CN211302601U - Cooling and dehumidifying device for industrial waste gas - Google Patents

Abstract

The utility model provides a cooling and dehumidifying device for industrial waste gas, which comprises a waste gas discharge cylinder, a filter cylinder, a clip-shaped discharge groove, a condensation discharge pipe and an externally attached drainage layer; a filter cylinder is attached to the inner wall of the middle lower part of the waste gas discharge cylinder; a reverse-shaped discharge groove is embedded in the opening at the top of the waste gas discharge cylinder; a condensation discharge pipe is attached to the bottom of the filter cylinder and communicated with the interior of the filter cylinder; and an external attached flow guiding layer is attached to the bottom of the outer wall of the waste gas discharging cylinder. The setting of condensation discharge pipe and straining a section of thick bamboo has solved the cooling dehumidification structure of current waste gas, only has the structure of holding back of one-level, and can not carry out simple purification and effectual recovery to the moisture of holding back down and recycle's problem.

Description

Cooling and dehumidifying device for industrial waste gas

Technical Field

The utility model belongs to the technical field of exhaust emission, more specifically say, in particular to a cooling dehydrating unit for industrial waste gas.

Background

The waste gas refers to toxic and harmful gas discharged by human in the production and living process. Particularly, in chemical plants, steel plants, pharmaceutical plants, coking plants, oil refineries and the like, the discharged waste gas has a large odor, seriously pollutes the environment and affects the human health, the higher the discharged temperature is, the larger the transmission range and the harmful influence of the discharged waste gas are, and therefore, the waste gas needs to be cooled and dehumidified to reduce the temperature and the integral specific heat capacity of the waste gas.

As in application No.: 201821423819.9, the utility model discloses a moisture waste gas cooling dehydrating unit, the front portion of processing jar body inner chamber is fixed with preceding mounting bracket, this internal rear end of processing jar is fixed with the back mounting bracket, set up the cooling dehydrating plate of installing a plurality of level and placing between preceding mounting bracket and the back mounting bracket, moisture waste gas flows in the clearance between the cooling dehydrating plate, a plurality of loudspeaker form water catch bowl has evenly been laid on the cooling dehydrating plate, the water catch bowl makes the upper surface of cooling dehydrating plate have the slope that lasts, the hole that leaks has been seted up to the tank bottom of water catch bowl, be provided with a plurality of water service pipes in the cooling dehydrating plate, the water inlet of water service pipe with install this external water pump and the cold water storage cistern intercommunication of processing jar, the lower part of processing jar body inner chamber is provided with the water catch area, the water catch area middle part is low high all around, and the lower department in water catch area is provided with the delivery port. The utility model has the advantages of can be to moisture waste gas cooling dehumidification.

Through the retrieval to among the above-mentioned file, we study and discover, the cooling dehumidification structure of current waste gas only has the structure of holding back of one-level, does not have effectual moisture to the dehumidification to hold back, and the work of the whole cooling of waste gas carries out stage by stage treatment, and to the moisture of holding back, the inside partial pollutant that exists of moisture can not carry out simple purification to in the follow-up more effective recovery of being convenient for recycles.

In view of the above, the present invention provides a cooling and dehumidifying apparatus for industrial waste gas, which is improved based on the existing structure and defects, so as to achieve the purpose of higher practical value.

SUMMERY OF THE UTILITY MODEL

In order to solve the technical problem, the utility model provides a cooling dehydrating unit for industrial waste gas to solve the cooling dehumidification structure of current waste gas, only have the structure of holding back of one-level, and can not carry out simple purification and effectual problem of retrieving and recycling to the moisture that gets off holding back.

The utility model is used for industrial waste gas's cooling dehydrating unit's purpose and efficiency are reached by following specific technological means:

the temperature reduction and dehumidification device for the industrial waste gas comprises a waste gas discharge cylinder, a filter cylinder, a return-type discharge groove, a condensation discharge pipe and an external attached diversion layer; a filter cylinder is attached to the inner wall of the middle lower part of the waste gas discharge cylinder; a reverse-shaped discharge groove is embedded in the opening at the top of the waste gas discharge cylinder; a condensation discharge pipe is attached to the bottom of the filter cylinder and communicated with the interior of the filter cylinder; and an external attached flow guiding layer is attached to the bottom of the outer wall of the waste gas discharging cylinder.

Further, the whole waste gas discharge cylinder is of a cylindrical tubular structure; the outer wall laminating of an exhaust emission section of thick bamboo is installed outer wall heat conduction layer of metal material of range upon range of annular structure.

Furthermore, the filter cylinder comprises three layers, namely a hollow layer, an adsorption layer and a water absorption layer from inside to outside; the hollow layer is of a regular hexagon perforated panel structure with a metal structure; the adsorption layer is an activated carbon filling structure; the water absorption layer is of a sponge and cotton wool mixed filling structure.

Furthermore, two ends of the clip-shaped discharge groove are opened, and the top opening of the clip-shaped discharge groove is of a funnel structure; the opening of the top surface of the square-shaped discharge groove is provided with a grid structure air outlet panel, and the center of the air outlet panel is a circle center sealing structure.

Furthermore, the whole condensation discharge pipe is of an annular structure with an open plate, and the bottom end of the cross section of one side part of the condensation discharge pipe is U-shaped; and a sealing ring of a rubber structure is arranged at the joint of the top of the condensation discharge pipe and the filter cylinder.

Further, attach the flat pipeline structure of drainage layer arc outward, constitute a whole with outer wall heat conduction layer, and attach the drainage layer outward and pass through pipeline structure connection condensation delivery pipe bottom.

Compared with the prior art, the utility model discloses following beneficial effect has:

through the straight section of thick bamboo structural design of exhaust emission section of thick bamboo cylinder, utilize the cylinder structure to improve outer wall part surface area, reinforcing heat-sinking capability, the design on outer wall heat conduction layer utilizes metallic structure's good heat transfer effect to carry out conduction diffusion to the temperature simultaneously to reach the exhaust cooling effect.

Through straining inside multilayer structure of a section of thick bamboo, staged plays the effect of dehumidification, and the fretwork layer allows the macromolecule to get into, and the adsorbed layer adsorbs the peculiar smell, and the water molecule of moisture in to waste gas on the layer that absorbs water adsorbs, reaches the effect of dehumidification.

The curved structure through returning the type to discharge the groove increases the exhaust emission route, slows down the speed when exhaust emission, reaches the effect of cooling.

The moisture after dehumidification, condensation and filtration is collected through the condensation discharge pipe, and the water resources are guided again by combining the external drainage layer, so that further recovery and reutilization are facilitated.

Drawings

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

Fig. 2 is a schematic view of the internal perspective structure of the present invention.

Fig. 3 is a schematic view of the detachable structure inside the filter cartridge of the present invention.

Fig. 4 is a schematic view of the planar structure of the clip-shaped discharge chute of the present invention.

Fig. 5 is a schematic view of the plane a-a structure of the present invention.

In the drawings, the corresponding relationship between the component names and the reference numbers is as follows:

1. an exhaust gas discharge cylinder; 2. a filter cartridge; 3. a clip-shaped discharge groove; 4. a condensation drain pipe; 5. an outer attached drainage layer; 101. an outer wall heat conducting layer; 201. a hollowed-out layer; 202. an adsorption layer; 203. a water-absorbing layer; 301. an air outlet panel; 401. and (4) a sealing ring.

Detailed Description

The following describes embodiments of the present invention in further detail with reference to the accompanying drawings and examples. The following examples are intended to illustrate the invention, but are not intended to limit the scope of the invention.

In the description of the present invention, "a plurality" means two or more unless otherwise specified; the terms "upper", "lower", "left", "right", "inner", "outer", "front", "rear", "head", "tail", and the like indicate orientations or positional relationships based on the orientations or positional relationships shown in the drawings, and are merely for convenience of description and simplicity of description, and do not indicate or imply that the device or element being referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first," "second," "third," and the like are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.

In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "connected" and "connected" are to be interpreted broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; may be directly connected or indirectly connected through an intermediate. The specific meaning of the above terms in the present invention can be understood in specific cases to those skilled in the art.

Example (b):

as shown in figures 1 to 5:

the utility model provides a cooling and dehumidifying device for industrial waste gas, which comprises a waste gas discharge cylinder 1, a filter cylinder 2, a clip-shaped discharge groove 3, a condensation discharge pipe 4 and an externally attached drainage layer 5; a filter cylinder 2 is attached to the inner wall of the middle lower part of the waste gas discharge cylinder 1; a reverse-shaped discharge groove 3 is embedded in the opening at the top of the waste gas discharge cylinder 1; a condensation discharge pipe 4 is attached to the bottom of the filter cylinder 2, and the condensation discharge pipe 4 is communicated with the interior of the filter cylinder 2; the bottom of the outer wall of the waste gas discharge cylinder 1 is provided with an external attached flow guiding layer 5 in a fitting manner.

Wherein, as shown in the attached figure 1 in the specification, the whole waste gas discharge cylinder 1 is of a cylindrical structure; the outer wall of the waste gas discharge cylinder 1 is attached with an outer wall heat conducting layer 101 made of metal materials and provided with a laminated annular structure. Through the straight section of thick bamboo structural design of a waste gas emission section of thick bamboo 1 cylinder, utilize the cylinder structure to improve outer wall part surface area, reinforcing heat-sinking capability, the design on outer wall heat conduction layer 101 utilizes metallic structure's good heat transfer effect to carry out conduction diffusion to the temperature simultaneously to reach waste gas cooling effect.

As shown in fig. 2 and fig. 3 in the specification, the filter cartridge 2 has three layers, namely a hollow layer 201, an adsorption layer 202 and a water absorption layer 203; the hollow layer 201 is a regular hexagon panel structure with holes in a metal structure; the adsorption layer 202 is an activated carbon filling structure; the water absorption layer 203 is a sponge and cotton wool mixed filling structure. Through straining the inside multilayer structure of 2, staged plays the effect of dehumidification, and fretwork layer 201 allows the macromolecule to get into, and adsorbed layer 202 adsorbs the peculiar smell, and the layer 203 that absorbs water adsorbs the hydrone of moisture in to waste gas, reaches the effect of dehumidification.

As shown in the attached drawings 1 and 4 of the specification, two ends of the clip-shaped discharge groove 3 are open, and the top end of the clip-shaped discharge groove 3 is open in a funnel structure; the opening of the top surface of the square-shaped discharge groove 3 is provided with an air outlet panel 301 with a grid structure, and the center of the air outlet panel 301 is a circle center sealing structure. The curved structure through returning type discharge groove 3 increases the exhaust emission route, slows down the speed when exhaust emission, reaches the effect of cooling.

As shown in fig. 5, the whole condensation discharge pipe 4 is of an open-plate annular structure, and the bottom end of the cross section of one side part of the condensation discharge pipe 4 is U-shaped; a sealing ring 401 of a rubber structure is arranged at the joint of the top of the condensation discharge pipe 4 and the filter cartridge 2. The moisture after dehumidification, condensation and filtration is collected through the condensation discharge pipe 4, and the water resources are guided again by combining the external guide flow layer 5, so that the further recovery and reutilization are facilitated, and meanwhile, the sealing ring 401 is tightly connected with the filter cartridge 2.

As shown in the attached figure 1 of the specification, the arc-shaped flat pipeline structure of the external attached flow guiding layer 5 and the outer wall temperature guiding layer 101 form a whole, and the external attached flow guiding layer 5 is connected with the bottom of the condensation discharge pipe 4 through the pipeline structure.

The specific use mode and function of the embodiment are as follows:

the utility model discloses in, during the use, waste gas receives the heating power effect when discharging, and gas drifts upwards, at first through the base structure of a waste gas discharge section of thick bamboo 1, through the straight section of thick bamboo structure of a waste gas discharge section of thick bamboo 1 cylinder, utilizes cylinder structure outer wall surface area to carry out preliminary heat dissipation, and this process is discharged through 3 openings of type discharge tank back until waste gas, and simultaneously, when waste gas passes through a waste gas discharge section of thick bamboo 1, 2 staged exhaust gas dehumidification that carry on of straining of a waste gas discharge section of thick bamboo 1 inner wall, the concrete performance is: hollow layer 201 allows the macromolecule to get into, adsorbed layer 202 adsorbs the peculiar smell, the hydrone of moisture adsorbs in the waste gas on layer 203 absorbs water, after moisture is adsorbed, the condensation discharge pipe 4 structure that links up in 2 bottoms of straining adsorbs and the water droplet that drips after the condensation collects and recooling to water absorption layer 203, and carry out water conservancy diversion again to this part water resource through outer attached drainage layer 5, in order to make things convenient for further recovery and reuse, then waste gas continues upwards giving off, through returning type discharge groove 3, the curved structure through returning type discharge groove 3 increases the exhaust emission route, further cool down waste gas.

The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

Claims (6)

1. A cooling dehydrating unit for industrial waste gas, its characterized in that: the temperature reduction and dehumidification device for industrial waste gas comprises a waste gas discharge cylinder (1), a filter cylinder (2), a return type discharge groove (3), a condensation discharge pipe (4) and an external attached diversion layer (5); a filter cylinder (2) is attached to the inner wall of the middle lower part of the waste gas discharge cylinder (1); a reverse-shaped discharge groove (3) is embedded in the opening at the top of the waste gas discharge cylinder (1); the bottom of the filter cylinder (2) is provided with a condensation discharge pipe (4) in an attaching mode, and the condensation discharge pipe (4) is communicated with the inside of the filter cylinder (2); the bottom of the outer wall of the waste gas discharge cylinder (1) is provided with an external attached flow guiding layer (5).

2. The temperature-reducing and dehumidifying device for industrial waste gas according to claim 1, wherein: the whole waste gas discharge cylinder (1) is of a cylindrical structure; the outer wall of the waste gas discharge cylinder (1) is attached with an outer wall heat conducting layer (101) made of metal materials and provided with a laminated annular structure.

3. The temperature-reducing and dehumidifying device for industrial waste gas according to claim 1, wherein: the filter cylinder (2) comprises three layers, namely a hollow layer (201), an adsorption layer (202) and a water absorption layer (203) from inside to outside; the hollow-out layer (201) is of a metal structure and is of a regular hexagon perforated panel structure; the adsorption layer (202) is an activated carbon filling structure; the water absorption layer (203) is of a sponge and cotton wool mixed filling structure.

4. The temperature-reducing and dehumidifying device for industrial waste gas according to claim 1, wherein: the two ends of the clip-shaped discharge groove (3) are open, and the top opening of the clip-shaped discharge groove (3) is of a funnel structure; the opening of the top surface of the square-shaped discharge groove (3) is provided with an air outlet panel (301) with a grid structure, and the center of the air outlet panel (301) is a circle center sealing structure.

5. The temperature-reducing and dehumidifying device for industrial waste gas according to claim 1, wherein: the whole condensation discharge pipe (4) is of an open-plate annular structure, and the bottom end of the cross section of one side part of the condensation discharge pipe (4) is U-shaped; and a sealing ring (401) with a rubber structure is arranged at the joint of the top of the condensation discharge pipe (4) and the filter cartridge (2).

6. The temperature-reducing and dehumidifying device for industrial waste gas according to claim 1, wherein: the outer attached flow guiding layer (5) is of an arc-shaped flat pipeline structure and forms a whole with the outer wall temperature conducting layer (101), and the outer attached flow guiding layer (5) is connected with the bottom of the condensation discharge pipe (4) through a pipeline structure.

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