CN110044061A - Heat-exchange system and air-conditioning system - Google Patents

Abstract

The present invention relates to technical field of heat exchange, disclose a kind of heat-exchange system, it include: fan, condenser, water cooling plant and heat-dissipating pipe, the heat-dissipating pipe runs through the water cooling plant and condenser, the first end of heat-dissipating pipe is pierced by from the water cooling plant, and second end is pierced by from condenser, and the fan is between condenser and water cooling plant, the water cooling plant is located at the inlet air side of fan, and the condenser is located at the air side of fan.Also disclose a kind of air-conditioning system.By in heat-exchange system of the invention, water cooling plant is located at the inlet air side of fan, and condenser is located at the air side of fan, and the wind of fan first cools down to water cooling plant, prevents water evaporation very fast, and water temperature is lower after cooling down, and is conducive to water cooling；Wind cools down after water cooling plant, then to condenser, although the temperature of wind slightly increases, but still far below the temperature of condenser (after condenser and heat-dissipating pipe heat exchange, condenser temperature is higher), can cool down to condenser.

Description

Heat-exchange system and air-conditioning system

Technical field

The present invention relates to technical field of heat exchange, in particular to a kind of heat-exchange system and air-conditioning system.

Background technique

Heat-exchange system currently used for air-conditioning is air cooling way either water cooling mostly, is also even if air-cooled and water cooling combines Simple combination or first air-cooled water cooling again or first water cooling are air-cooled again, thoroughly do not reach heat exchange using air-cooled and water cooling To better effect.

Summary of the invention

The present invention proposes a kind of heat-exchange system and air-conditioning system, and air-cooled and water can not thoroughly be utilized in the prior art by solving Cold problem.

A kind of heat-exchange system of the invention, comprising: fan, condenser, water cooling plant and heat-dissipating pipe, the heat-dissipating pipe run through The first end of the water cooling plant and condenser, heat-dissipating pipe is pierced by from the water cooling plant, and second end is pierced by from condenser；

For the fan between condenser and water cooling plant, the water cooling plant is located at the inlet air side of fan, described cold Condenser is located at the air side of fan；Or

For the water cooling plant between fan and condenser, the water cooling plant and condenser are respectively positioned on the outlet air of fan Side；Or

For the condenser between fan and water cooling plant, the water cooling plant and condenser are respectively positioned on the inlet air of fan Side.

Wherein, the water cooling plant includes: drip tray, humidifier and water pump；The water of drip tray is evacuated to by the water pump The humidifier, the heat-dissipating pipe are located above drip tray, and are located at the spray area of humidifier, the first end of heat-dissipating pipe It is pierced by spray area, second end is pierced by after the spray area from condenser, and the humidifier sprays after making water fogging On heat-dissipating pipe.

Wherein, the humidifier includes: atomizer, main pipe and fog-spray nozzle, and the atomizer connects pumping for water pump pipe Water outlet, the main pipe connects the atomizer, and fog-spray nozzle connects the main pipe, for by water mist spray in heat-dissipating pipe On.

Wherein, the water cooling plant further includes cooling container, and one section of the heat-dissipating pipe is located in the cooling container, institute Cooling container is stated equipped with the second leakage hole.

Wherein, the cooling container be can be by moisture storehouse or the water storage container of fragmented storage.

Wherein, the water cooling plant includes: drip tray, humidifier, heat-exchange tube and water pump；The water pump is by drip tray Water be evacuated to one end of the heat-exchange tube, one section of the heat-dissipating pipe covers in the heat-exchange tube, the humidifier position Above drip tray, the other end of the heat-exchange tube connects humidifier.

Wherein, the humidifier includes: main pipe and atomizer, and the main pipe connects the another of the heat-exchange tube One end, atomizer connect the main pipe.

Wherein, the water cooling plant further includes cooling container, and one section of the heat-dissipating pipe is located in the cooling container.

The present invention also provides a kind of air-conditioning systems, comprising: indoor unit, outdoor unit and heat exchange as described in any one of the above embodiments System, the capillary of the first end connection air-conditioning of the heat-dissipating pipe, second end connection are located at the compressor in outdoor unit, the room The condensate pipe of interior machine is connected to the cooling device.

Wherein, the reflux line that the indoor unit is back to holding vessel in outdoor unit wraps up the capillary and/or heat dissipation Pipe；Or condensate pipe wraps up the capillary and/or heat-dissipating pipe.

By in heat-exchange system of the invention, water cooling plant is located at the inlet air side of fan, and condenser is located at the air side of fan, The wind of fan first cools down to water cooling plant, prevents water evaporation very fast, and water temperature is lower after cooling down, and is conducive to water cooling；Wind passes through After water cooling plant, then to condenser cool down, although the temperature of wind slightly increases, but still far below condenser (condenser and dissipate After heat pipe heat exchanging, condenser temperature is higher) temperature, can cool down to condenser.

Detailed description of the invention

In order to more clearly explain the embodiment of the invention or the technical proposal in the existing technology, to embodiment or will show below There is attached drawing needed in technical description to be briefly described, it should be apparent that, the accompanying drawings in the following description is only this Some embodiments of invention without any creative labor, may be used also for those of ordinary skill in the art To obtain other drawings based on these drawings.

Fig. 1 is a kind of structural schematic diagram of heat-exchange system of the invention；

Fig. 2 is the structural schematic diagram of cooler pan in Fig. 1；

Fig. 3 is a kind of structural schematic diagram of air-conditioning system of the invention；

Fig. 4 is the structural schematic diagram of another heat-exchange system of the invention；

Fig. 5 is a kind of structural schematic diagram of cooling container in Fig. 4；

Fig. 6 is the structural schematic diagram of another cooling container in Fig. 4；

Fig. 7 is the structural schematic diagram of another air-conditioning system of the invention；

Fig. 8 is the structural schematic diagram of another heat-exchange system of the invention.

Specific embodiment

Following will be combined with the drawings in the embodiments of the present invention, and technical solution in the embodiment of the present invention carries out clear, complete Site preparation description, it is clear that described embodiments are only a part of the embodiments of the present invention, instead of all the embodiments.It is based on Embodiment in the present invention, it is obtained by those of ordinary skill in the art without making creative efforts every other Embodiment shall fall within the protection scope of the present invention.

Heat-exchange system of the invention is as shown in figs. 1 and 3, comprising: fan 6, condenser 14, water cooling plant and heat-dissipating pipe 4 dissipate Heat pipe 4 runs through water cooling plant and condenser 14, and the first end of heat-dissipating pipe 4 is pierced by from water cooling plant, and second end is worn from condenser 14 Out.

For fan 6 between condenser 14 and water cooling plant, water cooling plant is located at the inlet air side of fan 6, and condenser 14 In the air side of fan 6；Or water cooling plant, between fan 6 and condenser 14, water cooling plant and condenser 14 are respectively positioned on The air side of fan 6；Or condenser 14, between fan 6 and water cooling plant, water cooling plant and condenser 14 are respectively positioned on wind The inlet air side of fan, i.e. fan 6 first cool down to water cooling plant, then cool down to condenser 14, and the wind of fan 6 utilizes twice, Er Qiehou Noise is smaller when the set-up mode fan 6 of two kinds of fans 6 works, and quietness is more preferable.

By in heat-exchange system of the invention, water cooling plant is located at the inlet air side of fan 6, and condenser 14 is located at the outlet air of fan Side, the wind of fan first cool down to water cooling plant, prevent water evaporation very fast, and water temperature is lower after cooling down, and is conducive to water cooling；Wind warp After crossing water cooling plant, then cool down to condenser 14, although the temperature of wind slightly increases, but still far below the (condensation of condenser 14 After device 14 and heat-dissipating pipe 4 exchange heat, 4 temperature of condenser is higher) temperature, can cool down to condenser 4.

The heat-exchange system of the first embodiment of the present invention is as shown in Figure 1, water cooling plant includes: cooler pan 1, drip tray 2, water Cooling body 5 (form that water-cooled body 5 is the stacking of several cooling fins) and water pump 7.Water-cooled body is located on drip tray 2 Side, water-cooled body are located at the inlet air side of fan 6, and cooler pan 1 is located above water-cooled body, are equipped in cooler pan 1 continuous Runner, heat-dissipating pipe 4 pass through runner, enter condenser 14 after being pierced by cooler pan 1, cooler pan 1 is equipped with the first leakage hole 10, water pump 7 It is mounted on 2 side of drip tray, the water of drip tray 2 is evacuated on cooler pan 1 positioned at heat-dissipating pipe 4 at by water pump 7, specifically, The water sucking mouth of the drinking-water pipe 8 of water pump connects drip tray 2, water outlet with being connected at the entrance of heat-dissipating pipe 4 on cooler pan 1.

The cooler pan 1 of the heat-exchange system of embodiment is connected to condensate pipe, is exchanged heat by condensed water to heat-dissipating pipe 4 Cooling, the water after heat exchange flows into drip tray 2 after water-cooled body is cooling, and the cold water in drip tray 2 is evacuated to cold by water pump 7 again But disk 1 cools down heat-dissipating pipe 4, realizes and utilizes to condensate water circulatory, reaches to the optimal cooling effect of heat-dissipating pipe 4.

As shown in Fig. 2, several partitions 12 are equipped in cooler pan 1, and to form continuous S-shaped runner in cooler pan 1, heat dissipation Pipe 4 is located in continuous S-shaped runner, and the place of entrance that heat-dissipating pipe 4 is located in the outlet of the drinking-water pipe 8 of water pump 7 and cooler pan 1 connects Logical, what water pump 7 was pumped from drip tray 2 is cold water, and the outlet of drinking-water pipe 8 is located at heat-dissipating pipe 4 into cooler pan 1 at, So that cold water cools down heat-dissipating pipe 4 along runner from the section start of continuous S-shaped runner, and cooling path length, good cooling results. It can certainly be the serpentine flow path spiraled.

In the present embodiment, the cooling fin of water-cooled body 5 is obliquely installed, and the first leakage hole 11 of cooler pan 1 is located at water cooling But the top of 5 highest point of mechanism, and each cooling fin is connected by connecting tube 20.Relative to the mode being vertically arranged, inclination It is arranged so that having longer water route for water-cooled by the water that heat-dissipating pipe 4 heats, water flow is more uniform, after the heat exchange of cooler pan 1 Water flow down from 5 highest point of water-cooled body, by entire water-cooled body 5, extend heat-exchange time, make heat exchange after water Cooling is more thorough.And cooling fin is obliquely installed, and in the identical situation of fin length, the cabinet of outdoor machine of air-conditioner can be made It is smaller, save installation space.

In the present embodiment, it is also provided with fin structure on the cooling fin of water-cooled body 5, increases connecing for water and cooling fin Contacting surface product, heat transfer effect are more preferable.

The heat-exchange system of the present embodiment further includes the cooling container 3 positioned at 1 top of cooler pan, and the first end of heat-dissipating pipe 4 is worn Enter cooler pan 1 after supercooling container 3, cooling container 3 is equipped with the second leakage hole 9.Condensed water enters cooling container 3, and passes through Second leakage hole 9 flows into cooler pan 1.As shown in Figure 1, heat-dissipating pipe 4 is introduced into cooling container 3, entered back into after supercooling container 3 Cooler pan 1, and it is pierced by cooler pan 1, by a cooling path as long as possible, reach best cooling effect.Cooling container 3 can To be cooling bath as shown in Figure 1, it is also possible to the structures such as cooling tube.

The second embodiment of the present invention provides a kind of air-conditioning system, as shown in Figure 3, comprising: indoor unit 13, outdoor unit and Above-mentioned heat-exchange system, wherein heat-exchange system can be set in outdoor unit as existing air-conditioning, include: pressure in outdoor unit Contracting machine 15, holding vessel 16 (for storing freon), indoor unit 13 connect holding vessel 16 by reflux line 17, and capillary 18 connects The evaporator and compressor 15 of logical indoor unit 13, capillary connect the evaporator in indoor unit 13 by thicker branch pipe 19.This In embodiment, the capillary 18 of the first end connection air-conditioning of heat-dissipating pipe 4, second end is connected to by the condenser 14 in outdoor unit The condensate pipe 20 of compressor 15, indoor unit 13 is connected to cooler pan 1, indoor unit 13 be equipped with water filling port 21, water filling port 21 with Condensate pipe 20 is connected to, and adds water cooling when air-conditioning just brings into operation.

Fan 6 and condenser 14 carry out air-cooled, progress cooling for the first time to heat-dissipating pipe 4, air-cooled to drop to condenser 14 Temperature takes away a part of heat of heat-dissipating pipe 4, since the temperature of heat-dissipating pipe 4 decreases, in the mistake of the cooling heat-dissipating pipe 4 of condensed water Condensate evaporation is slower in journey, avoids subsequent hydropenic problem.Heat-dissipating pipe 4 enters 1 water of cooler pan after coming out from condenser 14 It is cold, second of cooling is carried out, can also pass into cooling 3 water cooling of container, it is cooling to carry out third time.Water cooling land productivity to greatest extent twice With the condensed water of air-conditioning itself, cooling effect is greatly improved compared with the existing technology, and air conditioning energy consumption is greatly reduced.

In the present embodiment, indoor unit 13 be back to holding vessel 16 in outdoor unit reflux line 17 wrap up capillary 18 and/ Or heat-dissipating pipe 4.It is low temperature Freon gas in reflux line 17, low temperature Freon gas is further cooling to capillary 18, into One step reduces air conditioning energy consumption.Certainly it can also be that condensate pipe 20 wraps up the capillary/or heat-dissipating pipe 4；Or condensate pipe Wrap up the capillary and wherein one section of heat-dissipating pipe.

The third embodiment of the present invention provides a kind of heat-exchange system, as shown in figure 4, water-cooling apparatus includes: drip tray 2, heat-dissipating pipe 4, fan 6, humidifier and water pump 7.Water in drip tray 2 is evacuated to humidifier by water pump 7, specifically, water pump 7 The water sucking mouth of drinking-water pipe 8 connect drip tray 2, water outlet connects humidifier, and heat-dissipating pipe 4 is located above drip tray 3, and is located at The spray area of humidifier, the first end of heat-dissipating pipe 4 are pierced by spray area, and second end is after the spray area from condensation Device 14 is pierced by, and humidifier is sprayed on heat-dissipating pipe 4 after making water fogging.It is exchanged heat by water mist and heat-dissipating pipe 4, through heat-dissipating pipe Drip tray 2 is dropped downward into after 4 heat exchange, cooling is very fast after water becomes mist, and lower temperature can be reduced to before falling into drip tray 2 Degree.

The drip tray 2 of the heat-exchange system of the present embodiment is connected to condensate pipe, and condensed water is evacuated to atomizer by water pump 7 The water mist of structure, atomization cools down heat-dissipating pipe 4, and cooling is very fast after water becomes mist, can be reduced to before falling into drip tray 2 Lower temperature is realized and is utilized to condensate water circulatory, reaches to the optimal cooling effect of heat-dissipating pipe 4.

The humidifier includes: atomizer 22, main pipe 23 and fog-spray nozzle 24, and atomizer 22 connects the drinking-water pipe of water pump 7 Water outlet, for water to be become water mist, main pipe 23 connects atomizer 22, spraying for conducting water mist to fog-spray nozzle 24 First 24 connection main pipe 23, for, in heat-dissipating pipe 4, multiple intervals of fog-spray nozzle 24 to be arranged, so that spray area by water mist spray It is larger, it is sufficient to cover heat-dissipating pipe 4.

Water cooling plant further includes cooling container 3, and one section of heat-dissipating pipe 4 is located in cooling container 3, and cooling container 3 is equipped with the Two leakage holes 9.Condensed water enters cooling container 3, and flows into drip tray 2 by the second leakage hole 9.As shown in figure 4, heat-dissipating pipe 4 It is introduced into cooling container 3, reaches best cooling effect by a cooling path as long as possible using spray area.It is cold But container 3 can be cooling bath as shown in Figure 4, be also possible to the structures such as cooling tube.

In the present embodiment, cooling container 3 is can be by the water storage container of moisture storehouse section storage, the first storehouse of water storage container and second There is an insulating course in storehouse, and the second storehouse is flowed to after the first Cang Shui is full, flows to third storehouse after the second Cang Shui is full, due to there is insulating course, When water is inadequate, there is no heat to transmit by adjacent two Cang Shui, and water temperature has levels, and the effect of heat dissipation is more preferable.

As shown in figure 5, water storage container can be waveform pipe (or several U-tubes are sequentially communicated and arrange), Mei Yiduan Corrugated pipes are with water storehouse, and waveform pipe one end is water inlet, and the other end is second leakage hole (i.e. water outlet), heat-dissipating pipe 4 are located in waveform pipe.

It is formed as shown in fig. 6, water storage container can also be arranged in the way of reducing step by step by several water storage disks, each water storage Disk is a water storehouse, and heat-dissipating pipe 4 can successively be passed through each water storage disk by S-shaped.The fourth embodiment of the present invention provides a kind of sky Adjusting system, as shown in fig. 7, comprises: indoor unit 13, outdoor unit and above-mentioned heat-exchange system, wherein heat-exchange system can be set It include: compressor 15, holding vessel 16 (for storing freon), indoor unit in outdoor unit as existing air-conditioning, in outdoor unit 13 connect holding vessel 16 by reflux line 17, and capillary 18 is connected to the evaporator and compressor 15 of indoor unit 13, and capillary is logical Cross the evaporator in the thicker connection indoor unit 13 of branch pipe 19.In the present embodiment, the capillary of the first end connection air-conditioning of heat-dissipating pipe 4 Pipe 18, second end are connected to compressor 15 by the condenser 14 in outdoor unit, and the condensate pipe 20 of indoor unit 13 connects heat dissipation Pipe import 22, indoor unit 13 are equipped with water filling port 21, and water filling port 21 is connected to condensate pipe 20, just when air-conditioning just brings into operation Yu Jiashui is cooling.

Fan 6 and condenser 14 carry out air-cooled, progress cooling for the first time to heat-dissipating pipe 4, air-cooled to drop to condenser 14 Temperature takes away a part of heat of heat-dissipating pipe 4, since the temperature of heat-dissipating pipe 4 decreases, the condensed water in condensed water cooling procedure Evaporation is slower, avoids the hydropenic problem of subsequent condensation.Heat-dissipating pipe 4 enters spray area after coming out from condenser 14 and carries out water Cold, i.e., second cooling.Third time water cooling is carried out using cooling container 3 later.Water cooling has maximally utilised air-conditioning certainly The condensed water of body, cooling effect greatly improves compared with the existing technology, and air conditioning energy consumption is greatly reduced.

In the present embodiment, indoor unit 13 be back to holding vessel 16 in outdoor unit reflux line 17 wrap up capillary 18 and/ Or heat-dissipating pipe 4.It is low temperature Freon gas in reflux line 17, low temperature Freon gas is further cooling to capillary 18, into One step reduces air conditioning energy consumption.Certainly it can also be that condensate pipe 20 wraps up the capillary 18 and/or heat-dissipating pipe 4；Or condensation Water pipe 20 wraps up capillary 18 and wherein one section of heat-dissipating pipe 4.

The fifth embodiment of the present invention provides a kind of heat-exchange system, as shown in figure 8, water-cooling apparatus includes: drip tray 2, humidifier, heat-exchange tube 25 and water pump 7；The water of drip tray 2 is evacuated to one end of heat-exchange tube 25 by water pump 7, heat-dissipating pipe 4 One section covers in heat-exchange tube 25, and humidifier is located at 2 top of drip tray, and the other end of heat-exchange tube 25 connects humidifier. The drip tray 2 of the heat-exchange system of the present embodiment is connected to condensate pipe, and condensed water is evacuated to heat-exchange tube 25 by water pump 7, is exchanged heat Water afterwards is cooling very fast after being atomized by humidifier, and lower temperature can be reduced to before falling into drip tray 2, is realized simultaneously Condensate water circulatory is utilized, is reached to the optimal cooling effect of heat-dissipating pipe 4.

In the present embodiment, humidifier includes: main pipe 23 and atomizer 24, and main pipe 23 connects heat-exchange tube 25 The other end, atomizer 24 connect main pipe 23, and atomizer 24 is sprayed onto drip tray 2 after making water fogging.

Water cooling plant further includes cooling container 3, and one section of heat-dissipating pipe 3 is located in cooling container 3.Condensed water enters cooling appearance Device 3 overflows after water is full and flows into drip tray 2.As shown in figure 8, heat-dissipating pipe 4 is introduced into cooling container 3, using heat-exchange tube 25. Cooling container 3 can be cooling bath as shown in Figure 8, be also possible to the structures such as cooling tube.It can also be that third of the present invention is implemented The water storage container of moisture storehouse section storage in example, specific structure refer to 3rd embodiment and Figures 5 and 6, and details are not described herein again.

The foregoing is merely presently preferred embodiments of the present invention, is not intended to limit the invention, it is all in spirit of the invention and Within principle, any modification, equivalent replacement, improvement and so on be should all be included in the protection scope of the present invention.

Claims (10)

1. a kind of heat-exchange system characterized by comprising fan, condenser, water cooling plant and heat-dissipating pipe, the heat-dissipating pipe pass through The water cooling plant and condenser are worn, the first end of heat-dissipating pipe is pierced by from the water cooling plant, and second end is pierced by from condenser；

For the fan between condenser and water cooling plant, the water cooling plant is located at the inlet air side of fan, the condenser Positioned at the air side of fan；Or

For the water cooling plant between fan and condenser, the water cooling plant and condenser are respectively positioned on the air side of fan； Or

For the condenser between fan and water cooling plant, the water cooling plant and condenser are respectively positioned on the inlet air side of fan.

2. such as heat-exchange system in claim 1, which is characterized in that the water cooling plant includes: drip tray, humidifier and water Pump；The water of drip tray is evacuated to the humidifier by the water pump, and the heat-dissipating pipe is located above drip tray, and is located at spraying machine The spray area of structure, the first end of heat-dissipating pipe are pierced by spray area, and second end is pierced by after the spray area from condenser, The humidifier is sprayed on heat-dissipating pipe after making water fogging.

3. heat-exchange system as claimed in claim 2, which is characterized in that the humidifier includes: atomizer, main pipe and spray Mist head, the water outlet of atomizer connection pumping for water pump pipe, the main pipe connect the atomizer, described in fog-spray nozzle connection Main pipe is used for water mist spray in heat-dissipating pipe.

4. heat-exchange system as claimed in claim 2 or claim 3, which is characterized in that the water cooling plant further includes cooling container, described One section of heat-dissipating pipe is located in the cooling container, and the cooling container is equipped with the second leakage hole.

5. such as heat-exchange system in claim 4, which is characterized in that the cooling container is can be by the storage of moisture storehouse or fragmented storage Water container.

6. such as heat-exchange system in claim 1, which is characterized in that the water cooling plant includes: drip tray, humidifier, heat friendship Change pipe and water pump；The water of drip tray is evacuated to one end of the heat-exchange tube by the water pump, and one section of the heat-dissipating pipe is covered in institute It states in heat-exchange tube, the humidifier is located above drip tray, and the other end of the heat-exchange tube connects humidifier.

7. heat-exchange system as claimed in claim 6, which is characterized in that the humidifier includes: main pipe and atomizer, The main pipe connects the other end of the heat-exchange tube, and atomizer connects the main pipe.

8. heat-exchange system as claimed in claims 6 or 7, which is characterized in that the water cooling plant further includes cooling container, described One section of heat-dissipating pipe is located in the cooling container.

9. a kind of air-conditioning system characterized by comprising indoor unit, outdoor unit and as described in any one of claim 1~8 Heat-exchange system, the heat-dissipating pipe first end connection air-conditioning capillary, second end connection be located at outdoor unit in compressor, The condensate pipe of the indoor unit is connected to the cooling device.

10. air-conditioning system as claimed in claim 9, which is characterized in that the indoor unit is back to holding vessel in outdoor unit Reflux line wraps up the capillary and/or heat-dissipating pipe；Or condensate pipe wraps up the capillary and/or heat-dissipating pipe.