CN205316533U - Full air apparatus from taking cold and hot source and not having supplementary heat abstractor and an outer defeated cold and hot matchmaker organizes - Google Patents

Full air apparatus from taking cold and hot source and not having supplementary heat abstractor and an outer defeated cold and hot matchmaker organizes Download PDF

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Publication number
CN205316533U
CN205316533U CN201520843801.4U CN201520843801U CN205316533U CN 205316533 U CN205316533 U CN 205316533U CN 201520843801 U CN201520843801 U CN 201520843801U CN 205316533 U CN205316533 U CN 205316533U
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heat
unit
cold
main line
air
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陈海波
刘拴强
张旭冉
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Beijing green tech Polytron Technologies Inc
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BEIJING GERUI LIDE AIR CONDITIONER TECHNOLOGY Co Ltd
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Abstract

The utility model relates to a full air apparatus from taking cold and hot source and not having supplementary heat abstractor and an outer defeated cold and hot matchmaker organizes, including cold or heat source unit, the wet processing unit of air heat and heat dissipation or heat absorption unit, the wet processing unit of air heat includes the wet processing unit of new wind -heat and mixes the wet processing unit of wind -heat, and cold or heat source unit preparation refrigerant and heat medium are handled the hot moisture load of air for the unit and is provided overall cold volume or heat, need not external other cold sources and heat source, still can export refrigerant and heat medium outward to the unit simultaneously, the unit that dispels the heat or absorb heat utilizes the unit to air exhaust and partly new trend is dispelled the heat or is inhaled thermal treatment, need not external supplementary heat abstractor. The utility model discloses to refrigerate or heat that the device is integrated has save coldly or heat source equipment, cold or heat source to the transmission and distribution system between the terminal air conditioning unit to based on among the full air air conditioning unit of solution mode, whole cold water and hot water transmission & distribution energy consumptions save are simultaneously solved and are concentrated cold, heat source and the intercooling of air conditioner subregion, thermal distribution regulation difficult in order to realize showing energy -conservation.

Description

Carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker
Technical field
This utility model relates to civilian and in industrial project air conditioning unit technical field, particularly relates to a kind of carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker.
Background technology
Along with the raising of people's living standard, water heater and air-conditioner have become requisite living facilities in people's daily life, both living facilities facility that to be generally also in family energy consumption maximum. Saving the energy and reducing pollution is the matter of utmost importance that the whole world faces, what come along with the fast development of national economy is then the raising of living standards of the people, the application of central authorities' environment-friendly air conditioner becomes increasingly popular especially, and then substantially improve the productive life environment of people, with and raw energy consumption problem is also highlighting gradually.
Specifically include that 1, traditional air-conditioning system, be only responsible for the cooling and heating load of building, it is impossible to outwardly provide cold or heat, act on unification. Nowadays people are increasing to the demand of daily domestic water, if individually configuring equipment according to various different hot and cold demands, investing significantly high, system complex and there is serious highly energy-consuming problem. 2, conventional central air-conditioning must include Cooling and Heat Source, distributing system, the three big links such as air conditioning unit, the problems such as (operational management personnel's technology are required height) that mechanism exists equipment link is many, operational management is complicated. 3, from Cooling and Heat Source to air conditioning unit, to end room (or PROCESS FOR TREATMENT), pipeline connects long, excessively complicated, there is the problems such as construction period length, cost is big, composition is complicated, is also cause that traditional air conditioner energy efficiency coefficient is difficult to the reason promoted simultaneously. 4, take space, equipment machine room in a large number, cause the waste of resource.
At present for multiple buildings or the air-conditioning of process area, hot water and cold water demand, due to function difference simultaneously need to the reason such as cold and heat (character is contrary), conventional solution is taked to overlap independent Cooling and Heat Source and air conditioning system solves more, therefore there is high energy consumption, takies the problems such as construction area, long construction period and complex process in a large number.
Utility model content
The main target of this utility model design is to realize air conditioning hot integration, and whole central air conditioner system and hot-water heating system only rely on all-air conditioning unit and realize providing, it is not necessary to outer joining concentrates Cooling and Heat Source, cooling system and hot water supply system etc. again. For solving the performance mechanism defect problem of traditional air conditioner, including too much taking construction area, equipment link causes long construction period more and the intrinsic difficult problem of complex management high in cost of production, this utility model is theoretical by equipment frame, brand-new R & D design is a kind of carries Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, and this is air conditioning unit can be applicable to various different climatic province.
This utility model is that the technical scheme that the above-mentioned technical problem of solution adopts is as follows:
A kind of carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, including cold or heat source unit, air heat and wet treatment unit and heat radiation or heat absorbing units,
Described air heat and wet treatment unit includes new wind heat wet process unit and mixed wind heat wet process unit,
Described cold or heat source unit includes compressor, expansion valve and refrigerant circulation line, and described refrigerant circulation line includes the first main line, the second main line, the 3rd main line and the 4th main line,
First main line is connected with the first link of new wind heat wet process unit by the first cold-producing medium input branch road, and the first outfan of new wind heat wet process unit is connected with the input of compressor by the second main line,
Second refrigerant input branch road is connected with mixed wind heat wet process unit, and the cold-producing medium flowed back to from mixed wind heat wet process unit flows into the second main line by second refrigerant output branch road,
First main line is by the 3rd cold-producing medium input branch road output coolant, and coolant is connected by the 3rd cold-producing medium output branch road and the second main line,
The outfan of compressor connects the 3rd main line, 3rd main line is connected with the second link of new wind heat wet process unit by the 4th cold-producing medium input branch road, second outfan of new wind heat wet process unit is connected by the 4th cold-producing medium output branch road and the 4th main line, 4th main line and the first main line are connected
3rd main line is connected with heat radiation or heat absorbing units input by the 5th cold-producing medium input branch road, heat radiation or heat absorbing units outfan export branch road by the 5th cold-producing medium and the 4th main line is connected, 3rd main line is by the 5th cold-producing medium input branch road output heating agent, and heating agent is connected by the 5th cold-producing medium output branch road and the 4th main line.
Further, described air heat and wet treatment unit includes the first refrigeration or heating combined equipment, the second refrigeration or heating combined equipment, the 3rd refrigeration or heating combined equipment, cooling heat radiation or heat exchange heat sink, solution humidifying unit, regeneration of waste liquor unit and circulation line,
First refrigeration or heating combined equipment are positioned on the first link of new wind heat wet process unit, first refrigeration or heating combined equipment are connected with the saline solution flowed out in solution humidifying unit, second refrigeration or heating combined equipment contact with mixed wind, for cooling down or heat the mixed wind of turnover unit, 3rd refrigeration or heating combined equipment are positioned on the second link of new wind heat wet process unit, and are connected with the saline solution in regeneration of waste liquor unit.
Further, described solution humidifying unit includes damping heat exchange core body and solution circulation pump, regeneration of waste liquor unit includes regeneration core body, solution circulation pump and water compensating valve, also sets up a set of solution mass transter circulation line and recuperation of heat plate type heat exchanger between damping heat exchange core body and regeneration core body.
Further, described refrigerant circulation line is provided with multiple electric control valve, and the first refrigeration or heating combined equipment, the second refrigeration or heating combined equipment, the 3rd refrigeration or heating combined equipment and cooling heat radiation or heat exchange heat sink rely on electric control valve and regulate the flow of each cold-producing medium of distribution.
Further, described air heat and wet treatment unit also includes heat recovery units, described heat recovery units is directly contacted upper hot and humid area core body, lower hot and humid area core body and matched solution circulation pipeline by two gas-liquids and is formed, solution circulation pipeline is provided with solution circulation pump, described heat recovery units can according to heat recovery efficiency need one group or many groups are set.
Further, described heat recovery units is any one or the combination in runner heat recovery module, plate-type heat-exchange recycling module, heat pipe-type heat recovery module, solution-type heat recovery module.
Compared with existing all-air conditioning unit, the design utility model illustrates and advantage is as follows:
1. a kind of of this utility model design carries Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, whole air conditioning system and hot-water heating system have only to carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, and traditional all-air air conditioning system, it is necessary to comprise the equipment such as Cooling and Heat Source equipment, cooling tower, cold-peace hot water distributing system, all-air conditioning unit.
2., based on the design utility model, it may be achieved air conditioning hot integration, simplify the air conditioning system of whole building and also can save the systems such as hot water heating simultaneously.
3., compared with traditional all-air air conditioning system, Cooling and Heat Source machine room, cooling tower, Cooling and Heat Source machine room can be save to the transfer pipeline between tail end air conditioner unit, therefore can reduce Civil Cost 1.5-3%, reduce air conditioning system cost 2-3%.
4. construction and installation are simple and efficient. Compared with traditional all-air air conditioning system, air conditioning system simplifies, and construction and simple installation are quick.
5. adopting saline solution as working media, temperature and humidity realizes independent regulation, and the more conventional air-conditioning of its wind pushing temperature, humidity is more accurate.
6. simplify air-conditioner control system and automatic building control system. For air-conditioner control system, Cooling and Heat Source equipment, cooling tower, circulating pump, water collecting and diversifying device and pipeline, all-air conditioning unit etc. need not be controlled, having only to carry out managing concentratedly to " all-air conditioning unit " described in the utility model and control, the control system of air-conditioning is greatly simplified.
Sum up the main feature that this technical application is novel: realize air conditioning hot integration, refrigeration or heating combined equipment are integrated into based in the all-air conditioning unit of solution mode, without Cooling and Heat Source in config set and cooling tower, cold-peace heat needed for whole air-treatments is undertaken by air conditioning unit, and can external output cold-peace heating agent simultaneously. Compared to traditional central air conditioner system, eliminate cold or heat resource equipment, cooling tower, cold or thermal source machine room, cold or thermal source to the distributing system between tail end air conditioner unit, all save cold water and the hot water transmission & distribution energy consumption of air conditioning system simultaneously, solve to concentrate the distribution of hot and cold amount between cold and heat source and air conditioning zoning regulate tired be difficult to significantly energy-conservation.
Accompanying drawing explanation
Fig. 1 is the structural representation of this utility model embodiment.
Detailed description of the invention
Below in conjunction with drawings and Examples, detailed description of the invention of the present utility model is described in further detail. Following example are used for illustrating this utility model, but are not limited to scope of the present utility model.
Of the present utility model carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, including cold or heat source unit, air heat and wet treatment unit, heat radiation or heat absorbing units.
Described cold or heat source unit, for providing whole colds or heat for processing the hot humidity load of air, and exports coolant and heating agent outside unit.
Described air heat and wet treatment unit includes new wind heat wet process unit and mixed wind heat wet process unit, and described new wind heat wet process unit utilizes solution-type air-conditioning technical that new wind is lowered the temperature, dehumidification treatments or heating, add wet process; The mixed wind of return air and new wind can be lowered the temperature by described mixed wind heat wet process unit, dehumidification treatments or heat treated.
Described heat radiation or heat absorbing units, to refrigeration or heating combined equipment cools down or heat exchange processes to utilize the air draft of heat and wet treatment unit and the new wind of a part.
Described cold or heat source unit, including compressor 1, expansion valve 3 and refrigerant circulation line, refrigerant circulation line includes the first main line the 21, second main line the 22, the 3rd main line 23 and the 4th main line 24, first main line is connected with the first link of new wind heat wet process unit by the first cold-producing medium input branch road 31, and new wind heat wet process unit is connected with the input of compressor by the second main line 22; Second refrigerant input branch road 32 is connected with mixed wind heat wet process unit, and the cold-producing medium flowed back to from mixed wind heat wet process unit flows into the second main line by second refrigerant output branch road 37; First main line exports coolant by the 3rd cold-producing medium input branch road 33, and coolant is connected with the second main line by the 3rd cold-producing medium output branch road 38;
The outfan of compressor connects the 3rd main line, 3rd main line is connected with the second link of air heat and wet treatment unit by the 4th cold-producing medium input branch road 34, second outfan of air heat and wet treatment unit is connected with the 4th main line by the 4th cold-producing medium output branch road 39, and the 4th main line and the first main line are connected; 3rd main line is connected with heat radiation or heat absorbing units input by the 5th cold-producing medium input branch road 35, heat radiation or heat absorbing units outfan export branch road 40 by the 5th cold-producing medium and are connected with the 4th main line, 3rd main line exports heating agent by the 5th cold-producing medium input branch road 40, and heating agent is connected with the 4th main line by the 5th cold-producing medium output branch road 41.
Described new wind heat wet process unit is based on the cooling and dehumidifying of solution-type air-treatment technology, warming and humidifying module and regeneration module. Described mixed wind heat wet process unit is based on the air themperatures such as the frozen cooling dehumidifying of surface cooling air-treatment technology, surface heat exchanging formula heating, humidity processes module and block combiner, mixed wind heat wet process unit is made up of cooling and dehumidifying or the heating coil of freezing type.
Air heat and wet treatment unit includes the first refrigeration or heating combined equipment 401, second freezes or heating combined equipment the 402, the 3rd freezes or heating combined equipment 403, solution humidifying unit, regeneration of waste liquor unit and circulation line; First refrigeration or heating combined equipment are positioned on the first link of new wind heat wet process unit, and the first refrigeration or heating combined equipment are connected with the saline solution flowed out in solution humidifying unit. 3rd refrigeration or heating combined equipment are positioned on the second link of new wind heat wet process unit, and are connected with the saline solution in regeneration of waste liquor unit. Second refrigeration or heating combined equipment contact with mixed wind, for cooling down or heat the mixed wind of turnover unit.
Described air heat and wet treatment unit also includes heat radiation or heat exchange heat sink 404, and heat radiation or heat sink utilize the air draft of heat and wet treatment unit and the new wind of a part to refrigeration or heating combined equipment cools down or heat exchange processes.
Air heat and wet treatment unit also includes heat recovery units, and described 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.
In one embodiment, as shown in Figure 1, of the present utility model carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, including for for process the hot humidity load of air provide cold or heat and simultaneously to the cold or heat source unit of output coolant outside unit and heating agent, for cooling down the heat radiation of heat radiation or heat exchange heat-soak treatment or heat absorbing units, air can be lowered the temperature, dehumidification treatments or heating, add the air heat and wet treatment unit of wet process.
Described heat radiation or heat absorbing units, to refrigeration or heating combined equipment cools down or heat exchange processes to utilize the air draft of heat and wet treatment unit and the new wind of a part;
Described air heat and wet treatment unit includes new wind heat wet process unit and mixed wind heat wet process unit;
Described cold or heat source unit, including compressor 1, expansion valve 3 and refrigerant circulation line, refrigerant circulation line includes the first main line the 21, second main line the 22, the 3rd main line 23 and the 4th main line 24, first main line is connected with the first link of new wind heat wet process unit by the first cold-producing medium input branch road 31, and new wind heat wet process unit is connected with the input of compressor by the second main line 22; Second refrigerant input branch road 32 is connected with mixed wind heat wet process unit, and the cold-producing medium flowed back to from mixed wind heat wet process unit flows into the second main line by second refrigerant output branch road 37; First main line exports coolant by the 3rd cold-producing medium input branch road 33, and coolant is connected with the second main line by the 3rd cold-producing medium output branch road 38;
The outfan of compressor connects the 3rd main line, 3rd main line is connected with the second link of air heat and wet treatment unit by the 4th cold-producing medium input branch road 34, second outfan of air heat and wet treatment unit is connected with the 4th main line by the 4th cold-producing medium output branch road 39, and the 4th main line and the first main line are connected; 3rd main line is connected with heat radiation or heat absorbing units input by the 5th cold-producing medium input branch road 35, heat radiation or heat absorbing units outfan export branch road 40 by the 5th cold-producing medium and are connected with the 4th main line, 3rd main line exports heating agent by the 5th cold-producing medium input branch road 40, and heating agent is connected with the 4th main line by the 5th cold-producing medium output branch road 41.
Air heat and wet treatment unit includes the first refrigeration or heating combined equipment 401, second freezes or heating combined equipment the 402, the 3rd freezes or heating combined equipment 403, solution humidifying unit, regeneration of waste liquor unit and circulation line; First refrigeration or heating combined equipment are positioned on the first link of new wind heat wet process unit, and the first refrigeration or heating combined equipment are connected with the saline solution flowed out in solution humidifying unit. 3rd refrigeration or heating combined equipment are positioned on the second link of new wind heat wet process unit, and are connected with the saline solution in regeneration of waste liquor unit. Second refrigeration or heating combined equipment are for carrying out heat and wet treatment to mixed wind. Air heat and wet treatment unit also includes: heat radiation or heat exchange heat sink 404.
First refrigeration or heating combined equipment 401 are connected with the saline solution flowed out in solution humidifying unit damping heat exchange core body 8 of adjusting in air heat and wet treatment unit, are used for cooling down or add hot-salt solution to strengthen its dehumidifying or humidification capability; The first refrigeration or heating combined equipment 401 for solution-refrigerant heat exchanger rely on electric control valve 11 to regulate the flow of each cold-producing medium of distribution with the coolant or heat medium system passing into the second refrigeration or heating combined equipment 402;
3rd refrigeration or heating combined equipment 403 are connected with the saline solution flowed out in the regeneration of waste liquor regeneration unit heat exchange core body 9 in air heat and wet treatment unit, are used for heating or cool down saline solution to strengthen its regeneration capacity; Cooling heat radiation or heat exchange heat sink dissipate heat or the therefrom draw heat of condenser;
For the 3rd refrigeration of solution-refrigerant heat exchanger or heating combined equipment 403 with for cooling down or cooling heat radiation or the heat exchange heat sink 404 of heat-exchange system-refrigerant heat exchanger rely on electric control valve 11 to regulate the flow of each cold-producing medium of distribution;
Solution humidifying unit is made up of damping heat exchange core body 8, solution circulation pump 51, regeneration of waste liquor unit is made up of regeneration core body 9, solution circulation pump 52, water compensating valve 10, the effect of water compensating valve 10 is to control the concentration of solution to regeneration unit moisturizing, in addition, also having a set of solution mass transter circulation line and recuperation of heat plate type heat exchanger 6 between damping heat exchange core body 8 and regeneration core body 9, recuperation of heat plate type heat exchanger 6 is for reducing the irreversible loss caused between damping heat exchange core body 8 from regeneration core body 9 because solution temperature is different; Solution humidifying unit, regeneration unit and solution mass transter circulation line thereof can according to remove or add moisture need one or more groups is set.
Air heat and wet treatment unit also includes heat recovery units, heat recovery units is directly contacted upper hot and humid area core body 71, lower hot and humid area core body 72 and matched solution circulation pipeline by two gas-liquids and is formed, solution circulation pipeline is provided with solution circulation pump 53, this heat recovery units can according to heat recovery efficiency need one group or many groups are set.
Cold or heat source unit can be arranged as required to many groups, first refrigeration or heating combined equipment 401, second freeze or heating combined equipment the 402, the 3rd freezes or heating combined equipment 403, need according to solution humidifying unit, with cold-producing medium be carrier coolant or heating agent output system and the quantity of regeneration of waste liquor unit, cooling or heat-exchange system mate one by one with it, compressor 1 and expansion valve 3 then can be arranged as required to one or more.
The flow process of the unit of present embodiment operationally air and solution is as follows: first saline solution is pumped in upper hot and humid area core body 71 by solution circulation, caloic exchange is carried out with the air draft entering heat exchange core body, flow in lower hot and humid area core body 72 again through solution line after the cold of absorption air draft or heat, carry out caloic exchange with the new wind entering this heat exchange core body, new wind is carried out pre-cooling, pre-dehumidified or preheating, pre-humidifying, enter in the damping heat exchange core body 8 of damping unit through the new wind of pretreatment, and the saline solution that in damping heat exchange core body 8, the concentration of outflow is higher or lower is after the first refrigeration or heating combined equipment 401 cool down or heat, damping heat exchange core body 8 carries out caloic exchange with new wind, new wind is dehumidified by the degree of depth, lowers the temperature or mixes with return air after heating, humidification, enter back into mixed wind heat wet process unit, after contacting with mixed wind heat wet process unit, mixed wind is lowered the temperature, dehumidified or is heated, and finally sends into indoor, absorb moisture in new wind or the concentration of salt solution after release moisture reduces or raises, enter in regeneration unit heat exchange core body 9 by solution mass transter circulation line, and the saline solution that the concentration of outflow is relatively low or higher from regeneration core body 9 is after the 3rd refrigeration or heating combined equipment 403 heat or cool down, regeneration core body 9 carries out caloic exchange with air draft, moisture in saline solution and heat enter in air draft or solution absorbs the moisture in air draft and heat, the concentration of solution raises or reduces, then damping heat exchange core body 8 is flowed into again through solution mass transter pipeline, and carry out heat recovery with the rare or concentrated solution flowed into from damping heat exchange core body 8 in regeneration core body 9 by plate type heat exchanger 6.
The above is only preferred implementation of the present utility model; should be understood that; for those skilled in the art; under the premise without departing from this utility model know-why; can also making some improvement and modification, these improve and modification also should be regarded as protection domain of the present utility model.

Claims (6)

1. one kind carries Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, it is characterised in that: include cold or heat source unit, air heat and wet treatment unit and heat radiation or heat absorbing units,
Described air heat and wet treatment unit includes new wind heat wet process unit and mixed wind heat wet process unit,
Described cold or heat source unit includes compressor (1), expansion valve (3) and refrigerant circulation line, described refrigerant circulation line includes the first main line (21), the second main line (22), the 3rd main line (23) and the 4th main line (24)
First main line is connected with the first link of new wind heat wet process unit by the first cold-producing medium input branch road (31), and the first outfan of new wind heat wet process unit is connected with the input of compressor by the second main line (22),
Second refrigerant input branch road (32) is connected with mixed wind heat wet process unit, and the cold-producing medium flowed back to from mixed wind heat wet process unit exports branch road (37) by second refrigerant and flows into the second main line,
First main line is by the 3rd cold-producing medium input branch road (33) output coolant, and coolant is connected with the second main line by the 3rd cold-producing medium output branch road (38),
The outfan of compressor connects the 3rd main line, 3rd main line is connected with the second link of new wind heat wet process unit by the 4th cold-producing medium input branch road (34), second outfan of new wind heat wet process unit is connected with the 4th main line by the 4th cold-producing medium output branch road (39), 4th main line and the first main line are connected
3rd main line is connected with heat radiation or heat absorbing units input by the 5th cold-producing medium input branch road (35), heat radiation or heat absorbing units outfan export branch road (40) by the 5th cold-producing medium and are connected with the 4th main line, 3rd main line is by the 5th cold-producing medium input branch road (40) output heating agent, and heating agent is connected with the 4th main line by the 5th cold-producing medium output branch road (41).
2. according to claim 1 carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, it is characterized in that: described air heat and wet treatment unit includes the first refrigeration or heating combined equipment (401), the second refrigeration or heating combined equipment (402), the 3rd refrigeration or heating combined equipment (403), cooling heat radiation or heat exchange heat sink (404), solution humidifying unit, regeneration of waste liquor unit and circulation line
First refrigeration or heating combined equipment are positioned on the first link of new wind heat wet process unit, first refrigeration or heating combined equipment are connected with the saline solution flowed out in solution humidifying unit, second refrigeration or heating combined equipment contact with mixed wind, for cooling down or heat the mixed wind of turnover unit, 3rd refrigeration or heating combined equipment are positioned on the second link of new wind heat wet process unit, and are connected with the saline solution in regeneration of waste liquor unit.
3. according to claim 2 carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, it is characterized in that: described solution humidifying unit includes damping heat exchange core body (8) and solution circulation pump (51), regeneration of waste liquor unit includes regeneration core body (9), solution circulation pump (52) and water compensating valve (10), also sets up a set of solution mass transter circulation line and recuperation of heat plate type heat exchanger (6) between damping heat exchange core body (8) and regeneration core body (9).
4. according to Claims 2 or 3, carry Cooling and Heat Source and the complete air unit without auxiliary radiating device and outer defeated cold and hot matchmaker, it is characterized in that: described refrigerant circulation line is provided with multiple electric control valve (11), the first refrigeration or heating combined equipment (401), the second refrigeration or heating combined equipment (402), the 3rd refrigeration or heating combined equipment (403) and cooling heat radiation or heat exchange heat sink (404) rely on electric control valve (11) and regulate the flow of the cold-producing medium each distributed.
5. according to claim 4 carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, it is characterized in that: described air heat and wet treatment unit also includes heat recovery units, described heat recovery units is directly contacted upper hot and humid area core body (71), lower hot and humid area core body (72) and matched solution circulation pipeline by two gas-liquids and is formed, solution circulation pipeline is provided with solution circulation pump (53), described heat recovery units can according to heat recovery efficiency need one group or many groups are set.
6. according to claim 5 carry Cooling and Heat Source and the full air unit without auxiliary radiating device outer defeated cold and hot matchmaker, it is characterised in that: described 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.
CN201520843801.4U 2015-10-28 2015-10-28 Full air apparatus from taking cold and hot source and not having supplementary heat abstractor and an outer defeated cold and hot matchmaker organizes Active CN205316533U (en)

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105371394A (en) * 2015-10-28 2016-03-02 北京格瑞力德空调科技有限公司 Full-air unit provided with cold/heat sources without auxiliary heat dissipation device and capable of outputting refrigerant/heat medium

Cited By (2)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN105371394A (en) * 2015-10-28 2016-03-02 北京格瑞力德空调科技有限公司 Full-air unit provided with cold/heat sources without auxiliary heat dissipation device and capable of outputting refrigerant/heat medium
CN105371394B (en) * 2015-10-28 2018-05-25 北京格瑞力德空调科技有限公司 Carry Cooling and Heat Source and the full air unit without auxiliary radiating device and outer defeated cold and hot matchmaker

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