CN101280950A - Air conditioner heat reusing system and energy-saving water supply system - Google Patents

Air conditioner heat reusing system and energy-saving water supply system Download PDF

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Publication number
CN101280950A
CN101280950A CNA2007100937245A CN200710093724A CN101280950A CN 101280950 A CN101280950 A CN 101280950A CN A2007100937245 A CNA2007100937245 A CN A2007100937245A CN 200710093724 A CN200710093724 A CN 200710093724A CN 101280950 A CN101280950 A CN 101280950A
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CN
China
Prior art keywords
water
heat
air
pipeline
energy
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Pending
Application number
CNA2007100937245A
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Chinese (zh)
Inventor
尹衍樑
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Ruentex Engineering and Construction Co Ltd
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Ruentex Engineering and Construction Co Ltd
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Filing date
Publication date
Application filed by Ruentex Engineering and Construction Co Ltd filed Critical Ruentex Engineering and Construction Co Ltd
Priority to CNA2007100937245A priority Critical patent/CN101280950A/en
Publication of CN101280950A publication Critical patent/CN101280950A/en
Pending legal-status Critical Current

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Abstract

The invention provides an air conditioner heat recycle system and energy-saving water supply system. The inventive air conditioner heat recycle system includes an air conditioner system and a heat utilization system. The air conditioner system includes a condenser for radiation of heat energy generated by the air conditioner system. The heat utilization system has a heat exchange terminal and output pipeline, wherein the heat exchange terminal is connected with the condenser to recycle heat energy generated by the air conditioner system and output the same by the output pipeline. The heat utilization system includes a water supply system, which has a first intake pipe connected to the condenser, and to the heat exchange terminal. When cold water enters the heat exchange terminal from the first intake pipe to be pre-heated, formed warm water is outputted through the output pipeline.

Description

Air-conditioning heat is utilized system and energy-saving water supply system thereof again
Technical field
The present invention utilizes system and energy-saving water supply system thereof again about a kind of air-conditioning heat; Particularly, the present invention by reclaiming the heat energy that air-conditioning system produced, saves the energy of the required use of water in the heating water system pipes about a kind of energy-saving water supply system.
Background technology
General air-conditioning system is air conditioner etc. for example, is to utilize evaporimeter, cold coal, fan etc. to do heat exchange, the continuous heat in the absorption chamber, and it is outdoor to be with cold coal that media goes out hot type, and indoor temperature is reduced, allow the people feel to feel nice and cool, comfortable.And now luxuriant be the separate cold of main flow, then further evaporimeter, blowing fan and condenser, compressor, heat extraction airduct are installed on respectively independently in the cabinet-be so-called indoor set with off-premises station-two machine between be connected with the different cold coal pipe of thickness, form the cold coal work loop of sealing, in order to heat in the absorption chamber, hot type is gone out; Connect control circuit in addition and between two machines, so that transmit the control signal to off-premises station by indoor set, the running of control off-premises station.
Figure 1 shows that known air-conditioning system.As shown in Figure 1, air-conditioning system 20 comprises fan 21, compressor reducer 30, air-cooled condenser 40, evaporimeter 50 and seal cold coal pipe 60.Wherein compressor reducer 30 compress on the one hand cold coal along the cold coal pipe 60 of sealing by air-cooled condenser 40, so that the heat energy that will the cold coal of high temperature be by compression had is discharged; On the other hand, cold by compression coal then along sealing cold coal pipe 60 through evaporimeters 50, form the cold coal of low temperature and absorb room air heat, and the use of collocation fan 21 and indoor temperature is reduced.Yet condenser continues that hot type is gone out the open air will cause outdoor temperature to raise, more not environmental protection and do not meet economy of energy benefit.
Summary of the invention
Main purpose of the present invention is to provide a kind of air-conditioning heat to utilize system again, and mat reclaims the heat energy that air-conditioning system produced and utilizes, to reach the target of energy-conserving and environment-protective.
Another object of the present invention is to provide a kind of air-conditioning heat to utilize energy-saving water supply system again, mat reclaims the heat energy that air-conditioning system produced, the preheating water in the water system pipes of heating, remove and reduce former air-conditioning system, also can save the energy of the required use of water in the heating water system pipes the outdoor warming effect that outdoor heat extraction caused.
Another object of the present invention is to provide a kind of air-conditioning heat to utilize energy-saving water supply system again, have higher economy of energy benefit, help the user to save the use and the expense expenditure of the energy.
Another object of the present invention is to provide a kind of air-conditioning heat to utilize the energy saving water supply method again, mat reclaims the heat energy that air-conditioning system produced, and the preheating water in the water system pipes of heating is to reach the target of energy-conserving and environment-protective.
Air-conditioning heat of the present invention utilizes system to comprise air-conditioning system and heat utilization system again.Air-conditioning system comprises condenser, for dispersing the heat energy that air-conditioning system produces.Heat utilization system has heat exchange end and export pipeline, and wherein heat exchange end mat links to each other with condenser, reclaiming the heat energy that air-conditioning system was produced, and exports from export pipeline.In preferred embodiment, heat utilization system comprises water system, has first inlet pipeline and is connected to condenser, and link to each other with the heat exchange end, when cold water enters after the preheating of heat exchange end heats from first inlet pipeline, will form warm water and export from export pipeline.Air-conditioning heat of the present invention is utilized system also to be contained in export pipeline 730 again external heat source 800 is set, further heat the warm water of exporting from water butt 740 for the user, with as having a bath or for other necessary purposes, so the user can save the energy of the required use of water in the heating water system pipes.
The present invention provides a kind of air-conditioning heat to utilize the energy saving water supply method more simultaneously, comprises following steps: at first connect inlet pipeline to condenser; Warm end tossing about and link to each other with condenser in inlet pipeline then is set; Heat at last and export from outlet pipeline from the cold water formation warm water of inlet pipeline input.
The accompanying drawing simple declaration
Figure 1 shows that the externally schematic diagram of heat radiation of known air-conditioning system;
Figure 2 shows that air-conditioning heat of the present invention utilizes a preferred embodiment of system again;
Figure 3 shows that air-conditioning heat of the present invention utilizes a preferred embodiment of energy-saving water supply system again;
Figure 4 shows that air-conditioning heat of the present invention utilizes the flow chart of steps of energy saving water supply method again.
The primary clustering symbol description
[known]
20 domestic air-conditioning systems
21 fans
30 compressor reducers
40 air-cooled condensers
50 evaporimeters
The cold coal pipe of 60 sealings
[the present invention]
100 air-conditioning heat are utilized energy-saving water supply system again
200 air-conditioning systems
210 fans
300 compressor reducers
400 condensers
500 evaporimeters
The cold coal pipe of 600 sealings
700 heat utilization systems, water system
710 first inlet pipelines, inlet pipeline
711 second inlet pipelines, auxiliary inlet pipeline
720 heat exchange ends, warm end
730 export pipelines, outlet pipeline
740 water butts
741 effluent switch
750 three-way control valves
760 non-return valves
770 pipeline switching device shifters
800 external heat sources
900 inductors
The specific embodiment
The invention provides a kind of air-conditioning heat and utilize system again, mat reclaims the heat energy that air-conditioning system produced and utilizes, to reach the target of energy-conserving and environment-protective.Air-conditioning heat of the present invention is utilized system to be preferably with water system again and is used, utilize energy-saving water supply system again to form a kind of air-conditioning heat, remove the heat energy that recyclable air-conditioning system produced, preheating is heated outside the water in the water system pipes, and can reduce former air-conditioning system to the outdoor warming effect that outdoor heat extraction caused, also can save the energy of the required use of water in the heating water system pipes.Yet in different embodiment, air-conditioning heat of the present invention is utilized system again, also can be used with other heat conducting device or thermmal storage device, mat reclaims the heat energy that air-conditioning system produced, provide thermostatic chamber, attemperator such as teapot seat, coffee pot seat etc., or other treats the heat energy that attemperator is required.Air-conditioning heat of the present invention utilizes energy-saving water supply system to be preferably buildings such as being applied to family expenses dwelling house, villa or dormitory, restaurant, hotel again.Yet in different embodiment, air-conditioning heat of the present invention utilizes energy-saving water supply system also to can be applicable to build as the combined type of commercial building, factory building, hospital ward, airport, station etc. or other type again.
Figure 2 shows that air-conditioning heat of the present invention utilizes a preferred embodiment of system again.Shown in the preferred embodiment of Fig. 2, air-conditioning heat of the present invention utilizes system to comprise air-conditioning system 200 and heat utilization system 700 again.The heat utilization system 700 of this place speech refers to a kind of system with heat conductivity, all can be by the physical phenomenon of heat exchange to reclaim the heat energy that air-conditioning system was produced and to be further user and all to call it.As shown in Figure 2, in this preferred embodiment, heat utilization system 700 of the present invention refers to general water system.Yet in different embodiment, heat utilization system 700 also can comprise use and have the pipeline system of height heat conductivity material as metal pipe line or other.
As shown in Figure 2, air-conditioning system 200 is preferably and comprises fan 210, compressor reducer 300, and condenser 400, evaporimeter 500 and seal cold coal pipe 600, wherein condenser 400 is for dispersing the heat energy that air-conditioning system 200 is produced.Shown in the preferred embodiment of Fig. 2, heat utilization system 700 has first inlet pipeline 710 including but not limited to water system, heat exchange end 720 and export pipeline 730.As shown in Figure 2, heat exchange end 720 is preferable to link to each other with condenser 400, reclaiming the heat energy that air-conditioning system 200 is produced, and from export pipeline 730 outputs.Yet in different embodiment, heat exchange end 720 also can link to each other with condenser 400 by the device of tool high thermal conductivity, to promote the organic efficiency of air-conditioning heat.
In embodiment as shown in Figure 2, first inlet pipeline 710 is preferably and is connected to condenser 400, and links to each other with heat exchange end 730.In this preferred embodiment, condenser 400 is a water cooled condenser, and first inlet pipeline 710 is connected to water cooled condenser, and carries out heat exchange in heat exchange end 720.When cold water enters after 720 preheatings of heat exchange end heat from first inlet pipeline 710, will form warm water from export pipeline 730 outputs.In addition, in other preferred embodiment, condenser 400 also comprises the use air-cooled condenser, and heat utilization system 700 comprises heat collector (not illustrating) in addition and is loaded into air-cooled condenser, and can link to each other on heat conduction ground with heat exchange end 720.When cold water after first inlet pipeline 710 enters heat exchange end 720 and heats, form warm water from export pipeline 730 outputs.Yet in difference was implemented, air-conditioning heat of the present invention was utilized the employed condenser 400 of system also to comprise again and is used condenser or other the similar equal product that have air cooling and water-cooled function concurrently.And first inlet pipeline 710 and the temperature contrasts that produced through heat exchange end 720 backs, will be with the scale of the height of outside room temperature or air-conditioning system and the duration of service time and slightly different.
Shown in the preferred embodiment of Fig. 2, air-conditioning heat of the present invention is utilized system to comprise water butt 740 in addition again and is arranged between heat exchange end 720 and the export pipeline 730, for being stored to water butt 740 after 720 outputs of warm water self-heating exchange end.As shown in Figure 2, water butt 740 is preferably and further is provided with effluent switch 741, uses it on demand for the user.The use on demand of this place speech refers to that warm water that the user can be stored with water butt 740 is as the usefulness that generally cleans washing.Yet in other preferred embodiment, also be contained in export pipeline 730 external heat source 800 be set, for the user further heating from the warm water of water butt 740 outputs, with as having a bath or being other necessary purposes.In this preferable enforcement, the user can save the energy of the required use of water in the heating water system pipes.
As shown in Figure 2, air-conditioning heat is utilized preferable second inlet pipeline 711 and the three-way control valve 750 of comprising in addition of system again, wherein three-way control valve 750 is arranged between first inlet pipeline 710 and the condenser 400,711 of second inlet pipelines connect three-way control valve 750 and export pipeline 730 respectively, when warm water holds full water butt 740, three-way control valve 750 closed first inlet pipelines 710, and open second inlet pipeline 711.Shown in the preferred embodiment of Fig. 2, air-conditioning heat utilizes system to comprise the confluce that pipeline switching device shifter 770 is arranged at second inlet pipeline 711 and export pipeline 730 in addition again, when condenser 400 stops to disperse heat energy, pipeline switching device shifter 770 switches export pipelines 730 to second inlet pipelines 711.That is, in this preferred embodiment, second inlet pipeline 711 is as the spare duct of first inlet pipeline 710, be in the state that holds full warm water and further be not used when water butt 740, or air-conditioning system is in closed condition and condenser stops to disperse heat energy, then pipeline switching device shifter 770 switches to second inlet pipeline 711 becomes main supply channel, to reach the purpose that water temperature is kept and pipeline is unobstructed.Base this, air-conditioning heat of the present invention utilizes that system is preferable also to be contained in water butt 740 and 711 of second inlet pipelines are provided with non-return valve 760 again, to reach aforementioned purpose, as shown in Figure 2.In this preferred embodiment, air-conditioning heat is utilized system to comprise inductor 900 (indicate) in addition to link to each other with water butt 740 and three-way control valve 750 and detect water butt 740 interior water levels again, when warm water holds full water butt 740, inductor 900 control three-way control valves 750 closed first inlet pipelines 710, and open second inlet pipeline 711.Hold full water butt 740 and work as warm water, inductor 900 control heat exchange ends 720 stop self cooling condenser 400 and reclaim heat energy.
The present invention provides a kind of air-conditioning heat to utilize energy-saving water supply system more simultaneously.As shown in Figure 3, air-conditioning heat utilizes energy-saving water supply system 100 to comprise aircondition 200 again, has condenser 400, for dispersing the heat energy that aircondition 200 is produced.Shown in the preferred embodiment of Fig. 3, air-conditioning heat utilizes energy-saving water supply system 100 to comprise inlet pipeline 710 again, warm end 720 and outlet pipeline 730.Wherein inlet pipeline 710 links to each other with condenser 400, warm end 720 is arranged at tossing about of inlet pipeline 710 and joins with condenser 400, form warm water for reclaiming the heat energy and the cold water of heating, when cold water enters warm end 720 from inlet pipeline 710 by condenser 400, will form warm water from outlet pipeline 730 outputs.
Shown in the preferred embodiment of Fig. 3, air-conditioning heat is utilized energy-saving water supply system 100 again, and other comprises water butt 740 and is arranged between warm end 720 and the outlet pipeline 730, is stored to water butt 740 for warm water after warm end 720 outputs.As shown in Figure 3, water butt 740 further comprises effluent switch 741, uses warm water on demand for the user.As shown in Figure 3, the air-conditioning heat utilization energy-saving water supply system 100 preferable outlet pipelines 730 that are contained in of the present invention are provided with external heat source 800, for the user further heating from the warm water of water butt 740 outputs, with as having a bath or being other necessary purposes.In this preferable enforcement, the user can save the energy of the required use of water in the heating water system pipes.
As shown in Figure 3, air-conditioning heat is utilized energy-saving water supply system 100 preferable auxiliary inlet pipeline 711 and the three-way control valves 750 of comprising in addition again, wherein three-way control valve 750 is arranged between inlet pipeline 710 and the condenser 400, auxiliary inlet pipeline 711 connects three-way control valve 750 and outlet pipeline 730 respectively, when warm water holds full water butt, three-way control valve 750 closed inlet pipelines 710, and open auxiliary inlet pipeline 711.Shown in the preferred embodiment of Fig. 3, air-conditioning heat utilizes energy-saving water supply system 100 to comprise the confluce that pipeline switching device shifter 770 is arranged at auxiliary inlet pipeline 711 and outlet pipeline 730 in addition again, when condenser 400 stops to disperse heat energy, pipeline switching device shifter 770 switching water discharging pipelines 730 are to auxiliary inlet pipeline 711.That is, in this preferred embodiment, auxiliary inlet pipeline 711 is as the spare duct of inlet pipeline 710, be in the state that holds full warm water and further be not used when water butt 740, or air-conditioning system is in closed condition and condenser 400 stops to disperse heat energy, then pipeline switching device shifter 770 switches to auxiliary inlet pipeline 711 becomes main supply channel, to reach the purpose that water temperature is kept and pipeline is unobstructed.Base this, air-conditioning heat of the present invention utilizes that energy-saving water supply system 100 is preferable also to be contained in water butt 740 and 711 of auxiliary inlet pipelines are provided with non-return valve 760 again, to reach aforementioned purpose, as shown in Figure 3.In this preferred embodiment, air-conditioning heat is utilized energy-saving water supply system 100 to comprise inductor 900 in addition to link to each other with water butt 740 and three-way control valve 750 and detect water levels in the water butt 740 again, when warm water holds full water butt 740, inductor 900 control three-way control valves 750 closed inlet pipelines 710, and open auxiliary inlet pipeline 711.Hold full water butt 740 and work as warm water, inductor 900 further control warm end 720 stops self cooling condenser 400 recovery heat energy.
The present invention provides a kind of air-conditioning heat to utilize the energy saving water supply method more simultaneously.Figure 4 shows that air-conditioning heat of the present invention utilizes the flow chart of steps of energy saving water supply method preferred embodiment again.As shown in Figure 4, at first carry out step 1010, connect inlet pipeline to condenser; Then carry out step 1030, warm end tossing about and link to each other with condenser in inlet pipeline is set; Carry out step 1050 at last, heat and export from outlet pipeline from the cold water formation warm water of inlet pipeline input.In this preferred embodiment, when carrying out step 1050, the preferable warm end that is contained in addition is provided with water butt, with the warm water of temporary transient storage from warm end output, when treating the demand of use, starts from outlet pipeline output.In addition, step 1050 is preferable also be contained in water butt and outlet pipeline between external heat source is set, heat warm water as having a bath or being other necessary purposes for the user.
Air-conditioning heat of the present invention utilize again the energy saving water supply method preferable be contained in addition carry out step 1050 after, auxiliary inlet pipeline step is set, auxiliary inlet pipeline promptly is set connects outlet pipeline, and between inlet pipeline and condenser, three-way control valve is set, and auxiliary inlet pipeline of connection and three-way control valve, wherein work as warm water and hold full water butt, the closed inlet pipeline of three-way control valve, and open auxiliary inlet pipeline.The confluce that aforesaid step is contained in auxiliary inlet pipeline and outlet pipeline in addition is provided with the pipeline switching device shifter, and when condenser stops to disperse heat energy, pipeline switching device shifter switching water discharging pipeline is to assisting inlet pipeline.
The present invention is described by above-mentioned related embodiment, yet the foregoing description is only for implementing example of the present invention.Must be pointed out that the embodiment that has disclosed does not limit the scope of the invention.On the contrary, being contained in the modification of the spirit of claim and scope and equalization is provided with and all is contained in the scope of the present invention.

Claims (10)

1. an air-conditioning heat is utilized system again, it is characterized in that, comprises:
One air-conditioning system has a condenser, for dispersing the heat energy that air-conditioning system produces; And
One heat utilization system has a heat exchange end and an export pipeline, and wherein the heat exchange end links to each other with condenser, reclaims the heat energy that air-conditioning system produced, and exports from export pipeline.
2. air-conditioning heat as claimed in claim 1 is utilized system again, it is characterized in that, heat utilization system comprises a water system, have one first inlet pipeline and be connected to condenser, and link to each other with the heat exchange end, when a cold water after first inlet pipeline enters the heat exchange end and heats, form a warm water and export from export pipeline.
3. air-conditioning heat as claimed in claim 2 is utilized system again, it is characterized in that, other comprises a water butt and an external heat source, water butt is arranged between heat exchange end and the export pipeline, for being stored to water butt after the output of warm water self-heating exchange end, external heat source is arranged at export pipeline, further heats the warm water of exporting from water butt for the user.
4. an air-conditioning heat is utilized energy-saving water supply system again, it is characterized in that, comprises:
One aircondition has a condenser, for dispersing the heat energy that aircondition produces;
One inlet pipeline links to each other with condenser, for input one cold water;
One warm end is arranged at tossing about and joining with condenser of inlet pipeline, forms a warm water for reclaiming the heat energy and the cold water of heating; And
One outlet pipeline is for output warm water.
5. air-conditioning heat as claimed in claim 4 is utilized energy-saving water supply system again, it is characterized in that, other comprises a water butt and an external heat source, water butt is arranged between warm end and the outlet pipeline, be stored to water butt for warm water after warm end output, external heat source is arranged at outlet pipeline, for the warm water of the further heating of user from water butt output, water butt also further comprises an effluent switch, uses warm water on demand for the user.
6. air-conditioning heat as claimed in claim 5 is utilized energy-saving water supply system again, it is characterized in that, other comprises an auxiliary inlet pipeline and a three-way control valve, wherein three-way control valve is arranged between inlet pipeline and the condenser, auxiliary inlet pipeline connects three-way control valve and outlet pipeline respectively, when warm water holds full water butt, the closed inlet pipeline of three-way control valve, and open auxiliary inlet pipeline.
7. air-conditioning heat as claimed in claim 6 is utilized energy-saving water supply system again, it is characterized in that other comprises:
One non-return valve is arranged between water butt and the auxiliary inlet pipeline; And
One inductor links to each other with water butt and three-way control valve and detects water level in the water butt, when warm water holds full water butt, and the closed inlet pipeline of inductor control three-way control valve, and open auxiliary inlet pipeline.
8. air-conditioning heat as claimed in claim 7 is utilized energy-saving water supply system again, it is characterized in that, wherein inductor further links to each other with water butt and condenser, and when warm water holds full water butt, inductor control heat exchange end stops self cooling condenser and reclaims heat energy.
9. air-conditioning heat as claimed in claim 8 is utilized energy-saving water supply system again, it is characterized in that, other comprises the confluce that a pipeline switching device shifter is arranged at auxiliary inlet pipeline and outlet pipeline, and when condenser stops to disperse heat energy, pipeline switching device shifter switching water discharging pipeline is to assisting inlet pipeline.
10. an air-conditioning heat is utilized the energy saving water supply method again, it is characterized in that, comprises following steps:
Connect inlet pipeline to a condenser;
One warm end tossing about and link to each other with condenser in inlet pipeline is set; And
The cold water from inlet pipeline input of heating forms a warm water and exports from an outlet pipeline.
CNA2007100937245A 2007-04-05 2007-04-05 Air conditioner heat reusing system and energy-saving water supply system Pending CN101280950A (en)

Priority Applications (1)

Application Number Priority Date Filing Date Title
CNA2007100937245A CN101280950A (en) 2007-04-05 2007-04-05 Air conditioner heat reusing system and energy-saving water supply system

Applications Claiming Priority (1)

Application Number Priority Date Filing Date Title
CNA2007100937245A CN101280950A (en) 2007-04-05 2007-04-05 Air conditioner heat reusing system and energy-saving water supply system

Publications (1)

Publication Number Publication Date
CN101280950A true CN101280950A (en) 2008-10-08

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Family Applications (1)

Application Number Title Priority Date Filing Date
CNA2007100937245A Pending CN101280950A (en) 2007-04-05 2007-04-05 Air conditioner heat reusing system and energy-saving water supply system

Country Status (1)

Country Link
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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103453629A (en) * 2012-05-31 2013-12-18 苏州萃智新技术开发有限公司 Device and system for air-conditioner energy recovery

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
CN103453629A (en) * 2012-05-31 2013-12-18 苏州萃智新技术开发有限公司 Device and system for air-conditioner energy recovery

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Open date: 20081008