CN205048849U - Air -cooling refrigerator - Google Patents

Abstract

The utility model discloses an air -cooling refrigerator, air -cooling refrigerator includes: and a housing. Freezing inner bag, alternating temperature inner bag and cold -stored inner bag, foaming layer, foaming layer are filled in the space between shell and freezing inner bag, alternating temperature inner bag and cold -stored inner bag, built -in fitting, built -in fitting are established in the foaming layer, electronic air door, electronic air door are established on the built -in fitting and are located the foaming layer, are equipped with cold wind import, the export of first and second cold wind on the electronic air door, freezing air outlet air flue, freezing air outlet air flue's first end and the continuous just second end of air outlet link to each other with the cold wind import, alternating temperature air inlet duct and cold -stored air inlet duct, alternating temperature air inlet duct's first end and the export of first cold wind links to each other and the second end links to each other with the alternating temperature air intake, cold -stored air inlet duct's first end and the export of second cold wind links to each other and the second end links to each other with cold -stored air intake. Therefore, air -cooling refrigerator's electronic air door is wayward malfunctioning, and air -cooling refrigerator has advantages such as storing space is big, rational in infrastructure.

Description

Wind cooling refrigerator

Technical field

The utility model relates to field of household appliances, in particular to wind cooling refrigerator.

Background technology

Existing three tradition of a family cold refrigerators comprise refrigerating chamber, refrigerating chamber and temperature-changing chamber, are provided with two MODs with two air outlets in refrigerating chamber, and the cold wind in refrigerating chamber is entered in refrigerating chamber and temperature-changing chamber respectively by two air outlets of this pair of MOD.But there is the defect that easily control is malfunctioning in the two MODs in refrigerating chamber.

Utility model content

The application makes the discovery of the following fact and problem and understanding based on inventor: two MODs of existing three tradition of a family cold refrigerators (namely having the wind cooling refrigerator of refrigerating chamber, temperature-changing chamber and refrigerating chamber) are very easy to control malfunctioning, cause refrigerating chamber and temperature-changing chamber not to freeze.In depth study discovery through inventor, because two MOD to be arranged in refrigerating chamber and the temperature of refrigerating chamber is lower, therefore the easy frosting of two MOD is frozen, thus causes two MOD to be very easy to control malfunctioning.

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 proposes a kind of wind cooling refrigerator, the MOD of described wind cooling refrigerator is wayward malfunctioning.

Comprise according to wind cooling refrigerator of the present utility model: shell; Freezing inner bag, alternating temperature inner bag and refrigeration inner bag, described freezing inner bag, described alternating temperature inner bag and described refrigeration inner bag are located in described shell along the vertical direction at interval, the wall of wherein said alternating temperature inner bag is provided with alternating temperature air inlet, the wall of described refrigeration inner bag is provided with refrigeration air inlet, and the wall of described freezing inner bag is provided with air outlet; Foaming layer, described foaming layer is filled in described shell and described freezing inner bag, space between described alternating temperature inner bag and described refrigeration inner bag; Built-in fitting, described built-in fitting is located in described foaming layer; MOD, described MOD to be located on described built-in fitting and to be positioned at described foaming layer, and described MOD is provided with cold wind import and exports with the first cold wind of described cold wind inlet communication and the second cold wind exports; Freezing exhaust air flue, the first end of described freezing exhaust air flue is connected with described air outlet and the second end is connected with described cold wind import; And alternating temperature wind inlet channel and refrigeration wind inlet channel, first end and described first cold wind of described alternating temperature wind inlet channel export and to be connected and the second end is connected with described alternating temperature air inlet, and first end and described second cold wind of described refrigeration wind inlet channel export and to be connected and the second end is connected with described refrigeration air inlet.

Wayward malfunctioning according to the MOD of wind cooling refrigerator of the present utility model.

In addition, above-mentioned according to the utility model wind cooling refrigerator can also have following additional technical characteristic:

Described built-in fitting and described MOD are relative with described alternating temperature inner bag or described refrigeration inner bag in the horizontal direction.

Described built-in fitting has the installation cavity of open at one end, being located at least partially in described installation cavity of described MOD.

The wall of described installation cavity is provided with horizontal groove and vertical groove, the outer surface of described MOD is provided with horizontal convex tendon and vertical convex tendon, wherein said horizontal convex tendon be located in described horizontal groove at least partially, being located at least partially in described vertical groove of described vertical convex tendon.

The shape of described horizontal convex tendon and the shape adaptation of described horizontal groove, the shape of described vertical convex tendon and the shape adaptation of described vertical groove.

Described horizontal groove comprise be located at described installation cavity the first side wall on the first sub-groove, the 3rd sub-groove that is located at the second sub-groove on the second sidewall of described installation cavity and is located on the rear wall of described installation cavity, the first end of described 3rd sub-groove is connected with the end of described first sub-groove and the second end is connected with the end of described second sub-groove, wherein said vertical groove is located on the rear wall of described installation cavity, and described vertical groove is crossing with described 3rd sub-groove in cross, described horizontal convex tendon comprise be located at described MOD the first side on and the first sub-convex tendon be engaged in described first sub-groove, on on the second side being located at described MOD and the second sub-convex tendon be engaged in described second sub-groove and the rear surface being located at described MOD and the 3rd sub-convex tendon be engaged in described 3rd sub-groove, the first end of described 3rd sub-convex tendon is connected with the end of described first sub-convex tendon and the second end is connected with the end of described second sub-convex tendon, wherein said vertical convex tendon is located on the rear surface of described MOD, described vertical convex tendon is crossing with described 3rd sub-convex tendon in cross.

The roof of described installation cavity is provided with upper groove and diapire is provided with low groove, the upper surface of described MOD is provided with convex tendon and lower surface is provided with lower convex tendon, the upper end of wherein said vertical groove is connected with the rear end of described upper groove and lower end is connected with the rear end of described low groove, the upper end of described vertical convex tendon is connected with the rear end of described upper convex tendon and lower end is connected with the rear end of described lower convex tendon, described upper convex tendon be located in described upper groove at least partially, being located at least partially in described low groove of described lower convex tendon.

Described MOD comprises: body, has cavity in described body, and the diapire of described cavity is provided with described cold wind import; And separator, described separator is located in described cavity, described cavity is divided into the first sub-cavity and the second sub-cavity and described cold wind import is divided into and the first sub-cold wind import of described first sub-cavity connects and the second sub-cold wind import with described second sub-cavity connects by described separator, the roof of wherein said first sub-cavity is provided with described first cold wind outlet, and the roof of described second sub-cavity is provided with described second cold wind outlet.

Described wind cooling refrigerator comprises the sponge member of annular further, and on the front surface that described sponge member is located at described MOD and/or outer peripheral face, described sponge member is resisted against in described foaming layer.

The front portion of the outer peripheral face of described MOD and/or front surface are provided with the flange of annular, and described sponge member is located on described flange.

Accompanying drawing explanation

Fig. 1 is the partial structurtes schematic diagram of the wind cooling refrigerator according to the utility model embodiment;

Fig. 2 is the structural representation of the MOD of wind cooling refrigerator according to the utility model embodiment;

Fig. 3 is the partial sectional view of the wind cooling refrigerator according to the utility model embodiment;

Fig. 4 is the partial sectional view of the wind cooling refrigerator according to the utility model embodiment.

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.Be exemplary below by the embodiment be described with reference to the drawings, be intended to for explaining the utility model, and can not be interpreted as restriction of the present utility model.

The application makes the discovery of the following fact and problem and understanding based on inventor: two MODs of existing three tradition of a family cold refrigerators (namely having the wind cooling refrigerator of refrigerating chamber, temperature-changing chamber and refrigerating chamber) are very easy to control malfunctioning, cause refrigerating chamber and temperature-changing chamber not to freeze.In depth study discovery through inventor, because two MOD to be arranged in refrigerating chamber and the temperature of refrigerating chamber is lower, therefore the easy frosting of two MOD is frozen, thus causes two MOD to be very easy to control malfunctioning.

Below with reference to the accompanying drawings wind cooling refrigerator 10 according to the utility model embodiment is described.As Figure 1-Figure 4, shell 101, freezing inner bag 1021, alternating temperature inner bag 1022, refrigeration inner bag 1023, foaming layer 103, built-in fitting 104, MOD 105, freezing exhaust air flue 1061, alternating temperature wind inlet channel 1062 and refrigeration wind inlet channel (not shown) is comprised according to the wind cooling refrigerator 10 of the utility model embodiment.

Freezing inner bag 1021, alternating temperature inner bag 1022 and refrigeration inner bag 1023 are located in shell 101 along the vertical direction at interval, the wall of alternating temperature inner bag 1022 is provided with alternating temperature air inlet, the wall of refrigeration inner bag 1023 is provided with refrigeration air inlet, and the wall of freezing inner bag 1021 is provided with air outlet.Foaming layer 103 is filled in shell 101 and freezing inner bag 1021, alternating temperature inner bag 1022 and refrigerates in the space between inner bag 1023.Built-in fitting 104 is located in foaming layer 103, MOD 105 is located on built-in fitting 104, MOD 105 is positioned at foaming layer 103, MOD 105 be provided with cold wind import (not shown) and with the first cold wind of this cold wind inlet communication export 1053 and second cold wind export 1054.In other words, MOD 105 is two MODs.

The first end of freezing exhaust air flue 1061 is connected with the air outlet of freezing inner bag 1021, and the second end of freezing exhaust air flue 1061 is connected with the cold wind import of MOD 105.First end and first cold wind of alternating temperature wind inlet channel 1062 export 1053 and are connected, second end of alternating temperature wind inlet channel 1062 is connected with the alternating temperature air inlet of alternating temperature inner bag 1022, first end and second cold wind of this refrigeration wind inlet channel export 1054 and are connected, and the second end of this refrigeration wind inlet channel is connected with the refrigeration air inlet of refrigeration inner bag 1023.

Wind cooling refrigerator 10 according to the utility model embodiment is positioned on the built-in fitting 104 of foaming layer 103 by being arranged on by MOD 105, thus MOD 105 can be arranged in foaming layer 103.MOD 105 can be prevented thus to be in low temperature environment, thus avoid MOD 105 to cause control malfunctioning because frosting is frozen, effectively to freeze to the space in alternating temperature inner bag 1022 and refrigeration inner bag 1023, namely effectively refrigerating chamber and temperature-changing chamber are freezed.

And, because MOD 105 is no longer arranged on (namely MOD 105 is no longer arranged in refrigerating chamber) in freezing inner bag 1021, the storage space in freezing inner bag 1021 therefore can be increased.In addition, by being arranged in built-in fitting 104 by MOD 105, thus more easily, firmly MOD 105 can be installed.

Therefore, wayward malfunctioning according to the MOD 105 of the wind cooling refrigerator 10 of the utility model embodiment, and wind cooling refrigerator 10 has the advantages such as storage space is large, rational in infrastructure.

It will be understood by those skilled in the art that, refrigeration inner bag 1023 can be provided with refrigeration return air inlet, alternating temperature inner bag 1022 can be provided with alternating temperature return air inlet, freezing inner bag 1021 can be provided with the freezing return air inlet be communicated with this alternating temperature return air inlet with this refrigeration return air inlet.These structures can be known, and have nothing to do with the inventive point of the application, therefore no longer describe in detail.

As Figure 1-Figure 4, in embodiments more of the present utility model, wind cooling refrigerator 10 comprises shell 101, freezing inner bag 1021, alternating temperature inner bag 1022, refrigeration inner bag 1023, foaming layer 103, built-in fitting 104, MOD 105, freezing exhaust air flue 1061, alternating temperature wind inlet channel 1062 and refrigeration wind inlet channel (not shown).

Alternating temperature inner bag 1022 is located at the top of freezing inner bag 1021, and refrigeration inner bag 1023 is located at the top of alternating temperature inner bag 1022.Wherein, in freezing inner bag 1021, there is refrigerating chamber, in alternating temperature inner bag 1022, there is temperature-changing chamber, in refrigeration inner bag 1023, there is refrigerating chamber.Wherein, above-below direction is as shown in the arrow C in Fig. 1.

Foaming layer 103 is filled in shell 101 and freezing inner bag 1021, alternating temperature inner bag 1022 and refrigerates in the space between inner bag 1023.Built-in fitting 104 is located in foaming layer 103, and MOD 105 is arranged on built-in fitting 104, and namely MOD 105 is also located in foaming layer 103.

As shown in Figure 3 and Figure 4, in an embodiment of the present utility model, built-in fitting 104 and MOD 105 are in the horizontal direction with alternating temperature inner bag 1022 or to refrigerate inner bag 1023 relative.MOD 105 can be prevented thus to be further in low temperature environment, thus MOD 105 can be avoided because frosting is frozen further to cause control malfunctioning, more effectively to freeze to the space in alternating temperature inner bag 1022 and refrigeration inner bag 1023, namely effectively refrigerating chamber and temperature-changing chamber are freezed.

Advantageously, built-in fitting 104 and MOD 105 are relative with alternating temperature inner bag 1022 in the horizontal direction.Because alternating temperature inner bag 1022 is positioned at the below of refrigeration inner bag 1023, by making MOD 105 relative with alternating temperature inner bag 1022 in the horizontal direction, thus the cold wind leaving freezing inner bag 1021 can be made only to need along one way flow from bottom to top.

Advantageously, built-in fitting 104 and MOD 105 are located at the rear of alternating temperature inner bag 1022.Wherein, rear can be the direction away from user, and front can be the direction of proximal subscribers, and fore-and-aft direction is as shown in the arrow A in Fig. 3 and Fig. 4.

As shown in Figure 2, in examples more of the present utility model, MOD 105 comprises body 1051 and separator (not shown).Have cavity 1052 in body 1051, the diapire of cavity 1052 is provided with this cold wind import.This separator is located in cavity 1052, and cavity 1052 is divided into the first sub-cavity and the second sub-cavity and this cold wind import is divided into and first of this first sub-cavity connects the sub-cold wind import and the second sub-cold wind import with this second sub-cavity connects by this separator.Wherein, the roof of this first sub-cavity is provided with the first cold wind outlet 1053, and the roof of this second sub-cavity is provided with the second cold wind outlet 1054.

In other words, the cold wind entered in the cavity 1052 of MOD 105 by this cold wind import is divided into two parts by this separator, Part I flows in this first sub-cavity, and enter in alternating temperature wind inlet channel 1062 by the first cold wind outlet 1053, Part II flows in this second sub-cavity, and is entered in this refrigeration wind inlet channel by the second cold wind outlet 1054.The structure of MOD 105 can be made thus more reasonable.

As shown in Figure 1, built-in fitting 104 has the installation cavity 1041 of open at one end, being located at least partially in installation cavity 1041 of MOD 105.The structure of wind cooling refrigerator 10 can be made thus more reasonable.Specifically, the front end of installation cavity 1041 is opened wide.

Be located in installation cavity 1041 at least partially due to MOD 105, therefore the second end of freezing exhaust air flue 1061 is connected through built-in fitting 104 or by the through hole on built-in fitting 104 with the cold wind import of MOD 105, the first end of alternating temperature wind inlet channel 1062 exports 1053 through built-in fitting 104 or the through hole passed through on built-in fitting 104 with the first cold wind and is connected, and the first end of this refrigeration wind inlet channel exports 1054 through built-in fitting 104 or the through hole passed through on built-in fitting 104 with the second cold wind and is connected.

In the prior art, in order to prevent altering wind, utilize air inlet and the air outlet of foam seal MOD, namely in air inlet and the air outlet place subsides sponge of MOD.But, by pasting air inlet and the air outlet of foam seal MOD, not only making assembly technology complicated, increase assembly difficulty, and sponge easily being rolled, and affects sealing effectiveness.Specific to according in the wind cooling refrigerator 10 of the utility model embodiment, be located in built-in fitting 104 at least partially due to MOD 105, the installation cavity 1041 that i.e. this cold wind import of MOD 105, the first cold wind outlet 1053 and the second cold wind outlet 1054 are positioned at built-in fitting 104, if therefore MOD 105 this cold wind import, first cold wind outlet 1053 and second cold wind export 1054 places paste sponges, sponge will pass built-in fitting 104, this can increase assembly difficulty further, make assembly technology more complicated, and make sponge be more prone to roll.

In an example of the present utility model, as Figure 1-Figure 4, the wall of installation cavity 1041 is provided with horizontal groove 1042 and vertical groove 1043, and the outer surface of MOD 105 is provided with horizontal convex tendon 1055 and vertical convex tendon 1056.Wherein, horizontal convex tendon 1055 be located in horizontal groove 1042 at least partially, being located at least partially in vertical groove 1043 of vertical convex tendon 1056.

Not only can more easily, firmly MOD 105 be arranged in the installation cavity 1041 of built-in fitting 104 thus, and coordinated with horizontal groove 1042 by horizontal convex tendon 1055, can prevent the cold wind exported from freezing inner bag 1021 from altering wind along the vertical direction, coordinated with vertical groove 1043 by vertical convex tendon 1056, can prevent the cold wind exported from freezing inner bag 1021 from altering wind in left-right direction.That is, sponges are pasted without the need to exporting 1054 places at this cold wind import of MOD 105, the first cold wind outlet 1053 and the second cold wind according to the wind cooling refrigerator 10 of the utility model embodiment, thus not only simplify assembly technology, reduce assembly difficulty, and improve sealing effectiveness.

Advantageously, the shape of horizontal convex tendon 1055 and the shape adaptation of horizontal groove 1042, the shape of vertical convex tendon 1056 and the shape adaptation of vertical groove 1043.Not only more easily, firmly MOD 105 can be arranged in the installation cavity 1041 of built-in fitting 104 thus, and the sealing effectiveness to MOD 105 can be improved further.

As Figure 1-Figure 4, in a concrete example of the present utility model, horizontal groove 1042 comprise be located at installation cavity 1041 the first side wall (such as left side wall) on the first sub-groove 10421, the 3rd sub-groove 10423 that is located at the second sub-groove 10422 on second sidewall (such as right side wall) of installation cavity 1041 and is located on the rear wall of installation cavity 1041.The first end (such as left end) of the 3rd sub-groove 10423 is connected with the end (such as rear end) of the first sub-groove 10421, and second end (such as right-hand member) of the 3rd sub-groove 10423 is connected with the end (such as rear end) of the second sub-groove 10422.Wherein, vertical groove 1043 is located on the rear wall of installation cavity 1041, and vertical groove 1043 is crossing with the 3rd sub-groove 10423 in cross.

It is upper and be engaged in the first sub-convex tendon 10551 in the first sub-groove 10421, be located on upper and the second sub-convex tendon 10552 be engaged in the second sub-groove 10422 in second side (such as right flank) of MOD 105 and the rear surface being located at MOD 105 and the 3rd sub-convex tendon 10553 be engaged in the 3rd sub-groove 10423 that horizontal convex tendon 1055 comprises the first side (such as left surface) being located at MOD 105.The first end (such as left end) of the 3rd sub-convex tendon 10553 is connected with the end (such as rear end) of the first sub-convex tendon 10551, and second end (such as right-hand member) of the 3rd sub-convex tendon 10553 is connected with the end (such as rear end) of the second sub-convex tendon 10552.Wherein, vertical convex tendon 1056 is located on the rear surface of MOD 105, and vertical convex tendon 1056 is crossing with the 3rd sub-convex tendon 10553 in cross.

Not only more easily, firmly MOD 105 can be arranged in the installation cavity 1041 of built-in fitting 104 thus, and the sealing effectiveness to MOD 105 can be improved further.Wherein, left and right directions as indicated by arrow b in fig. 1.

Advantageously, the roof of installation cavity 1041 is provided with upper groove 1044, the diapire of installation cavity 1041 is provided with low groove 1045, and the upper surface of MOD 105 is provided with convex tendon 1057, and the lower surface of MOD 105 is provided with lower convex tendon (not shown).Wherein, the upper end of vertical groove 1043 is connected with the rear end of upper groove 1044 and the lower end of vertical groove 1043 is connected with the rear end of low groove 1045, the upper end of vertical convex tendon 1056 is connected with the rear end of upper convex tendon 1057 and vertically the lower end of convex tendon 1056 is connected with the rear end of this lower convex tendon, upper convex tendon 1057 be located in upper groove 1044 at least partially, being located at least partially in low groove 1045 of this lower convex tendon.Not only more easily, firmly MOD 105 can be arranged in the installation cavity 1041 of built-in fitting 104 thus, and can prevent the cold wind exported from freezing inner bag 1021 from altering wind in left-right direction further.

As shown in Figure 2 and Figure 4, wind cooling refrigerator 10 comprises the sponge member 107 of annular further, and on the front surface that sponge member 107 is located at MOD 105 and/or outer peripheral face 1058, sponge member 107 is resisted against in foaming layer 103.In other words, sponge member 107 can be located on the front surface of MOD 105, also can be located on the outer peripheral face 1058 of MOD 105, on the front surface that can also be located at MOD 105 and outer peripheral face 1058.The sealing effectiveness to MOD 105 can be improved thus further.

Advantageously, the front portion of the outer peripheral face 1058 of MOD 105 and/or front surface are provided with the flange 108 of annular, and sponge member 107 is located on flange 108.That is, flange 108 can be located on the front surface of MOD 105, also can be located on the outer peripheral face 1058 of MOD 105, on the front surface that can also be located at MOD 105 and outer peripheral face 1058.More easily, firmly sponge member 107 can be installed thus.

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 ", " counterclockwise ", " axis ", " radial direction ", orientation or the position relationship of the instruction such as " circumference " 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 at least one this feature.In description of the present utility model, the implication of " multiple " is at least two, such as two, three etc., unless otherwise expressly limited specifically.

In the utility model, unless otherwise clearly defined and limited, the term such as term " installation ", " being connected ", " connection ", " fixing " should be interpreted broadly, and such as, can be fixedly connected with, also can be removably connect, or integral; Can be mechanical connection, also can be electrical connection or each other can communication; 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, unless otherwise clear and definite restriction.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 " on " or D score can be that the first and second features directly contact, or the first and second features are by intermediary mediate contact.And, fisrt feature second feature " on ", " top " and " above " but fisrt feature directly over second feature or oblique upper, or only represent that fisrt feature level height is higher than second feature.Fisrt feature second feature " under ", " below " and " below " can be fisrt feature immediately below second feature or tiltedly below, or only represent that fisrt feature level height is less than second feature.

In the description of this description, specific features, structure, material or feature that the description of reference term " embodiment ", " some embodiments ", " 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, to the schematic representation of above-mentioned term not must for be identical embodiment or example.And the specific features of description, structure, material or feature can combine in one or more embodiment in office or example in an appropriate manner.In addition, when not conflicting, the feature of the different embodiment described in this description or example and different embodiment or example can carry out combining and combining by those skilled in the art.

Although illustrate and described embodiment of the present utility model above, be understandable that, above-described embodiment is exemplary, can not be interpreted as restriction of the present utility model, those of ordinary skill in the art can change above-described embodiment, revises, replace and modification in scope of the present utility model.

Claims (10)

1. a wind cooling refrigerator, is characterized in that, comprising:

Shell;

Freezing inner bag, alternating temperature inner bag and refrigeration inner bag, described freezing inner bag, described alternating temperature inner bag and described refrigeration inner bag are located in described shell along the vertical direction at interval, the wall of wherein said alternating temperature inner bag is provided with alternating temperature air inlet, the wall of described refrigeration inner bag is provided with refrigeration air inlet, and the wall of described freezing inner bag is provided with air outlet;

Foaming layer, described foaming layer is filled in described shell and described freezing inner bag, space between described alternating temperature inner bag and described refrigeration inner bag;

Built-in fitting, described built-in fitting is located in described foaming layer;

MOD, described MOD to be located on described built-in fitting and to be positioned at described foaming layer, and described MOD is provided with cold wind import and exports with the first cold wind of described cold wind inlet communication and the second cold wind exports;

Freezing exhaust air flue, the first end of described freezing exhaust air flue is connected with described air outlet and the second end is connected with described cold wind import; And

Alternating temperature wind inlet channel and refrigeration wind inlet channel, first end and described first cold wind of described alternating temperature wind inlet channel export and to be connected and the second end is connected with described alternating temperature air inlet, and first end and described second cold wind of described refrigeration wind inlet channel export and to be connected and the second end is connected with described refrigeration air inlet.

2. wind cooling refrigerator according to claim 1, is characterized in that, described built-in fitting and described MOD are relative with described alternating temperature inner bag or described refrigeration inner bag in the horizontal direction.

3. wind cooling refrigerator according to claim 1, is characterized in that, described built-in fitting has the installation cavity of open at one end, being located at least partially in described installation cavity of described MOD.

4. wind cooling refrigerator according to claim 3, it is characterized in that, the wall of described installation cavity is provided with horizontal groove and vertical groove, the outer surface of described MOD is provided with horizontal convex tendon and vertical convex tendon, wherein said horizontal convex tendon be located in described horizontal groove at least partially, being located at least partially in described vertical groove of described vertical convex tendon.

5. wind cooling refrigerator according to claim 4, is characterized in that, the shape of described horizontal convex tendon and the shape adaptation of described horizontal groove, the shape of described vertical convex tendon and the shape adaptation of described vertical groove.

6. wind cooling refrigerator according to claim 5, is characterized in that,

Described horizontal groove comprise be located at described installation cavity the first side wall on the first sub-groove, the 3rd sub-groove that is located at the second sub-groove on the second sidewall of described installation cavity and is located on the rear wall of described installation cavity, the first end of described 3rd sub-groove is connected with the end of described first sub-groove and the second end is connected with the end of described second sub-groove, wherein said vertical groove is located on the rear wall of described installation cavity, and described vertical groove is crossing with described 3rd sub-groove in cross;

Described horizontal convex tendon comprise be located at described MOD the first side on and the first sub-convex tendon be engaged in described first sub-groove, on on the second side being located at described MOD and the second sub-convex tendon be engaged in described second sub-groove and the rear surface being located at described MOD and the 3rd sub-convex tendon be engaged in described 3rd sub-groove, the first end of described 3rd sub-convex tendon is connected with the end of described first sub-convex tendon and the second end is connected with the end of described second sub-convex tendon, wherein said vertical convex tendon is located on the rear surface of described MOD, described vertical convex tendon is crossing with described 3rd sub-convex tendon in cross.

7. wind cooling refrigerator according to claim 6, it is characterized in that, the roof of described installation cavity is provided with upper groove and diapire is provided with low groove, the upper surface of described MOD is provided with convex tendon and lower surface is provided with lower convex tendon, the upper end of wherein said vertical groove is connected with the rear end of described upper groove and lower end is connected with the rear end of described low groove, the upper end of described vertical convex tendon is connected with the rear end of described upper convex tendon and lower end is connected with the rear end of described lower convex tendon, described upper convex tendon be located in described upper groove at least partially, being located at least partially in described low groove of described lower convex tendon.

8. wind cooling refrigerator according to claim 1, is characterized in that, described MOD comprises:

Body, has cavity in described body, and the diapire of described cavity is provided with described cold wind import; With

Separator, described separator is located in described cavity, described cavity is divided into the first sub-cavity and the second sub-cavity and described cold wind import is divided into and the first sub-cold wind import of described first sub-cavity connects and the second sub-cold wind import with described second sub-cavity connects by described separator, the roof of wherein said first sub-cavity is provided with described first cold wind outlet, and the roof of described second sub-cavity is provided with described second cold wind outlet.

9. the wind cooling refrigerator according to any one of claim 1-8, is characterized in that, comprises the sponge member of annular further, and on the front surface that described sponge member is located at described MOD and/or outer peripheral face, described sponge member is resisted against in described foaming layer.

10. wind cooling refrigerator according to claim 9, is characterized in that, the front portion of the outer peripheral face of described MOD and/or front surface are provided with the flange of annular, and described sponge member is located on described flange.