CN204809264U - Solar energy difference in temperature heat flow kinetic energy thermoelectric conversion battery - Google Patents
Solar energy difference in temperature heat flow kinetic energy thermoelectric conversion battery Download PDFInfo
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- CN204809264U CN204809264U CN201520399114.8U CN201520399114U CN204809264U CN 204809264 U CN204809264 U CN 204809264U CN 201520399114 U CN201520399114 U CN 201520399114U CN 204809264 U CN204809264 U CN 204809264U
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Abstract
The utility model belongs to the technical field of improve sun thermoelectric conversion, concretely relates to solar energy difference in temperature heat flow kinetic energy thermoelectric conversion battery, including liquid convection current passageway, the thermal -arrest case, the thermoelectric conversion material, its characterized in that heat absorption liquid upper end and secondary heating liquid are connected, lower extreme and convection current liquid are connected, the other end and the other end of heat absorption liquid of convection current liquid are connected, the liquid convection current passageway outside sets up the thermal -arrest case, thermal -arrest bottom of the case portion sets up the heat dissipation level, set up the thermoelectric conversion material above the heat dissipation level, set up above the thermoelectric conversion material and add the thermal level, set up light absorbing coating above the heating collection, the oral area sets up double -deck printing opacity glass, set up the secondary heating level above the liquid convection current passageway, set up secondary thermoelectric conversion material above the secondary heating level, set up secondary heat dissipation level above the secondary thermoelectric conversion material, set up the light screen above the secondary heat dissipation level, set up heat dissipation liquid circulation convection current passageway on secondary heat dissipation level, the utility model discloses a benefit improves thermoelectric conversion efficiency with heat flow kinetic energy.
Description
Technical field
The utility model belongs to raising sun technical field of thermoelectric conversion, is specifically related to a kind of solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery.
Background technology
Solar heat Electroconversion cell is all generate electricity by static method, described static state is added to heat after in thermoelectrical conversion battery exactly, just allow its self-assembling formation electric current, do not take the scheme of any promotion, turning battery for the solar energy temperature difference heat flowing kinetic energy thermoelectricity realizing that in the method for dispelling the heat with liquid flow the basis of new departure of the flowing raising conversion efficiency of thermoelectric of heat in thermoelectrical conversion battery proposes is that nobody mentioned.
Summary of the invention
Just content of the present utility model is described in detail below:
Solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery comprises liquid convection passage, heat-collecting box, heater stages, thermo-electric converting material, heat radiation level, it is characterized in that heat absorption liquid upper end is connected with post bake liquid, lower end is connected with convective liquid, the other end of convective liquid is connected with the other end of heat absorption liquid, liquid convection passage arranged outside heat-collecting box, heat radiation level is set bottom heat-collecting box, above heat radiation level, thermo-electric converting material is set, above thermo-electric converting material, heater stages is set, above heater stages, light-absorbing coating is set, oral area arranges double layer light transmission glass, post bake level is set above liquid convection passage, secondary thermo-electric converting material is set above post bake level, secondary heat radiation level is set above secondary thermo-electric converting material, heat radiation level is connected with post bake level, composition thermoelectrical conversion battery, above secondary heat radiation level, shadow shield is set, shadow shield is connected to heat-collecting box upper end heat radiation level and post bake level junction, be used for block sunlight to the radiation in secondary heat radiation level, in promotion secondary heat radiation level, heat distributes, promote the flowing of heat in secondary thermo-electric converting material.
In order to improve conversion efficiency of thermoelectric further, radiator liquid circulative convection passage being set on secondary heat radiation level, the secondary grading row that dispels the heat is dispelled the heat further.
Convective liquid and post bake liquid junction, radiator liquid circulative convection passage arrange liquid feeding mouth, below liquid convection passage, fixed head is set.
Around thermo-electric converting material and secondary thermo-electric converting material, thermoelectric material edge sealing is set.
In order to adapt to the placement on slope, convective liquid place can be set to concave structure.
Heat radiation level and post bake level can directly be set to liquid convection channel envelope, also can be set to above fluid passage shell.
In order to strengthen the temperature difference between heater stages and heat radiation level, post bake level and secondary heat radiation level, the convective liquid place of liquid convection passage can be set to radiator structure.
Due to convective liquid, heat absorption liquid, cooling fluid circulating in body circulative convection passage, the temperature difference between heater stages and heat radiation level between post bake level and secondary heat radiation level is strengthened, the temperature difference strengthened facilitates the flowing of heat in thermo-electric converting material, and the heat of flowing is directly converted to electric current.
When sunlight injects heat-collecting box, light-absorbing coating is converted to heat sunlight, heat heats heater stages, heater stages heats thermo-electric converting material, thermo-electric converting material is the heating of heat radiation level, heat absorption liquid is just absorbed heat to the heat of heat radiation level, liquid after heat absorption heats up flows into post bake liquid place and heats post bake level, post bake level heats secondary thermo-electric converting material, secondary thermo-electric converting material heats secondary heat radiation level, post bake level one is that heat is dispersed in air, another kind is by the liquid absorption in radiator liquid circulative convection passage, be dispersed into again in air after absorption.Under the effect of liquid convection passage and radiator liquid circulative convection passage, accelerate the flowing in the thermo-electric converting material of heat between heater stages and heat radiation level, post bake level and secondary heat radiation level, the heat of flowing is directly converted to electric current.
Accompanying drawing explanation
Fig. 1 is the utility model object construction schematic diagram
Fig. 2 is the CC cross-sectional view of Fig. 1
Fig. 3 is another structural representation of Fig. 2
Fig. 4 is the schematic diagram of the increase radiator structure of Fig. 2
In figure: 1. heater stages 2. thermo-electric converting material 3. dispels the heat level 4. post bake level 5. 2 thermo-electric converting materials 6. 2 times heat radiation level 7. heat absorption liquid 8. post bake liquid 9. convective liquid 10. liquid feeding mouth 11. shadow shield 12. heat-collecting box 13. double layer light transmission glass 14. fixed head 15. thermoelectric material edge sealing 16. liquid convection passage 17. radiator liquid circulative convection passage 18. light absorption layer
Embodiment
Below in conjunction with accompanying drawing, the utility model is further described
As shown in Figure 2, solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery, comprise liquid convection passage (16), heat-collecting box (12), thermo-electric converting material (2), it is characterized in that heat absorption liquid (7) upper end is connected with post bake liquid (8), lower end is connected with convective liquid (9), the other end of convective liquid (9) is connected with the other end of heat absorption liquid (7), liquid convection passage (16) arranged outside heat-collecting box (12), heat radiation level (3) is set bottom heat-collecting box, above heat radiation level, thermo-electric converting material (2) is set, heater stages (1) is set above thermo-electric converting material, light-absorbing coating (18) is set above heater stages, oral area arranges double layer light transmission glass (13), liquid convection passage (16) arranges post bake level (4) above, secondary thermo-electric converting material (5) is set above post bake level, secondary heat radiation level (6) is set above secondary thermo-electric converting material, heat radiation level and post bake level are set to one, composition thermoelectrical conversion battery, secondary heat radiation level (6) arranges shadow shield (11) above, shadow shield is connected to heat-collecting box upper end heat radiation level and post bake level junction, be used for block sunlight to the radiation in secondary heat radiation level, in promotion secondary heat radiation level, heat distributes, promote the flowing of heat in secondary thermo-electric converting material (5).
As shown in Figure 4, in order to improve conversion efficiency of thermoelectric further, radiator liquid circulative convection passage (17) is set on secondary heat radiation level (6), more efficiently radiates heat is carried out to secondary heat radiation level.
Convective liquid (9) and post bake liquid (8) junction, radiator liquid circulative convection passage (17) arrange liquid feeding mouth (10), and liquid convection passage (16) arranges fixed head (14) below.
Thermo-electric converting material (2) and secondary thermo-electric converting material (5) arrange thermoelectric material edge sealing (15) around.
As shown in Figure 3, in order to adapt to the placement on slope, convective liquid place can be set to concave structure.
Heat radiation level (3) and post bake level (4) can directly be set to liquid convection channel envelope, also can be set to above fluid passage shell.
As shown in Figure 1, in order to the temperature difference strengthening heater stages (1) and dispel the heat between level (3), post bake level (4) and secondary heat radiation level (6), convective liquid (9) place of liquid convection passage (16) can be set to radiator structure.
Due to circulating of the liquid in convective liquid (9), heat absorption liquid (7), radiator liquid circulative convection passage (17), make heater stages and heat radiation level between, post bake level secondary heat radiation level between the temperature difference strengthen, the temperature difference strengthened facilitates the flowing of heat, and the heat of flowing improves the thermoelectricity conversion of heat in thermo-electric converting material (2).
When sunlight injects heat-collecting box (12), light-absorbing coating (18) is converted to heat sunlight, heat heats heater stages (1), heater stages heats thermo-electric converting material (2), thermo-electric converting material is heat radiation level (3) heating, heat absorption liquid (7) is just absorbed heat to the heat of heat radiation level, liquid after heat absorption heats up flows into post bake liquid (8) place and heats post bake level (4), post bake level heats secondary thermo-electric converting material (5), secondary thermo-electric converting material heats secondary level (6) of dispelling the heat, secondary heat radiation level one is that heat is dispersed in air, another kind is by the liquid absorption in radiator liquid circulative convection passage (17), be dispersed into again in air after absorption.Under the effect of liquid convection passage (16) and radiator liquid circulative convection passage (17), accelerate the flowing in the thermo-electric converting material of heat between heater stages and heat radiation level between post bake level and secondary heat radiation level, the heat of flowing improves the direct conversion of thermoelectricity.
Claims (7)
1. a solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery, comprise liquid convection passage (16), heat-collecting box (12), thermo-electric converting material (2), it is characterized in that heat absorption liquid (7) upper end is connected with post bake liquid (8), lower end is connected with convective liquid (9), the other end of convective liquid (9) is connected with the other end of heat absorption liquid (7), liquid convection passage (16) arranged outside heat-collecting box (12), heat radiation level (3) is set bottom heat-collecting box, above heat radiation level, thermo-electric converting material (2) is set, heater stages (1) is set above thermo-electric converting material, light-absorbing coating (18) is set above heater stages, oral area arranges double layer light transmission glass (13), liquid convection passage (16) arranges post bake level (4) above, secondary thermo-electric converting material (5) is set above post bake level, secondary heat radiation level (6) is set above secondary thermo-electric converting material, heat radiation level and post bake level are set to one, composition thermoelectrical conversion battery, secondary heat radiation level (6) arranges shadow shield (11) above, shadow shield is connected to heat-collecting box upper end heat radiation level and post bake level junction, be used for block sunlight to the radiation in secondary heat radiation level, in promotion secondary heat radiation level, heat distributes, promote the flowing of heat in secondary thermo-electric converting material.
2. solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery according to claim 1, it is characterized in that to improve conversion efficiency of thermoelectric further, radiator liquid circulative convection passage (17) is set on secondary heat radiation level (6), more efficiently radiates heat is carried out to secondary heat radiation level.
3. solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery according to claim 1, it is characterized in that arranging liquid feeding mouth (10) on convective liquid (9) and post bake liquid (8) junction, radiator liquid circulative convection passage (17), liquid convection passage (16) arranges fixed head (14) below.
4. solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery according to claim 1, is characterized in that thermo-electric converting material (2) and secondary thermo-electric converting material (5) arrange thermoelectric material edge sealing (15) around.
5. solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery according to claim 1, is characterized in that the placement in order to adapt on slope, convective liquid place can be set to concave structure.
6. solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery according to claim 1 or 5, it is characterized in that heat radiation level (3) and post bake level (4) can directly be set to liquid convection channel envelope, also can be set to above fluid passage shell.
7. solar energy temperature difference heat flowing kinetic energy thermoelectrical conversion battery according to claim 1 and 2, it is characterized in that convective liquid (9) place of liquid convection passage (16) can be set to radiator structure in order to the temperature difference strengthening heater stages (1) and dispel the heat between level (3), post bake level (4) and secondary heat radiation level (6).
Priority Applications (1)
| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520399114.8U CN204809264U (en) | 2015-06-04 | 2015-06-04 | Solar energy difference in temperature heat flow kinetic energy thermoelectric conversion battery |
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| Application Number | Priority Date | Filing Date | Title |
|---|---|---|---|
| CN201520399114.8U CN204809264U (en) | 2015-06-04 | 2015-06-04 | Solar energy difference in temperature heat flow kinetic energy thermoelectric conversion battery |
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| Publication Number | Publication Date |
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| CN204809264U true CN204809264U (en) | 2015-11-25 |
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| CN201520399114.8U Withdrawn - After Issue CN204809264U (en) | 2015-06-04 | 2015-06-04 | Solar energy difference in temperature heat flow kinetic energy thermoelectric conversion battery |
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Cited By (1)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105161611A (en) * | 2015-06-04 | 2015-12-16 | 榆社县云山新能源与新健身用品研发厂 | Solar heat flowing kinetic energy thermoelectric conversion battery |
-
2015
- 2015-06-04 CN CN201520399114.8U patent/CN204809264U/en not_active Withdrawn - After Issue
Cited By (2)
| Publication number | Priority date | Publication date | Assignee | Title |
|---|---|---|---|---|
| CN105161611A (en) * | 2015-06-04 | 2015-12-16 | 榆社县云山新能源与新健身用品研发厂 | Solar heat flowing kinetic energy thermoelectric conversion battery |
| CN105161611B (en) * | 2015-06-04 | 2018-02-02 | 榆社县云山新能源与新健身用品研发厂 | Solar heat flows kinetic energy thermoelectrical conversion battery |
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| Date | Code | Title | Description |
|---|---|---|---|
| C14 | Grant of patent or utility model | ||
| GR01 | Patent grant | ||
| CF01 | Termination of patent right due to non-payment of annual fee |
Granted publication date: 20151125 Termination date: 20160604 |
|
| AV01 | Patent right actively abandoned | ||
| AV01 | Patent right actively abandoned |
Granted publication date: 20151125 Effective date of abandoning: 20180202 |