CN216790923U - Waste gas treatment device is used in butyronitrile gloves production - Google Patents

Abstract

The utility model provides a waste gas treatment device for butyronitrile glove production, and relates to the technical field of butyronitrile gloves. According to the utility model, firstly, the condensing device is started, the condensing device cools the gas in the heat insulation box body, after the temperature in the heat insulation box body is reduced, the flowing fan is started to drive the cold gas to move into the shell through the through hole formed in the outer surface of the first hollow pipe, meanwhile, the air in the shell can move into the heat insulation box body through the communicating pipeline, the temperature in the shell is reduced, when the whole device is used, when the waste gas reaches the inside of the shell, the high-temperature waste gas contacts the cold air, the temperature of the waste gas can be reduced, the cooling work of the waste gas is realized, and the high-temperature waste gas on the surface affects subsequent equipment.

Description

Waste gas treatment device is used in butyronitrile gloves production

Technical Field

The utility model relates to the technical field of butyronitrile gloves, in particular to a waste gas treatment device for butyronitrile glove production.

Background

Butyronitrile is an organic compound synthesized from acrylonitrile and butadiene. The butyronitrile gloves are excellent combination of mechanical strength and chemical resistance, have a series of disposability, have no inside lining and take inside lining two kinds of different varieties, the butyronitrile gloves can be divided into powder and powder-free again, the length of common butyronitrile gloves is 23cm, 30cm two kinds, the thickness is 0.08mm-0.09mm, its color is mainly blue, the glove of fixing one's eyes when producing, will produce more waste gas usually.

When using butyronitrile gloves production, traditional decide the eyeball production line when producing the eyeball, adopt more and use purifier directly to purify gloves, because the production line need use firing equipment to solidify gloves to make the waste gas of production have high temperature characteristic more, directly use purifier to purify waste gas, probably lead to purifier to receive the temperature influence to produce the damage, increase and purify use cost.

SUMMERY OF THE UTILITY MODEL

The utility model aims to solve the problems that in the prior art, when the conventional eyeball fixing production line is used for producing the eyeball, a purification device is mostly adopted to directly purify gloves, the production line needs heating equipment to solidify the gloves, so that the generated waste gas has high-temperature characteristics, and the purification device is directly used to purify the waste gas, so that the purification device is possibly damaged due to the influence of temperature, and the purification use cost is increased.

In order to achieve the purpose, the utility model adopts the following technical scheme: a waste gas treatment device for butyronitrile glove production comprises a shell, wherein a treatment mechanism is fixed at the top of the shell, and a diffusion mechanism is fixed at the bottom surface inside the shell;

the processing mechanism comprises a heat insulation box body, the bottom of the heat insulation box body is fixed on the top surface of the shell, an air collection box body is fixed on the bottom surface of the heat insulation box body, an installation through hole is formed in the center of the bottom of the air collection box body, a flowing fan is fixed between the inner walls of the installation through hole, two condensing devices are fixed at the bottom of the air collection box body, two communicating pipelines are communicated with the outer surfaces of the two sides of the air collection box body, four communicating pipelines are arranged at one ends of the communicating pipelines and extend into the shell, and a filter plate is fixed at one end of each communicating pipeline.

Preferably, four air inlets are formed in the top of the shell, first hollow pipes are fixed inside the four air inlets, and impellers are rotatably connected between the inner walls of the top ends of the four first hollow pipes.

Preferably, the diffusion mechanism comprises four limiting rings, and the bottoms of the four limiting rings are fixed on the inner bottom surface of the shell.

Preferably, second hollow pipes are fixed between the inner walls of the four limiting rings.

Preferably, continuous fans are fixed between the top ends of the four second hollow pipes and the bottom ends of the four first hollow pipes.

Preferably, five dispersion plates are sleeved between the outer surfaces of the four first hollow pipes and the four second hollow pipes, and an air outlet plate is fixed on the rear surface of the shell.

Compared with the prior art, the utility model has the advantages and positive effects that,

1. according to the utility model, firstly, the condensing device is started, the condensing device cools the gas in the heat insulation box body, after the temperature in the heat insulation box body is reduced, the flowing fan is started to drive the cold gas to move into the shell through the through hole formed in the outer surface of the first hollow pipe, meanwhile, the air in the shell can move into the heat insulation box body through the communicating pipeline, the temperature in the shell is reduced, when the whole device is used, when the waste gas reaches the inside of the shell, the high-temperature waste gas contacts the cold air, the temperature of the waste gas can be reduced, the cooling work of the waste gas is realized, and the high-temperature waste gas on the surface affects subsequent equipment.

2. According to the utility model, when the cold air reaches the interior of the shell, the continuation fan is started, the continuation fan can increase the depth of the cold air drained by the impeller, and the cold air is diffused to the whole shell by matching with the through hole formed in the outer surface of the second hollow pipe, so that the cooling effect of the treatment mechanism is greatly improved.

Drawings

FIG. 1 is a schematic perspective view of a waste gas treatment device for producing nitrile gloves according to the present invention;

FIG. 2 is a schematic view of a partial three-dimensional structure of a waste gas treatment device for producing nitrile gloves according to the present invention;

FIG. 3 is a side view, a cross-sectional structural diagram of a part of the structure of an exhaust gas treatment device for producing nitrile gloves.

Illustration of the drawings: 1. a housing; 2. a processing mechanism; 201. a heat insulation box body; 202. a wind collecting box body; 203. a flow fan; 204. a condensing unit; 205. a communicating pipe; 206. a filter plate; 207. an impeller; 208. a first hollow tube; 3. a diffusion mechanism; 301. a limiting ring; 302. a second hollow tube; 303. a dispersion plate; 304. continuing the fan; 305. and (7) an air outlet plate.

Detailed Description

In order that the above objects, features and advantages of the present invention can be more clearly understood, the present invention will be further described with reference to the accompanying drawings and examples. It should be noted that the embodiments and features of the embodiments of the present application may be combined with each other without conflict.

In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention, however, the present invention may be practiced in other ways than those specifically described herein, and thus the present invention is not limited to the specific embodiments of the present disclosure.

Embodiment 1, as shown in fig. 1 to 3, the present invention provides an exhaust gas treatment device for producing nitrile gloves, comprising a housing 1, wherein a treatment mechanism 2 is fixed on the top of the housing 1, and a diffusion mechanism 3 is fixed on the bottom surface inside the housing 1.

The specific arrangement and operation of the treatment means 2 and the diffusion means 3 will be described in detail below.

As shown in fig. 1-3, the processing mechanism 2 includes a thermal insulation box 201, the bottom of the thermal insulation box 201 is fixed on the top surface of the inside of the casing 1, an air collection box 202 is fixed on the bottom surface of the inside of the thermal insulation box 201, an installation through hole is formed in the center of the bottom of the air collection box 202, a flow fan 203 is fixed between the inner walls of the installation through hole, two condensing devices 204 are fixed at the bottom of the air collection box 202, two communicating pipes 205 are communicated with the outer surfaces of the two sides of the air collection box 202, one ends of the four communicating pipes 205 are extended into the inside of the casing 1, a filter plate 206 is fixed at one end of each of the four communicating pipes 205, four air inlets are formed in the top of the casing 1, first hollow pipes 208 are fixed inside the four air inlets, and impellers 207 are rotatably connected between the inner walls of the top ends of the four first hollow pipes 208.

The whole treatment mechanism 2 has the effects that firstly, the condensing device 204 is started, the condensing device 204 cools the gas in the heat insulation box body 201, after the temperature in the heat insulation box body 201 is reduced, the flow fan 203 is started, the flow fan 203 drives the cold gas to move into the shell 1 through the through hole formed in the outer surface of the first hollow pipe 208, when the cold gas reaches the inside of the first hollow pipe 208, the impeller 207 is driven to rotate through the arranged impeller 207, the flowing range of the cold air is increased, meanwhile, the air in the shell 1 can move into the heat insulation box body 201 through the communicating pipeline 205, the temperature in the shell 1 is reduced, when the whole treatment mechanism is used, when the waste gas reaches the inside of the shell 1, the high-temperature waste gas contacts the cold air, the temperature of the waste gas can be reduced, the cooling work of the waste gas is realized, and the high-temperature waste gas on the surface affects subsequent equipment, the flow fan 203 is F4-72 type, and the condensing device 204 is RX270 type.

As shown in fig. 1 to 3, the diffusion mechanism 3 includes four limiting rings 301, the four limiting rings 301 are provided, the bottoms of the four limiting rings 301 are all fixed on the inner bottom surface of the housing 1, second hollow pipes 302 are fixed between the inner walls of the four limiting rings 301, continuation fans 304 are fixed between the top ends of the four second hollow pipes 302 and the bottom ends of the four first hollow pipes 208, five dispersion plates 303 are sleeved between the outer surfaces of the four second hollow pipes 302 and the four first hollow pipes 208, and an air outlet plate 305 is fixed on the rear surface of the housing 1.

The effect that its whole diffusion mechanism 3 reached does, when cold air reachs casing 1 inside, start and continue fan 304, it can be increasing the cold gas degree of depth of impeller 207 drainage to continue fan 304, the through-hole that the cooperation second hollow tube 302 surface was seted up, diffusion to whole casing 1, improve the cooling effect of processing mechanism 2 greatly, and simultaneously, the dispersion board 303 adopts the copper product to lead the temperature material, make cold air when the diffusion, can reduce the temperature of dispersion board 303, make high temperature waste gas can carry out cooling work through contacting dispersion board 303, wholly use, improve the cooling treatment work of processing mechanism 2 to waste gas greatly, wherein, it adopts F4-72 model to continue fan 304.

The working principle is as follows: the method comprises the steps that firstly, a condensing device 204 is started, the condensing device 204 cools gas inside a heat insulation box body 201, after the temperature inside the heat insulation box body 201 is reduced, a flowing fan 203 is started, the flowing fan 203 drives cold gas to move to the inside of a shell 1 through a through hole formed in the outer surface of a first hollow pipe 208, when the cold gas reaches the inside of the first hollow pipe 208, the impeller 207 can be driven to rotate through an arranged impeller 207, the flowing range of the cold gas is increased, meanwhile, a continuation fan 304 is started, the cold gas depth of the impeller 207 in drainage can be increased through the continuation fan 304, the cold gas is diffused to an integral shell 1 through a through hole formed in the outer surface of a second hollow pipe 302, meanwhile, the temperature of a dispersing plate 303 is reduced, when high-temperature waste gas reaches the inside of the shell 1, heat is firstly exchanged with the cold gas, and then the cooling work is carried out again through contact with the dispersing plate 303.

The above description is only a preferred embodiment of the present invention, and not intended to limit the present invention in other forms, and any person skilled in the art may apply the above modifications or changes to the equivalent embodiments with equivalent changes, without departing from the technical spirit of the present invention, and any simple modification, equivalent change and change made to the above embodiments according to the technical spirit of the present invention still belong to the protection scope of the technical spirit of the present invention.

Claims (6)

1. The utility model provides a waste gas treatment device is used in butyronitrile gloves production, includes the casing, its characterized in that: the top of the shell is fixed with a processing mechanism, and the bottom surface inside the shell is fixed with a diffusion mechanism;

the processing mechanism comprises a heat insulation box body, the bottom of the heat insulation box body is fixed on the top surface of the shell, an air collection box body is fixed on the bottom surface of the heat insulation box body, an installation through hole is formed in the center of the bottom of the air collection box body, a flowing fan is fixed between the inner walls of the installation through hole, two condensing devices are fixed at the bottom of the air collection box body, two communicating pipelines are communicated with the outer surfaces of the two sides of the air collection box body, four communicating pipelines are arranged at one ends of the communicating pipelines and extend into the shell, and a filter plate is fixed at one end of each communicating pipeline.

2. The waste gas treatment device for nitrile glove production according to claim 1, wherein: four air inlets are formed in the top of the shell, first hollow pipes are fixed inside the four air inlets, and impellers are rotatably connected between the inner walls of the top ends of the four first hollow pipes.

3. The waste gas treatment device for nitrile glove production according to claim 1, wherein: the diffusion mechanism comprises four limiting rings, and the bottoms of the four limiting rings are fixed on the bottom surface of the shell.

4. The waste gas treatment device for nitrile glove production according to claim 3, wherein: and second hollow pipes are fixed between the inner walls of the four limiting rings.

5. The waste gas treatment device for nitrile glove production according to claim 4, wherein: and continuous fans are fixed between the top ends of the four second hollow pipes and the bottom ends of the four first hollow pipes.

6. The waste gas treatment device for nitrile glove production according to claim 5, wherein: four the cover is equipped with five dispersion boards between the surface of second hollow tube and four first hollow tubes, the rear surface of casing is fixed with out the tuber plate.

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