CN108398037A - A kind of high-performance heat exchanger flow passage structure, air conditioner and heat-exchange method - Google Patents

Abstract

The present invention provides a kind of high-performance heat exchanger flow passage structure, air conditioner and heat-exchange methods, are related to air-conditioning technical field of heat exchange.The high-performance heat exchanger flow passage structure includes the first lateral line and the second lateral line.First heat exchange tube assemblies and the second heat exchange tube assemblies combine to form heat exchange flow path, heat exchange flow path includes the first heat exchanging segment and the second heat exchanging segment being connected with each other, when heat transferring medium flows in the flow path that exchanges heat, it can flow to relative to external air flow fair current along first in the first heat exchanging segment, can also be flowed to relative to external air flow adverse current along second in the second heat exchanging segment.Compared with heat exchanger in the prior art, first heat exchanging segment and second heat exchanging segment of the high-performance heat exchanger flow passage structure provided by the invention as a result of interconnection, so fair current and adverse current of the heat transferring medium relative to air-flow direction in the flow path that exchanges heat can be realized, along inverse mixed flow, improve heat exchange amount, heat exchange efficiency is high, good effect of heat exchange.

Description

A kind of high-performance heat exchanger flow passage structure, air conditioner and heat-exchange method

Technical field

The present invention relates to air-conditioning technical field of heat exchange, more particularly to a kind of high-performance heat exchanger flow passage structure, air conditioner and Heat-exchange method.

Background technology

Heat exchanger is the equipment that the partial heat of hot fluid is passed to cold fluid, also known as heat exchanger.Heat exchanger is being changed It is occupied an important position in work, oil, power, food and other many industrial productions, heat exchanger can be used as in Chemical Manufacture Heater, cooler, condenser, evaporator and reboiler etc., are widely used.Heat exchanger be a kind of two kinds in different temperatures or Between two or more fluids realize material between heat transfer energy-saving equipment, be that heat is made to pass to temperature by the higher fluid of temperature Lower fluid is spent, fluid temperature (F.T.) is made to reach the index of flow specification, to meet the needs of process conditions, while being also to improve energy One of capital equipment of source utilization rate.Heat exchanger industry is related to HVAC, pressure vessel, sewerage disposing equipment, and chemical industry, oil etc. is closely 30 multi industries, mutually form industry chain (supply chain).

Now, flow direction of the refrigerant in heat exchanger is generally two kinds, and one is, realities identical as the flow direction of air The fair current of existing refrigerant；Another kind is the flow direction with air on the contrary, realizing the adverse current of refrigerant.Inventor the study found that no matter It is fair current or adverse current, the heat exchange amount of heat exchanger is relatively low, and the effect of heat exchange is also poor.

Invention content

In view of this, the present invention is directed to propose a kind of high-performance heat exchanger flow passage structure, refrigerant can be realized relative to sky The fair current in flow of air direction and adverse current improve heat exchange amount, and heat exchange efficiency is high, good effect of heat exchange.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：

A kind of high-performance heat exchanger flow passage structure, including the first lateral line and the second lateral line, the first lateral line and the second side Pipeline is set up in parallel；First lateral line includes at least first heat exchange tube assemblies of row, and the second lateral line includes an at least row second Heat exchange tube assemblies, the first heat exchange tube assemblies and the second heat exchange tube assemblies combine the heat exchange flow path to be formed for fluid interchange medium, Heat exchange flow path includes the first heat exchanging segment and the second heat exchanging segment being connected with each other；First heat exchanging segment is for making heat transferring medium along first-class To flowing, wherein first flows to as the first heat exchange tube assemblies to the direction of the second heat exchange tube assemblies, and the first flow direction is along outer The direction of boundary's air flow direction；Second heat exchanging segment is for making heat transferring medium along the second flow direction flowing, wherein the second flow direction is changed for second Heat pipe assembly is to the direction of the first heat exchange tube assemblies, and the second flow direction is the direction flowed to against external air flow.

Further, the first heat exchanging segment wriggles to be arranged from the first heat exchange tube assemblies to the second heat exchange tube assemblies and be formed, so that For heat transferring medium along the first flow direction flowing, the second heat exchanging segment wriggles from the second heat exchange tube assemblies to the first heat exchange tube assemblies is arranged shape At so that heat transferring medium is along the second flow direction flowing.

Further, the first heat exchange tube assemblies include multiple first heat exchanger tubes, and the second heat exchange tube assemblies include multiple second Heat exchanger tube, second heat exchanger tube of first heat exchanging segment from the first heat exchanger tube of the first heat exchange tube assemblies to the second heat exchange tube assemblies is in straight Line or broken line are in turn connected to form, and the second heat exchanging segment is from the second heat exchanger tube of the second heat exchange tube assemblies to the first heat exchange tube assemblies The first heat exchanger tube linearly or broken line be in turn connected to form.

Further, multiple first heat exchanger tube parallel intervals setting, multiple second heat exchanger tube parallel intervals settings, one the One heat exchanger tube is connected to another adjacent first heat exchanger tube or adjacent second heat exchanger tube, second heat exchanger tube with Another adjacent second heat exchanger tube or adjacent the first heat exchanger tube connection.

Further, the first heat exchanger tube is in J-shaped, and the first heat exchanger tube includes straight-through portion and bending part, one end of bending part with Straight-through portion connects, and the other end of bending part connects with another adjacent first heat exchanger tube or adjacent second heat exchanger tube It connects.

Further, the quantity of the first heat exchanging segment is multiple, and the quantity of the second heat exchanging segment is multiple, multiple first heat exchanging segments It is arranged in a crossed manner with multiple second heat exchanging segments.

Further, the first lateral line includes the first heat exchange tube assemblies of multiple row, and the first heat exchange tube assemblies of multiple row shift to install, Second lateral line includes the second heat exchange tube assemblies of multiple row, and the second heat exchange tube assemblies of multiple row shift to install.

Further, high-performance heat exchanger flow passage structure is the flow passage structure of air-conditioning heat exchanger, and external air flow flow direction is air-conditioning Fan blows out the direction of air-flow.

Compared with the existing technology, high-performance heat exchanger flow passage structure of the present invention has the advantage that：

High-performance heat exchanger flow passage structure of the present invention, heat exchange flow path include the first heat exchanging segment and second being connected with each other Heat exchanging segment when heat transferring medium flows in the flow path that exchanges heat, can be flowed to along first relative to external air flow in the first heat exchanging segment Fair current can also be flowed to along second relative to external air flow adverse current in the second heat exchanging segment.With heat exchanger phase in the prior art Than, high-performance heat exchanger flow passage structure provided by the invention as a result of the first heat exchanging segment and the second heat exchanging segment of interconnection, So fair current and adverse current of the heat transferring medium relative to air-flow direction in the flow path that exchanges heat can be realized, along inverse mixed interflow It is dynamic, heat exchange amount is improved, heat exchange efficiency is high, good effect of heat exchange.

Another object of the present invention is to propose a kind of air conditioner, refrigerant can be realized relative to air-flow direction Fair current and adverse current improve heat exchange amount, and heat exchange efficiency is high, good effect of heat exchange, and user experience is more preferable.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：

A kind of air conditioner, including fan, shell and include above-mentioned high-performance heat exchanger flow passage structure heat exchanger, fan It is mounted in shell with heat exchanger, fan is used to blow out air-flow to heat exchanger.

Compared with the existing technology, air conditioner of the present invention has the advantage that：

Air conditioner of the present invention, including high-performance heat exchanger flow passage structure, it is simple in structure, it can realize that heat transferring medium exists The fair current relative to air-flow direction and adverse current improve heat exchange amount, heat exchange efficiency along inverse mixed flow in heat exchange flow path Height, good effect of heat exchange, user experience are more preferable.

Possessed advantage is identical compared with the existing technology with above-mentioned air conditioner for the high-performance heat exchanger flow passage structure, herein It repeats no more.

Another object of the present invention is to propose a kind of heat-exchange method, by refrigerant relative to air-flow direction progress fair current And adverse current, heat exchange amount is improved, heat exchange efficiency is high, good effect of heat exchange.

In order to achieve the above objectives, the technical proposal of the invention is realized in this way：

A kind of heat-exchange method, for exchanging heat to external air flow, heat-exchange method includes：By heat transferring medium along first-class To flowing, wherein the first flow direction is identical as the direction of external air flow；Heat transferring medium is flowed along the second flow direction, wherein second Flow direction is opposite with the direction of external air flow.

Further, advanced to be about to the step of heat transferring medium is flowed along the first flow direction again into being about to heat transferring medium along the The step of two flow direction flowings, advanced is about to the step of heat transferring medium is flowed along the second flow direction again into being about to heat transferring medium edge The step of the first flow direction flowing.

Further, heat-exchange method further includes：Heat transferring medium is alternately flowed into the step of flowing along first and is incited somebody to action The step of heat transferring medium is flowed along the second flow direction.

Compared with the existing technology, heat-exchange method of the present invention has the advantage that：

Heat-exchange method of the present invention is applied to high-performance heat exchanger flow passage structure, can be by heat transferring medium relative to sky Flow of air direction carries out fair current and adverse current, along inverse mixed flow, improves heat exchange amount, heat exchange efficiency is high, good effect of heat exchange, user Experience sense is more preferable.

Possessed advantage is identical compared with the existing technology with above-mentioned heat-exchange method for the high-performance heat exchanger flow passage structure, This is repeated no more.

Description of the drawings

The attached drawing for constituting the part of the present invention is used to provide further understanding of the present invention, schematic reality of the invention Example and its explanation are applied for explaining the present invention, is not constituted improper limitations of the present invention.In the accompanying drawings：

Fig. 1 is the structural schematic diagram of air conditioner provided in an embodiment of the present invention；

Fig. 2 is the structural schematic diagram of heat exchanger in air conditioner provided in an embodiment of the present invention；

Fig. 3 is the first lateral line and the second side piping connection in high-performance heat exchanger flow passage structure provided in an embodiment of the present invention Structural schematic diagram；

Fig. 4 is the structural schematic diagram of the first heat exchanger tube in Fig. 3；

Fig. 5 is the flow chart of heat-exchange method provided in an embodiment of the present invention.

Reference sign：

10- air conditioners；100- heat exchangers；110- fins；120- high-performance heat exchanger flow passage structures；The first lateral lines of 130-； The first heat exchange tube assemblies of 131-；The first heat exchanger tubes of 132-；1321- straight-through portions；1323- bending parts；140- heat exchange flow paths；141- One inlet and outlet；142- second import and exports；The first heat exchanging segments of 143-；The second heat exchanging segments of 144-；The second lateral lines of 150-；151- second Heat exchange tube assemblies；The second heat exchanger tubes of 152-；200- shells；300- fans.

Specific implementation mode

It should be noted that in the absence of conflict, the feature in embodiment and embodiment in the present invention can phase Mutually combination.

The present invention will be described in detail below with reference to the accompanying drawings and embodiments.

Embodiment

Fig. 1 is please referred to, an embodiment of the present invention provides a kind of air conditioners 10, for being freezed or being heated work to interior Make.Its is simple in structure, can realize fair current and adverse current of the refrigerant relative to air-flow direction, improves heat exchange amount, heat exchange effect Rate is high, good effect of heat exchange, and user experience is more preferable.The air conditioner 10 includes heat exchanger 100, shell 200 and fan 300.Fan 300 and heat exchanger 100 be installed in shell 200, to exchange heat to external air flow.Fan 300 from ambient inlet air, and to Heat exchanger 100 blows out air-flow, and heat exchanger 100 exchanges heat to the air-flow, and the air after heat exchange is transmitted to room by shell 200 It is interior, to achieve the effect that refrigeration or heating.

It is worth noting that, in the present embodiment, heat exchanger 100 is outdoor condenser, it is not limited to this, heat exchanger 100 can also be indoor machine evaporation.

Fig. 2 is please referred to, heat exchanger 100 includes fin 110 and high-performance heat exchanger flow passage structure 120, high-performance heat exchanger flow path Structure 120 is installed in fin 110, and high-performance heat exchanger flow passage structure 120 is the flow passage structure of heat exchanger 100, high-performance heat exchanger The air-flow that flow passage structure 120 is used to blow out fan 300 exchanges heat.Fin 110 is efficiently changed for increasing heat exchange area, raising The heat transfer effect of hot device flow passage structure 120.

High-performance heat exchanger flow passage structure 120 includes the first lateral line 130 and the second lateral line 150.First lateral line 130 with Second lateral line 150 is set up in parallel, and the first lateral line 130 and the second lateral line 150 are mounted in fin 110.

Fig. 3 is please referred to, the first lateral line 130 includes at least first heat exchange tube assemblies of row 131, the second lateral line 150 packet Include at least second heat exchange tube assemblies of row 151.First heat exchange tube assemblies 131 and the combination of the second heat exchange tube assemblies 151 form heat exchange Flow path 140, heat exchange flow path 140 are used for fluid interchange medium.In the present embodiment, heat transferring medium is refrigerant.Heat exchange flow path 140 include The first heat exchanging segment 143 and the second heat exchanging segment 144 being connected with each other.

It is worth noting that, when the first lateral line 130 includes the first heat exchange tube assemblies 131 of multiple row, multiple row first exchanges heat Tube assembly 131 shifts to install, and improves the heat transfer effect of the first lateral line 130.Second lateral line 150 includes the second heat exchanger tube of multiple row Component 151, the second heat exchange tube assemblies of multiple row 151 shift to install, and improve the heat transfer effect of the second lateral line 150.In the present embodiment, First lateral line 130 includes two the first heat exchange tube assemblies of row 131, and the second lateral line 150 includes two the second heat exchange tube assemblies of row 151。

It is worth noting that, the quantity of exchange hot flowpath 140 is not especially limited, heat exchange flow path 140 can be one, Can be a plurality of.In the present embodiment, the quantity of heat exchange flow path 140 is two, i.e., there are two first import and export 141 and two for tool Two inlet and outlet 142, two first import and exports 141 are arranged side by side in the centre position of the first heat exchange tube assemblies 131, for freezing When flow into heat transferring medium, two second import and exports 142 are respectively arranged at the both ends of the first heat exchange tube assemblies 131, for heating When flow into heat transferring medium.It is not limited to this, does not make to have to the position that opens up of first import and export 141 and second import and export 142 Body limits.

In the present embodiment, in refrigeration, heat transferring medium flows into heat exchange flow path 140 from two intermediate first import and exports 141, Heat exchange flow path 140 is flowed out by the second import and export at both ends 142 again, improves refrigerating capacity；In heating, heat transferring medium is from both ends Second import and export 142 flows into heat exchange flow path 140, then by intermediate two first import and exports 141 outflow heat exchange flow path 140, carries High heating capacity.

First heat exchanging segment 143, which wriggles to be arranged from the first heat exchange tube assemblies 131 to the second heat exchange tube assemblies 151, to be formed, so that Heat transferring medium is along the first flow direction flowing.Wherein, the first flow direction is the first heat exchange tube assemblies 131 to the second heat exchange tube assemblies 151 Direction, and first flows to, i.e. heat transferring medium first heat exchanging segment 143 in fair current identical as flowing to for external air flow.

Second heat exchanging segment 144, which wriggles to be arranged from the second heat exchange tube assemblies 151 to the first heat exchange tube assemblies 131, to be formed, so that Heat transferring medium is along the second flow direction flowing.Wherein, the second flow direction is the second heat exchange tube assemblies 151 to the first heat exchange tube assemblies 131 Direction, and the flow direction of the second flow direction and external air flow is on the contrary, i.e. heat transferring medium is in 144 interior adverse current of the second heat exchanging segment.

It is worth noting that, sinuous setting here refers to linearly or broken line is arranged, not to the sinuous line style formed Make specific limit.

First heat exchange tube assemblies 131 include multiple first heat exchanger tubes 132, and the second heat exchange tube assemblies 151 include multiple second Heat exchanger tube 152.First heat exchanging segment 143 is from the first heat exchanger tube 132 of the first heat exchange tube assemblies 131 to the second heat exchange tube assemblies 151 The second heat exchanger tube 152 linearly or broken line is in turn connected to form.Second heat exchanging segment 144 is by the second heat exchange tube assemblies 151 The first heat exchanger tube 132 from second heat exchanger tube 152 to the first heat exchange tube assemblies 131 linearly or broken line is in turn connected to form.

In the present embodiment, multiple first heat exchanger tube, 132 parallel interval settings, multiple second heat exchanger tube, 152 parallel intervals are set It sets.One the first heat exchanger tube 132 connects with another adjacent first heat exchanger tube 132 or adjacent second heat exchanger tube 152 It is logical.One the second heat exchanger tube 152 connects with another adjacent second heat exchanger tube 152 or adjacent first heat exchanger tube 132 It is logical.

In the present embodiment, the first heat exchanging segment 143 is one, and the second heat exchanging segment 144 is one, the first heat exchanging segment 143 and the Two heat exchanging segments 144 connect, it is not limited to this, the quantity of the first heat exchanging segment 143 may be multiple, the second heat exchanging segment 144 Quantity may be multiple, multiple first heat exchanging segments 143 and multiple second heat exchanging segments 144 are arranged in a crossed manner.

It is worth noting that, in first heat exchanging segment 143, at least there are three the first heat exchanger tubes 132 or second Heat exchanger tube 152；In second heat exchanging segment 144, at least there is three the second heat exchanger tubes 152 or the first heat exchanger tube 132.

Fig. 4 is please referred to, the first heat exchanger tube 132 is in J-shaped, and the first heat exchanger tube 132 includes straight-through portion 1321 and bending part 1323. One end of bending part 1323 is connect with straight-through portion 1321, the other end of bending part 1323 and another adjacent first heat exchanger tube 132 or the connection of adjacent second heat exchanger tube 152.

It is worth noting that, straight-through portion 1321 is internally provided with screw thread (not shown), to increase in straight-through portion 1321 The contact area of the heat transferring medium and 1321 outer wall of straight-through portion of flowing, to improve heat exchange efficiency.

In the present embodiment, the concrete structure of the second heat exchanger tube 152 is identical as the concrete structure of the first heat exchanger tube 132, herein It repeats no more.

Fig. 5 is please referred to, the present embodiment additionally provides a kind of heat-exchange method, is applied to high-performance heat exchanger flow passage structure 120, uses It exchanges heat in external air flow.The heat-exchange method includes the following steps：

Step S501：Heat transferring medium is flowed along the first flow direction, wherein the direction phase of the first flow direction and external air flow Together.

In step S501, heat transferring medium is along the first flow direction flowing in the first heat exchanging segment 143, i.e., heat transferring medium is first Fair current in heat exchanging segment 143.

Step S502：Heat transferring medium is flowed along the second flow direction, wherein the direction phase of the second flow direction and external air flow Instead.

In step S502, heat transferring medium is along the second flow direction flowing in the second heat exchanging segment 144, i.e., heat transferring medium is second Adverse current in heat exchanging segment 144.

It is worth noting that, being not especially limited to the sequencing of step S501 and step S502, in the present embodiment, first It carries out step S501 and carries out step S502 again, it is not limited to this, can also first carry out step S502 and carry out step S501 again.

In other embodiments, heat-exchange method further includes：Alternately step S501 and step S502.First heat exchange at this time The quantity of section 143 is multiple, and the quantity of the second heat exchanging segment 144 is multiple, multiple first heat exchanging segments 143 and multiple second heat exchanging segments 144 is arranged in a crossed manner.

High-performance heat exchanger flow passage structure 120 provided in an embodiment of the present invention, heat exchange flow path 140 include first be connected with each other Heat exchanging segment 143 and the second heat exchanging segment 144 can be in the first heat exchanging segments 143 when heat transferring medium flows in the flow path 140 that exchanges heat Along the first flow direction relative to external air flow fair current, can also be flowed to relative to external air flow along second in the second heat exchanging segment 144 Countercurrently.Compared with heat exchanger in the prior art, high-performance heat exchanger flow passage structure provided by the invention 120 is as a result of mutual Connection the first heat exchanging segment 143 and the second heat exchanging segment 144, so can realize heat transferring medium in the flow path 140 that exchanges heat relative to The fair current of air-flow direction and adverse current improve heat exchange amount, heat exchange efficiency is high, good effect of heat exchange along inverse mixed flow so that Air conditioner 10 freezes or the effect of heating is more preferable, enhances the experience sense of user, and applies in the high-performance heat exchanger flow passage structure Heat-exchange method on 120 also has better heat transfer effect, is welcome by user.

The foregoing is merely illustrative of the preferred embodiments of the present invention, is not intended to limit the invention, all essences in the present invention With within principle, any modification, equivalent replacement, improvement and so on should all be included in the protection scope of the present invention god.

Claims (13)

1. a kind of high-performance heat exchanger flow passage structure (120), which is characterized in that including the first lateral line (130) and the second lateral line (150), first lateral line (130) is set up in parallel with second lateral line (150)；

First lateral line (130) includes at least first heat exchange tube assemblies of row (131), the second lateral line (150) packet Include at least second heat exchange tube assemblies of row (151), first heat exchange tube assemblies (131) and second heat exchange tube assemblies (151) combination forms the heat exchange flow path (140) for fluid interchange medium, and the heat exchange flow path (140) includes being connected with each other First heat exchanging segment (143) and the second heat exchanging segment (144)；

First heat exchanging segment (143) is for making the heat transferring medium along the first flow direction flowing, wherein first flow direction is institute The first heat exchange tube assemblies (131) are stated to the direction of second heat exchange tube assemblies (151), and first flow direction is along the external world The direction of air flow direction；

Second heat exchanging segment (144) is for making the heat transferring medium along the second flow direction flowing, wherein second flow direction is institute The second heat exchange tube assemblies (151) are stated to the direction of first heat exchange tube assemblies (131), and second flow direction is against the external world The direction of air flow direction.

2. high-performance heat exchanger flow passage structure (120) according to claim 1, which is characterized in that first heat exchanging segment (143) it wriggles to be arranged from first heat exchange tube assemblies (131) to second heat exchange tube assemblies (151) and be formed, so that described Heat transferring medium is along the first flow direction flowing, and second heat exchanging segment (144) is from second heat exchange tube assemblies (151) to described First heat exchange tube assemblies (131), which wriggle to be arranged, to be formed, so that the heat transferring medium is along the second flow direction flowing.

3. high-performance heat exchanger flow passage structure (120) according to claim 2, which is characterized in that first set of heat exchange tubes Part (131) includes multiple first heat exchanger tubes (132), and second heat exchange tube assemblies (151) include multiple second heat exchanger tubes (152), first heat exchanging segment (143) is from first heat exchanger tube (132) of first heat exchange tube assemblies (131) to described Second heat exchanger tube (152) of second heat exchange tube assemblies (151) is linearly or broken line is in turn connected to form, and described second changes Hot arc (144) is from second heat exchanger tube (152) of second heat exchange tube assemblies (151) to first heat exchange tube assemblies (131) first heat exchanger tube (132) is linearly or broken line is in turn connected to form.

4. high-performance heat exchanger flow passage structure (120) according to claim 3, which is characterized in that multiple first heat exchange Manage the setting of (132) parallel interval, multiple second heat exchanger tube (152) parallel interval settings, first heat exchanger tube (132) it is connected to another adjacent described first heat exchanger tube (132) or adjacent second heat exchanger tube (152), One second heat exchanger tube (152) and another adjacent described second heat exchanger tube (152) or adjacent one described the One heat exchanger tube (132) is connected to.

5. high-performance heat exchanger flow passage structure (120) according to claim 4, which is characterized in that first heat exchanger tube (132) it is in J-shaped, first heat exchanger tube (132) includes straight-through portion (1321) and bending part (1323), the bending part (1323) One end connect with the straight-through portion (1321), the other end of the bending part (1323) is changed with adjacent another described first Heat pipe (132) or adjacent the second heat exchanger tube (152) connection.

6. high-performance heat exchanger flow passage structure (120) according to claim 1, which is characterized in that first heat exchanging segment (143) quantity be it is multiple, the quantity of second heat exchanging segment (144) be it is multiple, multiple first heat exchanging segments (143) with it is more A second heat exchanging segment (144) is arranged in a crossed manner.

7. high-performance heat exchanger flow passage structure (120) according to claim 1, which is characterized in that first lateral line (130) include the first heat exchange tube assemblies (131) described in multiple row, the first heat exchange tube assemblies (131) shift to install described in multiple row, described Second lateral line (150) includes the second heat exchange tube assemblies (151) described in multiple row, and the second heat exchange tube assemblies (151) described in multiple row are wrong Position setting.

8. high-performance heat exchanger flow passage structure (120) according to claim 1, which is characterized in that the high-performance heat exchanger stream Line structure (120) is the flow passage structure of air-conditioning heat exchanger, and the external air flow flow direction is the direction that air-conditioning fan blows out air-flow.

9. a kind of air conditioner (10), which is characterized in that including fan (300), shell (200) and comprising just like claim 1 To the heat exchanger (100) of 8 any high-performance heat exchanger flow passage structures (120), the fan (300) and heat exchanger (100) It is mounted in the shell (200), the fan (300) is used to blow out air-flow to the heat exchanger (100).

10. air conditioner (10) according to claim 9, which is characterized in that the heat exchanger (100) condenses for outdoor unit Device.

11. a kind of heat-exchange method, for exchanging heat to external air flow, which is characterized in that the heat-exchange method includes：

Heat transferring medium is flowed along the first flow direction, wherein first flow direction is along the direction that external air flow flows to；

Heat transferring medium is flowed along the second flow direction, wherein first flow direction is the direction flowed to against external air flow.

12. heat-exchange method according to claim 11, which is characterized in that first carry out it is described by heat transferring medium along first-class Described the step of flowing heat transferring medium along the second flow direction is carried out again to the step of flowing, or is first carried out described by heat exchange Jie The step of matter is flowed along the second flow direction carries out described the step of flowing heat transferring medium along the first flow direction again.

13. heat-exchange method according to claim 11, which is characterized in that the heat-exchange method further includes：

It is alternately described by heat transferring medium along first flow direction flow the step of and it is described by heat transferring medium along second flow direction The step of flowing.