CN212511544U - Dehumidification mechanism that possesses circulation function - Google Patents

Abstract

A dehumidifying mechanism with a circulation function relates to the field of dehumidifiers and comprises a regenerated air filter, a regenerated fan, a heating pipe, a honeycomb rotating wheel and a cooler; a dehumidification area and a regeneration area are arranged in the honeycomb rotating wheel, the dehumidification area is provided with a first honeycomb air inlet and a first honeycomb air outlet, and the regeneration area is provided with a second honeycomb air inlet, a second honeycomb air outlet and a third honeycomb air outlet; the dry return air pipe through dehumidification mechanism inhales exhaust air once more, and enter into the cooler along second cooling air intake, cool off once more with the air that first cooling air intake received, then send into the dehumidification district of honeycomb runner equally along the air that cooling air outlet and first cooling air intake received and dehumidify again, reuse it, reduce the consumption of the energy, and at this in-process, the air that the second cooling air intake was retrieved cools off the air that first cooling air intake received with the combined action of cooler, can also practice thrift the energy resource consumption of cooler.

Description

Dehumidification mechanism that possesses circulation function

Technical Field

The utility model belongs to the technical field of the dehumidifier and specifically relates to a dehumidification mechanism that possesses circulation function is related to.

Background

Currently, a device for providing dry gas for a hopper, namely a rotary dehumidifier, is provided in the society; the main part of the rotary dehumidifier is a rotary wheel, the rotary wheel is made of high-efficiency moisture absorption materials, the surface of the rotary wheel is provided with a honeycomb porous channel, a moisture absorption area and a regeneration area are arranged in the dehumidifier, when the rotary wheel rotates through the moisture absorption area, moisture in the wet air passing through the rotary wheel is absorbed by the rotary wheel to form dry air, the dry air is discharged to the environment again by a processing fan, and when the rotary wheel after moisture absorption passes through the regeneration area, the moisture in the rotary wheel is dried, blown and evaporated through high-temperature dry airflow and discharged through the regeneration fan.

However, this method of evaporating moisture by blowing it through a high-temperature drying air requires separate supply of high-temperature drying air, i.e., air is not only dried but also heated, which results in a large energy consumption during evaporation.

SUMMERY OF THE UTILITY MODEL

The utility model discloses an it is not enough to overcome above-mentioned condition, aims at providing the technical scheme that can solve above-mentioned problem.

A dehumidification mechanism with a circulation function comprises a regeneration air filter, a regeneration fan, a heating pipe, a honeycomb rotating wheel and a cooler; a dehumidification area and a regeneration area are arranged in the honeycomb rotating wheel, the dehumidification area is provided with a first honeycomb air inlet and a first honeycomb air outlet, the regeneration area is provided with a second honeycomb air inlet, a second honeycomb air outlet and a third honeycomb air outlet, and the third honeycomb air outlet is connected with a wet air pipe; the cooler is provided with a first cooling air inlet, a second cooling air inlet and a cooling air outlet; regenerated wind filter sealing connection to regeneration fan, regeneration fan sealing connection to heating pipe, the heating pipe is connected in the second honeycomb air intake of regeneration district, the first cooling air intake of cooler is connected to the second honeycomb air outlet of regeneration district, the first honeycomb air intake of dehumidification district is connected to the cooling air outlet of cooler, first honeycomb air outlet is connected with dry tuber pipe, second cooling air intake connection has dry return air pipe.

Preferably, the honeycomb runner is including last closing cap and lower closing cap, the border of going up closing cap and lower closing cap is identical each other and is connected, install the hygroscopicity honeycomb in the last closing cap, hygroscopicity honeycomb axial is connected with the pivot, the pivot is connected with power unit, be provided with the baffle in the closing cap down, dehumidification district and regeneration area are separated out through the baffle, first honeycomb air intake and second honeycomb air intake are located the closing cap, first honeycomb air outlet, second honeycomb air outlet and third honeycomb air outlet are located down the closing cap.

Preferably, the absorbent honeycomb comprises a honeycomb core and absorbent cotton disposed within the honeycomb core.

Preferably, the lower cover is further partitioned into a cooling area by a partition plate, and the volume ratio of the dehumidification area to the regeneration area to the cooling area is 5: 2: 1.

preferably, the dehumidifying mechanism further comprises a circulating fan, and the circulating fan is hermetically connected between the cooling air outlet and the first honeycomb air inlet.

Preferably, the dehumidifying means further comprises a dry return air filter.

Compared with the prior art, the beneficial effects of the utility model are that:

the dry return air pipe through dehumidification mechanism inhales exhaust air once more, and enter into the cooler along second cooling air intake, cool off once more with the air that first cooling air intake received, then send into the dehumidification district of honeycomb runner equally along the air that cooling air outlet and first cooling air intake received and dehumidify again, reuse it, reduce the consumption of the energy, and at this in-process, the air that the second cooling air intake was retrieved cools off the air that first cooling air intake received with the combined action of cooler, can also practice thrift the energy resource consumption of cooler.

Additional aspects and advantages of the invention will be set forth in part in the description which follows and, in part, will be obvious from the description, or may be learned by practice of the invention.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings needed to be used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to these drawings without inventive exercise.

Fig. 1 is a schematic structural diagram of the present invention.

Fig. 2 is a schematic structural view of the honeycomb runner of the present invention.

Fig. 3 is a structural development view of the honeycomb runner of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be described clearly and completely below, and it should be understood that the described embodiments are only some embodiments of the present invention, but not all embodiments. Based on the embodiments in the present invention, all other embodiments obtained by a person skilled in the art without creative work belong to the protection scope of the present invention.

Referring to fig. 1 to 3, in an embodiment of the present invention, a dehumidifying mechanism with a circulation function includes a regenerative air filter 10, a regenerative fan 20, a heating pipe 30, a honeycomb runner 40, and a cooler 50; a dehumidifying area 5 and a regenerating area 6 are arranged in the honeycomb rotating wheel 40, the dehumidifying area 5 is provided with a first honeycomb air inlet 41 and a first honeycomb air outlet 42, the regenerating area 6 is provided with a second honeycomb air inlet 43, a second honeycomb air outlet 44 and a third honeycomb air outlet 45, and the third honeycomb air outlet 45 is connected with a wet air pipe 1; the cooler 50 is provided with a first cooling air inlet 51, a second cooling air inlet 52 and a cooling air outlet 53; the regeneration air filter 10 is connected to the regeneration air blower 20 in a sealing mode, the regeneration air blower 20 is connected to the heating pipe 30 in a sealing mode, the heating pipe 30 is connected to the second honeycomb air inlet 43 of the regeneration area 6, the second honeycomb air outlet 44 of the regeneration area 6 is connected to the first cooling air inlet 51 of the cooler 50, the cooling air outlet 53 of the cooler 50 is connected to the first honeycomb air inlet 41 of the dehumidification area 5, the first honeycomb air outlet 42 is connected with a drying air pipe, and the second cooling air inlet 52 is connected with a drying air return pipe.

In the above technical means, the regeneration air filter 10 is used for filtering impurities in the sucked air, the regeneration fan 20 is used for generating power to absorb air, the heating pipe 30 is used for heating the sucked air, and the heated air enters the honeycomb rotating wheel 40 along the second honeycomb air inlet 43 of the regeneration area 6, wherein a part of the air is discharged along the third honeycomb air outlet 45, and the part of the air realizes the dehumidification effect on the inside of the honeycomb rotating wheel 40; the other part of air enters the cooler 50 along the second honeycomb air outlet 44 for cooling, then enters the honeycomb dehumidifying area 5 along the cooling air outlet 53 for dehumidifying, and generates dry air after dehumidifying, and the dry air enters the drying barrel 4 along the drying air pipe for users to use; the exhausted dry air is exhausted, the exhausted air is sucked again through the dry return duct of the dehumidifying mechanism, enters the cooler 50 along the second cooling air inlet 52, is cooled again together with the air received by the first cooling air inlet 51, and is then sent to the dehumidifying area 5 of the honeycomb rotating wheel 40 along the cooling air outlet 53 and the air received by the first cooling air inlet 51 for dehumidification, so that the air is reused, the energy consumption is reduced, in the process, the air recovered by the second cooling air inlet 52 and the air received by the cooler 50 are cooled under the combined action of the air recovered by the second cooling air inlet 52 and the cooler 50, and the energy consumption of the cooler 50 can be saved.

As further shown in fig. 2-3, the honeycomb rotating wheel 40 includes an upper sealing cover 46 and a lower sealing cover 47, the edges of the upper sealing cover 46 and the lower sealing cover 47 are engaged with each other, a hygroscopic honeycomb 48 is installed in the upper sealing cover 46, the hygroscopic honeycomb 48 is axially connected with a rotating shaft, the rotating shaft is connected with a power mechanism 49, a partition 8 is disposed in the lower sealing cover 47, the dehumidification region 5 and the regeneration region 6 are separated by the partition 8, the first honeycomb air inlet 41 and the second honeycomb air inlet 43 are disposed on the upper sealing cover 46, and the first honeycomb air outlet 42, the second honeycomb air outlet 44 and the third honeycomb air outlet 45 are disposed on the lower sealing cover 47.

In the above technical means, the moisture absorption honeycomb 48 is used for drying the air, wherein the moisture absorption honeycomb 48 is driven by the power mechanism 49 to rotate, when the moisture absorption honeycomb 48 above the dehumidification region 5 reaches a saturated state due to moisture absorption, the moisture absorption honeycomb 48 is rotated by the power mechanism 49 to enable the region to enter the upper part of the regeneration region 6, the regeneration region 6 receives the air heated by the heating pipe 30, the air can be dry and hot at the same time, the moisture absorption honeycomb 48 above the regeneration region 6 is dehumidified, a part of the dehumidified air is discharged along the humid air pipe 1, a part of the dehumidified air flows back to the dehumidification region 5 again to be dehumidified, and dry air is generated for users to use.

As further shown in fig. 2-3, the absorbent honeycomb 48 includes a honeycomb core and absorbent cotton disposed within the honeycomb core; the moisture absorption effect is realized through the moisture absorption cotton.

As further shown in fig. 3, the lower cover 47 is further partitioned by a partition 8 into a cooling zone 7, and the volume ratio of the dehumidification zone 5 to the regeneration zone 6 to the cooling zone 7 is 5: 2: 1. the hygroscopic honeycomb 48 will generate heat after it is dried by the regeneration zone 6, and the cooling zone 7 is used for cooling the hygroscopic honeycomb 48; by this ratio setting, the cooperation of the dehumidification section 5, the cooling section 7 and the regeneration section 6 can be achieved to the maximum extent.

As further shown in fig. 1, the dehumidifying mechanism further includes a circulating fan 60, and the circulating fan 60 is hermetically connected between the cooling air outlet 53 and the first honeycomb air inlet 41; providing power for the recovered air.

As further shown in fig. 1, the dehumidification mechanism further includes a dry return air filter 70 for filtering the recovered air to prevent impurities from being generated in the recovered air.

It is obvious to a person skilled in the art that the invention is not restricted to details of the above-described exemplary embodiments, but that it can be implemented in other specific forms without departing from the spirit or essential characteristics of the invention. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein.

Claims (6)

1. A dehumidification mechanism with a circulation function is characterized by comprising a regeneration air filter, a regeneration fan, a heating pipe, a honeycomb rotating wheel and a cooler; a dehumidification area and a regeneration area are arranged in the honeycomb rotating wheel, the dehumidification area is provided with a first honeycomb air inlet and a first honeycomb air outlet, the regeneration area is provided with a second honeycomb air inlet, a second honeycomb air outlet and a third honeycomb air outlet, and the third honeycomb air outlet is connected with a wet air pipe; the cooler is provided with a first cooling air inlet, a second cooling air inlet and a cooling air outlet; regenerated wind filter sealing connection to regeneration fan, regeneration fan sealing connection to heating pipe, the heating pipe is connected in the second honeycomb air intake of regeneration district, the first cooling air intake of cooler is connected to the second honeycomb air outlet of regeneration district, the first honeycomb air intake of dehumidification district is connected to the cooling air outlet of cooler, first honeycomb air outlet is connected with dry tuber pipe, second cooling air intake connection has dry return air pipe.

2. The dehumidifying mechanism with circulation function of claim 1, wherein the honeycomb wheel comprises an upper cover and a lower cover, the edges of the upper cover and the lower cover are connected with each other in a matching manner, the upper cover is internally provided with a hygroscopic honeycomb, the hygroscopic honeycomb is axially connected with a rotating shaft, the rotating shaft is connected with a power mechanism, the lower cover is internally provided with a partition plate, the dehumidifying area and the regenerating area are separated by the partition plate, the first honeycomb air inlet and the second honeycomb air inlet are positioned at the top of the upper cover, and the first honeycomb air outlet, the second honeycomb air outlet and the third honeycomb air outlet are positioned at the bottom of the lower cover.

3. The dehumidifying mechanism with circulation function of claim 2 wherein the hygroscopic honeycomb comprises a honeycomb core and hygroscopic cotton, and the hygroscopic cotton is disposed in the honeycomb core.

4. The dehumidifying mechanism with circulation function as claimed in claim 2, wherein the lower cover is further partitioned by a partition into a cooling zone, and a volume ratio of the dehumidifying zone, the regenerating zone and the cooling zone is 5: 2: 1.

5. the dehumidifying mechanism with circulation function of claim 1 wherein the dehumidifying mechanism further comprises a circulation fan, and the circulation fan is hermetically connected between the cooling air outlet and the first honeycomb air inlet.

6. The dehumidifying mechanism with a circulation function as claimed in claim 1, wherein the dehumidifying mechanism further comprises a dry return air filter.

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