CN211753953U - Gas purification device - Google Patents

Abstract

The utility model discloses gas purification device includes: the ultraviolet lamp comprises a barrel, a top plate, a bottom plate, an upper partition plate, a lower partition plate, an air inlet pipe, an Ultraviolet (UV) lamp tube, an air outlet pipe and a blow-off pipe, wherein the top plate and the bottom plate are respectively welded at the top and the bottom of the barrel; the lower partition plate is welded on the bottom plate and has a certain distance with the top plate, the space of the barrel is divided into a plurality of communicated spaces by the upper partition plate and the lower partition plate, one side or two sides of each upper partition plate and the lower partition plate are provided with a plurality of UV lamp tubes along the width direction of each upper partition plate and the lower partition plate, the length of each UV lamp tube is equal to or less than that of the upper partition plate or the lower partition plate, and one side or two sides of the upper partition plate and the lower partition plate provided with the UV lamp tubes are sprayed with coatings made of titanium dioxide nano materials.

Description

Gas purification device

Technical Field

The utility model relates to a purifier, especially gaseous purifier.

Background

The existing gas purification device usually cools or condenses the gas entering the purification device, and the cooling or condensing mode is generally realized by a heat exchange or water cooling mode, a large amount of heat or water resources are wasted no matter through the heat exchange or water cooling, the structure of the device is complex, and the decomposition of toxic gas is not greatly facilitated.

Disclosure of Invention

The invention aims to overcome the defects in the prior art and provide a gas purification device.

In order to accomplish the object of the present invention, the present invention adopts the following technical solutions:

the utility model discloses a gas purification device, it includes: barrel, roof, bottom plate, last baffle, lower baffle, intake pipe, UV fluorescent tube, outlet duct and blow off pipe, roof and bottom plate weld respectively in the top and the bottom of barrel, adorn respectively in the both sides of barrel at intake pipe and outlet duct, and the blow off pipe dress is on the bottom plate, wherein: the at least one upper partition plate and the at least one lower partition plate are uniformly arranged along the transverse direction of the cylinder at intervals, the upper partition plate and the lower partition plate are parallel to each other, and the upper partition plate is welded on the top plate and is spaced from the bottom plate by a certain distance; the lower partition plate is welded on the bottom plate and is a certain distance away from the top plate, the space of the barrel is divided into a plurality of communicated spaces by the upper partition plate and the lower partition plate, a plurality of UV lamp tubes are arranged on one side or two sides of each upper partition plate and each lower partition plate along the width direction of each upper partition plate and each lower partition plate, the length of each UV lamp tube is equal to or less than that of each upper partition plate or each lower partition plate, and a coating layer made of titanium dioxide nano-materials is sprayed on one side or two sides of the upper partition plate and the lower partition plate which are provided with the UV lamp tubes.

The utility model discloses a gas purification device, wherein: the gas purification apparatus further includes: the fin plates are welded on two sides of the upper partition plate and the lower partition plate along the width direction of the upper partition plate and the lower partition plate, the length of each fin plate is equal to or less than that of the upper partition plate or the lower partition plate, the UV lamp tube is arranged between the two adjacent fin plates, and a coating made of titanium dioxide nano-materials is sprayed on one side of each fin plate close to the UV lamp tube.

The utility model discloses a gas purification device, wherein: the UV lamp tubes near the upper partition plate are inserted into the cylinder from the top plate, and the UV lamp tubes near the lower partition plate are inserted into the cylinder from the bottom plate.

The utility model discloses a gas purification device, wherein: the gas purification apparatus further includes: the steam purging pipe is arranged on the top plate, and at least one steam purging pipe is arranged on the top plate between the two sides of the barrel and the upper partition plate or the lower partition plate and the top plate between the adjacent upper partition plate and the lower partition plate.

The utility model discloses a gas purification device, wherein: the gas purification apparatus further includes: and at least three support legs are welded on the cylinder body close to the bottom plate.

The utility model discloses a gas purification device, wherein: the blow-off pipe is communicated with a space enclosed by two sides of the barrel and the lower partition boards and a space enclosed by two adjacent lower partition boards.

The utility model discloses a gas purification device, wherein: the cylinder body is a cylindrical or rectangular column.

Compared with the prior art, the utility model has the advantages that: the utility model discloses a gas purification device simple structure, convenient operation can effectual decomposition toxic gas.

Drawings

FIG. 1 is a schematic front sectional view of a gas purification apparatus according to the present invention;

fig. 2 is a schematic cross-sectional view taken along line a-a of fig. 1.

In fig. 1 and 2, reference numeral 1 denotes an intake pipe; reference numeral 2 is a fin plate; reference numeral 3 is an upper partition plate; reference numeral 4 is a steam purge pipe; reference numeral 5 is a top plate; reference numeral 6 is a lower partition plate; reference numeral 7 is an outlet pipe; reference numeral 8 is a bottom plate; reference numeral 9 is a leg; reference numeral 10 is a sewage drain pipe; reference numeral 11 is a UV lamp tube; reference numeral 12 denotes a cylinder.

Detailed Description

As shown in fig. 1, the gas purification apparatus of the present invention comprises: the fin 2, landing leg 9, steam sweeps pipe 4, barrel 12, roof 5, bottom plate 8, go up baffle 3, lower baffle 6, intake pipe 1, UV fluorescent tube 11, outlet duct 7 and blow off pipe 10, barrel 12 is cylindrical or rectangle post, roof 5 and bottom plate 8 weld respectively at the top and the bottom of barrel 12, adorn respectively in the both sides of barrel 12 at intake pipe 1 and outlet duct 7, blow off pipe 10 is adorned on the bottom plate 8 that encloses between the space that encloses between barrel both sides and lower baffle 6 and two adjacent lower baffles 6. The four legs 9 are welded to the barrel 12 near the base plate 8.

As shown in fig. 2, two upper partition boards 3 and two lower partition boards 6 are arranged uniformly along the transverse direction of the cylinder 12, the upper partition boards 3 and the lower partition boards 6 are parallel to each other, the upper partition boards 3 are welded on the top plate 5 and have a certain distance with the bottom plate 8; the lower partition plate 6 is welded on the bottom plate 8 and is a certain distance away from the top plate 5, the space of the cylinder 12 is divided into five communicated spaces by the upper partition plate 3 and the lower partition plate 6, one side or two sides of each upper partition plate 3 and the lower partition plate 6 are provided with a plurality of UV lamp tubes 11 along the width direction of each upper partition plate 3 and the lower partition plate 6, the length of each UV lamp tube 11 is equal to or less than that of the upper partition plate 3 or the lower partition plate 6, and one side or two sides of the upper partition plate 3 and the lower partition plate 6 which are provided with the UV lamp tubes 11 are sprayed with a coating layer which is made of titanium dioxide nano-material. Along the width direction of upper baffle 3 and lower baffle 6, weld a plurality of fin board 2 in the both sides of upper baffle 3 and lower baffle 6, fin board 2 length equals or is less than the length of upper baffle 3 or lower baffle 6, and UV fluorescent tube 11 arranges between two adjacent fin boards 2, and it has the coating of the nanometer material constitution of titanium dioxide to spout on one side of fin board 2 that is close to UV fluorescent tube 11. The UV lamps 11 adjacent to the upper partition 3 are inserted into the cylindrical body 12 from the top plate 5, and the UV lamps 11 adjacent to the lower partition 6 are inserted into the cylindrical body 12 from the bottom plate 8.

As shown in FIG. 1, the steam purge pipe 4 is installed on the top plate 5, and at least one steam purge pipe 4 for purging the attached matters adhered to the upper partition plate 3, the lower partition plate 6 and the fin plate 2 in the space is installed on the top plate 5 between both sides of the tub 12 and the upper partition plate 3 or the lower partition plate 6 and the top plate 5 between the adjacent upper partition plate 3 and the lower partition plate 6, that is, the upper partition plate 3 and the lower partition plate 6 divide the space of the tub 12 into five communicated upper sections of space on the top plate 5.

The poisonous gas entering the gas purifying device of the utility model from the air inlet pipe 1 enters the space between the upper baffle plate 3 and the lower baffle plate 6 through the space left by the upper baffle plate 3 and the bottom plate 8, enters the space between the other lower baffle plate 6 and the upper baffle plate 3 through the space left by the lower baffle plate 6 and the top plate 5, and finally flows out of the gas purifying device of the utility model from the air outlet pipe 7, the poisonous gas hits the fin plate 2, the upper baffle plate 3 and the lower baffle plate 6 in the gas purifying device of the utility model, the particles and the moisture in the poisonous gas are attached to the fin plate 2, the upper baffle plate 3 and the lower baffle plate 6, the poisonous substance is decomposed under the irradiation of the UV lamp tube 11, therefore, the poisonous gas after passing through the gas purifying device of the utility model is purified, after a period of toxic gas treatment, a certain amount of steam is sprayed from the cylinder body 12 through the steam sweeping pipe 4, the fin plate 2, the upper clapboard 3 and the lower clapboard 6 are cleaned, and the cleaned residue and liquid are discharged out of the cylinder body 12 through the sewage discharge pipe 10.

The above-mentioned embodiments are only described for the preferred embodiments of the present invention, but not for limiting the scope of the air inlet of the present invention, and various modifications and improvements made by those skilled in the art without departing from the design spirit of the present invention should fall into the protection scope defined by the claims of the present invention.

Claims (7)

1. A gas purification apparatus comprising: barrel (12), roof (5), bottom plate (8), go up baffle (3), lower baffle (6), intake pipe (1), UV fluorescent tube (11), outlet duct (7) and blow off pipe (10), roof (5) and bottom plate (8) weld respectively in the top and the bottom of barrel (12), adorn respectively in the both sides of barrel (12) in intake pipe (1) and outlet duct (7), and blow off pipe (10) are adorned on bottom plate (8), its characterized in that: the at least one upper partition plate (3) and the at least one lower partition plate (6) are uniformly arranged along the transverse direction of the cylinder body (12) at intervals, the upper partition plate (3) and the lower partition plate (6) are parallel to each other, and the upper partition plate (3) is welded on the top plate (5) and is spaced from the bottom plate (8); the lower partition plate (6) is welded on the bottom plate (8) and is a certain distance away from the top plate (5), the space of the barrel (12) is divided into a plurality of communicated spaces by the upper partition plate (3) and the lower partition plate (6), a plurality of UV lamp tubes (11) are arranged on one side or two sides of each of the upper partition plate (3) and the lower partition plate (6) along the width direction of each of the upper partition plate (3) and the lower partition plate (6), the length of each UV lamp tube (11) is equal to or less than that of the upper partition plate (3) or the lower partition plate (6), and a coating layer made of titanium dioxide nano-materials is sprayed on one side or two sides of the upper partition plate (3) and the lower partition plate (6) which are provided with the UV lamp tubes (11).

2. The gas purification apparatus of claim 1, wherein: the gas purification apparatus further includes: the fin plate (2), along the width direction of last baffle (3) and lower baffle (6), weld a plurality of fin plate (2) in the both sides of last baffle (3) and lower baffle (6), fin plate (2) length equals or is less than the length of last baffle (3) or lower baffle (6), UV fluorescent tube (11) are arranged between two adjacent fin plates (2), spout the coating that comprises the nano-material of titanium dioxide on one side of fin plate (2) that is close to UV fluorescent tube (11).

3. The gas purification apparatus of claim 2, wherein: the UV lamp tubes (11) close to the upper partition plate (3) are inserted into the cylinder body (12) from the top plate (5), and the UV lamp tubes (11) close to the lower partition plate (6) are inserted into the cylinder body (12) from the bottom plate (8).

4. A gas cleaning device according to claim 3, characterized in that: the gas purification apparatus further includes: the steam purging device comprises a steam purging pipe (4), wherein the steam purging pipe (4) is arranged on a top plate (5), and at least one steam purging pipe (4) is arranged on the top plate (5) between two sides of a cylinder (12) and an upper partition plate (3) or a lower partition plate (6) and on the top plate (5) between the adjacent upper partition plate (3) and the lower partition plate (6).

5. The gas purification apparatus of claim 4, wherein: the gas purification apparatus further includes: the supporting legs (9) and at least three supporting legs (9) are welded on the cylinder body (12) close to the bottom plate (8).

6. The gas purification apparatus of claim 5, wherein: the sewage discharge pipe (10) is communicated with a space enclosed by two sides of the barrel (12) and the lower partition plates (6) and a space enclosed by two adjacent lower partition plates (6).

7. The gas purification apparatus of claim 6, wherein: the cylinder body (12) is a cylindrical or rectangular column.

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