CN205829501U - Thermoelectric power generation structure based on Seebeck effect and aerostatics - Google Patents

Abstract

This utility model relates to the technical field of aerostatics, disclose thermoelectric power generation structure based on Seebeck effect and aerostatics, wherein thermoelectric power generation structure based on Seebeck effect, including the body being arranged between the utricule of aerostatics and thin film solar cell sheet, described body includes the heat-storing device for absorbing described thin film solar cell sheet heat and for the multiple thermo-electric devices by thermo-electric generation, described heat-storing device is attached at described thin film solar cell sheet lower end, and the plurality of thermo-electric device is distributed between described heat-storing device and described utricule.Thermoelectric power generation structure based on Seebeck effect in this utility model, the heat energy that thin film solar cell sheet produces can be converted into electric energy, not only increase capacity usage ratio, and can reduce the heat energy impact on utricule, thus after avoiding inner air to be heated, air pressure rising affects the problem that sky stably stayed by aerostatics.

Description

Thermoelectric power generation structure based on Seebeck effect and aerostatics

Technical field

This utility model relates to the technical field of aerostatics, particularly relates to thermoelectric power generation structure based on Seebeck effect.

Background technology

Near space aerostatics as the resident platform in endoatmosphere, due to there is prominent remote sensing and communication advantage and day by day Come into one's own, become a hot technology.Generated electricity by surface mount thin-film solar cells, can effectively strengthen aerostatics Long-time ability in sky, thus significantly improve its duty cycle.

But the close region too fast rising of utricule temperature after surface mount thin-film solar cells, can be caused, pass through heat transfer Cause gas temperature in utricule, pressure drastically to raise, aerostatics stably stayed the threat that blanking bar is serious.

Utility model content

The purpose of this utility model is to provide thermoelectric power generation structure based on Seebeck effect and aerostatics, it is intended to solve In prior art after the thin-film solar cells heating of aerostatics utricule surface configuration, utricule relevant position temperature is caused to rise, Cause the internal temperature of utricule, air pressure to raise, thus threaten the stable of aerostatics to stay empty problem.

This utility model is achieved in that thermoelectric power generation structure based on Seebeck effect, including being arranged on aerostatics Utricule and thin film solar cell sheet between body, described body include for absorb described thin film solar cell sheet heat The heat-storing device of amount and for by multiple thermo-electric devices of thermo-electric generation, described heat-storing device is attached at described thin film solar Cell piece lower end, the plurality of thermo-electric device is distributed between described heat-storing device and described utricule.

Further, described heat-storing device includes the substrate being closely set in described thin film solar cell sheet lower end.

Further, described heat-storing device includes the reservoir being closely set in described substrate lower end.

Further, described reservoir is the reservoir being made up of high density ethylene layer.

Further, described reservoir laid inside has heat pipe.

Further, described heat-storing device includes the bottom heat-conducting plate being arranged at described reservoir lower end.

Further, thermo-electric device includes the thermo-electric converting material that the conducting polymer of the Tellurobismuthite. material adulterated is constituted.

Compared with prior art, the thermoelectric power generation structure based on Seebeck effect in this utility model, can by thin film too The heat energy that sun energy cell piece produces is converted into electric energy, not only increases capacity usage ratio, and can reduce the heat energy shadow to utricule Ring, thus after avoiding inner air to be heated, air pressure rising affects the problem that sky stably stayed by aerostatics.

This utility model additionally provides aerostatics, including utricule and the thin film solar cell sheet being layed in utricule outer end, It is characterized in that, also include above-mentioned thermoelectric power generation structure based on Seebeck effect.

Further, also include being electrically connected to described thin film solar cell sheet and the accumulator of multiple described thermo-electric device And/or electricity system.

Further, it is in parallel with described thin film solar cell sheet again after multiple described thermo-electric devices are serially connected.

Aerostatics in this utility model, the heat energy that thin film solar cell sheet produces can be converted into electric energy, not only by it The heat energy impact on utricule can be reduced, and improve the in-line power ability of aerostatics.

Accompanying drawing explanation

The structural representation of the thermoelectric power generation structure based on Seebeck effect that Fig. 1 provides for this utility model embodiment；

Detailed description of the invention

In order to make the purpose of this utility model, technical scheme and advantage clearer, below in conjunction with accompanying drawing and enforcement Example, is further elaborated to this utility model.Should be appreciated that specific embodiment described herein is only in order to explain This utility model, is not used to limit this utility model.

In description of the present utility model, it is to be understood that term " length ", " width ", " on ", D score, " front ", Orientation or the position relationship of the instruction such as " afterwards ", "left", "right", " vertically ", " level ", " top ", " end " " interior ", " outward " are based on attached Orientation shown in figure or position relationship, be for only for ease of description this utility model and simplify description rather than instruction or hint The device of indication or element must have specific orientation, with specific azimuth configuration and operation, therefore it is not intended that to this The restriction of utility model.

In description of the present utility model, " multiple " are meant that two or more, unless otherwise the most concrete Limit.

In this utility model, unless otherwise clearly defined and limited, term " install ", " being connected ", " connection ", " Gu Fixed " etc. term should be interpreted broadly, connect for example, it may be fixing, it is also possible to be to removably connect, or integral；Can be It is mechanically connected, it is also possible to be electrical connection；Can be to be joined directly together, it is also possible to be indirectly connected to by intermediary, can be two The connection of element internal or the interaction relationship of two elements.For the ordinary skill in the art, can basis Concrete condition understands above-mentioned term concrete meaning in this utility model.

Below in conjunction with concrete accompanying drawing, the realization of the present embodiment is described in detail.

As it is shown in figure 1, the present embodiment provides thermoelectric power generation structure based on Seebeck effect, including being arranged on floating Body between device utricule 7 and thin film solar cell sheet 2.Body includes for absorbing membrane solar battery sheet 2 heat Heat-storing device and for by multiple thermo-electric devices 6 of thermo-electric generation, heat-storing device is attached at thin film solar cell sheet 2 times End, multiple thermo-electric devices 6 are distributed between heat-storing device and utricule 7.

Thin film solar cell sheet 2 is operationally generated heat, and its heat is transferred to heat-storing device, and heat-storing device absorbs heat also Storage, it is possible to provide stable thermal source.Owing to being provided with multiple thermo-electric device 6 between heat-storing device and utricule 7, the most directly contact, capsule Body 7 will not be affected by thin film solar cell sheet 2 heating, keeps original temperature so that utricule 7 surface and heat-storing device Between form the temperature difference, heat-storing device is as the hot junction of thermo-electric device 6, and utricule 7 leads to as the cold end of thermo-electric device 6, thermo-electric device 6 The interior of heat-storing device can be converted into electric energy by the temperature difference crossing the two.According to law of conservation of energy, thin film solar electricity The heat energy that pond sheet 2 produces finally is converted into electric energy by thermo-electric device 6, not only obtains extra electric energy, improves solar energy Utilization rate, and the temperature impact on utricule 7 surface diminishes, and makes the temperature of corresponding thin film solar cell sheet 2 position of utricule 7 become Changing little, thus avoid internal air temperature and raise, causing air pressure to rise affects the problem that sky stably stayed by aerostatics.

Heat-storing device includes the substrate 3 being closely set in thin film solar cell sheet 2 lower end, substrate 3 directly and thin film too Sun can contact by cell piece 2, absorbs its heat.

Heat-storing device also includes the reservoir 4 being closely set in substrate 3 lower end, and reservoir 4 is made up of high density ethylene layer. At the heat pipe that reservoir 4 laid inside has, a stable heat supply can be formed by from the heat absorption of substrate 3 and store Environment.In actual applications, absorb from after the heat of substrate 3, reservoir 4 can be brought rapidly up to 100 degrees centigrade and It is stably held in this temperature, and utricule 7 is relatively low at height aerial surface temperature, and between reservoir 4, form about 150 degrees Celsius The temperature difference.

Heat-storing device also includes the bottom heat-conducting plate 5 being arranged at reservoir 4 lower end, and temperature is derived by bottom heat-conducting plate 5, makees For the hot junction of final heat supply, multiple thermo-electric devices 6 are i.e. arranged between bottom heat-conducting plate 5 and utricule 7.

Preferably, thermo-electric device 6 includes that the thermoelectricity that the conducting polymer of Tellurobismuthite. (Bi2Te3) material adulterated is constituted turns Conversion materials, effectively can be converted into electric energy by the temperature difference.

The present embodiment additionally provides aerostatics, including utricule 7, be layed in the thin film solar cell sheet 2 of utricule 7 outer end with And above-mentioned thermoelectric power generation structure based on Seebeck effect.

Aerostatics in the present embodiment, its by thermoelectric power generation structure based on Seebeck effect by thin-film solar cells The converting heat that sheet 2 produces is electric energy, thus avoids the impact on utricule 7 of this partial heat, can improve capacity usage ratio, again Avoid the air pressure change that utricule 7 intensification causes, thus effectively extend the time in sky.

Aerostatics also includes being electrically connected to thin film solar cell sheet 2 and the accumulator of multiple thermo-electric device 6 and/or electricity consumption The electricity that system 2, thin film solar cell sheet 2 and multiple thermo-electric device 6 are sent can be directly used in electricity system, it is also possible to Accumulator stores in case of need.After in the present embodiment, multiple thermo-electric devices 6 are serially connected again with thin-film solar cells Sheet 2 is in parallel, can be powered by thin film solar cell sheet 2 when thermo-electric device 6 generated output is relatively low, and the two will not influence each other.

These are only preferred embodiment of the present utility model, not in order to limit this utility model, all in this practicality Any amendment, equivalent and the improvement etc. made within novel spirit and principle, should be included in guarantor of the present utility model Within the scope of protecting.

Claims (10)

1. thermoelectric power generation structure based on Seebeck effect, it is characterised in that the utricule including being arranged on aerostatics and thin film are too Sun can body between cell piece, described body include the heat-storing device for absorbing described thin film solar cell sheet heat and For the multiple thermo-electric devices by thermo-electric generation, described heat-storing device is attached at described thin film solar cell sheet lower end, institute State multiple thermo-electric device to be distributed between described heat-storing device and described utricule.

2. thermoelectric power generation structure based on Seebeck effect as claimed in claim 1, it is characterised in that described heat-storing device bag Include the substrate being closely set in described thin film solar cell sheet lower end.

3. thermoelectric power generation structure based on Seebeck effect as claimed in claim 2, it is characterised in that described heat-storing device bag Include the reservoir being closely set in described substrate lower end.

4. thermoelectric power generation structure based on Seebeck effect as claimed in claim 3, it is characterised in that described reservoir is served as reasons The reservoir that high density ethylene layer is constituted.

5. thermoelectric power generation structure based on Seebeck effect as claimed in claim 3, it is characterised in that inside described reservoir It is equipped with heat pipe.

6. thermoelectric power generation structure based on Seebeck effect as claimed in claim 3, it is characterised in that described heat-storing device bag Include the bottom heat-conducting plate being arranged at described reservoir lower end.

7. thermoelectric power generation structure based on Seebeck effect as claimed in claim 1, it is characterised in that described thermo-electric device bag The thermo-electric converting material that the conducting polymer of the Tellurobismuthite. material including doping is constituted.

8. aerostatics, including utricule and the thin film solar cell sheet being layed in utricule outer end, it is characterised in that also include right Require the thermoelectric power generation structure based on Seebeck effect described in 1 to 7 any one.

9. aerostatics as claimed in claim 8, it is characterised in that also include being electrically connected to described thin film solar cell sheet and The accumulator of multiple described thermo-electric devices and/or electricity system.

10. aerostatics as claimed in claim 9, it is characterised in that multiple described thermo-electric devices be serially connected after again with described Thin film solar cell sheet is in parallel.