CN206269293U - A kind of upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source - Google Patents

Abstract

The utility model discloses a kind of upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source, it is characterised in that including cabinet, evaporator, centrifugal fan, phase-change heat-exchange module；The evaporator, centrifugal fan, phase-change heat-exchange module are sequentially arranged in cabinet from top to bottom, or evaporator, phase-change heat-exchange module, centrifugal fan are sequentially arranged in cabinet from top to bottom；Condenser, throttle part, compressor connection that the evaporator passes through pipeline and refrigeration unit；The utility model makes full use of extraneous free natural cooling source according to the natural environmental condition in Different climate area, and efficiency of energy utilization is high；The utility model makes full use of night external world's Cryogenic air to carry out cold-storage using the cold-storage ability of itself phase-change heat-exchange module, and releases cold in the high temperature period on daytime, significantly saves the refrigeration compressor opening time on daytime, saves power consumption.

Description

A kind of upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source

Technical field：

The utility model is related to phase-change material energy storage air-conditioning technical field, and in particular to sent on a kind of utilization natural cooling source Wind formula phase-transition energy-storage air conditioner.

Background technology：

The domestic air conditioning electricity consumption period concentrates, and the round-the-clock cooling of communication base station requirement, both air-conditioning system power consumption It is huge.For the air-conditioning system being applied in communication base station and house, current generally existing problems with：One is system entirety energy Effect is than low, and efficiency of energy utilization is low, causes energy consumption to remain high；Two is not make full use of natural cooling source to realize energy-conservation.And Traditional air conditioner energy saving technology is Main way to improve the refrigerating efficiency of refrigeration plant and the utilization rate of raising cold, through excessive The development and application in year, hardly possible has breakthrough progress on energy-saving effect is improved.

Utility model content：

The purpose of this utility model is to provide a kind of upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source, with reference to phase transformation Material cold-storage, using natural cooling source, so as to reach the purpose of reducing energy consumption.

The utility model is achieved by the following technical programs：

A kind of upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source, including cabinet, evaporator, centrifugal fan, phase Become heat exchange module；The evaporator, centrifugal fan, phase-change heat-exchange module are sequentially arranged in cabinet from top to bottom, Huo Zhesuo Evaporator, phase-change heat-exchange module, centrifugal fan is stated to be sequentially arranged in cabinet from top to bottom；The evaporator by pipeline and The condenser of refrigeration unit, throttle part, compressor connection；The cabinet lower back is provided with outside air inlet, the machine Case front is additionally provided with air-conditioning air inlet, air-conditioner air outlet；The air-conditioner air outlet, air-conditioning air inlet are located at the same side；It is described from Core type blower fan two sides can air draught, the one side of centrifugal fan is parallel to air-conditioning air inlet, described phase-change heat-exchange module Including phase-change heat-exchanger and the phase-changing energy storage material being stored in inside phase-change heat-exchanger；The phase-change heat-exchange module bottom is provided with phase Become heat exchange module air inlet, top and be provided with phase-change heat-exchange module outlet；The air-conditioner air outlet, air-conditioning air inlet, outside Air inlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet are equipped with the automatic switch of screen pack and horizontal Blinds, horizontal blinds can realize corresponding automatic switch according to the change of operating mode.

It is described using certainly when evaporator, centrifugal fan, phase-change heat-exchange module are sequentially arranged in cabinet from top to bottom The upper blast type phase-transition energy-storage air conditioner of right low-temperature receiver, also including axial flow blower；The evaporator, centrifugal fan, phase inversion hot-die Block, axial flow blower are sequentially arranged in cabinet from top to bottom；The cabinet lower back is provided with underframe outside air inlet, cabinet Bottom front is provided with underframe indoor air inlet, and the positive Middle face of cabinet, top are respectively equipped with air-conditioning air inlet, air conditioning exhausting Mouthful；The air-conditioner air outlet, air-conditioning air inlet are located at the same side with underframe indoor air inlet；The centrifugal fan two sides Can air draught, the one side of centrifugal fan is parallel to air-conditioning air inlet；The air-conditioner air outlet, air-conditioning air inlet, underframe room Outside air inlet, underframe indoor air inlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet are equipped with screen pack With the blinds of the automatic switch of horizontal, horizontal blinds can realize corresponding automatic switch according to the change of operating mode.

It is described using certainly when evaporator, phase-change heat-exchange module, centrifugal fan are sequentially arranged in cabinet from top to bottom The upper blast type phase-transition energy-storage air conditioner of right low-temperature receiver, including cabinet, evaporator, centrifugal fan, phase-change heat-exchange module；The cabinet Lower back is provided with outside air inlet, and cabinet front bottom, top are respectively equipped with air-conditioning air inlet, air-conditioner air outlet； The air-conditioner air outlet, air-conditioning air inlet are located at the same side；The air-conditioning air inlet, outside air inlet set relatively；It is described Centrifugal fan two sides can air draught, the one side of centrifugal fan is parallel to air-conditioning air inlet；The air-conditioner air outlet, sky Transfer in air port, outside air inlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet and be equipped with screen pack and level The blinds of the automatic switch of formula, horizontal blinds can realize corresponding automatic switch according to the change of operating mode.

Described evaporator is fin-tube heat exchanger, or micro-channel heat exchanger.

The working medium of flow evaporation is the refrigerants such as freon in described evaporator.

Described phase-changing energy storage material is inorganic hydrated salt or biomass phase-change material.

A kind of air-flow method of operation of the upper blast type phase-transition energy-storage air conditioner of described utilization natural cooling source is under upper air-supply Return air.

The utility model closes down compressor when environment temperature is low, using the phase-changing energy storage material pair in phase-change heat-exchange module The relatively low naturally free low-temperature receiver of outdoor environment temperature is stored, the cold release housing that will be stored when temperature is higher or Person's communication base station, cooling is carried out to house or communication base station.

The operational mode of the upper blast type phase-transition energy-storage air conditioner of the utilization natural cooling source includes following Three models：Electricity system Chill formula, natural cooling source cooling and cold-storage pattern, phase-change material cooling mode, specifically in two kinds of situation, are described below：

1) when evaporator, centrifugal fan, phase-change heat-exchange module are sequentially arranged in cabinet from top to bottom：

Electric refrigeration mode：When outdoor environment temperature is higher, underframe outside air inlet, underframe indoor air inlet, phase Become heat exchange module air inlet, phase-change heat-exchange module outlet to be turned off, air-conditioning air inlet and air-conditioner air outlet are opened, air-conditioning pressure Contracting machine starts, and is that house or communication base station provide cold by air-conditioning system；Air-flow flows successively through air-conditioning air inlet, centrifugal wind Machine, evaporator, air-conditioner air outlet；

Natural cooling source cooling and cold-storage pattern：In night or winter outdoor environment temperature relatively low period, compressor of air conditioner Close, air-conditioning air inlet and underframe indoor air inlet are turned off, air-conditioner air outlet, phase-change heat-exchange module inlet, phase inversion Thermal modules air outlet, underframe outside air inlet are opened, axial flow blower and centrifugal fan by outdoor cold wind introduce house or Communication base station, using natural cooling source cooling, while phase-change material stores the unnecessary cold of natural cooling source；Air-flow flows successively Cross underframe outside air inlet, axial flow blower, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet, centrifugal fan, Evaporator, air-conditioner air outlet；

Phase-change material cooling mode：When outdoor environment temperature is raised, compressor of air conditioner, air-conditioning air inlet, outside underframe room Side air inlet is turned off, and air-conditioner air outlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet, underframe indoor are entered Air port is opened, and the cold that phase-change material is stored is delivered into house using axial fan and centrifugal fan or communication base station enters Row cooling, air-flow flows successively through underframe indoor air inlet, axial flow blower, phase-change heat-exchange module inlet, phase-change heat-exchange module Air outlet, centrifugal fan, evaporator, air-conditioner air outlet.

(2) when evaporator, phase-change heat-exchange module, centrifugal fan are sequentially arranged in cabinet from top to bottom：

Electric refrigeration mode：When outdoor environment temperature is higher, outside air inlet is closed, phase-change heat-exchange module inlet, Phase-change heat-exchange module outlet, air-conditioning air inlet and air outlet are opened, and compressor of air conditioner starts, by air-conditioning system be house or Communication base station provides cold, and air-flow flows successively through air-conditioning air inlet, centrifugal fan, phase-change heat-exchange module inlet, phase inversion Thermal modules air outlet, evaporator, air-conditioner air outlet；

Natural cooling source cooling and cold-storage pattern：In night or winter outdoor environment temperature relatively low period, compressor of air conditioner Close, air-conditioning air inlet is closed, and air-conditioner air outlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet, outside are entered Air port is opened, and outdoor cold wind is introduced house or communication base station by centrifugal fan, using natural cooling source cooling, while phase transformation material Material stores the unnecessary cold of natural cooling source, and air-flow flows successively through outside air inlet, centrifugal fan, phase inversion hot-die Block air inlet, phase-change heat-exchange module outlet, evaporator, air-conditioner air outlet；

Phase-change material cooling mode：When outdoor environment temperature is raised, compressor of air conditioner is closed, and outside air inlet is closed Close, air-conditioner air outlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet, air-conditioning air inlet are opened, using centrifugation Are delivered into house by the cold that phase-change material is stored for formula blower fan or communication base station carries out cooling, air-flow flow successively through air-conditioning air inlet, Centrifugal fan, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet, evaporator, air-conditioner air outlet.

The beneficial effects of the utility model are as follows：

(1) the utility model makes full use of extraneous free natural cooling source according to the natural environmental condition in Different climate area, Efficiency of energy utilization is high；The utility model makes full use of night external world's low temperature empty using the cold-storage ability of itself phase-change heat-exchange module Gas carries out cold-storage, and releases cold in the high temperature period on daytime, significantly saves the refrigeration compressor opening time on daytime, saves electric energy Consumption.

(2) the utility model evaporator and phase-change material are separately disposed, and are more beneficial for evaporator and air exchange cold, are made Evaporator cold is dispersed into air rapidly.

Brief description of the drawings：

Fig. 1 is the structural side view of embodiment of the present utility model 1；

Wherein, 1, cabinet, 2, evaporator, 3, centrifugal fan, 4, phase-change heat-exchange module, 5-1, air-conditioner air outlet, 5-2, Air-conditioning air inlet, 5-3, phase-change heat-exchange module inlet, 5-4, phase-change heat-exchange module outlet, 5-5, underframe outside air intake Mouthful, 5-6, underframe indoor air inlet, 6 axial flow blowers.

Fig. 2 is the structural representation of the utility model embodiment 2；

1st, cabinet, 2, evaporator, 3, centrifugal fan, 4, phase-change heat-exchange module, 5-1, air-conditioner air outlet, 5-2, air-conditioning enter Air port, 5-3, phase-change heat-exchange module inlet, 5-4, phase-change heat-exchange module outlet, 5-5, outside air inlet.

Specific embodiment：

Further illustrated the following is to of the present utility model, rather than to limitation of the present utility model.

Embodiment 1：

The upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source as shown in Figure 1, including cabinet 1, evaporator 2, centrifugation Formula blower fan 3, phase-change heat-exchange module 4 and axial flow blower 6；The evaporator 2, centrifugal fan 3, phase-change heat-exchange module 4, axle stream wind Machine 6 is sequentially arranged in cabinet 1 from top to bottom；The evaporator 2 by the condenser of pipeline and refrigeration unit, throttle part, Compressor is connected；The lower back of the cabinet 1 is provided with underframe outside air inlet 5-5, the bottom front of cabinet 1 and is provided with underframe room Side air inlet 5-6, the middle part of the cabinet 1, top front face are respectively equipped with air-conditioning air inlet 5-2, air-conditioner air outlet 5-1；The sky Recall air port 5-1, air-conditioning air inlet 5-2 and be located at the same side with underframe indoor air inlet 5-6；The both sides of the centrifugal fan 3 Face can air draught, the one side of centrifugal fan 3 includes phase transformation parallel to air-conditioning air inlet 5-2, described phase-change heat-exchange module 4 Heat exchanger and the phase-changing energy storage material being stored in inside phase-change heat-exchanger；The bottom of phase-change heat-exchange module 4 is provided with phase-change heat-exchange Module inlet 5-3, top are provided with phase-change heat-exchange module outlet 5-4；The air-conditioner air outlet 5-1, air-conditioning air inlet 5-2, Underframe outside air inlet 5-5, underframe indoor air inlet 5-6, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module go out Air port 5-4 is equipped with the blinds of the automatic switch of screen pack and horizontal, and horizontal blinds can realize phase according to the change of operating mode The automatic switch answered.

Described evaporator 2 is fin-tube heat exchanger, or micro-channel heat exchanger.

The working medium of the described inner flow evaporation of evaporator 2 is the refrigerants such as freon.

Described phase-changing energy storage material is inorganic hydrated salt or biomass phase-change material.

A kind of air-flow method of operation of the upper blast type phase-transition energy-storage air conditioner of described utilization natural cooling source is under upper air-supply Return air.

The utility model closes down compressor when environment temperature is low, using the phase-changing energy storage material in phase-change heat-exchange module 4 The naturally free low-temperature receiver relatively low to outdoor environment temperature is stored, and the cold that will be stored when temperature is higher discharges housing Or communication base station, cooling is carried out to house or communication base station.

The operational mode of the upper blast type phase-transition energy-storage air conditioner described in the present embodiment using natural cooling source includes following three kinds Pattern：Electric refrigeration mode, natural cooling source cooling and cold-storage pattern, phase-change material cooling mode, are specifically described below：

Electric refrigeration mode：When outdoor environment temperature is higher, underframe outside air inlet 5-5, underframe indoor air inlet 5-6, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module outlet 5-4 be turned off, air-conditioning air inlet 5-2 and air-conditioning go out Air port 5-1 is opened, and compressor of air conditioner starts, and is that house or communication base station provide cold by air-conditioning system；Air-flow flows successively Cross air-conditioning air inlet 5-2, centrifugal fan 3, evaporator 2, air-conditioner air outlet 5-1；

Natural cooling source cooling and cold-storage pattern：In night or winter outdoor environment temperature relatively low period, compressor of air conditioner Close, air-conditioning air inlet 5-2 and underframe indoor air inlet 5-6 are turned off, air-conditioner air outlet 5-1, phase-change heat-exchange module air intake Mouthful 5-3, phase-change heat-exchange module outlet 5-4, underframe outside air inlet 5-5 are opened, axial flow blower 6 and centrifugal fan 3 Outdoor cold wind is introduced into house or communication base station, using natural cooling source cooling, while phase-change material is by many waste colds of natural cooling source Amount storage is got off；Air-flow flows successively through underframe outside air inlet 5-5, axial flow blower 6, phase-change heat-exchange module inlet 5-3, phase Become heat exchange module air outlet 5-4, centrifugal fan 3, evaporator 2, air-conditioner air outlet 5-1.

Phase-change material cooling mode：When outdoor environment temperature is raised, compressor of air conditioner, air-conditioning air inlet 5-2, underframe room Outside air inlet 5-5 is turned off, air-conditioner air outlet 5-1, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module outlet 5- 4th, underframe indoor air inlet 5-6 is opened, and is sent the cold that phase-change material is stored using axial fan and centrifugal fan Cooling is carried out to house or communication base station, air-flow flows successively through underframe indoor air inlet 5-6, axial flow blower 6, phase inversion hot-die Block air inlet 5-3, phase-change heat-exchange module outlet 5-4, centrifugal fan 3, evaporator 2, air-conditioner air outlet 5-1.

Embodiment 2：

The upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source as shown in Figure 2, including cabinet 1, evaporator 2, centrifugation Formula blower fan 3, phase-change heat-exchange module 4；Evaporator 2, phase-change heat-exchange module 4, centrifugal fan 3 are sequentially arranged at cabinet from top to bottom In 1；Condenser, throttle part, compressor connection that the evaporator 2 passes through pipeline and refrigeration unit；Carry on the back the bottom of the cabinet 1 Face is provided with outside air inlet 5-5, and the front bottom of the cabinet 1, top are respectively equipped with air-conditioning air inlet 5-2, air-conditioner air outlet 5-1；The air-conditioner air outlet 5-1, air-conditioning air inlet 5-2 are located at the same side；The air-conditioning air inlet 5-2, outside air inlet 5-5 sets relatively；The two sides of the centrifugal fan 3 can air draught, the one side of centrifugal fan 3 is parallel to air-conditioning air inlet 5-2, the phase-changing energy storage material that described phase-change heat-exchange module 4 includes phase-change heat-exchanger and is stored in inside phase-change heat-exchanger；Institute State the bottom of phase-change heat-exchange module 4 and be provided with phase-change heat-exchange module inlet 5-3, top and be provided with phase-change heat-exchange module outlet 5-4；Institute State air-conditioner air outlet 5-1, air-conditioning air inlet 5-2, outside air inlet 5-5, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange Module outlet 5-4 is equipped with the blinds of the automatic switch of screen pack and horizontal, and horizontal blinds can be according to the change of operating mode Realize corresponding automatic switch.

Described evaporator 2 is fin-tube heat exchanger, or micro-channel heat exchanger.

The working medium of the described inner flow evaporation of evaporator 2 is the refrigerants such as freon.

Described phase-changing energy storage material is inorganic hydrated salt or biomass phase-change material.

A kind of air-flow method of operation of the upper blast type phase-transition energy-storage air conditioner of described utilization natural cooling source is under upper air-supply Return air.

The utility model closes down compressor when environment temperature is low, using the phase-changing energy storage material in phase-change heat-exchange module 4 The naturally free low-temperature receiver relatively low to outdoor environment temperature is stored, and the cold that will be stored when temperature is higher discharges housing Or communication base station, cooling is carried out to house or communication base station.

The operational mode of the upper blast type phase-transition energy-storage air conditioner described in the present embodiment using natural cooling source includes following three kinds Pattern：Electric refrigeration mode, natural cooling source cooling and cold-storage pattern, phase-change material cooling mode, are specifically described below：

Electric refrigeration mode：When outdoor environment temperature is higher, outside air inlet 5-5 is closed, phase-change heat-exchange module air intake Mouth 5-3, phase-change heat-exchange module outlet 5-4, air-conditioning air inlet 5-2 and air outlet 5-1 are opened, and compressor of air conditioner starts, and are relied on Air-conditioning system provides cold for house or communication base station, and air-flow flows successively through air-conditioning air inlet 5-2, centrifugal fan 3, phase inversion Thermal modules air inlet 5-3, phase-change heat-exchange module outlet 5-4, evaporator 2, air-conditioner air outlet 5-1.

Natural cooling source cooling and cold-storage pattern：In night or winter outdoor environment temperature relatively low period, compressor of air conditioner Close, air-conditioning air inlet 5-2 is closed, air-conditioner air outlet 5-1, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module outlet 5-4, outside air inlet 5-5 are opened, and outdoor cold wind is introduced house or communication base station by centrifugal fan, using natural cooling source Cooling, while phase-change material stores the unnecessary cold of natural cooling source, air-flow flow successively through outside air inlet 5-5, from Core type blower fan 3, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module outlet 5-4, evaporator 2, air-conditioner air outlet 5-1.

Phase-change material cooling mode：When outdoor environment temperature is raised, compressor of air conditioner is closed, outside air inlet 5-5 Close, air-conditioner air outlet 5-1, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module outlet 5-4, air-conditioning air inlet 5-2 Open, the cold that phase-change material is stored is delivered into house or communication base station using centrifugal fan carries out cooling, and air-flow is successively Flow through air-conditioning air inlet 5-2, centrifugal fan 3, phase-change heat-exchange module inlet 5-3, phase-change heat-exchange module outlet 5-4, steaming Hair device 2, air-conditioner air outlet 5-1.

Claims (5)

1. the upper blast type phase-transition energy-storage air conditioner of a kind of utilization natural cooling source, it is characterised in that including cabinet, evaporator, centrifugation Formula blower fan, phase-change heat-exchange module；The evaporator, centrifugal fan, phase-change heat-exchange module are sequentially arranged at cabinet from top to bottom It is interior, or the evaporator, phase-change heat-exchange module, centrifugal fan be sequentially arranged in cabinet from top to bottom；The evaporator Connected by the condenser of pipeline and refrigeration unit, throttle part, compressor；The cabinet lower back is provided with outside air intake Mouthful, the cabinet front is additionally provided with air-conditioning air inlet, air-conditioner air outlet；The air-conditioner air outlet, air-conditioning air inlet are located at same Side；The centrifugal fan two sides can air draught, the one side of centrifugal fan is parallel to air-conditioning air inlet；Described phase transformation Heat exchange module includes phase-change heat-exchanger and the phase-changing energy storage material being stored in inside phase-change heat-exchanger；Under the phase-change heat-exchange module Portion is provided with phase-change heat-exchange module inlet, top and is provided with phase-change heat-exchange module outlet；The air-conditioner air outlet, air-conditioning air intake Mouth, outside air inlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet be equipped with screen pack and horizontal from The blinds of dynamic switch, horizontal blinds can realize corresponding automatic switch according to the change of operating mode.

2. the upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source according to claim 1, it is characterised in that work as evaporation Device, centrifugal fan, phase-change heat-exchange module are sequentially arranged at when in cabinet from top to bottom, the upper air-supply of the utilization natural cooling source Formula phase-transition energy-storage air conditioner, also including axial flow blower；The evaporator, centrifugal fan, phase-change heat-exchange module, axial flow blower are from upper It is sequentially arranged in cabinet under；The cabinet lower back is provided with underframe outside air inlet, cabinet bottom front and is provided with bottom Frame indoor air inlet, the cabinet middle part, top front face are respectively equipped with air-conditioning air inlet, air-conditioner air outlet；The air-conditioning goes out Air port, air-conditioning air inlet are located at the same side with underframe indoor air inlet；The centrifugal fan two sides can air draught, centrifugation The one side of formula blower fan is parallel to air-conditioning air inlet；The air-conditioner air outlet, air-conditioning air inlet, underframe outside air inlet, bottom Frame indoor air inlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet be equipped with screen pack and horizontal from The blinds of dynamic switch, horizontal blinds can realize corresponding automatic switch according to the change of operating mode.

3. the upper blast type phase-transition energy-storage air conditioner of utilization natural cooling source according to claim 1, it is characterised in that work as evaporation Device, phase-change heat-exchange module, centrifugal fan are sequentially arranged at when in cabinet from top to bottom, the upper air-supply of the utilization natural cooling source Formula phase-transition energy-storage air conditioner, including cabinet, evaporator, centrifugal fan, phase-change heat-exchange module；The cabinet lower back is provided with room Outside air inlet, cabinet front bottom, top are respectively equipped with air-conditioning air inlet, air-conditioner air outlet；The air-conditioner air outlet, Air-conditioning air inlet is located at the same side；The air-conditioning air inlet, outside air inlet set relatively；The centrifugal fan two sides Can air draught, the one side of centrifugal fan is parallel to air-conditioning air inlet；The air-conditioner air outlet, air-conditioning air inlet, outside Air inlet, phase-change heat-exchange module inlet, phase-change heat-exchange module outlet are equipped with the automatic switch of screen pack and horizontal Blinds, horizontal blinds can realize corresponding automatic switch according to the change of operating mode.

4. the upper blast type phase-transition energy-storage air conditioner of the utilization natural cooling source according to any claim in claim 1-3, Characterized in that, described evaporator is fin-tube heat exchanger or micro-channel heat exchanger.

5. the upper blast type phase-transition energy-storage air conditioner of the utilization natural cooling source according to any claim in claim 1-3, Characterized in that, described phase-changing energy storage material is inorganic hydrated salt or biomass phase-change material.