CN114777526A - Condensation fog dissipation water-saving module and device thereof - Google Patents

Abstract

The invention discloses a condensation fog dispersal water-saving module and a device thereof

A second airflow layer including multiple channels

A profile channel; the above-mentioned

Vertical channel of profile channel and the adjacent layer

The projections of the vertical channels of the profile channel coincide, said

The inclined channel of the channel and the adjacent layer

The projection of the inclined channel of the channel is crossed; said of adjacent layers

A profile channel and

the channels are respectively communicated with different air flows, and the air flows comprise dry cold air and wet hot air. The invention is realized by arranging different flow directions in the first airflow layer and the second airflow layer

A channel and

the type passageway can utilize oblique passageway alternately to carry out the heat transfer, can utilize again to erect the passageway coincidence and carry out the heat transfer, can improve the heat transfer area of dry and cold air and damp and hot air.

Description

Condensation fog dissipation water-saving module and device thereof

Technical Field

The invention relates to the technical field of fog dispersal and water saving cooling towers, in particular to a condensation fog dispersal and water saving module and a device thereof.

Background

The cooling tower is an evaporation heat sink for cooling the waste heat generated in industry or in refrigeration air conditioner. The principle is that heat exchange is carried out after water and air flow contact to generate steam, and the steam volatilizes and takes away heat to achieve evaporation heat dissipation, convection heat transfer and radiation heat transfer. The outside air is heated and humidified after entering the cooling tower and is exhausted from the top by the driving of a fan; because the air is basically in a saturated state, the air discharged from the cooling tower is quickly condensed into a plurality of tiny liquid drops when meeting cold, the liquid drops are dispersed in the air and present a white state through the refraction of sunlight, and the liquid drops are called as white fog or white smoke, thereby not only influencing the surrounding environment, but also losing a large amount of water resources.

The existing fog-dispersing water-saving cooling tower is generally divided into two types. The utility model provides an adopt fin structure to advance tower hot water and carry out the precooling to fall the temperature drop of open evaporation section, reduce the evaporation capacity of cooling tower, in order to reach the purpose of fog dispersal water conservation, nevertheless because air and water adopt the next door heat transfer mode, its heat exchange efficiency is low, and with high costs, the later maintenance expense is high, is unfavorable for the large tracts of land to be promoted. The other one is that increase condensation (fog dispersal) module in the air chamber of cooling tower, introduce cold air from the tower outside, cool down in advance to the damp and hot air that produces in the tower, reduce the damp air saturation, mix the damp and hot air after with dry and hot air and the reduction saturation again, and then obtain the mist that the saturation is lower to reach the purpose of fog dispersal water conservation, however, current condensation module (fog dispersal) has the heat transfer area to be restricted, the general problem of heat transfer effect.

For example, chinese patent with publication number CN 215572282U discloses a fog dispersal module, which includes enclosing plates forming a cavity, wherein the enclosing plates are internally provided with heat exchangers obliquely arranged for cross-flow heat exchange of wet saturated air and dry air; at least one group of turbulence structures is arranged on the inner wall of the enclosing plate, and the turbulence structures are positioned above the heat exchanger. This scheme has adopted the fog module that disappears of rhombus structure to carry out the heat transfer to cold saturated air, hot dry air to carry out vortex and water conservancy diversion after the heat transfer. But due to the special application mode of the diamond structure, the diamond structure cannot be completely covered in the sharp corner area of the diamond structure, so that the heat exchange area is limited.

For another example, a chinese patent with publication number CN 111811292B discloses a multi-channel fog dispersal water saving device, which includes a first fog dispersal water saving module and a second fog dispersal water saving module, wherein the first fog dispersal water saving module is sequentially and alternately and circularly arranged according to the arrangement order of a first hot air channel, a first cold air channel, a second hot air channel and a second cold air channel, the second fog dispersal water saving module is sequentially and alternately and circularly arranged according to the arrangement order of the second cold air channel, the second hot air channel, the first cold air channel and the first hot air channel, and the first hot air channel of the first fog dispersal water saving module and the second cold air channel of the second fog dispersal water saving module are arranged in a coplanar manner; the partition plate is arranged below the fog dispersal water saving module, the partition plate divides the area below the fog dispersal water saving module into a hot channel and a cold channel which are alternately distributed, the hot channel is communicated with the first hot air channel and the second hot air channel, the cold channel is communicated with the first cold air channel and the second cold air channel, and a dry-cold-wet-hot air heat exchange channel which is coaxially crossed and is coplanar and oppositely flushed is formed. This scheme can adopt structures such as pentagon, heptagon or nine-sided type, but still is being provided with the structure of similar rhombus closed angle on the whole, has the restricted problem of heat transfer area.

Disclosure of Invention

The invention aims to provide a condensation fog-dissipation water-saving module and a device thereof, which are used for solving the problems in the prior art and are characterized in that a first airflow layer and a second airflow layer are internally provided with different fluids

A channel and

the type passageway can utilize oblique passageway alternately to carry out the heat transfer, can utilize again to erect the passageway coincidence and carry out the heat transfer, can improve the heat transfer area of dry cold air and damp and hot air.

In order to achieve the purpose, the invention provides the following scheme:

the invention provides a condensation fog-dissipation water-saving module which comprises a first airflow layer and a second airflow layer which are arranged in a clinging manner, wherein the first airflow layer comprises a plurality of airflow layers

A second airflow layer including a plurality of channels

A profile channel; the above-mentioned

Vertical channel of profile channel and adjacent layer

The projections of the vertical channels of the profile channel coincide, said

The inclined channel of the channel and the adjacent layer

Throwing of inclined channel of channelCrossing the shadow; said of adjacent layers

A profile channel and

the type channels are respectively communicated with different air flows, and the air flows comprise dry cold air and wet hot air.

Preferably, the first airflow layer includes a plurality of "/" type channels and the second airflow layer includes a plurality of "\" type channels, the "/" type channels and the "\" type channels being used to pass dry cool air or moist hot air, respectively, to the modules of adjacent modules

A profile channel or

A type channel.

Preferably, the device comprises a rectangular body, wherein a plurality of layers of the first airflow layer and a plurality of layers of the second airflow layer are arranged in the rectangular body; the described

A profile channel and

the outlets of the profile channels are all located at the top edge, the

A profile channel and

the inlets of the profile channels are all positioned at the side edges or the bottom edges; the outlet and inlet of the "/" type channel and the "\" type channel are located at the side and bottom edges, respectively.

Preferably, said at the same layer

The inlet of the channel and the inlet of the "/" channel are respectively communicated with different air flows, and the air flows in the same layer

The inlet of the channel and the inlet of the \ "channel are communicated with different air flows respectively.

Preferably, the rectangular body includes a first channel sheet, a second channel sheet, and a channel spacer sheet disposed between the first channel sheet and the second channel sheet, and the first airflow layer and the second airflow layer are respectively formed between the first channel sheet and the channel spacer sheet and between the second channel sheet and the channel spacer sheet.

Preferably, the first channel plate and the second channel plate are made of plastic sheets with the same structure, the front side of each plastic sheet protrudes to form a channel groove on the back side, the back side of each plastic sheet protrudes to form a channel groove on the front side, and different air flow directions are formed by front side connection or back side connection.

Preferably, a first closing-in part is arranged at a position of a part of the vertical channel close to the outlet of the vertical channel, and a first reinforcing rib is connected between the adjacent first closing-in parts on the same layer.

Preferably, a second closing-in part is arranged at the position of the inclined channel close to the inlet of the inclined channel and at the position of part of the "/" type channel and the "\\" type channel close to the inlets of the inclined channel, and a second reinforcing rib is connected between the adjacent second closing-in parts on the same layer.

Preferably, the first and second mouth parts are formed by a front convex local reverse concavity or a back convex local forward concavity.

The invention also provides a condensation fog-removing water-saving device, which comprises the condensation fog-removing water-saving module, wherein the side edge of the rectangular body is connected with the side edge of the adjacent rectangular body, and the '/' type channel and the ' \\ type channel respectively lead dry cold air or wet hot air to the side edge of the adjacent module

A profile channel and

a type channel.

Compared with the prior art, the invention has the following technical effects:

(1) the invention is achieved by arranging different fluids in the first and second gas flow layers

A channel and

the type channel can not only use the cross of the inclined channels for heat exchange, but also use the superposition of the vertical channels for heat exchange, thus improving the heat exchange area of dry cold air and wet hot air, and simultaneously, because the projections of the vertical channels are superposed, the mixing can be realized at the outlet of the vertical channels, thus improving the mixing effect of the dry hot air and the wet hot air after the saturation is reduced, obtaining the mixed gas with lower saturation, and improving the fog-eliminating and water-saving effects;

(2) the invention provides for the passage of cold, dry or hot, moist air to adjacent modules through "/" shaped channels

Type channels through which dry, cold or hot, moist air is led to adjacent modules

A channel of the type capable of being changed

A channel and

the inlet orientation of the channel is favorable for the circulation of damp and hot air below the condensation fog-dissipation water-saving module to enter the condensation fog-dissipation water-saving module, so that the heat exchange efficiency is further improved, andcondensation effect;

(3) according to the invention, various channels are arranged in the rectangular body, so that the adjacent modules can be connected with each other by depending on the side edge of the rectangular body

The channel is communicated with the channel,

The type channel is communicated with the 'Y' -shaped channel to realize air flow circulation among different modules, the application area of the condensation fog-removing water-saving module can be expanded, and the internal space of the cooling tower can be utilized to the greatest extent, so that heat exchange can be more effectively carried out in a limited space, and the heat exchange efficiency and the condensation effect are improved;

(4) the first channel sheet and the second channel sheet adopt plastic sheets with the same structure, the front protrusions and the back protrusions of the plastic sheets are utilized to form channel grooves on the back side and channel grooves on the front side, and different airflow directions are formed by connecting the front side with the channel spacing sheet or connecting the back side with the channel spacing sheet, so that the construction of airflow channels of different airflow layers can be completed by utilizing the same plastic sheet, the material processing is convenient, and the installation difficulty is low;

(5) according to the invention, through arranging the first closing part, the first reinforcing rib, the second closing part and the second reinforcing rib, on one hand, the easiness of bending the condensation fog-dissipation water-saving module along the convex direction of the formed channel can be reduced, the structural strength of the plastic sheet is enhanced, on the other hand, the resistance of air flow circulation in the channel can be provided, the retention time is increased, and the heat exchange efficiency is improved.

Drawings

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

FIG. 1 is a schematic view of the overall structure of a condensation, fog dissipation and water saving module according to the present invention;

FIG. 2 is a schematic illustration of the exploded structure of FIG. 1;

FIG. 3 is a schematic view of a first channel sheet structure according to the present invention;

FIG. 4 is a front view of FIG. 3;

FIG. 5 is a schematic view of a second channel sheet according to the present invention;

FIG. 6 is a front view of FIG. 5;

FIG. 7 is a schematic view of the overall structure of the condensation, fog dispersal and water saving device of the present invention;

FIG. 8 is a schematic view of the airflow path of the present invention;

FIG. 9 is a schematic view of a cooling tower of the present invention;

wherein, 1, a rectangular body; 11. a first channel sheet; 12. a channel spacer; 13. a second channel sheet; 21. a first vertical channel; 22. a first inclined channel; 23.

a profile channel; 24. a second vertical channel; 25. a second inclined channel; 26.

a profile channel; 31. a "/" type channel; 32. a "\\" type channel; 4. a first mouth portion; 5. a second mouth portion; 6. a mouth collecting part; 7. a fan; 8. a water collector; 9. a filler; 10. a water pool; 20. dry and cool air; 30. moist hot air.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

The invention aims to provide a condensation fog-dissipation water-saving module and a device thereof, which are used for solving the problems in the prior art and compriseWith different fluids arranged in the air-flow layer and the second air-flow layer

A channel and

the type passageway can utilize oblique passageway alternately to carry out the heat transfer, can utilize again to erect the passageway coincidence and carry out the heat transfer, can improve the heat transfer area of dry and cold air and damp and hot air.

In order to make the aforementioned objects, features and advantages of the present invention more comprehensible, the present invention is described in detail with reference to the accompanying drawings and the detailed description thereof.

As shown in fig. 1 to 8, the invention provides a condensation fog-dissipation water-saving module, which comprises a first airflow layer and a second airflow layer, wherein the first airflow layer and the second airflow layer are arranged in a close manner, the first airflow layer and the second airflow layer can be respectively provided with one layer or a plurality of layers, and when the layers are arranged in a plurality of layers, the first airflow layer and the second airflow layer are sequentially and circularly arranged, that is, the second airflow layer is arranged between the first airflow layer at intervals, and the first airflow layer is arranged between the second airflow layer at intervals. The first airflow layer and the second airflow layer respectively form airflow circulation paths, are not communicated with each other, and only perform heat transfer and exchange. Wherein the first airflow layer comprises a plurality of airflow layers

The second airflow layer comprises a plurality of channels 23

A profile channel 26;

the molded passage 23 comprises a first vertical passage 21 and a first inclined passage 22 which are communicated with each other, the lengths of the plurality of first vertical passages 21 can be basically consistent according to the arrangement shape of the condensation, fog dissipation and water saving module, and the lengths of the plurality of first inclined passages 22 are respectively adjusted in an adaptive manner;

the shaped channel 26 comprises a second vertical channel 24 and a second inclined channel 25 which are communicated with each other, the lengths of the plurality of second vertical channels 24 can be basically consistent according to the arrangement shape of the condensation, fog and water saving module, and the lengths of the plurality of second inclined channels 25 are respectively and adaptively adjusted. The first vertical channel 21 coincides with the projection of the second vertical channel 24 of the adjacent layer, i.e. heat exchange is possible within the length of both the first vertical channel 21 and the second vertical channel 24. The first inclined passage 22 intersects with a projection of the second inclined passage 25 of the adjacent layer, and heat exchange is enabled in the intersection range of the first inclined passage 22 and the second inclined passage 25. It can be seen that the present invention increases the heat exchange pattern of the first vertical channel 21 and the second vertical channel 24 in the direction of the direct flow, compared to the heat exchange pattern of the prior art in which the diamond structure can only exchange heat in the crossing range. Of adjacent layers

A profile channel 23 and

the channels 26 are respectively communicated with different air flows, and the air flows comprise dry cold air 20 and damp and hot air 30, so that the heat of the damp and hot air 30 can be transferred to the dry cold air 20, the damp and hot air 30 can be cooled, and the dry cold air 20 can be preheated. The invention is realized by arranging different fluids in the first airflow layer and the second airflow layer

A profile channel 23 and

the type passageway 26 can utilize oblique passageway alternately to carry out the heat transfer, can utilize perpendicular passageway coincidence to carry out the heat transfer again, can improve the heat transfer area of dry cold air 20 and damp and hot air 30, simultaneously, because the projection coincidence of passageway 24 is erect to first perpendicular passageway 21 and second, can realize the mixture of air current in the exit of the two to can improve the hot air of doing and reduce the hot and humid air 30's after the saturation mixed effect, obtain the lower damp and hot air 30's of saturation mixed effectThe mixed gas improves the fog-dispersing and water-saving effects.

The first air flow layer can also comprise a plurality of '/' type channels 31, and the '/' type channels 31 are used for being connected with the adjacent condensation fog-removing water-saving modules

The channels 23 are communicated to lead the dry cold air 20 or the wet hot air 30 to the adjacent condensation fog-dispersing water-saving modules

The profile channel 23. The second air stream layer may also include a number of "\" type channels 32, the "\" type channels 32 being used in conjunction with adjacent condensation mist elimination water conservation modules

The channels 26 are communicated to lead the dry cold air 20 or the wet hot air 30 to the adjacent condensation fog-dispersing water-saving modules

The profile channel 26. By the arrangement of the "/" type channel 31 and the "\" type channel 32, it is possible to change

A profile channel 23 and

the inlet orientation of type passageway 26 for the import of side is towards the base, thereby can be better do benefit to the moist hot air 30 circulation of condensation fog dispersal water conservation module below and get into in the condensation fog dispersal water conservation module, further improve heat exchange efficiency and condensation effect. In addition, a mouth-collecting part 6 may be provided at the entrance of the "/" type passage 31 and the "\" type passage 32, and the mouth-collecting part 6 is deflected again in the same direction, so that the hot and humid air 30 therebelow can be collected more effectively.

For the condensation fog dissipation water saving module, the condensation fog dissipation water saving module can comprise a rectangular body 1, and the rectangular body 1 constructs a first airflow layer and a second airflow layer in the rectangular body through layering bonding or forming pouring and other modes. The plurality of first airflow layers and the plurality of second airflow layers are arranged in layers in the rectangular body 1 according to the sequence mentioned above, and are not communicated with each other in the rectangular body 1, but can exchange heat and transfer heat.

A profile channel 23 and

the outlets of the profile channels 26 are all located at the top edge of the rectangular body 1,

a profile channel 23 and

the inlets of the type channels 26 are located at the sides or bottom edges of the rectangular body 1, and the outlets and inlets of the "/" type channels 31 and the "\" type channels 32 are located at the sides and bottom edges of the rectangular body 1, respectively.

A profile channel 23 and

the inlet of the type channel 26 at the side edge can be communicated with the outlet of the "/" type channel 31 and "\\" type channel 32 at the side edge of the adjacent condensation, fog-dispersal and water-saving module, respectively.

Due to the fact that

The first inclined channel 22 of the profile channel 23 is oriented and

the second inclined channel 25 of the channel 26 is oriented oppositely, and its inlet at the bottom edge of the rectangular body 1 is naturally divided into two different areas along the bottom edge, each of which can be used for communicating the dry cold air 20 and the hot humid air 30, respectively. Thus, located in the same layer

The inlet of the channel 23 and the inlet of the '/' channel 31 are communicated with different air flows respectively and are positioned at the same layer

The inlet of the type channel 26 and the inlet of the "\" type channel 32 are each in communication with different gas streams. The projection of the dry cold air 20 and the humid hot air 30 at the first inclined passage 22 and the second inclined passage 25 are formed to be communicated alternately, and the projection at the first vertical passage 21 and the second vertical passage 24 are formed to be communicated coincidently.

As shown in fig. 2, the rectangular body 1 may include a first channel sheet 11, a second channel sheet 13, and a channel spacer 12 disposed between the first channel sheet 11 and the second channel sheet 13, the first channel sheet 11 and the second channel sheet 13 may be made of a plastic forming material, and grooves for forming the channels are formed by processing the grooves and the channel spacer 12. That is, a first air flow layer and a second air flow layer are formed between the first channel sheet 11 and the channel spacer sheet 12 and between the second channel sheet 13 and the channel spacer sheet 12, respectively. The cross section of the groove may be trapezoidal, rectangular, or arc.

Furthermore, the first channel sheet 11 and the second channel sheet 13 may be plastic sheets with the same structure, the front surface of the plastic sheet protrudes to form channel grooves on the back surface, the back surface of the plastic sheet protrudes to form channel grooves on the front surface, and airflow channels with different directions may be formed by connecting the front surface with the channel spacer 12 or connecting the back surface with the channel spacer 12. Therefore, the same plastic sheet can be used for completing the construction of airflow channels of different airflow layers, the material processing is convenient, and the installation difficulty is low.

As shown in fig. 1 and fig. 3 to 7, first closing parts 4 are arranged at positions of some vertical channels (including the first vertical channel 21 and the second vertical channel 24) close to the outlets of the vertical channels, and first reinforcing ribs are connected between adjacent first closing parts 4. The first mouth part 4 has a reduced diameter relative to the first vertical channel 21 and the second vertical channel 24, which makes it possible to form a resistance to the flow of air when the air flows to the location of the first mouth part 4Force, increase the air flow (dry cool air 20 or moist hot air 30)

A profile channel 23 and

the residence time in the profile channel 26 improves the heat exchange efficiency. In addition, the arrangement of the first mouth part 4 and the first reinforcing ribs can change the connection relationship between the adjacent first vertical channels 21 and the adjacent second vertical channels 24, reduce the bending easiness of the plastic sheet along the protruding direction of the channels, and enhance the structural strength of the plastic sheet. The intercommunication is not link up in first strengthening rib position between the adjacent first receipts oral area 4 in the same layer, can guarantee that dry cold air 20 and damp hot air 30 each other not communicate the influence, and the distance of extension heat transfer passageway is mixing after the dry hot air after the heat transfer and the damp hot air 30 after reducing the saturation flow out, guarantees the heat transfer effect.

The diagonal channels (including the first diagonal channel 22 and the second diagonal channel 25) are provided with second constrictions 5 at positions near the entrances thereof and portions of the "/" type channel 31 and the "\" type channel 32 near the entrances thereof, and second reinforcing ribs are connected between the adjacent second constrictions 5. The diameter of the second mouth part 5 is reduced relative to the diameter of the first inclined channel 22 and the second inclined channel 25, so that resistance to the circulation of the air flow can be formed, and the entrance of the air flow (the dry cold air 20 or the wet hot air 30) is reduced to a certain extent

A profile channel 23 and

the pressure in the channels 26 increases the residence time of the gas flow in the channels and improves the heat exchange efficiency. In addition, the arrangement of the second mouth part 5 and the second reinforcing ribs can change the connection relationship between the adjacent first inclined channels 22 and the adjacent second inclined channels 25, reduce the bending easiness of the plastic sheet along the convex direction forming the channels, and enhance the structural strength of the plastic sheet. The intercommunication is not link up in the second strengthening rib position between the adjacent second binding off portion 5 of same floor, can guarantee that the dry and cold air 20 and the damp and hot air 30 that get into influence each other of not communicateing, the distance of extension heat transfer passageway, further improvement heat transfer effect between the adjacent layer.

For the forming process of the first and second mouth parts 4 and 5, the forming process can be synchronously performed when the corresponding first and second channel sheets 11 and 13 are formed, and the structure is formed by locally forming reverse concave convex on the front surface or locally forming forward concave convex on the back surface.

With reference to fig. 7, the invention further provides a condensation fog dispersal water saving device, which comprises the condensation fog dispersal water saving module described above, and a plurality of condensation fog dispersal water saving modules can be spliced and connected to form a larger area and a larger volume. When in connection, the side of the rectangular body 1 can be connected with the side of the adjacent rectangular body 1, and the "/" shaped channel 31 leads the dry and cold air 20 or the wet and hot air 30 to the adjacent condensation, fog dissipation and water saving module

A profile channel 23; a "\\" type channel 32 leads the wet hot air 30 or the dry cold air 20 to the adjacent condensation fog-removing water-saving module

A profile channel 26.

Referring to fig. 9, when the condensation fog dispersal water saving device is used, the condensation fog dispersal water saving device is arranged inside a cooling tower, a fan 7 is arranged above a condensation fog dispersal water saving module, a water collector 8 and a filler 9 are arranged below the condensation fog dispersal water saving module, and a water tank 10 is arranged at the bottom of the condensation fog dispersal water saving module. Saturated damp and hot air 30 that forms in the cooling tower carries out the heat exchange through a plurality of independent passageways and adjacent dry and cold air 20 that is introduced by the transom in condensation defogging water saving fixtures, utilizes dry and cold air 20 to carry out the cooling treatment to supersaturated damp and hot air 30, forms the comdenstion water, reduces damp and hot air 30's saturation, and simultaneously, dry and cold air 20 is owing to absorb damp and hot air 30's heat and change into dry and hot air. At the outlet of the condensation fog-dispersal water-saving module, the wet hot air 30 with reduced saturation and the heated dry hot air are directly mixed to form unsaturated gas, and the gas is discharged from the outlet of the air duct, and because the gas is unsaturated gas, the aim of weakening and eliminating the fog can be achieved.

The principle and the implementation mode of the invention are explained by applying a specific example, and the description of the embodiment is only used for helping to understand the method and the core idea of the invention; meanwhile, for a person skilled in the art, according to the idea of the present invention, the specific embodiments and the application range may be changed. In view of the above, the present disclosure should not be construed as limiting the invention.

Claims (10)

1. The utility model provides a condensation fog dispersal water conservation module which characterized in that: comprises a first airflow layer and a second airflow layer which are arranged in a close-contact way, wherein the first airflow layer comprises a plurality of airflow layers

A second airflow layer including multiple channels

A profile channel; the described

Vertical channel of profile channel and adjacent layer

The projections of the vertical channels of the profile channel coincide, said

The inclined channel of the channel and the adjacent layer

The projection of the inclined channel of the channel is crossed; said of adjacent layers

A profile channel and

the type channels are respectively communicated with different air flows, and the air flows comprise dry cold air and wet hot air.

2. The condensation fog dispersal water conservation module of claim 1, wherein: the first airflow layer includes a plurality of "/" type channels and the second airflow layer includes a plurality of "\" type channels, the "/" type channels and the "\" type channels being used to pass dry cool air or moist hot air, respectively, to the modules of adjacent modules

A profile channel or

A profile channel.

3. The condensation fog dispersal water conservation module of claim 2, wherein: the air purifier comprises a rectangular body, wherein a plurality of layers of first airflow layers and a plurality of layers of second airflow layers are arranged in the rectangular body; the described

A profile channel and

the outlets of the channels are all positioned at the top edge, the

A profile channel and

the inlets of the profile channels are all positioned at the side edges or the bottom edges; the exit of the "/" type channel and the "\" type channelThe ports and inlets are located on the side and bottom edges, respectively.

4. The condensation fog dispersal water conservation module of claim 3, wherein: at the same layer

The inlet of the channel and the inlet of the "/" channel are respectively communicated with different air flows, and the air flows in the same layer

The inlet of the channel and the inlet of the \ "channel are communicated with different air flows respectively.

5. The condensation and fog dispersal water saving module of claim 3 or 4, wherein: the rectangular body comprises a first channel sheet, a second channel sheet and channel spacing sheets arranged between the first channel sheet and the second channel sheet, wherein the first airflow layer and the second airflow layer are respectively formed between the first channel sheet and the channel spacing sheets and between the second channel sheet and the channel spacing sheets.

6. The condensation fog dispersal water conservation module of claim 5, wherein: the first channel sheet and the second channel sheet are made of plastic sheets with the same structure, the front side of each plastic sheet protrudes to form a channel groove on the back side, the back side of each plastic sheet protrudes to form a channel groove on the front side, and different air flow directions are formed by front side connection or back side connection.

7. The condensation fog dispersal water saving module of claim 6, wherein: and first closing parts are arranged at the positions, close to the outlets, of part of the vertical channels, and first reinforcing ribs are connected between the adjacent first closing parts on the same layer.

8. The condensation fog dispersal water saving module of claim 7, wherein: and second closing parts are arranged at the positions of the inclined channels close to the inlets of the inclined channels and at the positions of parts of the '/' shaped channels and the ' \\ shaped channels close to the inlets of the inclined channels, and second reinforcing ribs are connected between the adjacent second closing parts on the same layer.

9. The condensation fog dispersal water conservation module of claim 8, wherein: the first closing part and the second closing part are formed by locally and reversely sunken parts with convex front surfaces or locally and forwardly sunken parts with convex back surfaces.

10. The utility model provides a condensation fog dispersal water saving fixtures which characterized in that: comprising a plurality of condensation fog-dispersal water-saving modules as claimed in any one of claims 3 to 9, the sides of the rectangular body being connected to the sides of adjacent rectangular bodies, the "/" type channel and the "\" type channel respectively leading dry cold air or humid hot air to the modules of adjacent modules

A profile channel and

a type channel.

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