CN207936515U - A kind of indoor temperature adjusts and domestic hot-water's energy conserving system - Google Patents
A kind of indoor temperature adjusts and domestic hot-water's energy conserving system Download PDFInfo
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- CN207936515U CN207936515U CN201721504362.XU CN201721504362U CN207936515U CN 207936515 U CN207936515 U CN 207936515U CN 201721504362 U CN201721504362 U CN 201721504362U CN 207936515 U CN207936515 U CN 207936515U
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- heat
- heat exchanger
- water
- indoor temperature
- water tank
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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
- Y02B10/70—Hybrid systems, e.g. uninterruptible or back-up power supplies integrating renewable energies
-
- 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
- Y02E10/00—Energy generation through renewable energy sources
- Y02E10/40—Solar thermal energy, e.g. solar towers
- Y02E10/44—Heat exchange systems
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- Heat-Pump Type And Storage Water Heaters (AREA)
Abstract
The utility model discloses a kind of adjusting of indoor temperature and domestic hot-water's energy conserving systems, including:One solar thermal collection system, a refrigerant-cycle systems and an indoor temperature adjusting system, the solar thermal collection system include a solar thermal collector and a heat storage water tank;The refrigerant-cycle systems include a compressor, one electromagnetism four-way reversing valve, one First Heat Exchanger and one second heat exchanger, the indoor temperature adjusting system includes a heat-exchanging water tank, one heat exchanger assembly, one the 4th circulating pump, neither endothermic nor exothermic needed for transformation using the physical state of refrigerant, change the temperature of heat exchanger assembly, to change the indoor temperature residing for heat exchanger assembly, refrigerant state is become into released heat and solar thermal collector and collects solar energy, heat water, hot water is stored in heat storage water tank, it can be used for domestic hot-water supply, therefore, the refrigeration and heat-production functions of refrigerant can be combined with the heat of solar energy and be adjusted applied to domestic hot-water supply and indoor temperature by the utility model.
Description
Technical field
The utility model is related to temperature adjusting and hot water supply system technical fields, refer in particular to a kind of indoor temperature adjusting
With domestic hot-water's energy conserving system.
Background technology
With global warming, people's quality of the life increasingly improves, and urbanization degree is higher and higher, in order in sweltering heat
Summer, reduce indoor temperature, resist hot summer, and also to can improve indoor temperature in cold winter, make
Indoor temperature improves, and keeps out the cold, and air-conditioning is more and more universal as the electrical equipment of house life, therefore the refrigeration and system of air-conditioning
Hot function is liked by people, but the refrigerants such as freon in air-conditioning can be to the pollution of ambient enviroment, and people is made to face danger
Evil, in life, people often utilize this inexpensive clean energy sources for heating water of solar energy, so people are highly desirable to reduce air-conditioning
It uses, improves the utilization rate of solar energy.
In consideration of it, the refrigeration and heat-production functions of air-conditioning in order to be combined by the designer of the utility model with the heat of solar energy
It is adjusted applied to domestic hot-water supply and indoor temperature, actively develops the utility model.
Utility model content
The purpose of this utility model is to provide a kind of adjusting of indoor temperature and domestic hot-water's energy conserving systems, can be by refrigerant
Refrigeration and heat-production functions be combined with the heat of solar energy and adjusted applied to domestic hot-water supply and indoor temperature.
In order to achieve the above objectives, the solution of the utility model is:
A kind of indoor temperature adjusts and domestic hot-water's energy conserving system, including:One solar thermal collection system, a refrigerant circulation
System and an indoor temperature adjusting system;The solar thermal collection system include a solar thermal collector and one by pipeline with too
The heat storage water tank of positive energy heat collector connection;The refrigerant-cycle systems include a compressor, an electromagnetism four-way reversing valve, one the
One heat exchanger and one second heat exchanger, the electromagnetism four-way reversing valve by pipeline respectively with compressor, First Heat Exchanger, second
Heat exchanger connects, and the First Heat Exchanger is connect by pipeline with the second heat exchanger;The First Heat Exchanger passes through piping connection
One first control assembly is pumped between first control assembly and the heat storage water tank by one first circulation of piping connection;Institute
It includes a heat-exchanging water tank, a heat exchanger assembly, one the 4th circulating pump to state indoor temperature adjusting system, and the heat-exchanging water tank passes through pipe
Tetra- circulating pumps of Lu Yu, heat exchanger assembly connection, the 4th circulating pump pass through piping connection with heat exchanger assembly;The heat exchange
Water tank passes through piping connection 1 by one second control assembly of piping connection between second control assembly and heat storage water tank
Two circulating pumps are sequentially connected a third circulating pump by pipeline between the heat-exchanging water tank and the second heat exchanger and a third control
Component, second heat exchanger are sequentially connected one the 4th control assembly by pipeline with heat storage water tank and are pumped with the first circulation.
A temperature detector is equipped in the heat storage water tank.
A temperature detector is equipped in the heat-exchanging water tank.
First control assembly, the second control assembly, third control assembly, the 4th control assembly include respectively two electricity
Magnet valve.
Pass through one flow controller of piping connection between the First Heat Exchanger and the second heat exchanger.
Pass through one water knockout drum of piping connection, the 4th circulating pump and heat exchange between the heat exchanger assembly and heat-exchanging water tank
Water knockout drum described in piping connection, the water collector are passed through by one water collector of piping connection, a new wind turbine between device assembly.
The heat exchanger assembly includes three capillary heat exchangers.
The new wind turbine is equipped with an air outlet and an exhaust outlet.
The heat storage water tank uses device, the 5th circulating pump logical by the 5th circulating pump of piping connection 1 and multiple hot water
Pipeline is crossed to connect using device with water heater.
After adopting the above technical scheme, the utility model passes through solar thermal collection system, refrigerant-cycle systems, Indoor Temperature
The structure design of regulating system is spent, the utility model can make full use of refrigerant to become high-pressure gaseous refrigeration after compressor
Heat is released in agent, high-pressure gaseous refrigerant condensation, solar thermal collector can also be utilized to collect solar energy, heats water, storage heat
For water in heat storage water tank or in inflow heat exchanger component, the hot water being stored in heat storage water tank can be used for domestic hot-water's confession
It answers, improves the temperature of heat exchanger assembly, the indoor temperature residing for heat exchanger assembly can be made to be improved, can also utilize
Condensed high-pressure gaseous refrigerant evaporation absorbs heat, reduces water temperature, achievees the effect that reduce heat exchanger assembly temperature, makes to change
Indoor temperature residing for hot device assembly reduces, and therefore, the utility model can be by the refrigeration and heat-production functions of refrigerant and solar energy
Heat is combined to be adjusted applied to domestic hot-water supply and indoor temperature.
Description of the drawings
Fig. 1 is the structure principle chart of the utility model.
【Symbol description】
1 First Heat Exchanger 2 of compressor
Second heat exchanger, 3 flow controller 4
5 solar thermal collector 6 of heat storage water tank
Hot water uses 7 heat-exchanging water tank 8 of device
9,10,11 water knockout drum 12 of capillary heat exchanger
13 new wind turbine 14 of water collector
15 exhaust outlet 16 of air outlet
171 ~ 178 first circulation of solenoid valve pump 181
Second circulation pumps 183 third circulating pumps 182
The 5th circulating pump 184 of 4th circulating pump 185
191 ~ 192 electromagnetism four-way reversing valve 20 of temperature detector.
Specific implementation mode
To reach above-mentioned purpose and effect, technological means and construction used by the utility model, hereby draw with regard to this practicality
Novel its feature of preferred embodiment elaborate and function are as follows, are understood completely with sharp.
Refering to Figure 1, for the structure principle chart of the utility model.The utility model discloses a kind of indoor temperature tune
Section and domestic hot-water's energy conserving system, including:One solar thermal collection system, a refrigerant-cycle systems and an indoor temperature adjust system
System;
The solar thermal collection system is connect by pipeline with solar thermal collector 6 including a solar thermal collector 6 and one
Heat storage water tank 5;The refrigerant-cycle systems include a compressor 1, an electromagnetism four-way reversing valve 20, a First Heat Exchanger 2
And one second heat exchanger 3, the electromagnetism four-way reversing valve 20 are changed with compressor 1, First Heat Exchanger 2, second respectively by pipeline
Hot device 3 connects, and the First Heat Exchanger 2 is connect by pipeline with the second heat exchanger 3;The First Heat Exchanger 2 is connected by pipeline
One first control assembly is connect, is pumped by one first circulation of piping connection between first control assembly and the heat storage water tank 5
181;The indoor temperature adjusting system includes a heat-exchanging water tank 8, a heat exchanger assembly, one the 4th circulating pump 185, the heat exchange
Water tank 8 is connect by pipeline with the 4th circulating pump 185, heat exchanger assembly, and the 4th circulating pump 185 passes through with heat exchanger assembly
Piping connection;The heat-exchanging water tank 8 passes through one second control assembly of piping connection, second control assembly and heat storage water tank 5
Between by one second circulation of piping connection pump 183, connected successively by pipeline between the heat-exchanging water tank 8 and the second heat exchanger 3
A third circulating pump 182 and a third control assembly are connect, second heat exchanger 3 is sequentially connected with heat storage water tank 5 by pipeline
One the 4th control assembly and the first circulation pump 181, first control assembly, the second control assembly, third control assembly,
4th control assembly includes respectively two solenoid valves 171 ~ 178.
Furthermore it is equipped with a temperature detector 191 in the heat storage water tank 5, a temperature detection is equipped in the heat-exchanging water tank 8
Device 192, the temperature detector 191,192, which can be used for controlling, interlocks compressor 1 and corresponding solenoid valve 171 ~ 178 and first
Circulating pump 181, second circulation pump 183, third circulating pump 182, the 4th circulating pump 185, the unlatching of the 5th circulating pump 184 and pass
It closes.
Then, in order to adjust the pressure of refrigerant, connected by pipeline between the First Heat Exchanger 2 and the second heat exchanger 3
A flow controller 4 is connect, the flow controller 4 can be capillary brass pipe.
Further, in order to accelerate to adjust indoor temperature and indoor air flows, the heat exchanger assembly and heat-exchanging water tank 8 it
Between by one water knockout drum 12 of piping connection, catchmented by piping connection one between the 4th circulating pump 185 and heat exchanger assembly
Device 13, a new wind turbine 14 are equipped with an air outlet by water knockout drum described in piping connection 12, the water collector 13, the new wind turbine 14
15 and an exhaust outlet 16.
Preferably, the heat exchanger assembly includes three capillary heat exchangers 9,10,11, it can be layed in ceiling, wall respectively
Face and ground, to adjust indoor temperature comprehensively.
In addition to this, in use, the heat storage water tank 5 passes through the 5th circulating pump 184 of piping connection 1 and multiple hot water
Using device 7, the 5th circulating pump 184 is connect with water heater using device 7 by pipeline.
In conclusion the utility model refrigerant-cycle systems are when refrigeration work, the solenoid valve 171,172,175,
176 open, solenoid valve 173,174,177,178 close, first circulation pump 181, third circulating pump 182, the 5th circulating pump 184,
4th circulating pump 185 works, and second circulation pump 183 is stopped, and refrigerant can become high-pressure gaseous refrigeration after compressor 1
Agent is condensed into high pressure liquid refrigerant through 2 refrigerant of First Heat Exchanger, and when condensation releases heat and passes through 2 water supply of the first converter
Heating, hot water storage are used in 5 domestic hot-water supply of heat storage water tank, and high pressure liquid refrigerant enters the second heat exchanger through flow controller 4
3, low-pressure, liquid refrigerant is evaporated in the second heat exchanger 3, and heat is absorbed when evaporation makes water temperature reduce by the second heat exchanger 3,
After water at low temperature enters heat-exchanging water tank 8, freezes for capillary heat exchanger 9,10,11 and will enter the sky after new wind turbine 14 by air outlet 15
It blows out, the temperature detector 191 that is set in heat storage water tank 5 and is set in heat-exchanging water tank from exhaust outlet 16 again after gas refrigeration
Temperature detector 192 can set the final required temperature reached, when reaching the specified final required temperature reached, temperature inspection
The solenoid signal being currently running can be given by surveying device 191,192, so that the solenoid valve being currently running is stopped, to stop freezing
Work.
In addition, when needing the utility model to heat work, different heating sides can be selected according to different weather
Formula:Refrigerant circulation heat and solar energy hot, can also refrigerant circulation heating and solar energy hot carry out together.
(1)Refrigerant circulation heats:Solenoid valve 171,172,175,176 is closed, and solenoid valve 173,174,177,178 is opened
It opens, first circulation pump 181, second circulation pump the 183, the 5th circulating pump 184, the work of the 4th circulating pump 185, third circulating pump 182
It is stopped.Refrigerant can become high-pressure gaseous refrigerant after compressor 1, and high pressure is condensed into through 3 refrigerant of the second heat exchanger
Liquid refrigerant is released heat when condensation and is heated by 3 water supply of the second heat exchanger, and hot water is stored in heat storage water tank 5 for life
Hot water, the heating of capillary heat exchanger 9,10,11 and it will be entered by air outlet 15 after the air heating after new wind turbine 14 again from exhaust outlet
16 blowouts, high pressure liquid refrigerant enter First Heat Exchanger 2 through flow controller 4, and low-pressure, liquid refrigerant is steamed in First Heat Exchanger 2
Hair absorbs low product Jie heat in air, the temperature detector being set in heat storage water tank 5 when evaporation by First Heat Exchanger 2
191 and the temperature detector 192 that is set in heat-exchanging water tank can set it is final needed for the temperature that reaches, it is specified final when reaching
When the required temperature reached, temperature detector 191,192 can give the solenoid signal being currently running, and make the electromagnetism being currently running
Valve is stopped, to stop heating work.
(2)Solar energy hot:Compressor 1 is stopped, and solenoid valve 171,172,173,174,175,176 is closed, electromagnetism
Valve 177,178 is opened, and second circulation pumps the 183, the 5th circulating pump 184, the work of the 4th circulating pump 185, first circulation pump 181, the
Three circulating pumps 182 are stopped.Solar thermal collector 6 collects the heat water supply heating of solar radiation, and hot water storage is in water storage
After domestic hot-water supply, capillary heat exchanger 9,10,11 are heated and will be heated into the air after new wind turbine 14 by air outlet 15 in case 5
It is blown out again from exhaust outlet 16, when the temperature detector 191 being set in heat storage water tank 5 and the temperature being set in heat-exchanging water tank are examined
Device 192 is surveyed through temperature detection after a period of time, find heating rate compare a setting heating rate it is slow when, can control and open
The solenoid valve of required unlatching when dynamic refrigerant circulation heating, makes refrigerant circulation heating carry out together, in addition to this, is set to storage
Temperature detector 191 in boiler 5 and the temperature detector 192 being set in heat-exchanging water tank can also set it is final needed for reach
The temperature arrived, when reaching the specified final required temperature reached, temperature detector 191,192 can give the electromagnetism being currently running
Valve signal makes the solenoid valve being currently running be stopped, to stop heating work.
Therefore, the utility model has the characteristics that following:
(1)By the setting of First Heat Exchanger 2, third heat exchanger 3, rationally shifts and collect compressor 1 to refrigerant pressure
The heat generated when contracting.
(2)Hot water is stored using heat storage water tank 5, heat-exchanging water tank 8 is balanced to use hot water, ensures the constant confession of capillary heat exchanger
Hot and lengthening hot water uses duration.
(3)By hot water in setting circulating pump periodic cyclic system, hot water outlet hot water is set to go out i.e. hot, in order to avoid use heat
Cold water causes water resource waste in discharge system when water.
(4)Coil pipe is set in new wind turbine, and access is cold(Heat)Water makes the temperature into, air draft be adjusted to close to indoor temperature
And displacement heat is in order to avoid excessive heat losses cause to waste.
The technology contents and technical characterstic of the utility model have revealed that as above, the quantity of the building block of the utility model is simultaneously
It is not limited with above-mentioned, those skilled in the art is still potentially based on the announcement of the utility model and makees various new without departing substantially from this practicality
The replacement and modification of type creation spirit.Therefore, the scope of protection of the utility model should be not limited to disclosed in embodiment, and should include
Various replacements and modification without departing substantially from the utility model, and covered by claims.
Claims (9)
1. a kind of indoor temperature adjusts and domestic hot-water's energy conserving system, which is characterized in that including:One solar thermal collection system, one
Refrigerant-cycle systems and an indoor temperature adjusting system;
The solar thermal collection system includes a solar thermal collector and the heat accumulation that is connect with solar thermal collector by pipeline
Water tank;
The refrigerant-cycle systems include a compressor, an electromagnetism four-way reversing valve, a First Heat Exchanger and one second heat exchange
Device, the electromagnetism four-way reversing valve are connect with compressor, First Heat Exchanger, the second heat exchanger respectively by pipeline, and described first
Heat exchanger is connect by pipeline with the second heat exchanger;
The First Heat Exchanger by one first control assembly of piping connection, first control assembly and the heat storage water tank it
Between pass through one first circulation of piping connection pump;
The indoor temperature adjusting system includes a heat-exchanging water tank, a heat exchanger assembly, one the 4th circulating pump, the heat-exchanging water tank
It is connect with the 4th circulating pump, heat exchanger assembly by pipeline, the 4th circulating pump passes through piping connection with heat exchanger assembly;
The heat-exchanging water tank is passed through by one second control assembly of piping connection between second control assembly and heat storage water tank
One second circulation of piping connection pumps, and a third circulating pump is sequentially connected by pipeline between the heat-exchanging water tank and the second heat exchanger
And a third control assembly, second heat exchanger and heat storage water tank by pipeline be sequentially connected one the 4th control assembly with it is described
First circulation pumps.
2. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 1, it is characterised in that:The heat accumulation
A temperature detector is equipped in water tank.
3. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 2, it is characterised in that:The heat exchange
A temperature detector is equipped in water tank.
4. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 3, it is characterised in that:Described first
Control assembly, the second control assembly, third control assembly, the 4th control assembly include respectively two solenoid valves.
5. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 4, it is characterised in that:Described first
Pass through one flow controller of piping connection between heat exchanger and the second heat exchanger.
6. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 5, it is characterised in that:The heat exchange
By one water knockout drum of piping connection between device assembly and heat-exchanging water tank, pass through pipe between the 4th circulating pump and heat exchanger assembly
Road connects a water collector, and a new wind turbine passes through water knockout drum described in piping connection, the water collector.
7. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 6, it is characterised in that:The heat exchange
Device assembly includes three capillary heat exchangers.
8. a kind of indoor temperature is adjusted and domestic hot-water's energy conserving system according to claim 7, it is characterised in that:The fresh air
Machine is equipped with an air outlet and an exhaust outlet.
9. being adjusted according to a kind of any one of claim 1 to 8 indoor temperature and domestic hot-water's energy conserving system, feature existing
In:The heat storage water tank uses device, the 5th circulating pump to pass through pipe by the 5th circulating pump of piping connection 1 and multiple hot water
Road is connect with water heater using device.
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CN201721504362.XU CN207936515U (en) | 2017-11-13 | 2017-11-13 | A kind of indoor temperature adjusts and domestic hot-water's energy conserving system |
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CN201721504362.XU CN207936515U (en) | 2017-11-13 | 2017-11-13 | A kind of indoor temperature adjusts and domestic hot-water's energy conserving system |
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Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113218010A (en) * | 2021-05-20 | 2021-08-06 | 青岛腾远设计事务所有限公司 | Solar-assisted solution heat recovery system and method |
-
2017
- 2017-11-13 CN CN201721504362.XU patent/CN207936515U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN113218010A (en) * | 2021-05-20 | 2021-08-06 | 青岛腾远设计事务所有限公司 | Solar-assisted solution heat recovery system and method |
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