CN208920682U - Refrigerating plant and express mail cabinet - Google Patents

Abstract

The utility model relates to logistics equipment fields, in particular to refrigerating plant and express mail cabinet；The express mail cabinet is provided with refrigerating plant, which includes: pedestal, and pedestal is provided with air outlet and air inlet；Cover at the shell of pedestal；It is set to the evaporator and blower of the inside of shell, blower is opposite with evaporator, and evaporator is connected to air inlet, and blower is connected to air outlet.More powerful, sufficient cold air can be provided to express mail cabinet using the refrigerating plant, to improve the effect of refrigeration.

Description

Refrigerating plant and express mail cabinet

Technical field

The utility model relates to logistics equipment fields, in particular to refrigerating plant and express mail cabinet.

Background technique

With the fast development of e-commerce, online shopping transaction is more and more common, and the development of logistics distribution business is swift and violent, to understand Certainly courier send the problem of part, pickup hardly possible, and express company would generally be in the place such as residential communities setting express mail cabinet, for temporarily depositing Express mail is stored up, express mail is stored in express mail cabinet by express mail person, has user voluntarily to take away, alternatively, user will need the express mail posted to deposit Storage is taken away in express mail cabinet by courier.With the quick raising of logistics distribution speed, water fruits and vegetables, seafood and meat egg etc. Fresh based food is increasingly becoming the commodity that e-commerce is sold fast, and the dispatching of fresh food improves the low of express mail cabinet storage food Temperature requires.

Utility model content

The purpose of this utility model is to provide a kind of refrigerating plant, can be provided to the interior of the cabinet of express delivery cabinet it is powerful, Sufficient cold air.

The another object of the utility model is to provide a kind of express mail cabinet have the function of refrigeration, and in the express mail cabinet The cold air that is blowed to interior of the cabinet of refrigerating plant it is powerful, sufficient, make express mail cabinet that there is more preferably refrigeration effect.

The embodiments of the present invention are achieved in that

A kind of refrigerating plant, comprising: pedestal, pedestal are provided with air outlet and air inlet；Cover at the shell of pedestal；Setting Evaporator and blower in the inside of shell, blower is opposite with evaporator, and evaporator is connected to air inlet, and blower and air outlet connect It is logical.

Preferably, refrigerating plant further includes the cover board and supporting element for being set to the inside of shell, assembling in supporting element, Cover board is located at the side of supporting element, and connect with supporting element, and air duct is formed between cover board and supporting element, and blower is located in air duct, Air duct is connected to the entrance of air outlet；Evaporator is located at side of the supporting element far from cover board.

Preferably, supporting element has first groove, and the side of cover closure first groove is open, the width of first groove from It is gradually increased adjacent to one end of air outlet to the direction of blower.

Preferably, cover board has second groove, and second groove is oppositely arranged with first groove, first groove and second groove It fastens, forms air duct between the two.

Preferably, cover board and supporting element are arranged in the horizontal direction.

Preferably, shell includes heat shield and seal closure, and heat shield covers at outside seal closure, and evaporator and blower are respectively provided with In the inside of seal closure.

Preferably, shell further includes insulating layer, and insulating layer is located between heat shield and seal closure.

Preferably, pedestal includes rhone, and rhone is located at the inside of shell and evaporator is located at the top of rhone, row Sink is in communication with the outside by the drainage hole on pedestal.

Preferably, in the horizontal direction, air outlet, rhone, air inlet are set in turn in pedestal.

It preferably, further include compressor, condenser, first pipe and second pipe, the first end of first pipe and second The first end of pipeline, which protrudes into, connects evaporator in shell, the second end of first pipe is connect with compressor, and the second of second pipe End is connect with condenser.

A kind of express mail cabinet comprising cabinet body and the above-mentioned refrigerating plant for being set to cabinet body, the air outlet of refrigerating plant and into Air port is connected to the inside of cabinet body.

Preferably, refrigerating plant is set to the top of cabinet body, and cold air outlet and return air inlet, air outlet are offered at the top of cabinet body It is connected to cold air outlet, air inlet is connected to return air inlet.

The refrigerating plant of the utility model embodiment and the beneficial effect of express mail cabinet are:

The refrigerating plant of the utility model embodiment when in use, air from air inlet enter enclosure interior by evaporator into Row refrigeration, can blow to air outlet by the blower of enclosure interior by the air that evaporator freezes in shell, so, air exists Closed enclosure interior is delivered to air outlet from shell by blower again after being freezed, and on the one hand the effect of refrigeration is good, damage of cold air It loses less, the cold air on the other hand conveyed by blower is powerful, sufficient, can improve the effect of refrigeration.

The express mail cabinet of the utility model embodiment when in use, can use the refrigerating plant system for being set to cabinet body It is cold, and when being freezed with the refrigerating plant, the air of interior of the cabinet from air inlet enter the enclosure interior of refrigerating plant by Evaporator freezes, and can blow to air outlet by the blower of enclosure interior by the air that evaporator freezes inside housings, and lead to The inside that air outlet enters express mail cabinet cabinet body is crossed, so, then air carries out freezing in closed shell again from shell The middle inside that cabinet body is delivered to by blower, on the one hand the effect of refrigeration is good, cold air loss is few, on the other hand by blower conveying Cold air is powerful, sufficient, can effectively promote the refrigeration effect of express mail cabinet.

Detailed description of the invention

It, below will be to use required in embodiment in order to illustrate more clearly of the technical solution of the utility model embodiment Attached drawing be briefly described, it should be understood that the following drawings illustrates only some embodiments of the utility model, therefore should not be by Regard the restriction to range as, for those of ordinary skill in the art, without creative efforts, may be used also To obtain other relevant attached drawings according to these attached drawings.

Fig. 1 is the structural schematic diagram in the utility model embodiment under the front visual angle of express mail cabinet；

Fig. 2 is the structural schematic diagram of refrigerating plant in the utility model embodiment；

Fig. 3 is the partial structurtes explosive view at a visual angle of refrigerating plant in the utility model embodiment；

Fig. 4 is the partial structurtes explosive view at another visual angle of refrigerating plant in the utility model embodiment；

Fig. 5 is the explosive view of the shell of refrigerating plant in the utility model embodiment；

Fig. 6 is the partial structural diagram of refrigerating plant in the utility model embodiment；

Fig. 7 is the structural schematic diagram that refrigerating plant is installed on cabinet body in the utility model embodiment；

Fig. 8 is the structural schematic diagram of the preceding block piece of express mail cabinet in the utility model embodiment；

Fig. 9 is the structural schematic diagram in the utility model embodiment under the rear visual angle of express mail cabinet；

Figure 10 is the partial structural diagram of express mail cabinet in the utility model embodiment.

Icon: 010- express mail cabinet；100- cabinet body；200- refrigerating plant；210- pedestal；211- air outlet；212- air inlet； 220- shell；230- evaporator；240- blower；250- cover board；260- supporting element；261- first groove；251- second groove； 221- heat shield；222- seal closure；270- drainpipe；271- rhone；310- compressor；320- condenser；231- first is managed Road；232- second pipe；330- support plate；331- fan；332- bottom plate；333- heat dissipation wind channel；Block piece before 334-；Before 335- Side wall；336- the first side wall；337- second sidewall；338- bottom wall；The first air outlet of 339-；Block piece after 340-；It is hidden on 341- Block piece；The second air outlet of 342-；343- third air outlet；344- support frame；The first support portion of 345-；The second support portion of 346-； 110- cold air outlet；120- return air inlet；130- cabinet door；140- outer wall.

Specific embodiment

It is practical new below in conjunction with this to keep the objectives, technical solutions, and advantages of the embodiments of the present invention clearer Attached drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that is retouched The embodiment stated is the utility model a part of the embodiment, instead of all the embodiments.Usually here in attached drawing description and The component of the utility model embodiment shown can be arranged and be designed with a variety of different configurations.

Therefore, requirement is not intended to limit to the detailed description of the embodiments of the present invention provided in the accompanying drawings below The scope of the utility model of protection, but it is merely representative of the selected embodiment of the utility model.Based in the utility model Embodiment, every other embodiment obtained by those of ordinary skill in the art without making creative efforts, all Belong to the range of the utility model protection.

It should also be noted that similar label and letter indicate similar terms in following attached drawing, therefore, once a certain Xiang Yi It is defined in a attached drawing, does not then need that it is further defined and explained in subsequent attached drawing.

In the description of the utility model embodiment, it should be noted that term " on ", "left", "right", " is erected at "lower" Directly ", the orientation or positional relationship of the instructions such as "horizontal" is to be based on the orientation or positional relationship shown in the drawings or this is practical new Type product using when the orientation or positional relationship usually put, be merely for convenience of describing the present invention and simplifying the description, and It is not that the device of indication or suggestion meaning or element must have a particular orientation, be constructed and operated in a specific orientation, therefore It should not be understood as limiting the present invention.In addition, term " first ", " second ", " third " etc. are only used for distinguishing description, and It cannot be understood as indicating or implying relative importance.In the description of the utility model embodiment, it is also necessary to explanation, unless Separately there is specific regulation and limit, term " setting ", " connection " shall be understood in a broad sense, can also be with for example, it may be fixedly connected It is to be detachably connected, or be integrally connected；It can be mechanical connection, be also possible to be electrically connected；It can be directly connected, it can also be with Indirectly connected through an intermediary, it can be the connection inside two elements.For the ordinary skill in the art, may be used The concrete meaning of above-mentioned term in the present invention is understood with concrete condition.

Fig. 1 is the structural schematic diagram in the utility model embodiment under the front visual angle of express mail cabinet 010；Fig. 1 is please referred to, this Embodiment provides a kind of express mail cabinet 010 comprising refrigerating plant 200, express mail cabinet 010 include cabinet body 100, and refrigerating plant 200 is set It is placed in cabinet body 100 and is connected to the inside of cabinet body 100, cold air can be delivered to the inside of cabinet body 100 by refrigerating plant 200.

Fig. 2 is the structural schematic diagram of refrigerating plant 200 in the utility model embodiment；Fig. 3 is the utility model embodiment The partial exploded view one of middle refrigerating plant 200；Fig. 4 is the partial exploded view two of refrigerating plant 200 in the utility model embodiment； Referring to figure 2. to Fig. 4, the refrigerating plant 200 of the present embodiment includes pedestal 210, shell 220, evaporator 230 and blower 240, on It states pedestal 210 and is provided with air outlet 211 and air inlet 212, shell 220 covers at pedestal 210, above-mentioned evaporator 230 and blower 240 are all set in the inside of shell 220, and blower 240 and evaporator 230 are opposite, and evaporator 230 is connected to air inlet 212, blower 240 are connected to air outlet 211.In detail, above-mentioned 220 spiral-lock of shell is in pedestal 210, to make 240 quilt of evaporator 230 and blower It is enclosed between shell 220 and pedestal 210, the gas inside shell 220 is only capable of being flowed from air inlet 212 and air outlet 211 Logical, so, the refrigeration effect of the refrigerating plant 200 is good, cold air loss is few, and under the action of blower 240 cold air it is defeated Send it is powerful, sufficient, to reach more preferably refrigeration effect.

Referring to figure 3. and Fig. 4, the refrigerating plant 200 of the present embodiment further includes cover board 250 and supporting element 260, and cover board 250 and supporting element 260 be all set in the inside of shell 220, blower 240 is installed on supporting element 260, and supporting element 260 has first Groove 261, cover board 250 is located at the side of supporting element 260, and connect with supporting element 260, shape between cover board 250 and supporting element 260 At air duct, blower 240 is located in air duct, and in detail, cover board 250 is configured as the side opening of closing first groove 261, with shape At above-mentioned air duct, air duct is connected to air outlet 211；Evaporator 230 is located at side of the supporting element 260 far from cover board 250；This implementation The cold air that evaporator 230 distributes can be pumped to above-mentioned air duct by the blower 240 of example, and flow to air outlet 211, i.e. cover board by air duct 250 and supporting element 260 formed air duct can to refrigerating plant 200 generate cold air play the role of guiding, aggregation, to make Refrigerating plant 200 generate cold air can be quick along air duct, powerful be transported to air outlet 211, provide and more preferably freeze Effect.It should be noted that the cover board 250 and supporting element 260 in the present embodiment are arranged in the horizontal direction.

Preferably, in the present embodiment the width of first groove 261 from one end adjacent to air outlet 211 to blower 240 Direction is gradually increased.It is converged when cold air flows to one end far from blower 240 from one end close to blower 240 in air duct Poly-, so that more powerful when cold air is across air outlet 211, refrigeration effect is more preferably.

The cover board 250 of the present embodiment has second groove 251, and second groove 251 and first groove 261 fasten, the first ditch Above-mentioned air duct, i.e. the side opening and supporting element of the second groove 251 of cover board 250 are formed between slot 261 and second groove 251 The side opening of 260 first groove 261 is oppositely arranged, and above-mentioned air duct is formed between first groove 261 and second groove 251； When the first groove 261 of second groove 251 and supporting element 260 that cover board 250 is arranged collectively constitutes air duct, air duct can be increased Internal diameter, to reach more preferably refrigeration effect by more cold air.

Preferably, the width of the second groove 251 of the present embodiment is from one end close to blower 240 to separate blower 240 One end is gradually reduced；It is converged when cold air flows to one end far from blower 240 from one end close to blower 240 in air duct Poly-, so that more powerful when cold air is across air outlet 211, refrigeration effect is more preferably.

Further, the present embodiment supporting element 260 is support plate, offers installing port in support plate, blower 240 is embedded at The installing port of support plate；Optionally, in other embodiments, supporting element 260 can also include support column, and blower 240 can be set It is placed in support column.The cover board 250 of the present embodiment is shutter, and second groove 251 is set to shutter；Optionally, in other realities It applies in example, cover board 250 can also be the shutter or shielding cover for being only covered in the side opening of first groove 261.

It should be noted that the quantity of the blower 240 in the present embodiment is two groups, two groups of blowers 240 are along supporting element 260 Width direction is distributed, and there are two first groove 261, first groove 261 and blowers 240 for tool on the supporting element 260 in the present embodiment It is arranged in a one-to-one correspondence, and the tool of cover board 250 is there are two second groove 251, two second grooves 251 and two first grooves 261 Position is arranged in a one-to-one correspondence, and to form two air ducts, two air outlets 211, two air ducts and two are arranged in correspondence on pedestal 210 A air outlet 211 is connected to correspondingly, i.e., an air duct is connected to an air outlet 211；Optionally, in other embodiments, The quantity of blower 240 can also be one group, three groups, four groups etc., correspondingly, first groove 261, second groove 251 and outlet air The quantity of mouth 211 is identical as the quantity of blower 240；Optionally, in other embodiments, the quantity and first groove of blower 240 261, the quantity of second groove 251 is identical and is more than or equal to two groups, and the air outlet 211 that pedestal 210 is arranged is only one, and each The one end of air duct far from blower 240 that blower 240 is connected to is connected to the same air outlet 211；Optionally, in other embodiments In, when the quantity of blower 240 is more than or equal to two groups, the quantity of first groove 261, second groove 251 and air outlet 211 is One, i.e. a first groove 261 and a second groove 251 form an air duct, and multiple blowers 240 are all set in the air duct It is interior, and the air duct is connected to air outlet 211.

Fig. 5 is the explosive view of shell 220 in the utility model embodiment；Referring to figure 5., the shell 220 of the present embodiment wraps Heat shield 221 and seal closure 222 are included, evaporator 230 and blower 240 are all set in the inside of seal closure 222, and heat shield 221 covers Outside seal closure 222；The setting of seal closure 222 can reduce leaking for cold air, and the setting of heat shield 221 can be to avoid sealing The 222 higher temperature in outside of cover influences the temperature of its inner cryogenic cold air, so that the cold air in seal closure 222 keeps lower Temperature, to improve the effect of refrigeration.Optionally, in other embodiments, shell 220 can also be selected with sealing effect Heat insulation shell, or only select seal closure 222 etc..

Further, shell 220 further includes insulating layer, and insulating layer is located in 222 bracket of heat shield 221 and seal closure, with Further improve heat preservation, heat-insulated effect.

Referring to figure 3. and Fig. 4, the pedestal 210 of the present embodiment include rhone 271, and rhone 271 is located at shell 220 Inside, and evaporator 230 is located at the top of rhone 271, rhone 271 is in communication with the outside by the drainage hole on pedestal 210, The water energy generated in seal closure 222 is gathered in rhone 271, is then discharged from drainage hole, so, is more advantageous to again The water generated inside discharge seal closure 222.

Further, the refrigerating plant 200 of the present embodiment further includes drainpipe 270, and the first end of drainpipe 270 is connected to shell The inside of body 220, the second end of drainpipe 270 are located at the outside of shell 220, i.e. the drainpipe 270 of the present embodiment can be used for The water of 220 internal pair production of shell is discharged；In detail, the seal closure of the first end connection shell 220 of the drainpipe 270 of the present embodiment 222 inside, and the first end of drainpipe 270 is set to the side wall of rhone 271；The second end of drainpipe 270 stretches out shell Shell 220 is discharged from drainpipe 270 in 220 heat shield 221, so, the water energy that rhone 271 is assembled.

Further, in the horizontal direction, air outlet 211 and air inlet 212 are located at the two sides of evaporator 230, the present embodiment In, in the horizontal direction, air outlet 211, rhone 271, air inlet 212 are set gradually.

Fig. 6 is the partial structural diagram of refrigerating plant 200 in the utility model embodiment；Please refer to Fig. 6, the present embodiment Refrigerating plant 200 further include compressor 310, condenser 320, first pipe 231 and second pipe 232, first pipe 231 First end and the first end of second pipe 232 protrude into and connect evaporator 230 in shell 220, the second end of first pipe 231 and the The second end of two pipelines 232 stretches out shell 220, and the second end of first pipe 231 is connect with above-mentioned compressor 310, the second pipe The second end in road 232 is connect with condenser 320；In detail, in the present embodiment first pipe 231 first end and second pipe 232 first end protrudes into seal closure 222 and connect with evaporator 230.

Fig. 6 and Fig. 7 are please referred to, the refrigerating plant 200 of the present embodiment further includes cooling mechanism, and above-mentioned cooling mechanism includes branch Fagging 330, fan 331, preceding block piece 334 and bottom plate 332, bottom plate 332 are connected to one end of 210 length direction of pedestal, support Plate 330 is set to bottom plate 332, and support plate 330 offers mounting hole, and fan 331 is embedded in the mounting hole of support plate 330, preceding Block piece 334 and the interval of support plate 330 are arranged, and are formed and are dissipated between support plate 330 and preceding block piece 334 provided with fan 331 Hot-flow flue 333, fan 331 are configured to guiding air-flow into air duct into, and above-mentioned condenser 320 is set to support plate 330 and preceding screening Between block piece 334, compressor 310 is set to side of the support plate 330 far from condenser 320；When fan 331 is run, can incite somebody to action It is quicker, powerful so to can be air-flow for heat dissipation wind channel 333 before air-flow is guided between shutter and support plate 330 Be discharged after flowing through condenser 320, the flow velocity and flow strength of gas are enhanced, and condenser can be effectively improved The effect of 320 heat dissipations.

Fig. 8 is the structural schematic diagram of preceding block piece 334 in the utility model embodiment；Please refer to Fig. 8, above-mentioned preceding block piece 334 include front side wall 335, the first side wall 336, second sidewall 337 and bottom wall 338,337 phase of the first side wall 336 and second sidewall To the left and right ends for being arranged at intervals at front side wall 335, heat dissipation wind channel 333 is formed between the first side wall 336 and second sidewall 337； Bottom wall 338 is set to the bottom end of front side wall 335, and the both ends of bottom wall 338 connect with the first side wall 336 and second sidewall 337 respectively It connects.The first side wall 336 and second sidewall of block piece 334 before the fan 331 being arranged in support plate 330 can blow to hot gas Heat dissipation wind channel 333 between 337 enables hot gas is quick, powerful after the condenser 320 in heat dissipation wind channel 333 to be discharged, To realize the effect of 320 rapid cooling of condenser.

Further, above-mentioned the first side wall 336, second sidewall 337 and/or bottom wall 338 offer multiple first air outlets 339, in detail, the first side wall 336, second sidewall 337 and bottom wall 338 in the present embodiment offer multiple first air outlets 339, when fan 331 guides air-flow into heat dissipation wind channel 333, gas can be from the first side wall 336, second sidewall 337 and bottom wall 338 First air outlet 339 is released.

Optionally, in other embodiments, can only in the first side wall 336, second sidewall 337 and bottom wall 338 its In multiple first air outlets 339 of setting, or any two in the first side wall 336, second sidewall 337 and bottom wall 338 A multiple first air outlets 339 of setting.

Fig. 9 is the structural schematic diagram in the utility model embodiment under the rear visual angle of express mail cabinet 010；Please refer to Fig. 8 and Fig. 9, the refrigerating plant 200 of the present embodiment further include rear block piece 340 and upper block piece 341, rear block piece 340 and preceding block piece 334 interval settings, and support plate 330 is positioned at preceding block piece 334 and rear block piece 340 between, upper block piece 341 and bottom plate 332 Interval setting, and the both ends of upper block piece 341 are separately connected preceding block piece 334 and rear block piece 340；Further, it is blocked after Part 340 offers multiple second air outlets 342, to further increase 320 heat dissipation effect of condenser；Upper block piece 341 offers Multiple third air outlets 343, upper block piece 341 can be reduced the dust accretions inside refrigerating plant 200, so that refrigerating plant 200 It can more efficiently radiate, the third air outlet 343 of upper block piece 341 can be further improved heat dissipation effect.It should be noted that The rear block piece 340 and upper block piece 341 of the present embodiment can be plate structure, in other embodiments, rear 340 He of block piece Upper block piece 341 can also be that waffle slab, the grid of waffle slab can be taken as the second air outlet 342 and third air outlet 343.

Referring to figure 2. and Fig. 6, the cooling mechanism of the present embodiment further include support frame 344, and support frame 344 includes first Support part 345 and the second support portion 346, the first end connection support plate 330 of the first support portion 345, the second of the first support portion 345 The second support portion 346 of end connection, the second support portion 346 is arranged with the interval of support plate 330, and the second support portion 346 offers peace Fill mouth, condenser 320 is embedded in the installing port of the second support portion 346, so as to condenser 320 it is more stable be set to bottom plate 332.Above-mentioned first support portion 345 is level board, and the second support plate 330 is vertical plate, and level board and vertical plate form inverted "L" shape Structure, have preferable stability.

The evaporator 230 of refrigerating plant 200 provided in this embodiment generates cold air inside shell 220, and from shell 220 Inside the cold air generated inside shell 220 is delivered to by air duct by blower 240, be delivered to air outlet 211 by air duct, with To more powerful, sufficient cold air, refrigeration effect is improved.

Fig. 1 is please referred to, the present embodiment also provides a kind of express mail cabinet 010 comprising cabinet body 100 and above-mentioned refrigerating plant 200, refrigerating plant 200 is set to cabinet body 100, and the air outlet 211 of refrigerating plant 200 and the tool of air inlet 212 can be with cabinet bodies 100 Inside connection；So, refrigerating plant 200 can by the air inside cabinet body 100 be pumped into refrigerating plant 200 inside into Row freezes, then the cold air after refrigeration is transmitted back to the inside of cabinet body 100, realizes the refrigeration effect inside express mail cabinet 010.

Figure 10 is the partial structural diagram of express mail cabinet 010 in the utility model embodiment；In detail, Figure 10 is please referred to, Refrigerating plant 200 in the present embodiment is set to the top of cabinet body 100, and the top of cabinet body 100 has cold air outlet 110 and return air inlet 120, when refrigerating plant 200 is set to the top of cabinet body 100, cold air outlet 110 is configured as the air outlet with refrigerating plant 200 211 connections, return air inlet 120 are configured as being connected in the air inlet 212 of refrigerating plant 200, so, 200 energy of refrigerating plant Air inside cabinet body 100 is pumped into the inside of refrigerating plant 200 using return air inlet 120 and air inlet 212, and utilizes air outlet 211 and the cold air for preparing refrigerating plant 200 of cold air outlet 110 be sent into the inside of cabinet body 100 so that the inside of cabinet body 100 is kept Low temperature.It should be noted that the quantity of the cold air outlet 110 of the present embodiment is two, and two cold air outlets 110 and refrigerating plant The position of 200 two air outlets 211 is arranged in a one-to-one correspondence, and optionally, in other embodiments, the quantity of cold air outlet 110 is also It can be one, two air outlets 211 of refrigerating plant 200 can be opposite with cold air outlet 110；In other embodiments, cold The quantity in air port 110 can also be three, four etc..

Fig. 1 is please referred to, the express mail cabinet 010 of the present embodiment further includes multiple cabinet doors 130, and cabinet body 100 has multiple matter storage lattices Mouthful, cabinet door 130 is movably connected in cabinet body 100, and the position of multiple cabinet doors 130 and multiple storing bins corresponds, cabinet Door 130 is configured to open or close corresponding storing bin.In detail, the cabinet door 130 in the present embodiment and cabinet body 100 can It rotationally connects, in other embodiments, cabinet door 130 can also be slidably connected with cabinet body 100.Further, the present embodiment Cabinet door 130 be additionally provided with snap close piece, snap close piece can be used for for cabinet door 130 being locked in the position of closing storing bin, this reality The snap close piece for applying example is electronic lock, and in other embodiments, snap close piece can also be mechanical lock etc..

Further, Figure 10 is please referred to, the cabinet body 100 of the present embodiment includes two or so spaced outer walls 140, when When refrigerating plant 200 is set to the top of cabinet body 100, refrigerating plant 200 is located between two spaced outer walls 140, after The both ends for blocking component are connect with two outer walls 140 respectively, and the both ends of upper block piece 341 are connect with two outer walls 140 respectively.Again Further, for the tool of refrigerating plant 200 of the present embodiment there are two preceding block piece 334, one of them preceding block piece 334 is located at support The front end of plate 330, another preceding block piece 334 may be located on the front end of shell 220, in other embodiments, preceding block piece 334 quantity can also be one, three, four etc..

The express mail cabinet 010 of the present embodiment can carry out internal gas circulation using refrigerating plant 200, and from cabinet body 100 Gas into refrigerating plant 200 can be cooled down into cold air in refrigerating plant 200, recycle the blower 240 of refrigerating plant 200 Guide cold air into air outlet 211, the cold air across air outlet 211 reaches through the inside of the entrance cabinet body 100 of cold air outlet 110 to cabinet The effect of 100 internal refrigeration storage of body.

In conclusion the refrigerating plant of the utility model and the beneficial effect of express mail cabinet are:

The refrigerating plant of the utility model embodiment when in use, air from air inlet enter enclosure interior by evaporator into Row refrigeration, can blow to air outlet by the blower of enclosure interior by the air that evaporator freezes in shell, so, air exists Closed enclosure interior is delivered to air outlet from shell by blower again after being freezed, and on the one hand the effect of refrigeration is good, damage of cold air It loses less, the cold air on the other hand conveyed by blower is powerful, sufficient, to improve the effect of refrigeration.

The express mail cabinet of the utility model embodiment when in use, can use the refrigerating plant system for being set to cabinet body It is cold, and when being freezed with the refrigerating plant, the air of interior of the cabinet from air inlet enter the enclosure interior of refrigerating plant by Evaporator freezes, and can blow to air outlet by the blower of enclosure interior by the air that evaporator freezes inside housings, and lead to The inside that ventilation opening enters express mail cabinet cabinet body is crossed, so, then air carries out freezing in closed shell again from shell The middle inside that cabinet body is delivered to by blower, on the one hand the effect of refrigeration is good, cold air loss is few, on the other hand by blower conveying Cold air is powerful, sufficient, can effectively promote the refrigeration effect of express mail cabinet.

The above descriptions are merely preferred embodiments of the present invention, is not intended to limit the utility model, for this For the technical staff in field, various modifications and changes may be made to the present invention.It is all in the spirit and principles of the utility model Within, any modification, equivalent replacement, improvement and so on should be included within the scope of protection of this utility model.

Claims (10)

1. a kind of refrigerating plant characterized by comprising

Pedestal, the pedestal are provided with air outlet and air inlet；

Cover at the shell of the pedestal；

Be set to the evaporator and blower of the inside of the shell, the blower is opposite with the evaporator, the evaporator with The air inlet connection, the blower are connected to the air outlet.

2. refrigerating plant according to claim 1, which is characterized in that further include the cover board for being set to the inside of the shell And supporting element, for the assembling in the supporting element, the cover board is located at the side of the supporting element, and with the supporting element Connection, air duct is formed between the cover board and the supporting element, the blower is located in the air duct, the air duct and it is described out Air port connection；The evaporator is located at side of the supporting element far from the cover board.

3. refrigerating plant according to claim 2, which is characterized in that the supporting element has first groove, the cover board Close the side opening of the first groove, the width of the first groove is from one end adjacent to the air outlet to the wind The direction of machine is gradually increased.

4. refrigerating plant according to claim 3, which is characterized in that the cover board has second groove, second ditch Slot is oppositely arranged with the first groove, and the first groove and the second groove fasten, and forms the air duct between the two.

5. refrigerating plant according to claim 2, which is characterized in that the cover board and the supporting element are arranged in the horizontal direction Cloth.

6. refrigerating plant according to claim 1, which is characterized in that the shell includes heat shield and seal closure, described Heat shield covers at outside the seal closure, and the evaporator and the blower are all set in the inside of the seal closure.

7. refrigerating plant according to claim 1, which is characterized in that the pedestal includes rhone, the draining slot position In the shell inside and the evaporator be located at the top of the rhone, the rhone passes through the row on the pedestal Water hole is in communication with the outside.

8. refrigerating plant according to claim 7, which is characterized in that in the horizontal direction, the air outlet, the draining Slot, the air inlet are set in turn in the pedestal.

9. refrigerating plant according to any one of claims 1 to 8, which is characterized in that further include compressor, condenser, The first end of one pipeline and second pipe, the first end of the first pipe and the second pipe protrudes into connection in the shell The evaporator, the second end of the first pipe are connect with the compressor, the second end of the second pipe with it is described cold Condenser connection.

10. a kind of express mail cabinet, which is characterized in that including cabinet body and be set to described in the claim any one of 1-8 of the cabinet body Refrigerating plant, the air outlet and the air inlet of the refrigerating plant be connected to the inside of the cabinet body.