CN204593660U - Carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device - Google Patents

Abstract

The utility model relates to and carries Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, comprise without auxiliary heat dissipation and the cold or heat source unit of heat-obtaining device, new wind-heat wet process unit, mixed wind-heat wet process unit and heat recovery units.The cold-peace heat that this all-air conditioning unit completes required for whole air handling process self provides by this unit, and the heat radiation carried by unit or heat-obtaining device solve heat radiation in summer or winter heat-obtaining problem, without the need to external auxiliary heat radiation or heat-obtaining device.Compare traditional central air conditioner system, concentrated cold or heat resource equipment, cold or thermal source machine room, external heat radiation or heat-obtaining device, cold or thermal source can be save to the distributing system between air-conditioner set or other air-treatment end, cold or thermal source to the distributing system between heat radiation or heat-obtaining device, save whole air-conditioning system transmission & distribution energy consumptions simultaneously, realize effect that is significantly energy-conservation and saving area.

Description

Carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device

Technical field

The utility model relates to air-conditioner set technical field, especially a kind ofly carries Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device.

Background technology

At present, traditional air conditioner industry faces two great development and technological challenge:

(1) energy-saving and emission-reduction.Building energy consumption and industrial energy consumption are two large links of Chinese society energy consumption, wherein air conditioning energy consumption be and account for 30% of building energy consumption, about 20% of industrial project energy consumption, the energy consumption therefore reducing air-conditioning system is the importance of energy-saving and emission-reduction work.

In traditional air-conditioning system, the official website water distribution system energy consumption be responsible for cold is carried accounts for about 25% of system total energy consumption, heat radiation or heat-obtaining device (heat radiation in summer general cooling tower, air cooling module etc., winter, heat-obtaining generally used energy tower, air-cooled heat pump etc.) energy consumption accounts for about 5% of system energy consumption, how significantly can reduce these two energy consumptions, be key and the focus place of air conditioner system energy saving research.

(2) air-conditioning equipment takies that construction area is large, system flow is too complicated.First, be limited to current technical merit, the effective usable floor area of reality of civil buildings, industrial project is about 75 ~ 85%, and wherein air-conditioning system occupies the construction area (concentrating Cooling and Heat Source machine room and Air Conditioning Facilities to occupy more construction area and space) of 8 ~ 12%; The second, traditional air-conditioning system technological process is complicated, and distributing system is many, also takies certain construction area; 3rd, conventional central air-conditioning must comprise the links such as concentrated Cooling and Heat Source, distributing system, air-conditioner set, air conditioning terminal, mechanism exists equipment link many, the problems such as equipment dispersion, construction complexity, long construction period, operational management complexity.

Traditional all-air air conditioning system is made up of low-temperature receiver and thermal source, cold-peace hot water distributing system, full air unit, tail end air port device and automatic control system.The major technology bottleneck of this kind of air-conditioning system is:

Concentrated low-temperature receiver and heat resource equipment must be had, have that there is load subregion, the problem of subregion system fading margin difficulty when not having a load, under air-conditioning equipment (mainly Cooling and Heat Source equipment, circulating pump etc.) operates in inefficient state in this case, above-mentioned is exactly that why very high conventional air conditioning system energy consumption is and be difficult to a mechanistic defect reducing---and namely can not adapt to only have local to have the demand operating mode of air-conditioning, heating; The cold water from concentrated cold-peace thermal source to air-conditioner set and hot water distributing system (circulating pump, water collecting and diversifying device and water lines) must be had, General System also need from cold-peace thermal source machine room to heat radiation or heat-obtaining device with water distributing system (circulating pump, water collecting and diversifying device and water lines), distributing system is complicated, therefore there is transmission & distribution energy consumption large.

Adopt the low-temperature receiver concentrated and thermal source, cold-peace hot water distributing system, heat radiation or heat-obtaining use water distributing system, heat radiation or heat-obtaining device time, building must provide certain Cooling and Heat Source machine room area, this directly reduces the availability of construction area; In addition, distributing system also must take certain construction area/space, brings the pump in construction, pipeline construction and debugging problem simultaneously, causes the great in constructing amount and problem of long construction period.

Although be refer to the solution-type air-conditioner set carrying low-temperature receiver and thermal source in the patent of 201410345344.6 at application number, but need use the 4th refrigeration or heating combined equipment to solve the problem of unit heat radiation and heat-obtaining, not only be configured with many equipment integral links such as heat radiation and heat-obtaining water distributing system, heat radiation or heat-obtaining device more, add power consumption, also need to take a large amount of construction area/spaces, complex structure.

Utility model content

The utility model object overcomes the defect that prior art exists, and provides that a kind of energy consumption is low, area occupied is little, and structure simply carries Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device.

The technical scheme realizing the utility model object is: carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, comprise the cold or heat source unit without auxiliary heat dissipation and heat-obtaining device, new wind-heat wet process unit, mixed wind-heat wet process unit and heat recovery units, new wind-heat wet process unit comprises the first refrigeration or heating combined equipment and the 3rd freezes or heating combined equipment, mixed wind-heat wet process unit comprises the second refrigeration or heating combined equipment, first refrigeration or heating combined equipment, second refrigeration or heating combined equipment freezes with the 3rd or heating combined equipment is connected with the cold of heat-obtaining device or heat source unit respectively with without auxiliary heat dissipation, new wind-heat wet process unit is surface contact air heat and wet treatment module or solution-type air heat and wet treatment module.

As prioritization scheme of the present utility model, new wind-heat wet process unit is solution-type air heat and wet treatment module, new wind-heat wet process unit also comprises solution humidifying module, regeneration of waste liquor module and circulation line, solution humidifying module comprises the first heat exchange core body and solution circulation pump, and the first heat exchange core body freezes with first or heating combined equipment is connected; Regeneration of waste liquor module comprises the second heat exchange core body, water compensating valve and solution circulation pump, and water compensating valve is connected with the second heat exchange core body, and the second heat exchange core body freezes with second or heating combined equipment is connected.

As prioritization scheme of the present utility model, first refrigeration or heating combined equipment, second refrigeration or heating combined equipment and the 3rd freezes or heating combined equipment is air-cooled heat exchanger or water-cooled heat exchanger.

As prioritization scheme of the present utility model, mixed wind-heat wet process unit also comprises damping device, and damping device is any one or combination of electric damping device, steam humidifying device, spraying humidifier, ultrasonic humidifier or other damping device.

As prioritization scheme of the present utility model, the first refrigeration or heating combined equipment and the second refrigeration or heating combined equipment, the 3rd refrigeration or heating combined equipment all rely on electric control valve to regulate the flow of the cold-producing medium distributed separately.

As prioritization scheme of the present utility model, heat recovery units is any one or combination in runner heat recovery module, plate-type heat-exchange recycling module, heat pipe-type heat recovery module, solution-type heat recovery module.

The utility model has positive effect: will freeze or heating combined equipment, heat radiation or heat-obtaining device are integrated into and carry Cooling and Heat Source and without in the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, the cold-peace heat that all-air conditioning unit completes required for whole air handling process self provides by this unit, and the heat radiation carried by unit or heat-obtaining device solve heat radiation in summer or winter heat-obtaining problem, without the need to external auxiliary heat radiation or heat-obtaining device (the general cooling tower of heat radiation in summer, air cooling module etc., winter, heat-obtaining generally used energy tower, air-cooled heat pump etc., lower same).Compare traditional central air conditioner system, concentrated cold or heat resource equipment, cold or thermal source machine room, external heat radiation or heat-obtaining device, cold or thermal source can be save to the distributing system between air-conditioner set or other air-treatment end, cold or thermal source to the distributing system between heat radiation or heat-obtaining device, save whole air-conditioning system transmission & distribution energy consumptions simultaneously, solve and concentrate the distribution of hot and cold amount between cold and heat source and air conditioning zoning to regulate difficulty significantly energy-conservation to realize.

Compared with traditional full air unit, of the present inventionly carry Cooling and Heat Source and all-air conditioning unit without auxiliary heat dissipation and heat-obtaining device has following characteristics and feature performance benefit:

1, the present invention construct a kind of newly, the all-air air conditioning system that more simplifies.Traditional all-air air conditioning system, must comprise the equipment such as concentrated cold-peace heat resource equipment, heat radiation or heat-obtaining device, heat radiation or heat-obtaining water distributing system, cold-peace hot water distributing system, all-air conditioning unit.And propose based on the present invention a kind ofly carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, whole air-conditioning system only needs all-air conditioning unit, air-conditioning system greatly simplifies, save concentrated low-temperature receiver and thermal source machine room, save water distributing system, the construction area of about 5% can be saved.

2, significantly construction costs is reduced.Compared with traditional all-air air conditioning system, the transfer pipeline between cold-peace thermal source machine room, cold-peace thermal source machine room to tail end air conditioner unit, cold-peace thermal source machine room can be save to the transfer pipeline between heat radiation and heat-obtaining device, therefore can reduce Civil Cost 1.5-3%, reduce air-conditioning system cost 2-3%.

3, energy-efficient.Without the need to the distributing system between cold-peace thermal source machine room to tail end air conditioner unit and to the distributing system between heat radiation or heat-obtaining device, energy consumption can reduce by more than 15%.

4, construction and installation are simple and efficient.Compared with traditional all-air air conditioning system, cold-peace thermal source machine room, distributing system can be save, air-conditioning system simplify, construction and simple installation quick.

5, owing to adopting salting liquid as working media, principle of its process humidity load determines its humid control, and comparatively conventional air-conditioning process humidity is accurately a lot, and due to this device be humiture independent process, therefore its wind pushing temperature, humidity comparatively conventional air-conditioning is more accurate.

6, air-conditioner control system and automatic building control system is simplified.For air-conditioner control system, owing to only needing to carry out managing concentratedly to " all-air conditioning unit " of the present invention and control, the control system of air-conditioning greatly simplifies.And traditional all-air air conditioning system must to cold-peace heat resource equipment, heat radiation or heat-obtaining device (heat radiation in summer general cooling tower, air cooling module etc., winter, heat-obtaining generally used energy tower, air-cooled heat pump etc.), circulating pump, water collecting and diversifying device and pipeline, all-air conditioning unit etc. control, complexity is much higher than the former.

7, significantly operational management skill difficulty, workload and management cost is reduced.

Accompanying drawing explanation

In order to make content of the present utility model more easily be clearly understood, below according to specific embodiment also by reference to the accompanying drawings, the utility model is described in further detail:

Fig. 1 is this novel structural representation;

Fig. 2 is this novel enforcement illustration.

Wherein: 4, heat recovery units, the 21, first refrigeration or heating combined equipment, the 22, the 3rd refrigeration or heating combined equipment, 31, the second refrigeration or heating combined equipment, 11, compressor, 12, expansion valve, 131, the first main line, the 132, second main line, the 133, the 3rd main line, 134, the 4th main line, the 231, first heat exchange core body, the 241, second heat exchange core body, 242, water compensating valve, 32, damping device, 41, upper hot and humid area core body, 42, lower hot and humid area core body, 6, recuperation of heat plate type heat exchanger.

Detailed description of the invention

As shown in Figure 1, carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, comprise the cold or heat source unit without auxiliary heat dissipation and heat-obtaining device for providing cold or heat for processing new wind and mixed wind-heat humidity load, the new wind-heat wet process unit of wet process of lowering the temperature to new wind, dehumidify, heat, add and can lower the temperature to mixed wind, mixed wind-heat wet process unit and the heat recovery units of the wet process that dehumidifies, heats, adds.

Wherein, cold or heat source unit without auxiliary heat dissipation and heat-obtaining device comprises compressor 11, expansion valve 12 and refrigerant circulation line, refrigerant circulation line comprises the first main line 131, second main line 132, 3rd main line 133 and the 4th main line 134, first main line 131 is connected with the input of the first link of new wind-heat wet process unit by the first cold-producing medium input branch road, the output of the first link of new wind-heat wet process unit is connected with the input of compressor 11 by the second main line 132, first main line 131 is connected with mixed wind-heat wet process unit by the 3rd cold-producing medium input branch road, the cold-producing medium flowed back to from mixed wind-heat wet process unit flows into the second main line 132 by the 3rd cold-producing medium output branch road.

The output of compressor 11 connects the 3rd main line 133,3rd main line 133 is connected with the input of the second link of new wind-heat wet process unit by second refrigerant input branch road, the output of the second link of new wind-heat wet process unit exports branch road by second refrigerant and is connected with the 4th main line 134, and the 4th main line 134 is connected with the first main line 131 by expansion valve 12.

New wind-heat wet process unit is that solution-type air heat and wet treatment module comprises the first refrigeration or heating combined equipment 21, the 3rd refrigeration or heating combined equipment 22, solution humidifying module, regeneration of waste liquor module, circulation line.Solution humidifying module comprises the first heat exchange core body 231, the salting liquid that first heat exchange core body 231 freezes with first or heating combined equipment 21 flows out is connected, regeneration of waste liquor module comprises the second heat exchange core body 241 and water compensating valve 242, water compensating valve 242 to the moisturizing of regeneration of waste liquor module to control the concentration of solution; First refrigeration or heating combined equipment 21 are positioned on the first link of new wind-heat wet process unit, and the first refrigeration or heating combined equipment 21 are connected with the salting liquid flowed out in solution humidifying module.Second refrigeration or heating combined equipment 31 are positioned on the second link of new wind-heat wet process unit, and are connected with the salting liquid in regeneration of waste liquor module.

Mixed wind-heat wet process unit comprises the 3rd refrigeration or heating combined equipment the 22, three freezes or heating combined equipment 22 is connected with the cold of heat-obtaining device or heat source unit with without auxiliary heat dissipation, and the 3rd refrigeration or heating combined equipment 22 are for carrying out heat and wet treatment to mixed wind.Mixed wind-heat wet process unit also comprises damping device 32, damping device 32 be electric humidification, steam humidification, spraying humidification, ultrasonic humidifying or other damping device any one or combine.

First refrigeration or heating combined equipment 21 are connected with the salting liquid flowed out in the first heat exchange core body 231 in solution humidifying module 23, for cooling or adding hot-salt solution to strengthen its dehumidifying or humidification capability; For the first refrigeration of solution-refrigerant heat exchanger or heating combined equipment 21 and the flow relying on electric control valve to regulate the cold-producing medium distributed separately for the 3rd refrigeration of mixed wind-heat wet process or heating combined equipment 22;

Second refrigeration or heating combined equipment 31 are connected with the salting liquid flowed out in the second heat exchange core body 241 in the regeneration of waste liquor module 24 in new wind-heat wet process unit 2, for heating or cooling salting liquid to strengthen its power of regeneration; Second refrigeration or heating combined equipment 31 are also cold or the heat radiation of thermal source and heat-obtaining device, and dispel the heat in solution summer and improve solution temperature, winter, heat-obtaining reduced solution temperature from solution, and the power of regeneration of enhancing solution also realizes heat radiation and the heat-obtaining of cold or thermal source.

For the flow of the cold-producing medium that the second refrigeration or the heating combined equipment 31 of solution-refrigerant heat exchanger rely on electric control valve to regulate and distribute;

First refrigeration or heating combined equipment 21, second freeze or heating combined equipment 31 and the 3rd freezes or heating combined equipment 22 is one in air-cooled heat exchanger, water-cooled heat exchanger or combination.First refrigeration or heating combined equipment 21 and second freeze or heating combined equipment 31, the 3rd freezes or heating combined equipment 22 all relies on electric control valve to regulate the flow of the cold-producing medium distributed separately.

Cold or heat source unit 1 without auxiliary heat dissipation and heat-obtaining device can arrange many groups as required, first refrigeration or heating combined equipment 21, second freeze or heating combined equipment 31, the 3rd refrigeration or heating combined equipment 22, need according to solution humidifying module, be that the quantity of the cold of carrier or heat output system and regeneration of waste liquor module is mated with it one by one with cold-producing medium, compressor 11 and expansion valve 12 then can arrange one or more as required.

Solution humidifying module and regeneration of waste liquor module also comprise solution circulation pump, also have a set of solution mass transter circulation line and recuperation of heat plate type heat exchanger 6 between first heat exchange core body 231 and the second heat exchange core body 241, recuperation of heat plate type heat exchanger 6 is for reducing the energy irreversible loss caused because solution temperature is different between the first heat exchange core body 231 from the second heat exchange core body 241; Solution humidifying module, regeneration of waste liquor module and solution mass transter circulation line thereof can according to moisture removal or add moisture need one or more groups is set.The upper hot and humid area core body 41 that heat recovery units is directly contacted by two gas-liquids, lower hot and humid area core body 42 and solution circulation pipeline supporting are with it formed, solution circulation pipeline is provided with solution circulation pump, heat recovery units can according to heat recovery efficiency need one group or many groups are set.The module of the air themperatures such as the 3rd refrigeration in mixed wind-heat wet process unit or heating combined equipment 22 is dehumidified by the frozen cooling based on surface cooling air-treatment technology, the heating of surface heat exchanging formula, humidity process forms.Heat recovery units is any one or combination in runner heat recovery module, plate-type heat-exchange recycling module, heat pipe-type heat recovery module, solution-type heat recovery module.

The unit feature of present embodiment is summed up: carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, all colds or the heat of new wind and mixed wind-heat wet process are provided, the heat dissipation capacity that unit in summer refrigeration needs is dispelled the heat by the heat abstractor that unit is integrated, the amount of reducing phlegm and internal heat that unit winter heating needs is by the integrated heat-obtaining device heat-obtaining of unit, unit is without the need to external heat radiation or heat-obtaining device (the general cooling tower of heat radiation in summer, air cooling module, winter, heat-obtaining generally used energy tower, air-cooled heat pump) (the heat radiation that unit carries and heat-obtaining device gauge size is more conventional wants large of auxiliary heat dissipation and heat-obtaining, to meet the larger heat radiation of unit and heat-obtaining demand), air-conditioning system only needs this air-conditioner set, Air Conditioning Facilities, airduct and air port etc., greatly simplify all-air air conditioning system structure.

As shown in Figure 2, present embodiment carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, comprise the cold or heat source unit without auxiliary heat dissipation and heat-obtaining device for providing cold or heat for processing new wind and mixed wind-heat humidity load, the new wind-heat wet process unit of wet process of lowering the temperature to new wind, dehumidify, heat, add and can lower the temperature to mixed wind, mixed wind-heat wet process unit and the heat recovery units of the wet process that dehumidifies, heats, adds.

Cold or heat source unit without auxiliary heat dissipation and heat-obtaining device comprises compressor 11, expansion valve 12 and refrigerant circulation line, refrigerant circulation line comprises the first main line 131, second main line 132, 3rd main line 133 and the 4th main line 134, first main line 131 is connected with the input of the first link of new wind-heat wet process unit by the first cold-producing medium input branch road, the output of the first link of new wind-heat wet process unit is connected with the input of compressor 11 by the second main line 132, first main line 131 is connected with mixed wind-heat wet process unit by the 3rd cold-producing medium input branch road, the cold-producing medium flowed back to from mixed wind-heat wet process unit flows into the second main line 132 by the 3rd cold-producing medium output branch road.

The output of compressor 11 connects the 3rd main line 133,3rd main line 133 is connected with the input of the second link of new wind-heat wet process unit by second refrigerant input branch road, the output of the second link of new wind-heat wet process unit exports branch road by second refrigerant and is connected with the 4th main line 134, and the 4th main line 134 is connected with the first main line 131 by expansion valve 12.

New wind-heat wet process unit is that surface contact air heat and wet treatment module comprises the first refrigeration or heating combined equipment 21, the 3rd refrigeration or heating combined equipment 22 belong to mixed wind-heat wet process unit.First refrigeration or heating combined equipment 21 (summer be evaporimeter, winter be condenser) carry out hot and humid area by 231 heat exchange core bodies and new wind, and summer lowers the temperature to new wind, dehumidification treatments, and winter heats new wind, adds wet process; Second refrigeration or heating combined equipment 31 (summer be condenser, winter be evaporimeter) carry out heat exchange with air draft (supplementing new wind), and summer dispels the heat, winter heat-obtaining.Mixed wind-heat wet process unit comprises the second refrigeration or heating combined equipment 22 (summer is evaporimeter, and winter is condenser) carries out heat and wet treatment with mixed wind, and summer lowers the temperature to mixed wind, dehumidification treatments, and winter heats mixed wind.

Freeze for new wind-heat wet process first or heating combined equipment 21 and rely on electric control valve to regulate the flow of the cold-producing medium distributed separately for the 3rd refrigeration of mixed wind-heat wet process or heating combined equipment 22; Mixed wind-heat wet process unit also comprises damping device 32, damping device 32 be electric humidification, steam humidification, spraying humidification, ultrasonic humidifying or other damping device any one or combine.

Second refrigeration or heating combined equipment 31 are cold or the heat radiation of thermal source and heat-obtaining device, and summer dispels the heat, and winter, heat-obtaining, realized heat radiation and the heat-obtaining of cold or thermal source.

First refrigeration or heating combined equipment 21, second freeze or heating combined equipment 31 and the 3rd freezes or heating combined equipment 22 is one in air-cooled heat exchanger, water-cooled heat exchanger or combination.First refrigeration or heating combined equipment 21 and second freeze or heating combined equipment 31, the 3rd freezes or heating combined equipment 22 all relies on electric control valve to regulate the flow of the cold-producing medium distributed separately.

Cold or heat source unit without auxiliary heat dissipation and heat-obtaining device can arrange many groups as required, first refrigeration or heating combined equipment 21, second freeze or heating combined equipment 31, the 3rd refrigeration or heating combined equipment 22, need to mate one by one with it according to the quantity of surface cooler (evaporimeter), radiator (condenser), compressor 11 and expansion valve 12 then can arrange one or more as required.

Air themperature, the humidity processing modules such as the first refrigeration in new wind-heat wet process unit or heating combined equipment 21 is dehumidified by the frozen cooling based on surface cooling air-treatment technology, surface-type heating form; The second refrigeration in new wind-heat wet process unit or heating combined equipment 31 are by based on the air-cooled heat exchanger of surface contact air-treatment technology or the water-cooled heat exchanger of water-cooling air treatment technology; The module of the air themperatures such as the 3rd refrigeration in mixed wind-heat wet process unit or heating combined equipment 22 is dehumidified by the frozen cooling based on surface cooling air-treatment technology, the heating of surface heat exchanging formula, humidity process forms.Heat recovery units 4 is any one or combination in runner heat recovery module, plate-type heat-exchange recycling module, heat pipe-type heat recovery module, solution-type heat recovery module.

The unit feature of present embodiment is summed up: the described all-air conditioning unit without auxiliary heat dissipation and heat-obtaining device, all colds or the heat of new wind and mixed wind-heat wet process are provided, the heat dissipation capacity that unit in summer refrigeration needs is dispelled the heat by the heat abstractor that unit is integrated, the amount of reducing phlegm and internal heat that unit winter heating needs is by the integrated heat-obtaining device heat-obtaining of unit, unit is without the need to external heat radiation or heat-obtaining device (the general cooling tower of heat radiation in summer, air cooling module, winter, heat-obtaining generally used energy tower, air-cooled heat pump) (the heat radiation that unit carries and heat-obtaining device gauge size is more conventional wants large of auxiliary heat dissipation and heat-obtaining, to meet the larger heat radiation of unit and heat-obtaining demand), heat reclamation device can be runner heat reclamation device, plate-type heat-exchange retracting device, heat pipe-type heat reclamation device, any one or combination of solution-type heat reclamation device.Air-conditioning system only needs this air-conditioner set, Air Conditioning Facilities, airduct and air port etc., greatly simplifies all-air air conditioning system structure.

Above-described specific embodiment; the purpose of this utility model, technical scheme and beneficial effect are further described; be understood that; the foregoing is only specific embodiment of the utility model; be not limited to the utility model; all within spirit of the present utility model and principle, any amendment made, equivalent replacement, improvement etc., all should be included within protection domain of the present utility model.

Claims (6)

1. carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, comprise the cold or heat source unit without auxiliary heat dissipation and heat-obtaining device, new wind-heat wet process unit, mixed wind-heat wet process unit and heat recovery units, it is characterized in that: described new wind-heat wet process unit comprises the first refrigeration or heating combined equipment (21) and the 3rd freezes or heating combined equipment (22), described mixed wind-heat wet process unit comprises the second refrigeration or heating combined equipment (31), the first described refrigeration or heating combined equipment (21), second refrigeration or heating combined equipment (31) freezes with the 3rd or heating combined equipment (22) is connected with the cold of heat-obtaining device or heat source unit respectively with without auxiliary heat dissipation, described new wind-heat wet process unit is surface contact air heat and wet treatment module or solution-type air heat and wet treatment module.

2. according to claim 1ly carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, it is characterized in that: described new wind-heat wet process unit is solution-type air heat and wet treatment module, described new wind-heat wet process unit also comprises solution humidifying module, regeneration of waste liquor module and circulation line, described solution humidifying module comprises the first heat exchange core body (231), and the first heat exchange core body (231) freezes with first or heating combined equipment (21) is connected; Regeneration of waste liquor module comprises the second heat exchange core body (241) and water compensating valve (242), described water compensating valve (242) is connected with the second heat exchange core body (241), and described second heat exchange core body (241) is freezed with second or heating combined equipment (31) is connected.

3. according to claim 1ly carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, it is characterized in that: the first described refrigeration or heating combined equipment (21), the second refrigeration or heating combined equipment (31) and the 3rd freezes or heating combined equipment (22) is air-cooled heat exchanger or water-cooled heat exchanger.

4. according to claim 1ly carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, it is characterized in that: described mixed wind-heat wet process unit also comprises damping device (32), described damping device (32) be electric damping device, any one or combination of steam humidifying device, spraying humidifier, ultrasonic humidifier.

5. according to claim 1ly carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, it is characterized in that: the first described refrigeration or heating combined equipment (21) and the second refrigeration or heating combined equipment (31), the 3rd refrigeration or heating combined equipment (22) all rely on electric control valve to regulate the flow of the cold-producing medium of respective distribution.

6. according to claim 1ly carry Cooling and Heat Source and without the all-air conditioning unit of auxiliary heat dissipation and heat-obtaining device, it is characterized in that: described heat recovery units (4) is any one or combination in runner heat recovery module, plate-type heat-exchange recycling module, heat pipe-type heat recovery module, solution-type heat recovery module.