CN204254759U - A kind of standpipe indirectly and the air conditioner of high-pressure micro-mist compound - Google Patents

Abstract

A kind of standpipe disclosed in the utility model indirectly and the air conditioner of high-pressure micro-mist compound, include machine unit shell, the two side that machine unit shell is relative is respectively equipped with air inlet, air outlet, enter rear flow direction according to new wind in machine unit shell and be disposed with air cleaner, standpipe indirect evaporation cooler, surface cooler and high-pressure micro-mist-fan wall association system, new return air mixing chamber is formed between standpipe type indirect evaporation cooler and surface cooler, machine unit shell roof corresponding above standpipe indirect evaporation cooler is provided with secondary exhausting mouth, return air inlet is provided with bottom the machine unit shell that new return air mixing chamber is corresponding, temperature sensor is provided with in return air inlet, humidity sensor, temperature sensor, humidity sensor is connected with the Temperature and Humidity Control cabinet outside machine unit shell respectively, Temperature and Humidity Control cabinet respectively with surface cooler, high-pressure micro-mist-fan wall association system connects.Air-conditioning function of the present utility model effectively controls humiture of blowing, and meets conditioned area humiture requirement.

Description

A kind of standpipe indirectly and the air conditioner of high-pressure micro-mist compound

Technical field

The utility model belongs to operation of air conditioning systems technical field, is specifically related to a kind of standpipe indirectly and the air conditioner of high-pressure micro-mist compound.

Background technology

At present, in the middle-size and small-size textile mills of China, textile air-conditioner mostly adopts manual adjustment, but owing to being Non-follow control, have ignored the correlation of temperature and humidity, be difficult to reach desirable working environment to the control of environment epidemic disaster, and, there is the large and inefficient defect of energy consumption.

In addition, in part season, outdoor air sends conditioned area to after needing dehumidifying again, and traditional textile mills scarcely have dehumidification function by Evaporative Cooling Air Conditioning, which limits the service time of air-conditioning equipment.

Utility model content

The purpose of this utility model is to provide a kind of standpipe indirectly and the air conditioner of high-pressure micro-mist compound, in return air inlet, temperature and relative humidity is set respectively, by the running status of each functional section of switch board automatic regulating machine group, effectively control air-supply humiture, thus meet conditioned area humiture requirement.

The technical scheme that the utility model adopts is, a kind of standpipe indirectly and the air conditioner of high-pressure micro-mist compound, include machine unit shell, the two side that machine unit shell is relative is respectively arranged with air inlet and air outlet, is disposed with air cleaner, standpipe indirect evaporation cooler, surface cooler and high-pressure micro-mist-fan wall association system according to the flow direction after new wind enters in machine unit shell; Form new return air mixing chamber between standpipe indirect evaporation cooler and surface cooler, machine unit shell roof corresponding above standpipe indirect evaporation cooler is provided with secondary exhausting mouth, bottom the machine unit shell that new return air mixing chamber is corresponding, is provided with return air inlet; Be provided with temperature sensor, humidity sensor in return air inlet, temperature sensor, humidity sensor are connected with the Temperature and Humidity Control cabinet outside machine unit shell respectively, and Temperature and Humidity Control cabinet is connected with surface cooler and high-pressure micro-mist-fan wall association system respectively.

Feature of the present utility model is,

New air-valve is provided with in air inlet; Blow valve is provided with in air outlet; Overfire air fan is provided with in secondary exhausting mouth.

Temperature and Humidity Control cabinet is connected with temperature sensor by temperature control line; Temperature and Humidity Control cabinet is connected with humidity sensor by humid control line.

Standpipe indirect evaporation cooler, includes vertical heat exchanging pipe group, and the top of vertical heat exchanging pipe group is provided with water-locator, and water-locator is made up of shower and the multiple nozzles be evenly arranged on shower, and the top of water-locator is provided with water fender b; The below of vertical heat exchanging pipe group is provided with water tank a, is provided with water filter a in water tank a, and water filter a is connected with shower by feed pipe, feed pipe is provided with water pump a; Form secondary air duct between vertical heat exchanging Guan Zuyu water tank a, secondary air duct is provided with exhaust valve near the side of new return air mixing chamber, and the machine unit shell sidewall that secondary air duct is corresponding is provided with secondary air inlet.

Multiple air returning valve has been horizontally disposed with in new return air mixing chamber.

Vertical heat exchanging pipe group is made up of the heat exchanger tube that many are vertically arranged.

Water tank a is pullable water tank.

Surface cooler is connected to water inlet pipe, outlet pipe, water inlet pipe is provided with Water flow adjusting valve b; Water flow adjusting valve b is connected with Temperature and Humidity Control cabinet by temperature control line.

High-pressure micro-mist-fan wall association system includes the fan wall, high-pressure micro-mist spray equipment and the water fender a that set gradually by air-flow direction; High-pressure micro-mist spray equipment is made up of the high-pressure micro-mist pipe vertically arranged and the multiple high-pressure fine-spray nozzles be evenly arranged on high-pressure micro-mist pipe, the below of high-pressure micro-mist spray equipment and water fender a is provided with water tank b, water filter b is provided with in water tank b, high-pressure micro-mist pipe is connected with water filter b by high service pipe, high service pipe is provided with Water flow adjusting valve a and water pump b, Water flow adjusting valve a is connected with Temperature and Humidity Control cabinet by humid control line.

Fan wall is made up of multiple blower fan, and multiple blower fan is positioned at same perpendicular uniformly.

The beneficial effects of the utility model are:

1) air conditioner of the present utility model arranges temperature and relative humidity in return air inlet, by the running status of each functional section of switch board automatic regulating machine group, realize multiple air-treatment pattern, and then effectively control ventilation state, meet conditioned area humiture requirement.

2) in air conditioner of the present utility model, surface cooler is installed, when outdoor air summer water capacity is larger, can combines with mechanical refrigeration, air-supply is dehumidified, extend the service time of unit; Winter injects air conditioning hot in surface cooler, meets conditioned area heating requirement.

3) adopt standpipe indirect evaporation cooler in air conditioner of the present utility model, heat exchanger tube adopts vertical, compared with horizontal layout, greatly can save floor space; And primary air passes through from heat exchanger tube, current scour heat exchanger tube inner surface, this effectively can prevent blocking for the higher occasion of dust content.

4) fan wall combines with high-pressure micro-mist spray equipment by air conditioner of the present utility model, unit section air-flow is comparatively even, and the tiny water droplet of high-pressure fog contacts with air, and hot and humid area is abundant, and according to air output requirement, can open blower fan number flexibly.

Accompanying drawing explanation

Fig. 1 is the structural representation of the utility model air conditioner.

In figure, 1. air inlet, 2. new air-valve, 3. air cleaner, 4. water pump a, 5. water filter a, 6. water tank a, 7. secondary air inlet, 8. nozzle, 9. vertical heat exchanging pipe group, 10. return air inlet, 11. temperature sensors, 12. temperature control lines, 13. humid control lines, 14. humidity sensors, 15. surface coolers, 16. Temperature and Humidity Control cabinets, 17. Water flow adjusting valve a, 18. water filter b, 19. water tank b, 20. high-pressure fine-spray nozzles, 21. water fender a, 22. air outlets, 23. blow valves, 24. blower fans, 25. high service pipes, 26. Water flow adjusting valve b, 27. water inlet pipes, 28. outlet pipes, 29. new return air mixing chambers, 30. standpipe indirect evaporation coolers, 31. secondary exhausting mouths, 32. overfire air fans, 33. water fender b, 34. water pump b, 35. air returning valves, 36. exhaust valves, 37. feed pipes.

Detailed description of the invention

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

The utility model standpipe indirectly and the air conditioner of high-pressure micro-mist compound, include machine unit shell, the two side that machine unit shell is relative is respectively arranged with air inlet 1, air outlet 22, is disposed with air cleaner 3, standpipe indirect evaporation cooler 30, surface cooler 15 and high-pressure micro-mist-fan wall association system according to the flow direction after new wind enters in machine unit shell.New return air mixing chamber 29 is formed between standpipe indirect evaporation cooler and surface cooler 15, machine unit shell roof corresponding above standpipe indirect evaporation cooler 30 is provided with secondary exhausting mouth 31, return air inlet 10 is provided with bottom the machine unit shell of new return air mixing chamber 29 correspondence, temperature sensor 11, humidity sensor 14 is provided with in return air inlet 10, temperature sensor 11, humidity sensor 14 are connected with the Temperature and Humidity Control cabinet 16 outside machine unit shell respectively, and Temperature and Humidity Control cabinet 16 is connected with surface cooler 15, high-pressure micro-mist-fan wall association system respectively.

New air-valve 2 is provided with in air inlet 1; Blow valve 23 is provided with in air outlet 22; Overfire air fan 32 is provided with in secondary exhausting mouth 31.

Temperature and Humidity Control cabinet 16 is connected with temperature sensor 11 by temperature control line 12; Temperature and Humidity Control cabinet 16 is connected with humidity sensor 14 by humid control line 13.Temperature sensor 11 and humidity sensor 14 are for responding to the humiture of return air.

Standpipe indirect evaporation cooler 30, includes vertical heat exchanging pipe group 9, and the top of vertical heat exchanging pipe group 9 is provided with water-locator, and water-locator is made up of shower and the multiple nozzles 8 be evenly arranged on shower, and the top of water-locator is provided with water fender b33; The below of vertical heat exchanging pipe group 9 is provided with water tank a6, is provided with water filter a5 in water tank a6, and water filter a5 is connected with shower by feed pipe 37, feed pipe 37 is provided with water pump a4; Form secondary air duct between vertical heat exchanging pipe group 9 and water tank a6, secondary air duct is provided with exhaust valve 36 near the side of new return air mixing chamber 29, and the machine unit shell sidewall that secondary air duct is corresponding is provided with secondary air inlet 7.

Vertical heat exchanging pipe group 9 is made up of the heat exchanger tube that many are vertically arranged; Adopt standpipe indirect evaporation cooler 30 greatly can save floor space; And primary air passes through from heat exchanger tube, current scour heat exchanger tube inner surface, this effectively can prevent blocking for the higher textile mills of dust content.

Water tank a6 is pullable water tank, convenient cleaning.

Multiple air returning valve 35 has been horizontally disposed with in new return air mixing chamber 29.

Surface cooler 15 is connected to water inlet pipe 27, outlet pipe 28, water inlet pipe 27 is provided with Water flow adjusting valve b26, Water flow adjusting valve b26 is connected with Temperature and Humidity Control cabinet 16 by temperature control line.

Air conditioning water can be led in surface cooler 15, hot water that high temperature cold water, air conditioning hot or solar water heater that phreatic water, evaporative cooling handpiece Water Chilling Units produce are produced.

High-pressure micro-mist-fan wall association system, includes the fan wall, high-pressure micro-mist spray equipment and the water fender a21 that set gradually by air-flow direction; Fan wall is made up of multiple blower fan 24, and multiple blower fan 24 is positioned at same perpendicular uniformly; High-pressure micro-mist spray equipment is made up of the high-pressure micro-mist pipe vertically arranged and the multiple high-pressure fine-spray nozzles 20 be evenly arranged on high-pressure micro-mist pipe, the below of high-pressure micro-mist spray equipment and water fender a21 is provided with water tank b19, water filter b18 is provided with in water tank b19, high-pressure micro-mist pipe is connected with water filter b18 by high service pipe 25, high service pipe 25 is provided with Water flow adjusting valve a17 and water pump b34, Water flow adjusting valve a17 is connected with Temperature and Humidity Control cabinet 16 by humid control line.

Adopt the reason of high-pressure fine-spray nozzle 20 to be, compared with different nozzles, its atomizing effect is good.Combined with high-pressure micro-mist spray equipment by fan wall, unit section air-flow is comparatively even, and the tiny water droplet of high-pressure fog contacts with air, and hot and humid area is abundant; And according to air output requirement, can open the number of blower fan 24 flexibly.

The utility model standpipe is indirectly and the course of work of the air conditioner of high-pressure micro-mist compound:

(1) cooling mode

Water system flow process:

In standpipe indirect evaporation cooler 30, water in water tank a6 is transported in water-locator by water pump a4, sprayed by nozzle 8, uniform water film is formed at the inner surface of vertical heat exchanging pipe, moisture film contacts with auxiliary air and hot and humid area occurs, and with the primary air indirect heat exchange outside pipe, finally fall under gravity in water tank a6, repetitive cycling.

In surface cooler 15, the natural cooling source such as air conditioning water or phreatic water enters in surface cooler 15 by the water inlet pipe 27 of surface cooler 15, and the outlet pipe 28 from surface cooler 15 after heat exchange flows out, and enters the equipment such as handpiece Water Chilling Units, surface cooler 15 is entered again, repetitive cycling after cooling process; Surface cooler water inlet 27 is provided with the Water flow adjusting valve b26 controlled circulation water yield.

In high-pressure micro-mist-fan wall association system, recirculated water in water tank b19 is transported to high-pressure fine-spray nozzle 20 by water pump b34 through high service pipe 25 and sprays, the fine liquid particles of atomization contacts with primary air and hot and humid area occurs, and unevaporated water droplet falls under gravity in water tank b19.

Wind system flow process, includes following three kinds of air-treatment patterns:

A. standpipe indirectly with direct double flash evaporation cooling-air processing procedure:

Outdoor new wind enters in machine unit shell through air inlet 1, standpipe indirect evaporation cooler 30 is entered after air cleaner 3 filters, the wet coolings such as realization, then high-pressure micro-mist-fan wall association system is entered after mixing with part return air in new return air mixing chamber 29, carry out hot and humid area with the fine liquid particles be atomized through high-pressure fine-spray nozzle 20, realize cooling humidification, collected water finally by water fender a21, reach ventilation state point, under the effect of multiple blower fan 24, send into conditioned area by air outlet 22.

B. two-stage indirectly with direct air by three-stage vapour processing procedure:

To the high temperature cold water that surface cooler 15 is carried deep-well cold water or produced by evaporative cooling cooling-water machine, outdoor new wind is after wet cooling such as standpipe indirect evaporation cooler 30 grade, mix with part return air again, enter surface cooler 15 inferior wet cooling again, realize two-stage indirectly to cool, finally by high-pressure micro-mist-fan wall association system constant enthalpy cooling process to ventilation state point, under the effect of blower fan 24, send into conditioned area by air outlet 22.

C. the indirect air handling process with showing cold dehumidifying:

When the humiture relying on evaporative cooling can not meet conditioned area requires, to the low-temperature cold water that surface cooler 15 conveying machinery is produced, switch off the pump b34, and high-pressure fine-spray nozzle 20 stops spray; Outdoor new wind after wet cooling such as standpipe indirect evaporation cooler 30 grade, then mixes with part return air, then enters surface cooler 15 and carries out the process of degree of depth cooling and dehumidifying to ventilation state point, under the effect of blower fan 24, send into conditioned area by air outlet 22.

(2) heat supply mode:

Water system flow process:

Heating season is when needing to heat, the water-locator of standpipe indirect evaporation cooler 30 is closed, outdoor secondary air inlet 7 is closed, standpipe indirect evaporation cooler 30 uses as heat-exchanger rig, high-pressure micro-mist spray equipment is used as humidifier, recirculated water in water tank b19 is transported to high-pressure fine-spray nozzle 20 by water pump b34 through high service pipe 25 and sprays, the fine liquid particles of atomization contacts with primary air and hot and humid area occurs, carry out humidification to air, unevaporated water droplet falls under gravity in water tank b19.

Wind system flow process:

Outdoor new wind enters in machine unit shell through air inlet 1, standpipe indirect evaporation cooler 30 is entered after air cleaner 3 filters, now, standpipe indirect evaporation cooler 30 uses as heat-exchanger rig, the return air that conditioned area temperature is higher enters in new return air mixing chamber 29 by return air inlet 10 after filtering, part return air enters vertical heat exchanging pipe through exhaust valve 36, the new wind in the outdoor passed through outward with vertical heat exchanging pipe carries out heat exchange, play the outer new wind action of preheating chamber, after heat exchange, under the effect of overfire air fan 32, drain into outdoor; Another part return air mixes with preheated new wind through air returning valve 35, surface cooler 15 is entered after mixing, heat exchange is carried out with the air conditioning hot in surface cooler 15, high-pressure micro-mist-fan wall association system is entered after being heated, with the fine liquid particles generation hot and humid area be atomized through high-pressure fine-spray nozzle 20, collected water by after humidification through water fender a21, under the effect of blower fan 24, send into conditioned area by air outlet 22.

(3) temperature and humidity regimes workflow:

At return air inlet 10 place set temperature sensor 11 and humidity sensor 14, realize the effective control to air-supply humiture, the humiture of air-supply is changed within the scope of the bound of setting, and then ensure that the air parameter in workshop is in tolerance interval; If the wind pushing temperature higher limit that temperature sensor 11 controls is Ts, lower limit is Tx, and rated value is Te; The blasting humidity higher limit that humidity sensor 14 controls is Ds, and lower limit is Dx, and rated value is De.

When transition season needs cooling, self adaptation air-conditioner set of the present utility model, realization be a. standpipe indirectly with direct air handling process or b. two-stage indirectly with direct air handling process.In such cases, first humidity sensor 14 is by the aperture of Temperature and Humidity Control cabinet 16 automatic regulating water flow adjustable valve a17, and then regulate high-pressure fine-spray nozzle 20 spray add moisture, make air-supply water capacity reach the upper limit Ds of blasting humidity, utilize the temperature drop of high-pressure micro-mist spray equipment direct evaporating-cooling also maximum, then, temperature sensor 11 by the aperture of Temperature and Humidity Control cabinet 16 automatic regulating water flow amount valve b26, and then regulates the flow entering the high temperature cold water of surface cooler 15, when outdoor air just can make wind pushing temperature maintain between the upper limit Ts of wind pushing temperature and wind pushing temperature lower limit Tx through standpipe indirect evaporation cooler 30 and the cooling of high-pressure micro-mist spray equipment direct evaporating-cooling, Water flow adjusting valve b26 closes automatically, when outdoor air is after standpipe indirect evaporation cooler 30 and the cooling of high-pressure micro-mist spray equipment direct evaporating-cooling, during the higher limit Ts of air themperature higher than wind pushing temperature, Water flow adjusting valve b26 opens automatically, now air is after wet cooling such as standpipe indirect evaporation cooler 30 grade, enter the wet coolings such as surface cooler 15 is further, by the aperture of temperature sensor 11 regulating water flow control valve b26, thus controlled cooling model temperature, again lower the temperature finally by high-pressure micro-mist spray equipment direct evaporating-cooling, wind pushing temperature is finally made to maintain near the rated value Te of wind pushing temperature, be between Ts and Tx.

When needing summer to dehumidify to the new wind in outdoor, blasting humidity is greater than higher limit Ds, and Water flow adjusting valve a17 closes, and namely closes high-pressure micro-mist spray equipment, passes into air conditioning water and carry out degree of depth cooling and dehumidifying to the new wind in outdoor in surface cooler 15.Now, temperature sensor 11 is by the aperture of Temperature and Humidity Control cabinet 16 automatic regulating water flow adjustable valve b26; When the new wind in outdoor through standpipe indirect evaporation cooler 30 etc. clammy but after again by surface cooler degree of depth cooling and dehumidifying after, during the higher limit Ts of temperature higher than wind pushing temperature, temperature sensor 11 leaves the aperture of mass-flow adjustable valve b26 automatically by Temperature and Humidity Control cabinet 16, wind pushing temperature reduces, as the lower limit Tx of wind pushing temperature lower than wind pushing temperature, the aperture of Water flow adjusting valve b26 reduces automatically, finally makes wind pushing temperature maintain near the rated value Te of wind pushing temperature, is between Ts and Tx.

During winter heating, first humidity sensor 14 is by the aperture of Temperature and Humidity Control cabinet 16 automatic regulating water flow adjustable valve a17, and then regulate high-pressure micro-mist spray equipment add moisture, make air-supply water capacity reach the lower limit Dx of blasting humidity, now the temperature drop of high-pressure micro-mist spray equipment direct evaporating-cooling is also minimum, then, temperature sensor 11 is by the aperture of Temperature and Humidity Control cabinet 16 automatic regulating water flow amount valve b26, and then regulate the flow entering the air conditioning hot of surface cooler 15, now air is after standpipe indirect evaporation cooler 30 preheating, enter surface cooler 15 to be heated further, by the aperture of temperature sensor 11 regulating water flow control valve b26, thus control heating-up temperature, as the lower limit Tx of temperature lower than wind pushing temperature, temperature sensor 11 leaves the aperture of mass-flow adjustable valve b26 automatically by Temperature and Humidity Control cabinet 16, wind pushing temperature raises, as the higher limit Ts of wind pushing temperature higher than wind pushing temperature, the aperture of Water flow adjusting valve b26 reduces automatically, wind pushing temperature is finally made to maintain near the rated value Te of wind pushing temperature, be between Ts and Tx.

Air conditioner of the present utility model, adopt standpipe indirect evaporation cooler, greatly can save floor space, primary air passes through from heat exchanger tube, current scour heat exchanger tube inner surface, and this, for the higher textile mills of dust content, effectively can prevent blocking.Combined with high pressure sprays fog equipment by fan wall, unit section air-flow is comparatively even, and the tiny water droplet of high-pressure fog contacts with air, and hot and humid area fully, and according to air output requirement, can open pressure fan number flexibly; Return air inlet is provided with temperature sensor and humidity sensor.By the running status of each functional section of switch board automatic regulating machine group, effectively control air-supply humiture, thus meet conditioned area humiture requirement.

Claims (10)

1. a standpipe indirectly and the air conditioner of high-pressure micro-mist compound, it is characterized in that, include machine unit shell, the two side that described machine unit shell is relative is respectively arranged with air inlet (1) and air outlet (22), is disposed with air cleaner (3), standpipe indirect evaporation cooler (30), surface cooler (15) and high-pressure micro-mist-fan wall association system according to the flow direction after new wind enters in described machine unit shell;

New return air mixing chamber (29) is formed between described standpipe indirect evaporation cooler and surface cooler (15), the machine unit shell roof that described standpipe indirect evaporation cooler (30) top is corresponding is provided with secondary exhausting mouth (31), bottom the machine unit shell that described new return air mixing chamber (29) is corresponding, is provided with return air inlet (10);

Temperature sensor (11), humidity sensor (14) is provided with in described return air inlet (10), temperature sensor (11), humidity sensor (14) are connected with the Temperature and Humidity Control cabinet (16) outside machine unit shell respectively, and described Temperature and Humidity Control cabinet (16) is connected with surface cooler (15) and high-pressure micro-mist-fan wall association system respectively.

2. standpipe according to claim 1 indirectly and the air conditioner of high-pressure micro-mist compound, it is characterized in that, be provided with new air-valve (2) in described air inlet (1); Blow valve (23) is provided with in described air outlet (22); Overfire air fan (32) is provided with in described secondary exhausting mouth (31).

3. standpipe according to claim 1 indirectly and the air conditioner of high-pressure micro-mist compound, and it is characterized in that, described Temperature and Humidity Control cabinet (16) is connected with temperature sensor (11) by temperature control line (12); Described Temperature and Humidity Control cabinet (16) is connected with humidity sensor (14) by humid control line (13).

4. standpipe according to claim 1 indirectly and the air conditioner of high-pressure micro-mist compound, it is characterized in that, described standpipe indirect evaporation cooler (30), include vertical heat exchanging pipe group (9), the top of described vertical heat exchanging pipe group (9) is provided with water-locator, described water-locator is made up of shower and the multiple nozzles (8) be evenly arranged on shower, and the top of described water-locator is provided with water fender b (33);

The below of described vertical heat exchanging pipe group (9) is provided with water tank a (6), water filter a (5) is provided with in described water tank a (6), described water filter a (5) is connected with shower by feed pipe (37), described feed pipe (37) is provided with water pump a (4);

Secondary air duct is formed between described vertical heat exchanging pipe group (9) and water tank a (6), secondary air duct is provided with exhaust valve (36) near the side of new return air mixing chamber (29), and the machine unit shell sidewall that secondary air duct is corresponding is provided with secondary air inlet (7).

5. the standpipe according to claim 1 or 4 indirectly and the air conditioner of high-pressure micro-mist compound, is characterized in that, has been horizontally disposed with multiple air returning valve (35) in described new return air mixing chamber (29).

6. standpipe according to claim 4 indirectly with the air conditioner of high-pressure micro-mist compound, it is characterized in that, described vertical heat exchanging pipe group (9) is made up of the heat exchanger tubes of many vertical settings.

7. standpipe according to claim 4 indirectly and the air conditioner of high-pressure micro-mist compound, and it is characterized in that, described water tank a (6) is pullable water tank.

8. standpipe according to claim 1 indirectly and the air conditioner of high-pressure micro-mist compound, it is characterized in that, described surface cooler (15) is connected to water inlet pipe (27), outlet pipe (28), described water inlet pipe (27) is provided with Water flow adjusting valve b (26); Described Water flow adjusting valve b (26) is connected with Temperature and Humidity Control cabinet (16) by temperature control line.

9. standpipe according to claim 1 indirectly and the air conditioner of high-pressure micro-mist compound, it is characterized in that, described high-pressure micro-mist-fan wall association system includes the fan wall, high-pressure micro-mist spray equipment and the water fender a (21) that set gradually by air-flow direction;

Described high-pressure micro-mist spray equipment is made up of the high-pressure micro-mist pipe vertically arranged and the multiple high-pressure fine-spray nozzles (20) be evenly arranged on high-pressure micro-mist pipe, the below of described high-pressure micro-mist spray equipment and water fender a (21) is provided with water tank b (19), water filter b (18) is provided with in described water tank b (19), described high-pressure micro-mist pipe is connected with water filter b (18) by high service pipe (25), described high service pipe (25) is provided with Water flow adjusting valve a (17) and water pump b (34), described Water flow adjusting valve a (17) is connected with Temperature and Humidity Control cabinet (16) by humid control line.

10. standpipe according to claim 9 indirectly and the air conditioner of high-pressure micro-mist compound, and it is characterized in that, described fan wall is made up of multiple blower fan (24), and multiple blower fan (24) is positioned at same perpendicular uniformly.