CN109237841A - Heat exchange module, heat exchanger and refrigerator - Google Patents

Abstract

The present invention relates to field of heat exchangers, disclose a kind of heat exchange module, heat exchanger and refrigerator, heat exchange module includes first direction (L) spaced apart two hollow vertical end plates (2) along the horizontal plane, second direction (W) along the horizontal plane is equipped between two vertical end plates to be successively spaced and vertically arranged multiple Thermal Performance of Micro Channels layers, first direction is perpendicular to second direction, Thermal Performance of Micro Channels layer includes the interior Thermal Performance of Micro Channels pipe for setting microchannel (103), Thermal Performance of Micro Channels pipe multiple detour coiling and both ends in the vertical placement-face of Thermal Performance of Micro Channels layer are respectively communicated with the hollow cavity of two vertical end plates.Thermal Performance of Micro Channels pipe detour in vertical placement-face is coiled, the outer wall of Thermal Performance of Micro Channels pipe is vertically arranged, then in the frosting of heat exchange module surface, due to gravity, frost can melt straight down along the outer wall of Thermal Performance of Micro Channels pipe, so improve the defrost performance of heat exchange module.

Description

Heat exchange module, heat exchanger and refrigerator

Technical field

The present invention relates to field of heat exchangers, and in particular, to a kind of heat exchange module using microchannel.In addition, this Invention further relates to a kind of heat exchanger being made of heat exchange module superposition use.Accordingly, the present invention provides one kind and changes with this The refrigerator of hot device or heat exchange module.

Background technique

Heat exchanger is the important component of some household electrical appliance (such as domestic refrigerator and domestic air conditioning).Conventional domestic electric appliance Heat exchanger generally uses fin tube type, although such heat exchanger had carried out many improve (such as to sacrifice heat exchange efficiency The spacing between fin is substantially increased for cost), but influence of the fin for the defrost period is difficult to solve always, and cancel fin, It is difficult to satisfy the use demand again on heat exchange efficiency.

Summary of the invention

It is an object of the present invention to provide a kind of heat exchange modules, preferable to have while improving defrost performance Heat exchange efficiency.

To achieve the goals above, the present invention provides a kind of heat exchange module, and the heat exchange module includes along the horizontal plane The hollow vertical end plate in spaced apart two of one direction is equipped with along the second of the horizontal plane between two vertical end plates Direction is successively spaced and vertically arranged multiple Thermal Performance of Micro Channels layers, and the first direction is perpendicular to the second direction, institute Stating Thermal Performance of Micro Channels layer includes the interior Thermal Performance of Micro Channels pipe for setting microchannel, and the Thermal Performance of Micro Channels pipe is in the Thermal Performance of Micro Channels layer Vertical placement-face on repeatedly detour coiling and both ends are respectively communicated with the hollow cavities of two vertical end plates.

Preferably, the Thermal Performance of Micro Channels pipe of detour coiling include be equidistantly spaced from along the first direction it is multiple perpendicular Straight pipe is connected with detour bend loss between the two neighboring vertical pipeline section.

Preferably, the vertical length of each vertical pipe section is identical and is not less than the vertical length of the vertical end plate 80%.

Preferably, the Thermal Performance of Micro Channels pipe is the miniature tube with the single microchannel, the waterpower of the microchannel Diameter is 0.3mm~2mm.

Preferably, the Thermal Performance of Micro Channels pipe is the flat tube along the second direction flattening, is equipped in the flat tube Along multiple microchannels of the second direction and row interval.

Preferably, the microchannel in the flat tube is not more than 3.

Preferably, the Thermal Performance of Micro Channels pipe include along the spaced apart multiple miniature tubes of the second direction, it is described micro- It is formed with the single microchannel that hydraulic diameter is 0.3mm~2mm in type pipe, is connected between the two neighboring miniature tube Flat connection wall.

Preferably, the casting that the Thermal Performance of Micro Channels pipe is integrally formed.

Preferably, the cross section of the microchannel is regular polygon, rectangle, ellipse or circle.

Preferably, the spacing between the second direction, the Thermal Performance of Micro Channels layer of adjacent two be 3mm~ 10mm。

Another object of the present invention is to provide a kind of heat exchanger, the heat exchanger includes that at least one is above-mentioned any one Kind heat exchange module.

Another object of the present invention is to provide a kind of refrigerator, including evaporator of refrigerator, the evaporator of refrigerator is above-mentioned Heat exchanger.

Preferably, the evaporator of refrigerator includes the multiple heat exchange modules vertically stacked gradually, wherein any phase Two adjacent heat exchange modules laterally misplace.

Through the above technical solutions, Thermal Performance of Micro Channels pipe detour in vertical placement-face is coiled, outside Thermal Performance of Micro Channels pipe Wall is vertically arranged, then in the frosting of heat exchange module surface, due to gravity, frost can be vertical along the outer wall of Thermal Performance of Micro Channels pipe It melts downwards, so improves the defrost performance of heat exchange module (or the heat exchanger being made from it).It and is after fin is cancelled in compensation Heat exchange efficiency lose problem, by Thermal Performance of Micro Channels pipe in vertical placement-face detour coiling setting, extend two vertical end plates it Between miniature heat exchanger tube length, to improve the heat exchange efficiency of overall heat exchange module.

Other features and advantages of the present invention will the following detailed description will be given in the detailed implementation section.

Detailed description of the invention

The drawings are intended to provide a further understanding of the invention, and constitutes part of specification, with following tool Body embodiment is used to explain the present invention together, but is not construed as limiting the invention.In the accompanying drawings:

Fig. 1 is the top view of heat exchange module；

Fig. 2 is the structural front view of Thermal Performance of Micro Channels laminate；

Fig. 3 is the A-A cross section view of three kinds of preferred implementation forms of Thermal Performance of Micro Channels laminate；

Fig. 4, which is three miniature tubes, to be formed Thermal Performance of Micro Channels pipe detour by flat connection wall and coils the Thermal Performance of Micro Channels to be formed The topology view of layer.

Description of symbols

1- Thermal Performance of Micro Channels layer；101- miniature tube；The flat connection wall of 102-；The microchannel 103-；104- vertical pipe section；105- Detour bend loss；The vertical end plate of 2-；L- first direction；W- second direction.

Specific embodiment

Below in conjunction with attached drawing, detailed description of the preferred embodiments.It should be understood that this place is retouched The specific embodiment stated is merely to illustrate and explain the present invention, and is not intended to restrict the invention.

In the present invention, in the absence of explanation to the contrary, the noun of locality used such as " upper and lower, left and right " typically refers to For direction shown in the drawings either for it is vertical, on vertical or gravity direction for each component mutual alignment pass System's description word.

In addition, the so-called direction D of the present invention be it is vertical described in the present invention, with first direction L of the present invention, Tri- directions second direction W are mutually perpendicular to.

Shown in as shown in Figure 1 to Figure 4, present invention firstly provides a kind of heat exchange module, which includes along the horizontal plane Spaced apart two hollow vertical end plates 2 of first direction L, second along the horizontal plane is equipped between two vertical end plates 2 Direction W is successively spaced and vertically arranged multiple Thermal Performance of Micro Channels layers 1, first direction L are micro- perpendicular to the second direction W Channel for heat exchange layer 1 includes the interior Thermal Performance of Micro Channels pipe for setting microchannel 103, and Thermal Performance of Micro Channels pipe is vertical Thermal Performance of Micro Channels layer 1 Multiple detour coiling and both ends are respectively communicated with the hollow cavity of two vertical end plates 2 in placement-face.

As a preferred method, detour coiling Thermal Performance of Micro Channels pipe include be equidistantly spaced from along first direction L it is more A vertical pipe section 104 is connected with detour bend loss 105 between two neighboring vertical pipeline section 104.Further, each vertical pipe The vertical length of section 104 is identical and is not less than the 80% of the vertical length of vertical end plate 2.

Thermal Performance of Micro Channels pipe in same Thermal Performance of Micro Channels layer 1 is by multiple vertical vertical pipe sections 104 and detour bend pipe 105 connection of section forms snakelike pipeline structure, in this way, extending under the premise of not changing the spacing between two vertical end plates 2 micro- The length of channel for heat exchange pipe, so that extend that heat transferring medium flows to another vertical end plate 2 from a vertical end plate 2 flows through road Diameter, with the heat exchanger effectiveness of this each Thermal Performance of Micro Channels layer 1 for promoting heat exchange module.

Meanwhile the Thermal Performance of Micro Channels pipe of same layer detour in same vertical placement-face is coiled, in the layer, microchannel is changed The lateral wall of heat pipe is vertically arranged, after the frost condensed on Thermal Performance of Micro Channels pipe lateral wall melts, sticking wall flow under the effect of gravity Under, so promote the defrost performance of heat exchange module.

As a kind of preferable embodiment, Thermal Performance of Micro Channels pipe is miniature between 0.3mm~2mm using hydraulic diameter 101 detour of pipe coils to be formed, and using the big feature of the surface area of miniature tube 101, promotes the heat exchanger effectiveness of heat exchange module, and And the cross sectional shape of the periphery wall of the microchannel 103 and miniature tube 101 in miniature tube 101, can for regular polygon, rectangle, Ellipse or circle etc..

As another preferable embodiment, Thermal Performance of Micro Channels pipe is the flat tube of W flattening in a second direction, this is flat Multiple microchannels 103 of W in a second direction and row interval are equipped in flat pipe.It is flat under the premise of a possibility that considering frosting The quantity of microchannel 103 in flat pipe is not more than three.Fig. 2 is with three sections for the flat of circular microchannel 103 formation For pipe, the topology view of the Thermal Performance of Micro Channels pipe of the Thermal Performance of Micro Channels layer 1 of composition, which includes along second party To spaced apart three miniature tubes 101 of W, the single microchannel that hydraulic diameter is 0.3mm~2mm is formed in miniature tube 101 103, flat connection wall 102 is connected between two neighboring miniature tube 101.

The quantity for increasing the miniature tube 101 in Thermal Performance of Micro Channels pipe will lead to the width at detour bend loss 105 and increase, Increase a possibility that frosting herein, is unfavorable for balancing the defrosting effect of heat exchange module.But when being applied to the major part such as refrigerator Between in the electric appliance of band frost operation when, the quantity of miniature tube 101 can also be further added by widen the width of flat tube.Correspond to The structure of this flat tube, processing method can make integrally casting shaping, be also possible to after processing micro-channel tubes, then at it The groove for increasing heat dissipation area is processed on outer wall in a manner of material removal.

Preferably, W in a second direction, the spacing between two adjacent Thermal Performance of Micro Channels layers 1 is 3mm~10mm. Spacing between two neighboring Thermal Performance of Micro Channels layer 1 is big, is conducive to the defrost performance for promoting heat exchange module, but simultaneously, heat exchange Efficiency can decrease；In contrast, reduce the spacing between two neighboring Thermal Performance of Micro Channels layer 1, although heat can be promoted Exchange efficiency, still, the defrost performance between two neighboring micro channel heat switching layer 1 will receive influence again, and spacing setting is existed 3mm~10mm can compromise between heat exchanger effectiveness and defrost performance, optimize the overall performance of heat exchange module.

Vertical end plate 2 is equipped with inserting groove (or hole), the end part seal of Thermal Performance of Micro Channels layer 1 be assembled to inserting groove (or Person hole) in and make every microchannel 103 be connected to the hollow cavity of vertical end plate 2.Circulation has heat exchange medium in vertical end plate 2 The part sealing of (being not limited to freon, be also possible to carbon dioxide etc.), heat exchange layers 1 is inserted into inserting groove, then is erected Heat exchange medium into the inner cavity of end plate 2 can flow into microchannel 103, or outflow Thermal Performance of Micro Channels laminate 1 enters vertically In end plate 2, herein, vertical end plate 2 functions as diverting current collector.

The present invention also provides a kind of heat exchangers comprising any one heat exchange module above-mentioned at least one.Heat exchanger The quantity of interior heat exchange module, depending on heat exchanger installation space and the needs of exchange thermal energy power.

In addition, the present invention provides a kind of refrigerator, in evaporator of refrigerator use above-mentioned heat exchanger.Also, as ice The radiator of case evaporator, due to the installation space of evaporator of refrigerator often more narrow height, multiple to can according to need edge Multiple heat exchange modules are stacked, vertically to improve the heat-exchange capacity of evaporator of refrigerator.

Also, preferably, multiple heat exchange modules of evaporator of refrigerator vertically successively dislocation stacking, it is described herein Dislocation refers to that transversion malposition is arranged between two vertically adjacent heat exchange modules, such as W is in staggered distribution in a second direction.Such as This, passes through the heat exchange module at different height into the wind in evaporator of refrigerator, needs broken line, be equivalent to and extend heat exchange Time, therefore, heat exchanger effectiveness are promoted compared to the stack manner of consistency from top to bottom.

It is further to note that the heat exchanger to be formed is applied in combination in single heat exchange module or multiple heat exchange modules, make Occasion is not limited to refrigerator, can also be at any other equipment for needing to carry out heat exchange.Also, it vertically stacks Multiple heat exchange modules, and according to the actual installation regional structure design of evaporator of refrigerator, it, can also be along first in other occasions Multiple heat exchange modules are applied in combination in direction L or second direction W.

It is described the prefered embodiments of the present invention in detail above in conjunction with attached drawing, still, the present invention is not limited to above-mentioned realities The detail in mode is applied, within the scope of the technical concept of the present invention, a variety of letters can be carried out to technical solution of the present invention Monotropic type, these simple variants all belong to the scope of protection of the present invention.

It is further to note that specific technical features described in the above specific embodiments, in not lance In the case where shield, it can be combined in any appropriate way.In order to avoid unnecessary repetition, the present invention to it is various can No further explanation will be given for the combination of energy.

In addition, various embodiments of the present invention can be combined randomly, as long as it is without prejudice to originally The thought of invention, it should also be regarded as the disclosure of the present invention.

Claims (13)

1. a kind of heat exchange module, which is characterized in that the heat exchange module includes that first direction (L) along the horizontal plane is spaced apart Two hollow vertical end plates (2), be equipped between two vertical end plates (2) second direction (W) along the horizontal plane according to Minor tick and vertically arranged multiple Thermal Performance of Micro Channels layers (1), the first direction (L) perpendicular to the second direction (W), The Thermal Performance of Micro Channels layer (1) includes the interior Thermal Performance of Micro Channels pipe for setting microchannel (103), and the Thermal Performance of Micro Channels pipe is described micro- Multiple detour is coiled in the vertical placement-face of channel for heat exchange layer (1) and both ends are respectively communicated in two vertical end plates (2) Cavity.

2. heat exchange module according to claim 1, which is characterized in that the Thermal Performance of Micro Channels pipe of detour coiling includes edge Multiple vertical pipe sections (104) that the first direction (L) is equidistantly spaced from connect between the two neighboring vertical pipeline section (104) It is connected to detour bend loss (105).

3. heat exchange module according to claim 2, which is characterized in that the vertical length of each vertical pipe section (104) The 80% of vertical length identical and not less than the vertical end plate (2).

4. heat exchange module according to claim 1, which is characterized in that the Thermal Performance of Micro Channels pipe is with single described micro- The miniature tube (101) in channel (103), the hydraulic diameter of the microchannel (103) are 0.3mm~2mm.

5. heat exchange module according to claim 1, which is characterized in that the Thermal Performance of Micro Channels pipe is along the second direction (W) flat tube of flattening, the interior multiple microchannels being equipped with along the second direction (W) and row interval of the flat tube (103)。

6. heat exchange module according to claim 5, which is characterized in that the microchannel (103) in the flat tube is no More than 3.

7. heat exchange module according to claim 5, which is characterized in that the Thermal Performance of Micro Channels pipe includes along the second party To (W) spaced apart multiple miniature tubes (101), it is 0.3mm~2mm's that hydraulic diameter is formed in the miniature tube (101) The single microchannel (103) is connected with flat connection wall (102) between the two neighboring miniature tube (101).

8. heat exchange module according to claim 7, which is characterized in that the casting that the Thermal Performance of Micro Channels pipe is integrally formed Part.

9. heat exchange module according to claim 1, which is characterized in that the cross section of the microchannel (103) is positive polygon Shape, rectangle, ellipse or circle.

10. heat exchange module according to claim 1, which is characterized in that along the second direction (W), two adjacent institutes Stating the spacing between Thermal Performance of Micro Channels layer (1) is 3mm~10mm.

11. a kind of heat exchanger, which is characterized in that the heat exchanger include at least one according to claim 1~10 in it is any one Heat exchange module described in.

12. a kind of refrigerator, including evaporator of refrigerator, which is characterized in that the evaporator of refrigerator is to change described in claim 11 Hot device.

13. refrigerator according to claim 12, which is characterized in that the evaporator of refrigerator includes vertically stacking gradually Multiple heat exchange modules, wherein the two of the arbitrary neighborhood heat exchange module laterally misplaces.