CN205065912U - Heat pipe - heat recovery type evaporative cooling air -conditioning system suitable for data center - Google Patents

Abstract

The utility model discloses a heat pipe - heat recovery type evaporative cooling air -conditioning system suitable for data center is by heat recovery type evaporative cooling air -conditioning unit and rack - the heat pipe assembled cabinet system composition of connecting through the tuber pipe net, rack - heat pipe assembled cabinet system comprises a plurality of racks - heat pipe assembled cabinet, heat recovery type evaporative cooling air -conditioning unit is external to have drainage pipe. The utility model discloses a heat pipe - heat recovery type evaporative cooling air -conditioning system suitable for data center is with evaporation cooling technique, the heat pipe is technological, the heat recovery is technological combines together, has realized the different humiture requirements of data center overall situation and rack subenvironment, has effectively reduced the energy consumption moreover.

Description

Be applicable to the heat pipe-recovery type evaporative cooling air conditioning system of data center

Technical field

The utility model belongs to technical field of air conditioner refrigeration, is specifically related to a kind of heat pipe-recovery type evaporative cooling air conditioning system being applicable to data center.

Background technology

Along with the arrival of large data age, increasing user needs a large amount of data processings and information exchange; In order to accelerate enterprise development, a lot of enterprise also starts to set up data center one after another.Because more communication apparatus puts into operation, the live load of data center is constantly increased.

In data center, the good operation of equipment energy is the guarantee of communication device steady operation, and therefore data center's cooling problem is more and more important.

According to statistics, in data center, the power consumption of air-conditioning system accounts for greatly 40% of whole data center power consumption, and from numeral, the air conditioning energy consumption in existing data center is huge, does not meet the policy of current energy-saving and emission-reduction.In addition, existing data center is limited with air-conditioning system cooling-down effect in longtime running, cannot meet the different humiture requirements of data center's overall situation and rack subenvironment.

Utility model content

The purpose of this utility model is to provide a kind of heat pipe-recovery type evaporative cooling air conditioning system being applicable to data center, evaporation cooling technique, hot pipe technique, heat recovery technology are combined, achieve the different humiture requirements of data center's overall situation and rack subenvironment, and effectively reduce energy consumption.

The technical scheme that the utility model adopts is, is applicable to the heat pipe-recovery type evaporative cooling air conditioning system of data center, is made up of the recovery type evaporative cooling air conditioning unit connected by airduct net and rack-heat pipe combination cabinet system; Rack-heat pipe combination cabinet system is become by multiple rack-heat pipe combination group; Recovery type evaporative cooling air conditioning unit is circumscribed with drainage pipeline.

Feature of the present utility model is also:

Multiple rack-heat pipe combination cabinet is connected with top air exhaust passage respectively by multiple exhaust duct, and top air exhaust passage is connected with the return air inlet that recovery type evaporative cooling air conditioning unit is arranged by return air house steward, and top air exhaust passage is also connected with air supply duct; One end of air supply duct is connected with the air outlet a that recovery type evaporative cooling air conditioning unit is arranged, the other end of air supply duct and under-floor air supply expanding channels, under-floor air supply passage is provided with multiple air outlet a and multiple air outlet b; The overall situation air-supply of multiple air outlet a data-oriented centers; Multiple air outlet b is communicated with the air inlet of multiple rack-heat pipe combination cabinet respectively.

Rack-heat pipe combination cabinet, comprises rack, and the side in rack is disposed with multiple server from top to bottom, and the air side of each server arranges a heat exchange of heat pipe; Multiple heat exchange of heat pipe forms a heat pipe heat exchanging system; Be provided with air inlet bottom rack corresponding below heat pipe heat exchanging system, body roof corresponding above heat pipe heat exchanging system is provided with ventilation window, and each ventilation window is connected with an exhaust duct.

Exhaust blower is provided with in each ventilation window; Heat exchange of heat pipe is made up of many horizontally disposed heat pipes.

Every root heat pipe is formed by evaporator section and condensation segment, and evaporator section is arranged near the air side of server.

Recovery type evaporative cooling air conditioning unit, includes machine unit shell, forms upper and lower two air channels in machine unit shell; The machine unit shell two side that upper air duct two ends are corresponding is respectively arranged with air outlet a, air outlet b; The machine unit shell two side that upper air duct two ends are corresponding is respectively arranged with fresh wind port, return air inlet; Air outlet a and fresh wind port go to upper and lower setting, and air outlet b and return air inlet go to upper and lower setting; In being in the wind: be disposed with suction-type pressure fan, surface cooler, the first spray type temperature-reducing unit and cold air chamber between air outlet a and air outlet b; In lower air duct: be disposed with extrusion type return fan, even flow plate, the second spray type temperature-reducing unit and air precooling room between fresh wind port and return air inlet; First spray type temperature-reducing unit is connected with the second spray type temperature-reducing unit, and the second spray type temperature-reducing unit is circumscribed with control water tank; Cold air chamber is communicated with air precooling room, and is provided with cross-counterflow plate-type heat recovery device between cold air chamber and air precooling room.

Electric air valve is provided with in air outlet a, air outlet b, fresh wind port and return air inlet;

Air precooling is indoor is provided with filter near return air inlet place.

First spray type temperature-reducing unit is by spraying frame a and to be multiplely evenly arranged on spraying frame a, the high-pressure fine-spray nozzle a that sprays towards cold air chamber forms; Second spray type temperature-reducing unit, by spraying frame b and to be multiplely evenly arranged on spraying frame b, the high-pressure fine-spray nozzle b that sprays towards even flow plate forms; Spraying frame b is communicated with spraying frame a, and spraying frame b is also connected with control water tank by feed pipe.

Feed pipe is provided with pressure pump, and pressure pump is arranged in the water tank controlling water tank.

Control to be provided with water tank in water tank, the outer wall of control water tank is provided with control panel.

The beneficial effects of the utility model are:

(1) heat pipe of the present utility model-recovery type evaporative cooling air conditioning system, is applied to recovery type evaporative cooling air conditioning by hot pipe technique, can realize the requirement of the different humiture of rack subenvironment in data center's overall situation and data center respectively.

(2) in heat pipe of the present utility model-recovery type evaporative cooling air conditioning system; the effect of heat exchange of heat pipe is that the heat that server exit hot gas is rolled into a ball is discharged server fast; then taken away by cold airflow; in Various Seasonal, the round-the-clock stable operation in different regions; effectively can avoid the phenomenon causing server outage because of hot-spot, effectively raise the integral operation ability of data center.

(3) in heat pipe of the present utility model-recovery type evaporative cooling air conditioning system, drained by independently exhaust duct after the heat of server being taken out of rapidly by heat exchange of heat pipe, not with the cold airflow blending in data center, reduce the operating temperature of server, improve the integral heat sink efficiency of data center, that is the output temperature of refrigeration plant can correspondingly improve, the electric power that data center consumes will significantly decline, thus reduce the operation cost of data center, reach the object of energy-saving low-carbon and environmental protection.

(4), in heat pipe of the present utility model-recovery type evaporative cooling air conditioning system, evaporation cooling technique and mechanical refrigeration combine by recovery type evaporative cooling air conditioning unit, achieve the all-year-around cooling to data center; Spring and autumn conditioning in Transition Season and winter time, with evaporative cooling mode operation; When summer, outdoor temperature was higher, with mechanical refrigeration associating evaporative cooling mode operation, meet data center's humiture demand.

(5) heat pipe of the present utility model-recovery type evaporative cooling air conditioning system, adopts full return air to run, achieves the requirement of data center's high-cleanness, high; The board-like heat regenerator of cross-counterflow in recovery type evaporative cooling air conditioning can fully reclaim the natural cold quantity carried in outdoor air at spring and autumn and winter, lowers the temperature, reach the requirement that data center is energy-conservation to return air.

(6) draft type that heat pipe of the present utility model-recovery type evaporative cooling air conditioning system is served back under adopting, subsurface in data center is provided with under-floor air supply passage, cold air directly enters in under-floor air supply passage, a cold air part is sent in data center by air outlet then by under-floor air supply passage is arranged equably, a part is sent in rack-heat pipe combination cabinet, the heat of being discharged by the condensation segment takeaway service device of heat pipe, improve air-conditioner efficiency, save pipeline fee use, and make indoor arrangement more attractive in appearance.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model heat pipe-recovery type evaporative cooling air conditioning system;

Fig. 2 is the structural representation of rack-heat pipe combination cabinet in the utility model heat pipe-recovery type evaporative cooling air conditioning system;

Fig. 3 is the structural representation of recovery type evaporative cooling air conditioning unit in the utility model heat pipe-recovery type evaporative cooling air conditioning system.

In figure, 1. air supply duct, 2. data center's overall situation, 3. under-floor air supply passage, 4. rack, 5. air outlet a, 6. exhaust duct, 7. ventilation window, 8. top air exhaust passage, 9. recovery type evaporative cooling air conditioning unit, 10. return air inlet, 11. exhaust outlets, 12. Electric air valves, 13. cross-counterflow plate-type heat recovery devices, 14. high-pressure fine-spray nozzle a, 15. spraying frame a, 16. surface coolers, 17. suction-type pressure fan, 18. air outlet a, 19. control panels, 20. control water tank, 21. feed pipes, 22. fresh wind ports, 23. extrusion type return fans, 24. homogenizing plates, 25. high-pressure fine-spray nozzle b, 26. spraying frame b, 27. filters, 28. servers, 29. high-temperature hot air mass, 30. heat exchange of heat pipes, 31. exhaust blowers, 32. heat pipes, 33. air outlet b, 34. return air house stewards, 35. air outlet b, 36. air outlet b.

Detailed description of the invention

Below in conjunction with the drawings and specific embodiments, the utility model is described in detail.

The utility model is applicable to the heat pipe-recovery type evaporative cooling air conditioning system of data center, and its structure as shown in Figure 1, is made up of the recovery type evaporative cooling air conditioning unit 9 connected by airduct net and rack-heat pipe combination cabinet system.

As shown in Figure 1, rack-heat pipe combination cabinet system is become by multiple rack-heat pipe combination group; Multiple rack-heat pipe combination cabinet is connected with top air exhaust passage 8 respectively by multiple exhaust duct 6, top air exhaust passage 8 is connected with the return air inlet 10 that recovery type evaporative cooling air conditioning unit 9 is arranged by return air house steward 34, and top air exhaust passage 8 is also connected with air supply duct 1; One end of air supply duct 1 is connected with the air outlet a18 that recovery type evaporative cooling air conditioning unit 9 is arranged, the other end of air supply duct 1 is connected with under-floor air supply passage 3, under-floor air supply passage 3 is provided with multiple air outlet a5 and multiple air outlet b35, multiple air outlet a5 data-oriented centers overall situation 2 is blown; Multiple air outlet b35 is communicated with the air inlet of multiple rack-heat pipe combination cabinet respectively.

Rack-heat pipe combination cabinet, its structure as shown in Figure 2, comprises rack 4, and the side in rack 4 is disposed with multiple server 28 from top to bottom, and the air side of each server 28 arranges a heat exchange of heat pipe 30; Multiple heat exchange of heat pipe 30 forms a heat pipe heat exchanging system, is provided with air inlet bottom rack 4 corresponding below heat pipe heat exchanging system, and body 4 roof corresponding above heat pipe heat exchanging system is provided with ventilation window 7, and each ventilation window 7 is connected with an exhaust duct 6.

Exhaust blower 31 is provided with in each ventilation window 7.

Heat exchange of heat pipe 30, as shown in Figure 2, is made up of many horizontally disposed heat pipes 32; Every root heat pipe 32 is all made up of evaporator section and condensation segment, and evaporator section is arranged near the air side of server 28.

Recovery type evaporative cooling air conditioning unit 9 is circumscribed with drainage pipeline.

Recovery type evaporative cooling air conditioning unit 9, its structure as shown in Figures 1 and 3, includes machine unit shell, forms upper and lower two air channels in machine unit shell; The machine unit shell two side that upper air duct two ends are corresponding is respectively arranged with air outlet a18, air outlet b36; The machine unit shell two side that upper air duct two ends are corresponding is respectively arranged with fresh wind port 22, return air inlet 10; Air outlet a18 and fresh wind port 22 go to upper and lower setting, and air outlet b36 and return air inlet 10 go to upper and lower setting; In being in the wind: be disposed with suction-type pressure fan 17, surface cooler 16, first spray type temperature-reducing unit and cold air chamber between air outlet a18 and air outlet b36; In lower air duct: be disposed with extrusion type return fan 23, even flow plate 24, second spray type temperature-reducing unit and air precooling room between fresh wind port 22 and return air inlet 10; First spray type temperature-reducing unit is connected with the second spray type temperature-reducing unit, and the second spray type temperature-reducing unit is circumscribed with and controls water tank 20; Cold air chamber is communicated with air precooling room, and is provided with cross-counterflow plate-type heat recovery device 13 between cold air chamber and air precooling room.

Air precooling is indoor is provided with filter 27 near return air inlet 10 place.

Electric air valve 12 is provided with in air outlet a18, air outlet b36, fresh wind port 22 and return air inlet 10.

First spray type temperature-reducing unit is by spraying frame a15 and to be multiplely evenly arranged on spraying frame a15, the high-pressure fine-spray nozzle a14 that sprays towards cold air chamber forms; Spraying frame a15 is connected with in the second spray type temperature-reducing unit.

Second spray type temperature-reducing unit, by spraying frame b26 and to be multiplely evenly arranged on spraying frame b26, the high-pressure fine-spray nozzle b25 that sprays towards even flow plate 24 forms; Spraying frame b26 is communicated with spraying frame a15, and spraying frame b26 is also connected with control water tank 20 by feed pipe 21.

Feed pipe 21 is provided with pressure pump, and pressure pump is arranged in the water tank controlling water tank 20.

Control to be provided with water tank in water tank 20, the outer wall of control water tank 20 is provided with control panel 19.

The course of work that the utility model is applicable to the heat pipe-recovery type evaporative cooling air conditioning system of data center is specific as follows:

(1) course of work of wind system:

A (), when summer temp is higher, open high-pressure fine-spray nozzle b25 and surface cooler 16;

Outdoor new wind enters in the lower air duct in machine unit shell through fresh wind port 22, outdoor new wind, first through homogenizing plate 24 uniform flow, sprays micro-mist by high-pressure fine-spray nozzle b25 afterwards and carries out moistening and lowering temperature to the new wind in outdoor, form the Cryogenic air with humidity; The Cryogenic air with humidity flows through cross-counterflow plate-type heat recovery device 13 and is again cooled formation cold wind; Meanwhile, the return air in data center is also sent in the air precooling room in machine unit shell lower air duct under the conveying of return air house steward 34 through return air inlet 10; Cold wind is utilized to carry out precooling to return air, by outside exhaust outlet 11 discharge chamber after the indirect cooling that cold wind completes return air;

Return air is by surface cooler 16 place flowed into after indirect precooling in upper air duct, and the return air after surface cooler 16 pairs of precoolings is lowered the temperature again, and the return air through twice cooling process is sent through air outlet a18, and is delivered in under-floor air supply passage 3 through air supply duct 1; Send cold wind by multiple air outlet a5 that under-floor air supply passage 3 is arranged, cold wind blows to data center's overall situation 2, realizes the cooling to data center's overall situation 2.

B (), in spring and autumn excessive season, open high-pressure fine-spray nozzle a14 and high-pressure fine-spray nozzle b25;

Outdoor new wind is entered in the lower air duct in machine unit shell by fresh wind port, first carry out uniform flow by homogenizing plate 24 to new wind, spray micro-mist afterwards carry out moistening and lowering temperature to the new wind in outdoor by high-pressure fine-spray nozzle b25, form the Cryogenic air with humidity; The Cryogenic air with humidity flows through cross-counterflow plate-type heat recovery device 13 and is again cooled formation cold wind; Meanwhile, the return air in data center is also sent in the air precooling room in machine unit shell lower air duct under the conveying of return air house steward 34 through return air inlet 10; Cold wind is utilized to carry out precooling to return air, by outside exhaust outlet 11 discharge chamber after the indirect cooling that cold wind completes return air;

The high-pressure fine-spray nozzle a14 place in upper air duct is flowed into by the return air after indirect precooling, the water smoke gushed out with high-pressure fine-spray nozzle a14 carries out caloic exchange, send in air supply duct 1 by air outlet a18 after there is equal-enthalpy humidifying temperature-fall period, cold wind is sent afterwards by multiple air outlet a5 that under-floor air supply passage 3 is arranged, cold wind blows to data center's overall situation 2, realizes the cooling to data center's overall situation 2.

C () in the winter time, open high-pressure fine-spray nozzle a14;

Outdoor new wind is entered in the lower air duct in machine unit shell by fresh wind port, first carry out uniform flow by homogenizing plate 24 to new wind, flow through cross-counterflow plate-type heat recovery device 13 afterwards, carry out cooling form cold wind by cross-counterflow plate-type heat recovery device 13 to new wind; Meanwhile, the return air in data center is also sent in the air precooling room in machine unit shell lower air duct under the conveying of return air house steward 34 through return air inlet 10; Utilize cold front heavy rain to return air, by outside exhaust outlet 11 discharge chamber after the indirect cooling that cold wind completes return air;

By the high-pressure fine-spray nozzle a14 place of the return after indirect precooling in upper air duct, the water smoke sprayed by high-pressure fine-spray nozzle a14 adds wet process to the return air after precooling, return air after cooling humidification is sent in air supply duct 1 by air outlet a18, then sends in under-floor air supply passage 3 by air supply duct 1;

The return air sent in under-floor air supply passage 3 is divided into two parts to use:

Part return air is sent in data center's overall situation 2 by multiple air outlet a5, for cooling data center's overall situation 2;

Another part return air is sent in the combination sideboard of the multiple rack-heat pipes in data center by multiple air outlet b35; For cooling the condensation segment of heat pipe 32, for taking away rapidly the heat of condensation segment.

(2) work process of heat exchange of heat pipe 30:

Heat exchange of heat pipe 30, for server 28 cooling in the combination sideboard of rack-heat pipe, generally wants whole year operation;

The evaporator section of heat exchange of heat pipe 30 is placed in the inner air side place near server 28 of rack 4, and high-temperature hot air mass 29 is discharged in the air side of server 28; The heat (high-temperature hot air mass 29) that working media absorption server 28 in evaporator section sheds evaporates afterwards, and the steam that evaporation produces constantly can flow to condensation segment; Now, air outlet b35 on under-floor air supply passage 3 is by the condensation segment of cold wind through air inlet heat pipe, the heat of condensation segment can be taken away rapidly by cold wind, hot blast is sent in exhaust duct 6 by ventilation window 7 by exhaust blower 31 afterwards, by exhaust duct 6, hot blast is sent in top air exhaust passage 8 again, finally enter into recovery type evaporative cooling air conditioning unit 9; After the heat of heat pipe 32 condensation segment is pulled away, the working media of its inside is condensed into liquid backflow and continues to absorb to evaporator section the heat that server 28 sheds, and so constantly circulates.

(3) course of work of water system:

Control to be provided with water tank in water tank 20, water in water tank is delivered in high-pressure fine-spray nozzle a14 and high-pressure fine-spray nozzle b25 respectively through feed pipe 21 under the effect of pressure pump, achieve and mist cooling is carried out to air, wherein there is the water smoke of 90% can by absorption of air, directly drained by drainage pipeline after the water condensation of residue 10%, will not recycle.

The utility model is applicable to the heat pipe-recovery type evaporative cooling air conditioning system of data center, evaporation cooling technique, hot pipe technique, heat recovery technology are combined, achieves the different humiture requirements of rack subenvironment in data center's overall situation 2 and data center; Air-flow wherein in data center's overall situation 2 not with the thermal current blending in subenvironment, avoid energy counteracting waste, also reduce the operating temperature of rack 4 server 28, wherein heat recovery technology achieves the recycling of energy simultaneously.

Heat pipe-recovery type evaporative cooling air conditioning system that the utility model is applicable to data center have employed the pattern that full return air runs, ensure that the requirement of high-cleanness, high in data center, what its air supply mode adopted is the form of under-floor air supply and top return air, optimizes the air current composition of data center.The utility model is applicable to the heat pipe-recovery type evaporative cooling air conditioning system of data center, not only achieve the recycling of energy, the more important thing is the technology of Evaporative Cooling Air Conditioning inherently green, environmental protection, again with hot pipe technique phase compound, achieve the requirement of energy-conserving and environment-protective to a greater extent.

Claims (10)

1. A heat pipe-heat recovery evaporative cooling air-conditioning system suitable for data centers, characterized in that it consists of a heat recovery evaporative cooling air-conditioning unit (9) connected through an air pipe network and a cabinet-heat pipe combined cabinet system; The cabinet-heat pipe combination cabinet system is composed of a plurality of cabinet-heat pipe combination cabinets; The heat recovery type evaporative cooling air conditioner unit (9) is externally connected with a drainage pipe. 2. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 1, characterized in that, the plurality of cabinets-heat pipe combination cabinets respectively pass through a plurality of exhaust pipes (6) and top exhaust channels (8) connected, the top exhaust duct (8) is connected with the return air outlet (10) provided on the heat recovery type evaporative cooling air conditioner unit (9) through the return air main pipe (34), and the top exhaust duct (8) is also connected with The air supply duct (1) is connected; One end of the air supply duct (1) is connected to the air supply port a (18) provided on the heat recovery type evaporative cooling air conditioner unit (9), and the other end of the air supply duct (1) is connected to the underfloor air supply channel ( 3) connection, the underfloor air supply channel (3) is provided with a plurality of air outlets a (5) and a plurality of air outlets b (35); The plurality of air outlets a (5) supply air to the large environment of the data center; the plurality of air outlets b (35) communicate with the air inlets of the plurality of cabinet-heat pipe combination cabinets respectively. 3. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 2, characterized in that, the cabinet-heat pipe combination cabinet includes a cabinet (4), and one side of the cabinet (4) is from top to bottom A plurality of servers (28) are arranged in turn, and a heat pipe heat exchanger (30) is arranged on the air outlet side of each server (28); A plurality of heat pipe heat exchangers (30) constitute a heat pipe heat exchange system; The bottom of the corresponding cabinet (4) below the heat pipe heat exchange system is provided with an air inlet, and the top wall of the corresponding body (4) above the heat pipe heat exchange system is provided with an exhaust window (7). Window (7) is connected with an exhaust pipe (6). 4. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 3, characterized in that, each of the exhaust windows (7) is provided with an exhaust fan (31); The heat pipe heat exchanger (30) is composed of a plurality of heat pipes (32) arranged horizontally. 5. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 4, characterized in that, each of the heat pipes (32) is composed of an evaporation section and a condensation section, and the evaporation section is close to the server (28) The setting of the air outlet side. 6. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 1, characterized in that, the heat recovery type evaporative cooling air-conditioning unit (9) comprises an organic unit casing, and an upper and a lower section are formed in the unit casing. an air duct; the two ends of the upper air duct corresponding to the two sides of the casing of the unit are respectively provided with an air supply port a (18) and an air supply port b (36); A fresh air outlet (22) and a return air outlet (10) are respectively arranged on the two side walls of the unit housing corresponding to the two ends of the upper air duct; the air supply outlet a (18) and the fresh air outlet (22) are arranged up and down The air supply port b (36) and the air return port (10) are arranged up and down; In the upper air duct: between the air supply port a (18) and the air supply port b (36), a suction blower (17), a surface cooler (16), a first spray cooling unit and a cold air chamber are sequentially arranged; In the lower air duct: between the fresh air outlet (22) and the return air outlet (10), there are sequentially arranged a push-out return fan (23), a flow uniform plate (24), a second spray cooling unit and an air pre-cooling chamber; The first spray-type cooling unit is connected to the second spray-type cooling unit, and the second spray-type cooling unit is externally connected with a control water tank (20); the cold air chamber communicates with the air pre-cooling chamber, and the cold air chamber A cross counterflow plate type heat recovery device (13) is arranged between the air precooling chamber and the air precooling chamber. 7. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 6, characterized in that, the air supply port a (18), the air supply port b (36), the fresh air port (22) and the return air port (10) Electric air valves (12) are arranged inside; A filter (27) is arranged in the air precooling chamber near the air return port (10). 8. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 6, characterized in that, the first spray type cooling unit consists of a spray rack a (15) and a plurality of uniformly arranged on the spray rack a (15) Composed of high-pressure micro-mist nozzles a (14) for spraying on the top and facing the cold air chamber; The second spray cooling unit is composed of a spray rack b (26) and a plurality of high-pressure micro-mist nozzles b (25) uniformly arranged on the spray rack b (26) and sprayed facing the uniform flow plate (24); The spray rack b (26) communicates with the spray rack a (15), and the spray rack b (26) is also connected with the control water tank (20) through the water supply pipe (21). 9. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 8, characterized in that, the water supply pipe (21) is provided with a pressurized water pump, and the pressurized water pump is located in the control water tank (20) in the water tank. 10. The heat pipe-heat recovery type evaporative cooling air-conditioning system according to claim 8 or 9, characterized in that, a water tank is arranged inside the control water tank (20), and a water tank is arranged on the outer wall of the control water tank (20). There is a control panel (19).