CN208090786U - A kind of accumulation of energy interconnection heat pump system - Google Patents
A kind of accumulation of energy interconnection heat pump system Download PDFInfo
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- CN208090786U CN208090786U CN201820452729.6U CN201820452729U CN208090786U CN 208090786 U CN208090786 U CN 208090786U CN 201820452729 U CN201820452729 U CN 201820452729U CN 208090786 U CN208090786 U CN 208090786U
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/20—Solar thermal
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/40—Geothermal heat-pumps
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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
- Y02B—CLIMATE CHANGE MITIGATION TECHNOLOGIES RELATED TO BUILDINGS, e.g. HOUSING, HOUSE APPLIANCES OR RELATED END-USER APPLICATIONS
- Y02B10/00—Integration of renewable energy sources in buildings
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
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Abstract
The utility model embodiment discloses a kind of accumulation of energy interconnection heat pump system, including:Phase change energy storage apparatus, air-source assistant subsystem, solar energy assistant subsystem, underground heat assistant subsystem and water source assistant subsystem, phase change energy storage apparatus by heat exchanger respectively with air-source assistant subsystem, solar energy assistant subsystem, underground heat assistant subsystem and water source assistant subsystem are connected, air-source assistant subsystem, solar energy assistant subsystem, underground heat assistant subsystem and water source assistant subsystem utilize the various free energy to greatest extent, phase change energy storage apparatus plays its phase-changing energy-storing, it is cold and hot to flow and adjust the function of storing and put, it overcomes single water source heat pump system or air source heat pump system is limited by use condition when in use, meet the heating demands under a variety of use conditions.
Description
Technical field
The present invention relates to technical field of heat exchange more particularly to a kind of accumulation of energy to interconnect heat pump system.
Background technology
Northern heat supply heating is generally used the hot water heating of the fuel combustions such as coal, oil generation, but the fuel such as coal, oil fire
It burns the exhaust gas generated and serious influence is caused on air quality, prodigious harm is also brought to the body of northern resident, using new
The energy or novel device solve the problems, such as that the heating of north of china in winter is extremely urgent.In recent years, the north is begun attempt to using heat
Pump-type heat supply process meets the Winter heat supply demand of northern resident.
Heat pump system is broadly divided into air source heat pump system and water source heat pump system, and heat pump system includes compressor, heating
Heat exchanger (condenser), refrigeration heat exchanger (evaporator), the basic functional principle of pump type heat heating system:It first passes through
Compressor compresses the gaseous refrigerant of low-temp low-pressure, to become the gaseous refrigerant of high temperature and pressure, then passes through system
The heat exchanger of heat makes the gaseous refrigerant of high temperature and pressure become the liquid refrigerant of cryogenic high pressure, the liquid refrigeration of cryogenic high pressure
Agent absorbs the gaseous refrigerant that evaporation becomes low-temp low-pressure using the heat exchanger of refrigeration.Pass through intermediary refrigerant in this way
Conduction of heat realize thermal energy transfer, to realize the heating effect of many places.
But the lower north of temperature provides a large amount of water temperature and is higher than for water source heat pump heat supply system in winter
The underground water of ambient air temperature is relatively difficult to provide the water with enough heats to evaporator;For air source heat pump
For heating system, environment temperature is low, and heating efficiency can significantly reduce, or even when temperature is extremely low, air source heat pump heat supply
System can not work.
Utility model content
The purpose of this utility model is to provide a kind of accumulation of energy interconnect heat pump system, with solve single water source heat pump system and
The problem of air source heat pump system is limited by use condition when in use.
The utility model provides a kind accumulation of energy and interconnects heat pump system, including:Phase change energy storage apparatus, air-source assist subsystem
System, solar energy assistant subsystem, underground heat assistant subsystem and water source assistant subsystem, the phase change energy storage apparatus pass through heat exchange
Device respectively with the air-source assistant subsystem, the solar energy assistant subsystem, the underground heat assistant subsystem and described
Water source assistant subsystem is connected, be provided between the air-source assistant subsystem and the heat exchanger air-source water inlet pipe and
Air-source outlet pipe, the heat exchanger are provided with heat exchanger water inlet pipe and heat exchanger outlet pipe;
The solar energy assistant subsystem includes boiler, solar collector, the boiler be additionally provided with first into
Water end (W.E.), water outlet, the second water inlet end and backwater end, first water inlet end are connected with one end of the solar collector
Logical, the water outlet is connected with the heat exchanger water inlet pipe, and second water inlet end is connected with the heat exchanger outlet pipe,
The backwater end is connected with the other end of the solar collector;
The underground heat assistant subsystem includes soil source heat pump, and soil source heat pump is provided at both ends with underground heat water outlet and ground
Hot water inlet end, the underground heat water outlet are connected with the heat exchanger water inlet pipe, and the underground heat water inlet end goes out with the heat exchanger
Water pipe is connected;
The water source assistant subsystem includes water source outlet pipe, water source water inlet pipe, pumped well and inverted well, the water source
One end of outlet pipe is connected with the heat exchanger water inlet pipe, and the other end of the water source outlet pipe is connected with the pumped well
Logical, one end of the water source water inlet pipe is connected with the heat exchanger outlet pipe, the other end of the water source water inlet pipe with it is described
Inverted well is connected.
The phase change energy storage apparatus includes energy storage water inlet pipe, energy storage outlet pipe, releases energy outlet pipe and release energy water inlet pipe, institute
The one end for stating energy storage water inlet pipe is connected with the heat exchanger water inlet pipe, and the other end and the energy storage of the energy storage water inlet pipe go out
Water pipe is connected, and the other end of the energy storage outlet pipe is connected with the heat exchanger outlet pipe, described to release the one of energy outlet pipe
It holds and is connected with described one end for releasing energy water inlet pipe.
Preferably, it is provided with water pump between the air-source water inlet pipe and the heat exchanger.
Preferably, it is provided with water pump on the heat exchanger water inlet pipe.
Preferably, the soil source heat pump is set as multiple.
Preferably, the pipeline between the energy storage water inlet pipe and the energy storage outlet pipe is set as plate-like, and described release can go out
Water pipe and the pipeline released between energy water inlet pipe are set as plate-like.
Preferably, it is provided with multi-layer heat preserving set on the shell of the phase change energy storage apparatus.
Preferably, filled with heat preservation liquid between the multi-layer heat preserving set.
Preferably, the air-source water inlet pipe, the air-source outlet pipe, the heat exchanger water inlet pipe, the heat exchanger
Outlet pipe, first water inlet end, the water outlet, second water inlet end, the backwater end, the underground heat water outlet, institute
State underground heat water inlet end, the water source outlet pipe, the water source water inlet pipe, the energy storage water inlet pipe, the energy storage outlet pipe, described
Control valve can be both provided on water inlet pipe by releasing energy outlet pipe and described release.
By above technical scheme it is found that a kind of accumulation of energy provided by the invention interconnects heat pump system, including:Phase-changing energy-storing fills
It sets, air-source assistant subsystem, solar energy assistant subsystem, underground heat assistant subsystem and water source assistant subsystem, phase transformation store
Can device by heat exchanger respectively with air-source assistant subsystem, solar energy assistant subsystem, underground heat assistant subsystem and water
Source assistant subsystem is connected, and air-source water inlet pipe and air-source water outlet are provided between air-source assistant subsystem and heat exchanger
Pipe, heat exchanger are provided with heat exchanger water inlet pipe and heat exchanger outlet pipe;Solar energy assistant subsystem includes boiler, solar energy receipts
Storage, boiler are additionally provided with the first water inlet end, water outlet, the second water inlet end and backwater end, the first water inlet end and solar energy
One end of collector is connected, and water outlet is connected with heat exchanger water inlet pipe, and the second water inlet end is connected with heat exchanger outlet pipe,
Backwater end is connected with the other end of solar collector;Underground heat assistant subsystem includes soil source heat pump, soil source heat pump
Be provided at both ends with underground heat water outlet and underground heat water inlet end, underground heat water outlet is connected with heat exchanger water inlet pipe, underground heat water inlet end with
Heat exchanger outlet pipe is connected;Water source assistant subsystem includes water source outlet pipe, water source water inlet pipe, pumped well and inverted well,
One end of water source outlet pipe is connected with heat exchanger water inlet pipe, and the other end of water source outlet pipe is connected with pumped well, water source into
One end of water pipe is connected with heat exchanger outlet pipe, and the other end of water source water inlet pipe is connected with inverted well.Phase change energy storage apparatus
Including high temperature side water inlet pipe, high temperature side outlet pipe, heat preservation side outlet pipe and heat preservation side water inlet pipe, one end of high temperature side water inlet pipe
It is connected with heat exchanger water inlet pipe, the other end of high temperature side water inlet pipe is connected with water pipe at heat preservation side, high temperature side outlet pipe
One end is connected with exchanging air outlet pipe, and the other end of high temperature side outlet pipe is connected with heat preservation side water inlet pipe;Air-source assists
Subsystem acquires the low grade heat energy in air, the thermal energy in air is transferred to heat exchanger by water or solution, while too
The high-grade thermal energy that the positive energy assistant subsystem acquisition sun distributes, and heat exchanger, while underground heat are transferred to by water or solution
Assistant subsystem acquires the low grade heat energy in soil and is transferred to heat exchanger by water or solution, while water source assists subsystem
Low grade heat energy in system acquisition nature water source is simultaneously transferred to by water or solution in heat exchanger, and heat exchanger is by comprehensive income
Thermal energy be transferred to end user by energy storage equipment, phase change energy storage apparatus can also play its phase-changing energy-storing, cold and hot stream and
It adjusts and stores the function put, a kind of accumulation of energy interconnection heat pump system provided by the utility model overcomes single water source heat pump system or sky
Air supply heat pump system is limited by use condition when in use, meets the heating demands of a variety of use conditions.
Description of the drawings
In order to illustrate more clearly of technical scheme of the present invention, letter will be made to attached drawing needed in the embodiment below
Singly introduce, it should be apparent that, for those of ordinary skills, without having to pay creative labor,
Other drawings may also be obtained based on these drawings.
Fig. 1 is the overall schematic that a kind of accumulation of energy that this practicality provides interconnects heat pump system;
Fig. 2 is a kind of implementation column for the phase change energy storage apparatus that a kind of accumulation of energy provided by the utility model interconnects heat pump system
Diagrammatic cross-section;
Fig. 3 is another implementation column for the phase change energy storage apparatus that a kind of accumulation of energy provided by the utility model interconnects heat pump system
Diagrammatic cross-section;
It illustrates:1- phase change energy storage apparatus, 2- air-source assistant subsystems, 3- solar energy assistant subsystems, 4- underground heat
Assistant subsystem, the water sources 5- assistant subsystem, 6- heat exchangers, 21- air-source water inlet pipes, 22- air-source outlet pipes, 61- heat exchange
Device water inlet pipe, 62- heat exchanger outlet pipes, 31- boilers, 32- solar collectors, the first water inlet ends of 311-, 312- backwater ends,
The second water inlet ends of 313-, the water outlets 314-, 43- soil source heat pumps, 41- underground heat water outlet, 42- underground heat water inlet ends, the water sources 51- go out
Water pipe, the water sources 52- water inlet pipe, 53- inverted wells, 54- pumped wells, 11- high temperature side water inlet pipes, 12- high temperature side outlet pipes, 13- are protected
Warm side outlet pipe, 14- keep the temperature side water inlet pipe, 7- water pumps, 15- muffs, 8- control valves.
Specific implementation mode
In order to make those skilled in the art more fully understand the technical solution in the utility model, below in conjunction with this reality
With the attached drawing in new embodiment, the technical scheme in the utility model embodiment is clearly and completely described, it is clear that
The described embodiments are only a part of the embodiments of the utility model, instead of all the embodiments.Based on the utility model
In embodiment, every other implementation obtained by those of ordinary skill in the art without making creative efforts
Example should all belong to the range of the utility model protection.
Referring to Fig. 1, a kind of accumulation of energy interconnection heat pump system is provided for the utility model embodiment, including:Phase-changing energy-storing fills
Set 1, air-source assistant subsystem 2, solar energy assistant subsystem 3, underground heat assistant subsystem 4 and water source assistant subsystem 5, institute
State phase change energy storage apparatus 1 by heat exchanger 6 respectively with the air-source assistant subsystem 2, the solar energy assistant subsystem 3,
The underground heat assistant subsystem 4 and the water source assistant subsystem 5 are connected, the air-source assistant subsystem 2 with it is described
Air-source water inlet pipe 21 and air-source outlet pipe 22 are provided between heat exchanger 6, the heat exchanger 6 is provided with heat exchanger water inlet pipe
61 and heat exchanger outlet pipe 62;Air-source assistant subsystem acquires the low grade heat energy in air, and the thermal energy in air is passed through
Water or solution are transferred to heat exchanger, while the high-grade thermal energy that the solar energy assistant subsystem acquisition sun distributes, and pass through water
Either solution be transferred to heat exchanger and meanwhile underground heat assistant subsystem acquisition soil in low grade heat energy and by water or solution
It is transferred to heat exchanger, while water source assistant subsystem acquires the low grade heat energy in nature water source and passes through water or solution biography
It is defeated in heat exchanger, the thermal energy of comprehensive income is transferred to end user by heat exchanger by energy storage equipment, and phase change energy storage apparatus is also
Its phase-changing energy-storing, the cold and hot function of flowing and adjust storage and put can be played.
The solar energy assistant subsystem 3 includes boiler 31, solar collector 32, and the boiler 31 is additionally provided with
First water inlet end 311, water outlet 314, the second water inlet end 313 and backwater end 312, first water inlet end 311 with it is described too
One end of positive energy collector 32 is connected, and the water outlet 314 is connected with the heat exchanger water inlet pipe 61, second water inlet
End 313 is connected with the heat exchanger outlet pipe 62, and the backwater end 312 is connected with the other end of the solar collector 32
It is logical;Solar collector 32 is made of multigroup solar panels, and solar collector 32 absorbs solar energy when sun abundance, and will too
It is positive can energy be converted into thermal energy send to water in pipeline either solution absorb at this time heat water or solution from first
Water inlet end 311 enters boiler 31, and enters heat exchanger water inlet pipe 61 from water outlet 314, and eventually enters into heat exchanger 6, heat
Boiler 31 can be entered from the second water inlet end 313 by measuring the water declined, and finally flow back to solar collector by backwater end 312
32, so far, water or solution complete a cycle in solar energy assistant subsystem, and enter next cycle;Boiler 31
Multilayer can be divided into, respectively energy high level and energy low layer, energy high level is connected with the first water inlet end 311 and water outlet 314
Logical, energy bottom is connected with backwater end 312 and the second water inlet end 313, and the layering of boiler 31 can be ensured to receive from solar energy
The heat that storage 32 absorbs will not be lost in, and housing of hot water box and pipeline external can coat insulating layer, can be fine
Reduction heat losses.
The underground heat assistant subsystem 4 includes soil source heat pump 43, and soil source heat pump 43 is provided at both ends with underground heat water outlet
End 41 and underground heat water inlet end 42, the underground heat water outlet 41 are connected with the heat exchanger water inlet pipe 61, the underground heat water inlet end
42 are connected with the heat exchanger outlet pipe 62;Thousand layers of earth's surface is a huge solar thermal collector, has collected 47% too
Positive energy wants more than 500 times that defends the mankind to utilize energy every year, and not by surrounding air phase in the limitations, with ground such as region, resource
Than, the 5m following soil moistures in ground are comprehensively basicly stable, and soil is a kind of Cooling and Heat Source of heat pump system more better than surrounding air,
Soil source heat pump 43 is buried in soil, heat can be provided when air themperature is relatively low, soil source heat pump 43 is by generation
Heat is transferred to water or solution in pipeline, and smuggled goods solution is entered heat exchanger water inlet pipe 61 and entered by underground heat water outlet 41 to be changed
Hot device eventually enters into phase change energy storage apparatus 1, and heat is brought into phase change energy storage apparatus 1;Lose heat water or solution from
Underground heat water inlet end 42 returns in deep soil, so far completes the cycle of a heat.
The water source assistant subsystem 5 includes water source outlet pipe 51, water source water inlet pipe 52, pumped well 54 and inverted well
53, one end of the water source outlet pipe 51 is connected with the heat exchanger water inlet pipe 61, the other end of the water source outlet pipe 51
It is connected with the pumped well 54, one end of the water source water inlet pipe 52 is connected with the heat exchanger outlet pipe 62, the water
The other end of source water inlet pipe 52 is connected with the inverted well 53;Thousand layers of water source of earth surface, enter underground water, earth's surface river,
Lake and ocean absorb the comparable radiation energy that the sun enters the earth, and the temperature at water source is generally all sufficiently stable, water
The operation principle of source heat pump technology:By inputting a small amount of high-grade energy, realization low-temperature heat energy is transfer to high temperature, and water body can
Using the personnel as winter heat pump heating, heat is extracted from water source, and heat is provided for heating;System when not in use, inverted well
53 with the temperature and heat of pumped well 54 be it is comparable, system in use, flow from pumped well 54 by water source outlet pipe 51 into
Enter in heat exchanger water inlet pipe 61, and enter in heat exchanger 6, the flow for losing heat returns to inverted well 53 from water source water inlet pipe 52
In, the cycle of a heat is completed, is separately to make the high heat flow in pumped well 54 by pumped well 54 and inverted well 53
It is not mixed with the flow low in calories in inverted well 53, ensures that flow a kind of can keep enough in a period of time of heating
Energy.
The phase change energy storage apparatus 1 includes energy storage water inlet pipe 11, energy storage outlet pipe 12, release can outlet pipe 13 and release can be into
Water pipe 14, one end of the energy storage water inlet pipe 11 are connected with the heat exchanger water inlet pipe 61, the energy storage water inlet pipe 11 it is another
One end is connected with the energy storage outlet pipe 12, and the other end of the energy storage outlet pipe 12 is connected with the heat exchanger outlet pipe 62
Logical, described one end for releasing energy outlet pipe 13 is connected with described one end for releasing energy water inlet pipe 14;Phase is used in phase change energy storage apparatus 1
Become material, phase change energy storage apparatus 1 can will pass through air-source assistant subsystem 2, solar energy auxiliary with phase-change accumulation energy, heat exchanger 6
The energy that system 3, underground heat assistant subsystem 4 and water source assistant subsystem 5 are acquired is transferred to phase change energy storage apparatus by flow
1, heat brings phase change energy storage apparatus 1 by flow, and phase change energy storage apparatus 1 gets up heat storage, and the when of using is being needed to release
Put to release can outlet pipe 13 and release can water inlet pipe 14, release can outlet pipe 13, release can water inlet pipe 14 and terminal 9 formed one it is closed
Cycle, the flow finally released energy outlet pipe and release energy water inlet pipe 14 bring heat to terminal user by continuous ringing.
By above technical scheme it is found that the utility model provides a kind of accumulation of energy interconnection heat pump system, including:Phase-changing energy-storing fills
Set 1, air-source assistant subsystem 2, solar energy assistant subsystem 3, underground heat assistant subsystem 4 and water source assistant subsystem 5, institute
State phase change energy storage apparatus 1 by heat exchanger 6 respectively with the air-source assistant subsystem 2, the solar energy assistant subsystem 3,
The underground heat assistant subsystem 4 and the water source assistant subsystem 5 are connected, the air-source assistant subsystem 2 with it is described
Air-source water inlet pipe 21 and air-source outlet pipe 22 are provided between heat exchanger 6, the heat exchanger 6 is provided with heat exchanger water inlet pipe
61 and heat exchanger outlet pipe 62;Air-source assistant subsystem acquires the low grade heat energy in air, and the thermal energy in air is passed through
Water or solution are transferred to heat exchanger, while the high-grade thermal energy that the solar energy assistant subsystem acquisition sun distributes, and pass through water
Either solution be transferred to heat exchanger and meanwhile underground heat assistant subsystem acquisition soil in low grade heat energy and by water or solution
It is transferred to heat exchanger, while water source assistant subsystem acquires the low grade heat energy in nature water source and passes through water or solution biography
It is defeated in heat exchanger, the thermal energy of comprehensive income is transferred to end user by heat exchanger by energy storage equipment, and phase change energy storage apparatus is also
Its phase-changing energy-storing, the cold and hot function of flowing and adjust storage and put can be played;This system overcomes single water source heat pump system or skies
Air supply heat pump system is limited by use condition when in use, meets the heating demands of a variety of use conditions.
As the preferred embodiment of the utility model, it is arranged between the air-source water inlet pipe 21 and the heat exchanger 6
There are water pump 7, water pump 7 that flow can be driven to be circulated in air-source assistant subsystem 2 so that calorie spread is faster.
As the preferred embodiment of the utility model, water pump 7 is provided on heat exchanger water inlet pipe 61, water pump 7 can make
The flow with higher heat enters in solar energy assistant subsystem 3, underground heat assistant subsystem 4 and water source assistant subsystem 5
In heat exchanger 6, accelerate the propagation of heat.
As the preferred embodiment of the utility model, the soil source heat pump 43 is set as multiple, by multiple soil sources
Heat pump 43 is cascaded use, and multiple soil source heat pumps 43 are separately positioned on apart from remote position, can acquire
The heat of larger range of soil so that the heat magnitude bigger of collection.
As the preferred embodiment of the utility model, the pipeline between energy storage water inlet pipe 11 and the energy storage outlet pipe 12
Be set as plate-like, it is described release can outlet pipe 13 and it is described release can be between water inlet pipe 14 pipeline be set as plate-like, phase-change material
Thermal energy storage process is that substance is utilized to absorb or release energy during phase change, and phase transformation material is filled in phase change energy storage apparatus 1
Material, by the pipeline between energy storage water inlet pipe 11 and the energy storage outlet pipe 12 be set as plate-like can increase energy storage water inlet pipe 11,
The contact area of energy storage outlet pipe 12 and phase-change material so that the thermal energy storage process of phase-change material is more rapidly efficient, similarly will be described
It releases energy outlet pipe 13 and the pipeline released between energy water inlet pipe 14 is set as plate-like, can also increase and release energy outlet pipe 13 and release
The contact area of energy water inlet pipe 14 and phase-change material so that the exoergic process of phase-change material is more rapidly efficient.
As the preferred embodiment of the utility model, multi-layer heat preserving is provided on the shell of the phase change energy storage apparatus 1
Set 15, muff can keep phase-change material to discharge and absorb the energy in energy process to external radiation, reduce scattering and disappearing for energy.
It, will be every filled with heat preservation liquid between the multi-layer heat preserving set (15) as the preferred embodiment of the utility model
One layer of heat preservation set 15 is set as being separated with a certain distance, and the solution of not easy heat radiation is filled centainly in rational space, can
With further reduce phase-change material release and absorb energy process in outward radiation energy scatter and disappear.
As the preferred embodiment of the utility model, the air-source water inlet pipe 21, the air-source outlet pipe 22, institute
State heat exchanger water inlet pipe 61, the heat exchanger outlet pipe 62, first water inlet end 311, the water outlet 314, described second
Water inlet end 313, the backwater end 312, the underground heat water outlet 41, the underground heat water inlet end 42, the water source outlet pipe 51, institute
State water source water inlet pipe 52, the energy storage water inlet pipe 11, the energy storage outlet pipe 12, described release outlet pipe 13 and described can release energy
Control valve 8 is both provided on water inlet pipe 14;Valve 8 can control the flowing of flow, such as after darkness or rainy days
Gas does not need solar energy assistant subsystem 3 and provides heat, can close the power supply of solar energy assistant subsystem 3, and close
The valve 8 of solar energy assistant subsystem 3 is closed, the flow in solar energy assistant subsystem 3 cannot again be stayed into heat exchanger at this time, for phase
Become 1 energy storage energy of energy storage equipment, similarly can according to circumstances control the working condition of other subsystems, most can efficiently utilize
Entire heat pump system.
The above is only specific embodiment of the present utility model, is made skilled artisans appreciate that or realizing this
Utility model.Various modifications to these embodiments will be apparent to one skilled in the art, institute herein
The General Principle of definition can be realized in other embodiments without departing from the spirit or scope of the present utility model.
Therefore, the utility model is not intended to be limited to the embodiments shown herein, and is to fit to and original disclosed herein
The reason widest range consistent with features of novelty.
Claims (8)
1. a kind of accumulation of energy interconnects heat pump system, which is characterized in that including:Phase change energy storage apparatus (1), air-source assistant subsystem
(2), solar energy assistant subsystem (3), underground heat assistant subsystem (4) and water source assistant subsystem (5), the phase-changing energy-storing dress
Set (1) by heat exchanger (6) respectively with the air-source assistant subsystem (2), the solar energy assistant subsystem (3), described
Underground heat assistant subsystem (4) and the water source assistant subsystem (5) are connected, the air-source assistant subsystem (2) and institute
It states and is provided with air-source water inlet pipe (21) and air-source outlet pipe (22) between heat exchanger (6), the heat exchanger (6), which is provided with, changes
Hot device water inlet pipe (61) and heat exchanger outlet pipe (62);
The solar energy assistant subsystem (3) includes boiler (31), solar collector (32), and the boiler (31) also sets
It is equipped with the first water inlet end (311), water outlet (314), the second water inlet end (313) and backwater end (312), first water inlet end
(311) it is connected with one end of the solar collector (32), the water outlet (314) and the heat exchanger water inlet pipe (61)
Be connected, second water inlet end (313) is connected with the heat exchanger outlet pipe (62), the backwater end (312) with it is described
The other end of solar collector (32) is connected;
The underground heat assistant subsystem (4) includes soil source heat pump (43), and the underground heat that is provided at both ends with of soil source heat pump (43) goes out
Water end (W.E.) (41) and underground heat water inlet end (42), the underground heat water outlet (41) is connected with the heat exchanger water inlet pipe (61), described
Underground heat water inlet end (42) is connected with the heat exchanger outlet pipe (62);
The water source assistant subsystem (5) includes water source outlet pipe (51), water source water inlet pipe (52), pumped well (54) and recharge
Well (53), one end of the water source outlet pipe (51) are connected with the heat exchanger water inlet pipe (61), the water source outlet pipe
(51) the other end is connected with the pumped well (54), one end and the heat exchanger outlet pipe of the water source water inlet pipe (52)
(62) it is connected, the other end of the water source water inlet pipe (52) is connected with the inverted well (53);
The phase change energy storage apparatus (1) includes energy storage water inlet pipe (11), energy storage outlet pipe (12), releases energy outlet pipe (13) and release
Can water inlet pipe (14), one end of the energy storage water inlet pipe (11) is connected with the heat exchanger water inlet pipe (61), the energy storage into
The other end of water pipe (11) is connected with the energy storage outlet pipe (12), and the other end of the energy storage outlet pipe (12) is changed with described
Hot device outlet pipe (62) is connected, and described one end for releasing energy outlet pipe (13) is connected with described one end for releasing energy water inlet pipe (14)
It is logical.
2. a kind of accumulation of energy according to claim 1 interconnects heat pump system, which is characterized in that the air-source water inlet pipe (21)
Water pump (7) is provided between the heat exchanger (6).
3. a kind of accumulation of energy according to claim 1 interconnects heat pump system, which is characterized in that the heat exchanger water inlet pipe (61)
On be provided with water pump (7).
4. a kind of accumulation of energy according to claim 1 interconnects heat pump system, which is characterized in that the soil source heat pump (43) sets
It is set to multiple.
5. a kind of accumulation of energy according to claim 1 interconnects heat pump system, which is characterized in that the energy storage water inlet pipe (11) with
Pipeline between the energy storage outlet pipe (12) is set as plate-like, and described release outlet pipe (13) and described can release energy water inlet pipe (14)
Between pipeline be set as plate-like.
6. a kind of accumulation of energy according to claim 1 interconnects heat pump system, which is characterized in that the phase change energy storage apparatus (1)
Shell on be provided with multi-layer heat preserving set (15).
7. a kind of accumulation of energy according to claim 6 interconnects heat pump system, which is characterized in that the multi-layer heat preserving set (15) it
Between filled with heat preservation liquid.
8. a kind of accumulation of energy according to claim 1 to 7 any one claim interconnects heat pump system, which is characterized in that
The air-source water inlet pipe (21), the air-source outlet pipe (22), the heat exchanger water inlet pipe (61), heat exchanger water outlet
Manage (62), first water inlet end (311), the water outlet (314), second water inlet end (313), the backwater end
(312), the underground heat water outlet (41), the underground heat water inlet end (42), the water source outlet pipe (51), the water source water inlet pipe
(52), the energy storage water inlet pipe (11), the energy storage outlet pipe (12), the energy outlet pipe (13) and described release released can intake
It is both provided with control valve (8) on pipe (14).
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
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CN201820452729.6U CN208090786U (en) | 2018-04-02 | 2018-04-02 | A kind of accumulation of energy interconnection heat pump system |
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Application Number | Priority Date | Filing Date | Title |
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CN201820452729.6U CN208090786U (en) | 2018-04-02 | 2018-04-02 | A kind of accumulation of energy interconnection heat pump system |
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