CN206609207U - Air-cooled separating refrigerating equipment - Google Patents

Abstract

The utility model provides a kind of air-cooled separating refrigerating equipment, including compressor, hot end heat exchanger and blower fan, it is characterized in that, also include outdoor machine shell, the compressor, the hot end heat exchanger and the blower fan are arranged in the outdoor machine shell, the blower fan is arranged between the compressor and the hot end heat exchanger, air channel is provided between the blower fan and the compressor, the hot end heat exchanger uses heat regenerator, and the heat regenerator has refrigerant pipeline and heat-exchanging water pipeline；Air-supply passage is provided with the indoor locker, the air-supply passage is provided with air inlet and air outlet, the air-supply passage and is provided with circulating fan and the cool end heat exchanger.Realize and improve ease of use and versatility, and improve user's comfort and experience property.

Description

Air-cooled separating refrigerating equipment

Technical field

The utility model is related to refrigeration plant, more particularly to a kind of air-cooled separating refrigerating equipment.

Background technology

At present, refrigeration plant（Refrigerator, refrigerator etc.）It is widely used in daily life.Traditional family expenses system Cool equipment is using single body structure, and casing is divided into storing compartment and cabin, and the part such as compressor, condenser and fan is arranged on In cabin, storing compartment is used to store to be frozen or refrigeration article.In actual use, the compressor operating in cabin Noise and heat will be produced, causes the user's comfort and experience property of refrigeration plant in the prior art poor；Meanwhile, storing Compartment is arranged in same casing, and user needs the multiple independent refrigeration plants of configuration to meet refrigeration storing in not chummery Need, cause the ease of use and versatility of refrigeration plant in the prior art relatively low.

The content of the invention

Technical problem to be solved in the utility model is：A kind of air-cooled separating refrigerating equipment is provided, realizes to improve and divides The ease of use and versatility of body formula refrigeration plant, and improve user's comfort and experience property.

The technical scheme that the utility model is provided is that a kind of air-cooled separating refrigerating equipment, including compressor, hot junction exchange heat Device and blower fan, it is characterised in that also including outdoor machine shell, the compressor, the hot end heat exchanger and the blower fan are arranged on In the outdoor machine shell, the blower fan is arranged between the compressor and the hot end heat exchanger, the blower fan and the pressure Air channel is provided between contracting machine, the hot end heat exchanger uses heat regenerator, and the heat regenerator has refrigerant pipe Road and heat-exchanging water pipeline；Air-supply passage is provided with the indoor locker, the air-supply passage is provided with air inlet and air-out Mouthful, it is provided with circulating fan and the cool end heat exchanger in the air-supply passage.

The air-cooled separating refrigerating equipment that the utility model is provided, is divided into outdoor machine shell and many by using split-type structural Individual independent indoor locker, the part such as compressor, hot end heat exchanger and throttling arrangement is disposed in the outdoor in casing, due to outdoor Casing is disposed in the outdoor side, and the noise and heat that compressor is produced will not produce influence to indoor, can effectively improve use The comfort and experience property at family；Also, due to using multiple independent indoor lockers, user can be as needed by not Same indoor locker is placed in different rooms, realizes the ease of use and versatility for improving separating refrigerating equipment. In addition, compressor, hot end heat exchanger and blower fan are arranged on into same air channel, the wind that sufficiently can be produced using blower fan is while right Compressor and hot end heat exchanger are radiated, the heat transfer effect of general increase compressor and hot end heat exchanger, improve refrigeration system Heat exchange efficiency, improve energy utilization rate.

Brief description of the drawings

, below will be to embodiment in order to illustrate more clearly of the utility model embodiment or technical scheme of the prior art Or the accompanying drawing used required in description of the prior art is briefly described, it should be apparent that, drawings in the following description are Some embodiments of the present utility model, for those of ordinary skill in the art, are not paying the premise of creative labor Under, other accompanying drawings can also be obtained according to these accompanying drawings.

Fig. 1 is the structure principle chart of the air-cooled separating refrigerating apparatus embodiments of the utility model.

Fig. 2 is the schematic diagram of the air-cooled separating refrigerating apparatus embodiments of the utility model.

Fig. 3 is the structure principle chart of outdoor unit in the air-cooled separating refrigerating apparatus embodiments of the utility model.

Fig. 4 is the structure principle chart of indoor locker in the air-cooled separating refrigerating apparatus embodiments of the utility model.Specifically Embodiment

It is new below in conjunction with this practicality to make the purpose, technical scheme and advantage of the utility model embodiment clearer Accompanying drawing in type embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that retouched The embodiment stated is a part of embodiment of the utility model, rather than whole embodiments.Based on the implementation in the utility model Example, the every other embodiment that those of ordinary skill in the art are obtained under the premise of creative work is not made is belonged to The scope of the utility model protection.

As shown in Figure 1-Figure 3, the air-cooled separating refrigerating equipment of the present embodiment uses split-type structural, including outdoor machine shell 101 and multiple independent indoor lockers 102, outdoor machine shell 101 is placed on the outside of wall 100, and indoor locker 102 is put Put in the inner side of wall 100, wherein, compressor 1, hot end heat exchanger 2, throttling arrangement and the blower fan of refrigeration system（It is not shown）Deng Part is disposed in the outdoor in casing 101, and the cold end evaporator of refrigeration system is arranged in corresponding indoor locker 102.

Specifically, the air-cooled separating refrigerating equipment of the present embodiment in actual use, because compressor 1 is arranged on In outside outdoor machine shell 101, the noise and heat that the operation of compressor 1 is produced will not produce influence to indoor, can be effective The comfortableness that uses indoors of raising user, improve user experience.Simultaneously as using multiple independent indoor lockers 102, indoor locker 102, which can be placed as required in different rooms, to be used, and is realized that single compressor 1 is met and is not had sexual intercourse Between freezing or chilled goods demand.According to user's needs, the indoor locker 102 can be horizontal counter body or vertical counter Body or wall-mounted cabinet.It is preferred that, it is preferred that in order to make full use of the condensation heat of hot end heat exchanger 2, hot end heat exchanger 2 is used Heat-storing material 20 is provided with heat regenerator, hot end heat exchanger 2, also, hot end heat exchanger 2 has refrigerant pipeline 21 and changed Hot water line 22, wherein, refrigerant pipeline 21, which is connected in refrigerating circuit, conveys refrigerant, and the confession of heat-exchanging water pipeline 22 then with outside Water end (W.E.) is connected, and extraneous water, which is entered in heat-exchanging water pipeline 22, carries out heat exchange type into hot water, realizes the heat energy for making full use of condensation, Improve energy utilization rate；And due to being provided with heat-storing material 20 in hot end heat exchanger 2, when shutting down, heat-storing material 20 still can Heat water is enough provided.

Wherein, for being provided with air-supply passage 1020 in indoor locker 102, air-supply passage 1020 has air outlet 1021 With air inlet 1022, circulating fan 103 is additionally provided with the air-supply passage 1020, room can be realized using circulating fan 103 Air circulation flow in interior locker 102, to improve the temperature distribution evenness in indoor locker 102.

In addition, constituting recovery type heat refrigeration plant for outdoor machine shell 101, compressor 1, hot end heat exchanger 2 and blower fan 10 With outdoor unit, the compressor 1, the hot end heat exchanger 2 and the blower fan 10 are arranged in the outdoor machine shell 101, described Blower fan 10 is arranged between the compressor 1 and the hot end heat exchanger 2, is set between the blower fan 10 and the compressor 1 There is air channel（It is unmarked）.Specifically, compressor 1, hot end heat exchanger 2 and blower fan 10 are arranged on same straight line, blower fan 10 from The side air draught of hot end heat exchanger 2 blows to compressor 1, has both considered the lift problem of blower fan, and compressor and hot junction heat exchange are can guarantee that again The radiating effect of device, reaches energy-conservation purpose.Blower fan 10 is located between hot end heat exchanger 2 and compressor 1, to heat during 2 air draught of blower fan End heat exchanger 2 radiates, meanwhile, blower fan 10 can be from the peripheral air draught of hot end heat exchanger 2, then the wind-warm syndrome blown out is relatively low, gives compression Radiating effect after machine 1 is preferable.Further, the upper surface of the outdoor machine shell 101 is formed with domatic 1011, the blower fan 10 Fan housing 1012, bottom surface, the both sides of the fan housing 1012 and the outdoor machine shell 101 are provided between the outdoor machine shell 101 Wall and domatic 1011 constitutes the air channel, it is preferred that the fan housing 1012 is arc-shaped structure, and the air channel is along the blower fan 10 Air channel divergent segment is sequentially formed with to the direction of compressor 1（It is unmarked）With air channel converging transition（It is unmarked）；Wherein, along described Blower fan 10 to the direction of compressor 1, the area of section of the air channel divergent segment gradually increases, the section of the air channel converging transition Area is gradually reduced, and the length W1 ratios of the length W2 of the air channel divergent segment and the air channel converging transition are 1：（3-5）.Specifically , the cross section of air quantity is first become ambassador's wind and is diffused on whole duct cross-section by air channel, then air channel reduced cross-sectional, now wind When speed is gradually increasing and blows to 1 surface of compressor, wind speed is more than the wind speed that blower fan 10 is exported, and increases changing for the surface of compressor 1 Hot coefficient.

Based on above-mentioned technical proposal, optionally, in order to improve energy utilization rate height and refrigeration performance, expand cryogenic temperature area Between to improve versatility, indoor 102 points of the locker is low hypothermia locker and profound hypothermia locker, and cold end evaporator is divided into The low hypothermia evaporator 4, the depth are provided with low hypothermia evaporator 4 and profound hypothermia evaporator 5, the low hypothermia locker The profound hypothermia evaporator 5 is provided with low temperature locker；And the refrigeration system also includes gas-liquid separator 3, the first backheat Device 7 and heat exchanger 6；The first capillary 71 and the first product heat cal rod 72 of mutual heat exchange are provided with first regenerator 7, The outlet of the hot end heat exchanger 2 is connected with the import of the gas-liquid separator 3；The gas outlet of the gas-liquid separator 3 and institute The first heat exchanger channels connection of heat exchanger 6 is stated, first heat exchanger channels are steamed by the second capillary 82 and the profound hypothermia Send out the import connection of device 5；The liquid outlet of the gas-liquid separator 3 passes through first capillary 71 and the low hypothermia evaporator 4 import connection, the outlet of the low hypothermia evaporator 4 is connected with the second heat exchanger channels of the heat exchanger 6, and described second The outlet of heat exchanger channels and profound hypothermia evaporator 5 is connected by first product heat cal rod 72 with the import of the compressor 1 respectively. Specifically, refrigerant forms high temperature, the superheated refrigerant gas of high pressure by the compression of compressor 1, refrigerant gas enters hot junction Heat exchanger 2 is condensed, different using the dew-point temperature of high low boiling point refrigerant in refrigerant, is formed after refrigerant gas condensation Two phase refrigerant rich in higher boiling refrigerant liquid and rich in low boiling point refrigerant gas, the refrigerant enters gas-liquid separator 3 are separated.Liquid phase refrigerant rich in higher boiling refrigerant is exported from the liquid outlet of gas-liquid separator 3, via the first capillary After pipe 71 throttles, enter after low hypothermia evaporator 4 is exchanged heat and form two phase refrigerant into further changing in heat exchanger 6 The first product heat cal rod 72 that heat enters in the first regenerator 7 into saturation refrigerant gas, subsequent refrigerant gas, the first product heat cal rod 72 Exchanged heat with the first capillary 71；Vapor phase refrigerant is introduced into the refrigerant that heat exchanger 6 absorbs the output of low hypothermia evaporator 4 Cold after form liquid phase refrigerant, liquid phase refrigerant exchanges heat after the throttling of the second capillary 81 into profound hypothermia evaporator 5 Gas refrigerant is formed afterwards to be flowed into the first product heat cal rod 72, finally, the refrigerant gas conveying back pressure in the first product heat cal rod 72 Contracting machine 1.It is preferred that, the present embodiment multi-temperature zone cooling cycle system also includes setting in the second regenerator 8, second regenerator 8 It is equipped with the product heat cal rod 82 of second capillary 81 and second of mutual heat exchange, the outlet and second of the profound hypothermia evaporator 5 Heat exchanger channels are connected by the second product heat cal rod 82 with the first product heat cal rod 72 respectively.Specifically, profound hypothermia evaporator 5 is formed after exchanging heat Gas refrigerant and the second heat exchanger channels conveying refrigerant enter in the second product heat cal rod 82 of the second regenerator 8, second After the capillary 81 of product heat cal rod 82 and second is exchanged heat, can more added with the temperature that can freeze of reduction profound hypothermia evaporator 5, The refrigeration of more low temperature is obtained, and more effectively utilizes energy consumption, efficiency is improved.Specifically, two evaporators are configured with Corresponding regenerator, regenerator can recycle refrigerant in return-air cold improve system energy utilization rate, also without Complicated control program, it is ensured that the performance of product is also ensure that while product cost.

In actual use, low hypothermia evaporator 4 is used to refrigerate or conventional freezing, and for profound hypothermia evaporator 5 in addition to it can be used in conventional freezing, can also realize cryogenic refrigeration, coordinate different refrigerants to realize large span temperature The refrigeration of scope is spent, the present embodiment multi-temperature zone cooling cycle system uses mix refrigerant, and the mix refrigerant includes a variety of Refrigerant, for example：The mix refrigerant is R600a and R290 mixture；Or, the mix refrigerant be R600 and R290 mixture；Or, the mix refrigerant is R600a and R600 mixture；Or, the mix refrigerant is R600a and R170 mixture；Or, the mix refrigerant is R290 and R170 mixture；Or, the hybrid refrigeration Agent is R600a, R290 and R170 mixture.Different storage warm areas can be formed by different non-public boiling mix refrigerants, Working medium is to R600a/R290：- 18 ~ -30 DEG C of storage warm areas and -30 ~ -40 DEG C of storage warm areas can be achieved；Working medium is to R600/R290： - 6 ~ -18 DEG C of storage warm areas and -30 ~ -40 DEG C of storage warm areas can be achieved；Working medium is to R600/R600a：0 ~ 9 DEG C of storage temperature can be achieved Area and -6 ~ -12 DEG C of storage warm areas；Working medium is to R600a/R170：- 18 ~ -30 DEG C of storage warm areas and -40 ~ -60 DEG C of storages can be achieved Warm area；Working medium is to R290/R170：- 20 ~ -40 DEG C of storage warm areas can be achieved and -40 ~ -60 DEG C are stored warm area etc..

Wherein, according to the setting of varying number warm area, low hypothermia evaporator 4 and profound hypothermia evaporator 5 can use many Individual sub- evaporator is constituted, and can be applied in combination between sub- evaporator by the way of serial or parallel connection.In addition, relevant heat exchange Its performance entity of device 6 can use heat-exchangers of the plate type or casing type heat exchanging.

By the way that the refrigerant of gaseous state in gas-liquid separator and liquid is delivered in different evaporators respectively, gaseous refrigerant Agent carries out the refrigeration of profound hypothermia by being transported to through over-heat-exchanger in profound hypothermia evaporator, and liquid refrigerant passes through capillary section Entered after stream in low hypothermia evaporator and carry out the refrigeration of low hypothermia, and in order to effectively widen temperature range, steamed from low hypothermia The refrigerant exported in hair device carries out heat exchange by exchanging heat with entering the refrigerant in low hypothermia evaporator, so that shallow The cryogenic temperature of cryogenic vaporizer is lower, realizes the effect of multi-temperature zone refrigeration, and need not use complicated control program, and hot Exchanger can effectively improve efficiency, reduce energy consumption, realize and improve separating refrigerating equipment energy utilization rate height and refrigeration property Can, expand cryogenic temperature interval to improve versatility.

Finally it should be noted that：Above example is only to illustrate the technical solution of the utility model, rather than its limitations； Although the utility model is described in detail with reference to the foregoing embodiments, it will be understood by those within the art that： It can still modify to the technical scheme described in foregoing embodiments, or which part technical characteristic is carried out etc. With replacement；And these modifications or replacement, the essence of appropriate technical solution is departed from each embodiment technology of the utility model The spirit and scope of scheme.

Claims (10)

1. a kind of air-cooled separating refrigerating equipment, including refrigeration system and blower fan, the refrigeration system include compressor, hot junction and changed Hot device, throttling arrangement and cool end heat exchanger, it is characterised in that also including outdoor machine shell, the compressor, the hot end heat exchanger It is arranged on the blower fan in the outdoor machine shell, the blower fan is arranged between the compressor and the hot end heat exchanger, Air channel is provided between the blower fan and the compressor, the hot end heat exchanger uses heat regenerator, the heat accumulating type Heat exchanger has refrigerant pipeline and heat-exchanging water pipeline；Air-supply passage is provided with the indoor locker, the air-supply passage is set It is equipped with air inlet and air outlet, the air-supply passage and is provided with circulating fan and the cool end heat exchanger.

2. air-cooled separating refrigerating equipment according to claim 1, it is characterised in that the compressor, the blower fan and The hot end heat exchanger arrangement is on the same line.

3. air-cooled separating refrigerating equipment according to claim 1, it is characterised in that the upper surface shape of the outdoor machine shell It is domatic into having, it is provided with fan housing between the blower fan and the outdoor machine shell, the bottom surface of the fan housing and the outdoor machine shell, two Side wall and the domatic composition air channel.

4. air-cooled separating refrigerating equipment according to claim 3, it is characterised in that the fan housing is arc-shaped structure, The air channel is sequentially formed with air channel divergent segment and air channel converging transition along the blower fan to the compressor direction；Wherein, along institute Blower fan is stated to the compressor direction, the area of section of the air channel divergent segment gradually increases, the section of the air channel converging transition Area is gradually reduced.

5. air-cooled separating refrigerating equipment according to claim 4, it is characterised in that the air channel divergent segment and the wind The length ratio of road converging transition is 1：（3-5）.

6. according to any described air-cooled separating refrigerating equipment of claim 1-5, it is characterised in that the indoor locker point For low hypothermia locker and profound hypothermia locker, the cold end evaporator is divided into low hypothermia evaporator and profound hypothermia evaporator, institute State and the low hypothermia evaporator is provided with low hypothermia locker, the profound hypothermia evaporation is provided with the profound hypothermia locker Device；The throttling arrangement include the first capillary and the second capillary, the refrigeration system also include gas-liquid separator, first time Hot device and heat exchanger；First capillary and the first product heat cal rod of mutual heat exchange are provided with first regenerator, The outlet of the hot end heat exchanger is connected with the import of the gas-liquid separator；The gas outlet of the gas-liquid separator and the heat The first heat exchanger channels connection of exchanger, first heat exchanger channels pass through second capillary and the profound hypothermia evaporator Import connection, the import that the liquid outlet of the gas-liquid separator passes through first capillary and the low hypothermia evaporator connects Connect, the outlet of the low hypothermia evaporator is connected with the second heat exchanger channels of the heat exchanger, second heat exchanger channels and The outlet of the profound hypothermia evaporator connects first product heat cal rod respectively, and first product heat cal rod connects entering for the compressor Mouthful.

7. separating refrigerating equipment according to claim 6, it is characterised in that also including the second regenerator, described second Second capillary and the second product heat cal rod of mutual heat exchange, second heat exchanger channels and the depth are provided with regenerator The outlet of cryogenic vaporizer connects second product heat cal rod respectively, and second product heat cal rod is connected with first product heat cal rod.

8. separating refrigerating equipment according to claim 6, it is characterised in that the low hypothermia evaporator include it is multiple simultaneously Join the sub- evaporator of multiple low hypothermias set, or, the low hypothermia evaporator includes multiple multiple low hypothermias being arranged in series Sub- evaporator；The profound hypothermia evaporator includes multiple sub- evaporators of multiple profound hypothermias being arranged in parallel, or, the profound hypothermia Evaporator includes multiple sub- evaporators of multiple profound hypothermias being arranged in series.

9. separating refrigerating equipment according to claim 6, it is characterised in that the separating refrigerating equipment is using mixing Refrigerant, the mix refrigerant includes a variety of refrigerants.

10. separating refrigerating equipment according to claim 9, it is characterised in that the mix refrigerant be R600a and R290 mixture；Or, the mix refrigerant is R600 and R290 mixture；Or, the mix refrigerant is R600a and R600 mixture；Or, the mix refrigerant is R600a and R170 mixture；Or, the mixing system Cryogen is R290 and R170 mixture；Or, the mix refrigerant is R600a, R290 and R170 mixture.