CN204629735U - Refrigeration plant and the heat exchanger assembly for refrigeration plant - Google Patents

Abstract

The utility model discloses a kind of refrigeration plant and the heat exchanger assembly for refrigeration plant.Described refrigeration plant comprises: housing; Heat exchanger assembly, comprising: shunting heat exchanger, and shunting heat exchanger has the nearly wind portion of contiguous ventilating opening and the leeward portion away from ventilating opening; Nearly wind heat exchanger, nearly wind heat exchanger is provided with nearly wind heat exchanger entrance and nearly wind heat exchanger exit; Leeward heat exchanger, leeward heat exchanger is provided with leeward heat exchanger entrance and leeward heat exchanger exit; First communicating pipe, the two ends of the first communicating pipe are communicated with the outlet of leeward portion and nearly wind heat exchanger entrance, respectively to guide in nearly wind heat exchanger by the cold-producing medium from the outlet outflow of leeward portion; Second communicating pipe, the two ends of the second communicating pipe are communicated with the outlet of nearly wind portion and leeward heat exchanger entrance, respectively to be guided in leeward heat exchanger by the cold-producing medium from the outlet outflow of nearly wind portion.Even according to the heat exchanger assembly heat exchange of the refrigeration plant of the utility model embodiment.

Description

Refrigeration plant and the heat exchanger assembly for refrigeration plant

Technical field

The utility model relates to refrigerating field, especially relates to a kind of refrigeration plant, and for the heat exchanger assembly of this refrigeration plant.

Background technology

Along with the development in epoch, the aesthetics of people to product proposes more and more higher requirement.The fuselage of existing refrigeration plant is more and more thinner, and air inlet is more and more hidden, or front trellis cipher, does not allow direct-view to fuselage interior.So because of restriction and the aesthetic of structure, the air quantity at each position of the heat exchanger of refrigeration plant is caused to differ greatly.If now still design according to stream in the past, the heat transfer effect difference of heat exchanger each several part will certainly be caused large, overall heat exchange weak effect.

Utility model content

The utility model is intended to solve one of technical problem in correlation technique at least to a certain extent.For this reason, the utility model needs to propose a kind of refrigeration plant, and the heat exchanger assembly heat exchange of this refrigeration plant is even.

The utility model also needs to propose a kind of heat exchanger assembly for refrigeration plant.

According to the refrigeration plant of the utility model first aspect embodiment, comprising: housing, described housing is provided with ventilating opening; Heat exchanger assembly, described heat exchanger assembly is located in described housing, described heat exchanger assembly comprises: shunting heat exchanger, described shunting heat exchanger has the contiguous nearly wind portion of described ventilating opening and the leeward portion away from described ventilating opening, described shunting heat exchanger is provided with the shunting heat exchanger entrance entered for cold-producing medium, described nearly wind portion is provided with the nearly wind portion outlet of flowing out for cold-producing medium, and described leeward portion is provided with the leeward portion outlet of flowing out for cold-producing medium; Nearly wind heat exchanger, described nearly wind heat exchanger is connected in the described near wind portion of described shunting heat exchanger, and described nearly wind heat exchanger is provided with the nearly wind heat exchanger entrance flowed into for cold-producing medium and the nearly wind heat exchanger exit flowed out for cold-producing medium; Leeward heat exchanger, described leeward heat exchanger is greater than the distance of described nearly wind heat exchanger apart from described ventilating opening apart from the distance of described ventilating opening, described leeward heat exchanger is connected in the described leeward portion of described shunting heat exchanger, and described leeward heat exchanger is provided with the leeward heat exchanger entrance flowed into for cold-producing medium and the leeward heat exchanger exit flowed out for cold-producing medium; First communicating pipe, the two ends of described first communicating pipe are communicated with described leeward portion outlet and described nearly wind heat exchanger entrance, respectively to guide in described nearly wind heat exchanger by the cold-producing medium from described leeward portion outlet outflow; Second communicating pipe, the two ends of described second communicating pipe are communicated with described nearly wind portion outlet and described leeward heat exchanger entrance, respectively to be guided in described leeward heat exchanger by the cold-producing medium from described nearly wind portion outlet outflow.

According to the refrigeration plant of the utility model embodiment, due to the outlet of leeward portion and the first communicating pipe of nearly wind heat exchanger entrance can be communicated with by arranging in heat exchanger assembly, further, by arranging the second communicating pipe being communicated with the outlet of nearly wind portion and leeward heat exchanger entrance respectively, thus the heat exchange uniformity of whole heat exchanger assembly can be improved, and then improve heat exchange efficiency.

In addition, also following additional technical feature can be had according to refrigeration plant of the present utility model:

According to an embodiment of the present utility model, described ventilating opening be formed in the top of described housing and described housing from described ventilating opening air intake.

According to an embodiment of the present utility model, described shunting heat exchanger is in tilted layout relative to vertical direction, described nearly wind heat exchanger be in tilted layout relative to vertical direction and with described shunting heat exchanger in fall " V " shape arrange.

According to an embodiment of the present utility model, roughly vertically extending at least partially of described leeward heat exchanger.

According to an embodiment of the present utility model, described nearly wind heat exchanger entrance is positioned at the top of described nearly wind heat exchanger exit; Or described leeward heat exchanger entrance is positioned at the top of described leeward heat exchanger exit.

According to an embodiment of the present utility model, described refrigeration plant also comprises supplementary heat exchanger, described supplementary heat exchanger is located on the first type surface of the described ventilating opening of vicinity of described shunting heat exchanger, described supplementary heat exchanger has the supplementary heat exchanger entrance flowed into for cold-producing medium and the supplementary heat exchanger outlet of flowing out for cold-producing medium, and described supplementary heat exchanger outlet is communicated with described shunting heat exchanger entrance.

According to an embodiment of the present utility model, be provided with distribution three-way pipe in described shunting heat exchanger, three openings in described distribution three-way pipe export and leeward portion outlet with described shunting heat exchanger entrance, nearly wind portion respectively.

According to the heat exchanger assembly for refrigeration plant of the utility model second aspect embodiment, described refrigeration plant comprises housing, described housing is provided with ventilating opening, described heat exchanger assembly is located in described housing, described heat exchanger assembly comprises: shunting heat exchanger, described shunting heat exchanger has the contiguous nearly wind portion of described ventilating opening and the leeward portion away from described ventilating opening, described shunting heat exchanger is provided with the shunting heat exchanger entrance entered for cold-producing medium, described nearly wind portion is provided with the nearly wind portion outlet of flowing out for cold-producing medium, described leeward portion is provided with the leeward portion outlet of flowing out for cold-producing medium, nearly wind heat exchanger, described nearly wind heat exchanger is connected in the described near wind portion of described shunting heat exchanger, and described nearly wind heat exchanger is provided with the nearly wind heat exchanger entrance flowed into for cold-producing medium and the nearly wind heat exchanger exit flowed out for cold-producing medium, leeward heat exchanger, described leeward heat exchanger is greater than the distance of described nearly wind heat exchanger apart from described ventilating opening apart from the distance of described ventilating opening, described leeward heat exchanger is connected in the described leeward portion of described shunting heat exchanger, and described leeward heat exchanger is provided with the leeward heat exchanger entrance flowed into for cold-producing medium and the leeward heat exchanger exit flowed out for cold-producing medium, first communicating pipe, the two ends of described first communicating pipe are communicated with described leeward portion outlet and described nearly wind heat exchanger entrance, respectively to guide in described nearly wind heat exchanger by the cold-producing medium from described leeward portion outlet outflow, second communicating pipe, the two ends of described second communicating pipe are communicated with described nearly wind portion outlet and described leeward heat exchanger entrance, respectively to be guided in described leeward heat exchanger by the cold-producing medium from described nearly wind portion outlet outflow.

The outlet of leeward portion and the first communicating pipe of nearly wind heat exchanger entrance can be communicated with by arranging according in the heat exchanger assembly of the utility model embodiment, be communicated with the second communicating pipe of the outlet of nearly wind portion and leeward heat exchanger entrance respectively, thus the heat exchange uniformity of whole heat exchanger assembly can be improved.

Additional aspect of the present utility model and advantage will part provide in the following description, and part will become obvious from the following description, or be recognized by practice of the present utility model.

Accompanying drawing explanation

Above-mentioned and/or additional aspect of the present utility model and advantage will become obvious and easy understand from accompanying drawing below combining to the description of embodiment, wherein:

Fig. 1 is the structural representation of the refrigeration plant according to the utility model embodiment;

Fig. 2 is the structural representation of the heat exchanger assembly of refrigeration plant according to the utility model embodiment.

Reference numeral:

Refrigeration plant 100;

Housing 1; Ventilating opening 11;

Heat exchanger assembly 2;

Shunting heat exchanger 21; Nearly wind portion 211; Leeward portion 212; Shunting heat exchanger entrance 213; Nearly wind portion outlet 214; Leeward portion outlet 215; Distribution three-way pipe 216;

Nearly wind heat exchanger 22; Nearly wind heat exchanger entrance 221; Nearly wind heat exchanger exit 222;

Leeward heat exchanger 23; Leeward heat exchanger entrance 231; Leeward heat exchanger exit 232;

First communicating pipe 24;

Second communicating pipe 25;

Supplementary heat exchanger 26; Supplementary heat exchanger entrance 261; Supplementary heat exchanger outlet 262.

Detailed description of the invention

Be described below in detail embodiment of the present utility model, the example of described embodiment is shown in the drawings, and wherein same or similar label represents same or similar element or has element that is identical or similar functions from start to finish.Being exemplary below by the embodiment be described with reference to the drawings, only for explaining the utility model, and can not being interpreted as restriction of the present utility model.

In description of the present utility model, it will be appreciated that, term " " center ", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", " on ", D score, " front ", " afterwards ", " left side ", " right side ", " vertically ", " level ", " top ", " end ", " interior ", " outward ", " clockwise ", orientation or the position relationship of the instruction such as " counterclockwise " are based on orientation shown in the drawings or position relationship, only the utility model and simplified characterization for convenience of description, instead of indicate or imply that the device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore can not be interpreted as restriction of the present utility model.In addition, term " first ", " second " only for describing object, and can not be interpreted as instruction or hint relative importance or imply the quantity indicating indicated technical characteristic.Thus, be limited with " first ", the feature of " second " can express or impliedly comprise one or more these features.In description of the present utility model, the implication of " multiple " is two or more, unless otherwise expressly limited specifically.

In description of the present utility model, it should be noted that, unless otherwise clearly defined and limited, term " installation ", " being connected ", " connection " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or connect integratedly; Can be directly be connected, also indirectly can be connected by intermediary, can be the connection of two element internals or the interaction relationship of two elements.For the ordinary skill in the art, the concrete meaning of above-mentioned term in the utility model can be understood as the case may be.

In the utility model, unless otherwise clearly defined and limited, fisrt feature second feature it " on " or D score can comprise the first and second features and directly contact, also can comprise the first and second features and not be directly contact but by the other characterisation contact between them.And, fisrt feature second feature " on ", " top " and " above " comprise fisrt feature directly over second feature and oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " comprise fisrt feature immediately below second feature and tiltedly below, or only represent that fisrt feature level height is less than second feature.

Below with reference to Fig. 1 and Fig. 2, the refrigeration plant 100 according to the utility model embodiment is described.It should be noted that, this refrigeration plant 100 not only can have refrigerating function, can also have heat-production functions.Alternatively, this refrigeration plant 100 can be any unit etc. utilizing air heat exchanger, such as, can be the products such as air conditioner room unit, air-conditioner outdoor unit, refrigerator.

As shown in Figure 1, according to the refrigeration plant 100 of the utility model embodiment, comprising: housing 1 and heat exchanger assembly 2.Housing 1 is provided with ventilating opening 11, and heat exchanger assembly 2 is located in housing 1.

As shown in Figure 1, ventilating opening 11 can be arranged on housing 1 top, and ventilating opening 11 may be used for refrigeration plant 100 air intake.Heat exchanger assembly 2 comprises: shunting heat exchanger 21, nearly wind heat exchanger 22, leeward heat exchanger 23 and the first communicating pipe 24.

Further, as depicted in figs. 1 and 2, as an optional example of the present utility model, ventilating opening 11 can be formed in the top of housing 1 and housing from ventilating opening 11 air intake, from other positions (such as bottom) air-out of housing 1.It is interior and relative with ventilating opening 11 that heat exchanger assembly 2 is located at housing 1.

Shunting heat exchanger 21 has the nearly wind portion 211 of contiguous ventilating opening 11 and the leeward portion 212 away from ventilating opening 11, shunting heat exchanger 21 is provided with the shunting heat exchanger entrance 213 entered for cold-producing medium, nearly wind portion 211 is provided with the nearly wind portion outlet 214 of flowing out for cold-producing medium, and leeward portion 212 is provided with the leeward portion outlet 215 of flowing out for cold-producing medium.

Leeward heat exchanger 23 is greater than the distance of nearly wind heat exchanger 22 apart from ventilating opening 11 apart from the distance of ventilating opening 11, and namely the contiguous ventilating opening 11 of nearly wind heat exchanger 22 is arranged, and leeward heat exchanger 23 is arranged away from ventilating opening 11.Nearly wind heat exchanger 22 is connected in the nearly wind portion 211 of shunting heat exchanger 21, nearly wind heat exchanger 22 is provided with the nearly wind heat exchanger entrance 221 flowed into for cold-producing medium and the nearly wind heat exchanger exit 222 flowed out for cold-producing medium, leeward heat exchanger 23 is connected in the leeward portion 212 of shunting heat exchanger 21, and leeward heat exchanger 23 is provided with the leeward heat exchanger entrance 231 flowed into for cold-producing medium and the leeward heat exchanger exit 232 flowed out for cold-producing medium.

Alternatively, some refrigerant can enter in shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23 respectively, and discharges from shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23 respectively.Each like this heat exchanger can have the refrigerant flow path be independent of each other.Certain the utility model is not limited to this, shunts heat exchanger 21, closely can be interconnected between wind heat exchanger 22 and leeward heat exchanger 23, carries out heat exchange to make cold-producing medium successively in shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23.

Example shown in Figure 1, ventilating opening 11 is formed in case top, and alternatively, shunting heat exchanger 21 is in tilted layout relative to vertical direction, and nearly wind heat exchanger 22 is in tilted layout relative to vertical direction and arranges in falling " V " shape with shunting heat exchanger 21.The top of wherein shunting heat exchanger 21 is nearly wind portion 211, the bottom of shunting heat exchanger 21 is leeward portion 212, nearly wind heat exchanger 22 is connected with the top of shunting heat exchanger 21 and is in tilted layout, leeward heat exchanger 23 is connected with the bottom of shunting heat exchanger 21, alternatively, roughly vertically extending at least partially of leeward heat exchanger 23, shown in figure 1, the epimere of leeward heat exchanger 23 roughly vertically extends, and leeward heat exchanger 23 hypomere just tilts to extend.

It should be noted that, because the shunting heat exchanger 21 in heat exchanger assembly 2, nearly wind heat exchanger 22 and leeward heat exchanger 23 have above-mentioned structure and position relationship, thus just determine the position more closing on ventilating opening 11 in shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23, heat transfer effect is relatively better, more away from the position of ventilating opening 11, heat transfer effect is relatively poorer.Specifically, for shunting heat exchanger 21, the heat transfer effect in its nearly wind portion 211 is better than the heat transfer effect in its leeward portion 212, and the heat transfer effect of nearly wind heat exchanger 22 is better than the heat transfer effect of leeward heat exchanger 23.

In order to improve the heat exchange uniformity of shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23, in embodiment of the present utility model, the two ends of the first communicating pipe 24 are communicated with leeward portion outlet 215 and nearly wind heat exchanger entrance 221, respectively to be guided in nearly wind heat exchanger 22 by the cold-producing mediums flowed out from leeward portion outlet 215.Like this, cold-producing medium bad for the script heat transfer effect in leeward portion 212 can be guided to nearly wind heat exchanger 22 inside and carry out heat exchange, to improve the heat transfer effect of the cold-producing medium in leeward portion 212, improve the heat exchange uniformity of whole heat exchanger assembly 2 thus.

According to the refrigeration plant 100 of the utility model embodiment, owing to can be communicated with by arranging the first communicating pipe 24 that leeward portion exports 215 and nearly wind heat exchanger entrance 221 in heat exchanger assembly 2, thus the heat exchange uniformity of heat exchanger assembly 2 can be improved, the performance of whole refrigeration plant 100 can be improved.

In second embodiment of the present utility model, the two ends that can also comprise for the second communicating pipe 25 communicating pipe 25, second in refrigeration plant 100 are communicated with nearly wind portion outlet 214 and leeward heat exchanger entrance 231, respectively to be guided in leeward heat exchanger 23 by the cold-producing mediums flowed out from nearly wind portion outlet 214.Like this, can nearly guide to leeward heat exchanger 23 inside and carry out heat exchange by the cold-producing medium of the script good effect of heat exchange in wind portion 211, thus by the first communicating pipe 24 and the second communicating pipe 25, thus the heat exchange uniformity of whole heat exchanger assembly 2 can be improved further, and then improve heat exchange efficiency.

Alternatively, can flow downward in leeward heat exchanger 23 from the some refrigerant of leeward portion outlet 215 outflow and carry out heat exchange, the some refrigerant flowed out from nearly wind portion outlet 214 can carry out heat exchange to flowing in nearly wind heat exchanger 22.

Certain the utility model is not limited to this, the whole cold-producing mediums flowed out from leeward portion outlet 215 can carry out abundant heat exchange by guiding to nearly wind heat exchanger 22 first communicating pipe 24, the whole cold-producing mediums flowed out from nearly wind portion outlet 214 can carry out heat exchange by guiding to leeward heat exchanger 23 second communicating pipe 25, and the heat exchange uniformity of heat exchanger assembly 2 can be made thus more obvious.

Alternatively, as illustrated in figs. 1 and 2, can be provided with distribution three-way pipe 216 in shunting heat exchanger 21, three openings in distribution three-way pipe 216 export 214 respectively and export 215 with leeward portion and be communicated with shunting heat exchanger entrance 213, nearly wind portion.Cold-producing medium is discharged respectively by nearly wind portion outlet 214 and leeward portion outlet 215 from separation heat exchanging device entrance by distribution three-way pipe 216, thus can make shunting heat exchanger 21 compact conformation, rationally, the arrangement space of shunting heat exchanger 21 is little.

Alternatively, nearly wind heat exchanger entrance 221 is positioned at the top of nearly wind heat exchanger exit 222, and leeward heat exchanger entrance 231 is positioned at the top of leeward heat exchanger exit 232.As shown in Figure 1, nearly wind heat exchanger 22 has two row's heat exchange streams, cold-producing medium enters the fluid interchange in side (outer surface of the contiguous nearly wind heat exchanger 22) stream of the contiguous ventilating opening 11 of nearly wind heat exchanger 22 of rear elder generation from nearly wind heat exchanger entrance 221, fluid interchange in the side inner surface of nearly wind heat exchanger 22 (contiguous) stream deviating from ventilating opening 11 flowing to nearly wind heat exchanger 22 again, can make refrigerant heat exchanger effective thus.In like manner, leeward heat exchanger 23 has two row's heat exchange streams, cold-producing medium enters the fluid interchange in side (outer surface of the contiguous leeward heat exchanger 23) stream of the contiguous ventilating opening 11 of leeward heat exchanger 23 of rear elder generation from leeward heat exchanger entrance 231, fluid interchange in the side inner surface of nearly wind heat exchanger 22 (contiguous) stream deviating from ventilating opening 11 flowing to leeward heat exchanger 23 again, can make refrigerant heat exchanger effective thus.

Alternatively, as depicted in figs. 1 and 2, refrigeration plant 100 can also comprise supplementary heat exchanger 26, supplementary heat exchanger 26 is located on the first type surface (namely shunting the surface that the area of heat exchanger 21 is maximum) of the contiguous ventilating opening 11 of shunting heat exchanger 21, supplementary heat exchanger 26 has the supplementary heat exchanger entrance 261 flowed into for cold-producing medium and the supplementary heat exchanger outlet 262 of flowing out for cold-producing medium, and supplementary heat exchanger outlet 262 is communicated with shunting heat exchanger entrance 213.Thus, cold-producing medium preferentially can carry out heat exchange through supplementary heat exchanger 26, then enter into shunting heat exchanger 21 carry out heat exchange, shunting, can improve the heat transfer effect of heat exchanger assembly 2 thus, heat exchange efficiency is high.

The heat exchanger assembly 2 for refrigeration plant 100 according to the utility model second aspect embodiment is described below.

Refrigeration plant 100 comprises housing 1, and housing 1 is provided with ventilating opening 11, and heat exchanger assembly 2 is located in housing 1, and alternatively, heat exchanger assembly 2 comprises: shunting heat exchanger 21, nearly wind heat exchanger 22, leeward heat exchanger 23 and the first communicating pipe 24.

Shunting heat exchanger 21 has the nearly wind portion 211 of contiguous ventilating opening 11 and the leeward portion 212 away from ventilating opening 11, shunting heat exchanger 21 is provided with the shunting heat exchanger entrance 213 entered for cold-producing medium, nearly wind portion 211 is provided with the nearly wind portion outlet 214 of flowing out for cold-producing medium, and leeward portion 212 is provided with the leeward portion outlet 215 of flowing out for cold-producing medium.

Leeward heat exchanger 23 is greater than the distance of nearly wind heat exchanger 22 apart from ventilating opening 11 apart from the distance of ventilating opening 11, and namely the contiguous ventilating opening 11 of nearly wind heat exchanger 22 is arranged, and leeward heat exchanger 23 is arranged away from ventilating opening 11.Nearly wind heat exchanger 22 is connected in the nearly wind portion 211 of shunting heat exchanger 21, nearly wind heat exchanger 22 is provided with the nearly wind heat exchanger entrance 221 flowed into for cold-producing medium and the nearly wind heat exchanger exit 222 flowed out for cold-producing medium, leeward heat exchanger 23 is connected in the leeward portion 212 of shunting heat exchanger 21, and leeward heat exchanger 23 is provided with the leeward heat exchanger entrance 231 flowed into for cold-producing medium and the leeward heat exchanger exit 232 flowed out for cold-producing medium.

It should be noted that, shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23 are air heat exchangers, that is, flow of refrigerant is inner at shunting heat exchanger 21, nearly wind heat exchanger 22 or leeward heat exchanger 23, and shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23 are by evaporating or condensation with air heat-exchange thus to the cold-producing medium of its inside.Alternatively, shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23 can be finned heat exchanger.Certain the utility model is not limited to this, and shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23 can also be inflation type heat exchanger, micro-channel heat exchanger etc.

It should be noted that, because the shunting heat exchanger 21 in heat exchanger assembly 2, nearly wind heat exchanger 22 and leeward heat exchanger 23 have above-mentioned structure and position relationship, thus just determine the position more closing on ventilating opening 11 in shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23, heat transfer effect is relatively better, more away from the position of ventilating opening 11, heat transfer effect is relatively poorer.Specifically, for shunting heat exchanger 21, the heat transfer effect in its nearly wind portion 211 is better than the heat transfer effect in its leeward portion 212, and the heat transfer effect of nearly wind heat exchanger 22 is better than the heat transfer effect of leeward heat exchanger 23.

In order to improve the heat exchange uniformity of shunting heat exchanger 21, nearly wind heat exchanger 22 and leeward heat exchanger 23, in embodiment of the present utility model, the two ends of the first communicating pipe 24 are communicated with leeward portion outlet 215 and nearly wind heat exchanger entrance 221, respectively to be guided in nearly wind heat exchanger 22 by the cold-producing mediums flowed out from leeward portion outlet 215.Like this, cold-producing medium bad for the script heat transfer effect in leeward portion 212 can be guided to nearly wind heat exchanger 22 inside and carry out heat exchange, to improve the heat transfer effect of the cold-producing medium in leeward portion 212, improve the heat exchange uniformity of whole heat exchanger assembly 2 thus.

Can be communicated with by arranging the first communicating pipe 24 that leeward portion exports 215 and nearly wind heat exchanger entrance 221 according in the heat exchanger assembly 2 of the utility model embodiment, thus the heat exchange uniformity of whole heat exchanger assembly 2 can be improved.

In second embodiment of the present utility model, the two ends that can also comprise for the second communicating pipe 25 communicating pipe 25, second in heat exchanger assembly 2 are communicated with nearly wind portion outlet 214 and leeward heat exchanger entrance 231, respectively to be guided in leeward heat exchanger 23 by the cold-producing mediums flowed out from nearly wind portion outlet 214.Like this, can nearly guide to leeward heat exchanger 23 inside and carry out heat exchange by the cold-producing medium of the script good effect of heat exchange in wind portion 211, thus by the first communicating pipe 24 and the second communicating pipe 25, thus the heat exchange uniformity of whole heat exchanger assembly 2 can be improved further, and then improve heat exchange efficiency.

Be understandable that, can be applied in any refrigeration plant 100 to promote the performance of various refrigeration plant 100 according to the heat exchanger assembly 2 of the utility model embodiment.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " illustrative examples ", " example ", " concrete example " or " some examples " etc. means to describe in conjunction with this embodiment or example are contained at least one embodiment of the present utility model or example.In this manual, identical embodiment or example are not necessarily referred to the schematic representation of above-mentioned term.And the specific features of description, structure, material or feature can combine in an appropriate manner in any one or more embodiment or example.

Although illustrate and described embodiment of the present utility model, those having ordinary skill in the art will appreciate that: can carry out multiple change, amendment, replacement and modification to these embodiments when not departing from principle of the present utility model and aim, scope of the present utility model is by claim and equivalents thereof.

Claims (8)

1. a refrigeration plant, is characterized in that, comprising:

Housing, described housing is provided with ventilating opening;

Heat exchanger assembly, described heat exchanger assembly is located in described housing, and described heat exchanger assembly comprises:

Shunting heat exchanger, described shunting heat exchanger has the contiguous nearly wind portion of described ventilating opening and the leeward portion away from described ventilating opening, described shunting heat exchanger is provided with the shunting heat exchanger entrance entered for cold-producing medium, described nearly wind portion is provided with the nearly wind portion outlet of flowing out for cold-producing medium, and described leeward portion is provided with the leeward portion outlet of flowing out for cold-producing medium;

Nearly wind heat exchanger, described nearly wind heat exchanger is connected in the described near wind portion of described shunting heat exchanger, and described nearly wind heat exchanger is provided with the nearly wind heat exchanger entrance flowed into for cold-producing medium and the nearly wind heat exchanger exit flowed out for cold-producing medium;

Leeward heat exchanger, described leeward heat exchanger is greater than the distance of described nearly wind heat exchanger apart from described ventilating opening apart from the distance of described ventilating opening, described leeward heat exchanger is connected in the described leeward portion of described shunting heat exchanger, and described leeward heat exchanger is provided with the leeward heat exchanger entrance flowed into for cold-producing medium and the leeward heat exchanger exit flowed out for cold-producing medium;

First communicating pipe, the two ends of described first communicating pipe are communicated with described leeward portion outlet and described nearly wind heat exchanger entrance, respectively to guide in described nearly wind heat exchanger by the cold-producing medium from described leeward portion outlet outflow;

Second communicating pipe, the two ends of described second communicating pipe are communicated with described nearly wind portion outlet and described leeward heat exchanger entrance, respectively to be guided in described leeward heat exchanger by the cold-producing medium from described nearly wind portion outlet outflow.

2. refrigeration plant according to claim 1, is characterized in that, described ventilating opening be formed in the top of described housing and described housing from described ventilating opening air intake.

3. refrigeration plant according to claim 1, is characterized in that, described shunting heat exchanger is in tilted layout relative to vertical direction, described nearly wind heat exchanger be in tilted layout relative to vertical direction and with described shunting heat exchanger in fall " V " shape arrange.

4. refrigeration plant according to claim 3, is characterized in that, roughly vertically extending at least partially of described leeward heat exchanger.

5. refrigeration plant according to claim 1, is characterized in that, described nearly wind heat exchanger entrance is positioned at the top of described nearly wind heat exchanger exit; Or

Described leeward heat exchanger entrance is positioned at the top of described leeward heat exchanger exit.

6. refrigeration plant according to claim 1, it is characterized in that, also comprise supplementary heat exchanger, described supplementary heat exchanger is located on the first type surface of the described ventilating opening of vicinity of described shunting heat exchanger, described supplementary heat exchanger has the supplementary heat exchanger entrance flowed into for cold-producing medium and the supplementary heat exchanger outlet of flowing out for cold-producing medium, and described supplementary heat exchanger outlet is communicated with described shunting heat exchanger entrance.

7. refrigeration plant according to claim 1, is characterized in that, is provided with distribution three-way pipe in described shunting heat exchanger, and three openings in described distribution three-way pipe export and leeward portion outlet with described shunting heat exchanger entrance, nearly wind portion respectively.

8. for a heat exchanger assembly for refrigeration plant, it is characterized in that, described refrigeration plant comprises housing, and described housing is provided with ventilating opening, and described heat exchanger assembly is located in described housing, and described heat exchanger assembly comprises:

Shunting heat exchanger, described shunting heat exchanger has the contiguous nearly wind portion of described ventilating opening and the leeward portion away from described ventilating opening, described shunting heat exchanger is provided with the shunting heat exchanger entrance entered for cold-producing medium, described nearly wind portion is provided with the nearly wind portion outlet of flowing out for cold-producing medium, and described leeward portion is provided with the leeward portion outlet of flowing out for cold-producing medium;

Nearly wind heat exchanger, described nearly wind heat exchanger is connected in the described near wind portion of described shunting heat exchanger, and described nearly wind heat exchanger is provided with the nearly wind heat exchanger entrance flowed into for cold-producing medium and the nearly wind heat exchanger exit flowed out for cold-producing medium;

Leeward heat exchanger, described leeward heat exchanger is greater than the distance of described nearly wind heat exchanger apart from described ventilating opening apart from the distance of described ventilating opening, described leeward heat exchanger is connected in the described leeward portion of described shunting heat exchanger, and described leeward heat exchanger is provided with the leeward heat exchanger entrance flowed into for cold-producing medium and the leeward heat exchanger exit flowed out for cold-producing medium;

First communicating pipe, the two ends of described first communicating pipe are communicated with described leeward portion outlet and described nearly wind heat exchanger entrance, respectively to guide in described nearly wind heat exchanger by the cold-producing medium from described leeward portion outlet outflow;

Second communicating pipe, the two ends of described second communicating pipe are communicated with described nearly wind portion outlet and described leeward heat exchanger entrance, respectively to be guided in described leeward heat exchanger by the cold-producing medium from described nearly wind portion outlet outflow.