CN210815725U - Hidden type wall-through plate type double-voltage electrostatic dust removal and sterilization device for pipeline - Google Patents

Abstract

The utility model relates to the technical field of fresh air, in particular to a hidden type pipeline wall-penetrating type double-voltage electrostatic dust removal and sterilization device, which comprises a first insulating shell and a second insulating shell, wherein the first insulating shell and the second insulating shell are spliced into a shape which is adaptive to the inner side of a wall-penetrating type pipeline; the first insulating shell and the second insulating shell are spliced to form a hollow structure, a primary filter screen is arranged on the side, facing the air inlet, of the hollow structure of the wall-through type pipeline, and a de-ozonation filter screen is arranged on the side, facing the air outlet, of the hollow structure; an electrostatic dust removal unit is arranged between the primary filter screen and the ozone-removing decomposition filter screen; one side of the electrostatic dust removal unit facing the primary filter screen is a corona area. The utility model has the advantages that: with the electrostatic precipitator technique, reach functions such as corresponding new trend primary efficiency filtration, ozonolysis and integrate in the pipeline of wall-piercing formula, simple installation, the structure is exquisite, greatly reduces indoor new fan's whole volume.

Description

Hidden type wall-through plate type double-voltage electrostatic dust removal and sterilization device for pipeline

Technical Field

The utility model relates to a new trend technical field, concretely relates to hidden pipeline is worn wallboard formula dual voltage electrostatic precipitator sterilizing equipment.

Background

At present, the fresh air technology is gradually applied to the use scenes of the public, and the electrostatic dust removal technology is also widely applied to various fresh air products;

meanwhile, the fresh air technology is more and more delicate and smaller, however, in the prior art, the fresh air dust removal technology is not applied to the function of hiding the pipeline.

SUMMERY OF THE UTILITY MODEL

In order to realize the purpose, the utility model provides a hidden pipeline is worn wallboard formula dual voltage electrostatic precipitator sterilizing equipment.

The utility model discloses a concrete technical scheme as follows: the hidden type wall-through type double-voltage electrostatic dust removal and sterilization device for the pipeline comprises a first insulating shell and a second insulating shell, wherein the first insulating shell and the second insulating shell are spliced into a shape matched with the inner side of the wall-through type pipeline;

the first insulating shell and the second insulating shell are spliced to form a hollow structure, a primary filter screen is arranged on the side, facing the air inlet, of the hollow structure of the through-wall pipeline, and an ozone-removing decomposition filter screen is arranged on the side, facing the air outlet, of the hollow structure of the through-wall pipeline;

an electrostatic dust removal unit is arranged between the primary filter screen and the ozone-removing decomposition filter screen;

one side of the electrostatic dust removal unit facing the primary filter screen is a corona area.

Further, the electrostatic dust removal unit comprises a positive dust collection piece, a negative dust collection piece, a positive piece-associated fastening screw, a negative piece-associated fastening screw, and an isolating aluminum gasket.

Furthermore, the positive dust collecting piece and the negative dust collecting piece are arranged in a cross mode and are parallel to each other, and corresponding fixing holes and through holes are formed in the positive dust collecting piece and the negative dust collecting piece respectively;

the positive plate associated fastening screw rod sequentially passes through the fixing hole of the positive dust collecting plate and the through hole of the negative dust collecting plate;

the negative plate related fastening screw rod sequentially passes through the fixing hole of the negative dust collecting plate and the through hole of the positive dust collecting plate;

and the isolating aluminum gasket for clamping and conducting is arranged between the positive dust collecting piece and the negative dust collecting piece.

Furthermore, a plurality of groove holes matched with the positive plate related fastening screw and the negative plate related fastening screw for fixing are formed in the first insulating shell and the second insulating shell.

Furthermore, a first bottom plate and a first top plate are provided inside the first insulating shell, a second bottom plate and a second top plate are provided inside the second insulating shell, after the first insulating shell and the second insulating shell are spliced, the first bottom plate and the second bottom plate are abutted against each other, and the first top plate and the second top plate are abutted against each other;

the electrostatic dust removal unit is arranged in a space defined between the first bottom plate, the second bottom plate, the first top plate and the second top plate.

Furthermore, the electrostatic dust removal unit faces one side of the primary filter screen is provided with a plurality of ionizing wires, and the ionizing wires form a corona area.

The utility model has the advantages that: with the electrostatic precipitator technique, reach functions such as corresponding new trend primary efficiency filtration, ozonolysis and integrate in the pipeline of wall-piercing formula, simple installation, the structure is exquisite, greatly reduces indoor new fan's whole volume.

Drawings

Fig. 1 is a schematic view of the overall appearance structure of the present invention;

fig. 2 is an exploded view of the overall structure of the present invention;

fig. 3 is a schematic structural view of the corona region of the present invention;

FIG. 4 is an exploded view of the electrostatic precipitator unit of the present invention;

fig. 5 is a cross-sectional view of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more clearly understood, the present invention is further described in detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

On the contrary, the invention is intended to cover alternatives, modifications, equivalents and alternatives which may be included within the spirit and scope of the invention as defined by the appended claims. Furthermore, in order to provide a better understanding of the present invention to the public, certain specific details are set forth in the following detailed description of the invention. It will be apparent to those skilled in the art that the present invention may be practiced without these specific details.

As shown in fig. 1, for the present invention provides a hidden wall-through type dual-voltage electrostatic dust removal and sterilization device with a three-dimensional structure, the dust removal and sterilization device includes a housing 1, the housing 1 includes a first insulating housing 11 and a second insulating housing 12, after the first insulating housing 11 is spliced with the second insulating housing 12, the inside structure of the hidden wall-through type pipeline is formed, and the mainstream pipeline in the market is a circular structure, so the present invention provides the drawings mainly illustrating the view of a cylindrical structure;

the first insulating shell 11 and the second insulating shell 12 can be symmetrically identical or different, and the purpose is to adapt to the internal structure of the pipeline after splicing;

an electrostatic dust removal and sterilization component is arranged in an internal space defined by the first outer insulating shell and the second insulating shell 12 after being spliced;

as shown in fig. 2, the electrostatic dust removal sterilization assembly comprises a primary filter screen 2, an ozone-removing decomposition filter screen 3 and an electrostatic dust removal unit 4;

after the first insulating shell 11 and the second insulating shell 12 are spliced, hollow structures are formed at two ends, the outer peripheral side of the primary filter screen 2 is matched with the hollow structure at one end, and the outer peripheral side of the ozone-removing decomposition filter screen 3 is matched with the hollow structure at the other end;

it can be further understood that the primary filter screen 2 is arranged on the air inlet side of the shell 1 facing outdoor fresh air, and the ozone-removing decomposition filter screen 3 is arranged on the air outlet side of the shell 1 facing indoor purified fresh air;

the electrostatic dust removal unit 4 is arranged in an inner space defined by the first insulating shell 11, the second insulating shell 12, the primary filter screen 2 and the ozone-removing decomposition filter screen 3;

as shown in fig. 3, a corona region 5 is formed in a space between the electrostatic dust removal unit 4 and the primary filter screen 2, and the side of the primary filter screen 2 faces the electrostatic dust removal unit;

specifically, a plurality of ionizing wires 51 are arranged on one side of the electrostatic dust removal unit 4 facing the primary filter screen 2;

as shown in fig. 4 and 5, the electrostatic precipitation unit 4 includes a positive dust collecting plate 41, a negative dust collecting plate 42, a positive plate-associated fastening screw 43, a negative plate-associated fastening screw 44, and an insulating aluminum gasket 45;

the positive dust collecting pieces 41 and the negative dust collecting pieces 42 are arranged in a mutually crossed manner, the positive dust collecting pieces 41 and the negative dust collecting pieces 42 are parallel to each other, and the positive dust collecting pieces 41 and the negative dust collecting pieces 42 are respectively provided with corresponding fixing holes 400 and through holes 401 for respectively connecting the fastening screws 43 and 44 through the positive pieces;

specifically, the fastening screw 43 associated with the positive electrode plate can sequentially pass through the fixing hole 400 of the positive electrode dust collecting plate 41 and the through hole 401 of the negative electrode dust collecting plate 42, and the order of the fixing hole 400 and the through hole 401 can be changed;

the fastening screw 44 associated with the negative electrode plate sequentially passes through the fixing hole 400 of the negative electrode dust collecting plate 42 and the through hole 401 of the positive electrode dust collecting plate 41, and the order of the fixing hole 400 and the through hole 401 can be changed;

the isolating aluminum gasket 45 is arranged between the positive dust collecting piece 41 and the negative dust collecting piece 42, and the isolating aluminum gasket 45 is used for clamping and conducting;

specifically, the diameter of the through hole 401 is larger than that of the fixing hole 400, and the positions of the fixing hole 400 and the through hole 401 are mutually intersected and opposite;

the isolating aluminum gasket is respectively abutted against the periphery sides of the fixing holes 400 of the two corresponding adjacent negative dust collecting pieces 42 or the two corresponding positive dust collecting pieces 41 and passes through the through holes 401 of the positive dust collecting pieces 41 or the negative dust collecting pieces 42 clamped in the middle;

the isolating aluminum gasket is of a hollow structure and allows the positive plate-associated fastening screw 43 or the negative plate-associated fastening screw 44 to pass through;

the number of the positive-electrode-sheet-associated fastening screws 43 or the negative-electrode-sheet-associated fastening screws 44 may be 1 or more, and the number may be more as needed for fixation stability;

a plurality of groove holes 100 matched with the positive plate-associated fastening screws 43 and the negative plate-associated fastening screws 44 for fixation are formed in the first insulating housing 11 and the second insulating housing 12, and the positive plate-associated fastening screws 43 and the negative plate-associated fastening screws 44 can be fixed by screwing bolts on the groove holes 100, so that the installation is facilitated;

meanwhile, a first bottom plate 111 and a first top plate 112 are provided inside the first insulating housing 11, a second bottom plate 121 and a second top plate 122 are provided inside the second insulating housing 12, after the first insulating housing 11 and the second insulating housing 12 are spliced, the first bottom plate 111 and the second bottom plate 121 abut against each other, and the first top plate 112 and the second top plate 122 abut against each other;

the electrostatic dust removal unit 4 is disposed in a space defined between the first bottom plate 111, the second bottom plate 121, the first top plate 112, and the second top plate 122, and a space for disposing cables or wires is disposed between the first bottom plate 111 and the second bottom plate 121 and between the first insulating housing 11 and the second insulating housing 12;

or/and a space for arranging cables or wires is arranged between the first top plate 112, the second top plate 122 and the first insulating shell 11 and the second insulating shell 12;

and the first insulation shell 11 and the second insulation shell 12 are provided with lead through holes for allowing the lead or the cable to pass through at the space positions corresponding to the cable or the lead;

the ionizing wires 51 may be respectively connected to the first bottom plate 111, and/or the second bottom plate 121, and the first top plate 112, and/or the second top plate 122;

or in other embodiments, an electric contact allowing the wire or cable to be communicated is arranged between the top of the ozone-removing decomposition filter screen 3 and the first insulating shell 11 and the second insulating shell 12;

the utility model discloses in having disclosed totally and having solved the utility model discloses relevant technical problem's whole structural technical features, the relevant electricity mode of connecing about positive pole collection dirt piece 41 or negative pole collection dirt piece 42 and ionization silk 51 can understand the conventional technical means among the prior art, does not do specific restriction, and it has reserved relevant structure that allows wire or cable to pass through in corresponding structurally.

Claims (6)

1. The hidden wall-through type double-voltage electrostatic dust removal and sterilization device for the pipeline is characterized by comprising a first insulating shell and a second insulating shell, wherein the first insulating shell and the second insulating shell are spliced into a shape matched with the inner side of the wall-through type pipeline;

the first insulating shell and the second insulating shell are spliced to form a hollow structure, a primary filter screen is arranged on the side, facing the air inlet, of the hollow structure of the through-wall pipeline, and an ozone-removing decomposition filter screen is arranged on the side, facing the air outlet, of the hollow structure of the through-wall pipeline;

an electrostatic dust removal unit is arranged between the primary filter screen and the ozone-removing decomposition filter screen;

one side of the electrostatic dust removal unit facing the primary filter screen is a corona area.

2. The hidden type wall-through plate type dual-voltage electrostatic dust removal and sterilization device according to claim 1, wherein the electrostatic dust removal unit comprises a positive dust collection plate, a negative dust collection plate, a positive plate-associated fastening screw, a negative plate-associated fastening screw, and an isolating aluminum gasket.

3. The hidden type pipeline wall-through plate type dual-voltage electrostatic dust removal and sterilization device as claimed in claim 2, wherein the positive dust collecting plate and the negative dust collecting plate are arranged in a cross manner, and are parallel to each other, and the positive dust collecting plate and the negative dust collecting plate are respectively provided with corresponding fixing holes and through holes;

the positive plate associated fastening screw rod sequentially passes through the fixing hole of the positive dust collecting plate and the through hole of the negative dust collecting plate;

the negative plate related fastening screw rod sequentially passes through the fixing hole of the negative dust collecting plate and the through hole of the positive dust collecting plate;

and the isolating aluminum gasket for clamping and conducting is arranged between the positive dust collecting piece and the negative dust collecting piece.

4. The hidden type wall-through plate type dual-voltage electrostatic dust removal and sterilization device as claimed in claim 3, wherein a plurality of groove holes for fixing the fastening screws associated with the positive electrode plate and the fastening screws associated with the negative electrode plate are formed on the first insulating housing and the second insulating housing.

5. The hidden type wall-through dual-voltage electrostatic dust removal and sterilization device as claimed in claim 3, wherein a first bottom plate and a first top plate are provided inside the first insulating housing, a second bottom plate and a second top plate are provided inside the second insulating housing, after the first insulating housing is assembled with the second insulating housing, the first bottom plate and the second bottom plate are abutted against each other, and the first top plate and the second top plate are abutted against each other;

the electrostatic dust removal unit is arranged in a space defined between the first bottom plate, the second bottom plate, the first top plate and the second top plate.

6. The hidden wall-through plate type dual-voltage electrostatic dust removal and sterilization device as claimed in claim 5, wherein a plurality of ionizing wires are disposed on a side of the electrostatic dust removal unit facing the primary filter screen, and the ionizing wires form a corona region.

Images