CN104101038B - multi-mode operation evaporation refrigeration cold water supply device and use method thereof - Google Patents

Abstract

The invention relates to the technical field of heating ventilation air conditioning and energy conservation, and discloses a multi-mode operation evaporation refrigeration cold water supply device and a use method thereof. The device comprises an evaporation refrigeration device, wherein the evaporation refrigeration device comprises evaporation refrigeration filler, a spray device, a circulation water tank, a circulation water pump, an exhaust duct and a refrigeration device lower part air inlet. The multi-mode operation evaporation refrigeration cold water supply device is characterized in that an air chamber is formed in the outer side of the evaporation refrigeration device corresponding to the refrigeration device lower part air inlet; a first air inlet opening is formed in the lower part of the air chamber; a refrigeration device upper part air inlet which is communicated with the air chamber and the exhaust duct is formed in the evaporation refrigeration device; the first air inlet opening is communicated with a refrigeration device lower part air inlet by the air chamber. The multi-mode operation evaporation refrigeration cold water supply device has the characteristics that the structure is reasonable and compact, the use is convenient, the device can be used as a water chilling unit or a cooling tower through switching the flow direction of air according to different climate states and weather conditions in different time periods, the practicability is strong, the use range is wide, the energy is saved, the environment is protected, and the efficiency is high.

Description

Multi-mode operation sweat cooling supplies water-cooling device and its using method

Technical field

The present invention relates to HVAC and field of energy-saving technology, be a kind of multi-mode operation sweat cooling supply water-cooling device and Its using method.

Background technology

The technology that at present for driving source can be prepared by dry air cold water has more maturely been applied in summer air-conditioning cold water system In system, but this technology is mainly used in summer at this stage, and majority is the central air conditioner system applied in civil buildings In；But because winter outdoor temperature is relatively low, especially in severe cold area, the antifreeze of unit becomes main problem, should Technology uses and is required for by, in the air conditioning system of cooling water temperature, being typically extremely difficult to use requirement at all seasons；In addition Cold water can be prepared using dry air, the height of leaving water temperature is to be determined by extraneous weather, due to middle gas at all seasons Time situation is different, weather condition is different, if the operational mode of sweat cooling handpiece Water Chilling Units is single, may will result in the energy Waste.

Content of the invention

The invention provides a kind of multi-mode operation sweat cooling supplies water-cooling device and its using method, overcome above-mentioned existing There is the deficiency of technology, it effectively solving existing sweat cooling handpiece Water Chilling Units can cannot solve the problems, such as unit preventing freeze in winter, run mould Formula is more single, easily cause the problem of energy waste.

One of technical scheme is realized by following measures：A kind of multi-mode operation sweat cooling cooling Water installations, it includes evaporation-refrigeration device, described evaporation-refrigeration device include sweat cooling filler, spray equipment, cyclic water tank, Water circulating pump, exhausting duct, refrigerating plant bottom air inlet are it is characterised in that the corresponding evaporation system of refrigerating plant bottom air inlet There is air compartment outside device for cooling, have the first air intake port in the bottom of air compartment, evaporation-refrigeration device is communicated with air compartment and air draft The refrigerating plant top air inlet in road, the first air intake port is communicated with refrigerating plant bottom air inlet by air compartment, the first air intake Port is communicated with refrigerating plant top air inlet by air compartment；Refrigerating plant bottom air inlet is provided with bottom quantity switch of air dress Put, refrigerating plant top air inlet is provided with top quantity switch of air device；Water circulating pump outlet is provided with can be with user's heat exchange Hold the pumping line being connected；System return surface-type heat-exchanger rig is installed in air compartment；In system return surface-type heat exchange The user's heat-exchange end return pipe being connected with user's heat-exchange end is provided with device, on system return surface-type heat-exchanger rig The system return spray header being connected with spray equipment is installed.

The two of technical scheme are realized by following measures：A kind of multi-mode operation sweat cooling cooling Water installations, it includes evaporation-refrigeration device, described evaporation-refrigeration device include sweat cooling filler, spray equipment, cyclic water tank, Water circulating pump, exhausting duct, refrigerating plant bottom air inlet are it is characterised in that the corresponding evaporation system of refrigerating plant bottom air inlet There is air compartment outside device for cooling, have the first air intake port in the bottom of air compartment, evaporation-refrigeration device is communicated with air compartment and air draft The refrigerating plant top air inlet in road, the first air intake port is communicated with refrigerating plant bottom air inlet by air compartment, the first air intake Port is communicated with refrigerating plant top air inlet by air compartment；Refrigerating plant bottom air inlet is provided with bottom quantity switch of air dress Put, refrigerating plant top air inlet is provided with top quantity switch of air device；Water circulating pump outlet is provided with can be with user's heat exchange Hold the pumping line being connected；Self-loopa surface-type heat-exchanger rig is installed in air compartment；In self-loopa surface-type heat-exchanger rig On the water pump return pipe being connected with water circulating pump outlet is installed, self-loopa surface-type heat-exchanger rig is provided with energy The self-loopa backwater spray header being connected with spray equipment, spray equipment has the user being connected with user's heat-exchange end change Hot junction return pipe.

Be presented herein below to one of foregoing invention technical scheme or/and two further optimization and/or improvements：

System return surface-type heat-exchanger rig, and the water of system return surface-type heat-exchanger rig are installed in above-mentioned air compartment Paths are serially connected with user's heat-exchange end return pipe.

There is housing, housing is filled with sweat cooling outside the corresponding evaporation-refrigeration device of above-mentioned refrigerating plant bottom air inlet The outer wall put constitutes air compartment；First air intake port is located at the bottom of housing；Self-loopa surface-type heat-exchanger rig or/and system return Surface-type heat-exchanger rig is arranged on the first air intake port.

There is housing, housing is filled with sweat cooling outside the corresponding evaporation-refrigeration device of above-mentioned refrigerating plant bottom air inlet The outer wall put constitutes air compartment；First air intake port is located at the bottom of housing；Self-loopa surface-type heat-exchanger rig or/and system return Surface-type heat-exchanger rig keeps flat or tiltedly puts or stand up in air compartment.

Housing above above-mentioned first air intake port is provided with the second air intake port, and air compartment and system are passed through in the second air intake port Device for cooling bottom air inlet and refrigerating plant top air inlet communicate；First air intake port is provided with the first quantity switch of air device, Second air intake port is provided with the second quantity switch of air device.

Above-mentioned evaporation-refrigeration device is provided with the refrigerating plant air draft port communicating with exhausting duct, in refrigerating plant air outlet It is provided with exhaust blower at mouthful；Spray equipment is located above sweat cooling filler, and cyclic water tank is located at below sweat cooling filler, circulation The outlet of water tank is communicated with water circulating pump import by radiator drain.

The three of technical scheme are realized by following measures：A kind of above-mentioned multi-mode operation sweat cooling For the using method of water-cooling device, it is opened bottom quantity switch of air device and simultaneously closes top quantity switch of air device, and outdoor wind is from the System return surface-type heat-exchanger rig is passed through in one air intake port or/and self-loopa surface-type heat-exchanger rig enters air compartment, outdoor wind Cooled down by system return surface-type heat-exchanger rig or/and self-loopa surface-type heat-exchanger rig, the outdoor wind after cooling down afterwards passes through Bottom quantity switch of air device and refrigerating plant bottom air inlet enter sweat cooling filler, with spray dress in sweat cooling filler The shower water putting ejection occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, is passed through by the air of sweat cooling filler Exhausting duct drains into outdoor.

The four of technical scheme are realized by following measures：A kind of above-mentioned multi-mode operation sweat cooling For the using method of water-cooling device, it is opened top quantity switch of air device and simultaneously closes bottom quantity switch of air device, and outdoor wind is from the System return surface-type heat-exchanger rig is passed through in one air intake port or/and self-loopa surface-type heat-exchanger rig enters air compartment, outdoor wind By the water cooling in system return surface-type heat-exchanger rig or/and self-loopa surface-type heat-exchanger rig, outdoor wind is by upper afterwards Portion's quantity switch of air device and refrigerating plant top air inlet enter exhausting duct, drain into outdoor through exhausting duct.

The five of technical scheme are realized by following measures：A kind of above-mentioned multi-mode operation sweat cooling For the using method of water-cooling device, it is opened bottom quantity switch of air device and simultaneously closes top quantity switch of air device, by opening the One quantity switch of air device or the second quantity switch of air device, make outdoor wind enter air compartment and pass through system return surface-type heat-exchanger rig Or/and self-loopa surface-type heat-exchanger rig, outdoor wind is by system return surface-type heat-exchanger rig or/and self-loopa surface-type heat exchange Device cools down, and the outdoor wind after cooling down afterwards passes through bottom quantity switch of air device and refrigerating plant bottom air inlet enters evaporation system Cold filling, the shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, and the cold water of preparation falls into circulation Water tank, drains into outdoor by the air of sweat cooling filler through exhausting duct.

The six of technical scheme are realized by following measures：A kind of above-mentioned multi-mode operation sweat cooling For the using method of water-cooling device, it is opened top quantity switch of air device and simultaneously closes bottom quantity switch of air device, by opening the One quantity switch of air device or the second quantity switch of air device, make outdoor wind enter air compartment and pass through system return surface-type heat-exchanger rig Or/and self-loopa surface-type heat-exchanger rig, outdoor wind is by system return surface-type heat-exchanger rig or/and self-loopa surface-type heat exchange Water cooling in device, outdoor wind passes through top quantity switch of air device and refrigerating plant top air inlet enters exhausting duct afterwards, Drain into outdoor through exhausting duct.

The seven of technical scheme are realized by following measures：A kind of above-mentioned multi-mode operation sweat cooling For the using method of water-cooling device, it is opened bottom quantity switch of air device and simultaneously closes top quantity switch of air device, by opening the One quantity switch of air device or the second quantity switch of air device, make outdoor wind enter air compartment and do not pass through system return surface-type heat exchange dress Put or/and self-loopa surface-type heat-exchanger rig, outdoor wind passes through bottom quantity switch of air device and refrigerating plant bottom air intake afterwards Mouth enters sweat cooling filler, and the shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, preparation Cold water falls into cyclic water tank, drains into outdoor by the air of sweat cooling filler through exhausting duct.

Present configuration is reasonable and compact, easy to use, and it passes through to switch the flow direction of air, according to different climate conditions And weather condition, can use as handpiece Water Chilling Units or cooling tower in the different time periods, there is practical, range Extensively, energy-conserving and environment-protective, efficient feature.

Brief description

Accompanying drawing 1 is the main structure diagram of the embodiment of the present invention 1.

Accompanying drawing 2 is the main structure diagram of the embodiment of the present invention 2.

Accompanying drawing 3 is the main structure diagram of the embodiment of the present invention 3.

Accompanying drawing 4 is the main structure diagram of the embodiment of the present invention 12.

Accompanying drawing 5 is the main structure diagram of the embodiment of the present invention 13.

Coding in accompanying drawing is respectively：1 is housing, and 2 is evaporation-refrigeration device, and 3 is self-loopa surface-type heat-exchanger rig, 4 For the first air intake port, 5 is refrigerating plant air draft port, and 6 is refrigerating plant bottom air inlet, and 7 is air compartment, and 8 is exhausting duct, 9 For refrigerating plant top air inlet, 10 is exhaust blower, and 11 is bottom quantity switch of air device, and 12 is top quantity switch of air device, 13 For sweat cooling filler, 14 is spray equipment, and 15 is cyclic water tank, and 16 is user's heat-exchange end feed pipe, and 17 is user's heat-exchange end Return pipe, 18 is water circulating pump, and 19 is system return spray header, and 20 is user's heat-exchange end, and 21 is the second air intake port, 22 For the second quantity switch of air device, 23 is the first quantity switch of air device, and 24 is system return surface-type heat-exchanger rig, and 25 return for water pump Water pipe, 26 is self-loopa backwater spray header.

Specific embodiment

The present invention is not limited by following embodiments, can technology according to the present invention scheme determine specifically with practical situation Embodiment.

With reference to embodiment and accompanying drawing, one of technical solution of the present invention is further described：

Embodiment 1：As shown in Figure 1, this multi-mode operation sweat cooling includes evaporation-refrigeration device 2 for water-cooling device, Described evaporation-refrigeration device 2 include sweat cooling filler 13, spray equipment 14, cyclic water tank 15, water circulating pump 18, exhausting duct 8, Refrigerating plant bottom air inlet 6, has air compartment 7 outside the corresponding evaporation-refrigeration device 2 of its refrigerating plant bottom air inlet 6, First air intake port 4 is arranged at the bottom of air compartment 7, evaporation-refrigeration device 2 is communicated with air compartment 7 and the refrigerating plant of exhausting duct 8 Portion's air inlet 9, the first air intake port 4 is communicated with refrigerating plant bottom air inlet 6 by air compartment 7, and wind is passed through in the first air intake port 4 Room 7 is communicated with refrigerating plant top air inlet 9；Refrigerating plant bottom air inlet 6 is provided with bottom quantity switch of air device 11, refrigeration Device top air inlet 9 is provided with top quantity switch of air device 12；Water circulating pump 18 outlet is provided with can be with user's heat-exchange end 20 pumping lines being connected；System return surface-type heat-exchanger rig 24 is installed in air compartment 7；Change in system return surface-type The user's heat-exchange end return pipe 17 being connected with user's heat-exchange end 20 is provided with thermal 24, changes in system return surface-type The system return spray header 19 being connected with spray equipment 14 is provided with thermal 24.

The present invention passes through to change the flow process of air, is capable of different operational modes, needs air conditioner cold water in summer In system, the present invention can prepare high temperature cold water supply air conditioning system, the driving of the present invention in the process using dry air Source is dry air, and main power consumption is exhaust blower 10 and water circulating pump 18, therefore with respect to the traditional sky with electricity as driving source Adjust and more save electric energy；When the temperature of the cold water of present invention preparation can not meet air conditioning system, the present invention can be used as cooling Tower uses, and using handpiece Water Chilling Units traditional for the Cold water supply of preparation as cooling water, is therefore matching with traditional handpiece Water Chilling Units When, can no longer be separately provided cooling tower, the initial cost of project can be reduced, and the leaving water temperature of the present invention compares cooling tower Leaving water temperature low, can improve the Energy Efficiency Ratio of traditional handpiece Water Chilling Units, and when traditional handpiece Water Chilling Units are coordinated with the present invention During use, traditional handpiece Water Chilling Units can be then turned on passing when the water temperature of the cold water of present invention preparation can not meet without normally opened The handpiece Water Chilling Units of system, and then whole air-conditioner water system will more energy-conservation using traditional handpiece Water Chilling Units with respect to only；At some The big occasion of caloric value, needs annual cooling, and the present invention passes through to change the flow direction of wind, by outdoor cold air, temperature is raised Water is lowered the temperature, and in the process, make use of the free cold in the Nature, and the present invention can realize the anti-of winter Freeze, sufficiently consider the weather of the outdoor extreme low temperature in severe cold area.There are two kinds of operational modes：

Operational mode one：Air is being entered by evaporation-refrigeration device bottom after system return surface-type heat-exchanger rig 24 Air port 6 is entered and is occurred with water caloic exchange system for cold water in sweat cooling filler 13, is led to by the air of sweat cooling filler 13 Cross exhaust blower 10 and be discharged to outdoor, this kind of operational mode is mainly used in when the temperature of winter outdoor air is higher, outdoor Cold air passes through the high-temperature water in system return surface-type heat-exchanger rig 24 cooling system backwater surface-type heat-exchanger rig 24, cooling When the temperature of water can not reach the use requirement of user, water needs reducing temperature twice, water and air contact in evaporation-refrigeration device 2 Realize reducing temperature twice so that leaving water temperature reaches the use requirement of user.

Operational mode two：Outdoor air, through system return surface-type heat-exchanger rig 24, enters air compartment 7, by air compartment warp Cross exhaust blower 10 and be exhausted directly to outdoor；This operational mode be primarily directed to the air of the outdoor when winter temperature relatively low when, room Outer air routing system backwater surface-type heat-exchanger rig 24, after the water cooling in system return surface-type heat-exchanger rig 24, After cooling, the temperature of water can reach the requirement of user, by the water of system return surface-type heat-exchanger rig 24 do not need secondary Cooling, this operational mode outdoor air is without evaporation-refrigeration device 2 it is also possible to prevent the cold air of outdoor from entering sweat cooling In the too low or even icing dropping water temperature in device 2, the effect of unit preventing freeze in winter therefore can also be played.

In view of the outdoor strong impact to system return surface-type heat-exchanger rig 24 for the cold wind in winter, by system return surface Formula heat-exchanger rig 24 is arranged in air compartment 7, it can be avoided that strong cold wind is directly blown onto system return surface-type heat-exchanger rig 24 and leads to The system return surface-type heat-exchanger rig 24 that energy unbalance causes is lowered the temperature too fast, by housing 1, system return surface-type is changed Thermal 24 is protected, and system return surface-type heat-exchanger rig 24 can be avoided to lower the temperature too fast, prevent outdoor cold wind will be System backwater surface-type heat-exchanger rig 24 bursting by freezing.

The present invention passes through to switch the flow direction of air, prepares cold water in different usage time intervals using natural cooling source, not The same time period present invention can use as handpiece Water Chilling Units or cooling tower, and therefore practicality is higher, and range is wider, and More energy-conservation.

Above-mentioned multi-mode operation sweat cooling can be optimized further for water-cooling device or/and changes according to actual needs Enter：

According to actual needs, there are housing 1, housing outside the corresponding evaporation-refrigeration device of refrigerating plant bottom air inlet 62 1 constitutes air compartment 7 with the outer wall of evaporation-refrigeration device 2；First air intake port 4 is located at the bottom of housing 1；System return surface-type changes Thermal 24 is arranged at the first air intake port 4.

According to actual needs, there are housing 1, housing outside the corresponding evaporation-refrigeration device of refrigerating plant bottom air inlet 62 1 constitutes air compartment 7 with the outer wall of evaporation-refrigeration device 2；First air intake port 4 is located at the bottom of housing 1；System return surface-type changes Thermal 24 keeps flat or tiltedly puts or stand up in air compartment 7.

According to actual needs, the housing 1 of the first air intake port 4 top is provided with the second air intake port 21, the second air intake Mouth 21 is communicated with refrigerating plant bottom air inlet 6 and refrigerating plant top air inlet 9 by air compartment 7；Set on first air intake port 4 There is the first quantity switch of air device 23, the second air intake port 21 is provided with the second quantity switch of air device 22.

According to actual needs, evaporation-refrigeration device 2 is provided with the refrigerating plant air draft port 5 communicating with exhausting duct 8, in system It is provided with exhaust blower 10 at device for cooling air draft port 5；Spray equipment 14 is located above sweat cooling filler 13, and cyclic water tank 15 is located at Below sweat cooling filler 13, the outlet of cyclic water tank 15 is connected with user's heat-exchange end feed pipe 16, system return surface-type The water inlet of heat-exchanger rig 24 is connected with user's heat-exchange end return pipe 17, user's heat-exchange end feed pipe 16 or user's heat-exchange end backwater Pipe 17 is provided with water circulating pump 18, the outlet of system return surface-type heat-exchanger rig 24 pass through system return spray header 19 with The water inlet of spray equipment 14 communicates.

In embodiment 1, as shown in Figure 1, outside the corresponding evaporation-refrigeration device of refrigerating plant bottom air inlet 62 There is housing 1, housing 1 constitutes air compartment 7 with the outer wall of evaporation-refrigeration device 2；First air intake port 4 is located at the bottom of housing 1；System Backwater surface-type heat-exchanger rig 24 is arranged at the first air intake port 4；Evaporation-refrigeration device 2 is provided with and is communicated with exhausting duct 8 Refrigerating plant air draft port 5, is provided with exhaust blower 10 at refrigerating plant air draft port 5；Spray equipment 14 is located at sweat cooling and fills out Above material 13, cyclic water tank 15 is located at below sweat cooling filler 13, and the outlet of cyclic water tank 15 is connected with user's heat-exchange end Feed pipe 16, the water inlet of system return surface-type heat-exchanger rig 24 is connected with user's heat-exchange end return pipe 17, user's heat-exchange end Feed pipe 16 or user's heat-exchange end return pipe 17 are provided with water circulating pump 18, the outlet of system return surface-type heat-exchanger rig 24 Communicated with the water inlet of spray equipment 14 by system return spray header 19.Additionally, according to actual needs, system return surface Formula heat-exchanger rig 24 can also tiltedly be put or lie in air compartment 7.

Embodiment 2：As shown in Figure 2, embodiment 2 and the difference of embodiment 1 are, the first air intake of embodiment 2 The housing 1 of port 4 top is provided with the second air intake port 21, the second air intake port 21 lower end and the first air intake port 4 upper end phase Next-door neighbour, the second air intake port 21 is communicated with refrigerating plant bottom air inlet 6 and refrigerating plant top air inlet 9 by air compartment 7；The One air intake port 4 is provided with the first quantity switch of air device 23, and the second air intake port 21 is provided with the second quantity switch of air device 22.

Embodiment 3：As shown in Figure 3, embodiment 3 and the difference of embodiment 1 are, the first air intake of embodiment 3 The housing 1 of port 4 top is provided with the second air intake port 21, the second air intake port 21 lower end and the first air intake port 4 upper end it Between there is a segment distance, air compartment 7 and refrigerating plant bottom air inlet 6 and refrigerating plant top air intake are passed through in the second air intake port 21 Mouth 9 communicates；First air intake port 4 is provided with the first quantity switch of air device 23, and the second air intake port 21 is provided with the second air quantity and opens Close device 22；System return surface-type heat-exchanger rig 24 is tiltedly placed in air compartment 7, and is located at the first air intake port 4 and the second air intake Between port 21.In embodiment 3, system return surface-type heat-exchanger rig 24 is tilted installation settings, not only can reduce this The floor space of invention, and the wind speed of the outdoor wind of system return surface-type heat-exchanger rig 24 can be lowered into, prevent Energy unbalance is led to cause system return surface-type heat-exchanger rig 24 by bursting by freezing because wind speed is too high during use in winter.

Additionally, according to actual needs, bottom quantity switch of air device 11, top quantity switch of air device 12, the first quantity switch of air Device 23 and the second quantity switch of air device 22 can be valve or draw back plate.

According to actual needs, it is communicated with user's heat exchange between user's heat-exchange end feed pipe 16 and user's heat-exchange end return pipe 17 End 20.

It is further described to the three of technical solution of the present invention with reference to embodiment and accompanying drawing：

Embodiment 4：As shown in Figure 1, this multi-mode operation sweat cooling for the using method of water-cooling device is：Under unlatching Portion's quantity switch of air device 11 simultaneously closes top quantity switch of air device 12, and outdoor wind passes through system return table from the first air intake port 4 Facial heat-exchanger rig 24 enters air compartment 7, and outdoor wind is cooled down by system return surface-type heat-exchanger rig 24, the outdoor after cooling down afterwards Wind passes through bottom quantity switch of air device 11 and refrigerating plant bottom air inlet 6 enters sweat cooling filler 13, fills out in sweat cooling The shower water spraying with spray equipment 14 in material 13 occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank 15, by evaporation The air of refrigeration filler 13 drains into outdoor through exhausting duct 8.

It is further described to the four of technical solution of the present invention with reference to embodiment and accompanying drawing：

Embodiment 5：As shown in Figure 1, this multi-mode operation sweat cooling for the using method of water-cooling device is：In unlatching Portion's quantity switch of air device 12 simultaneously closes bottom quantity switch of air device 11, and outdoor wind passes through system return table from the first air intake port 4 Facial heat-exchanger rig 24 enters air compartment 7, and outdoor wind is by the water cooling in system return surface-type heat-exchanger rig 24, outdoor wind afterwards Exhausting duct 8 is entered by top quantity switch of air device 12 and refrigerating plant top air inlet 9, drains into outdoor through exhausting duct 8.

It is further described to the five of technical solution of the present invention with reference to embodiment and accompanying drawing：

Embodiment 6：As shown in Figure 2, this multi-mode operation sweat cooling for the using method of water-cooling device is：Under unlatching Portion's quantity switch of air device 11 simultaneously closes top quantity switch of air device 12, by opening the first quantity switch of air device 23, makes outdoor wind Enter air compartment 7 and pass through system return surface-type heat-exchanger rig 24, outdoor wind is cooled down by system return surface-type heat-exchanger rig 24, Outdoor wind after cooling down afterwards passes through bottom quantity switch of air device 11 and refrigerating plant bottom air inlet 6 enters sweat cooling filler 13, the shower water spraying with spray equipment 14 in sweat cooling filler 13 occurs caloic to exchange, and the cold water of preparation falls into circulation Water tank 15, drains into outdoor by the air of sweat cooling filler 13 through exhausting duct 8.

Embodiment 7：As shown in Figure 3, this multi-mode operation sweat cooling for the using method of water-cooling device is：Under unlatching Portion's quantity switch of air device 11 simultaneously closes top quantity switch of air device 12, by opening the second quantity switch of air device 22, outdoor wind quilt System return surface-type heat-exchanger rig 24 cools down, and the outdoor wind after cooling down afterwards passes through bottom quantity switch of air device 11 and refrigeration dress Put bottom air inlet 6 and enter sweat cooling filler 13, the shower water being sprayed with spray equipment 14 in sweat cooling filler 13 is sent out Heat mass transter, the cold water of preparation falls into cyclic water tank 15, drains into room by the air of sweat cooling filler 13 through exhausting duct 8 Outward.

It is further described to the six of technical solution of the present invention with reference to embodiment and accompanying drawing：

Embodiment 8：As shown in Figure 2, this multi-mode operation sweat cooling for the using method of water-cooling device is：In unlatching Portion's quantity switch of air device 12 simultaneously closes bottom quantity switch of air device 11, by opening the first quantity switch of air device 23, makes outdoor wind Enter air compartment 7 and pass through system return surface-type heat-exchanger rig 24, outdoor wind is by system return surface-type heat-exchanger rig 24 Water cooling, outdoor wind passes through top quantity switch of air device 12 and refrigerating plant top air inlet 9 enters exhausting duct 8 afterwards, passes through Exhausting duct 8 drains into outdoor.

Embodiment 9：As shown in Figure 3, this multi-mode operation sweat cooling for the using method of water-cooling device is：In unlatching Portion's quantity switch of air device 12 simultaneously closes bottom quantity switch of air device 11, by opening the first quantity switch of air device 23, makes outdoor wind Enter air compartment 7 and pass through system return surface-type heat-exchanger rig 24, outdoor wind is by system return surface-type heat-exchanger rig 24 Water cooling, outdoor wind passes through top quantity switch of air device 12 and refrigerating plant top air inlet 9 enters exhausting duct 8 afterwards, passes through Exhausting duct 8 drains into outdoor.

It is further described to the seven of technical solution of the present invention with reference to embodiment and accompanying drawing：

Embodiment 10：As shown in Figure 2, this multi-mode operation sweat cooling for the using method of water-cooling device is：Open Bottom quantity switch of air device 11 simultaneously closes top quantity switch of air device 12, by opening the second quantity switch of air device 22, makes outdoor Wind enters air compartment 7 and does not pass through system return surface-type heat-exchanger rig 24, and outdoor wind passes through bottom quantity switch of air device 11 afterwards Enter sweat cooling filler 13 with refrigerating plant bottom air inlet 6, spray with spray equipment 14 in sweat cooling filler 13 Shower water occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank 15, by the air of sweat cooling filler 13 through air draft Road 8 drains into outdoor.

Embodiment 11：As shown in Figure 3, this multi-mode operation sweat cooling for the using method of water-cooling device is：Open Bottom quantity switch of air device 11 simultaneously closes top quantity switch of air device 12, by opening the first quantity switch of air device 23, makes outdoor Wind enters air compartment 7 and does not pass through system return surface-type heat-exchanger rig 24, and outdoor wind passes through bottom quantity switch of air device 11 afterwards Enter sweat cooling filler 13 with refrigerating plant bottom air inlet 6, spray with spray equipment 14 in sweat cooling filler 13 Shower water occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank 15, by the air of sweat cooling filler 13 through air draft Road 8 drains into outdoor.

It is further described to the two of technical solution of the present invention with reference to embodiment and accompanying drawing：

Embodiment 12：As shown in Figure 4, this multi-mode operation sweat cooling includes evaporation-refrigeration device 2 for water-cooling device, Described evaporation-refrigeration device 2 include sweat cooling filler 13, spray equipment 14, cyclic water tank 15, water circulating pump 18, exhausting duct 8, Refrigerating plant bottom air inlet 6, has air compartment 7 outside the corresponding evaporation-refrigeration device 2 of its refrigerating plant bottom air inlet 6, First air intake port 4 is arranged at the bottom of air compartment 7, evaporation-refrigeration device 2 is communicated with air compartment 7 and the refrigerating plant of exhausting duct 8 Portion's air inlet 9, the first air intake port 4 is communicated with refrigerating plant bottom air inlet 6 by air compartment 7, and wind is passed through in the first air intake port 4 Room 7 is communicated with refrigerating plant top air inlet 9；Refrigerating plant bottom air inlet 6 is provided with bottom quantity switch of air device 11, refrigeration Device top air inlet 9 is provided with top quantity switch of air device 12；Water circulating pump 18 outlet is provided with can be with user's heat-exchange end 20 pumping lines being connected；Self-loopa surface-type heat-exchanger rig 3 is installed in air compartment 7；In self-loopa surface-type heat exchange dress Put and the water pump return pipe 25 being connected with water circulating pump outlet is installed on 3, self-loopa surface-type heat-exchanger rig 3 is pacified Equipped with the self-loopa backwater spray header 26 being connected with spray equipment 14, spray equipment 14 has can be with user's heat-exchange end 20 The user's heat-exchange end return pipe 17 being connected.

Embodiment 12 is with the difference of embodiment 1：Install on the self-loopa surface-type heat-exchanger rig 3 of embodiment 12 There is the water pump return pipe 25 being connected with water circulating pump 18 outlet, self-loopa surface-type heat-exchanger rig 3 is provided with energy The self-loopa backwater spray header 26 being connected with spray equipment 14, spray equipment 14 is had and can be connected with user's heat-exchange end 20 User's heat-exchange end return pipe 17.During work：Moisture in the cyclic water tank 15 of unit is two parts, and a part supply user change Hot junction 20, another part is supplied from circulating surface-type heat-exchanger rig 3, the backwater of user's heat-exchange end 20 and self-loopa surface-type heat exchange The water inlet of the spray equipment 14 of the water outlet of device 3 and unit communicates.With being distinguished as of Fig. 1：The self-loopa surface of embodiment 12 Recirculated water in formula heat-exchanger rig 3 is unit self-circulating water, and water temperature is less than in system return surface-type heat-exchanger rig 24 in Fig. 1 Recirculated water, the water temperature of the cold water therefore produced is generally below the leaving water temperature of unit in Fig. 1.

Embodiment 13：As shown in figs. 4 and 5, it is with the difference of embodiment 12：Peace in the air compartment 7 of embodiment 13 Equipped with system return surface-type heat-exchanger rig 24, and the waterway channel of system return surface-type heat-exchanger rig 24 and user's heat exchange End return pipe 17 is serially connected.During work：System return surface-type heat exchanger is first passed through by the backwater of user's heat-exchange end 20 24, the water inlet of the water outlet of system return surface-type heat exchanger 24 and self-loopa surface-type heat exchanger 3 and the spray equipment 14 of unit Mouth communicates, and outdoor air first passes through system return surface-type heat exchanger 24 after cooling down by self-loopa surface-type heat exchanger 3 Enter through in refrigerating plant bottom air inlet entrance sweat cooling filler 13 and shower water carries out caloic exchange and produces cold water, real Apply being distinguished as of example 13 and embodiment 12, the air of the outdoor of embodiment 13 first passes through the cold of system return surface-type heat exchanger 24 But after, in the cooling by self-loopa surface-type heat exchanger 3, meet the Optimized Matching principle of energy utilization, outdoor high temperature is empty Gas first passes through high-temperature water cooling, and in the cooling through water at low temperature, the cold water that unit is produced first passes through the heat exchange of user's heat-exchange end 20, In the heat exchange by system return surface-type heat exchanger 24, sufficiently make use of the cold of the cold water that unit produces, therefore more Energy-conservation.

Above technical characteristic constitutes embodiments of the invention, and it has stronger adaptability and implementation result, can basis It is actually needed the non-essential technical characteristic of increase and decrease, to meet the demand of different situations.

Claims (33)

1. a kind of multi-mode operation sweat cooling supplies water-cooling device, and it includes evaporation-refrigeration device, described evaporation-refrigeration device bag Include sweat cooling filler, spray equipment, cyclic water tank, water circulating pump, exhausting duct, refrigerating plant bottom air inlet, its feature exists There is air compartment outside the corresponding evaporation-refrigeration device of refrigerating plant bottom air inlet, have the first air intake in the bottom of air compartment Mouthful, evaporation-refrigeration device is communicated with the refrigerating plant top air inlet of air compartment and exhausting duct, wind is passed through in the first air intake port Room is communicated with refrigerating plant bottom air inlet, and the first air intake port is communicated with refrigerating plant top air inlet by air compartment；Refrigeration Device bottom air inlet is provided with bottom quantity switch of air device, and refrigerating plant top air inlet is provided with top quantity switch of air dress Put；Water circulating pump outlet is provided with the pumping line being connected with user's heat-exchange end；System return is installed in air compartment Surface-type heat-exchanger rig；The user's heat exchange being connected with user's heat-exchange end is provided with system return surface-type heat-exchanger rig End return pipe, is provided with the system return shower water being connected with spray equipment on system return surface-type heat-exchanger rig Pipe.

2. a kind of multi-mode operation sweat cooling supplies water-cooling device, and it includes evaporation-refrigeration device, described evaporation-refrigeration device bag Include sweat cooling filler, spray equipment, cyclic water tank, water circulating pump, exhausting duct, refrigerating plant bottom air inlet, its feature exists There is air compartment outside the corresponding evaporation-refrigeration device of refrigerating plant bottom air inlet, have the first air intake in the bottom of air compartment Mouthful, evaporation-refrigeration device is communicated with the refrigerating plant top air inlet of air compartment and exhausting duct, wind is passed through in the first air intake port Room is communicated with refrigerating plant bottom air inlet, and the first air intake port is communicated with refrigerating plant top air inlet by air compartment；Refrigeration Device bottom air inlet is provided with bottom quantity switch of air device, and refrigerating plant top air inlet is provided with top quantity switch of air dress Put；Water circulating pump outlet is provided with the pumping line being connected with user's heat-exchange end；Self-loopa table is installed in air compartment Facial heat-exchanger rig；The water pump backwater being connected with water circulating pump outlet is provided with self-loopa surface-type heat-exchanger rig Pipe, is provided with the self-loopa backwater spray header being connected with spray equipment on self-loopa surface-type heat-exchanger rig, spray The user's heat-exchange end return pipe being connected with user's heat-exchange end is had on device.

3. multi-mode operation sweat cooling according to claim 2 for water-cooling device it is characterised in that being provided with air compartment System return surface-type heat-exchanger rig, and the waterway channel of system return surface-type heat-exchanger rig and user's heat-exchange end return pipe It is serially connected.

4. multi-mode operation sweat cooling according to claim 1 supplies water-cooling device it is characterised in that refrigerating plant bottom There is housing, housing constitutes air compartment with the outer wall of evaporation-refrigeration device outside the corresponding evaporation-refrigeration device of air inlet；First enters Wind port is located at the bottom of housing；System return surface-type heat-exchanger rig is arranged on the first air intake port.

5. multi-mode operation sweat cooling according to claim 2 supplies water-cooling device it is characterised in that refrigerating plant bottom There is housing, housing constitutes air compartment with the outer wall of evaporation-refrigeration device outside the corresponding evaporation-refrigeration device of air inlet；First enters Wind port is located at the bottom of housing；Self-loopa surface-type heat-exchanger rig is arranged on the first air intake port.

6. multi-mode operation sweat cooling according to claim 3 supplies water-cooling device it is characterised in that refrigerating plant bottom There is housing, housing constitutes air compartment with the outer wall of evaporation-refrigeration device outside the corresponding evaporation-refrigeration device of air inlet；First enters Wind port is located at the bottom of housing；Self-loopa surface-type heat-exchanger rig or/and system return surface-type heat-exchanger rig are arranged on One air intake port.

7. multi-mode operation sweat cooling according to claim 1 supplies water-cooling device it is characterised in that refrigerating plant bottom There is housing, housing constitutes air compartment with the outer wall of evaporation-refrigeration device outside the corresponding evaporation-refrigeration device of air inlet；First enters Wind port is located at the bottom of housing；System return surface-type heat-exchanger rig keeps flat or tiltedly puts or stand up in air compartment.

8. multi-mode operation sweat cooling according to claim 2 supplies water-cooling device it is characterised in that refrigerating plant bottom There is housing, housing constitutes air compartment with the outer wall of evaporation-refrigeration device outside the corresponding evaporation-refrigeration device of air inlet；First enters Wind port is located at the bottom of housing；Self-loopa surface-type heat-exchanger rig keeps flat or tiltedly puts or stand up in air compartment.

9. multi-mode operation sweat cooling according to claim 3 supplies water-cooling device it is characterised in that refrigerating plant bottom There is housing, housing constitutes air compartment with the outer wall of evaporation-refrigeration device outside the corresponding evaporation-refrigeration device of air inlet；First enters Wind port is located at the bottom of housing；Self-loopa surface-type heat-exchanger rig or/and system return surface-type heat-exchanger rig keep flat or tiltedly Put or stand up in air compartment.

10. the multi-mode operation sweat cooling according to claim 1 or 4 or 7 for water-cooling device it is characterised in that first enters Housing above wind port is provided with the second air intake port, the second air intake port pass through air compartment and refrigerating plant bottom air inlet and Refrigerating plant top air inlet communicates；First air intake port is provided with the first quantity switch of air device, and the second air intake port is provided with Second quantity switch of air device.

The 11. multi-mode operation sweat coolings according to claim 2 or 5 or 8 are for water-cooling device it is characterised in that first enters Housing above wind port is provided with the second air intake port, the second air intake port pass through air compartment and refrigerating plant bottom air inlet and Refrigerating plant top air inlet communicates；First air intake port is provided with the first quantity switch of air device, and the second air intake port is provided with Second quantity switch of air device.

The 12. multi-mode operation sweat coolings according to claim 3 or 6 or 9 are for water-cooling device it is characterised in that first enters Housing above wind port is provided with the second air intake port, the second air intake port pass through air compartment and refrigerating plant bottom air inlet and Refrigerating plant top air inlet communicates；First air intake port is provided with the first quantity switch of air device, and the second air intake port is provided with Second quantity switch of air device.

The 13. multi-mode operation sweat coolings according to claim 1 or 4 or 7 supply water-cooling device it is characterised in that evaporation is made Device for cooling is provided with the refrigerating plant air draft port communicating with exhausting duct, is provided with exhaust blower in refrigerating plant air draft port；Spray Shower device is located above sweat cooling filler, and cyclic water tank is located at below sweat cooling filler, and the outlet of cyclic water tank passes through Radiator drain is communicated with water circulating pump import.

The 14. multi-mode operation sweat coolings according to claim 2 or 5 or 8 supply water-cooling device it is characterised in that evaporation is made Device for cooling is provided with the refrigerating plant air draft port communicating with exhausting duct, is provided with exhaust blower in refrigerating plant air draft port；Spray Shower device is located above sweat cooling filler, and cyclic water tank is located at below sweat cooling filler, and the outlet of cyclic water tank passes through Radiator drain is communicated with water circulating pump import.

The 15. multi-mode operation sweat coolings according to claim 3 or 6 or 9 supply water-cooling device it is characterised in that evaporation is made Device for cooling is provided with the refrigerating plant air draft port communicating with exhausting duct, is provided with exhaust blower in refrigerating plant air draft port；Spray Shower device is located above sweat cooling filler, and cyclic water tank is located at below sweat cooling filler, and the outlet of cyclic water tank passes through Radiator drain is communicated with water circulating pump import.

16. multi-mode operation sweat coolings according to claim 10 supply water-cooling device it is characterised in that sweat cooling fills Put and be provided with the refrigerating plant air draft port communicating with exhausting duct, be provided with exhaust blower in refrigerating plant air draft port；Spray dress It is set in above sweat cooling filler, cyclic water tank is located at below sweat cooling filler, the outlet of cyclic water tank passes through water tank Outlet pipe is communicated with water circulating pump import.

17. multi-mode operation sweat coolings according to claim 11 supply water-cooling device it is characterised in that sweat cooling fills Put and be provided with the refrigerating plant air draft port communicating with exhausting duct, be provided with exhaust blower in refrigerating plant air draft port；Spray dress It is set in above sweat cooling filler, cyclic water tank is located at below sweat cooling filler, the outlet of cyclic water tank passes through water tank Outlet pipe is communicated with water circulating pump import.

18. multi-mode operation sweat coolings according to claim 12 supply water-cooling device it is characterised in that sweat cooling fills Put and be provided with the refrigerating plant air draft port communicating with exhausting duct, be provided with exhaust blower in refrigerating plant air draft port；Spray dress It is set in above sweat cooling filler, cyclic water tank is located at below sweat cooling filler, the outlet of cyclic water tank passes through water tank Outlet pipe is communicated with water circulating pump import.

A kind of 19. multi-mode operation sweat coolings according to claim 1 or 4 or 7 or 10 or 13 or 16 supply water-cooling device Using method it is characterised in that opening bottom quantity switch of air device close top quantity switch of air device, outdoor wind is from first Air intake port enters air compartment by system return surface-type heat-exchanger rig, and outdoor wind is cold by system return surface-type heat-exchanger rig But, the outdoor wind after cooling down afterwards enters sweat cooling by bottom quantity switch of air device and refrigerating plant bottom air inlet and fills out Material, the shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, Outdoor is drained into through exhausting duct by the air of sweat cooling filler.

A kind of 20. multi-mode operation sweat coolings according to claim 2 or 5 or 8 or 11 or 14 or 17 supply water-cooling device Using method it is characterised in that opening bottom quantity switch of air device close top quantity switch of air device, outdoor wind is from first Air intake port enters air compartment by self-loopa surface-type heat-exchanger rig, and outdoor wind is cooled down by self-loopa surface-type heat-exchanger rig, it Outdoor wind after cooling down afterwards passes through bottom quantity switch of air device and refrigerating plant bottom air inlet enters sweat cooling filler, is steaming Sending out the shower water spraying in refrigeration filler with spray equipment occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, by steaming The air sending out refrigeration filler drains into outdoor through exhausting duct.

A kind of 21. multi-mode operation sweat coolings according to claim 3 or 6 or 9 or 12 or 15 or 18 supply water-cooling device Using method it is characterised in that opening bottom quantity switch of air device close top quantity switch of air device, outdoor wind is from first System return surface-type heat-exchanger rig is passed through in air intake port or/and self-loopa surface-type heat-exchanger rig enters air compartment, outdoor wind quilt System return surface-type heat-exchanger rig or/and the cooling of self-loopa surface-type heat-exchanger rig, under the outdoor wind after cooling down afterwards passes through Portion's quantity switch of air device and refrigerating plant bottom air inlet enter sweat cooling filler, in sweat cooling filler and spray equipment The shower water spraying occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, by the air of sweat cooling filler through row Air channel drains into outdoor.

A kind of 22. multi-mode operation sweat coolings according to claim 1 or 4 or 7 or 10 or 13 or 16 supply water-cooling device Using method it is characterised in that opening top quantity switch of air device close bottom quantity switch of air device, outdoor wind is from first Air intake port enters air compartment by system return surface-type heat-exchanger rig, and outdoor wind is by system return surface-type heat-exchanger rig Water cooling, outdoor wind passes through top quantity switch of air device and refrigerating plant top air inlet enters exhausting duct, through air draft afterwards Road drains into outdoor.

A kind of 23. multi-mode operation sweat coolings according to claim 2 or 5 or 8 or 11 or 14 or 17 supply water-cooling device Using method it is characterised in that opening top quantity switch of air device close bottom quantity switch of air device, outdoor wind is from first Air intake port enters air compartment by self-loopa surface-type heat-exchanger rig, and outdoor wind is by the water-cooled in self-loopa surface-type heat-exchanger rig But, outdoor wind passes through top quantity switch of air device and refrigerating plant top air inlet enters exhausting duct afterwards, through exhausting duct row To outdoor.

A kind of 24. multi-mode operation sweat coolings according to claim 3 or 6 or 9 or 12 or 15 or 18 supply water-cooling device Using method it is characterised in that opening top quantity switch of air device close bottom quantity switch of air device, outdoor wind is from first System return surface-type heat-exchanger rig is passed through in air intake port or/and self-loopa surface-type heat-exchanger rig enters air compartment, and outdoor wind will Water cooling in system return surface-type heat-exchanger rig or/and self-loopa surface-type heat-exchanger rig, outdoor wind is by top afterwards Quantity switch of air device and refrigerating plant top air inlet enter exhausting duct, drain into outdoor through exhausting duct.

A kind of 25. multi-mode operation sweat coolings according to claim 10 or 13 or 16 supply the user of water-cooling device Method is it is characterised in that opening bottom quantity switch of air device and closing top quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and pass through system return surface-type heat-exchanger rig, outdoor wind quilt System return surface-type heat-exchanger rig cools down, and the outdoor wind after cooling down afterwards passes through under bottom quantity switch of air device and refrigerating plant Portion's air inlet enters sweat cooling filler, and the shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, The cold water of preparation falls into cyclic water tank, drains into outdoor by the air of sweat cooling filler through exhausting duct.

A kind of 26. multi-mode operation sweat coolings according to claim 11 or 14 or 17 supply the user of water-cooling device Method is it is characterised in that opening bottom quantity switch of air device and closing top quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and pass through self-loopa surface-type heat-exchanger rig, outdoor wind is by certainly Circulation surface-type heat-exchanger rig cooling, the outdoor wind after cooling down afterwards is entered by bottom quantity switch of air device and refrigerating plant bottom Air port enters sweat cooling filler, and the shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, preparation Cold water fall into cyclic water tank, outdoor is drained into through exhausting duct by the air of sweat cooling filler.

A kind of 27. multi-mode operation sweat coolings according to claim 12 or 15 or 18 supply the user of water-cooling device Method is it is characterised in that opening bottom quantity switch of air device and closing top quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and follow by system return surface-type heat-exchanger rig or/and certainly Ring surface formula heat-exchanger rig, outdoor wind is cooled down by system return surface-type heat-exchanger rig or/and self-loopa surface-type heat-exchanger rig, Outdoor wind after cooling down afterwards passes through bottom quantity switch of air device and refrigerating plant bottom air inlet enters sweat cooling filler, The shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, passes through The air of sweat cooling filler drains into outdoor through exhausting duct.

A kind of 28. multi-mode operation sweat coolings according to claim 10 or 13 or 16 supply the user of water-cooling device Method is it is characterised in that opening top quantity switch of air device and closing bottom quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and pass through system return surface-type heat-exchanger rig, outdoor wind will Water cooling in system return surface-type heat-exchanger rig, outdoor wind is by top quantity switch of air device and refrigerating plant top afterwards Air inlet enters exhausting duct, drains into outdoor through exhausting duct.

A kind of 29. multi-mode operation sweat coolings according to claim 11 or 14 or 17 supply the user of water-cooling device Method is it is characterised in that opening top quantity switch of air device and closing bottom quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and by self-loopa surface-type heat-exchanger rig, and outdoor wind will be from Water cooling in circulation surface-type heat-exchanger rig, outdoor wind is by top quantity switch of air device and refrigerating plant top air intake afterwards Mouth entrance exhausting duct, drains into outdoor through exhausting duct.

A kind of 30. multi-mode operation sweat coolings according to claim 12 or 15 or 18 supply the user of water-cooling device Method is it is characterised in that opening top quantity switch of air device and closing bottom quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and follow by system return surface-type heat-exchanger rig or/and certainly Ring surface formula heat-exchanger rig, outdoor wind is by system return surface-type heat-exchanger rig or/and self-loopa surface-type heat-exchanger rig Water cooling, outdoor wind passes through top quantity switch of air device and refrigerating plant top air inlet enters exhausting duct, through air draft afterwards Road drains into outdoor.

A kind of 31. multi-mode operation sweat coolings according to claim 10 or 13 or 16 supply the user of water-cooling device Method is it is characterised in that opening bottom quantity switch of air device and closing top quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and not pass through system return surface-type heat-exchanger rig, rear chamber Exogenous wind passes through bottom quantity switch of air device and refrigerating plant bottom air inlet enters sweat cooling filler, in sweat cooling filler The shower water spraying with spray equipment occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, by sweat cooling filler Air drains into outdoor through exhausting duct.

A kind of 32. multi-mode operation sweat coolings according to claim 11 or 14 or 17 supply the user of water-cooling device Method is it is characterised in that opening bottom quantity switch of air device and closing top quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and not pass through self-loopa surface-type heat-exchanger rig, outdoor afterwards Wind passes through bottom quantity switch of air device and refrigerating plant bottom air inlet and enters sweat cooling filler, in sweat cooling filler with The shower water that spray equipment sprays occurs caloic to exchange, and the cold water of preparation falls into cyclic water tank, by the sky of sweat cooling filler Gas drains into outdoor through exhausting duct.

A kind of 33. multi-mode operation sweat coolings according to claim 12 or 15 or 18 supply the user of water-cooling device Method is it is characterised in that opening bottom quantity switch of air device and closing top quantity switch of air device, by opening the first quantity switch of air Device or the second quantity switch of air device, make outdoor wind enter air compartment and do not pass through system return surface-type heat-exchanger rig or/and from Circulation surface-type heat-exchanger rig, outdoor wind passes through bottom quantity switch of air device and refrigerating plant bottom air inlet enters evaporation afterwards Refrigeration filler, the shower water spraying with spray equipment in sweat cooling filler occurs caloic to exchange, and the cold water of preparation falls into and follows Ring water tank, drains into outdoor by the air of sweat cooling filler through exhausting duct.