CN202532601U - Air source and electrical energy combined heating system with phase change material - Google Patents
Air source and electrical energy combined heating system with phase change material Download PDFInfo
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- CN202532601U CN202532601U CN2012200124335U CN201220012433U CN202532601U CN 202532601 U CN202532601 U CN 202532601U CN 2012200124335 U CN2012200124335 U CN 2012200124335U CN 201220012433 U CN201220012433 U CN 201220012433U CN 202532601 U CN202532601 U CN 202532601U
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- change material
- air source
- heat storage
- water tank
- storage water
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
- Y02—TECHNOLOGIES OR APPLICATIONS FOR MITIGATION OR ADAPTATION AGAINST CLIMATE CHANGE
- Y02E—REDUCTION OF GREENHOUSE GAS [GHG] EMISSIONS, RELATED TO ENERGY GENERATION, TRANSMISSION OR DISTRIBUTION
- Y02E60/00—Enabling technologies; Technologies with a potential or indirect contribution to GHG emissions mitigation
- Y02E60/14—Thermal energy storage
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Abstract
The utility model discloses an air source and electrical energy combined heating system with a phase change material. The system comprises a heat storage water tank, an electric instant heating assembly, a geothermal system, a heating system, a phase change material box and an air source assembly, wherein the heat storage water tank is connected with the electric instant heating assembly by a water outlet pipe, and the electric instant heating assembly is connected with the geothermal system and the heating system; a water passage circulating pipeline is arranged between the heat storage water tank and the phase change material box; a medium circulating pipeline is arranged among the heat storage water tank, the air source assembly and the phase change material box; a heat conducting medium is filled in the medium pipeline; and the heat conducting medium is heated through the air source assembly, flows through the phase change material box and the heat storage water tank and returns to the air source assembly through the medium pipeline. By adopting the technical scheme, heat produced by the air source heating assembly of the heating system is stored and released by using the phase change material in the phase change material box, so that the air source heating assembly is used in an off-peak mode, and aims of high efficiency and energy conservation are fulfilled.
Description
Technical field
The utility model relates to a kind of circulation heating system, relates in particular to a kind of with the air source of phase-change material and the heating system of electric energy combination use.
Background technology
At present, the heating system in the people family generally provides thermal source by electric heater, solar energy or air source etc., and in use, general whole day opening power all is so that can use hot water at any time.In this process, heater is worked repeatedly wastes a lot of energy, lacks the device of a heat energy storage.Phase-change material is by solid-state liquefy or becoming solid-state process from liquid state is called phase transition process, and phase-change material can absorb or be released into a large amount of latent heat in the phase transition process.Also find at present to have phase-change material is applied in the circulation heating system device as heat energy storage.
Summary of the invention
The purpose of the utility model provides a kind of heating system that uses with the air source and the electric energy combination of phase-change material and satisfies people's demand.
For realizing above-mentioned purpose, the heating system that the air source of the utility model band phase-change material and electric energy combination are used comprises heat storage water tank, electric instant-heating type heating assembly, geothermal system, heating system; Heat storage water tank is provided with the water inlet manifold that is connected with outside network; Heat storage water tank is connected by the inlet pipeline of outlet pipe with electric instant-heating type heating assembly; The outlet pipeline of electric instant-heating type heating assembly connects geothermal system and heating system; Geothermal system is connected heat storage water tank with heating system through return pipe, also is provided with on the electric instant-heating type heating assembly and uses water out, and said heating system also comprises phase-change material case and air source assembly; Be provided with phase-change material in the phase-change material case, be provided with the water route circulation line between heat storage water tank and the phase-change material case; Be provided with the medium circulation pipeline between heat storage water tank, air source assembly, the phase-change material case three, heat-conducting medium is in medium pipeline, and heat-conducting medium heats flow through successively phase-change material case and heat storage water tank through the air source assembly, gets back to the air source assembly by medium pipeline again.
Said phase-change material is organic phase change material, inorganic phase-changing material or composite phase-change material.
Also be provided with automatically reset temperature controller and thermal cut-out protector on the described electric instant-heating type heating assembly, water inlet thalposis head is arranged on the inlet pipeline, and water outlet thalposis head is arranged on the outlet pipeline.
Said air source assembly also comprises condenser, compressor, evaporimeter, electric expansion valve; Wherein, Condenser, compressor, evaporimeter, electric expansion valve are through the medium circulation pipeline connection that circulates successively; Be provided with the refrigerant that circulates in the medium circulation pipeline, the water inlet end of condenser is connected tube connector with the water side.
Also be provided with temp control switch and pressure relief valve on the described heat storage water tank.
Also be provided with water level switch on the described heat storage water tank, the heat storage water tank bottom is provided with the cleaning valve.
The hot water outlet pipeline of said heat storage water tank is provided with residual neat recovering system, and residual neat recovering system is provided with heat-exchange device.
The utility model adopts above technical scheme, utilizes phase-change material in the phase-change material case to realize storage and release that the air source heating assembly to heating system produces heat, makes uses of avoiding the peak hour of air source heating assembly, reaches efficiently and purpose of energy saving.The user does not need whole day to open air source heating assembly or electric instant-heating type heating assembly like this, can directly use hot water and heating system after going home, and promptly conserver power source is user-friendly to again.
Description of drawings
Below in conjunction with the accompanying drawing and the specific embodiment the utility model is done further detailed explanation:
Fig. 1 is the structural representation of the heating system that uses of air source and the electric energy combination of the band phase-change material of the utility model;
Fig. 2 is the structural representation of the heat storage water tank part of the utility model;
Fig. 3 is the structural representation of the electric instant-heating type heating assembly part of the utility model;
Fig. 4 is the structural representation of the air source assembly part of the utility model.
The specific embodiment
Shown in one of Fig. 1-4, the utility model comprises heat storage water tank 1, electric instant-heating type heating assembly 2, geothermal system 3, heating system 4; Heat storage water tank 1 is provided with the water inlet manifold 11 that is connected with outside network; Heat storage water tank 1 is connected by the inlet pipeline 21 of outlet pipe 12 with electric instant-heating type heating assembly 2; The outlet pipeline 22 of electric instant-heating type heating assembly 2 connects geothermal system 3 and heating system 4; Geothermal system 3 is connected heat storage water tank 1 with heating system 4 through return pipe 5, also is provided with water out 23 on the electric instant-heating type heating assembly 2, and said heat supply heating system also comprises phase-change material case 6 and air source assembly 7; Be provided with phase-change material in the phase-change material case 6, be provided with water route circulation line 61 between heat storage water tank 1 and the phase-change material case 6; Be provided with the medium circulation pipeline between heat storage water tank 1, air source assembly 7, phase-change material case 6 threes; Heat-conducting medium is in medium pipeline; Heat-conducting medium heats flow through successively phase-change material case 6 and heat storage water tank 1 through air source assembly 7, gets back to air source assembly 7 by medium pipeline again.
Said phase-change material is organic phase change material, inorganic phase-changing material or composite phase-change material.
Also be provided with automatically reset temperature controller 24 and thermal cut-out protector 25 on the described electric instant-heating type heating assembly 2, water inlet thalposis head 26 is arranged on the inlet pipeline 21, and water outlet thalposis head 27 is arranged on the outlet pipeline 22.The temperature controller 24 that automatically resets, thermal cut-out protector 25 on the electric instant-heating type heating assembly 2 can accurately control the heating cup temperature, prevent dry combustion method.
Said air source assembly 7 also comprises condenser 71, compressor 72, evaporimeter 73, electric expansion valve 74; Wherein, Condenser 71, compressor 72, evaporimeter 73, electric expansion valve 74 are through the medium circulation pipeline connection that circulates successively; Be provided with the refrigerant that circulates in the medium circulation pipeline, the water inlet end of condenser 71 is connected tube connector with the water side.
The hot water outlet pipeline 12 of said heat storage water tank 1 is provided with residual neat recovering system 8, and residual neat recovering system 8 is provided with heat-exchange device 81.
Also be provided with temp control switch 13 and pressure relief valve 14 on the described heat storage water tank 1; When the water preheat in the heat storage water tank 1 during to first design temperature; Temp control switch 13 on the heat storage water tank 1 cuts off the power supply of air source assembly 7, and air source assembly 7 stops the water in the heat storage water tank 1 is heated; When the water in the heat storage water tank 1 was reduced to first design temperature, the temp control switch 13 on the heat storage water tank 1 was connected the power supply of air source assembly 7, the water heating in 7 pairs of heat storage water tanks 1 of air source assembly; When the water in the heat storage water tank 1 was higher than second design temperature, the pressure relief valve 14 on the temp control switch 13 control heat storage water tanks 1 was opened pressure release, prevents hypertonia in the heat storage water tank 1.
Also be provided with water level switch 15 on the described heat storage water tank 1, when heat storage water tank 1 middle water level was lower than desired location, water level switch 15 will be connected power of electromagnetic valve automatically, let water pass through water inlet manifold 11 and got into heat storage water tank 1, and water level adds to desired location automatically.Heat storage water tank 1 bottom is provided with cleaning valve 16, has used and can open the cleaning valve 16 that is located at heat storage water tank 1 bottom a period of time of after and carry out the cleaning of heat storage water tank 1.
When the heat supply heating system of the utility model is worked, connect the power supply of air source assembly 7 earlier, aerofoil fan 75 entrys into service; Outdoor air carries out heat exchange through evaporimeter 73; Air after temperature reduces is discharged system by fan, and simultaneously, evaporimeter 73 inner refrigerant heat absorption vaporizations are inhaled into compressor 72; Compressor 72 with this low pressure refrigerant (working medium) gas be compressed into high temperature, gases at high pressure are sent into the medium coil pipe; Get into phase-change material case 6, after phase-change material is heated, flow to 1 pair of cold water heating of heat storage water tank by medium pipeline again.At this moment the cold water in the heat storage water tank 1 will be heated by refrigerant; And refrigerant is cooled into liquid; This liquid inflow evaporator 73 once more after expansion valve 74 throttlings coolings carries out above-mentioned circulation and constantly row heating when going out the cold water in the heat storage water tank 1 again, also constantly phase-change material is heated; Let phase-change material from solid-state liquefy, thereby stored a large amount of heats.
At this moment air source heating assembly 7 will quit work; The water route circulation line 61 that water in the heat storage water tank 1 can pass through gets into phase-change material case 6; Phase-change material in the phase-change material case 6 can heat the water in the heat storage water tank 1 in heat release; Let uses of avoiding the peak hour of air source heating assembly 7, reach efficiently and purpose of energy saving.
When the water preheat in the heat storage water tank 1 arrived temperature, the temp control switch 13 on the heat storage water tank 1 will cut off the power supply of air source assembly 7, let air source assembly 7 stop heating.If the water temperature in the heat storage water tank 1 continue to raise again, this is that pressure relief valve 14 on the heat storage water tank 1 is just started working, and is excessive to prevent heat storage water tank 1 pressure.
The outlet pipe 12 of heat storage water tank 1 and electric instant-heating type heating assembly 2 is connected, electric instant-heating type heat assembly 2 with being connected to several outlet terminals (as: shower house, bathtub, washbowl etc.) on the water out 23, connect geothermal system 3, connect heating system 4.When the user will use; After setting leaving water temperature on the electric instant-heating type heating assembly 2; Only need open certain terminal that is connected on electric instant-heating type heating assembly 2 usefulness the water outs 23, at this moment be located at the water inlet thalposis head 26 on electric instant-heating type heating assembly 2 inlet pipelines and be located at the water outlet thalposis head 27 that electric instant-heating type heats on assembly 2 outlet pipelines and will distinguish collecting temperature; And together feed back to the temperature that is collected the Electronic Control plate of electric instant-heating type heating assembly 2; Through the calculating of Electronic Control plate, thereby reach best water outlet effect, and accomplish effluent temperature constancy with minimum power output.When the geothermal system 3 of can flowing through through electric instant-heating type heating assembly 2 heated hot water carries out room (as: bedroom, parlor, kitchen, toilet etc.) are heated with heating system 4; The hot water of geothermal system of flowing through 3 and heating system 4 is got back to again in the heat storage water tank 1 through water return pipeline 5; So circulation heats; Also maybe be through regulating switch on geothermal system 3 and the heating system 4, the speed of regulating heating.
When opening, the user picks out water terminal (as: shower house, bathtub, washbowl etc.) on electric instant-heating type heating assembly 2 usefulness the water outs 23, during use hot water.People have a bath the hot water of usefulness usually generally in 40 deg.c, and hot water washes away and flows through when flowing into sewer behind the health, and water temperature still remains on 35 deg.c, and a lot of heats all are discharged in the sewer and have gone, thereby have wasted most of energy.Waste heat recovery module 8 is exactly to utilize this part heat, and the mode through heat exchange heats this part heat recovery to the water from reclaim line again.
Claims (6)
1. the heating system of the air source of band phase-change material and electric energy combination use comprises heat storage water tank, electric instant-heating type heating assembly, geothermal system, heating system; Heat storage water tank is provided with the water inlet manifold that is connected with outside network; Heat storage water tank is connected by the inlet pipeline of outlet pipe with electric instant-heating type heating assembly; The outlet pipeline of electric instant-heating type heating assembly connects geothermal system and heating system; Geothermal system is connected heat storage water tank with heating system through return pipe, also is provided with on the electric instant-heating type heating assembly and uses water out, and it is characterized in that: said heating system also comprises phase-change material case and air source assembly; Be provided with phase-change material in the phase-change material case, be provided with the water route circulation line between heat storage water tank and the phase-change material case; Be provided with the medium circulation pipeline between heat storage water tank, air source assembly, the phase-change material case three, heat-conducting medium is in medium pipeline, and heat-conducting medium heats flow through phase-change material case and heat storage water tank through the air source assembly, gets back to the air source assembly by medium pipeline again.
2. the heating system that the air source of band phase-change material according to claim 1 and electric energy combination are used; It is characterized in that: also be provided with automatically reset temperature controller and thermal cut-out protector on the described electric instant-heating type heating assembly; Water inlet thalposis head is arranged on the inlet pipeline, and water outlet thalposis head is arranged on the outlet pipeline.
3. the heating system that the air source of band phase-change material according to claim 1 and electric energy combination are used; It is characterized in that: said air source assembly also comprises condenser, compressor, evaporimeter, electric expansion valve; Wherein, Condenser, compressor, evaporimeter, electric expansion valve are provided with the refrigerant that circulates through the medium circulation pipeline connection that circulates successively in the medium circulation pipeline, the water inlet end of condenser is connected tube connector with the water side.
4. the heating system that the air source of band phase-change material according to claim 1 and electric energy combination are used is characterized in that: also be provided with temp control switch and pressure relief valve on the described heat storage water tank.
5. the heating system that the air source of band phase-change material according to claim 1 and electric energy combination are used is characterized in that: also be provided with water level switch on the described heat storage water tank, the heat storage water tank bottom is provided with the cleaning valve.
6. the heating system that the air source of band phase-change material according to claim 1 and electric energy combination are used, it is characterized in that: the hot water outlet pipeline of said heat storage water tank is provided with residual neat recovering system, and residual neat recovering system is provided with heat-exchange device.
Priority Applications (1)
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CN2012200124335U CN202532601U (en) | 2012-01-11 | 2012-01-11 | Air source and electrical energy combined heating system with phase change material |
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CN2012200124335U CN202532601U (en) | 2012-01-11 | 2012-01-11 | Air source and electrical energy combined heating system with phase change material |
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CN2012200124335U Expired - Fee Related CN202532601U (en) | 2012-01-11 | 2012-01-11 | Air source and electrical energy combined heating system with phase change material |
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Cited By (3)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104006691A (en) * | 2013-12-19 | 2014-08-27 | 惠州市合之宝环境设备有限公司 | Phase change heat storage unit |
CN104879819A (en) * | 2015-06-02 | 2015-09-02 | 太原绿佳环保开发有限公司 | Air energy heating system utilizing direct heating type superconducting radiator |
CN105042679A (en) * | 2015-08-27 | 2015-11-11 | 江苏天舒电器有限公司 | Dynamic control device of heating heat pump |
-
2012
- 2012-01-11 CN CN2012200124335U patent/CN202532601U/en not_active Expired - Fee Related
Cited By (5)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN104006691A (en) * | 2013-12-19 | 2014-08-27 | 惠州市合之宝环境设备有限公司 | Phase change heat storage unit |
CN104879819A (en) * | 2015-06-02 | 2015-09-02 | 太原绿佳环保开发有限公司 | Air energy heating system utilizing direct heating type superconducting radiator |
CN104879819B (en) * | 2015-06-02 | 2018-10-30 | 太原绿佳环保开发有限公司 | A kind of air energy heating system using directly-heated type superconducting radiator |
CN105042679A (en) * | 2015-08-27 | 2015-11-11 | 江苏天舒电器有限公司 | Dynamic control device of heating heat pump |
CN105042679B (en) * | 2015-08-27 | 2017-12-22 | 江苏天舒电器有限公司 | A kind of water heating heat pump device for controlling dynamically |
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Date | Code | Title | Description |
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C14 | Grant of patent or utility model | ||
GR01 | Patent grant | ||
CF01 | Termination of patent right due to non-payment of annual fee | ||
CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20121114 Termination date: 20190111 |