CN108534440A - Modular refrigeration system - Google Patents

Abstract

Modular refrigeration system according to the ... of the embodiment of the present invention, including the compressor, condenser, throttling set and the evaporator that are sequentially connected, which is characterized in that modular refrigeration system further includes：First shell, first shell is interior, and there is condenser air concentrator, condenser air concentrator to have the first air inlet and the first air outlet；Second shell, second shell is interior, and there is evaporator air duct, evaporator air duct there is the second air inlet and the second air outlet, condenser to set on the first shell and in condenser air concentrator, and evaporator is set on the second housing and in evaporator air duct.The versatility and applicability of the modular refrigeration system modular refrigeration system according to the ... of the embodiment of the present invention be good, at low cost, dismounting and easy to maintain.

Description

Modular refrigeration system

Technical field

The present invention relates to refrigeration technology fields, and in particular, to modular refrigeration system.

Background technology

In the related technology, refrigerating equipment is arrived in embedded setting to the refrigeration system of refrigerating equipment as a whole In.For example, for refrigerator, the air communication of the condenser and compressor of refrigeration system as outer circulation component and outside, Inner bin space unicom of the evaporator and capillary of refrigeration equipment as internal circulation member and refrigerator.Evaporator and capillary Pipe is installed to refrigerator inside, and when the body structure of refrigerator changes, such as the box body structure of refrigerator of different model is different, steams Hair device and condenser must be also changed to adapt to different refrigerator bodies.

Since the refrigeration system of refrigerator in the related technology is integrally directly embedded into refrigerator complete machine, once refrigeration system Refrigerator complete machine need to be dismantled and be repaired by component malfunction, and repair is very inconvenient.Moreover, refrigerator complete machine has once produced At it is difficult to change, scrappage is high.In addition, the type of different structure size needs to design and manufacture different refrigeration systems to give Matching, the poor universality of refrigeration system lead to that the production cost increases.

Invention content

The present invention is directed to solve at least some of the technical problems in related technologies.For this purpose, the present invention It is proposed a kind of modular refrigeration system on one side, the versatility and applicability of the modular refrigeration system be good, at low cost, dismounting With it is easy to maintain.

Another aspect of the present invention proposes a kind of refrigeration equipment with modular refrigeration system.

Modular refrigeration system according to the ... of the embodiment of the present invention, including the compressor, condenser, the throttling set that are sequentially connected And evaporator, which is characterized in that the modular refrigeration system further includes：First shell, the first shell is interior to have condensation Device air duct, the condenser air concentrator have the first air inlet and the first air outlet；Second shell, the second shell is interior to have steaming Device air duct is sent out, there is the second air inlet and the second air outlet, the condenser to be located at the first shell in the evaporator air duct It goes up and is located in the condenser air concentrator, the evaporator is located in the second shell and in the evaporator air duct.

The versatility and applicability of the modular refrigeration system modular refrigeration system according to the ... of the embodiment of the present invention be good, at This is low, dismounting and easy to maintain.

Modular refrigeration system according to the ... of the embodiment of the present invention further includes following technical characteristic.

Further, the inner cavity of the first shell constitutes the condenser air concentrator, and first is equipped in the first shell The inner cavity of the first shell is divided into the first interconnected condenser air concentrator part and second cold by partition board, the first partition The first end of condenser air passage portion, first condenser air concentrator part constitutes the first air inlet, second condenser air concentrator Partial first end constitutes the first air outlet, the second end of first condenser air concentrator part and second condenser air concentrator Partial second end connection.

Advantageously, first condenser air concentrator part and second condenser air concentrator part are arranged side by side, described cold Condenser and the compressor are located in first condenser air concentrator part, and the condenser is adjacent to first air inlet, institute Compressor is stated along from first air inlet to the downstream side for being located at the condenser on the direction of first air outlet.

Preferably, first air outlet constitutes the first mounting hole for installing the first wind turbine.

In some embodiments of the invention, the inner cavity composition evaporator air duct of the second shell, described second Second partition is equipped in shell, the inner cavity of the second shell is divided into the first interconnected evaporator wind by the second partition The first end of road part and the second evaporator air passage portion, the first evaporator air passage portion constitutes the second air inlet, described The first end of second evaporator air passage portion constitutes the second air outlet, the second end of the first evaporator air passage portion with it is described The second end of second evaporator air passage portion is connected to.

Further, the first evaporator air passage portion and the second evaporator air passage portion are arranged side by side, described Evaporator is located in the first evaporator air passage portion.

Advantageously, the mounting plate of neighbouring second air outlet, the peace are equipped in the second evaporator air passage portion Loading board is equipped with the second mounting hole for installing the second wind turbine.

In some embodiments of the invention, the bottom wall of the first shell is equipped with catch basin, the second shell There is osculum on bottom wall, the second shell is located above the first shell, so as to the evaporator condensed water from institute Second shell is stated to flow automatically in the catch basin by the osculum.

Further, the osculum is formed in the bottom wall of the second shell and evaporator area opposing upper and lower The side of the osculum is arrived in domain, and in the bottom wall of the second shell with the evaporator edges region Cheng Congzhou opposing upper and lower The wedge-shaped planar tilted down upwards, the osculum and the catch basin are opposite up and down.

Advantageously, connecting line is connected between the compressor and the condenser, and the connecting line is at least A part is located in the catch basin or the neighbouring catch basin.

In some embodiments of the invention, the compressor is located in the first shell, and the throttling set is set In the second shell.

Second aspect of the present invention provides a kind of refrigeration equipment, and the refrigeration equipment includes modular refrigeration system above-mentioned System.

Description of the drawings

Fig. 1 is the schematic diagram of the modular refrigeration system of one embodiment of the invention.

Fig. 2 be one embodiment of the invention modular refrigeration system in first shell, condenser and compressor dress With schematic diagram.

Fig. 3 to Fig. 5 be one embodiment of the invention modular refrigeration system in second shell, the composite structure of evaporator View in different directions.

Reference numeral：

Modular refrigeration system 100,

Compressor 1, condenser 2, throttling set 3, evaporator 4,

First shell 5, condenser air concentrator 501, first partition 51, the first condenser air concentrator part 502, the second condenser wind Road part 503, the first air inlet 504, the first air outlet 505, catch basin 506,

Second shell 6, evaporator air duct 601, second partition 61, the first evaporator air passage portion 602, the second evaporator wind Road part 603, the second air inlet 604, the second air outlet 605, mounting plate 62, the second mounting hole 606, osculum 607.

Specific implementation mode

The embodiment of the present invention is described below in detail, examples of the embodiments are shown in the accompanying drawings.Below with reference to The embodiment of attached drawing description is exemplary, it is intended to for explaining the present invention, and is not considered as limiting the invention.

In the related technology, refrigerating equipment is arrived in embedded setting to the refrigeration system of refrigerating equipment as a whole In.For example, for refrigerator, the condenser 2 and compressor 1 of refrigeration system join as outer circulation component and the air of outside It is logical, the inner bin space unicom of the evaporator 4 and capillary of refrigeration equipment as internal circulation member and refrigerator.Evaporator 4 Be installed to refrigerator inside with capillary, when the body structure of refrigerator changes, such as different model box body structure of refrigerator Difference, evaporator 4 and condenser 2 must be also changed to adapt to different refrigerator bodies.

Since the refrigeration system of refrigerator in the related technology is integrally directly embedded into refrigerator complete machine, once refrigeration system Refrigerator complete machine need to be dismantled and be repaired by component malfunction, and repair is very inconvenient.Moreover, refrigerator complete machine has once produced At it is difficult to change, scrappage is high.In addition, the type of different structure size needs to design and manufacture different refrigeration systems to give Matching, the poor universality of refrigeration system lead to that the production cost increases.

For this purpose, the present invention provides a kind of modular refrigeration system 100, the detailed description present invention is implemented below in conjunction with the accompanying drawings The modular refrigeration system 100 of example.

In conjunction with Fig. 1 to Fig. 5, modular refrigeration system 100 according to the ... of the embodiment of the present invention, including the compressor that is sequentially connected 1, condenser 2, throttling set 3 and evaporator 4, compressor 1, condenser 2, throttling set 3 and the combination of evaporator 4 form heat exchange Circuit.The modular refrigeration system 100 further includes first shell 5 and second shell 6, and the condenser 2 is located at described first In shell 5, the evaporator 4 is located in the second shell 6.By first shell 5 and second shell 6 by evaporator 4 and cold Condenser 2 is arranged apart, to form a complete heat-exchanger rig.

For the refrigeration system (such as refrigeration system of refrigerator) in the equipment of traditional technology, module of the invention Change refrigeration system 100 when breaking down, do not need to safeguard after dismantling equipment complete machine, and only needs to modularization system Cooling system 100 is safeguarded.

Moreover, refrigeration equipment in actual use, may same type of equipment need different heat exchange efficiencies, For example, may only need smaller refrigeration work consumption for the smaller equipment of refrigeration space.In this regard, having the modularization system The equipment of cooling system 100 only needs to replace modular refrigeration system 100, does not need to set complete machine again Meter is changed the refrigeration or heat exchange power of equipment by modular refrigeration system 100, the mesh such as cost, energy-saving and environmental protection is reduced to reach , by setup module refrigeration system 100, modular design can be carried out to equipment, reduce the difficulty of design.

In addition, the difference for identical product in different times needs, it can also use and replace modular refrigeration system 100 To meet the actual demand of identical product different times.

Modular refrigeration system 100 according to the ... of the embodiment of the present invention, the system have the related elements of refrigeration system, shape As a complete heat-exchange system, in the equipment fault with the modular refrigeration system 100, it is only necessary to modularization system Cooling system 100 is safeguarded, to reduce maintenance cost, reduces the scrappage of equipment, energy conservation and environmental protection.Furthermore it is also possible to Optimize the modularized design of the equipment with the modular refrigeration system 100.

If Fig. 2 is formed in the first shell 5 with condenser air concentrator 501 in some embodiments of the invention, The condenser 2 is located in the condenser air concentrator 501, and condenser 2 is radiated and conveyed by condenser air concentrator 501 Thermal current.There is condenser air concentrator 501 first air inlet 504 and the first air outlet 505, air-flow to enter from the first air inlet 504 By 505 eductor condenser air duct 501 of the first air outlet after condenser air concentrator 501.

In use, condenser 2 and compressor 1 can all generate heat, therefore, it is necessary to by air duct to condenser 2 It radiates with compressor 1.The condenser air concentrator 501 that the present invention is arranged in first shell 5 can be to the compressor of condenser 2 1 radiates, with the stable operation of maintenance module refrigeration system 100.

It is of course also possible to utilize condenser air concentrator 501 to provide hot wind as needed.

Further, such as Fig. 2, the inner cavity of the first shell 5 constitutes the condenser air concentrator 501, the first shell 5 Interior to be equipped with first partition 51, the inner cavity of the first shell 5 is divided into the first interconnected condenser by the first partition 51 The first end of air passage portion 502 and the second condenser air concentrator part 503, first condenser air concentrator part 502 constitutes first The first end of air inlet 504, second condenser air concentrator part 503 constitutes the first air outlet 505, the first condenser wind The second end of road part 502 is connected to the second end of second condenser air concentrator part 503.

Condenser air concentrator 501 is defined in first shell 5 by first partition 51 so that limited in first shell 5 The condenser air concentrator 501 gone out is the air duct of detour, and air-flow can fully exchange heat in condenser air concentrator 501, to cold The heat exchange efficiency and effect of condenser 2 and compressor 1, but also can reduce due to failure rate caused by high temperature.

Preferably, such as Fig. 2, first condenser air concentrator part 502 and second condenser air concentrator part 503 are side by side Arrangement, the condenser 2 and the compressor 1 are located in first condenser air concentrator part 502, and the condenser 2 is neighbouring First air inlet 504, the compressor 1 is on from first air inlet 504 to the direction of first air outlet 505 Positioned at the downstream side of the condenser 2.

Condenser 2 is used as condensation element, needs in time to radiate to condenser 2, otherwise can influence the cold of condenser 2 Solidifying effect, the present invention is by the way that condenser 2 to be arranged adjacent to the first air inlet 504 so that and condenser 2 can rapidly radiate, from And improve the heat exchange property of modular refrigeration system 100.Compressor 1 will produce heat in the process of running, in order to avoid compression The heat of machine 1 influences the heat transfer effect of condenser 2, and the present invention is by the downstream of compressor 1 setting and condenser 2, to further Improve the heat exchange property of condenser 2 in ground.

In addition, compressor 1 is set in the first condenser air concentrator part 502, it, can be timely in 1 failure of compressor Ground is maintained or replaced compressor 1, to improve maintenance efficiency and reduce maintenance cost.

Moreover, because the first condenser air concentrator part 502 and the second condenser air concentrator part 503 are arranged side by side, condenser 2 With the setting of compressor 1 in the first condenser air concentrator 501, in this way, in the gas process of circulation, enter from the first air inlet 504 Air-flow will in the first condenser air concentrator part 502 extended residence time, fully exchange heat.

Advantageously, first air outlet 505 constitutes the first mounting hole for installing the first wind turbine.That is, this The mode that the condenser air concentrator 501 of invention uses exhausting radiates so that air-flow is gentle, improves the effect of heat dissipation.

In conjunction with embodiment above-mentioned, the first wind turbine is placed in the first air outlet 505, that is, the second condenser air concentrator portion The outlet for dividing 503, can allow the hot wind in the second condenser air concentrator part 503 to be rapidly discharged, in order to more Cold air is rapidly introduced into time into the first condenser air concentrator part 502, is improved the heat dissipation to condenser 2 and compressor 1 and is imitated Fruit.

In addition, the first wind turbine is set to the first air outlet 505, the first air inlet 504 is set to relative to the first wind turbine For, influence of first wind turbine to radiating airflow can be reduced, the heat dissipation effect to condenser 2 is improved.

Such as Fig. 5 is simultaneously combined shown in Fig. 3 and Fig. 4, in some embodiments of the invention, is formed in the second shell 6 Evaporator air duct 601, the evaporator 4 are located in the evaporator air duct 601, by evaporator air duct 601 to evaporator 4 into Row heat dissipation and transporting cold-air stream.Evaporator air duct 601 has the second air inlet 604 and the second air outlet 605, and air-flow is by second Air inlet 604 enters evaporator air duct 601, then from the second air outlet 605 discharge evaporator air duct 601.

In use, evaporator 4 can freeze, and therefore, it is necessary to the cold on evaporator 4 is taken away by air duct.This hair The bright evaporator air duct 601 being arranged in second shell 6 can take away the cold on evaporator 4, and being freezed with maintenance moduleization is The stable operation of system 100.Cold wind can be provided by evaporator air duct 601.

It is respectively formed condenser air concentrator 501 and evaporator air duct 601, first shell in first shell 5 and second shell 6 5 and 6 each self-forming wind inlet channel of second shell and flow cycle, be conducive to the isolation of condenser 2 and evaporator 4, improve heat exchange Efficiency and effect, improve the utilization rate of the energy.In addition, mutually isolated equipment can also maintain easily.

Such as Fig. 5 simultaneously combines Fig. 3 and Fig. 4, and in some embodiments of the invention, the inner cavity of the second shell 6 constitutes institute It states evaporator air duct 601, is equipped with second partition 61 in the second shell 6, the second partition 61 is by the second shell 6 Inner cavity is divided into interconnected the first evaporator air passage portion 602 and the second evaporator air passage portion 603, first evaporator The first end of air passage portion 602 constitutes the second air inlet 604, and the first end of the second evaporator air passage portion 603 constitutes the Two air outlets 605, the of the second end of the first evaporator air passage portion 602 and the second evaporator air passage portion 603 Two ends are connected to.

Evaporator air duct 601 is defined in second shell 6 by second partition 61 so that limited in second shell 6 The evaporator air duct 601 gone out is the air duct of detour, and air-flow can fully exchange heat in evaporator air duct 601, to carry The efficiency and effect of height heat exchange, take away the cold on evaporator 4 in time, can improve the refrigeration effect of modular refrigeration system 100 Rate.

Such as Fig. 5, further, the first evaporator air passage portion 602 and the second evaporator air passage portion 603 are simultaneously Arrangement is set, and the evaporator 4 is located in the first evaporator air passage portion 602.

Since the first evaporator air passage portion 602 and the second evaporator air passage portion 603 are arranged side by side, evaporator 4 is arranged In in the first condenser air concentrator 501, in this way, in the gas process of circulation, the air-flow that enters from the second air inlet 604 will be the Extended residence time in one evaporator air passage portion 602 fully exchanges heat.

Advantageously, the mounting plate of neighbouring second air outlet 605 is equipped in the second evaporator air passage portion 603 62, the mounting plate 62 is equipped with the second mounting hole 606 for installing the second wind turbine.That is, the evaporator of the present invention The mode that air duct 601 uses exhausting radiates so that air-flow is gentle, improves the effect of heat dissipation.

In conjunction with embodiment above-mentioned, the second wind turbine is placed in the second air outlet 605, that is, the second evaporator air duct portion The outlet for dividing 603, can allow the hot wind in the second evaporator air passage portion 603 to be rapidly discharged, in order to more Cold air is rapidly introduced into time into the first evaporator air passage portion 602, improves the heat transfer effect to evaporator 4.

In conjunction with Fig. 2 and Fig. 4, in some embodiments of the invention, the bottom wall of the first shell 5 is equipped with catch basin 506, there is on the bottom wall of the second shell 6 osculum 607, the second shell 6 to be located above the first shell 5, with The condensed water that toilet states evaporator 4 is flowed automatically to by the osculum 607 in the catch basin 506 from the second shell 6.It is logical When crossing the setting of second shell 6 with condensed water is generated above first shell 5, on the evaporator 4 in second shell 6, condensed water It can be discharged into catch basin 506 by osculum 607, due to being provided with condenser 2 and compressor 1 in first shell 5, first Temperature in shell 5 is higher so that condenser 2 can volatilize in time, reduce condensed water aggregation.

Further, osculum 607, and the are set in the bottom wall of second shell 6 with 4 region opposing upper and lower of evaporator At least part of two shells, 6 bottom wall, which tilts down, extends to osculum 607, is tilted with being formed on the bottom wall of second shell 6 Extend downwardly into the guiding lozenges of osculum 607.

Further preferably osculum 607 is opposite with about 506 catch basin.

In order to avoid condensed water accumulates in first shell, the pipeline of connect compressor 1 and condenser 2 can be utilized extremely Few a part of heating condensate water, makes condensate evaporation.Specifically, being connected with connecting line between compressor 1 and condenser 2 (not shown), and at least part of connecting line is located in catch basin 506 or neighbouring catch basin 506, is used on connecting line The disc-shaped setting in part of heating condensate water.

Furthermore it is possible to which the catch basin 506 is made to have apopore, the water in catch basin 506 is more can to pass through water outlet Hole is discharged.

Preferably, controlled valve can also be set at osculum 607, in this way, can pass through row when generating condensed water Water hole 607 discharges condensation water to catch basin 506, in other cases, can open valve, at this time the heat in first shell 5 Gas can enter in first shell 5, to 4 defrost of evaporator.

The present invention's in some examples, the condenser 2 and the evaporator 4 are micro-channel heat exchanger.Pass through Condenser 2 and evaporator 4 are arranged to micro-channel heat exchanger, energy can be improved in the energy consumption for reducing modular refrigeration system 100 Source utilization rate.And it can be arranged as required to the size of modular refrigeration system 100, to play the mesh for reducing equipment and referring to 's.

In addition, preferably, compressor 1 of the invention can be set in first shell 5, and throttling set 3 is set to In second shell.To further improve refrigerating efficiency.

The modular refrigeration system 100 of a specific example of the invention is described with reference to the accompanying drawings.

In conjunction with Fig. 1 to Fig. 5, which includes refrigeration In addition four big component, that is, compressors 1, condenser 2, capillary, evaporator 4 have first shell 5, second shell 6, defrost heating Pipe, drip tray, coil pipe etc..4 module of evaporator is located above 2 module of condenser, so that defrosting water can flow into 2 catch basin of condenser It is evaporated in 506.4 module of evaporator is docked with refrigerator inner bin, internal circularly cooling.Evaporator 4 is micro- Microchannel evaporator 4, in evaporator air duct, the disposing way of 601 shell and position can be adjusted according to practical situations.

2 module of condenser is located at lower section, is simutaneously arranged compressor 1.2 module of condenser is docked with external environment, will be freezed Agent heat is scattered in ambient enviroment.Condenser 2 is micro-channel condenser 2, and disposing way and position in 2 shell of condenser can To be adjusted according to practical situations.

Preferably, in the present invention, evaporator 4 and condenser 2 are arranged in two box-like shell (i.e. first shells 5 With second shell 6) in, form respectively disengaging air duct and flow cycle；Evaporator 4 is arranged in 2 upside or on the upper side of condenser Position so that the defrosting water on evaporator 4 can be flowed into 2 coil pipe of condenser evaporation sink and be evaporated；Evaporator 4 and condenser 2 one autonomous system of composition, a refrigerator or refrigerator can be become and be used for client by matching refrigerator or refrigerator box body, operation system It makes conveniently；If refrigeration module breaks down, directly refrigeration system taking-up is repaired, is repaired and easy to adjust；One Refrigeration module can match the babinet of different structure according to practical situations, can reach batch production Diversified Products and want It asks.Using micro-channel evaporator 4 and condenser 2, heat transfer effect is strong, is substantially reduced the refrigeration module volume, reduces it in refrigerator Refrigerator is taken up space.

In addition, the present invention also provides a kind of refrigeration equipment, which includes modular refrigeration system above-mentioned.

In the description of the present invention, it is to be understood that, term "center", " longitudinal direction ", " transverse direction ", " length ", " width ", " thickness ", "upper", "lower", "front", "rear", "left", "right", "vertical", "horizontal", "top", "bottom" "inner", "outside", " up time The orientation or positional relationship of the instructions such as needle ", " counterclockwise ", " axial direction ", " radial direction ", " circumferential direction " be orientation based on ... shown in the drawings or Position relationship is merely for convenience of description of the present invention and simplification of the description, and does not indicate or imply the indicated device or element must There must be specific orientation, with specific azimuth configuration and operation, therefore be not considered as limiting the invention.

In addition, term " first ", " second " are used for description purposes only, it is not understood to indicate or imply relative importance Or implicitly indicate the quantity of indicated technical characteristic.Define " first " as a result, the feature of " second " can be expressed or Implicitly include at least one this feature.In the description of the present invention, the meaning of " plurality " is at least two, such as two, three It is a etc., unless otherwise specifically defined.

In the present invention unless specifically defined or limited otherwise, term " installation ", " connected ", " connection ", " fixation " etc. Term shall be understood in a broad sense, for example, it may be being fixedly connected, may be a detachable connection, or integral；Can be that machinery connects It connects, can also be to be electrically connected or can communicate each other；It can be directly connected, can also indirectly connected through an intermediary, it can be with It is the interaction relationship of the connection or two elements inside two elements, unless otherwise restricted clearly.For this field For those of ordinary skill, the specific meanings of the above terms in the present invention can be understood according to specific conditions.

In the present invention unless specifically defined or limited otherwise, fisrt feature can be with "above" or "below" second feature It is that the first and second features are in direct contact or the first and second features pass through intermediary mediate contact.Moreover, fisrt feature exists Second feature " on ", " top " and " above " but fisrt feature be directly above or diagonally above the second feature, or be merely representative of Fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " lower section " and " below " can be One feature is directly under or diagonally below the second feature, or is merely representative of fisrt feature level height and is less than second feature.

In the description of this specification, reference term " one embodiment ", " some embodiments ", " example ", " specifically show The description of example " or " some examples " etc. means specific features, structure, material or spy described in conjunction with this embodiment or example Point is included at least one embodiment or example of the invention.In the present specification, schematic expression of the above terms are not It must be directed to identical embodiment or example.Moreover, particular features, structures, materials, or characteristics described can be in office It can be combined in any suitable manner in one or more embodiments or example.In addition, without conflicting with each other, the skill of this field Art personnel can tie the feature of different embodiments or examples described in this specification and different embodiments or examples It closes and combines.

Although the embodiments of the present invention has been shown and described above, it is to be understood that above-described embodiment is example Property, it is not considered as limiting the invention, those skilled in the art within the scope of the invention can be to above-mentioned Embodiment is changed, changes, replacing and modification.

Claims (11)

1. a kind of modular refrigeration system, including the compressor, condenser, throttling set and the evaporator that are sequentially connected, feature It is, the modular refrigeration system further includes：

First shell, the first shell is interior, and there is condenser air concentrator, the condenser air concentrator to have the first air inlet and first Air outlet；

Second shell, the second shell is interior, and there is evaporator air duct, the evaporator air duct to have the second air inlet and second Air outlet,

The condenser is located in the first shell and in the condenser air concentrator, the evaporator is located at described second On shell and in the evaporator air duct.

2. modular refrigeration system according to claim 1, which is characterized in that described in the inner cavity of the first shell is constituted Condenser air concentrator, the first shell is interior to be equipped with first partition, and the inner cavity of the first shell is divided into phase by the first partition Intercommunicated the first condenser air concentrator part and the second condenser air concentrator part, the first end of first condenser air concentrator part The first air inlet is constituted, the first end of second condenser air concentrator part constitutes the first air outlet, the first condenser wind The second end of road part is connected to the second end of second condenser air concentrator part.

3. modular refrigeration system according to claim 2, which is characterized in that first condenser air concentrator part and institute It states the second condenser air concentrator part to be arranged side by side, the condenser and the compressor are located at first condenser air concentrator part Interior, the condenser is adjacent to first air inlet, and the compressor is along from first air inlet to first air outlet Direction on be located at the condenser downstream side.

4. modular refrigeration system according to claim 1, which is characterized in that first air outlet is constituted for installing First mounting hole of the first wind turbine.

5. according to the modular refrigeration system described in any one of claim 1-4, which is characterized in that the second shell it is interior Chamber constitutes the evaporator air duct, is equipped with second partition in the second shell, and the second partition is by the second shell Inner cavity is divided into interconnected the first evaporator air passage portion and the second evaporator air passage portion, first evaporator air duct portion Point first end constitute the second air inlet, the first end of the second evaporator air passage portion constitutes the second air outlet, described the The second end of one evaporator air passage portion is connected to the second end of the second evaporator air passage portion.

6. modular refrigeration system according to claim 5, which is characterized in that the first evaporator air passage portion and institute It states the second evaporator air passage portion to be arranged side by side, the evaporator is located in the first evaporator air passage portion.

7. modular refrigeration system according to claim 6, which is characterized in that set in the second evaporator air passage portion There are the mounting plate of neighbouring second air outlet, the mounting plate to be equipped with the second mounting hole for installing the second wind turbine.

8. according to the modular refrigeration system described in any one of claim 1-7, which is characterized in that the bottom of the first shell Wall is equipped with catch basin, on the bottom wall of the second shell there is osculum, the second shell to be located in the first shell Face is flowed automatically to by the osculum in the catch basin so as to the condensed water of the evaporator from the second shell.

9. modular refrigeration system according to claim 8, which is characterized in that the osculum is formed in the second shell With in evaporator region opposing upper and lower on the bottom wall of body, and at least part of the bottom wall of the second shell dips down The osculum is tiltedly extended to, the osculum and the catch basin are opposite up and down.

10. modular refrigeration system according to claim 8, which is characterized in that the compressor and the condenser it Between be connected with connecting line, and at least part of the connecting line is located in the catch basin or the neighbouring catch basin.

11. according to the modular refrigeration system described in any one of claim 1-10, which is characterized in that the compressor is located at In the first shell, and the throttling set is located in the second shell.