CN102149979A

CN102149979A - Method and device for preparing air to be supplied to a room to a desired temperature and a desired humidity

Info

Publication number: CN102149979A
Application number: CN2009801357390A
Authority: CN
Inventors: 乌尔斯·A·魏德曼; 古斯塔夫·汉斯·韦伯; 雷托·霍尔茨纳
Original assignee: Mentus Holding AG
Current assignee: Mentus Holding AG
Priority date: 2008-07-18
Filing date: 2009-07-08
Publication date: 2011-08-10
Also published as: EP2310755A1; US20110185752A1; TW201009270A; WO2010006968A1; AU2009272836A1; JP2011528426A; KR20110053964A; CH699192A1; MX2011000641A; BRPI0915964A2

Abstract

The air to be supplied to a room is brought to a desired temperature and a desired humidity through the following processing steps: - flowing outside air as a first air stream through a first line (20) and flowing a first portion of exhaust air coming from the room as a second air stream through a second line (21), wherein moisture is exchanged between the first air stream and the second air stream by way of a device for exchanging moisture, condensing, by way of a drying and cooling device (19), moisture in the form of water from the first air stream and/or from the second air stream and/or within the device for exchanging moisture, and flowing a second portion of the exhaust air as a third air stream through another line (32) comprising another drying and cooling device (33) and returning said second portion back to the room, wherein moisture is condensed from the third air stream in the form of water in the other drying and cooling device (33).

Description

Be used for to wait to supply with the method and apparatus of the air-treatment in space to the humidity of temperature of wishing and hope

Technical field

The present invention relates to a kind of being used for will wait to supply with the method and apparatus of the air-treatment in space to the humidity of temperature of wishing and hope, and described air is called air-supply in technical term, and wherein moisture and heat and the waste gas of discharging from the space exchange.

Background technology

Known a kind of dehydrating unit from US 6178966, in described dehydrating unit, supply with the fresh extraneous air in space and the waste gas of from the space, discharging and be conducted through two cavitys, described cavity separates by the permeable barrier film of steam, so that be delivered in two moisture and heats between the air stream.Known a kind of device from EP 1521040 and EP 1748260, in described device, extraneous air and waste gas are conducted through two humidity exchangers that separate, and wherein the 3rd medium air stream is transported to another humidity exchanger with moisture from a humidity exchanger.The 3rd air stream allows the adjusting of humidity exchanger.These devices are used for will being included in moisture and the pending extraneous air of heat transferred in the waste gas in winter, and will be included in cold in the waste gas in summer and pass to pending extraneous air, and the moisture transfer that will be included in the pending extraneous air is given waste gas, so that extraneous air is had make the temperature that stays in the hope that the people in the space feels comfortably cool and the humidity of hope with alap energy.

Summary of the invention

The objective of the invention is to, improve a kind of processing of air-supply.

According to the present invention, described purpose is achieved by the feature of claim 1 and 6.Favourable embodiment is by obtaining in the dependent claims.

The present invention relates to a kind of method that is used for air-supply is handled the humidity of the temperature of hope and hope, wherein air-supply has treated extraneous air and the treated waste gas of part, be treated circulating air, and wherein externally exchange moisture and heat between the air and waste gas.Described method comprises step:

-make extraneous air flow through first pipeline as the first air stream, and make from the first of the waste gas in space and flow through second pipeline as the second air stream, wherein the moisture between first air stream and second air stream is by means of the device that is used to exchange humidity, for example, for example exchange by the air loop of sealing or the humidity exchangers of fluid loop coupling connection by means of two by means of unique humidity exchanger or by means of the humidity exchanger of coupling connection;

-by means of dehumidifying and cooling device, make moisture with the form of water from first air stream and/or second air stream and/or condensation in being used to exchange the device of humidity; And

-make the second portion of waste gas flow through another pipeline with another dehumidifying and cooling device as the 3rd air stream, and supply with the space once more, wherein in another dehumidifying and cooling device, the form with water in the moisture flows condensation from the 3rd air.

In this article, the 3rd air stream is called circulating air in technical term.

Dehumidifying and the cooling of flowing through one air stream in required dehumidifying and the cooling device are preferably carried out by means of Peltier's element.

Dehumidifying and the cooling of flowing through the air stream of such dehumidifying and cooling device alternately can be carried out in the following way, promptly by means of this air stream of compressor compresses, wherein air stream is heated to above the temperature of environment temperature, make air stream heat can be distributed to environment, and by make compressed air stream decompression by means of turbine, wherein compressed air stream is cooled to below the temperature of dew point, so that moisture is isolated as water.

According to another alternative form, dehumidifying and the cooling of flowing through the air stream of such dehumidifying and cooling device can be carried out as follows, promptly flow by means of compressor compresses second air, and be separated into stream of warm air and cold air stream by means of vortex tube, wherein the temperature of cold air stream is lower than dew point, so that moisture is isolated as water.

On the other hand, the present invention relates to a kind of device that is fit to that is used to implement the method according to this invention.Such device comprises:

-the first pipeline, it has inlet, can suck extraneous air by described inlet; And outlet, can give the space with the air-supply discharging by described outlet;

-the second pipeline, it has inlet, can suck waste gas by described inlet; And outlet, can discharge to environment discharging gas by described outlet;

-be used for exchanging the device of the humidity between first air stream that first pipeline flows and second air stream that in second pipeline, flows;

-dehumidifying and cooling device, described dehumidifying and cooling device are arranged in first pipeline or second pipeline, perhaps are arranged on to be used to exchange in the described device of the humidity between first air stream and second air stream; And

-another pipeline, it has inlet, and waste gas can be supplied with described inlet from described space; And outlet, described outlet feeds described space or feeds first pipeline in the upstream of the outlet of first pipeline; And

-another dehumidifying and cooling device, it is arranged in another pipeline.

Advantageously, described device comprises another pipeline or other pipeline, and by described pipeline, extraneous air can lead to one or two dehumidifying and cooling device, and and then (as discharging gas) lead to environment so that discharge heat in corresponding dehumidifying and cooling device inner accumulated.If desired, these pipelines comprise independent fan.

Be used for the device that exchange current crosses first air stream of first pipeline and flow through the humidity between second air stream of second pipeline and for example be unique humidity exchanger, air-air humidity exchanger advantageously, described air-air humidity exchanger has two cavitys, described two cavitys separate by the permeable barrier film of steam, and wherein two cavitys are flow through by two air streams.But, this device also can comprise first humidity exchanger and second humidity exchanger, wherein first is that interchanger has first cavity that is arranged in first pipeline, described first cavity separates by the permeable barrier film of steam and second cavity, wherein second humidity exchanger has the 3rd cavity that is arranged in second pipeline, described the 3rd cavity separates by permeable barrier film of steam and the 4th cavity, and wherein the second and the 4th cavity is arranged in the air loop of sealing or in the fluid loop of sealing, air stream can circulate in described air loop.In this case, dehumidifying and cooling device are arranged in the air loop of sealing or in the fluid loop that seals.

The permeable barrier film of steam is interpreted as that hydrone can see through, but the impervious any structure of air.

Description of drawings

Elaborate the present invention by means of embodiment and accompanying drawing below.Accompanying drawing schematically and not in scale draws.

● Fig. 1 to 5 illustrates the different embodiment of the device of the processing that is used for extraneous air;

● Fig. 6 illustrates the functional diagram of the signal of dehumidifying and cooling device; And

● Fig. 7 to 10 illustrates the different example that is used to dehumidify with cooling device.

The specific embodiment

Fig. 1 and 2 illustrates two the different embodiment of device 1 that are used for extraneous air is handled the humidity of the temperature of hope and hope, in described device, and extraneous air and the waste gas exchange moisture and the heat of discharging from the space, and supply with the space as air-supply.Device has: first inlet 2, be inhaled at described first access point extraneous air, and as first circulation of air to the first outlet 3, and sending into the space as air-supply there; And second inlet 4, suck waste gas in described second porch, and as second circulation of air to the second outlet 5, and here discharge as discharging gas.Device 1 comprises: first fan 6; Second fan 7; Optional first filter 8; Optional second filter 9; Heat exchanger 10; First humidity exchanger 11 with two cavitys that are expressed as cavity 12 and cavity 13, described two cavitys are spaced from each other by the permeable barrier film 14 of steam; Second humidity exchanger 15 with two cavitys that are expressed as cavity 16 and cavity 17, described two cavitys are spaced from each other by the permeable barrier film 18 of steam; Dehumidifying and cooling device 19.Lead to first and export 3 as flow through cavity 12 by first filter 8, heat exchanger 10 and first humidity exchanger 11 of first air first pipeline 20 at first inlet, 2 extraneous airs that enter.Flow through as second air second pipeline 21 at second inlet, 4 waste gas that enter and to lead to second by the cavity 16 of second filter 9, second humidity exchanger 15 and heat exchanger 10 and export 5.In addition, device comprises the air loop 22 of sealing, and in described air loop, the 3rd air stream that is driven by three fan 23 cycles through the cavity 13 of first humidity exchanger 11 and the cavity 17 of second humidity exchanger 15.The 3rd air stream preferably flows in the mode with respect to first and second air stream adverse current, as passing through shown in the arrow of

fan

6,7,23 in the drawings.The

barrier film

14 or 18 that two

humidity exchangers

11 and 15 steam can see through is permeable for hydrone, but is impervious for air.The exchange of moisture in

humidity exchanger

11 and 15 carried out with passive form, that is to say, do not have the supply of energy.Two

filters

8 and 9 comprise coarse grain filter 24 and electrofilter 25.Coarse grain filter 24 prevents that insect or any bigger dirt particles from entering electrofilter 25.Electrofilter 25 prevents that dust and other dirt from entering heat exchanger 10 and/or reach on the barrier film of humidity exchanger.Heat exchanger 10 is preferably heat-exchangers of the plate type.Electrofilter 25 also can be integrated in the heat exchanger 10, as for example described in the WO 2004085946.At dehumidifying and cooling device 19 inner accumulated used heat.For this used heat is distributed to environment, be provided with the 3rd pipeline 26, extraneous air is supplied with dehumidifying and cooling device 19 by described the 3rd pipeline, and described extraneous air absorbs used heat, and it is distributed to environment.For example, as shown, the 3rd pipeline 26 feeds second pipeline 21 in the upstream of second outlet 5.In this example, in pipeline 26, be provided with the 4th fan 27, so that make the extraneous air stream of cooling flow through dehumidifying and cooling device 19.When as in example, when first fan 6 is set directly at the downstream of first inlet 2, also can omit the 4th fan 27 according to Fig. 2.

Among first embodiment shown in Figure 1, dehumidifying and cooling device 19 are arranged between the cavity 13 of the cavity 17 of second humidity exchanger 15 and first humidity exchanger 11, and are arranged in the air loop 22.

Shown in figure 2 among second embodiment, dehumidifying and cooling device 19 are arranged on the downstream of second filter 9, but be arranged on the upstream of second cavity 16 and be arranged in second pipeline 21, perhaps dehumidifying and cooling device 19 ' are arranged on first and export 3 upstream and be arranged in first pipeline 21, and perhaps two dehumidifying and cooling device 19 and 19 ' are arranged on described place.

In the embodiment shown in Fig. 1 and 2, be provided with heat exchanger 10, in case the heat between exchange waste gas and the extraneous air, and have two

humidity exchangers

11 and 15, so that exchange moisture with the 3rd air stream.In two additional embodiments shown in Fig. 3 and 4, in described embodiment, two

humidity exchangers

11 and 15 exchange moisture and enough heats, making does not need independent heat exchanger.

First pipeline 20 and second pipeline 21 are the part of device, and as shown in the figure, on the other hand, they are connected with environment or space by additional exterior line.

By two humidity exchanger work, described two humidity exchangers are by the air loop 22 couplings connection of sealing according to the device of Fig. 1 to 4, make the exchange that can regulate moisture.Fig. 5 illustrates an embodiment, in described embodiment, exchange of moisture between first air stream and second air stream is carried out by means of unique humidity exchanger 28, described humidity exchanger has the cavity 29 that is arranged in first pipeline and is arranged on the interior cavity 30 of second pipeline, and described

cavity

29,30 separates by the permeable barrier film 31 of steam.But the use of unique humidity exchanger of this version or another version also is possible in all other embodiment.

According to the present invention, in all other embodiment,, make the first of waste gas flow through the 4th pipeline 32 as the 3rd air stream as on the embodiment of Fig. 5, illustrating, handle this waste gas and it is supplied with the space once more.The 3rd air stream is called recycled air stream in technical term.The processing of the 3rd air stream is carried out by means of another dehumidifying and cooling device 33, and described dehumidifying and cooling device make form from the three air stream condensation of moisture with water.The 4th pipeline 32 has inlet, optionally filter 34, fan 35, dehumidifying and cooling device 33 and outlet.Inlet directly is connected with the space, perhaps as shown in the figure, directly is connected with second pipeline 21 in the downstream of the inlet 4 of second pipeline.Outlet directly in the feeding space, perhaps as shown, directly feeds in first pipeline 20 in the downstream of the outlet 3 of first pipeline.Advantageously, filter 34 comprises coarse grain filter and electrofilter.

According to the present invention, in according to the embodiment of Fig. 1 to 4, also be provided with such recycled air stream.

In order to carry various air stream, need a plurality of fans.Number of fans and the setting in device 1 can change according to concrete embodiment.Current device 1 is applicable to enforcement the method according to this invention.They can be regarded as the embodiment that can change in the scope of those skilled in the art's professional knowledge.

At the humidity exchanger shown in Fig. 1 to 5 is the humidity exchanger with two cavitys that separate by the permeable barrier film of steam, and therefore in described two cavitys, the exchange of humidity is passed barrier film and carried out.Alternately also can utilize humidity exchanger, the humidity exchanger that for example has the absorption and desorption process, the such humidity exchanger that perhaps has absorption and degassing procedure based on other physical principle.

Described device 1 can switch between two mode of operations that are called work in winter and work in summer.Now, elaborate this two mode of operations:

Work in winter

Device 1 moisture that will in waste gas, contain and heat transferred extraneous air.First fan 6 is conveyed into extraneous air in the space, and second fan 7 transfers out the space with waste gas.First fan 6 can be arranged in first pipeline 20 Anywhere, and second fan 7 can be arranged in second pipeline 21 Anywhere.Three fan 23 makes the circulation in the air loop 22 of sealing of air stream.Dehumidifying and cooling device 19 are closed, and that is to say, air flows through dehumidifying and cooling device 19, but does not discharge moisture and heat.

Work in summer

Device 1 will be externally the part of the moisture that contains of air pass to waste gas, and the part of the heat of extraneous air is passed to waste gas, that is to say that colder waste gas is used to cool off the extraneous air of heat.The transmission of moisture from the extraneous air to waste gas carried out by means of two

humidity exchangers

11 and 15, and described two humidity exchangers interconnect by the air loop 22 of sealing.Because waste gas can not absorb the moisture of as much as required, so in embodiment according to Fig. 1, the air of circulation stream is additionally dehumidified in air loop 22, that is to say, dehumidifying and cooling device 19 are isolated that part of moisture that can not be absorbed by waste gas and must be separated from the air stream of circulation in air loop 22, so that air-supply has the humidity of hope.In embodiment according to Fig. 2, waste gas is additionally dehumidified, that is to say that dehumidifying and cooling device 19 are isolated so many moisture from waste gas, make that in humidity exchanger 11 isolated moisture can fully pass to waste gas by means of humidity exchanger 15 from extraneous air.Also possible is that two air streams are dehumidified.

First fan 6 is transported to extraneous air in the space, and second fan 7 transfers out the space with waste gas.Dehumidifying and cooling device 19 work, make the air ratio in the exit of dehumidifying and cooling device 19 dehumidify and the air of the porch of cooling device 19 drier and colder.Air according to the embodiment of dehumidifying and cooling device 19, flows described air by three fan 23 or by dehumidifying and cooling device 19 in air loop 22 circulations of sealing.

In addition, that part of waste gas that flows through the 4th pipeline 32 as circulating air is by means of dehumidifying and cooling device 33 coolings and/or dehumidifying, and and then supply space.Circulating air and extraneous air are processed into, and make the air that they will have the temperature and humidity of hope together supply with the space.

Fig. 6 illustrates the functional diagram of the signal of dehumidifying and cooling device 19, and described dehumidifying and cooling device are flow through by pending air stream 38.Dehumidifying and cooling device 19 have cooling zone 36 and optional hot-zone 37 thereafter.In cooling zone 36, air stream 38 is cooled to be lower than the temperature of dew point, makes at least a portion of the moisture that contains at air with the form condensation of water.Discharge gas by means of the air stream of carrying by pipeline 26 in outlet 5 (Fig. 1) supply as mentioned above at this heat that gathers.If be provided with hot-zone 37, the part of the heat that gathers is so directly supplied with discharge gas, and the remainder of the heat that gathers directly or by pipeline 32 is supplied with hot-zone 37, and supplies with then and discharge gas, so that heat the 36 cold air that shed from the cooling zone once more.

Fig. 7 to 10 illustrates the various examples that are used to dehumidify with cooling device 19, and described dehumidifying and cooling device also all comprise hot-zone 37.But also can save hot-zone 37.In this case, the heat that gathers is supplied with and is discharged gas.

Example 1

In the example shown in Figure 7, the cooling of air stream 38 in cooling zone 36 of flowing through dehumidifying and cooling device 19 carried out by means of at least one Peltier's element 39.Two Peltier's elements 39 are shown in this example, and described Peltier's element has cold wall portion 40 and warm wall portion 41.The temperature of cold wall portion 40 is cooled off by supply of electrical energy, wherein observes the temperature that the Peltier's element of back at least is cooled to be lower than the dew-point temperature of leaked-in air along the flow direction of air stream 38.Turn cold along its flow air stream 38 in this cold wall portion 40, wherein as long as the temperature of air stream 38 is lower than dew-point temperature, so in of form on cold wall portion 40 condensation of air stream 38 moistures that contain with water.Water is supplied with by pipeline 42 and is collected basin 43, and perhaps directly environment is given in discharging.Heat that gathers during when air stream 38 turns cold with in humidity condensed and the electric energy that is converted to heat equally of supplying with Peltier's element 39 reach warm wall portion 41.The part of this heat is for example supplied with hot-zone 37 by pipeline 44, and passes to air stream 38 by means of heat exchanger 45 in hot-zone 37, so that will be heated to the temperature of hope at the stream of the air in the hot-zone 37 38.Remaining heat distributes to the air that flows through pipeline 26.Because the temperature of warm wall portion 41 is higher than the temperature of extraneous air, so this is possible.

A particularly advantageous embodiment shown in Figure 8.Dehumidifying and cooling device 19 have a plurality of Peltier's elements 39, and at described Peltier's element place, air is cooled and is dehumidified.Air stream 38 along the cold side of Peltier's element 39 and then also the warm side of at least one in the Peltier's element 39 be directed.That is to say that, hot-zone 37 forms by the warm side of this at least one Peltier's element here.

Winter, dehumidifying and cooling device 19 were not worked usually when working, because extraneous air is relatively dry, and needn't dehumidify.But can use the Peltier's element 39 that exists in this example, so that the air stream of dehumidifying and cooling device 19 is flow through in heating.The air-flow that flows through Peltier's element 39 flows with opposite direction then, makes present wall portion 40 warm and 41 coolings of wall portion.

Example 2

In this example shown in Figure 9, cooling zone 36 comprises compressor 46, heat radiation chamber 47, turbine 48 and condensation chamber 49, wherein the driving shaft of compressor 46 and turbine 48 mutual coupling connection mutually.Compressor 46 is compressed air mechanically, and wherein air warms.When the air of relatively hot flow through heat radiation chamber 47, the air chamber 47 of will dispel the heat was heated to temperature apparently higher than local ambient temperature, made the chamber 47 of dispelling the heat heat can be distributed to environment.The heat that gathers is discharged by the extraneous air that flows through pipeline 26.Therefore, the extraneous air cooling heat dissipation chamber 47 of supply.By this way, from air stream 38, isolate heat.When and then air stream 38 flow through turbine 48, air stream drove turbine 48.Air stream 38 must be done mechanical power when driving turbine 48, make air stream be cooled to below the temperature of dew point.Therefore, cold air cooling condensation chamber 49 makes moisture with form condensation in condensation chamber 49 of water, and collects in the basin 43 accumulating in by pipeline 42, perhaps directly discharging to environment.When air stream 38 left condensation chamber 49, air stream was cold and dry.For heated air flow 38, be supplied to hot-zone 37 in the part of the heat of heat radiation chamber 47 inner accumulated, for example by two by pipeline 44 interconnective heat exchangers 45 and 52.Because the driving shaft of compressor 46 and turbine 48 is the mutual coupling connection mutually, thus turbine 48 drive compression machines 46, feasible only power P=P _K-P _TMust supply with compressor 46 from the outside, wherein measure P _KThe power that expression compressor 46 is required, and P _TThe power that expression turbine 48 provides.

Example 3

In the example shown in Figure 10, dehumidifying and cooling device 19 comprise compressor 46 and vortex tube 53.Compressor 46 compressed air flow 38, and therefore improve the pressure of air, make air stream 38 flow in the vortex tube 53 with big speed.At this, the temperature of air stream 38 increases.The part of heat sheds via pipeline 26 by means of heat exchanger 54.Vortex tube 53 is divided into thermal air current and cold air stream with air stream, and is designed to, and makes the temperature of cold air stream be lower than dew point, so that the moisture that contains at cold air stream is with the form condensation of water.Cold air stream and thermal air current guide the

pipeline

50 or 51 that separates in, so one side can the condensation water outlet, and can for example isolate heat by means of another heat exchanger 55 from thermal current on the other hand.And then cold airflow and thermal current through dehumidifying merge before they leave dehumidifying and cooling device 19 once more.

Claims

1. method that is used for the air-supply of waiting to supply with the space is handled the humidity of the temperature of hope and hope has step:

-make extraneous air flow through first pipeline (20) as the first air stream, and make from the first of the waste gas in space and flow through second pipeline (21) as the second air stream, wherein the moisture between described first air stream and described second air stream is by means of the device exchange that is used to exchange humidity;

-by means of dehumidifying and cooling device (19), make moisture with the form of water from described first air stream and/or described second air flow and/or condensation in being used to exchange the described device of humidity; And

-make the second portion of waste gas flow through another pipeline (32) as the 3rd air stream with another dehumidifying and cooling device (33), and supply with described space once more, wherein in described another dehumidifying and cooling device (33), moisture is with form condensation from described the 3rd air stream of water.

2. the method for claim 1, it is characterized in that, flow through described dehumidifying and cooling device (19) and/or flow through described another dehumidifying and cooling device (33) described air stream dehumidifying and cool off and carry out by means of at least one Peltier's element (39).

3. the method for claim 1 is characterized in that, flow through described dehumidifying and cooling device (19) and/or flow through described another dehumidifying and cooling device (33) described air stream dehumidifying and cool off and carry out as follows:

-by means of the described air stream of compressor (46) compression, wherein said air stream is heated;

-guiding extraneous air circulation over-heat-exchanger, and the heat of compressed air stream distributes to extraneous air by means of described heat exchanger and flows; And

-making compressed air stream decompression by means of turbine (48), wherein compressed air stream is cooled to below the temperature of dew point, so that moisture is isolated as water.

4. the method for claim 1, it is characterized in that, flow through described dehumidifying and cooling device (19) and/or flow through the dehumidifying of described another dehumidifying and the air of cooling device (33) stream and cool off and carry out as follows, promptly compress this air stream by means of compressor (46), and be separated into stream of warm air and cold air stream by means of vortex tube (53), wherein the temperature of cold air stream is lower than dew point, so that moisture is isolated as water.

5. as each described method in the claim 1 to 4, it is characterized in that moisture carries out by means of at least one air-air humidity exchanger in the described exchange that is used for exchanging the device of humidity.

6. device that is used for the air-supply of waiting to supply with the space is handled the humidity of the temperature of hope and hope comprises:

-the first pipeline (20), it has inlet (2), can suck extraneous air by described inlet (2); And outlet (3), described air-supply can be discharged to described space by described outlet (3);

-the second pipeline (21), it has inlet (4), can suck waste gas by described inlet (4); And outlet (5), can discharge to environment discharging gas by described outlet (5);

-be used for the device of the humidity of exchange between first air stream that described first pipeline (20) flows and second air stream that in described second pipeline (21), flows;

-the first dehumidifying and the cooling device (19), described first dehumidifying and cooling device (19) are arranged in described first pipeline (20) or described second pipeline (21), perhaps are arranged on to be used to exchange in the described device of humidity;

-another pipeline (32), it has inlet, and waste gas can be supplied with described inlet from described space; And outlet, described outlet feeds described space or feeds described first pipeline (20) in the upstream of the outlet (3) of first pipeline; And

-another dehumidifying and cooling device (33), it is arranged in another pipeline (32).

7. device as claimed in claim 6, it is characterized in that, be provided with another pipeline (26), by described pipeline (26), described extraneous air can lead to described dehumidifying and cooling device (19) and/or dehumidifying and cooling device (33), and and then lead to environment so that discharge at corresponding dehumidifying and cooling device (19; 33) heat of inner accumulated.

8. as claim 6 or 7 described devices, it is characterized in that at least one in described dehumidifying and the cooling device contains Peltier's element (39), be cooled to be lower than dew point so that will flow through the temperature of the air of described dehumidifying and cooling device.

9. as claim 6 or 7 described devices, it is characterized in that at least one in described dehumidifying and the cooling device contains: compressor (46), so that compressed air; Turbine (48) so that make compressed air stream decompression, and is cooled to be lower than the temperature of dew point in this temperature with air.

10. as claim 6 or 7 described devices, it is characterized in that at least one in described dehumidifying and the cooling device contains compressor (46) and vortex tube (53).

11. as each described device in the claim 6 to 10, it is characterized in that, the described device that is used to exchange humidity comprises at least one air-air humidity exchanger, described air-air humidity exchanger has two cavitys (29,30), and described two cavitys (29,30) separate by the permeable barrier film of steam (31).