CN209489084U - A kind of heat pipe air conditioner formula indirect evaporation cooling system - Google Patents

Abstract

A kind of heat pipe air conditioner formula indirect evaporation cooling system, including indirect evaporation cool-heat-exchanger system and heat pipe air conditioner system；The indirect evaporation cold-heat exchange system includes air to air heat exchanger, drip tray, water circulating pump, water distributor, indoor fan and outdoor fan；The drip tray is mounted on the lower section of air to air heat exchanger；Water distributor is mounted on the top of air to air heat exchanger；The water circulating pump is by Pipe installing between water distributor and drip tray；The outdoor fan is mounted on the top of water distributor；The indoor fan is mounted on the right side of air to air heat exchanger；The heat pipe air conditioner system includes evaporator and condenser；The evaporator is mounted between air to air heat exchanger and indoor fan, and the condenser is mounted between water distributor and outdoor fan.

Description

A kind of heat pipe air conditioner formula indirect evaporation cooling system

Technical field

This application involves evaporation refrigeration technique fields, and in particular to a kind of heat pipe air conditioner formula indirect evaporation cooling system.

Background technique

Data center's scale with cloud computing, the development of big data, mobile interchange, Internet of Things, as Deta bearer Increasing, the requirements such as data center apparatus environment, green energy conservation are also increasingly harsher, how to guarantee that it is low that computer room center is realized The normal operation of energy consumption also becomes the focus of common concern in industry.

And the feature that hot pipe technique is small due to the temperature difference between its cold fluid and hot fluid, it is better reflected its superiority, makes realization Refrigeration air-conditioner low energy consumption, high efficiency, Cooling and Heat Source diversity, the air conditioner energy saving technology for being applied to data center machine room also cause Extensive concern.However heat-pipe refrigerating ability is highly susceptible to the influence of computer room indoor/outdoor temperature-difference, when the outdoor temperature of computer room is got over Height, when especially the temperature difference is almost negative outside Summer Indoor, simple hot-pipe system can not meet the heat dissipation of indoor environment at this time Demand.

However, currently in addition to using room conditioning, fresh air etc. to be freezed, it is a kind of it is new, consumption of data center can be reduced Technology, that is, indirect evaporative cooling technology also in being applied gradually.Indirect evaporating-cooling refers to be changed by non-direct contact type The cooling capacity for the humid air that direct evaporating-cooling obtains is passed to the process that air to be processed realizes the wet coolings such as air by hot device.It should Technology is long in the not high regional application time of long-term outdoor temperature, but in middle part and southern areas, summer temp Higher area, being used for the time is restricted, and how to make full use of natural cooling source to extend indirect evaporation refrigeration technique and uses Time is that there is an urgent need in the art to solve the problems, such as.

Therefore, a kind of system for effectively combining hot pipe technique and indirect evaporative cooling technology is designed, was both able to satisfy Requirement of the data center machine room equipment whole year to running temperature can improve unit whole work efficiency again, have one for energy saving Determine significance.

Summary of the invention

The purpose of the utility model is to overcome the above-mentioned problems of the prior art, and provide a kind of heat pipe air conditioner formula Indirect evaporation cooling system makes full use of natural cooling source in conjunction with heat pipe air conditioner technology, passes through detection evaporator front end in extreme weather Temperature, intelligent control open ratio, guarantee room temperature while, energy-saving effect is best.

A kind of in order to achieve the above object, the technical solution of the present invention is: heat pipe air conditioner formula indirect evaporation cooling system, Including indirect evaporation cool-heat-exchanger system and heat pipe air conditioner system；The indirect evaporation cold-heat exchange system includes absolutely empty heat exchange Device, drip tray, water circulating pump, water distributor, indoor fan and outdoor fan；The drip tray is mounted under air to air heat exchanger Side；Water distributor is mounted on the top of air to air heat exchanger；The water circulating pump is by Pipe installing between water distributor and drip tray； The outdoor fan is mounted on the top of water distributor；The indoor fan is mounted on the right side of air to air heat exchanger；In this way, Indoor Thermal Air enters air to air heat exchanger through indoor return air mouth to carry out with the outdoor air for entering air to air heat exchanger through outdoor air air inlet Heat exchange；The heat pipe air conditioner system is gravity assisted heat pipe system, and gravity assisted heat pipe system includes evaporator and condenser；The evaporation Device is mounted on air to air heat exchanger indoor return air mouth, and the condenser is mounted between water distributor and outdoor fan；The evaporator Top be connected to condenser by gas-guide tube；The bottom of the evaporator is connected to by catheter with the bottom of condenser.

Further, the heat pipe air conditioner system is gravity assisted heat pipe air conditioner integrated machine system comprising evaporator, condensation Device, compressor, throttle valve, electromagnetic expanding valve and the first check valve；The evaporator is mounted on air to air heat exchanger and indoor fan Between, the condenser is mounted between water distributor and outdoor fan；The top of the evaporator passes through gas-guide tube and condenser Connection；The bottom of the evaporator is connected to by catheter with the bottom of condenser；The compressor and the first check valve are in parallel It is mounted on gas-guide tube later；It is mounted on catheter after the throttle valve and electromagnetic expanding valve are in parallel.

Further, the heat pipe air conditioner system is power heat pipe air conditioner integrated machine system comprising evaporator, condensation Device, compressor, throttle valve, fluorine pump, the first check valve and second one-way valve；The evaporator is mounted on air to air heat exchanger and interior Between fan, the condenser is mounted between water distributor and outdoor fan；The top of the evaporator by gas-guide tube with it is cold Condenser connection；The bottom of the evaporator is connected to by catheter with the bottom of condenser；The compressor and the first check valve It is mounted on gas-guide tube after in parallel；It is mounted on catheter after the fluorine pump and second one-way valve are in parallel, the throttle valve It is mounted on side of the catheter close to evaporator.

Further, the air to air heat exchanger includes indoor wind circulation air path and outdoor wind circulation air path, indoor hot-air Enter the indoor wind circulation air path of air to air heat exchanger through indoor return air mouth, while outdoor air enters absolutely empty change through outdoor air inlet Indoor hot-air in the outdoor wind circulation air path of hot device and the indoor wind circulation air path of air to air heat exchanger carries out heat exchange.

Further, the water that the water distributor sprays also walks the outdoor wind circulation air path of air to air heat exchanger, with outdoor Air direct is reverse.

Further, the compressor is frequency-changeable compressor.

Further, the installation site of the condenser is higher than evaporator.

Further, the condenser is mounted obliquely between water distributor and outdoor fan.

Compared with prior art, the utility model has the advantage that indirect evaporation refrigeration technique and heat pipe air conditioner technology phase In conjunction with can make full use of natural cooling source, outdoor cold source is converted step by step, and temperature change is smoother, and room temperature is more stable； Relative to existing indirect evaporation cooling system, use scope is more extensive, annual can use, energy-saving effect becomes apparent from.

Detailed description of the invention

Fig. 1 is one structural schematic diagram of the utility model heat pipe air conditioner formula indirect evaporation cooling system embodiment.

Fig. 2 is two structural schematic diagram of the utility model heat pipe air conditioner formula indirect evaporation cooling system embodiment.

Fig. 3 is three structural schematic diagram of the utility model heat pipe air conditioner formula indirect evaporation cooling system embodiment.

Fig. 4 is the utility model heat pipe air conditioner formula indirect evaporation cooling system example IV structural schematic diagram.

In figure: 1, air to air heat exchanger；2, drip tray；3, water circulating pump；4, water distributor；5, evaporator；6, condenser；7, room Internal fan；8, outdoor fan；9, compressor；10, throttle valve；11, fluorine pumps；12, the first check valve；13, second one-way valve；14, Electromagnetic expanding valve.

Specific embodiment

The utility model is further illustrated with embodiment below, as described below is only the preferred embodiment of the utility model , it is not intended to limit the utility model, it is right although the utility model is described in detail with reference to the foregoing embodiments For those skilled in the art, it is still possible to modify the technical solutions described in the foregoing embodiments, or Equivalent replacement of some of the technical features.Within the spirit and principle of the utility model, it is made it is any modification, Equivalent replacement, improvement etc., should be included within the scope of protection of this utility model.

Embodiment one

It please refers to shown in Fig. 1, the utility model heat pipe air conditioner formula indirect evaporation cooling system includes the cold and hot exchange of indirect evaporation Device system and heat pipe air conditioner system.

The indirect evaporation cold-heat exchange system includes air to air heat exchanger 1, drip tray 2, water circulating pump 3, water distributor 4, room Internal fan 7 and outdoor fan 8；The drip tray 2 is mounted on the lower section of air to air heat exchanger 1；Water distributor 4 is mounted on air to air heat exchanger 1 top；For the water circulating pump 3 through Pipe installing between water distributor 4 and drip tray 2, water circulating pump 3 extracts drip tray 2 In water, deliver water into water distributor 4, the top of air to air heat exchanger 1 be uniformly sprayed at through water distributor 4；The outdoor fan 8 It is mounted on the top of water distributor 4, the indoor fan 7 is mounted on the right side of air to air heat exchanger 1；The air to air heat exchanger 1 includes Indoor wind circulation air path and outdoor wind circulation air path, indoor hot-air enter the indoor wind of air to air heat exchanger 1 through indoor return air mouth Circulation air path, while outdoor air enters the outdoor wind circulation air path and air to air heat exchanger 1 of air to air heat exchanger 1 through outdoor air inlet Indoor wind circulation air path in indoor hot-air carry out heat exchange, indoor hot-air is cooled, and outdoor air is heated, then The cooled wind in interior is sent directly into indoor air outlet through the effect of indoor fan 7；Meanwhile the outdoor air being heated is through outdoor wind Fan 8 is directly discharged to outdoor.The water that the water distributor 4 sprays also directly walks the outdoor wind circulation air path of air to air heat exchanger 1, It is inversely circulated with outdoor air.

The heat pipe air conditioner system includes evaporator 5 and condenser 6；The evaporator 5 is mounted on the room of air to air heat exchanger 1 Interior return air inlet, the condenser 6 are mounted obliquely between water distributor 4 and outdoor fan 8；The top of the evaporator 5 passes through Gas-guide tube is connected to condenser 6；The bottom of the evaporator 5 is connected to by catheter with the bottom of condenser 6.

When the utility model heat pipe air conditioner formula indirect evaporation cooling system works, there are two types of operating modes, i.e. the room with pre-cooling Inner air and outer air directly carries out heat exchange mode, the indirect evaporation cooling refrigeration mode with pre-cooling；Refrigeration mode is preferentially maximum in two Change using outdoor natural cooling source, improves the whole work efficiency of system and reach energy-efficient effect.

When outdoor temperature is relatively low, heat exchange mode is directly carried out only with the indoor and outdoor air with pre-cooling, i.e., is only opened Open indoor fan 7 and outdoor fan 8；Under the operating mode: firstly, indoor hot-air is introduced into heat pipe air conditioner through indoor return air mouth Air duct where the evaporator of system, is pre-chilled, meanwhile, the heat of hot-air steams in the liquid refrigerants absorption chamber in evaporator 5 Hair is gaseous coolant, and gaseous coolant is walked upwards by vapor action, is directly entered condenser 6, radiates, be condensed into condenser 6 Liquid refrigerants, liquid refrigerants hot-air in fore-cooling room again into evaporator 5 by gravity reflux.Secondly, pre-cooled Indoor Thermal Air enters back into the indoor wind circulation air path of air to air heat exchanger 1, while outdoor air enters air to air heat exchanger 1 through outdoor air inlet Outdoor wind circulation air path and air to air heat exchanger 1 indoor wind circulation air path in indoor hot-air carry out heat exchange, Indoor Thermal Air is cooled, and outdoor air is heated.Finally, indoor cooled wind is sent directly into indoor air-supply through the effect of indoor fan 7 Mouthful；Meanwhile the outdoor air being heated is directly discharged to outdoor through outdoor fan 8.

When outdoor temperature is higher, the indoor and outdoor air with pre-cooling directly carries out heat exchange mode and is unable to satisfy refrigeration requirement When, the work of indirect evaporation cooling refrigeration mode is opened, i.e., indoor fan 7, outdoor fan 8 and water circulating pump 3 are opened simultaneously；Circulation Water pump 3 extracts cooling water from drip tray 2 and is sent to water distributor 4, and through water distributor 4, uniformly spray is cooling on air to air heat exchanger 1 Water walks downward through the outdoor wind circulation air path of air to air heat exchanger 1 by gravity, at the same outdoor air through outdoor air inlet enter it is absolutely empty The outdoor wind circulation air path of heat exchanger 1 is walked upwards；At this point, cooling water and room in the outdoor wind circulation air path of air to air heat exchanger 1 Outer air directly carries out heat exchange with the indoor hot-air after being pre-chilled in the indoor wind circulation air path of air to air heat exchanger 1, full The demand of foot interior cooling capacity.

Embodiment two

It please refers to shown in Fig. 2, compared with embodiment one, heat pipe air conditioner system described in the present embodiment includes 5 He of evaporator Condenser 6；The evaporator 5 is mounted between air to air heat exchanger 1 and indoor fan 7, and the condenser 6 is mounted obliquely on cloth Between hydrophone 4 and outdoor fan 8；Rest part is the same as example 1, and working method is also identical.

Embodiment three

It please refers to shown in Fig. 3, is compared with embodiment one, in the present embodiment, the air-conditioning system is gravity assisted heat pipe air-conditioning one Body machine system, the gravity assisted heat pipe air conditioner integrated machine system include evaporator 5, condenser 6, compressor 9, throttle valve 10, electromagnetism Expansion valve 13 and the first check valve 12；The evaporator 5 is mounted between air to air heat exchanger 1 and indoor fan 7, the condenser 6 are mounted obliquely between water distributor 4 and outdoor fan 8；The top of the evaporator 5 is connected to by gas-guide tube with condenser 6； The bottom of the evaporator 5 is connected to by catheter with the bottom of condenser 6；The compressor 9 and the first check valve 12 are in parallel It is mounted on gas-guide tube later；It is mounted on catheter after the throttle valve 10 and electromagnetic expanding valve 13 are in parallel.The condensation The installation site of device 6 is higher than evaporator 5；The compressor 9 is frequency-changeable compressor.Rest part is the same as example 1, work It is also identical to make method.

Originally when the indirect evaporation cooling system in embodiment works, there are four types of operating mode, i.e. indoor and outdoor air is straight Tap into row heat exchange mode, indirect evaporation cooling refrigeration mode, hot-pipe system secondary refrigeration mode and the secondary system of compressor assembly Cold mode；Refrigeration mode preferentially maximally utilizes outdoor natural cooling source in four, improves the whole work efficiency of system and reaches section The effect of energy.

The first operating mode: when outdoor temperature is relatively low, directly carrying out heat exchange mode only with indoor and outdoor air, Only open indoor fan 7 and outdoor fan 8；Under the operating mode: indoor hot-air enters absolutely empty heat exchange through indoor return air mouth The indoor wind circulation air path of device 1, at the same outdoor air through outdoor air inlet enter the outdoor wind circulation air path of air to air heat exchanger 1 with Indoor hot-air in the indoor wind circulation air path of air to air heat exchanger 1 carries out heat exchange, and indoor hot-air is cooled, outdoor air It is heated, then indoor cooled wind is sent directly into indoor air outlet through the effect of indoor fan 7；Meanwhile the outdoor being heated Air is directly discharged to outdoor through outdoor fan 8.

Second of operating mode: when outdoor temperature increase, indoor and outdoor air directly carry out heat exchange mode be unable to satisfy it is cold When amount demand, the work of indirect evaporation cooling refrigeration mode is opened, i.e., indoor fan 7, outdoor fan 8 and water circulating pump 3 are opened simultaneously It opens；Water circulating pump 3 extracts cooling water from drip tray 2 and is sent to water distributor 4, uniformly sprays in air to air heat exchanger 1 through water distributor 4 On, cooling water walks downward through the outdoor wind circulation air path of air to air heat exchanger 1 by gravity, while outdoor air through outdoor air inlet into The outdoor wind circulation air path for entering air to air heat exchanger 1 is walked upwards；At this point, the cooling in the outdoor wind circulation air path of air to air heat exchanger 1 Water and outdoor air directly carry out heat exchange with the indoor hot-air in the indoor wind circulation air path of air to air heat exchanger 1, meet room The demand of interior cooling capacity.

The third operating mode: when outdoor temperature heats up again, the work of indirect evaporation cooling refrigeration mode is also unable to satisfy When indoor refrigeration requirement, the work of hot-pipe system secondary refrigeration mode is opened；In the base of indirect evaporation cooling refrigeration mode work On plinth, electromagnetic expanding valve 13 is opened, through the cooling indoor hot-air of indirect evaporation cooling refrigeration mode work from air to air heat exchanger 1 Indoor wind circulation air path discharge cooled indoor hot-air be directly entered 5 air duct of evaporator, by the refrigerant in evaporator 5 Cool down again, is then sent into indoor air inlet through indoor fan 7；Meanwhile the liquid refrigerants in evaporator 5 is absorbed by indirect evaporation The heat of vaporization of cooling refrigeration mode indoor hot-air after cooling is gaseous coolant, and gaseous coolant is walked upwards by vapor action, Enter condenser 6 through the first check valve 12, radiate in condenser 6, is condensed into liquid refrigerants, liquid refrigerants is by gravity through electromagnetism Expansion valve 13, which enters in evaporator 5, to be cooled down again by indirect evaporation cooling refrigeration mode indoor hot-air after cooling.

4th kind of operating mode: in the higher weather of the outdoor temperatures such as summer, indirect evaporation cooling refrigeration mode and heat When guard system secondary refrigeration mode works together, it is also unable to satisfy indoor refrigeration requirement, opens compressor assembly secondary refrigeration mould Formula opens compressor 9 on the basis of the work of indirect evaporation cooling refrigeration mode, and compressor 9 uses frequency-changeable compressor, passes through Temperature of the detection through the cooling indoor hot-air of indirect evaporation cooling refrigeration mode work, intelligent control open ratio；It passes through in this way The quilt that the cooling indoor hot-air of indirect evaporation cooling refrigeration mode work is discharged from the indoor wind circulation air path of air to air heat exchanger 1 Cooling indoor hot-air is directly entered 5 air duct of evaporator, is cooled down again by the refrigerant in evaporator 5, then through indoor fan 7 It is sent into indoor air inlet；Meanwhile the liquid refrigerants in evaporator 5 is absorbed by indirect evaporation cooling refrigeration mode interior after cooling The heat of vaporization of hot-air is gaseous coolant, and gaseous coolant enters condenser 6 through compressor 12, radiates in condenser 6, is condensed For liquid refrigerants, liquid refrigerants enters to cool down again in evaporator 5 through throttle valve 10 to be cooled down by indirect evaporation cooling refrigeration mode Indoor hot-air afterwards.

Example IV

It please refers to shown in Fig. 4, is compared with embodiment three, in the present embodiment, the air-conditioning system is power heat pipe air-conditioning one Body machine system, the power heat pipe air conditioner integrated machine system include evaporator 5, condenser 6, compressor 9, throttle valve 10, fluorine pump 11 first check valves 12 and second one-way valve 13；The evaporator 5 is mounted between air to air heat exchanger 1 and indoor fan 7, described Condenser 6 is mounted between water distributor 4 and outdoor fan 8；The top of the evaporator 5 is connected to by gas-guide tube with condenser 6； The bottom of the evaporator 5 is connected to by catheter with the bottom of condenser 6；The compressor 9 and the first check valve 12 are in parallel It is mounted on gas-guide tube later；It is mounted on catheter after the fluorine pump 11 and second one-way valve 13 are in parallel, the throttle valve 10 are mounted on catheter close to the side of evaporator 5；Rest part is identical as embodiment three, and working method is also identical.

When the utility model power heat pipe air conditioner integrated formula indirect evaporation cooling system works, there are five types of operating modes, i.e. room Inner air and outer air directly carry out heat exchange mode, indirect evaporation cooling refrigeration mode, fluorine pumping system secondary refrigeration mode, compressor+ Fluorine pumping system secondary refrigeration mode and compressor assembly secondary refrigeration mode；Refrigeration mode preferentially maximally utilizes outdoor certainly in four Right cold source improves the whole work efficiency of system and reaches energy-efficient effect.

The first operating mode in the working principle of the first operating mode and second of operating mode and embodiment three It is identical with the working principle of second of operating mode

The third operating mode: when outdoor temperature heats up again, the work of indirect evaporation cooling refrigeration mode is also unable to satisfy When indoor refrigeration requirement, the work of fluorine pumping system secondary refrigeration mode is opened；In the base of indirect evaporation cooling refrigeration mode work On plinth, fluorine pump 11 is opened, through the cooling indoor hot-air of indirect evaporation cooling refrigeration mode work from the interior of air to air heat exchanger 1 The cooled indoor hot-air of wind circulation air path discharge is directly entered 5 air duct of evaporator, is dropped again by the refrigerant in evaporator 5 Then temperature is sent into indoor air inlet through indoor fan 7；Meanwhile the liquid refrigerants in evaporator 5 is absorbed by indirect evaporating-cooling system The heat part of cold mode indoor hot-air after cooling is evaporated to gaseous coolant, and liquid refrigerants carries bubble through the first check valve 12 enter condenser 6, radiate in condenser 6, are condensed into liquid refrigerants, and liquid refrigerants drives through fluorine pump 11 enters evaporator 5 In cooled down again by indirect evaporation cooling refrigeration mode indoor hot-air after cooling.

4th kind of operating mode: in the higher weather of the outdoor temperatures such as summer, indirect evaporation cooling refrigeration mode and heat When guard system secondary refrigeration mode works together, it is also unable to satisfy indoor refrigeration requirement, opens compressor+secondary system of fluorine pumping system Cold mode opens compressor 9 and fluorine pump 11, in this way through indirect evaporation on the basis of the work of indirect evaporation cooling refrigeration mode The cooling indoor hot-air of refrigeration mode work is cooled down from the cooled room that the indoor wind circulation air path of air to air heat exchanger 1 is discharged Interior hot-air is directly entered 5 air duct of evaporator, is cooled down again by the refrigerant in evaporator 5, is then sent into interior through indoor fan 7 Air inlet；Meanwhile the liquid refrigerants in evaporator 5 is absorbed by indirect evaporation cooling refrigeration mode indoor hot-air after cooling Heat of vaporization is gaseous coolant, and gaseous coolant enters condenser 6 through compressor 12, radiates in condenser 6, it is cold to be condensed into liquid Matchmaker, liquid refrigerants are sent through fluorine pump 11 to throttle valve 10, are entered in evaporator 5 through throttle valve 10 and are cooled down again by indirect evaporating-cooling Refrigeration mode indoor hot-air after cooling.

5th kind of operating mode: in the high extreme weather of the outdoor temperatures such as summer, indirect evaporation cooling refrigeration mode When working together with compressor+fluorine pumping system secondary refrigeration mode, it is also unable to satisfy indoor refrigeration requirement, opens compressor assembly Secondary refrigeration mode opens compressor 9 on the basis of the work of indirect evaporation cooling refrigeration mode, cold through indirect evaporation in this way But the cooling indoor hot-air of refrigeration mode work is from the cooled interior that the indoor wind circulation air path of air to air heat exchanger 1 is discharged Hot-air is directly entered 5 air duct of evaporator, is cooled down again by the refrigerant in evaporator 5, then through indoor fan 7 be sent into it is indoor into Air port；Meanwhile the liquid refrigerants in evaporator 5 is absorbed by the heat of indirect evaporation cooling refrigeration mode indoor hot-air after cooling Amount is evaporated to gaseous coolant, and gaseous coolant enters condenser 6 through compressor 12, radiates in condenser 6, it is cold to be condensed into liquid Matchmaker, liquid refrigerants enters in evaporator 5 through second one-way valve 13 and throttle valve 10 respectively to be cooled down by indirect evaporating-cooling system again Cold mode indoor hot-air after cooling.

It should be noted that for each embodiment above-mentioned, for simple description, therefore, it is stated as component or portion Part combination, but those skilled in the art should understand that, the application is not limited by described component names, because of foundation The application, certain components may be implemented the function of above-mentioned corresponding component also within the scope of protection of this application.Secondly, ability Field technique personnel also should be aware of, and the embodiments described in the specification are all preferred embodiments, and related component is not It must be necessary to the application.

Above-mentioned the embodiment of the present application serial number is for illustration only, does not represent the advantages or disadvantages of the embodiments.

In above-described embodiment of the application, all emphasizes particularly on different fields to the description of each embodiment, do not have in some embodiment The part of detailed description, reference can be made to the related descriptions of other embodiments.

The above is only the preferred embodiment of the application, it is noted that for the ordinary skill people of the art For member, under the premise of not departing from the application principle, several improvements and modifications can also be made, these improvements and modifications are also answered It is considered as the protection scope of the application.

Claims (8)

1. a kind of heat pipe air conditioner formula indirect evaporation cooling system, which is characterized in that including indirect evaporation cool-heat-exchanger system and heat Pipe air-conditioning system；The indirect evaporation cold-heat exchange system includes air to air heat exchanger, drip tray, water circulating pump, water distributor, interior Fan and outdoor fan；The drip tray is mounted on the lower section of air to air heat exchanger；Water distributor is mounted on the top of air to air heat exchanger； The water circulating pump is by Pipe installing between water distributor and drip tray；The outdoor fan is mounted on the top of water distributor； The indoor fan is mounted on the right side of air to air heat exchanger；In this way, indoor hot-air enters air to air heat exchanger through indoor return air mouth Heat exchange is carried out with the outdoor air for entering air to air heat exchanger through outdoor air air inlet；The heat pipe air conditioner system is gravity heat Guard system, gravity assisted heat pipe system include evaporator and condenser；The evaporator is mounted on air to air heat exchanger indoor return air mouth, institute Condenser is stated to be mounted between water distributor and outdoor fan；The top of the evaporator is connected to by gas-guide tube with condenser；Institute The bottom for stating evaporator is connected to by catheter with the bottom of condenser.

2. heat pipe air conditioner formula indirect evaporation cooling system according to claim 1, which is characterized in that the heat pipe air conditioner system It is gravity assisted heat pipe air conditioner integrated machine system comprising evaporator, condenser, compressor, throttle valve, electromagnetic expanding valve and first are single To valve；The evaporator is mounted between air to air heat exchanger and indoor fan, and the condenser is mounted on water distributor and outdoor wind Between fan；The top of the evaporator is connected to by gas-guide tube with condenser；The bottom of the evaporator by catheter with it is cold The bottom of condenser is connected to；It is mounted on gas-guide tube after the compressor and the first check valve are in parallel；The throttle valve and electromagnetism It is mounted on catheter after expansion valve is in parallel.

3. heat pipe air conditioner formula indirect evaporation cooling system according to claim 1, which is characterized in that the heat pipe air conditioner system Power heat pipe air conditioner integrated machine system comprising evaporator, condenser, compressor, throttle valve, fluorine pump, the first check valve and Second one-way valve；The evaporator is mounted between air to air heat exchanger and indoor fan, the condenser be mounted on water distributor and Between outdoor fan；The top of the evaporator is connected to by gas-guide tube with condenser；The bottom of the evaporator passes through drain Pipe is connected to the bottom of condenser；It is mounted on gas-guide tube after the compressor and the first check valve are in parallel；Fluorine pump and It is mounted on catheter after second one-way valve is in parallel, the throttle valve is mounted on side of the catheter close to evaporator.

4. heat pipe air conditioner formula indirect evaporation cooling system according to claim 1, which is characterized in that the air to air heat exchanger packet Indoor wind circulation air path and outdoor wind circulation air path are included, indoor hot-air enters the indoor wind of air to air heat exchanger through indoor return air mouth Circulation air path, while outdoor air enters the outdoor wind circulation air path and air to air heat exchanger of air to air heat exchanger through outdoor air inlet Indoor hot-air in indoor wind circulation air path carries out heat exchange.

5. heat pipe air conditioner formula indirect evaporation cooling system according to claim 4, which is characterized in that under the water distributor sprinkling The water come also walks the outdoor wind circulation air path of air to air heat exchanger, reverse with outdoor air trend.

6. heat pipe air conditioner formula indirect evaporation cooling system according to claim 3, which is characterized in that the compressor is frequency conversion Compressor.

7. heat pipe air conditioner formula indirect evaporation cooling system according to claim 1 or 2, which is characterized in that the condenser Installation site is higher than evaporator.

8. heat pipe air conditioner formula indirect evaporation cooling system according to claim 1, which is characterized in that the condenser is inclined It is mounted between water distributor and outdoor fan.