CN209772410U - electrostatic precipitation anode tube - Google Patents
electrostatic precipitation anode tube Download PDFInfo
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- CN209772410U CN209772410U CN201920391668.1U CN201920391668U CN209772410U CN 209772410 U CN209772410 U CN 209772410U CN 201920391668 U CN201920391668 U CN 201920391668U CN 209772410 U CN209772410 U CN 209772410U
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Abstract
the utility model discloses an electrostatic dust removal anode tube which is formed by splicing a plurality of module plates and forms a tube bundle combined structure with a plurality of regular hexagons in cross section; the module board is made of stainless steel corrugated boards, and the thickness of each stainless steel corrugated board is 1-2 mm; the cross section of the stainless steel corrugated board is in the shape of a plurality of isosceles trapezoids which are sequentially connected in an up-down lap joint mode, the upper bottoms of the isosceles trapezoids are 13-16mm, the lower bottoms of the isosceles trapezoids are 15-18mm, and the lap joint width of every two adjacent isosceles trapezoids is 1-2 mm. The utility model discloses an electrostatic precipitator positive pole pipe's the firm intensity of structure is high, and non-deformable can guarantee the operation of electrostatic precipitator equipment high efficiency. The anode tube has the advantages of light weight and high strength. In addition, compared with a flat plate, the stainless steel corrugated plate has a large area, and the dust settling area of the anode tube can be increased, so that the dust settling efficiency can be improved.
Description
Technical Field
The utility model relates to an electrostatic precipitator technical field relates to an electrostatic precipitator positive pole pipe particularly.
background
The electrostatic precipitator is a new dust removing equipment for treating micro-dust and micro-particles, is mainly used for removing harmful substances such as dust, acid mist, water drops, aerosol, odor, PM2.5 and the like in moisture-containing gas, and is ideal equipment for treating atmospheric dust pollution. The wet electrostatic precipitator is usually called WESP for short, and has the same basic principle as the dry electrostatic precipitator in dust removal, and the wet electrostatic precipitator is subjected to three stages of charging, collecting and dust removing.
in the electrostatic precipitator, an anode tube bundle is used as a dust collecting electrode. At present, an anode tube bundle of a tubular wet electrostatic precipitator is a round or regular hexagon cross-section tube which is usually rolled by nonmetal materials such as PPs, glass fiber reinforced plastics and the like. In use, the pipe bundles are connected with each other mainly by using an adhesion mode, the design of the bearing flange is complex, and the anode pipe is required to be constructed and manufactured under a specific safe environment, so that the volume of the anode pipe is huge, and the transportation and the disassembly are not facilitated. And the anode tube has low mechanical strength, easy aging and deformation and low dust settling efficiency.
SUMMERY OF THE UTILITY MODEL
An object of the utility model is to provide an electrostatic precipitator positive pole pipe to solve the mechanical strength that current electrostatic precipitator positive pole pipe exists not high, easy ageing deformation, dust fall defect of inefficiency.
Therefore, the utility model provides an electrostatic dust removal anode tube, which is formed by splicing a plurality of module plates and forms a tube bundle combined structure with a plurality of regular hexagons in cross section; the module board is made of stainless steel corrugated boards, and the thickness of each stainless steel corrugated board is 1-2 mm; the cross section of the stainless steel corrugated board is in the shape of a plurality of isosceles trapezoids which are sequentially connected in an up-down lap joint mode, the upper bottoms of the isosceles trapezoids are 13-16mm, the lower bottoms of the isosceles trapezoids are 15-18mm, and the lap joint width of every two adjacent isosceles trapezoids is 1-2 mm.
preferably, the module boards comprise one-side module board, two-side module board, three-side module board and four-side module board.
Preferably, said one side module panel is comprised of one of said stainless steel corrugated sheets.
preferably, the two side formwork plates consist of two stainless steel corrugated plates, and the included angle between the two stainless steel corrugated plates is 120 degrees; the four-side module plate is formed by sequentially connecting four stainless steel corrugated plates, and the included angle between every two adjacent stainless steel corrugated plates is 120 degrees; one of the two-sided module plates and one of the four-sided module plates can be spliced to form a regular hexagon tube bundle.
Preferably, trilateral module board is by three stainless steel corrugated sheet links to each other in proper order and forms, adjacent two the contained angle of stainless steel corrugated sheet is 120, two trilateral module board can splice and form a regular hexagon tube bank.
Compared with the prior art, the utility model discloses an advantage is with positive effect: the utility model provides an electrostatic precipitator positive pole pipe, the utility model discloses an electrostatic precipitator positive pole pipe is formed by the concatenation of a plurality of module boards, and the material of module board is stainless steel corrugated sheet, and stainless steel corrugated sheet structure is firm, and mechanical strength is high, is difficult for ageing deformation, thereby makes the utility model discloses an electrostatic precipitator positive pole pipe's the firm intensity of structure is high, and non-deformable can guarantee the operation of electrostatic precipitator equipment high efficiency. The utility model discloses an electrostatic precipitator positive pole pipe forms cross sectional shape and is a plurality of regular hexagon's tube bank integrated configuration, sharing limit between the adjacent regular hexagon tube bank to can save the quantity of stainless steel corrugated sheet, save the cost of positive pole pipe, and make positive pole pipe have concurrently matter light and the high advantage of intensity simultaneously. In addition, compared with a flat plate, the stainless steel corrugated plate has a large area, and the dust settling area of the anode tube can be increased, so that the dust settling efficiency can be improved.
Other features and advantages of the present invention will become more apparent from the following detailed description of the invention when read in conjunction with the accompanying drawings.
drawings
FIG. 1 is a schematic structural diagram of an embodiment of an electrostatic precipitation anode tube of the present invention;
FIG. 2 is a schematic structural view of an embodiment of the anode tube for electrostatic precipitation (before splicing) of the present invention;
FIG. 3 is a schematic structural diagram of one embodiment of a module plate on one side of the anode tube for electrostatic precipitation according to the present invention;
FIG. 4 is an enlarged view of portion A of FIG. 3;
FIG. 5 is a schematic structural diagram of an embodiment of the double-sided template plate of the electrostatic precipitation anode tube of the present invention;
FIG. 6 is a schematic structural diagram of an embodiment of a three-sided module plate of the electrostatic precipitation anode tube of the present invention;
Fig. 7 is a schematic structural diagram of an embodiment of the four-sided module plate of the electrostatic precipitation anode tube of the present invention.
Detailed Description
The following detailed description of the embodiments of the present invention is provided to illustrate and explain the present invention, and it should be understood that the embodiments described herein are only for the purpose of illustration and explanation, and are not intended to limit the present invention.
As shown in fig. 1-7, the electrostatic precipitation anode tube of the present embodiment is formed by splicing a plurality of module plates, and forms a tube bundle 20 assembly structure with a cross-sectional shape of a plurality of regular hexagons; the module board is made of stainless steel corrugated board, and the thickness b of the stainless steel corrugated board is 1-2 mm; the cross section of the stainless steel corrugated board is in the shape of a plurality of isosceles trapezoids which are sequentially connected in an up-down lap joint mode, the upper base c of each isosceles trapezoid is 13-16mm, the lower base d of each isosceles trapezoid is 15-18mm, and the lap joint width f of every two adjacent isosceles trapezoids is 1-2 mm.
The electrostatic dust removal anode tube of this embodiment is formed by the concatenation of a plurality of module boards, and the material of module board is stainless steel corrugated sheet, and stainless steel corrugated sheet structure is firm, and mechanical strength is high, difficult ageing deformation to make the structure of the electrostatic dust removal anode tube of this embodiment firm intensity height, non-deformable can guarantee the operation of electrostatic dust removal equipment high efficiency. The anode tube of the electrostatic dust collection of the embodiment forms a tube bundle 20 combined structure with a cross section of a plurality of regular hexagons and shares edges between the adjacent regular hexagon tube bundles 20, so that the using amount of the stainless steel corrugated plate can be saved, the cost of the anode tube is saved, and the anode tube has the advantages of light weight and high strength. In addition, compared with a flat plate, the stainless steel corrugated plate has a large area, and the dust settling area of the anode tube can be increased, so that the dust settling efficiency can be improved.
The stainless steel corrugated board integrated into one piece of this embodiment, the cross sectional shape of stainless steel corrugated board is a plurality of isosceles trapezoid that overlap joint links to each other from top to bottom in proper order. Specifically, as shown in fig. 3 and 4, the long bottom side of the upper isosceles trapezoid is located below, the long bottom side of the lower isosceles trapezoid is located above, the long bottom side of the upper isosceles trapezoid and the long bottom side of the lower isosceles trapezoid are overlapped with each other, the upper bottom c of the isosceles trapezoid is 13-16mm, preferably 15mm, the lower bottom d is 15-18mm, preferably 17mm, and the overlapping width f of two adjacent isosceles trapezoids is 1-2mm, preferably 1 mm; in this way, the mechanical strength and the weight can be maintained, and the dust fall area of the anode tube can be optimized, so that the dust fall efficiency can be optimized.
the module board comprises a side module board 11, a two-side module board 12, a three-side module board 13 and a four-side module board 14, wherein the side module board 11 is composed of a stainless steel corrugated board.
The two-sided template plate 12 is formed by welding two stainless steel corrugated plates, and the included angle of the two stainless steel corrugated plates is 120 degrees; the four-side module board 14 is formed by connecting four stainless steel corrugated boards in sequence through a welding process, and the included angle between every two adjacent stainless steel corrugated boards is 120 degrees; a two-sided modular panel 12 and a four-sided modular panel 14 may be joined by a welding process to form a regular hexagonal tube bundle.
the three-side module plate 13 is formed by sequentially connecting three stainless steel corrugated plates through a welding process, and the included angle between every two adjacent stainless steel corrugated plates is 120 degrees; two three-side module plates 13 can be spliced by a welding process to form a regular hexagon tube bundle, and one side module plate 11, one two-side module plate 12 and one three-side module plate 13 can be spliced by a welding process to form a regular hexagon tube bundle.
The electrostatic dust removal anode tube of the embodiment is formed by splicing a plurality of module plates through a welding process and forms a tube bundle combined structure with a plurality of regular hexagons in cross section. The splicing and assembling mode of the electrostatic dust removal anode tube is simple and easy to operate, the splicing mode can be various, a plurality of module plates are convenient to transport and store, and on-site splicing, assembling and disassembling can be carried out.
specifically, as shown in fig. 1 and fig. 2, the middle hexagonal tube bundle may be formed by splicing two three-sided module plates 13; the hexagonal tube bundle 20 at the lower left corner and the hexagonal tube bundle 20 in the middle share one edge, and the shared edge, one edge module plate 11 and one four-edge module plate 14 are spliced to form the hexagonal tube bundle 20 at the lower left corner; the hexagonal tube bundle at the lower right corner and the hexagonal tube bundle in the middle share one edge, and the shared edge, one edge module plate 11 and one four-edge module plate 14 are spliced to form the hexagonal tube bundle 20 at the lower right corner; the hexagonal tube bundle 20 at the lower left corner and the hexagonal tube bundle 20 in the middle share one edge with the hexagonal tube bundle 20 at the upper left corner respectively, and the two shared edges and the two side modular plates 12 are spliced to form the hexagonal tube bundle 20 at the upper left corner; the hexagonal tube bundle 20 at the lower right corner and the hexagonal tube bundle 20 in the middle share one edge with the hexagonal tube bundle 20 at the upper right corner respectively, and the two shared edges and the two modular plates 12 are spliced to form the hexagonal tube bundle 20 at the upper right corner.
The electrostatic dust removal anode tube is not limited to the splicing manner described in this embodiment, for example, the middle hexagonal tube bundle 20 may be formed by splicing one two-sided module plate 12 and one four-sided module plate 14, or may be formed by splicing one-sided module plate 11, one two-sided module plate 12 and one three-sided module plate 13, and the remaining hexagonal tube bundles 20 are not limited to the splicing manner described in this embodiment, and are not limited specifically herein.
The four directions of the upper, lower, left and right defined in this embodiment are determined by the view relationships shown in fig. 1 to fig. 4, which are only for clearly illustrating the positions and connection relationships of the components and are not limiting to this embodiment.
The above embodiments are only used to illustrate the technical solution of the present invention, and not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be apparent to those skilled in the art that modifications may be made to the embodiments described in the foregoing embodiments, or that equivalents may be substituted for elements thereof; such modifications and substitutions do not depart from the spirit and scope of the present invention, which is claimed.
Claims (5)
1. An anode tube for electrostatic dust removal, which is characterized in that,
The anode tube is formed by splicing a plurality of module plates and forms a tube bundle combined structure with a plurality of regular hexagons in cross section shape;
The module board is made of stainless steel corrugated boards, and the thickness of each stainless steel corrugated board is 1-2 mm;
the cross section of the stainless steel corrugated board is in the shape of a plurality of isosceles trapezoids which are sequentially connected in an up-down lap joint mode, the upper bottoms of the isosceles trapezoids are 13-16mm, the lower bottoms of the isosceles trapezoids are 15-18mm, and the lap joint width of every two adjacent isosceles trapezoids is 1-2 mm.
2. An anode tube for electrostatic precipitator according to claim 1,
the module board comprises one side module board, two side module boards, three side module boards and four side module boards.
3. An anode tube for electrostatic precipitator according to claim 2,
The module board on one side is composed of the stainless steel corrugated board.
4. An anode tube for electrostatic precipitator according to claim 2,
The two-side formwork plate consists of two stainless steel corrugated plates, and the included angle of the two stainless steel corrugated plates is 120 degrees;
the four-side module plate is formed by sequentially connecting four stainless steel corrugated plates, and the included angle between every two adjacent stainless steel corrugated plates is 120 degrees;
One of the two side module plates and one of the four side module plates can be spliced to form a regular hexagon tube bundle.
5. An anode tube for electrostatic precipitator according to claim 2,
trilateral module board is by three stainless steel corrugated sheet links to each other in proper order and forms, adjacent two the contained angle of stainless steel corrugated sheet is 120, two trilateral module board can splice and form a regular hexagon tube bank.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920391668.1U CN209772410U (en) | 2019-03-26 | 2019-03-26 | electrostatic precipitation anode tube |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201920391668.1U CN209772410U (en) | 2019-03-26 | 2019-03-26 | electrostatic precipitation anode tube |
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| Publication Number | Publication Date |
|---|---|
| CN209772410U true CN209772410U (en) | 2019-12-13 |
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| Application Number | Title | Priority Date | Filing Date |
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| CN201920391668.1U Active CN209772410U (en) | 2019-03-26 | 2019-03-26 | electrostatic precipitation anode tube |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112718248A (en) * | 2020-12-13 | 2021-04-30 | 南通得力净化器材厂有限公司 | Manufacturing process of corrugated micro-static module |
-
2019
- 2019-03-26 CN CN201920391668.1U patent/CN209772410U/en active Active
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN112718248A (en) * | 2020-12-13 | 2021-04-30 | 南通得力净化器材厂有限公司 | Manufacturing process of corrugated micro-static module |
| CN112718248B (en) * | 2020-12-13 | 2022-11-11 | 南通得力净化器材厂有限公司 | Manufacturing process of corrugated micro-static module |
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