CN206875662U - Possess the Fresh air handling units of humidity conditioning function - Google Patents
Possess the Fresh air handling units of humidity conditioning function Download PDFInfo
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- CN206875662U CN206875662U CN201720729217.5U CN201720729217U CN206875662U CN 206875662 U CN206875662 U CN 206875662U CN 201720729217 U CN201720729217 U CN 201720729217U CN 206875662 U CN206875662 U CN 206875662U
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Abstract
The utility model discloses a kind of Fresh air handling units for possessing humidity conditioning function, including intake stack and damping mechanism, it is characterized in that, damping mechanism includes humidification component and dehumidifying component, humidification component includes gas humidification pipeline and fluid pipeline, and dehumidifying component includes gas dehumidification pipeline and vacuum lead;Humidify pipeline and fluid pipeline shares the first wallboard part, gas dehumidification pipeline and vacuum lead share the second wallboard part, first wallboard part and the second wallboard part have multiple damping holes, and the radial dimension of each damping hole is between 0.1 μm 1 μm, covered with hydrophilic ventilated membrane on each damping hole;The air inlet in gas humidification pipeline and gas dehumidification pipe road connects with intake stack.Provided by the utility model possess the Fresh air handling units of humidity conditioning function, first, being provided simultaneously with humidification and dehumidification function;Second, directly being dehumidified or being humidified by hydrophilic ventilated membrane, there is no condensed water condensation surface;Third, phase transformation is not present in dehumidification process, without corresponding energy consumption equipment.
Description
Technical field
It the utility model is related to air-conditioning technique, and in particular to a kind of Fresh air handling units for possessing humidity conditioning function.
Background technology
Damping (humidification and/or dehumidifying) is one of main regulation direction of air-conditioning technique, in industry and commerce field and life
A large amount of needs for carrying out humidity regulation be present in detachable collar domain.In the prior art, air humidifying device such as humidifier, air dewetting fills
It is single to put such as equal function of drier equipment, is not provided simultaneously with humidification and dehumidification function.
In addition, either air humidifying device or air dehumidifier, it has a series of weak point, such as air
The air-humidification method that humidification device uses includes two kinds of equal-enthalpy humidifying and isothermal humidification, and particular technique means include electric heating humidification, electricity
Pole humidification, high-pressure micro-mist humidification, spraying humidification, wet-film humidifying etc., electric heating humidification, electrode humidification, high-pressure micro-mist humidification, spraying add
Wet to wait mode of heating to generate substantial amounts of fog with humidifying air, larger wet-film humidifying generation is to moisten plane with humidifying air.
The dehumanization method that air dehumidifier uses mainly includes refrigeration cool-down dehumidification method, solution adsorption and dehumidification method and rotary wheel dehumidifying
Method, it by gaseous steam transforming is aqueous water that its overall principle, which is, then is removed aqueous water by various methods.Vapor
It is converted into aqueous water and phase transformation is present, the amount of latent heat in conversion process is larger, it is necessary to produce energy by electricity or other energy to offset
The latent heat, therefore the energy consumed is more, corresponding equipment is also complex.Synchronous, aqueous water is also possible to produce other
Accessory problem, such as hygienic issues, pollution problem.
In summary, it is disadvantageous in that in the prior art, first, function is single, otherwise only possess humidification function, or
Only possesses dehumidification function;Second, no matter humidifying or dehumidifying, condenser zone all be present, the region forms moist surface, and moist
Surface is easier to breed bacteria so that sanitary condition is poor;Third, air dehumidifier has phase transformation, i.e. vaporous water is converted into liquid
State water, the amount of latent heat in conversion process is larger, it is necessary to produce energy by electricity or other energy to offset the latent heat, therefore consume
The energy is more, and corresponding equipment is also complex.
Utility model content
The purpose of this utility model is to provide a kind of Fresh air handling units for possessing humidity conditioning function, with solution technology it is above-mentioned not
Foot part.
To achieve these goals, the utility model provides following technical scheme:
A kind of Fresh air handling units for possessing humidity conditioning function, including intake stack and damping mechanism, it is characterised in that the tune
Wet mechanism includes humidification component and dehumidifying component, and the humidification component includes gas humidification pipeline and fluid pipeline, the dehumidifying
Component includes gas dehumidification pipeline and vacuum lead;
The humidification pipeline and fluid pipeline share the first wallboard part, and the gas dehumidification pipeline and vacuum lead share
Second wallboard part, the first wallboard part and the second wallboard part have multiple damping holes, the radial ruler of each damping hole
It is very little between 0.1 μm -1 μm, covered with hydrophilic ventilated membrane on each damping hole;
The air inlet of the gas humidification pipeline and the gas dehumidification pipeline connects with the intake stack.
Above-mentioned Fresh air handling units, the first wallboard part and the second wallboard part include bottom plate and are arranged at more on bottom plate
Individual hollow boss part, multiple damping holes are provided with each hollow boss part.
The housing of above-mentioned Fresh air handling units, the gas humidification pipeline and the gas dehumidification pipeline includes double shells
Body, be the fluid pipeline between the double Shell of the gas humidification pipeline, the double Shell of the gas dehumidification pipeline it
Between be the vacuum lead.
Above-mentioned Fresh air handling units, the double Shell are helical structure, the double shells positioned at the inside of the helical structure
The damping hole and hydrophilic ventilated membrane are provided with body.
Above-mentioned Fresh air handling units, the direction from air inlet to gas outlet, the radial section product of the gas humidification pipeline according to
Secondary increase, the radial section product of the gas dehumidification pipeline are sequentially reduced.
In the air inlet and exhaust outlet of above-mentioned Fresh air handling units, the gas humidification pipeline and the gas dehumidification pipeline extremely
Automatic valve is provided with few one.
Above-mentioned Fresh air handling units, the first temperature-adjusting device is provided with the intake stack.
The row of above-mentioned Fresh air handling units, in addition to exhaust duct, the gas humidification pipeline and the gas dehumidification pipeline
Gas port connects with the exhaust duct, and the exhaust duct is provided with second temperature adjusting means.
Above-mentioned Fresh air handling units, in addition to return air duct, the return air duct pass through heat exchange mechanism and the blast pipe
Road is connected.
Above-mentioned Fresh air handling units, filter mechanism is provided with the intake stack.
In the above-mentioned technical solutions, it is provided by the utility model to possess the Fresh air handling units of humidity conditioning function, first, being provided simultaneously with
Humidification and dehumidification function;Second, directly being dehumidified or being humidified by hydrophilic ventilated membrane, there is no condensed water condensation surface, so as to
Bacteria breed environment is eliminated, sanitary condition is preferable;Third, phase transformation is not present in dehumidification process, just there is no latent heat accordingly yet
Produce, it is also just smaller without corresponding energy consumption equipment, power consumption.
Brief description of the drawings
, below will be to institute in embodiment in order to illustrate more clearly of the embodiment of the present application or technical scheme of the prior art
The accompanying drawing needed to use is briefly described, it should be apparent that, drawings in the following description are only described in the utility model
Some embodiments, for those of ordinary skill in the art, other accompanying drawings can also be obtained according to these accompanying drawings.
Fig. 1 is the structural representation for the Fresh air handling units for possessing humidity conditioning function that the utility model embodiment provides;
Fig. 2 is the structural representation for the humidification component that the utility model embodiment provides;
Fig. 3 is the partial enlarged drawing for the humidification component that the utility model embodiment provides.
Description of reference numerals:
1st, intake stack;2nd, exhaust duct;3rd, component is humidified;3.1st, gas humidification pipeline;3.2nd, fluid pipeline;3.3rd,
One wallboard part;3.4th, hollow boss part;3.5th, bottom plate;4th, dehumidifying component;4.1st, gas dehumidification pipeline;4.2nd, vacuum lead;
4.3rd, the second wallboard part;5th, the first temperature-adjusting device;6th, second temperature adjusting means;7th, return air duct;8th, heat exchange mechanism;
9th, filter mechanism;10th, automatic valve;11st, blower fan;12nd, water pump;13rd, vavuum pump.
Embodiment
In order that those skilled in the art more fully understands the technical solution of the utility model, below in conjunction with accompanying drawing pair
The utility model is further detailed.
As Figure 1-3, a kind of 11 groups of new blower fan for possessing humidity conditioning function that the utility model embodiment provides, including enter
Wind pipeline 1 and damping mechanism, the damping mechanism include humidification component 3 and dehumidifying component 4, and the humidification component 3 includes gas
Body, which humidifies pipeline 3.1 and fluid pipeline 3.2, the dehumidifying component 4, includes gas dehumidification pipeline 4.1 and vacuum lead 4.2;Institute
State humidification pipeline and fluid pipeline 3.2 shares the first wallboard part 3.3, the gas dehumidification pipeline 4.1 and vacuum lead 4.2 are common
With the second wallboard part 4.3, the first wallboard part 3.3 and the second wallboard part 4.3 have multiple damping holes, each damping hole
The radial dimension of gap is between 0.1 μm -1 μm, covered with hydrophilic ventilated membrane on each damping hole;The gas humidification pipe
The air inlet of road 3.1 and the gas dehumidification pipeline 4.1 connects with the intake stack 1.
Specifically, intake stack 1 is used to input pending gas from object space, such as from outdoor introducing fresh air, air intake
Pipeline 1 is communicated with humidification component 3 and dehumidifying component 4 simultaneously, so exports pending gas to humidification component 3 and dehumidifying group
Part 4,11 groups of the new blower fan that the present embodiment provides at least have three kinds of mode of operations:Humidify component 3 and open what dehumidifying component 4 was closed
Humidifying mode, humidification component 3 close the dehumidification mode that dehumidifying component 4 is opened, and the humidification closing dehumidifying component 4 of component 3 is closed new
Wind pattern.
In the present embodiment, humidification component 3 includes gas humidification pipeline 3.1 and fluid pipeline 3.2, gas humidification pipeline 3.1
Gas is conveyed, gas is humidified in gas humidification pipeline 3.1 in running, and fluid pipeline 3.2 is used to convey humidification liquid
Body, the pipeline configuration of gas humidification pipeline 3.1 and at least partially public, the public portion of the pipeline configuration of fluid pipeline 3.2
It is divided into the first wallboard part 3.3, i.e. a side of the first wallboard part 3.3 is the internal face of gas humidification pipeline 3.1, another side
Face is the internal face of fluid pipeline 3.2, and damping hole, the radial ruler of each damping hole are provided with the first wallboard part 3.3
It is very little between 0.1 μm -1 μm, such damping porosity communication gas humidification pipeline 3.1 and fluid pipeline 3.2, damping hole overlying
Hydrophilic ventilated membrane is stamped, preferable hydrophilic ventilated membrane is located on the internal face in fluid pipeline 3.2.In the present embodiment, liquid line
Flowing dampening liquid in road 3.2, the interior flowing of gas humidification pipeline 3.1 need to be humidified gas, condition of two pipelines in pressure differential
Under, dampening liquid passes sequentially through damping hole and hydrophilic ventilated membrane out of fluid pipeline 3.2, due to hydrophilic ventilated membrane effect with
The form of gas is dispersed into humid gas to be added, so as to realize the effect of humidification.
Dehumidifying component 4 includes gas dehumidification pipeline 4.1 and vacuum lead 4.2, gas humidification dehumidifying conveying gas, gas
Drying is obtained in running in gas dehumidification pipeline 4.1, vacuum lead 4.2 is used to vacuumize, and its one end is connected with very
Empty pump 13 etc. can extract the power unit of vacuum, it is necessary to which explanation, the vacuum of vacuum lead 4.2 is opposing gas here
For the air pressure to dehumidify in pipeline 4.1, rather than normal pressure, if the pressure in gas dehumidification pipeline 4.1 is 1.5 times of atmospheric pressure, that
The air pressure of vacuum lead 4.2 is less than 1.5 times of atmospheric pressure, the pipeline configuration and vacuum-pumping tube of gas dehumidification pipeline 4.1
The pipeline configuration in road 4.2 is at least partially public, and public part is the one of the second wallboard part 4.3, i.e. the second wallboard part 4.3
Individual side is the internal face of gas dehumidification pipeline 4.1, and another side is the internal face of vacuum lead 4.2;Second wallboard part
Damping hole is provided with 4.3, between 0.1 μm -1 μm, such damping hole connects the radial dimension of each damping hole
Ventilate body dehumidifying pipeline 4.1 and vacuum lead 4.2, covered with hydrophilic ventilated membrane, preferable hydrophilic ventilated membrane on damping hole
On the internal face of gas dehumidification pipeline 4.1.In the present embodiment, air pressure is less than gas dehumidification pipeline in vacuum lead 4.2
Air pressure in 4.1, for two pipelines under conditions of pressure differential, the gaseous state moisture in gas dehumidification pipeline 4.1 passes sequentially through damping
Hole and hydrophilic ventilated membrane enter in vacuum lead 4.2, so as to realize the dehumidifying to the gas in gas dehumidification pipeline 4.1,
Due to the effect of hydrophilic ventilated membrane, whole process generates without aqueous water, also just offsets latent heat of phase change without extra consumption energy.
In the present embodiment, the first wallboard part 3.3 and the second wallboard part 4.3 are preferably sheet material, and two side is located at respectively
In corresponding pipeline, but the two can also be other structures, such as block or even polymorphic structure, it is only necessary to ensure two side
The internal face of pipeline is respectively corresponded to, and is internally provided with the damping hole of two pipelines of connection.The He of first wallboard part 3.3
Second wallboard part 4.3 can be by ion sputtering process, laser boring on the metal materials such as stainless steel, copper or nickel or fibrous material
The damping hole of above-mentioned size is set, or, by powder metallurgic method, THROUGH METHOD, spray deposition, foam melt method, with
And eutectic directional solidification method can be equal by the porous material of the upper generation micron level such as metal, ceramics, glass, these porous materials
It can be used as the first wallboard part 3.3 of the present embodiment and the second wallboard, porous material is Material Field conventional techniques
And common knowledge, the present embodiment do not repeat the possible embodiment of all first wallboard parts 3.3 and the second wallboard one by one.
In the present embodiment, hydrophilic ventilated membrane is provided with the first wallboard part 3.3 and the second wallboard, hydrophilic ventilated membrane is covered in
On each damping hole, hydrophilic ventilated membrane is the filter membrane for meeting following two characteristics:1st, water-wet behavior;2nd, hydrone can be by,
I.e. its internal aperture is not less than hydrone diameter.Water-wet behavior is determined that such as polypropylene filter is internal by the material character of film substantially
Pore size is the common knowledge of all kinds of filter membranes, therefore is not less than the filter of hydrone diameter by the inside aperture of water wetted material manufacture
Film can be used as the hydrophilic ventilated membrane of the present embodiment, such as all kinds of hydrophylic filter membranes, molecular sieve, nanoscale membrane material or nanoscale hydrophilic coating
Etc..
11 groups of the new blower fan for possessing humidity conditioning function that the utility model embodiment provides, first, being provided simultaneously with humidifying and removing
Wet function;Second, directly being dehumidified or being humidified by hydrophilic ventilated membrane, there is no condensed water condensation surface, it is thin so as to eliminate
Bacterium grows environment, and sanitary condition is preferable;Third, phase transformation is not present in dehumidification process, also just produced accordingly without latent heat, also
It is smaller without corresponding energy consumption equipment, power consumption.
More conventional in the present embodiment, the gas humidification pipeline 3.1 and fluid pipeline 3.2 for humidifying component 3 are set side by side
Put, such as two cuboid pipelines are set up in parallel, and both share a sidewall paneling, and the sidewall paneling is the first above-mentioned wallboard part
3.3, now the area of the first wallboard part 3.3 be the pipeline area sum of gas humidification pipeline 3.1 and fluid pipeline 3.2 seven/
One or so.More preferable, gas humidification pipeline 3.1 and fluid pipeline 3.2 are mutually socketed, as gas humidification pipeline 3.1 is socketed
In fluid pipeline 3.2, now the pipeline of gas humidification pipeline 3.1 can be integrally the first wallboard part 3.3, or fluid pipeline
3.2 are socketed in gas humidification pipeline 3.1, and it can be the first wallboard part 3.3 that now the pipeline of fluid pipeline 3.2 is overall, this
Structure type causes the first wallboard part 3.3 to occupy the area of the integrated piping of gas humidification pipeline 3.1 and fluid pipeline 3.2
Large percentage, more than 50% can be reached, the contact area of such gas humidification is larger.
It is furthermore preferred that as shown in Figures 2 and 3, the gas humidification pipeline 3.1 of the present embodiment is arranged in the shape of a spiral, its structure class
Like being helical structure, wherein, the housing of gas humidification pipeline 3.1 is double Shell, fluid pipeline 3.2 between two side bodies, this
The advantages of kind arrangement, is that in addition to the housing that outermost layer directly contacts the humidification external environment condition of component 3, the housing of remainder is equal
It can be the first wallboard part 3.3, i.e., can open up damping hole thereon and apply hydrophilic ventilated membrane, the area of the first wallboard part 3.3 can
To reach more than the 70% of the pipeline area sum of gas humidification pipeline 3.1 and fluid pipeline 3.2, the contact area of gas humidification
Greatly.
It is apparent that the construction and arrangement between the gas dehumidification pipeline 4.1 and vacuum lead 4.2 of dehumidifying component 4 are closed
System can be entirely by reference to the gas humidification pipeline 3.1 and fluid pipeline 3.2 of humidification component 3, and both architectural features can basic phase
Together.
In the present embodiment, for further lifting humidification and dehumidification area, the first wallboard part 3.3 and the second wallboard part 4.3 can
Further to improve, two kinds of embodiments are preferably provided:
First, the first wallboard part 3.3 and the second wallboard part 4.3 are tortuous sheet material, such as wave-shape board, surface has crisp
Sheet material etc., the contact area of element and gas humidification pipeline 3.1 can be so provided, and then improve dehumidification rate.
Second, the first wallboard part 3.3 (the second wallboard part 4.3 is as the same) includes bottom plate 3.5 and is arranged at more on bottom plate 3.5
Individual hollow boss part 3.4, the root of each hollow boss part 3.4, which is fixed, to be such as welded on bottom plate 3.5, its hollow projection piece 3.4
Interior bone is connected with fluid pipeline 3.2, and multiple damping holes are provided with each hollow boss part 3.4, hollow
Projection piece 3.4 can be hollow block structure, but it is preferable that as shown in Figures 2 and 3, the hollow boss part 3.4 is hollow tube
Part, the multiple hollow pipe fittings being so set up in parallel can provide substantial amounts of contact area, more efficiently raising dehumidification rate.
In the present embodiment, further, the direction from air inlet to gas outlet, the radial direction of the gas humidification pipeline 3.1
Sectional area increases successively, and the radial section product of the gas dehumidification pipeline 4.1 is sequentially reduced, so in humidification, pipeline
Interior air pressure gradually reduces, and so promotes the aqueous water in fluid pipeline 3.2 to enter gas humidification pipeline 3.1, and so lifting adds
Wet efficiency;And in dehumidification process, the air pressure in gas dehumidification pipeline 4.1 is stepped up, accordingly, gas dehumidification pipeline 4.1
Pressure differential between vacuum lead 4.2 becomes big, so promotes the gas water in gas dehumidification pipeline 4.1 to enter vacuum lead
4.2, so as to lift dehumidification rate.
In the present embodiment, further, the air inlet of the gas humidification pipeline 3.1 and the gas dehumidification pipeline 4.1
Be provided with automatic valve 10 at least one of exhaust outlet, it is preferred that be provided with four mouths of pipe, automatic valve 10 is used for
Air intake and the air draft in gas humidification pipeline 3.1 and gas dehumidification pipe road 4.1 are controlled, so in order to controlling both different moulds
Formula.
In the present embodiment, further, the first temperature-adjusting device 5, the first temperature are provided with the intake stack 1
Adjusting means 5 can be heater such as heater either cooling device such as cooler or Double-direction Temperature adjusting means, and it is used
Temperature adjustment is carried out in the air for entrance humidification component 3 and dehumidifying component 4.
In the present embodiment, optionally, the exhaust outlet in gas humidification pipeline 3.1 and gas dehumidification pipe road 4.1 is directly to corresponding
Space such as indoor input processing after gas, but it is preferable that also include exhaust duct 2, the He of gas humidification pipeline 3.1
The exhaust outlet of the gas dehumidification pipeline 4.1 connects with the exhaust duct 2, and the exhaust duct 2 is provided with the second temperature
Spend adjusting means 6.With the first temperature-adjusting device 5, second temperature adjusting means 6 can also be heater, cooling device or
Person's Double-direction Temperature adjusting means, but it is preferable that one is heating in the first temperature-adjusting device 5 and second temperature adjusting means 6
Device, one are cooling device, so reduce the acquisition cost of device, and it is furthermore preferred that the first temperature-adjusting device 5 is heating
Device, it is cooling device in second temperature adjusting means 6, its role is to first heat up again by humidifying component 3 or dehumidifying component
4 can lift humidification efficiency or dehumidification rate, and the temperature of final target space needs can be then obtained by cooling device.
In the present embodiment, by above-mentioned arrangement, new 11 groups of blower fan can have all multi-operation modes:
First, refrigerated dehumidification operating mode:Humidification component 3 is closed, and dehumidifying component 4 is opened, and outdoor air is entered by intake stack 1
Enter equipment, gas dehumidification pipeline 4.1 is entered by the air of blower fan 11, while vavuum pump 13 vacuumizes, and makes gas dehumidification pipeline 4.1
Cavity between vacuum lead 4.2 forms negative pressure, and the hydrone in air enters vacuum lead 4.2 by gap of dehumidifying
Extracted out afterwards by vavuum pump 13, temperature adjustment carried out by second temperature adjusting means 6 by the dry air after dehumidifier again, regulation to
It is required that temperature after be sent into it is indoor.It is the temperature and humidity set as requested to be sent into indoor air.Its ventilation state is
Constant temperature and constant humidity operating mode.
2nd, heating cycle is humidified:Humidification component 3 is opened, and dehumidifying component 4 is closed, and outdoor air is entered by intake stack 1
Equipment, then design temperature is heated to by the first temperature-adjusting device 5, fresh air passes through the air inlet humidifier tube of blower fan 11
Motor-driven valve on road, pressure pump 12 and fluid pipeline 3.2 is opened, and makes to be formed between fluid pipeline 3.2 and air wetting pipeline
Pressure differential, under pressure, through hydrophilic ventilated membrane, air inlet humidifies in pipeline aqueous water in the form of molecule, more dry
After dry air is mixed into the air of moistening with hydrone, it is sent into by fresh air outlet indoor.Be sent into indoor air be by
The temperature and humidity that as requested is set.Its ventilation state is constant temperature and constant humidity operating mode.
3rd, heating and dehumidification operating mode (can be used for back Nan Tian's weather):Humidification component 3 is closed, and dehumidifying component 4 is opened, outdoor
Air enters equipment by intake stack 1, then is heated to design temperature by the first temperature-adjusting device 5, passes through blower fan
11 air enter gas dehumidification pipeline 4.1, while vavuum pump 13 vacuumizes, and makes gas dehumidification pipeline 4.1 and vacuum lead 4.2
Between cavity form negative pressure, the hydrone in air is by gap of dehumidifying into being taken out by vavuum pump 13 after vacuum lead 4.2
Go out, be sent into by the dry air after dehumidifier indoor.
4th, cooling humidification operating mode (environment that can be used for high temperature drying):Humidification component 3 is opened, and dehumidifying component 4 is closed, room
Outer air enters equipment by intake stack 1, and fresh air humidifies pipeline, pressure pump 12 and liquid line by the air inlet of blower fan 11
Motor-driven valve on road 3.2 is opened, and makes to form pressure differential between fluid pipeline 3.2 and air wetting pipeline, and aqueous water is made in pressure
Under, through hydrophilic ventilated membrane, air inlet is humidified in pipeline in the form of molecule, and more dry air mixes with hydrone
After the air of moistening, then by the progress temperature adjustment of second temperature adjusting means 6, adjust to the temperature of setting, temperature is fitted
Preferably, the higher air of humidity is sent into indoor by fresh air outlet again.It is the temperature set as requested to be sent into indoor air
Degree and humidity.Its ventilation state is constant temperature and constant humidity operating mode.
5th, gravity-flow ventilation operating mode:Humidification component 3 is closed, and dehumidifying component 4 is closed, and outdoor air is entered by air inlet to be set
It is standby, gas humidification pipeline and gas dehumidification pipe road are passed air through, but corresponding vacuum lead and fluid pipeline do not work,
It is sent into again by fresh air outlet indoor.The air for being now sent into interior be fresh after filtration, purification and energy regenerating and
Clean air.
In the present embodiment, further, in addition to return air duct 7, the return air duct 7 pass through heat exchange mechanism 8 and institute
State intake stack 1 to be connected, thus by the first behavior fresh air temperature adjustment of return air duct 7, so as to save the first temperature-adjusting device 5 and the
The power consumption of two temperature-adjusting devices 6.
In the present embodiment, further, filter mechanism 9 is provided with the intake stack 1, so prevents pm2.5, all kinds of
The debris such as poisonous chemical injury humidification component 3 and dehumidifying component 4, extend the service life of humidification component 3 and dehumidifying component 4.
Some one exemplary embodiments of the present utility model are only described by way of explanation above, undoubtedly, for
One of ordinary skill in the art, can be with a variety of in the case of without departing from spirit and scope of the present utility model
Mode is modified to described embodiment.Therefore, above-mentioned accompanying drawing and description are inherently illustrative, should not be construed as
Limitation to the utility model claims protection domain.
Claims (10)
1. a kind of Fresh air handling units for possessing humidity conditioning function, including intake stack and damping mechanism, it is characterised in that the damping
Mechanism includes humidification component and dehumidifying component, and the humidification component includes gas humidification pipeline and fluid pipeline, the dehumidifying group
Part includes gas dehumidification pipeline and vacuum lead;
The humidification pipeline and fluid pipeline share the first wallboard part, and the gas dehumidification pipeline and vacuum lead share second
Multiple damping holes, the radial direction of each damping hole are provided with wallboard part, the first wallboard part and the second wallboard part
Size is between 0.1 μm -1 μm, covered with hydrophilic ventilated membrane on each damping hole;
The air inlet of the gas humidification pipeline and the gas dehumidification pipeline connects with the intake stack.
2. Fresh air handling units according to claim 1, it is characterised in that the first wallboard part and the second wallboard part include
Bottom plate and the multiple hollow boss parts being arranged on bottom plate, multiple damping holes are provided with each hollow boss part
Gap.
3. Fresh air handling units according to claim 1, it is characterised in that the gas humidification pipeline and the gas dehumidification pipe
The housing in road includes double Shell, is the fluid pipeline between the double Shell of the gas humidification pipeline, the gas
It is the vacuum lead between the double Shell of dehumidifying pipeline.
4. Fresh air handling units according to claim 3, it is characterised in that the double Shell is helical structure, positioned at described
The damping hole and hydrophilic ventilated membrane are provided with the double Shell of the inside of helical structure.
5. according to the Fresh air handling units described in claim any one of 1-4, it is characterised in that the direction from air inlet to gas outlet,
The radial section product of the gas humidification pipeline increases successively, and the radial section product of the gas dehumidification pipeline is sequentially reduced.
6. according to the Fresh air handling units described in claim any one of 1-4, it is characterised in that the gas humidification pipeline and the gas
Automatic valve is provided with least one of air inlet and exhaust outlet of body dehumidifying pipeline.
7. according to the Fresh air handling units described in claim any one of 1-4, it is characterised in that be provided with first on the intake stack
Temperature-adjusting device.
8. according to the Fresh air handling units described in claim any one of 1-4, it is characterised in that also including exhaust duct, the gas
Humidification pipeline and the exhaust outlet of the gas dehumidification pipeline connect with the exhaust duct, and the exhaust duct is provided with the
Two temperature-adjusting devices.
9. according to the Fresh air handling units described in claim any one of 1-4, it is characterised in that also including return air duct, the return air
Pipeline is connected by heat exchange mechanism with the intake stack.
10. according to the Fresh air handling units described in claim any one of 1-4, it is characterised in that be provided with the intake stack
Filter structure.
Priority Applications (1)
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CN201720729217.5U CN206875662U (en) | 2017-06-21 | 2017-06-21 | Possess the Fresh air handling units of humidity conditioning function |
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CN201720729217.5U CN206875662U (en) | 2017-06-21 | 2017-06-21 | Possess the Fresh air handling units of humidity conditioning function |
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Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107036224A (en) * | 2017-06-21 | 2017-08-11 | 国安瑞(北京)科技有限公司 | Possess the Fresh air handling units of humidity conditioning function |
CN108164120A (en) * | 2018-01-24 | 2018-06-15 | 广州研华环境科技有限公司 | A kind of sludge drier |
-
2017
- 2017-06-21 CN CN201720729217.5U patent/CN206875662U/en not_active Withdrawn - After Issue
Cited By (2)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107036224A (en) * | 2017-06-21 | 2017-08-11 | 国安瑞(北京)科技有限公司 | Possess the Fresh air handling units of humidity conditioning function |
CN108164120A (en) * | 2018-01-24 | 2018-06-15 | 广州研华环境科技有限公司 | A kind of sludge drier |
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