CN207635640U - A kind of refrigerating and heating systems of energy saving self power generation - Google Patents
A kind of refrigerating and heating systems of energy saving self power generation Download PDFInfo
- Publication number
- CN207635640U CN207635640U CN201721142556.XU CN201721142556U CN207635640U CN 207635640 U CN207635640 U CN 207635640U CN 201721142556 U CN201721142556 U CN 201721142556U CN 207635640 U CN207635640 U CN 207635640U
- Authority
- CN
- China
- Prior art keywords
- heat exchanger
- heat
- refrigerating
- temperature difference
- heating systems
- Prior art date
- Legal status (The legal status is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the status listed.)
- Active
Links
Landscapes
- Other Air-Conditioning Systems (AREA)
Abstract
The utility model is related to a kind of refrigerating and heating systems of energy saving self power generation, include that the compressor, outdoor heat exchanger and the indoor heat exchanger that constitute refrigerating and heating systems are sequentially connected by pipeline, the outdoor heat exchanger and/or indoor heat exchanger are equipped with the spontaneous electrical chip of the temperature difference, the spontaneous electrical chip of the temperature difference has the first heat-exchange end, the second heat-exchange end and power output end, first heat-exchange end is connect with outdoor heat exchanger and/or indoor heat exchanger, and the second heat-exchange end is connected to the external world where outdoor heat exchanger and/or indoor heat exchanger.The spontaneous electrical chip of the temperature difference is arranged in the utility model on outdoor heat exchanger and/or indoor heat exchanger, can be when refrigerating and heating systems work, and heat energy power-generating when using heat exchange uses for more multiple-purpose electric appliance, helps the efficiency for improving refrigerating and heating systems.
Description
Technical field
The utility model is related to a kind of system heated by compressor cooling, the refrigeration of specifically a kind of energy saving self power generation
Heating system.
Background technology
Air-conditioning, refrigerator, refrigerator, freezer, Ice-cream machine mounted refrigerating cabinet, air-source water heater, heat pump etc. are required to apply
To refrigerating and heating systems, conventional refrigerating and heating systems, as shown in Figure 1 comprising composition refrigerated medium is sequentially connected by pipeline
Compressor 10, outdoor heat exchanger 20, throttling set 30 and the indoor heat exchanger 40 of hot systems.
When refrigerating and heating systems work, according to conservation of energy principle, outdoor heat exchanger 20 is exchanged because of heat exchange with the external world
Thermal energy, and the substantially invalid discharge of these thermal energy.
Invention content
The purpose of the utility model is to overcome above-mentioned the shortcomings of the prior art, and provide a kind of energy saving self power generation
Refrigerating and heating systems, heat energy power-generating when exchanging heat when refrigerating and heating systems can be utilized to work, use for more multiple-purpose electric appliance, carry
High system energy efficiency.
What the purpose of this utility model was realized in:
A kind of refrigerating and heating systems of energy saving self power generation include that the pressure for constituting refrigerating and heating systems is sequentially connected by pipeline
Contracting machine, outdoor heat exchanger and indoor heat exchanger, the outdoor heat exchanger and/or indoor heat exchanger are equipped with the spontaneous battery core of the temperature difference
There is the first heat-exchange end, the second heat-exchange end and power output end, the first heat-exchange end to be changed with outdoor for piece, the spontaneous electrical chip of the temperature difference
Hot device and/or indoor heat exchanger connection, the second heat-exchange end are connected to the external world where outdoor heat exchanger and/or indoor heat exchanger.
First heat-exchange end of the spontaneous electrical chip of the temperature difference is tightly attached to outdoor heat exchange mechanism and/or the interior of outdoor heat exchanger
In the indoor heat exchange mechanisms of heat exchanger, the second heat-exchange end of the spontaneous electrical chip of the temperature difference exposes to outdoor heat exchanger and/or interior is changed
The external world where hot device, the outdoor heat exchange wind turbine of outdoor heat exchanger and/or the indoor hot-swappable fans of indoor heat exchanger blow to the temperature difference
Second heat-exchange end of spontaneous electrical chip.
Second heat-exchange end of the spontaneous electrical chip of the temperature difference is equipped with auxiliary radiating device comprising is changed with being tightly attached to second
Auxiliary heat dissipation piece on hot junction.
The auxiliary radiating device further includes the auxiliary heat dissipation wind turbine for blowing to auxiliary heat dissipation piece, auxiliary heat dissipation wind turbine and the temperature difference
The power output end of spontaneous electrical chip is electrically connected.
The connecting line of the outdoor heat exchanger and/or indoor heat exchanger is equipped with heat collector, the spontaneous electrical chip of the temperature difference
First heat-exchange end is tightly on heat collector, the second heat-exchange end and outdoor heat exchanger and/or the indoor heat exchanger of the spontaneous electrical chip of the temperature difference
The extraneous connection at place.
Second heat-exchange end of the spontaneous electrical chip of the temperature difference is equipped with auxiliary radiating device comprising is changed with being tightly attached to second
Auxiliary heat dissipation piece on hot junction.
The auxiliary radiating device further includes the auxiliary heat dissipation wind turbine for blowing to auxiliary heat dissipation piece, auxiliary heat dissipation wind turbine and the temperature difference
The power output end of spontaneous electrical chip is electrically connected.
Pipeline between the outdoor heat exchanger and indoor heat exchanger is equipped with throttling set.
The power output end is equipped with power rectifier for electric installation.
The power rectifier is equipped with accumulator for electric installation.
The beneficial effects of the utility model are as follows:
The spontaneous electrical chip of the temperature difference is set on outdoor heat exchanger and/or indoor heat exchanger, it can be in refrigerating and heating systems work
When making, heat energy power-generating when using heat exchange uses, controller, indoor circulation wind such as refrigerating and heating systems for more multiple-purpose electric appliance
Other electrical appliances fan/being additionally arranged(Headlamp, charger baby, backup power supply etc.), help the efficiency for improving refrigerating and heating systems.
The utility model can reach significantly energy-efficient purpose, can be applied to setting for types of applications refrigerating and heating systems
It is standby upper, it is applied widely.
Description of the drawings
Fig. 1 is the schematic diagram of prior art refrigerating and heating systems.
Fig. 2 is the schematic diagram of one embodiment refrigerating and heating systems of the utility model.
Fig. 3 is that the assembling structure of the spontaneous electrical chip of the one embodiment temperature difference of the utility model, heat collector and auxiliary heat dissipation piece is shown
It is intended to.
Specific implementation mode
The utility model is further described with reference to the accompanying drawings and embodiments.
First embodiment
Referring to Fig. 1-Fig. 3, the refrigerating and heating systems of this energy saving self power generation, including composition refrigerated medium is sequentially connected by pipeline
Compressor 1, outdoor heat exchanger 2 and the indoor heat exchanger 4 of hot systems, the pipe between the outdoor heat exchanger 2 and indoor heat exchanger 4
Road is equipped with throttling set 3, and the outdoor heat exchanger 2 is equipped with the spontaneous electrical chip 50 of the temperature difference, the spontaneous electrical chip of the temperature difference 50
With the first heat-exchange end, the second heat-exchange end and power output end, the first heat-exchange end is connect with outdoor heat exchanger 2, the second heat-exchange end
It is connected to the external world where outdoor heat exchanger 2.
Generating the temperature difference when refrigerating and heating systems work, between the first heat-exchange end and the second heat-exchange end makes the spontaneous electrical chip of the temperature difference
50 power generations, and by power output end output current, at this point, the spontaneous electrical chip 50 of the temperature difference utilizes refrigerating and heating systems work heat exchange
When outside arrange heat energy power-generating, for more multiple-purpose electric appliance use, controller, indoor circulation fan/additionally set such as refrigerating and heating systems
Other electrical appliances set(Headlamp, charger baby, backup power supply etc.), help the efficiency for improving refrigerating and heating systems.
When refrigerating state, outdoor heat exchanger 2 is release heat, and when heating state, outdoor heat exchanger 2 is to absorb heat, two
The spontaneous 50 achievable temperature difference spontaneous electrical function of electrical chip of the kind state temperature difference, i.e., no matter freezing or heating fills state, temperature difference self power generation
Chip 50 can utilize heat energy power-generating when air-conditioning system work heat exchange, those skilled in the art to be appreciated that.
When the spontaneous electrical chip 5 of the temperature difference generates electricity, it can power to other electrical appliances, it, can be by automatic when compressor 1 is shut down
The external connection powers power supply power supply such as alternating current when switching switching, and can continue to realize self-power generation and power supply in the startup of compressor 1, from
And reach substantially energy-efficient purpose, help the efficiency for improving refrigerating and heating systems.
The connecting line of the outdoor heat exchanger 2 of the present embodiment is equipped with heat collector 51(It passes through thermal-arrest pedestal and setting
Coil pipe on thermal-arrest pedestal is constituted, and coil pipe is connected with corresponding pipeline), the heat or cold of refrigerant can be flowed through in collecting
Amount, the first heat-exchange end of the spontaneous electrical chip of the temperature difference 50 tightly on heat collector 51, the second heat-exchange end of the spontaneous electrical chip of the temperature difference 50 with
Extraneous connection where outdoor heat exchanger 2, to realize thermo-electric generation.At this point, the spontaneous electrical chip of outdoor heat exchanger 2 and the temperature difference 50
It is relatively independent, be conducive to improve its scope of application, without making excessive modification to existing refrigerating and heating systems, reduce exploitation at
This.
Second heat-exchange end of the spontaneous electrical chip of the temperature difference 50 is equipped with auxiliary radiating device comprising be tightly attached to second
Auxiliary heat dissipation piece 52 in heat-exchange end is conducive to improve generated energy to improve its heat dissipation area.
The auxiliary radiating device further includes the auxiliary heat dissipation wind turbine 53 for blowing to auxiliary heat dissipation piece 52, auxiliary heat dissipation wind turbine 53
It is electrically connected with the power output end of the spontaneous electrical chip of the temperature difference 50, the spontaneous electrical chip 50 of the temperature difference can drive auxiliary heat dissipation after generating electricity
Wind turbine 53 rotates, and auxiliary heat dissipation wind turbine 53 can help the heat exchange of outdoor heat exchanger 2 or auxiliary heat dissipation piece 52, be changed to improve outdoor
The heat exchange efficiency of hot device 2 or the heat exchange efficiency of auxiliary heat dissipation piece 52(Improve generated energy).
The power output end is equipped with power rectifier and ensures electricity to rectification, voltage stabilizing is played the role of for electric installation 6
Stream stablizes output, when avoiding the occurrence of refrigerating and heating systems heating, cooling condition reversion, current reversal that power output end is exported
And it can not be the situation of electrical appliance power supply.
In addition, the utility model can be according to actual design requirement, it can be in power rectifier for being equipped with accumulator on electric installation(Figure
In do not mark), more electric power can be laid in, the power supply for 1 shutdown phase of compressor uses, and provides its powers duration.
More can while the spontaneous electrical chip of the temperature difference be arranged in the refrigerating and heating systems of this energy saving self power generation indoors on heat exchanger 4
50, or the spontaneous electrical chip 50 of the temperature difference is only set on heat exchanger 4 indoors, the set-up mode of the two and aforementioned outdoor heat exchanger
The mode that the spontaneous electrical chip of the temperature difference 50 is arranged on 2 is similar, at this point, heat energy power-generating when it is using indoor heat exchange, still can
Using the extra heat energy power-generating of indoor heat exchanger 4, to further increase energy utilization rate, those skilled in the art can manage
Solution.
Second embodiment
Similarly, the refrigerating and heating systems of this energy saving self power generation, are with the main distinction of first embodiment, and the temperature difference is certainly
First heat-exchange end of power-generating chip 50 is tightly attached to the outdoor heat exchange mechanism of outdoor heat exchanger 2(Outdoor heat exchange fin or outdoor heat exchange
Coil pipe is connected on the most cold end of place heat exchanger or the position in most hot junction, utmostly improves the temperature difference)And/or interior is changed
The indoor heat exchange mechanisms of hot device 4(Indoor heat exchange fin or indoor heat exchange coil, that is, the most cold end of heat exchanger where being connected to or most
On the position in hot junction, the temperature difference is utmostly improved)On, the second heat-exchange end of the spontaneous electrical chip of the temperature difference 50 exposes to outdoor heat exchanger
2 and/or indoor heat exchanger 4 where the external world, the outdoor heat exchange wind turbine 21 of outdoor heat exchanger 2 and/or the interior of indoor heat exchanger 4
Hot-swappable fans 41 blow to the second heat-exchange end of the spontaneous electrical chip of the temperature difference 50;In second heat-exchange end of the spontaneous electrical chip of the temperature difference 50
Equipped with auxiliary radiating device comprising with the auxiliary heat dissipation piece 52 being tightly attached in the second heat-exchange end;The auxiliary radiating device is also
The power supply of auxiliary heat dissipation wind turbine 53 including blowing to auxiliary heat dissipation piece 52, the spontaneous electrical chip of auxiliary heat dissipation wind turbine 53 and the temperature difference 50 is defeated
Outlet is electrically connected, and those skilled in the art is appreciated that.
I.e. the spontaneous electrical chip of the temperature difference 50 can constitute opposite one knot with outdoor heat exchanger 2 and/or indoor heat exchanger 4
Structure can become the standard universal part of enterprise, help the production for reducing enterprise, warehouse cost.
Other not described parts, same first embodiment are not repeated.
Above-mentioned indoor heat exchanger 4 means that refrigerating and heating systems include the space segment for needing to efficiently use, such as refrigerated medium
Heat exchanger etc. in the water tank of storeroom heat exchanger, heat pump in the indoor unit of hot systems, the cabinet of refrigerator.
Above-mentioned outdoor heat exchanger 2 means that refrigerating and heating systems include being discharged into extraneous unavailable heat quantity space part, such as
The water tank external heat exchanger etc. of the outdoor unit of refrigerating and heating systems, the cabinet external heat exchanger of refrigerator, heat pump.
Above disclosure is merely preferred embodiments of the utility model, rather than with this utility model is limited
Claims still belong to what the utility model was protected according to equivalent variations made by scope of protection of the utility model
Range.
Claims (10)
1. a kind of refrigerating and heating systems of energy saving self power generation include being sequentially connected the compression for constituting refrigerating and heating systems by pipeline
Machine (1), outdoor heat exchanger (2) and indoor heat exchanger (4), which is characterized in that the outdoor heat exchanger (2) and/or indoor heat exchange
Device (4) is equipped with the spontaneous electrical chip of the temperature difference (50), and the spontaneous electrical chip of the temperature difference (50) has the first heat-exchange end, the second heat-exchange end
And power output end, the first heat-exchange end are connect with outdoor heat exchanger (2) and/or indoor heat exchanger (4), the second heat-exchange end and outdoor
Extraneous connection where heat exchanger (2) and/or indoor heat exchanger (4).
2. the refrigerating and heating systems of energy saving self power generation according to claim 1, which is characterized in that the spontaneous electrical chip of the temperature difference
(50) the first heat-exchange end is tightly attached to the outdoor heat exchange mechanism of outdoor heat exchanger (2) and/or the indoor heat exchange of indoor heat exchanger (4)
In mechanism, the second heat-exchange end of the spontaneous electrical chip of the temperature difference (50) exposes to outdoor heat exchanger (2) and/or indoor heat exchanger (4) institute
The external world.
3. the refrigerating and heating systems of energy saving self power generation according to claim 2, which is characterized in that the outdoor heat exchanger (2)
Outdoor heat exchange wind turbine (21) and/or the indoor hot-swappable fans (41) of indoor heat exchanger (4) blow to the spontaneous electrical chip of the temperature difference (50)
The second heat-exchange end.
4. the refrigerating and heating systems of energy saving self power generation according to claim 2, which is characterized in that the spontaneous electrical chip of the temperature difference
(50) the second heat-exchange end is equipped with auxiliary radiating device comprising with the auxiliary heat dissipation piece being tightly attached in the second heat-exchange end
(52)。
5. the refrigerating and heating systems of energy saving self power generation according to claim 4, which is characterized in that the auxiliary radiating device is also
Auxiliary heat dissipation wind turbine (53) including blowing to auxiliary heat dissipation piece (52), auxiliary heat dissipation wind turbine (53) and the spontaneous electrical chip of the temperature difference (50)
Power output end be electrically connected.
6. the refrigerating and heating systems of energy saving self power generation according to claim 1, which is characterized in that the outdoor heat exchanger (2)
And/or the connecting line of indoor heat exchanger (4) is equipped with heat collector (51), the first heat-exchange end of the spontaneous electrical chip of the temperature difference (50) is tight
On heat collector (51), the second heat-exchange end and outdoor heat exchanger (2) and/or the indoor heat exchanger of the spontaneous electrical chip of the temperature difference (50)
(4) the extraneous connection where.
7. the refrigerating and heating systems of energy saving self power generation according to claim 6, which is characterized in that the spontaneous electrical chip of the temperature difference
(50) the second heat-exchange end is equipped with auxiliary radiating device comprising with the auxiliary heat dissipation piece being tightly attached in the second heat-exchange end
(52)。
8. the refrigerating and heating systems of energy saving self power generation according to claim 7, which is characterized in that the auxiliary radiating device is also
Auxiliary heat dissipation wind turbine (53) including blowing to auxiliary heat dissipation piece (52), auxiliary heat dissipation wind turbine (53) and the spontaneous electrical chip of the temperature difference (50)
Power output end be electrically connected.
9. according to the refrigerating and heating systems of any one of the claim 1-8 energy saving self power generations, which is characterized in that the power supply is defeated
Outlet is equipped with power rectifier for electric installation (6).
10. the refrigerating and heating systems of energy saving self power generation according to claim 9, which is characterized in that the power rectifier power supply
Device is equipped with accumulator.
Priority Applications (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721142556.XU CN207635640U (en) | 2017-09-06 | 2017-09-06 | A kind of refrigerating and heating systems of energy saving self power generation |
Applications Claiming Priority (1)
Application Number | Priority Date | Filing Date | Title |
---|---|---|---|
CN201721142556.XU CN207635640U (en) | 2017-09-06 | 2017-09-06 | A kind of refrigerating and heating systems of energy saving self power generation |
Publications (1)
Publication Number | Publication Date |
---|---|
CN207635640U true CN207635640U (en) | 2018-07-20 |
Family
ID=62861961
Family Applications (1)
Application Number | Title | Priority Date | Filing Date |
---|---|---|---|
CN201721142556.XU Active CN207635640U (en) | 2017-09-06 | 2017-09-06 | A kind of refrigerating and heating systems of energy saving self power generation |
Country Status (1)
Country | Link |
---|---|
CN (1) | CN207635640U (en) |
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107525298A (en) * | 2017-09-06 | 2017-12-29 | 佛山市蓝方科技有限公司 | A kind of refrigerating and heating systems for saving self power generation |
-
2017
- 2017-09-06 CN CN201721142556.XU patent/CN207635640U/en active Active
Cited By (1)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN107525298A (en) * | 2017-09-06 | 2017-12-29 | 佛山市蓝方科技有限公司 | A kind of refrigerating and heating systems for saving self power generation |
Similar Documents
Publication | Publication Date | Title |
---|---|---|
CN100453926C (en) | Multifunctional integrative system of light-volt solar heat pump | |
CN202598984U (en) | Portable solar energy semiconductor cold and hot insulation can | |
CN105737439B (en) | A kind of air-conditioning system using solar energy and thermoelectricity supercooling apparatus | |
CN102155772A (en) | Cascaded ice-storage air conditioning system and method utilizing same to supply cold air for air conditioner | |
CN102628624A (en) | Cascade lithium bromide refrigeration and cold storage system | |
CN107575972A (en) | A kind of heat pipe air conditioner all-in-one and its control method with phase-change accumulation energy | |
CN103807939A (en) | Four-season uninterrupted air conditioning equipment for user timing starting of cold storage and heat storage | |
CN102705927B (en) | A kind of ice conserve cold accumulation of heat super low temperature heat pump air-conditioning | |
CN203068872U (en) | Semiconductor auxiliary refrigerating system | |
CN204987535U (en) | Energy storage formula air source heat pump unit | |
CN203758014U (en) | Heat pump water heater | |
CN107940563B (en) | Machine and air conditioner in air conditioning | |
CN207635640U (en) | A kind of refrigerating and heating systems of energy saving self power generation | |
CN206875639U (en) | A kind of comprehensive central refrigerating system of office building | |
CN201265981Y (en) | Water heating apparatus of flexible two-stage coupling phase-change energy accumulation defrosting heat pump | |
CN106050424A (en) | Efficient intake air cooling and heating system for gas turbine | |
CN206890910U (en) | A kind of semiconductor refrigerating and pump coupled heat formula device | |
CN107525298A (en) | A kind of refrigerating and heating systems for saving self power generation | |
CN204612028U (en) | A kind of air-conditioning system | |
CN204967540U (en) | Outer evaporation formula cooling system of generator motor | |
WO2004023045A1 (en) | Air conditioner | |
CN210345737U (en) | Cold-storage type refrigerating system with natural cold source | |
CN203336779U (en) | Novel efficient energy ladder usage closed circulation central air-conditioning system | |
CN208817633U (en) | Portable semiconductor refrigerating cooling-water machine | |
CN207065925U (en) | Cogeneration of heat and power residual heat integrative utilizes energy conserving system |
Legal Events
Date | Code | Title | Description |
---|---|---|---|
GR01 | Patent grant | ||
GR01 | Patent grant |