CN207471825U - Multifunctional flat sheet heat exchanger - Google Patents

Abstract

The utility model provides a kind of Multifunctional flat sheet heat exchanger, including heat exchange tablet, spectral selection absorbed layer, photic zone, at least one conductive structure and at least one air flow drive device.The tablet that exchanges heat has the first opposite plate face and the second plate face and the pipeline between the first plate face and the second plate face.Pipeline is configured with so that heat transfer medium flows are in wherein.Spectral selection absorbed layer covers the first plate face.Photic zone covers spectral selection absorbed layer, and wherein photic zone and the first plate face is located at the opposite sides of spectral selection absorbed layer respectively.Conductive structure is set in the second plate face.Conductive structure and the second plate face define at least one runner, and with the multiple first through hole being connected with runner.Air flow drive device is set to the side of heat exchange tablet and conductive structure.Air flow drive device is set corresponding to runner.Air flow drive device is configured that the air in extraneous air stream air stream enter runner or in driving runner is driven to be emitted into the external world.

Description

Multifunctional flat sheet heat exchanger

Technical field

The utility model is related to a kind of heat exchanger more particularly to a kind of Multifunctional flat sheet heat exchangers.

Background technology

Traditional flat-plate solar collector is only capable of converting solar radiant energy using the surface of collection flat heat towards the sun It is thermal energy in incoming heat-conducting medium, and collection flat heat is then dissipated backwards to another surface of the sun equipped with provision for thermal insulation to avoid heat It loses, therefore collection flat heat can not be used to carry out thermal-arrest or progress heat exchange backwards to another surface of the sun with by mistake in flat plate collector More heat loss is to the external world or can not allow collection flat heat backwards to another surface of the sun and other thermal energy of external environment (such as heat in air) carries out heat exchange to absorb heat.On the other hand, traditional heat pump or A/C evaporator can not yet It effectively collects solar radiant energy and carries out heat exchange to be converted into solar thermal energy.

204438543 U of Chinese utility model patent CN disclose a kind of absorbable solar radiant energy and to collect other various The heat collector of source energy, but and not specifically disclose the implementation technological means of its heat collector.

Utility model content

The utility model is for a kind of Multifunctional flat sheet heat exchanger, has both and collects solar thermal energy, air heat energy, Yi Jiyi Its internal excessive heat is dissipated to functions such as the external worlds.

An embodiment according to the present utility model, Multifunctional flat sheet heat exchanger include heat exchange tablet, at least one heat conduction knot Structure and at least one air flow drive device.The tablet that exchanges heat has the first opposite plate face with the second plate face and positioned at first Pipeline between plate face and the second plate face.Pipeline is configured with so that heat transfer medium flows are in wherein.Spectral selection absorbed layer covers The first plate face of lid.Photic zone covers spectral selection absorbed layer, and wherein photic zone and the first plate face is located at spectral selection respectively The opposite sides of absorbed layer.At least one conductive structure is set in the second plate face.At least one conductive structure and Two plate faces define at least one runner, and with the multiple first through hole being connected at least one runner.It is described At least one air flow drive device is set to the side of heat exchange tablet and conductive structure.At least one air flow drive device pair At least one runner setting described in Ying Yu.At least one air flow drive device is configured that extraneous air is driven to flow into institute It states the air at least one runner or in driving at least one runner and is emitted into the external world.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, conductive structure includes what is be staggered Multiple protrusions and multiple recess portions, wherein each of the multiple protrusion is separated from each other with the second plate face, and multiple recess portions is every One is engaged in the second plate face.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, the quantity of at least one runner To be multiple, the multiple protrusion each connect adjacent the multiple recess portion one of them is another with the multiple recess portion One, with the second plate face define the multiple runner one of them.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, the multiple first through hole is located at institute It states on multiple protrusions.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, conductive structure include the first plate portion with Multiple second plate portions, wherein the first plate portion is engaged in the second plate face by the multiple second plate portion.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, the quantity of at least one runner To be multiple, wherein the multiple second plate portion is juxtaposed between the first plate portion and the second plate face, and it is the first plate portion, described more A second plate portion and the second plate face define the multiple runner.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, the multiple first through hole is located at the In one plate portion, and respectively positioned at one of them another with the multiple second plate portion of adjacent the multiple second plate portion Between.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, outer cover is further included, covers the second plate Face and conductive structure, wherein outer cover have multiple second through-holes, and the multiple second through-hole passes through the multiple first through hole It is connected at least one runner.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, multiple described the second of the outer cover Through-hole is optionally closed.

In the Multifunctional flat sheet heat exchanger of an embodiment according to the present utility model, at least one air stream drives dress It puts including aerofoil fan, cross flow fan, centrifugal fan, aspiration pump, pressure fan or turbine.

Another embodiment according to the present utility model, Multifunctional flat sheet heat exchanger include two heat exchange tablets, two spectrum Selectively absorbing layers, two photic zones, two conductive structures and at least two air flow drive devices.Described two heat exchange tablets Each with the first opposite plate face and the second plate face and the pipeline between the first plate face and the second plate face.Institute The pipeline of each for stating two heat exchange tablets is configured with so that heat transfer medium flows are in wherein.Described two heat exchange tablets are each other Pivot joint, in the deployed state, described two first plate faces are alongside one another, and flush each other.In closed state, described two One plate face is facing with each other, and is overlapped each other.Described two spectral selection absorbed layers are covered each by described two first plate faces.Institute State two photic zones and be covered each by described two spectral selection absorbed layers, wherein it is described two it is euphotic each with it is corresponding The first plate face respectively be located at corresponding spectral selection absorbed layer opposite sides.Described two conductive structures are respectively arranged at In described two second plate faces, described two conductive structures each with it is corresponding heat exchange tablet the second plate face define to A few runner, and with the multiple through-holes being connected at least one runner.At least two air stream drives dress One of them put be set to described two heat exchange tablets one of them with one of them the one of described two conductive structures Side, and at least two air flow drive device another be set to it is described two heat exchange tablets another with it is described two Another side of conductive structure.At least two air flow drive device corresponds respectively at least two runner and sets It puts, each configuration of at least two air flow drive device is driving extraneous air to flow into corresponding described at least one Air in a runner or in the corresponding at least one runner of driving is emitted into the external world.

Based on above-mentioned, it is empty with the external world that the Multifunctional flat sheet heat exchanger of the utility model can not only absorb solar radiation thermal energy Gas thermal energy, also can be by heat loss excessive in Multifunctional flat sheet heat exchanger to the external world.In other words, the utility model is more Function flat plate heat exchanger has both good thermal-arrest and the efficiency of heat dissipation, therefore helps to increase its application range.

Description of the drawings

Comprising attached drawing to further understand the utility model, and attached drawing is incorporated in this specification and forms this specification A part.The embodiment of the utility model is illustrated, and is used to explain the principle of the utility model together with the description.

Fig. 1 is the schematic diagram of one embodiment Multifunctional flat sheet heat exchanger of the utility model；

Fig. 2 is the partial exploded view of the Multifunctional flat sheet heat exchanger of Fig. 1；

The partial cutaway schematic of heat exchange tablet that Fig. 3 is Fig. 2；

The Multifunctional flat sheet heat exchanger that Fig. 4 and Fig. 5 is respectively Fig. 1 turns to front and rear schematic side view；

Fig. 6 is the partial exploded view of another embodiment Multifunctional flat sheet heat exchanger of the utility model；

Fig. 7 and Fig. 8 is respectively that the unfolded state of another embodiment of the utility model Multifunctional flat sheet heat exchanger is shown with closure It is intended to.

Drawing reference numeral explanation

100、100A、100B：Multifunctional flat sheet heat exchanger；

110：Exchange heat tablet；

111：First plate face；

112：Second plate face；

113：Pipeline；

113a：Entrance；

113b：Outlet；

114：Heat-conducting medium；

120、120a：Conductive structure；

121、121a：Runner；

122、122a：First through hole；

123：Protrusion；

123a：First plate portion；

124：Recess portion；

124a：Second plate portion；

130：Air flow drive device；

140：Spectral selection absorbed layer；

150：Photic zone；

160：Outer cover；

161：Top surface；

162：Second through-hole；

163：Opening；

164：Side wall；

170：Adapter.

Specific embodiment

With detailed reference to the exemplary embodiment of the utility model, the example of exemplary embodiment is illustrated in attached drawing In.Whenever possible, similar elements symbol is used for representing same or similar part in the accompanying drawings and the description.

Fig. 1 is the schematic diagram of one embodiment Multifunctional flat sheet heat exchanger of the utility model.Fig. 2 is the multifunctional flat of Fig. 1 The partial exploded view of heat exchanger.The partial cutaway schematic of heat exchange tablet that Fig. 3 is Fig. 2.It please refers to Fig.1 to Fig. 3, at this In embodiment, Multifunctional flat sheet heat exchanger 100 includes heat exchange tablet 110, conductive structure 120 and at least one air stream drives dress 130 (schematically illustrating multiple) are put, wherein heat exchange tablet 110 can be pressed by two blocks of heat conduction planks, and heat conduction plank Material can be copper, aluminium, other metal or alloy.The tablet 110 that exchanges heat has opposite the first plate face 111 and the second plate face 112, And the pipeline 113 between the first plate face 111 and the second plate face 112.That is, pipeline 113 is located at heat exchange tablet 110 Inside, and there is in response to actual demand corresponding circuit design.First plate face 111 is to towards the sun, and by solar radiation The heat-conducting medium 114 that thermal energy can be converted to be passed in pipeline 113.Furthermore, pipeline 113 is configured with for heat-conducting medium 114 flowings are in wherein, and heat-conducting medium 114 can be liquid, gas, refrigerant or other heat-conducting fluids.Typically, pipeline 113 have opposite entrance 113a and outlet 113b, and the wherein heat-conducting medium 114 of low temperature enters pipeline 113 from entrance 113a, and The heat-conducting medium 114 of high temperature is converted into after heat absorption and exports 113b outflow pipelines 113 certainly.In contrast, the heat conduction of high temperature is situated between Matter 114 can enter pipeline 113 from entrance 113a, and be converted into after heat release the heat-conducting medium 114 of low temperature and export 113b certainly Flow out pipeline 113.

Multifunctional flat sheet heat exchanger 100 further includes spectral selection absorbed layer 140 and photic zone 150, wherein optical electivity Property absorbed layer 140 cover the first plate face 111, and can be selective solar spectrum absorbed layer, be configured to absorb solar radiation Can and solar radiant energy be partially converted to thermal energy or the electric energy that is partially converted to by solar radiant energy, and make thermal energy via One plate face 111 is passed to the heat-conducting medium 114 in pipeline 113.On the other hand, photic zone 150 covers spectral selection absorbed layer 140, wherein photic zone 150 is located at the opposite sides of spectral selection absorbed layer 140 with heat exchange tablet 110 respectively.Photic zone 150 Sunlight can not only be allowed to pass through, can also reduce heat loss and prevent spectral selection absorbed layer 140 from being destroyed by external force.

Conductive structure 120 is set in the second plate face 112, and can pass through sweat soldering, ultrasonic bonding, laser welding, change It learns the modes such as fitting or machinery fitting and is fixed in the second plate face 112, and then at least one runner is defined with the second plate face 112 121 (schematically illustrating multiple).The material of conductive structure 120 can be copper, aluminium, other metal or alloy, in the present embodiment, lead Heat structure 120 can be wavelike structure, and with the multiple first through hole 122 being connected respectively with the multiple runner 121.Into For one step, conductive structure 120 includes the multiple protrusions 123 being staggered and multiple recess portions 124, wherein each protrusion 123 It is separated from each other with the second plate face 112, and each recess portion 124 is engaged in the second plate face 112.Wantonly two adjacent recess portions 124 are by it In a protrusion 123 connected, to define one of runner 121 with the second plate face 112.In other words, wantonly two is adjacent Protrusion 123 is connected by one of recess portion 124.On the other hand, the multiple first through hole 122 is located at the multiple convex respectively In portion 123, because each protrusion 123 and the second plate face 112 are separated from each other, the connection of first through hole 122 and corresponding runner 121 Degree can be enhanced.In other embodiments, the quantity of conductive structure can be two or more, and be stacked in the second plate face.

The multiple air flow drive device 130 can be aerofoil fan, cross flow fan, centrifugal fan, aspiration pump, pressure fan Or turbine, and it is set to the side of heat exchange tablet 110 and conductive structure 120.In the present embodiment, air flow drive device 130 It can be carried, and be for example disposed in the second plate face 112 by heat exchange tablet 110.Furthermore, the multiple air stream drives Device 130 corresponds respectively to the multiple runner 121 and sets, and be can be respectively by institute with the air in the multiple runner 121 Multiple air stream drives are stated to fill 130 and be emitted into and extraneous for setting principle or fill 130 with the multiple air stream drives and can drive Extraneous air is separately flowed into the multiple runner 121 as setting principle.

Several operating mechanisms of the multiple air flow drive device 130 are described as follows：Heat-conducting medium in pipeline 113 When 114 temperature is less than the temperature of extraneous air, the multiple air flow drive device 130 can be started to drive extraneous air It flows into the multiple runner 121, makes the thermal energy of air in the multiple runner 121 of inflow via conductive structure 120 and Two plate faces 112 are passed to the heat-conducting medium 114 in pipeline 113；Thermal energy is converted to when the first plate face 111 absorbs solar radiation energy simultaneously Heat-conducting medium 114 in incoming pipeline 113, and the temperature of the heat-conducting medium 114 in pipeline 113 is made to be higher than extraneous air During temperature, the multiple air flow drive device 130 can be closed, to reduce the heat of the heat-conducting medium 114 in pipeline 113 via leading 120 and second plate face of heat structure, 112 loss is to the external world；When 114 temperature of heat-conducting medium in pipeline 113 is higher than extraneous air Temperature, and when the temperature of the heat-conducting medium 114 in pipeline 113 has excessively high doubt, the multiple air stream drives dress can be started It puts 130 to flow into the multiple runner 121 with the extraneous air of driving, makes the air in the multiple runner 121 of inflow with leading 120 and second plate face 112 of heat structure carries out heat exchange with the heat of the heat-conducting medium 114 in extraction duct 113, and then will be excessive Heat loss to the external world.Also therefore, the Multifunctional flat sheet heat exchanger 100 of the present embodiment has both good thermal-arrest and the effect of heat dissipation Rate, therefore help to increase its application range.

Furthermore, when starting the multiple air flow drive device 130 to by the air in the multiple runner 121 When being emitted into the external world, extraneous air can flow into the multiple runner 121 from the multiple first through hole 122.On the other hand, when When starting the multiple air flow drive device 130 extraneous air is sent into the multiple runner 121, it is sent into described more Air in a runner 121 can be emitted into the external world from the multiple first through hole 122.That is, the multiple air stream drives Device 130 can be used to improve the flow efficiency of the air inside and outside the multiple runner 121.In the present embodiment, multifunctional flat Configuration outer cover 160 may be selected in heat exchanger 100, to cover the second plate face 112 and conductive structure 120, prevent the second plate face 112 with Conductive structure 120 is destroyed by external force.On the other hand, outer cover 160 can be as the heat shield made by low thermal conductivity material, not only Can avoid the heat losses inside Multifunctional flat sheet heat exchanger 100, prevented also from user or other people be burned.The top of outer cover 160 Face 161 have multiple second through-holes 162, and the multiple second through-hole 162 by the multiple first through hole 122 with it is described more A runner 121 is connected.That is, the setting of outer cover 160 has no effect on the stream of the air inside and outside the multiple runner 121 It is dynamic.In addition, outer cover 160 is opening 163 towards the side of the multiple air flow drive device 130, thus do not interfere with described more The flowing of air inside and outside a runner 121, other three sides of connection top surface 161 is abut against with the second plate face 121 in outer cover 160 Side wall 164 is only capable of flowing into outer cover 160 or outside outer cover 160 with the second through-hole 162 by opening 163 to limit air. It illustrates, outer cover 160 may correspond to the multiple the second through-hole 162 and set multiple shield (not shown), described more A shield (not shown) can be used to close or semi-closed the multiple the second through-hole 162, to limit air flowing.

The Multifunctional flat sheet heat exchanger that Fig. 4 and Fig. 5 is respectively Fig. 1 turns to front and rear schematic side view.It illustrates, For the Multifunctional flat sheet heat exchanger 100 of Fig. 1 in Fig. 4 with being schematically illustrated in Fig. 5 with square, concrete structure can refer to the above, It is not repeated in this.It please refers to Fig.4 and Fig. 5, Multifunctional flat sheet heat exchanger 100 (can schematically illustrate the switching of pedestal by pedestal It is first 170) to stand on above the ground, and can be rotated by adapter 170 relative to ground.The first plate face 111 in Fig. 4 is, for example, face To the sun, the temperature inside Multifunctional flat sheet heat exchanger 100 is excessively high, and needs to start the multiple air flow drive device 130 Being radiated (makes extraneous air flow into the multiple runner 121 and carry out heat with 120 and second plate face 112 of conductive structure It exchanges, and by air after the heat of the heat-conducting medium 114 in flowing into the air extraction duct 113 in the multiple runner 121 The external world is emitted into, even if excessive heat loss is to the external world) when, Multifunctional rotatable flat plate heat exchanger 100 changes its angle, makes Sunlight can not be projected in the first plate face 111, as shown in Figure 5.

Fig. 6 is the partial exploded view of another embodiment Multifunctional flat sheet heat exchanger of the utility model.Please refer to Fig. 6, The Multifunctional flat sheet heat exchanger 100A of the present embodiment and the Multifunctional flat sheet heat exchanger 100 of above-described embodiment are substantially similar, below The explanation of same technique content is omitted, only with regard to explanation at difference.Explanation about clipped can refer to above-described embodiment, not weigh It repeats again.Specifically, the conductive structure 120a of Multifunctional flat sheet heat exchanger 100A is different from Multifunctional flat sheet heat exchanger 100 Conductive structure 120, conductive structure 120a include the first plate portion 123a and multiple second plate portion 124a, wherein the first plate portion 123a with Second plate face 112 is separated from each other, and is, for example, parallel each other.First plate portion 123a is engaged by the multiple second plate portion 124a In the second plate face 112, wherein the multiple second plate portion 124a be juxtaposed on the first plate portion 123a and the second plate face 112 it Between, and the multiple second plate portion 124a can be perpendicular to the first plate portion 123a and the second plate face 112.Each runner 121a It is located at the part and second of wantonly two the second adjacent plate portion 124a by wantonly two the second adjacent plate portion 124a, the first plate portion 123a The part that plate face 112 is located at wantonly two the second adjacent plate portion 124a is defined, wherein the multiple first through hole 122a is located at the On one plate portion 123a, and respectively positioned at one of them and the multiple second plate portion of adjacent the multiple second plate portion 124a Between another of 124a.

Fig. 7 and Fig. 8 is respectively that the unfolded state of another embodiment of the utility model Multifunctional flat sheet heat exchanger is shown with closure It is intended to.Fig. 7 and Fig. 8 are please referred to, in the present embodiment, the internal structure of Multifunctional flat sheet heat exchanger 100B can be with multifunctional flat The internal structure of heat exchanger 100 it is similar or to the internal structure of Multifunctional flat sheet heat exchanger 100A similar or Multifunctional flat The combination of the internal structure of sheet heat exchanger 100 and 100A.Be below be articulated using Multifunctional flat sheet heat exchanger 100B as two it is more Function flat plate heat exchanger 100 is for example, in the deployed state, two heat exchange tablets 110 being articulated are alongside one another, wherein institute The first plate face 111 for stating two heat exchange tablets 110 is alongside one another, and flushes each other.At this point, described two first plate face, 111 faces To sunlight.Described two heat exchange 110 relative rotation of tablet is made to be converted with open state of bootstrapping to closed state, in closed state, Described two first plate faces 111 are facing with each other, and are overlapped each other so that sunlight can not be projected to described two first plate faces 111. At this point, it can be towards sunlight to cover in the outer cover 160 in one of them second plate face 112, cover in another the second plate face Outer cover 160 on 112 can be sunlight, and can start the multiple air flow drive device 130 to drive extraneous sky backwards Gas is flowed into the multiple runner 121 (see Fig. 2), makes the air and conductive structure in the multiple runner 121 (see Fig. 2) of inflow 120 (see Fig. 2) and the second plate face 112 carry out heat exchange with the heat-conducting medium 114 in extraction duct 113 (see Fig. 2) (see Fig. 3) Heat, and then by excessive heat loss to the external world.

It, also can be in conclusion the Multifunctional flat sheet heat exchanger of the utility model can not only absorb solar radiation thermal energy In the case that temperature inside Multifunctional flat sheet heat exchanger is too low, by air flow drive device by other external environment thermal energy (examples Such as the thermal energy of air) it imports inside Multifunctional flat sheet heat exchanger and is absorbed or inside Multifunctional flat sheet heat exchanger Temperature it is excessively high in the case of, extraneous air is imported inside Multifunctional flat sheet heat exchanger to carry out by air flow drive device Heat exchange, and then by excessive heat loss to the external world.In other words, the Multifunctional flat sheet heat exchanger of the utility model has both good Good thermal-arrest and the efficiency of heat dissipation, therefore help to increase its application range.

Finally it should be noted that：The above various embodiments is only to illustrate the technical solution of the utility model rather than it is limited System；Although the utility model is described in detail with reference to foregoing embodiments, those of ordinary skill in the art should Understand：It can still modify to the technical solution recorded in foregoing embodiments either to which part or whole Technical characteristic carries out equivalent replacement；And these modifications or replacement, this practicality that it does not separate the essence of the corresponding technical solution are new The range of each embodiment technical solution of type.

Claims (11)

1. a kind of Multifunctional flat sheet heat exchanger, which is characterized in that including：

Exchange heat tablet, has the first opposite plate face with the second plate face and positioned at first plate face and second plate face Between pipeline, pipeline configuration is with so that heat transfer medium flows are in wherein；

Spectral selection absorbed layer covers first plate face；

Photic zone covers the spectral selection absorbed layer, wherein the photic zone and first plate face are respectively positioned at described The opposite sides of spectral selection absorbed layer；

At least one conductive structure is set in second plate face, at least one conductive structure and second plate face circle At least one runner is made, and with the multiple first through hole being connected at least one runner；And

At least one air flow drive device is set to the side of the heat exchange tablet and the conductive structure, described at least one Air flow drive device corresponds at least one runner setting, and at least one air flow drive device configuration is outer to drive The air that the air on boundary flows at least one runner or in driving at least one runner is emitted into the external world.

2. Multifunctional flat sheet heat exchanger according to claim 1, which is characterized in that the conductive structure includes being staggered Multiple protrusions and multiple recess portions, wherein each of the multiple protrusion is separated from each other with second plate face, and described more Each of a recess portion is engaged in second plate face.

3. Multifunctional flat sheet heat exchanger according to claim 2, which is characterized in that the quantity of at least one runner is It is multiple, the multiple protrusion each connect adjacent the multiple recess portion one of them is another with the multiple recess portion It is a, with second plate face define the multiple runner one of them.

4. Multifunctional flat sheet heat exchanger according to claim 2, which is characterized in that the multiple first through hole is located at described On multiple protrusions.

5. Multifunctional flat sheet heat exchanger according to claim 1, which is characterized in that the conductive structure includes the first plate portion With multiple second plate portions, wherein first plate portion is engaged in second plate face by the multiple second plate portion.

6. Multifunctional flat sheet heat exchanger according to claim 5, which is characterized in that the quantity of at least one runner is It is multiple, wherein the multiple second plate portion is juxtaposed between first plate portion and second plate face, and described first Plate portion, the multiple second plate portion and second plate face define the multiple runner.

7. Multifunctional flat sheet heat exchanger according to claim 5, which is characterized in that the multiple first through hole is located at described In first plate portion, and one of them positioned at adjacent the multiple second plate portion is another with the multiple second plate portion respectively Between a.

8. Multifunctional flat sheet heat exchanger according to claim 1, which is characterized in that further include：

Outer cover covers second plate face and the conductive structure, wherein the outer cover has multiple second through-holes, and described more A second through-hole is connected by the multiple first through hole at least one runner.

9. Multifunctional flat sheet heat exchanger according to claim 8, which is characterized in that the multiple the second of the outer cover is logical Hole is optionally closed.

10. Multifunctional flat sheet heat exchanger according to claim 1, which is characterized in that at least one air stream drives dress It puts including aerofoil fan, cross flow fan, centrifugal fan, aspiration pump, pressure fan or turbine.

11. a kind of Multifunctional flat sheet heat exchanger, which is characterized in that including：

Two heat exchange tablets, each of described two heat exchange tablets is with the first opposite plate face and the second plate face, Yi Jiwei Pipeline between first plate face and second plate face, the pipeline of each configuration of described two heat exchange tablets With so that heat transfer medium flows are in wherein, described two heat exchange tablets are frames rotatably mounted relative to one another, in the deployed state, described two first plates Face is alongside one another, and flushes each other, and in closed state, described two first plate faces are facing with each other, and are overlapped each other；

Two spectral selection absorbed layers are covered each by described two first plate faces；

Two photic zones are covered each by described two spectral selection absorbed layers, wherein it is described two it is euphotic each with Corresponding first plate face is located at the opposite sides of the corresponding spectral selection absorbed layer respectively；

Two conductive structures are respectively arranged in described two second plate faces, described two conductive structures each with it is corresponding Second plate face of the heat exchange tablet define at least one runner, and with being connected at least one runner Logical multiple through-holes；And

At least two air flow drive devices, one of them of at least two air flow drive device are set to described two heat exchange One of them of tablet and the side of one of them of described two conductive structures, and at least two air flow drive device Another is set to another another side with described two conductive structures of described two heat exchange tablets, it is described at least Two air flow drive devices correspond respectively at least two runner setting, at least two air flow drive device it is each A configuration to drive extraneous air flow into corresponding at least one runner or driving it is corresponding it is described at least Air in one runner is emitted into the external world.