strip 32 is provided with interface and closes towards the first inserting groove 311 of the second inserting groove 321, first conducting strip 31 of the first conducting strip 31 and the second inserting groove 321 pairs of grafting of the second conducting strip 32.The socket connection mode of the program is concrete first conducting strip 31 and the second conducting strip 32.The connected mode that first conducting strip 31 and the second conducting strip 32 adopt the first inserting groove 311 and the 321 pairs of grafting of the second inserting groove to close, also has following effect: 1, can keep relative stability between the first conducting strip 31 and the second conducting strip 32, easy to use; 2, when design has the negative pole 300 of D × D (D is positive integer) individual absorption grid 301, first conducting strip 31 can be the same with the structure of the second conducting strip 32, and structure is simple, same production mould can be used to produce, be beneficial to and enhance productivity and reduce costs.

Embodiment two

As shown in Figures 5 to 9, a kind of electrostatic depuration structure that the present embodiment provides, comprises positive pole 330 and the negative pole described in embodiment one 300; Positive pole 330 is provided with the pointed tooth 331 corresponding with each absorption grid 301 of negative pole 300, and pointed tooth 331 points to the absorption grid 301 corresponding with it.

Above-mentioned electrostatic depuration structure uses the negative pole 300 described in embodiment one, be beneficial to enhance productivity, adsorption capacity, and to reduce costs.

The operation principle of above-mentioned electrostatic depuration structure is, when positive pole 330 and negative pole 300 connect high pressure (such as more than DC3000V), air meeting short circuit between the pointed tooth 331 of positive pole 330 and the absorption grid 301 of negative pole 300, i.e. pointed tooth 331 pairs of atmospherical discharges of positive pole 330, produce electric field, in absorption grid 301, form magnetic field simultaneously, when air passes through the ionized region between positive pole 330 and negative pole 300, electric field powers on by the particle band in air, magnetic field can adsorbed on grid 301 by adsorption particle thing, anion and ozone can be produced simultaneously, release in atmosphere, reach the object purified air.

Wherein, the equal corresponding multiple pointed tooth 331 of each absorption grid 301 of negative pole 300.That is, each absorption grid 301 of corresponding negative pole 300, positive pole 330 is all provided with multiple pointed tooth 331.

In each absorption grid 301 and the multiple pointed tooths 331 corresponding with it, each pointed tooth 331 is identical or different with the distance part at the edge of absorption grid 301.The program can to make at positive pole 330 with negative pole 300, inputting under same voltage, to produce the Electric and magnetic fields of varying strength, thus can adsorb the particle of different size quality or volume between positive pole 330 and negative pole 300.

In each absorption grid 301 and the multiple pointed tooths 331 corresponding with it, the tapering degree part of each pointed tooth 331 is identical or different.The program can make at positive pole 330 under the same voltage of input, the discharge effect of varying strength is produced at pointed tooth 331 place of the tapering degree of difference, thus the Electric and magnetic fields of varying strength can be produced, thus the particle of different size quality or volume can be adsorbed.

In each absorption grid 301 and the pointed tooth 331 corresponding with it, pointed tooth 331 can be placed within absorption grid 301 or be placed in outside absorption grid 301.Such as, with all pointed tooths 331 corresponding to absorption grid 301, can be that part pointed tooth 331 is placed within this absorption grid 301, also can be all pointed tooths 331 to be placed in outside this absorption grid 301 or within.In actual applications, the setting position of pointed tooth 331 can adjust according to the adjustment of performance.

As M=2K+1, K is positive integer, and positive pole 330 specifically comprises K positive pole bar, 2L the absorption grid 301, L=N-1 that K positive pole bar 332 is corresponding different respectively, and the pointed tooth 21 corresponding with absorption grid 301 is located at the positive pole bar 332 corresponding with this absorption grid 301.The program the is concrete project organization of positive pole when M=2K+1, this project organization is beneficial to be produced and uses.

As shown in Figure 5, the electrostatic depuration structure of this accompanying drawing display is the use of the negative pole 300 in embodiment one shown in Fig. 1 and Fig. 2, and positive pole 330 is provided with a pointed tooth 331, and this pointed tooth 331 points to the absorption grid 301 of negative pole 300 and is positioned at outside this absorption grid 301.

As shown in Figure 6, the electrostatic depuration structure of this accompanying drawing display is the use of the negative pole 300 in embodiment one shown in Fig. 1 and Fig. 2, positive pole 330 is provided with three pointed tooths 331, and these three pointed tooths 331 all point to the absorption grid 301 of negative pole 300 and are positioned at outside this absorption grid 301.Wherein, the pointed tooth 331 being positioned at centre, the pointed tooth 331 be positioned at are different from distance D1, the D2 at a wherein edge of corresponding absorption grid 301; The pointed tooth 331 being positioned at centre, the pointed tooth 331 being positioned at another side are different from distance D3, the D4 at an another wherein edge of corresponding absorption grid 301.

As shown in Figure 7 to 9, the electrostatic depuration structure of these three accompanying drawing displays is the use of the negative pole 300 in embodiment one shown in Fig. 3 and Fig. 4, positive pole 330 is provided with three pointed tooths 331 corresponding respectively with each absorption grid 301 of negative pole 300, and these three pointed tooths 331 all point to the absorption grid 301 corresponding with it and are positioned at outside this absorption grid 301.Wherein, positive pole 330 specifically comprises K=2 positive pole bar 332,2L=8 the absorption grid 301, L=N-1=4 that each positive pole bar 332 is corresponding different respectively, and three pointed tooths 331 corresponding with absorption grid 301 are located at the positive pole bar 332 corresponding with this absorption grid 301.

The above embodiment only have expressed several embodiment of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to the utility model the scope of the claims.It should be pointed out that for the person of ordinary skill of the art, without departing from the concept of the premise utility, can also make some distortion and improvement, these all belong to protection domain of the present utility model.Therefore, the protection domain of the utility model patent should be as the criterion with claims.

Claims (8)

1. the negative pole of an electrostatic depuration structure, it is characterized in that, comprise M the first conducting strip be arranged side by side and N number of second conducting strip be arranged side by side, each described first conducting strip is all plugged in described N number of second conducting strip, often adjacent two described first conducting strips and often adjacent two described second conducting strips surround an absorption grid jointly, M be greater than 1 integer, N be greater than 1 integer.

2. the negative pole of a kind of electrostatic depuration structure according to claim 1, it is characterized in that, in interconnective first conducting strip and the second conducting strip, described first conducting strip is provided with first inserting groove of interface towards described second conducting strip, described second conducting strip is provided with second inserting groove of interface towards described first conducting strip, and the first inserting groove of described first conducting strip and the second inserting groove of described second conducting strip close grafting.

3. an electrostatic depuration structure, is characterized in that, comprises the negative pole described in positive pole and claim 1 or 2; Described positive pole is provided with the pointed tooth corresponding with each absorption grid of described negative pole, and described pointed tooth points to the absorption grid corresponding with it.

4. a kind of electrostatic depuration structure according to claim 3, is characterized in that, the equal corresponding multiple pointed tooth of each absorption grid of described negative pole.

5. a kind of electrostatic depuration structure according to claim 4, is characterized in that, in each described absorption grid and the multiple pointed tooths corresponding with it, each pointed tooth is identical or different with the distance part at the edge of absorption grid.

6. a kind of electrostatic depuration structure according to claim 4, is characterized in that, in each described absorption grid and the multiple pointed tooths corresponding with it, the tapering degree part of each pointed tooth is identical or different.

7. a kind of electrostatic depuration structure according to claim 4, is characterized in that, in each described absorption grid and the pointed tooth corresponding with it, pointed tooth is placed within absorption grid or is placed in outside absorption grid.

8. a kind of electrostatic depuration structure according to claim 3, it is characterized in that, as M=2K+1, K is positive integer, described positive pole comprises K positive pole bar, 2L described absorption grids different in described K the corresponding described negative pole of positive pole bar difference, L=N-1, the pointed tooth corresponding with absorption grid is located at the positive pole bar corresponding with this absorption grid.