CN203628881U - Air conditioning device capable of preparing cooling media or heating media and simultaneously processing air heat and humidity loads - Google Patents
Air conditioning device capable of preparing cooling media or heating media and simultaneously processing air heat and humidity loads Download PDFInfo
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- CN203628881U CN203628881U CN201320864106.7U CN201320864106U CN203628881U CN 203628881 U CN203628881 U CN 203628881U CN 201320864106 U CN201320864106 U CN 201320864106U CN 203628881 U CN203628881 U CN 203628881U
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Abstract
The utility model relates to the technical field of air conditioning devices in industrial projects, in particular to an air conditioning device capable of preparing cooling media or heating media and simultaneously processing air heat and humidity loads. The air conditioning device capable of preparing the cooling media or the heating media and simultaneously processing the air heat and humidity loads comprises a cold or heat source unit and an air heat and humidity processing unit, wherein the cold or heat source unit is used for providing coldness or heat for processing the air heat and humidity loads and preparing the output cooling media or the output heating media with refrigerants as carriers, and the air heat and humidity processing unit can carry out cooling and dehumidifying processing or heating and humidifying processing on air. The cooling or heating source unit comprises a compressor, an expansion valve and refrigerant circulating pipelines, wherein the refrigerant circulating pipelines comprise a first main pipeline, a second main pipeline, a third main pipeline and a fourth main pipeline, the first main pipeline is connected with the air heat and humidity processing unit through a first refrigerant input branch, the air heat and humidity processing unit is connected with the input end of the compressor through the second main pipeline, a second refrigerant input branch is directly connected with the external world, and refrigerants flowing back from the external world flow into the second main pipeline through a second refrigerant output branch.
Description
Technical field
The utility model relates to the technical field of the aircondition in civilian and industrial project, particularly relates to a kind of aircondition of preparing cold or heating agent and processing the hot humidity load of air simultaneously.
Background technology
Energy-saving and emission-reduction, building a resource-conserving society becomes when last very important work, building energy consumption accounts for 30% left and right of whole society's energy consumption, wherein air conditioning energy consumption accounts for again 40~60% of building total energy consumption, therefore, reduce central air conditioner system energy consumption and become an important directions of China's energy-saving and emission-reduction.
In addition, the direct cost of air-conditioning system accounts for the 8-15% of civil buildings Project Cost, civil engineering area and the space (as concentrated Cooling and Heat Source machine room, Air Conditioning Facilities, waterpipe well, ventilating shaft etc.) of 8-12% have also been taken simultaneously, how to reduce system cost, save area and space, shorten the engineering construction cycle, be also the technological difficulties that breakthrough was paid close attention to always and made every effort to engineering construction field for many years simultaneously.
The solution of current air-conditioning system, mainly contains centralized (i.e. common described central air conditioner system), local, decen (as multi-gang air-conditioner) and complete distributing (as split-type air conditioner, window-mounted air conditioner etc.).Different its advantage of air-conditioning solution and shortcoming, be summarized as follows:
1, centralized electricity refrigeration, absorption refrigeration central air conditioner system (conventional centralized central air conditioner system).Main existing problems, comprise: one, refrigeration or heating machine set are to needing many times Pipeline transports complicated, long distance to connect between end air-conditioning unit, need to consume very large transmission & distribution energy consumption (accounting for the 20-35% of air conditioning energy consumption), have the problem that need to reserve pipeline space, construction complexity and take construction period simultaneously; Two, refrigeration or heating machine set must be equipped with refrigerating plant room, generally need to take the construction area (Civil Cost) of 2-4%; Three, concentrated refrigeration or heating machine set and concentrated pipeline transport system, the adjusting function of its sub-load is difficult to well adapt to the demand operating mode of partial air conditioning (heating), causes air-conditioning equipment (Cooling and Heat Source equipment, circulating pump etc.) fallback and energy waste; Four, concentrate the corresponding multiple air conditioning zonings of cold and heat source, also cause the assignment of traffic of different air conditioning zonings to regulate difficulty, this be because the hot and cold water yield that each air conditioning zoning needs not only in design point difference, not identical in the time of operation at part load, and be real-time change yet; Five, control system need to be managed and be coordinated refrigeration plant, heating equipment, circulating pump, end-equipment (new blower fan group+fan coil, or combined air conditioning box) etc., and Control System Design, construction and management are used all very complicated.
2, multi-gang air-conditioner (conventional local, decen air-conditioning).Can the separate systems of many covers be set according to building subregion, realize control and the Load Regulation of zones of different, concentrate cold station, control system relatively simple.But multi-gang air-conditioner unit does not have new wind (air) processing capacity, therefore need to arrange independently VMC (also needing to be equipped with independently Cooling and Heat Source), system architecture is still comparatively complicated; Be limited to compressor oil return problem, long refrigerant and carry and cause that efficiency significantly reduces, single unit refrigeration (heating capacity) is limited, make this system can only be suitable for middle and small scale building; In addition, also there is multi-connected machine unit eer problem on the low side.
3, complete distributing air conditioning mode, mainly comprises split-type air conditioner, window-mounted air conditioner, and local modulation performance is best, there is no new wind, too low these two the machine rational defects of air-conditioning unit eer but exist.
Based on air-conditioning theoretical developments (the particularly proposition of humiture independence control air conditioner system and application) in recent years, refrigeration or heat the research and development progress of technology and equipment, the research and development application of solution humidifying air-conditioning technical, refrigeration or heating combined equipment have possessed the ratio refrigeration that equipment was larger in the past or have heated fan-out capability at present, less volume, as magnetic suspension refrigeration machine (or heat pump), digital vortex refrigeration machine (or heat pump) etc., it is cooling that the air-conditioning machine set technology of while take solution humidifying air-conditioning as representative possessed the new wind of integrated solution, dehumidifying, heating, the function such as humidification and recuperation of heat.
Therefore, aircondition described in present patent application, has designed a kind of aircondition of preparing cold or heating agent and processing the hot humidity load of air simultaneously by the brand-new research and development of equipment frame principle.
Utility model content
For solving the problems of the technologies described above, the utility model provide a kind of can annual application, can prepare cold or heating agent and process the aircondition of the hot humidity load of air simultaneously, this aircondition also can be applicable to Different climate region.
The aircondition of preparing cold or heating agent and processing the hot humidity load of air simultaneously of the present utility model, comprises cold or heat source unit, air hot wet process unit and the outer defeated cold or heating agent output system take cold-producing medium as carrier;
Described cold or heat source unit, is used to the hot humidity load of processing air that cold or heat the outer defeated cold or heating agent take cold-producing medium as carrier of preparation are simultaneously provided;
The hot wet process of described air unit, can lower the temperature to air, dehumidification treatments or heating, add wet process;
Described cold or heat source unit comprises compressor, expansion valve and refrigerant circulation line, described refrigerant circulation line comprises the first main line, the second main line, the 3rd main line and the 4th main line, described the first main line is connected with the first link of the hot wet process of air unit by the first cold-producing medium input branch road, the first output of the hot wet process of air unit is connected with the input of compressor by the second main line, described the first main line is inputted branch road by second refrigerant and is directly connected the external world, the cold-producing medium flowing back to from the external world is exported branch road by second refrigerant and is flowed into the second main line,
The output of described compressor connects the 3rd main line, described the 3rd main line is connected with the input of the cooling or heat-exchange system of turnover unit by the 4th cold-producing medium input branch road, the output of the cooling or heat-exchange system of turnover unit is communicated with the 4th main line by the 3rd cold-producing medium output branch road, and the 4th main line is connected with the first main line.
Further, described the 3rd main line is connected with the second link of the hot wet process of air unit by the 3rd cold-producing medium input branch road, and the second output of the hot wet process of air unit is connected with the 4th main line.
Further, the hot wet process of described air unit is cooling and dehumidifying, warming and humidifying module and the regeneration module based on solution-type air-treatment technology, or module and the module combination of the air themperature such as frozen cooling dehumidifying, the heating of surface heat exchanging formula, steam humidification or electric humidification based on surface cooling air-treatment technology, humidity processing.
Further, the hot wet process of described air unit comprises the first refrigeration or heating combined equipment, solution humidifying unit, regeneration of waste liquor unit and circulation line, described solution humidifying unit comprises heat exchange core body, heat exchange core body is connected with the salting liquid that the first refrigeration or heating combined equipment flow out, regeneration of waste liquor unit comprises regeneration unit heat exchange core body and water compensating valve, and water compensating valve is the concentration with control solution to regeneration unit moisturizing; The first refrigeration or heating combined equipment are positioned on the first link of the hot wet process of air unit, and the first refrigeration or heating combined equipment are connected with the salting liquid flowing out in solution humidifying unit.
Further, also comprise the 3rd refrigeration or heating combined equipment and the 4th refrigeration or heating combined equipment, the 3rd refrigeration or heating combined equipment are positioned on the second link of the hot wet process of air unit, and be connected with the salting liquid in regeneration of waste liquor unit, the 4th refrigeration or heating combined equipment are connected with the cooling or heat-exchange system of turnover unit.
Further, the hot wet process of described air unit by cooling and dehumidifying or heat(ing) coil, humidification module and again thermal modules form.
Further, between described heat exchange core body and regeneration unit heat exchange core body, be provided with solution matter exchange cycles pipeline and recuperation of heat plate type heat exchanger.
Further, described refrigerant circulation line is provided with multiple electric control valves, and the first refrigeration or heating combined equipment and the outer defeated cold or heat medium system take cold-producing medium as carrier, the 3rd refrigeration or heating combined equipment, the 4th refrigeration or heating combined equipment all rely on electric control valve to regulate the flow of the cold-producing medium distributing separately.
Further, described the first refrigeration or heating combined equipment are cooling or heat(ing) coil.
Further, also comprise heat recovery units;
Described heat recovery units by two gas-liquids directly the wet exchange of the upper heat of contact core body, lower heat wet exchange core body and with it supporting solution circulation pipeline form, solution circulation pipeline is provided with solution circulation pump.
Further, described heat recovery units is any one or the combination in the full heat recovery module of solution-type, runner heat recovery module and plate-type heat-exchange recycling module.
The main feature of the utility model is: refrigeration or heating combined equipment are integrated in air-conditioning unit, in externally exporting the required hot and cold matchmaker take cold-producing medium as carrier of air-conditioning system, can also carry out temperature and humidity processing to new wind (air).In the time that the refrigeration of aircondition or heating capacity are enough large, can all be responsible for refrigeration and the dehumidifying demand of building, industrial project or heat and humidification demand, than traditional central air conditioner system, can save cold or heat resource equipment, cold or thermal source machine room, cold or thermal source to the distributing system between air-conditioning unit, significantly reduce the transmission & distribution energy consumption of air-conditioning system 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; And than multi-gang air-conditioner, described aircondition can carry out the adjusting processing of humiture to new wind or air, can save new blower fan group, new Ventilator Room (or shared space).
Compared with existing traditional central air-conditioning system, or compared with multi-connected machine unit, the aircondition that the hot and cold matchmaker who prepares take cold-producing medium as carrier of the present utility model also processes the hot humidity load of air simultaneously has following characteristics and feature performance benefit:
1. the utility model has built a kind of air-conditioning system new, that more simplify.Conventional central air conditioner system, must comprise cold and heat source equipment, new wind load treatment facility, this three large component devices of load treatment facility except new wind load, and cold and heat source equipment arrives the transmission & distribution equipment of loading between treatment facility; Multi-online air-conditioning system, must comprise the load treatment facility of cold and heat source equipment, new wind load treatment facility and indoor.And the utility model device can be processed the hot humidity load of air and air-conditioning cold, the heating agent take cold-producing medium as carrier is provided simultaneously, build a kind of air-conditioning frame system---load treatment facility of aircondition of the present utility model and indoor newly, that only need two kinds of equipment.
2. energy-efficient.Compared with traditional central air-conditioning, owing to having save distributing system, energy consumption can reduce more than 20%, owing to having taked refrigerant take cold-producing medium as carrier or heating agent to carry the cold or heat method to end, and can be energy-conservation more than 8% again; Compared with the multi-online air-conditioning system of local, decen, due to new elegance with integral type, refrigeration or heat is large, volume is little cold and heat source equipment, new wind is processed energy consumption and can be reduced more than 20%.
3. significantly save area and space that air-conditioning system takies.Compared with traditional central air-conditioning, owing to having save distributing system, cold and heat source equipment and machine room, can save the construction area of 3-4.5%; Compared with the multi-online air-conditioning system of local, decen, due to new elegance integral type processing mode, can save new wind treating apparatus and machine room, can save the construction area of 1.5-2%.
4. significantly reduce construction costs.Compared with traditional traditional central air-conditioning system or half centralized multi-online air-conditioning system, can save cold and heat source machine room, cold and heat source machine room to the transfer pipeline between end air-conditioning unit, and new Ventilator Room independently, therefore can reduce Civil Cost 2-4.5%, reduce air-conditioning system cost 2-4%.
5. simplify air-conditioner control system/automatic building control system.For air-conditioner control system, only need to manage and control " aircondition " described in the utility model, cooling or heat transmission equipment, indoor end device (as fan coil), air-conditioner control system is greatly simplified.Conventional air-conditioning system must be controlled cold and heat source equipment, cooling or heat transmission equipment, circulating pump, new blower fan group, air-conditioning unit, indoor end device (as fan coil) etc., very complicated.
6. reduce operational management skill difficulty, save management cost, and can save administrative staff.
Accompanying drawing explanation
Fig. 1 is the structural representation of the utility model the first embodiment;
Fig. 2 is the structural representation of the utility model the second embodiment.
The specific embodiment
Below in conjunction with drawings and Examples, the specific embodiment of the present utility model is described in further detail.Following examples are used for illustrating the utility model, but are not used for limiting scope of the present utility model.
Embodiment mono-
As shown in Figure 1, the aircondition of preparing cold or heating agent and processing the hot humidity load of air simultaneously of the present utility model,
Comprise being used to and process air hot humidity load and cold or heat the outer defeated cold or heat source unit take cold-producing medium as carrier of preparation are simultaneously provided and can lower the temperature to air, dehumidification treatments or heating, add the hot wet process of the air unit of wet process.
Described cold or heat source unit comprises compressor 1, expansion valve 3 and refrigerant circulation line, refrigerant circulation line comprises the first main line 21, the second main line 22, the 3rd main line 23 and the 4th main line 24, the first main line 21 is connected with the first link of the hot wet process of air unit by the first cold-producing medium input branch road 31, the first output of the hot wet process of air unit is connected with the input of compressor by the second main line, the first main line is inputted branch road 32 by second refrigerant and is directly connected extraneous, the cold-producing medium flowing back to from the external world is exported branch road 35 by second refrigerant and is flowed into the second main line 22,
The output of compressor connects the 3rd main line 23, the 3rd main line is connected with the second link of the hot wet process of air unit by the 3rd cold-producing medium input branch road 33, the second output of the hot wet process of air unit is connected with the 4th main line 24, and the 4th main line 24 is connected with the first main line 21; The 3rd main line 23 is connected with the input of the cooling or heat-exchange system of turnover unit by the 4th cold-producing medium input branch road 34, and the output of the cooling or heat-exchange system of turnover unit is communicated with the 4th main line 24 by the 3rd cold-producing medium output branch road 36.
The hot wet process of air unit comprises that the first refrigeration or heating combined equipment 401, the 3rd freeze or heating combined equipment 403, solution humidifying unit, regeneration of waste liquor unit and circulation line, solution humidifying unit comprises heat exchange core body, heat exchange core body is connected with the salting liquid that the first refrigeration or heating combined equipment flow out, regeneration of waste liquor unit comprises regeneration unit heat exchange core body and water compensating valve, and water compensating valve is the concentration with control solution to regeneration unit moisturizing; The first refrigeration or heating combined equipment are positioned on the first link of the hot wet process of air unit, and the first refrigeration or heating combined equipment are connected with the salting liquid flowing out in solution humidifying unit.The 3rd refrigeration or heating combined equipment are positioned on the second link of the hot wet process of air unit, and are connected with the salting liquid in regeneration of waste liquor unit.
Above-mentioned aircondition also comprises: the 4th refrigeration or heating combined equipment 404.
The 4th refrigeration or heating combined equipment are connected with the cooling or heat-exchange system of turnover unit.
The first refrigeration or heating combined equipment 401 are connected with the salting liquid of outflow in damping unit heat exchange core body 8 in the hot wet process of air unit, for cooling or add hot-salt solution to strengthen its dehumidifying or humidification ability; Rely on electric control valve 11 to regulate the flow of the cold-producing medium distributing separately for the first refrigeration of solution-cold-producing medium heat exchange or heating combined equipment 401 and the outer defeated cold or heat medium system take cold-producing medium as carrier;
The 3rd refrigeration or heating combined equipment 403 are connected with the salting liquid flowing out in regeneration unit heat exchange core body 9 in the hot wet process of air unit, for heat or cooling salting liquid to strengthen its power of regeneration; The 4th refrigeration or heating combined equipment 404 with pass in and out the cooling or heat-exchange system of unit and be connected, carry out heat exchange with it, thereby dissipate the heat of condenser or draw heat therefrom;
Be used for the 3rd refrigeration or the heating combined equipment 403 of solution-cold-producing medium heat exchange and rely on electric control valve 11 to regulate the flow of the cold-producing medium distributing separately for the 4th refrigeration or the heating combined equipment 404 of cooling or the heat exchange of heat-exchange system-cold-producing medium;
Cold or heat source unit can arrange many groups as required, the first refrigeration or heating combined equipment 401, cold or heating agent output system, the 3rd refrigeration or heating combined equipment 403 take cold-producing medium as carrier, the 4th refrigeration or heating combined equipment 404, need to be according to the quantity of damping unit, cold or heating agent output system take cold-producing medium as carrier and regeneration unit, cooling or heat-exchange system coupling one by one with it, compressor 1 and expansion valve 3 can arrange one or more as required.
The hot wet process of air unit is made up of solution humidifying unit and regeneration of waste liquor unit.
Solution humidifying unit is made up of heat exchange core body 8, solution circulation pump 51, regeneration of waste liquor unit is made up of heat exchange 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, between damping core body 8 and regeneration core body 9, also have a set of solution matter exchange cycles pipeline and recuperation of heat plate type heat exchanger 6, recuperation of heat plate type heat exchanger 6 is for reducing the irreversible loss causing because solution temperature is different between damping core body 8 and regeneration core body 9; Solution humidifying unit, regeneration unit and solution matter exchange cycles pipeline thereof can according to except or humidification amount one or more groups need to be set.Heat recovery units by two gas-liquids directly the wet exchange of the upper heat of contact core body 71, lower heat wet exchange core body 72 and with it supporting solution circulation pipeline form, solution circulation pipeline is provided with solution circulation pump 53, and this heat recovery units can be according to need to arrange one group or many groups of heat recovery efficiency.
The unit of present embodiment when operation air and the flow process of solution as follows: first salting liquid is transported to by solution circulation pump in the wet exchange of upper heat core body 71, carry out caloic exchange with the air draft that enters heat exchange core body, the cold or the heat that absorb air draft flow into down in the wet exchange of heat core body 72 by solution line afterwards again, carry out caloic exchange with the air that enters this heat exchange core body, air is carried out to precooling, in advance dehumidifying or preheating, pre-humidifying, enter in the heat exchange core body 8 of damping unit through pretreated air, and the higher or lower salting liquid of concentration flowing out in heat exchange core body 8 through the first refrigeration heating combined equipment 401 is cooling or heating after, in heat exchange core body 8, carry out caloic exchange with air, air is sent into after by degree of depth dehumidifying, cooling or heating, humidification indoor, the concentration of salt solution that absorbs moisture in air or discharge after moisture reduces or raises, enter in regeneration unit heat exchange core body 9 by solution matter exchange cycles pipeline, and heat through the 3rd refrigeration or heating combined equipment 403 from the lower or higher salting liquid of concentration that flows out regeneration unit heat exchange core body 9 or cooling after, in regeneration unit heat exchange core body 9, carry out caloic exchange with air draft, moisture in salting liquid and heat enter in air draft or solution absorbs moisture and the heat in air draft, the concentration of solution raises or reduces, and then by the heat exchange core body 8 of solution matter exchange pipeline inflow damping unit, and carry out heat recovery with the rare or concentrated solution flowing into from heat exchange core body 8 regeneration unit heat exchange core body 9 by plate type heat exchanger 6.
Embodiment bis-
As shown in Figure 2, the preparing cold or heating agent and process the aircondition of the hot humidity load of air simultaneously of present embodiment,
Be with embodiment mono-difference:
Cold or heat source unit is made up of communication system, electric control valve 7 and refrigerant circulation line outside compressor 1, the 4th refrigeration or heating combined equipment 404, expansion valve 3, the first refrigeration or heating combined equipment 401, cold or heating agent take cold-producing medium as carrier;
First refrigeration or heating combined equipment 401 as cooling or heat(ing) coil, cooling for air is carried out, dehumidifying or heating;
The hot wet process of air unit by cooling and dehumidifying or heat(ing) coil 401, humidification module 8 and again thermal modules 9 form, the hot wet process of this air unit can according to cooling, except or heating, humidification amount one or more groups need to be set.
Heat recovery units is made up of a recuperation of heat runner 6, and this heat recovery units can be according to need to arrange one group or many groups of heat recovery efficiency.
The flow process of the unit of present embodiment air in the time of operation is as follows: caloic exchange is carried out in heat exchange runner and air draft, runner absorb the cold of air draft and moisture is discharged in air draft or runner absorb heat in air draft and moisture after rotation to the side of blowing, carry out caloic exchange with air, air is carried out to the pre-dehumidifying of precooling or preheating pre-humidifying; Enter in cooling and dehumidifying or heat(ing) coil through pretreated air, after further dehumidifying and cooling or heating, sent into indoor; The air draft of carrying out caloic exchange with runner is directly discharged to outdoor.
The above is only preferred embodiment of the present utility model; should be understood that; for those skilled in the art; do not departing under the prerequisite of the utility model know-why; can also make some improvement and modification, these improve and modification also should be considered as protection domain of the present utility model.
Claims (10)
1. can prepare cold or heating agent and process the aircondition of the hot humidity load of air simultaneously, it is characterized in that: comprise cold or heat source unit, air hot wet process unit and the outer defeated cold or heating agent pipeline take cold-producing medium as carrier;
Described cold or heat source unit, is used to the hot humidity load of processing air that cold or heat the outer defeated cold or heating agent take cold-producing medium as carrier of preparation are simultaneously provided;
The hot wet process of described air unit, can lower the temperature to air, dehumidification treatments or heating, add wet process;
Described cold or heat source unit comprises compressor, expansion valve and refrigerant circulation line, described refrigerant circulation line comprises the first main line, the second main line, the 3rd main line and the 4th main line, described the first main line is connected with the first link of the hot wet process of air unit by the first cold-producing medium input branch road, the first output of the hot wet process of air unit is connected with the input of compressor by the second main line, described the first main line is inputted branch road by second refrigerant and is directly connected the external world, the cold-producing medium flowing back to from the external world is exported branch road by second refrigerant and is flowed into the second main line,
The output of described compressor connects the 3rd main line, the 3rd main line is connected with the input of the cooling or heat-exchange system of turnover unit by the 4th cold-producing medium input branch road, the output of the cooling or heat-exchange system of turnover unit is communicated with the 4th main line by the 3rd cold-producing medium output branch road, and the 4th main line is connected with the first main line.
2. aircondition according to claim 1, is characterized in that: described the 3rd main line is connected with the second link of the hot wet process of air unit by the 3rd cold-producing medium input branch road, and the second output of the hot wet process of air unit is connected with the 4th main line.
3. aircondition according to claim 1, it is characterized in that: the hot wet process of described air unit is cooling and dehumidifying, warming and humidifying module and the regeneration module based on solution-type air-treatment technology, or module and the module combination of the air themperature such as frozen cooling dehumidifying, the heating of surface heat exchanging formula, steam humidification or electric humidification based on surface cooling air-treatment technology, humidity processing.
4. aircondition according to claim 3, it is characterized in that: the hot wet process of described air unit comprises the first refrigeration or heating combined equipment, solution humidifying unit, regeneration of waste liquor unit and circulation line, described solution humidifying unit comprises heat exchange core body, heat exchange core body is connected with the salting liquid that the first refrigeration or heating combined equipment flow out, regeneration of waste liquor unit comprises regeneration unit heat exchange core body and water compensating valve, and water compensating valve is the concentration with control solution to regeneration unit moisturizing; The first refrigeration or heating combined equipment are positioned on the first link of the hot wet process of air unit, and the first refrigeration or heating combined equipment are connected with the salting liquid flowing out in solution humidifying unit;
Also comprise the 3rd refrigeration or heating combined equipment and the 4th refrigeration or heating combined equipment, the 3rd refrigeration or heating combined equipment are positioned on the second link of the hot wet process of air unit, and be connected with the salting liquid in regeneration of waste liquor unit, the 4th refrigeration or heating combined equipment are connected with the cooling or heat-exchange system of turnover unit.
5. aircondition according to claim 4, is characterized in that: the hot wet process of described air unit by cooling and dehumidifying or heat(ing) coil, dehumidifying or humidification module and again thermal modules form.
6. aircondition according to claim 4, is characterized in that: between described heat exchange core body and regeneration unit heat exchange core body, be provided with solution matter exchange cycles pipeline and recuperation of heat plate type heat exchanger.
7. aircondition according to claim 1, it is characterized in that: described refrigerant circulation line is provided with multiple electric control valves, the first refrigeration or heating combined equipment, outer defeated cold heat medium system, the 3rd refrigeration or heating combined equipment, the 4th refrigeration or heating combined equipment all rely on electric control valve to regulate the flow of the cold-producing medium distributing separately.
8. aircondition according to claim 4, is characterized in that: described the first refrigeration or heating combined equipment are cooling or heat(ing) coil.
9. aircondition according to claim 1, is characterized in that: also comprise heat recovery units;
Described heat recovery units by two gas-liquids directly the wet exchange of the upper heat of contact core body, lower heat wet exchange core body and with it supporting solution circulation pipeline form, solution circulation pipeline is provided with solution circulation pump.
10. aircondition according to claim 9, is characterized in that: described heat recovery units is any one or the combination in the full heat recovery module of solution-type, runner heat recovery module and plate-type heat-exchange recycling module.
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320864106.7U CN203628881U (en) | 2013-12-25 | 2013-12-25 | Air conditioning device capable of preparing cooling media or heating media and simultaneously processing air heat and humidity loads |
Applications Claiming Priority (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201320864106.7U CN203628881U (en) | 2013-12-25 | 2013-12-25 | Air conditioning device capable of preparing cooling media or heating media and simultaneously processing air heat and humidity loads |
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| CN203628881U true CN203628881U (en) | 2014-06-04 |
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Cited By (5)
| Publication number | Priority date | Publication date | Assignee | Title |
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| CN103712291A (en) * | 2013-12-25 | 2014-04-09 | 刘拴强 | Air conditioning device capable of manufacturing coolants or heating media and simultaneously treating air heat loads and humidity loads |
| CN104456769A (en) * | 2014-12-22 | 2015-03-25 | 丛旭日 | Cooling tower type thermal force regeneration solution dehumidification unit |
| CN104501466A (en) * | 2014-12-22 | 2015-04-08 | 丛旭日 | Thermal regeneration solution dehumidifying unit of ground source heat pump |
| CN104501321A (en) * | 2014-12-22 | 2015-04-08 | 丛旭日 | Internal-cooled solution dehumidifying assembly |
| CN104833014A (en) * | 2015-05-03 | 2015-08-12 | 江苏格瑞力德空调制冷设备有限公司 | Solution type all-air air conditioning unit provided with all cold and heat sources and capable of transferring refrigerant and heating medium |
-
2013
- 2013-12-25 CN CN201320864106.7U patent/CN203628881U/en not_active Expired - Lifetime
Cited By (8)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN103712291A (en) * | 2013-12-25 | 2014-04-09 | 刘拴强 | Air conditioning device capable of manufacturing coolants or heating media and simultaneously treating air heat loads and humidity loads |
| CN103712291B (en) * | 2013-12-25 | 2017-01-11 | 刘拴强 | Air conditioning device capable of manufacturing coolants or heating media and simultaneously treating air heat loads and humidity loads |
| CN104456769A (en) * | 2014-12-22 | 2015-03-25 | 丛旭日 | Cooling tower type thermal force regeneration solution dehumidification unit |
| CN104501466A (en) * | 2014-12-22 | 2015-04-08 | 丛旭日 | Thermal regeneration solution dehumidifying unit of ground source heat pump |
| CN104501321A (en) * | 2014-12-22 | 2015-04-08 | 丛旭日 | Internal-cooled solution dehumidifying assembly |
| CN104456769B (en) * | 2014-12-22 | 2017-09-26 | 丛旭日 | The tower heating power actified solution dehumidifying unit of one kind cooling |
| CN104501321B (en) * | 2014-12-22 | 2017-10-24 | 丛旭日 | A kind of inner-cooled solution dehumidification unit |
| CN104833014A (en) * | 2015-05-03 | 2015-08-12 | 江苏格瑞力德空调制冷设备有限公司 | Solution type all-air air conditioning unit provided with all cold and heat sources and capable of transferring refrigerant and heating medium |
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Legal Events
| Date | Code | Title | Description |
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| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| C41 | Transfer of patent application or patent right or utility model | ||
| TR01 | Transfer of patent right |
Effective date of registration: 20160106 Address after: 100020 Beijing city Chaoyang District Datun Village No. 317 Kimcheon times Patentee after: BEIJING GERUI LIDE AIR CONDITIONER TECHNOLOGY CO., LTD. Address before: 100000 Beijing city Chaoyang District Datun Village No. 317 Kimcheon times 3 room 1208 Patentee before: Liu Shuanqiang |