CN218944669U - Purification system for waste gas treatment - Google Patents

Abstract

The utility model provides a purification system for waste gas treatment, comprising: the air collecting box is internally provided with a cavity, one end of the air collecting box is provided with an air inlet communicated with the cavity, and the other end of the air collecting box is provided with an air outlet communicated with the cavity; the drawer is arranged on the gas collecting tank and can be sent into the cavity of the gas collecting tank, and the drawer is provided with a vent hole communicated with the cavity; dust removal particles, a plurality of dust removal particles are placed in the drawer. Air containing paint particles flows into the gas collecting tank through the pipeline after being combusted by the burner, and waste gas flows into the drawer through the vent holes, so that dust removal particles filter pollutants in the waste gas. After the dust removing particles are used for a period of time, the adsorbed black pollutants are more, and then the dust removing particles are subjected to ultrasonic cleaning and drying, so that the aim of recycling is fulfilled.

Description

Purification system for waste gas treatment

Technical Field

The utility model relates to the field of environmental protection, in particular to a purification system for waste gas treatment.

Background

In the bicycle surface treatment process, can use the coating, in the spraying in-process coating spraying can permeate into the air, in order to reduce the harm that the coating brought, adopt the exhaust system to suck the air generally, then burn the combustible material in the air through the mode of burning, produce the waste gas of tape volume in the gas after the burning, if adopt the water-soluble method, let in waste gas into in water, utilize water to absorb the waste material, at first because the existence of bubble leads to gas can not dissolve completely, cause the waste material in the bubble to be difficult to clear. In addition, water resources are wasted, thereby increasing the purification cost.

The scheme mainly aims at adsorbing and filtering pollutants in the waste gas, and proposes a reusable waste gas treatment scheme on the basis of the scheme to reduce waste gas treatment cost.

Disclosure of Invention

In order to solve the technical problems, the utility model provides a purification system for waste gas treatment, wherein air containing paint particles flows into a gas collection box through a pipeline after being combusted by a burner, waste gas flows into the drawer through a vent hole, and at the moment, dust removal particles filter pollutants in the waste gas. After the dust removing particles are used for a period of time, the adsorbed black pollutants are more, and then the dust removing particles are subjected to ultrasonic cleaning and drying, so that the aim of recycling is fulfilled.

Specifically, the present utility model provides a purification system for exhaust gas treatment, comprising:

the gas collecting box is internally provided with a cavity, one end of the gas collecting box is provided with a gas inlet communicated with the cavity, and the other end of the gas collecting box is provided with a gas outlet communicated with the cavity;

the drawer is arranged on the gas collection box and can be sent into a cavity of the gas collection box, and a vent hole communicated with the cavity is formed in the drawer;

and the dust removing particles are arranged in the drawer.

Preferably, a plurality of groups of air supply units are arranged in the air collection box, adjacent air supply units are isolated through isolating plates, the air supply units are used for penetrating through the air inlet and the air outlet, and the vent holes on the drawers are communicated with the air supply units.

Preferably, a baffle is horizontally arranged in the air supply unit, the baffle divides the air supply unit into a first air channel and a second air channel, a through hole used for penetrating through the first air channel and the second air channel is formed in the baffle, the first air channel is located below the second air channel, the first air channel is communicated with the air inlet, and the second air channel is communicated with the air outlet.

Preferably, the lower bottom plate of the drawer is pressed on the through hole, the vent hole is arranged on the lower bottom plate of the drawer, and the vent hole is communicated with the through hole; the upper end of the drawer is of an open structure and is communicated with the second air duct.

Preferably, a first gas collecting hood is arranged at one end of the gas collecting tank, and the gas inlet is arranged in the first gas collecting hood.

Preferably, a second gas collecting hood is arranged at the other end of the gas collecting tank, and the exhaust port is arranged on the second gas collecting hood.

Preferably, the dust removal particles are cylindrical members, and through holes are formed in the two ends of the dust removal particles along the axial direction of the dust removal particles.

Preferably, a punching opening is formed in the side wall of the dust removing particle, and a bent punching arm is further arranged on the dust removing particle and extends into the through hole of the dust removing particle.

Preferably, the dust removing particles are spherical shells, and spiral openings are formed in the surfaces of the dust removing particles.

The beneficial effects are that:

the utility model provides a purification system for waste gas treatment, wherein air containing paint particles flows into a gas collection box through a pipeline after being combusted by a burner, waste gas flows into a drawer through a vent hole, and at the moment, dust removal particles filter pollutants in the waste gas. After the dust removing particles are used for a period of time, the adsorbed black pollutants are more, and then the dust removing particles are subjected to ultrasonic cleaning and drying, so that the aim of recycling is fulfilled.

Drawings

In order to more clearly illustrate the technical solutions of the embodiments of the present utility model, the drawings used in the description of the embodiments or the prior art will be briefly described below.

Fig. 1 is a schematic perspective view of an exhaust gas treatment purification system according to the present embodiment;

fig. 2 is a schematic plan view of the exhaust gas treatment purification system according to the present embodiment;

FIG. 3 is a schematic cross-sectional view of the structure of FIG. 2 in the direction A-A;

FIG. 4 is an enlarged partial schematic view at B in FIG. 3;

FIG. 5 is a schematic view of the structure of an embodiment of the dust removing particles in this example;

fig. 6 is a schematic structural view of another embodiment of the dust removing particles in this example.

Wherein reference numerals are as follows:

11-a gas collection box; 12-air inlet; 13-exhaust port; 14-drawer; 15-vent holes; 16-dedusting particles; 17-a separator; 18-a baffle; 19-a first air duct; 20-a second air duct; 21-a through hole; 22-a first gas-collecting channel; 23-a second gas-collecting channel; 24-punching the mouth; 25-through holes; 26-a stamping arm; 27-helical opening.

Detailed Description

The utility model is described in further detail below with reference to the accompanying drawings.

As shown in fig. 1 to 4, the present embodiment proposes a purification system for exhaust gas treatment, comprising:

the gas collecting tank 11, wherein a cavity is arranged in the gas collecting tank 11, one end of the gas collecting tank 11 is provided with a gas inlet 12 communicated with the cavity, and the other end of the gas collecting tank 11 is provided with a gas outlet 13 communicated with the cavity;

a drawer 14, wherein the drawer 14 is installed on the gas collecting tank 11, the drawer 14 can be sent into a cavity of the gas collecting tank 11, and a vent hole 15 communicated with the cavity is formed in the drawer 14;

dust removing particles 16, a plurality of the dust removing particles 16 are placed in the drawer 14.

Working principle: air containing paint particles is combusted by the burner and flows into the gas collection box 11 through the pipeline, and exhaust gas flows into the drawer 14 through the vent holes 15, and at this time, dust removal particles 16 filter pollutants in the exhaust gas.

Principle of repeated utilization: after the dust removing particles 16 are used for a period of time, the dust removing particles 16 are subjected to ultrasonic cleaning and drying after a large amount of black pollutants are adsorbed, so that the aim of recycling is fulfilled.

As an implementation manner of this embodiment, a plurality of sets of air supply units are disposed in the air collection box 11, adjacent air supply units are isolated by a partition plate 17, the air supply units are used for penetrating the air inlet 12 and the air outlet 13, and the air vent 15 on the drawer 14 is penetrated with the air supply units.

Two sets of blower units are shown in the drawings for more uniform flow of exhaust gas to facilitate better absorption of pollutants in the exhaust gas.

As an implementation manner of this embodiment, the air supply unit is horizontally provided with a baffle 18, the baffle 18 divides the air supply unit into a first air duct 19 and a second air duct 20, the baffle 18 is provided with a through hole 21 for penetrating the first air duct 19 and the second air duct 20, the first air duct 19 is located below the second air duct 20, the first air duct 19 is communicated with the air inlet 12, and the second air duct 20 is communicated with the air outlet 13.

The technical effect of this scheme lies in: a base structure of an air supply unit is provided.

As one implementation of this embodiment, the lower bottom plate of the drawer 14 is pressed against the through hole 21, and the vent hole 15 is provided on the lower bottom plate of the drawer 14, and the vent hole 15 communicates with the through hole 21; the upper end of the drawer 14 is of an open structure and is communicated with the second air duct 20.

As an implementation manner of this embodiment, a first gas collecting hood 22 is disposed at one end of the gas collecting tank 11, and the gas inlet 12 is disposed in the first gas collecting hood 22.

As an implementation manner of this embodiment, a second gas collecting hood 23 is disposed at the other end of the gas collecting tank 11, and the exhaust port 13 is disposed on the second gas collecting hood 23.

As an embodiment of the present embodiment, as shown in fig. 5, the dust removing particles 16 are cylindrical members, and through holes 25 are formed through both ends of the dust removing particles 16 in the axial direction thereof.

The technical effect of this scheme lies in: the pollutants in the exhaust gas are adsorbed on the dust removing particles 16, and in order to remove the pollutants better, the material of the dust removing particles 16 is ceramic, wherein the ceramic is ceramic without glazing, and the surface of the ceramic is rough.

As an implementation manner of this embodiment, the side wall of the dust removing particle 16 is provided with a punching opening 24, and the dust removing particle 16 is further provided with a curved punching arm 26, and the punching arm 26 extends into the through hole 25 of the dust removing particle 16.

The technical effect of this solution is that it facilitates a better flow of gas and enables the punch arms 26 to efficiently adsorb the contaminants in the through holes 25 of the dust particles 16.

As an implementation manner of this embodiment, as shown in fig. 6, the dust removing particles 16 are spherical shell shaped, and the surface of the dust removing particles 16 is provided with a spiral opening 27.

The present solution proposes a new structure of dedusting particles 16.

It will be apparent to those skilled in the art that various modifications and improvements can be made without departing from the spirit of the utility model.

Claims (7)

1. A purification system for exhaust gas treatment, comprising:

the air collecting box (11), a cavity is arranged in the air collecting box (11), an air inlet (12) communicated with the cavity is arranged at one end of the air collecting box (11), and an air outlet (13) communicated with the cavity is arranged at the other end of the air collecting box (11);

the drawer (14) is arranged on the gas collection box (11), the drawer (14) can be sent into a cavity of the gas collection box (11), and a vent hole (15) communicated with the cavity is formed in the drawer (14);

dust removing particles (16), a plurality of the dust removing particles (16) being placed in the drawer (14);

a plurality of groups of air supply units are arranged in the air collection box (11), adjacent air supply units are isolated through a separation plate (17), the air supply units are used for penetrating through the air inlet (12) and the air outlet (13), and an air vent (15) on the drawer (14) is communicated with the air supply units;

the air supply unit is horizontally provided with a baffle (18), the baffle (18) divides the air supply unit into a first air channel (19) and a second air channel (20), the baffle (18) is provided with a through hole (21) used for penetrating through the first air channel (19) and the second air channel (20), the first air channel (19) is located below the second air channel (20), the first air channel (19) is communicated with the air inlet (12), and the second air channel (20) is communicated with the air outlet (13).

2. The exhaust gas treatment purification system according to claim 1, wherein a lower bottom plate of the drawer (14) is press-fitted to the through-hole (21), and the vent hole (15) is provided on the lower bottom plate of the drawer (14), the vent hole (15) being in communication with the through-hole (21); the upper end of the drawer (14) is of an open structure and is communicated with the second air duct (20).

3. The exhaust gas treatment purification system according to claim 2, wherein a first gas collecting hood (22) is provided at one end of the gas collecting tank (11), and the gas inlet (12) is provided in the first gas collecting hood (22).

4. A purification system for exhaust gas treatment according to claim 3, wherein a second gas collecting hood (23) is provided at the other end of the gas collecting tank (11), and the exhaust port (13) is provided in the second gas collecting hood (23).

5. The exhaust gas treatment purification system according to claim 1, wherein the dust removal particles (16) are cylindrical members, and both ends of the dust removal particles (16) in the axial direction thereof are provided with through holes (25) therethrough.

6. The exhaust gas treatment purification system according to claim 5, characterized in that the dust-removing particles (16) are provided with punched openings (24) in their side walls, and that the dust-removing particles (16) are further provided with curved punched arms (26), which punched arms (26) extend into through holes (25) of the dust-removing particles (16).

7. The exhaust gas treatment purification system according to claim 1, wherein the dust removing particles (16) are spherical shell-shaped, and the surfaces of the dust removing particles (16) are provided with spiral openings (27).

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