CN108387052A - The air-cooled vertical refrigeration equipment of multi-temperature zone - Google Patents

Abstract

The invention discloses a kind of air-cooled vertical refrigeration equipment of multi-temperature zone, including babinet, evaporator and ducting assembly, ducting assembly includes allocation of the amount of air module, upper partition module, lower partition module and wind turbine；The air-supply passage for being connected to total air inlet is additionally provided in allocation of the amount of air module, it is additionally provided with the return air channel for being connected to total return air inlet in allocation of the amount of air module, the first air outlet of connection air-supply passage and the first return air inlet for being connected to return air channel are additionally provided in allocation of the amount of air module；Upper partition module is provided with hollow cavity, and the lower surface of upper partition module is provided with the exhaust vent of several connection hollow cavities, and the rear end of upper partition module is provided with the connector of connection hollow cavity, and connector is connect with the first air outlet；The bottom of lower partition module is additionally provided with the second air outlet of connection air-supply passage, and the bottom of lower partition module is additionally provided with the second return air inlet of connection evaporation cavity.It realizes freezing chamber Miniaturization Design, improves space availability ratio to improve user experience.

Description

The air-cooled vertical refrigeration equipment of multi-temperature zone

Technical field

The present invention relates to refrigeration equipment more particularly to a kind of air-cooled vertical refrigeration equipments of multi-temperature zone.

Background technology

Currently, refrigeration equipment（Refrigerator, refrigerator, ice etc.）It is common household electrical appliance in people's daily life, and freezes Equipment is commonly configured with multiple warm area compartments as needed（Such as：Freezing chamber, refrigerating chamber and temperature-changing chamber）, using air cooling way Then cold air, refrigerating chamber and temperature-changing chamber is delivered to by air duct by refrigeration equipment usually by evaporator configuration in freezing chamber, and In order to install evaporator, the large percentage of refrigeration equipment total volume, cannot be satisfied user to small reefer space occupied by freezing chamber Requirement, cause user experience poor.How a kind of multi-temperature zone that meets small reefer space requirement air-cooled vertical refrigeration is designed Equipment is the technical problems to be solved by the invention to improve user experience.

Invention content

The present invention provides a kind of air-cooled vertical refrigeration equipments of multi-temperature zone, realize the cold of the air-cooled vertical refrigeration equipment of multi-temperature zone Freeze room Miniaturization Design, improves space availability ratio to improve user experience.

To reach above-mentioned technical purpose, the present invention is realized using following technical scheme：

A kind of air-cooled vertical refrigeration equipment of multi-temperature zone, including babinet and evaporator, the air-cooled vertical refrigeration equipment of multi-temperature zone is also Including ducting assembly, the ducting assembly includes allocation of the amount of air module, upper partition module, lower partition module and wind turbine；The wind Amount distribution module and the lower partition module are arranged in the liner of the babinet, and the lower partition module is by the babinet under Supreme to be divided into freezing chamber and refrigerating chamber, the allocation of the amount of air module is vertically provided at the top of the lower partition module, described The evaporation for installing the evaporator is formed between allocation of the amount of air module, the lower partition module and the liner of the babinet Cavity, the allocation of the amount of air module is provided with the total air inlet for being connected to the evaporation cavity and total return air inlet, the evaporator are set Set in the evaporation cavity and between total air inlet and total return air inlet, wind turbine setting it is described always into On air port；The air-supply passage for being connected to total air inlet, the allocation of the amount of air module are additionally provided in the allocation of the amount of air module In be additionally provided with the return air channel for being connected to total return air inlet, it is logical that the connection air-supply is additionally provided in the allocation of the amount of air module First air outlet in road and the first return air inlet for being connected to the return air channel；The upper partition module is provided with hollow cavity, institute The lower surface for stating partition module is provided with the exhaust vent of several connection hollow cavities, the rear end of the upper partition module It is provided with the connector for being connected to the hollow cavity, the connector is connect with first air outlet；The lower partition module Bottom be additionally provided with the second air outlet for being connected to the air-supply passage, the bottom of the lower partition module is additionally provided with connection institute State the second return air inlet of evaporation cavity.

Further, the upper partition module includes thermal-insulation baffle plate and outlet air cover board, and the outlet air cover board is arranged described The bottom of thermal-insulation baffle plate, forms the hollow cavity between the outlet air cover board and the thermal-insulation baffle plate, on the outlet air cover board It is provided with multiple exhaust vents.

Further, the rear end of the outlet air cover board is provided with the connector.

Further, the allocation of the amount of air module includes front shroud, back shroud and the first foams, first foams It is arranged between the front shroud and the back shroud, first air outlet and first time described is provided on the front shroud Air port is provided with total air inlet and total return air inlet on the back shroud, is formed in first foams described Air-supply passage is also formed with the return air channel in first foams.

Further, the lower partition module includes upper cover plate, lower plate and the second foams, is opened up on the upper cover plate There is the first mounting hole, the second mounting hole has been opened on the lower plate, has offered ventilation hole on second foams, institute It states and is provided with first partition in the first mounting hole, second partition is provided in second mounting hole, second foams are set It sets between the upper cover plate and the lower plate, the first partition and the second partition overlap, and described first The ventilation hole is divided into the first ventilating duct and the second ventilating duct by partition board and the second partition, and the second partition will be described Second mounting hole is divided into second air outlet and second return air inlet, and first ventilating duct connects with the air-supply passage Logical, second ventilating duct is connected to the evaporation cavity.

Further, the lower partition module further includes fan housing cover board, and the fan housing cover board is arranged in the lower plate Bottom simultaneously covers in second air outlet, and the auxiliary wind extended to front side is formed between the fan housing cover board and the lower plate The front in road, the fan housing cover board is provided with auxiliary air-outlet.

Further, the rear end of the fan housing cover board is additionally provided with the wind shield extended downward, and the wind shield is located at The front side of second return air inlet.

Further, the cross section of the wind shield is U-shaped structure, the second return air inlet described in the wind shield semi-surrounding.

Further, the bottom of first foams is provided with downward projection of cutting, the lower end of the air-supply passage Mouth is formed in the bottom of the cutting；The cutting is inserted in first ventilating duct.

Further, the upper cover plate forms First terrace, the bottom of the front shroud in first mounting hole It is formed with second step face, the First terrace is close together with the second step face paste；The first partition tilts cloth It sets, the bottom of the back shroud is formed with slot, and the top edge of the first partition is inserted in the slot.

Compared with prior art, the advantages and positive effects of the present invention are：Ducting assembly is by allocation of the amount of air module to cold It hides room and freezing chamber distributes cold wind, the cold air of allocation of the amount of air module conveying is delivered to by lower partition module in freezing chamber, and is made It obtains evaporator setting and is placed outside freezing chamber in refrigerating chamber, so as to as needed, needed for the division of lower partition module The freezing chamber of size, ducting assembly also have cutting function while being integrated with air blowing function, will be in babinet using ducting assembly Part is segmented into freezing chamber and refrigerating chamber, and distributes the supply of cold unitedly by allocation of the amount of air module, and allocation of the amount of air module is under Partition module cooperates send cold wind to freezing chamber, also can guarantee that chill space is normally made while ensureing that freeze space is normally freezed It is cold, it realizes the freezing chamber Miniaturization Design of the air-cooled vertical refrigeration equipment of multi-temperature zone, improves space availability ratio to improve user experience Property.

Description of the drawings

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technology description to be briefly described, it should be apparent that, the accompanying drawings in the following description is this hair Some bright embodiments for those of ordinary skill in the art without having to pay creative labor, can be with Obtain other attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram of refrigeration equipment of the present invention；

Fig. 2 is the explosive view one of refrigeration equipment of the present invention;

Fig. 3 is the sectional view of refrigeration equipment of the present invention；

Fig. 4 is the structural schematic diagram of ducting assembly in refrigeration equipment of the present invention;

Fig. 5 is sectional view along A-A in Fig. 4；

Fig. 6 is B-B direction sectional view in Fig. 4；

Fig. 7 be in Fig. 4 C-C to sectional view；

Fig. 8 be in Fig. 4 D-D to sectional view；

Fig. 9 be in Fig. 4 E-E to sectional view；

Figure 10 is the explosive view of air quantity distribution module in refrigeration equipment of the present invention；

Figure 11 is the explosive view of lower partition module in refrigeration equipment of the present invention；

Figure 12 is the sectional view of upper partition module in refrigeration equipment of the present invention.

Specific implementation mode

In order to make the object, technical scheme and advantages of the embodiment of the invention clearer, below in conjunction with the embodiment of the present invention In attached drawing, technical scheme in the embodiment of the invention is clearly and completely described, it is clear that described embodiment is A part of the embodiment of the present invention, instead of all the embodiments.Based on the embodiments of the present invention, those of ordinary skill in the art The every other embodiment obtained without making creative work, shall fall within the protection scope of the present invention.

As shown in Figure 1-Figure 11, refrigeration equipment provided by the invention is by the way of air-cooled, including babinet 1 and evaporator 11, the air-cooled vertical refrigeration equipment of multi-temperature zone further includes ducting assembly, the ducting assembly include allocation of the amount of air module 2, under Separate module 3 and wind turbine 20；

The allocation of the amount of air module 2 and the lower partition module 3 are arranged in the liner of the babinet 1, the lower partition module 3 The babinet 1 is divided into freezing chamber 101 and refrigerating chamber 102 from the bottom to top, the allocation of the amount of air module 2 is vertically provided at described The top of lower partition module 3, forms between the allocation of the amount of air module 2, lower partition module 3 and the liner of the babinet 1 It is useful for that the evaporation cavity of the evaporator 11 is installed, the allocation of the amount of air module 2 is provided with the total of the connection evaporation cavity Air inlet 221 and total return air inlet 222, the evaporator 11 are arranged in the evaporation cavity and are located at total air inlet 221 Between total return air inlet 222, the wind turbine 20 is arranged on total air inlet 221；

The air-supply passage 201 for being connected to total air inlet 221, the allocation of the amount of air are additionally provided in the allocation of the amount of air module 2 It is additionally provided with the return air channel 202 for being connected to total return air inlet 222 in module 2, the company of being additionally provided in the allocation of the amount of air module 2 Lead to the first air outlet 211 of the air-supply passage 201 and the first return air inlet 212 for being connected to the return air channel 202；

The bottom of the lower partition module 3 is additionally provided with the second air outlet for being connected to the air-supply passage 201（It is unmarked）, described The bottom of lower partition module 3 is additionally provided with the second return air inlet for being connected to the evaporation cavity（It is unmarked）.

Specifically, on the one hand the ducting assembly in the present embodiment refrigeration equipment can realize the supply of cold wind, another party Babinet can also be split by face, wherein allocation of the amount of air module 2 is for distributing supply cold wind unitedly, and lower partition module 3 is removed Carry out that cold wind conveying is outer, and babinet is also divided into freezing chamber 101 and refrigerating chamber by lower partition module 3 with allocation of the amount of air module 2 102, wherein evaporator 11 is located in refrigerating chamber 102, in this way, the size of freezing chamber 101 can be arbitrarily set as needed, To meet the needs of user is to small volume freezing chamber 101.And during cold wind supplies, the cold air that the heat exchange of evaporator 11 is formed exists It is entered in allocation of the amount of air module 2 under the effect of wind turbine 20, cold air is delivered to by 101 He of freezing chamber by air-supply passage 201 Refrigerating chamber 102, wherein supplied for the cold wind of freezing chamber 101, cold air is delivered to by air-supply passage 201 at lower partition module 3 And conveyed into freezing chamber 101 by the second air outlet for being arranged in lower partition module 3, for refrigerating chamber 102 cold air for, Then cold air is conveyed by air-supply passage 201 and is exported via the first air outlet 211；And for return air, refrigerating chamber 102 passes through first time The air of 212 return air of air port, return air is returned to from total return air inlet 222 in evaporation cavity by return air channel 202, and freezing chamber 101 due to positioned at the lower section of evaporator 11, being then directly delivered to return air in evaporation cavity without volume by the second return air inlet Outer configuration return air duct, is more advantageous to raising space availability ratio.

Wherein, the allocation of the amount of air module 2 includes front shroud 21, back shroud 22 and the first foams 23, first bubble Foam body 22 is arranged between the front shroud 21 and the back shroud 22, and first air outlet is provided on the front shroud 21 211 and first return air inlet 212, total air inlet 221 and total return air inlet 222 are provided on the back shroud 22, It is formed with the air-supply passage 201 in first foams 23, it is logical that the return air is also formed in first foams 23 Road 202.Likewise, the lower partition module 3 includes upper cover plate 31, lower plate 32 and the second foams 33, the upper cover plate 31 On be opened in the first mounting hole 310, the second mounting hole 320, second foams 33 have been opened on the lower plate 32 On offer ventilation hole 331, first partition 311 is provided in first mounting hole 310, is set in second mounting hole 320 It is equipped with second partition 321, second foams 33 are arranged between the upper cover plate 31 and the lower plate 32, and described first Partition board 311 and the second partition 321 overlap, and the first partition 311 and the second partition 321 are by the ventilation Hole 331 is divided into the first ventilating duct 301 and the second ventilating duct 302, and second mounting hole is divided by the second partition 321 Second air outlet and second return air inlet, first ventilating duct 301 are connected to the air-supply passage 201, and described Two ventilating ducts 302 are connected to the evaporation cavity.Specifically, 23 one side of the first foams in allocation of the amount of air module 2 plays guarantor On the other hand temperature forms air-supply to avoid the temperature of the radiation cooling influence refrigerating chamber 102 of evaporator 11 in first foams 23 Channel 201 and return air channel 202 carry out air-supply and return air so that structure is compacter；And pass through first for lower partition module 3 The ventilation hole 331 of second foams 33 is divided into the first ventilating duct 301 and second and led to by partition board 311 and the cooperation of second partition 321 Air duct 302 can make full use of the confined space of lower partition module 3 to realize air-supply and return air.Preferably, in order to ensure freezing chamber 101 thermal insulation performance, the cold for reducing freezing chamber 101 leak in refrigerating chamber 102, the bottom setting of first foams 23 There are downward projection of cutting 231, the lower port of the air-supply passage 201 to be formed in the bottom of the cutting 231；The cutting 231 are inserted in first ventilating duct 301, by the way that cutting 231 to be inserted into the first ventilating duct 301 so that air-supply passage 201 It can extend in lower partition module 3, reduce the cold of freezing chamber 101 from allocation of the amount of air module 2 and lower 3 junction of partition module Leakage；Further, upper cover plate 31 forms First terrace in first mounting hole 301（It is unmarked）, the protecgulum The bottom of plate 21 is formed with second step face（It is unmarked）, the First terrace is close together with the second step face paste； The first partition 311 is in tilted layout, and the bottom of the back shroud 22 is formed with slot 220, the top of the first partition 311 Edge is inserted in the slot 220, specifically, First terrace coordinates with the second step face, increases allocation of the amount of air module 2 Contact area between lower partition module 3, can more effectively extend the path flowed through needed for the leakage of 101 cold of freezing chamber, Cold so as to more effectively reduce freezing chamber 101 leaks in refrigerating chamber 102；Meanwhile first partition 311 be inserted into it is slotting In slot 220, and it can be more advantageous to and improve efficiency and reduce energy consumption in the cooling gas leakage to evaporation cavity to avoid air-supply passage 201.

Further, lower partition module 3 further includes fan housing cover board 34, and the fan housing cover board 34 is arranged in the lower plate 33 Bottom and cover in second air outlet, formed between the fan housing cover board 34 and the lower plate 33 and extended to front side Assist air duct（It is unmarked）, the front of the fan housing cover board 34 is provided with auxiliary air-outlet.Specifically, passing through 34 shape of fan housing cover board At auxiliary air duct realize the air outlet of freezing chamber 101 far from return air inlet, to be conducive to improve efficiency；Preferably, the wind The rear end of cover plate 34 is additionally provided with the wind shield 34 extended downward, before the wind shield 34 is located at second return air inlet Side can effectively stop that the cold air for entering freezing chamber 101 enters directly into the second return air inlet by wind shield 34, it is ensured that Cold air is returning to evaporation cavity after fully exchanging heat in freezing chamber 101 from the second return air inlet；And the cross section of wind shield 341 can Think U-shaped structure, the second return air inlet described in 341 semi-surrounding of the wind shield.In addition, in order to adequately improve space availability ratio simultaneously Simplified assembling process, second foams 33 are additionally provided with water receiving tank 332, and the water receiving tank 332 is located at the evaporator 11 Lower section, specifically, lower partition module 3 on the second foams 33 due to that positioned at the lower section of evaporator 11, can form water receiving Slot 332, to which during later stage defrost, the defrosting water of evaporator 11 is collected in water receiving tank 332, and water receiving tank 322 is connected with Drainpipe（It is not shown）Defrosting water is discharged.

Further, the top of the back shroud 22 is provided with the auxiliary air-outlet for being connected to the air-supply passage 201 223, it is connected with auxiliary air duct 5 on the auxiliary air-outlet 223, it is logical that the top of the front shroud 21 is provided with the connection return air The auxiliary return air inlet 213 in road 202；It is provided with demarcation strip 4 in the refrigerating chamber 102, the demarcation strip 4 is by the refrigerating chamber 102 It is divided into the sub- 1021 and second sub- refrigerating chamber 1022 of refrigerating chamber of first arranged up and down, the auxiliary air duct 5 is located at described first Sub- refrigerating chamber 1021, first air outlet, 211 and first return air inlet 212 are located at the described second sub- refrigerating chamber 1022.Specifically, Can refrigerating chamber 102 be further divided into two sub- refrigerating chambers again using demarcation strip 4, to meet the storing that user more refines It is required that.And demarcation strip 4 in order to facilitate the installation of, locating slot is provided on front shroud 21（It is unmarked）, the demarcation strip 4 is inserted in described In locating slot.It in actual use, can be as needed in the first air outlet 211, the second air outlet and/or auxiliary outlet air Increase air door at mouth 223, with the temperature of independent control difference compartment, and the specific constructive form of air door and control mode are herein It is not limited.

Ducting assembly distributes cold wind by allocation of the amount of air module to refrigerating chamber and freezing chamber, and allocation of the amount of air module conveys cold Gas is delivered to by lower partition module in freezing chamber, and evaporator setting is made to be placed outside freezing chamber in refrigerating chamber, to Can be as needed, the freezing chamber of required size is divided by lower partition module, while ducting assembly is integrated with air blowing function Also there is cutting function, box house is divided into freezing chamber and refrigerating chamber using ducting assembly, and pass through allocation of the amount of air module Distribute the supply of cold unitedly, allocation of the amount of air module cooperates with lower partition module and send cold wind to freezing chamber, is ensureing to freeze Also it can guarantee that chill space is normally freezed while area normally freezes, realize that the freezing chamber of the air-cooled vertical refrigeration equipment of multi-temperature zone is small-sized Change design, improves space availability ratio to improve user experience.

As shown in figure 12, based on the above-mentioned technical proposal, optionally, in order to more uniformly to the second sub- refrigerating chamber system It is cold so that cold air is evenly distributed, and the demarcation strip in above-mentioned technical proposal may be used partition module 4 and be replaced, upper partition Module 4 is provided with hollow cavity 41, and the lower surface of the upper partition module 4 is provided with going out for several connections hollow cavity 41 The rear end of air holes 42, the upper partition module 4 is provided with the connector for being connected to the hollow cavity（It is unmarked）, the connection Mouth is connect with first air outlet.Specifically, in the second sub- refrigerating chamber from the first air outlet 211 export cold air be introduced into In the hollow cavity 41 of upper partition module 4, then, several exhaust vents 42 by the setting of 4 lower surface of upper partition module are uniform Output, in order to achieve the purpose that cold air is evenly distributed, it is upper partition module 4 lower surface can be formed array arrangement several Exhaust vent 42, exhaust vent 42 can cover the entire cross section of the second sub- refrigerating chamber, in this way, can be from the upper of the second sub- refrigerating chamber The each position releasing cool air in side, so that the cold of the second sub- refrigerating chamber is evenly distributed, to obtain more refrigeration effect.Its In, in order to avoid the temperature of two sub- refrigerating chambers interacts, the upper partition module 4 is thermal-insulation baffle plate.And in order to better The connection gap for separating 4 edge of module in sealing, improves the temperature control accuracy of each warm area, upper partition module 4 and ducting assembly Between be tightly connected and realized by the cooperation of cutting and slot；Meanwhile can also to form side recessed for the both sides of upper partition module 4 Slot, corresponding, the liner both sides of babinet form courage muscle structure outstanding, and courage muscle structure is inserted in corresponding side grooves, from And so that upper partition module 4 is connect with the liner both sides sealing of babinet, and upper partition module 4 in order to facilitate the installation of, side grooves Lower edge be provided with multiple claws, claw is stuck in the downside of courage muscle structure.

The present invention also provides a kind of assemble methods of above-mentioned refrigeration equipment ducting assembly, including：

The evaporator is installed on the liner rear wall of the babinet by step 101.

The lower partition module is installed in the babinet by step 102, and the lower partition module is by the liner under It is supreme to be divided into freezing chamber and refrigerating chamber.

Step 103, by the assembling on total air inlet.

The allocation of the amount of air module is vertically provided at the top of the lower partition module and covered in described by step 104 Evaporator is formed between the allocation of the amount of air module, the lower partition module and the liner for installing the evaporator Evaporation cavity.Specifically, the cutting is inserted in first ventilating duct, and make the First terrace and described the Two step surfaces stick together, meanwhile, the top edge of the first partition is inserted in the slot.

Wherein, the assembling steps of lower partition module are：By second foams be placed on the upper cover plate and it is described under Between bottom plate, and the upper cover plate and the lower plate are linked together so that the first partition and the second partition It overlaps, the ventilation hole is divided into the first ventilating duct and the second ventilation by the first partition and the second partition Second mounting hole is divided into second air outlet and second return air inlet by road, the second partition.And air quantity point Assembling steps with module are：First foams are placed between the front shroud and the back shroud, and will be described Front shroud and the back shroud link together.

In addition, the assemble method further includes：

Step 105, the top that the auxiliary air duct is mounted on to the back shroud.

The upper partition module is installed in the babinet by step 106, and the upper partition module divides the refrigerating chamber It is divided into the sub- refrigerating chamber of first arranged up and down and the second sub- refrigerating chamber, the auxiliary air duct is located at the described first sub- refrigerating chamber, institute It states the first air outlet and the first return air inlet is located at the described second sub- refrigerating chamber；Meanwhile by the connector and first outlet air Mouth connection.

Finally it should be noted that：The above embodiments are merely illustrative of the technical solutions of the present invention, rather than its limitations；Although Present invention has been described in detail with reference to the aforementioned embodiments, it will be understood by those of ordinary skill in the art that：It still may be used With technical scheme described in the above embodiments is modified or equivalent replacement of some of the technical features； And these modifications or replacements, the spirit for the present invention embodiment technical solution that it does not separate the essence of the corresponding technical solution and Range.

Claims (10)

1. a kind of air-cooled vertical refrigeration equipment of multi-temperature zone, including babinet and evaporator, which is characterized in that the multi-temperature zone is air-cooled vertical Formula refrigeration equipment further includes ducting assembly, the ducting assembly include allocation of the amount of air module, upper partition module, lower partition module and Wind turbine；

The allocation of the amount of air module and the lower partition module are arranged in the liner of the babinet, and the lower partition module is by institute It states babinet and is divided into freezing chamber and refrigerating chamber from the bottom to top, the allocation of the amount of air module is vertically provided at the lower partition module Top is formed between the allocation of the amount of air module, lower partition module and the liner of the babinet for installing the steaming The evaporation cavity of device is sent out, the allocation of the amount of air module is provided with the total air inlet for being connected to the evaporation cavity and total return air inlet, institute It states evaporator to be arranged in the evaporation cavity and between total air inlet and total return air inlet, the wind turbine setting On total air inlet；

It is additionally provided with the air-supply passage for being connected to total air inlet in the allocation of the amount of air module, is gone back in the allocation of the amount of air module It is provided with the return air channel for being connected to total return air inlet, the connection air-supply passage is additionally provided in the allocation of the amount of air module First air outlet and the first return air inlet for being connected to the return air channel；

The upper partition module is provided with hollow cavity, and it is described hollow that the upper lower surface for separating module is provided with several connections The rear end of the exhaust vent of cavity, the upper partition module is provided with the connector for being connected to the hollow cavity, the connector It is connect with first air outlet；

The bottom of the lower partition module is additionally provided with the second air outlet for being connected to the air-supply passage, the lower partition module Bottom is additionally provided with the second return air inlet for being connected to the evaporation cavity.

2. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 1, which is characterized in that the upper partition module includes Thermal-insulation baffle plate and outlet air cover board, the outlet air cover board are arranged in the bottom of the thermal-insulation baffle plate, the outlet air cover board and the guarantor The hollow cavity is formed between temperature dummy plate, and multiple exhaust vents are provided on the outlet air cover board.

3. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 2, which is characterized in that the rear end of the outlet air cover board Portion is provided with the connector.

4. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 1, which is characterized in that the allocation of the amount of air module packet Front shroud, back shroud and the first foams are included, first foams are arranged between the front shroud and the back shroud, institute It states and is provided with first air outlet and first return air inlet on front shroud, total air inlet is provided on the back shroud With total return air inlet, the air-supply passage is formed in first foams, institute is also formed in first foams State return air channel.

5. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 4, which is characterized in that the lower partition module includes Upper cover plate, lower plate and the second foams have been opened in the first mounting hole on the upper cover plate, have been opened on the lower plate Second mounting hole offers ventilation hole on second foams, first partition is provided in first mounting hole, described Second partition is provided in second mounting hole, second foams are arranged between the upper cover plate and the lower plate, institute It states first partition and the second partition overlaps, the first partition and the second partition separate the ventilation hole For the first ventilating duct and the second ventilating duct, second mounting hole is divided into second air outlet and institute by the second partition The second return air inlet is stated, first ventilating duct is connected to the air-supply passage, and second ventilating duct is connected to the evaporation cavity.

6. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 5, which is characterized in that the lower partition module is also wrapped Fan housing cover board is included, the fan housing cover board is arranged in the bottom of the lower plate and covers in second air outlet, the fan housing The auxiliary air duct extended to front side is formed between cover board and the lower plate, the front of the fan housing cover board is provided with auxiliary outlet air Mouthful.

7. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 6, which is characterized in that the rear end of the fan housing cover board Portion is additionally provided with the wind shield extended downward, and the wind shield is located at the front side of second return air inlet.

8. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 7, which is characterized in that the cross section of the wind shield For U-shaped structure, the second return air inlet described in the wind shield semi-surrounding.

9. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 5, which is characterized in that the bottom of first foams Portion is provided with downward projection of cutting, and the lower port of the air-supply passage is formed in the bottom of the cutting；The cutting is inserted in In first ventilating duct.

10. the air-cooled vertical refrigeration equipment of multi-temperature zone according to claim 5, which is characterized in that the upper cover plate is described Form First terrace in first mounting hole, the bottom of the front shroud is formed with second step face, the First terrace with The second step face paste is close together；The first partition is in tilted layout, and the bottom of the back shroud is formed with slot, described The top edge of first partition is inserted in the slot.