The present application claims the benefit of Chinese Patent Application No. 201610905058.X filed on Oct. 17, 2016. All the above are hereby incorporated by reference.
The present invention relates to an air conditioning technique, in particular to a heat exchanger.
A micro-channel heat exchanger consists of header pipes, micro-channel flat pipes and fins, and has the advantages such as light weight, compact structure, high heat exchange efficiency, all-aluminum structure and convenience in recovery, and the like; and at the same time, an internal volume of the micro-channel heat exchanger is small, the filling amount of refrigerant is greatly reduced, the industrial trend of energy saving and environmental protection is satisfied and thus the micro-channel heat exchanger is widely applied to commercial/domestic air conditioner fields.
In order to obtain corresponding heat exchange amount and energy-efficiency ratio in a limited unit space, an evaporator and a condenser in an air conditioner often need to be bent to a certain angle to increase a heat exchange area, so as to satisfy the performance requirement during air conditioner design. Commonly seen bent shapes generally include an L-shape, a C-shape, a U-shape and the like. Air conditioning units in the current market are mostly heat-pump air conditioners which consider refrigeration and heating at the same time. In order to satisfy the demands of air conditioning units for drainage performance during operation in winter, the micro-channel heat exchange is generally designed in such a way that the header pipes are horizontally disposed, and the flat pipes and the fins are vertically disposed. Therefore, the micro-channel heat exchanger needs to be bent along a length direction of the header pipes to form a structure having a designated angle. In a bending process of a traditional micro-channel heat exchanger, fins on an inner side of a bend are squeezed, deformation such as inverted fins and distortion and the like occurs and the circulation of air is thereby obstructed; and fins on an outer side of the bend are stretched, situations such as stretching deformation and even tearing and the like occur, the appearance of the heat exchanger is seriously influenced, and at the same time, since the fins are torn, the heat exchange performance of the heat exchange is decreased.
Therefore, how to decrease the influence of bending on the performance of the micro-channel heat exchanger when the micro-channel heat exchange is bent along a direction towards the header pipes is an important problem which needs to be solved in this field.
The technical problem to be solved by the present invention is to provide a fin and a micro-channel heat exchanger, so as to decrease the influence of bending on the performance of the micro-channel heat exchanger when the micro-channel heat exchanger is bent along a direction towards header pipes.
In order to solve the above-mentioned technical problem, the present invention adopts the following technical solution: a fin comprises a plurality of fin unit sections which are sequentially connected to form a corrugated structure, each fin unit section comprises a first straight section and an arc top section, and a retractable section which is deformed due to stretching/squeezing in a bending process of the micro-channel heat exchanger is provided between the first straight section and the arc top section.
Preferably, the retractable section is of an arc concave structure.
Preferably, a second straight section between the arc top section and the retractable section is further provided.
Preferably, along an extension direction of the fin, a minimum spacing between adjacent first straight sections is L, a maximum spacing between adjacent second straight sections is L1, and L is greater than L1.
Preferably, the fin unit section on an outer side of a bend consists of three parts, i.e., an arc top section, a straight section and a retractable section, and the fin unit section on an inner side of the bend consists of an arc top section and a straight section.
Preferably, a length and an angle of the retractable section on the inner side of the bend are smaller than a length and an angle of the retractable section on the outer side of the bend.
Preferably, a width of the fin is greater than or equal to a width of a flat pipe.
Preferably, the first straight section is provided with a louver structure used for enhancing heat exchange.
The present invention further provides a micro-channel heat exchanger, comprising flat plate regions and a bending region which is bent between two adjacent flat plate regions, wherein the bending region is provided with the above-mentioned fin.
Further, a fin provided in the flat plate region comprises straight sections and arc top sections which are connected with the straight sections, and the straight sections are provided with louver structures used for enhancing heat exchange.
In the technical solution adopted by the present invention, a retractable fin is provided in a corresponding bending region in the bending process of the micro-channel heat exchanger, retractable sections of the retractable fin are gradually straightened in the bending process of the micro-channel heat exchanger, included angles between the retractable sections and adjacent straight sections gradually become small, and this thereby ensures that the retractable fin in the bending region is not stretch-broken.
Therefore, the present invention well solves the problem of fin deformation caused when the heat exchanger is bent along the length direction of the header pipes, and can guarantee the performance and appearance of the heat exchanger as good as possible.
The present invention will be further described below in combination with the drawings and the embodiments.
as illustrated in
In view of the fact that fins on an inner side of a bend are squeezed in a bending process of a traditional micro-channel heat exchanger, deformation such as inverted fins and distortion and the like occurs and the circulation of air is thereby obstructed; and that fins on an outer side of the bend are stretched and situations such as stretching deformation and even tearing and the like occur, the bending region 10 adopts specially designed retractable fins 100.
Herein, the common fins 110 and the retractable fins 100 are all corrugated fins. Each of the common fins 110 and the retractable fins 100 comprises a plurality of fin unit sections which are sequentially connected to form a corrugated structure.
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In addition, it needs to be noted that the length and angle of the retractable sections of the retractable fin 100 on the inner side of the bend and the outer side of the bend may be respectively different. The width of the retractable fin and the width of the flat pipe may be different. Preferably, the length and angle of the retractable section on the inner side of the bend are smaller than the length and angle of the retractable section on the outer side of the bend, because the retractable fin 100 on the outer side of the bend is a major deforming position. Besides, the width of the retractable fin 100 is greater than or equal to the width of the flat pipe 21.
as illustrated in
Moreover, a partition seam may be provided between the outer side of the bending region and the inner side of the bending region of the retractable fin 100, and seamless connection may also be adopted on the whole.
Number | Date | Country | Kind |
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201610905058.X | Oct 2016 | CN | national |