CN203193549U - Micro-charging device utilizing sunshine on building for photo-thermal temperature differential power generation - Google Patents

Abstract

The utility model discloses a micro-charging device utilizing sunshine on a building for photo-thermal temperature differential power generation. The micro-charging device comprises a power generation part and a power supply management part, wherein the power generation part comprises a temperature differential power generation module, an installation table, and a heat absorbing plate; the power supply management part comprises a power supply processor, a storage battery, and a micro-charging unit; an outer end surface of the heat absorbing plate is embedded in a sunny-side wall of the building; the installation table is fixedly arranged on a water supply pipe of the building in a heat-conductive manner; a hot end surface of the temperature differential power generation module is fixedly connected with an inner end surface of the heat absorbing plate; a cold end surface of the temperature differential power generation module is fixedly connected with the installation table in a heat-conductive manner; the temperature differential power generation module generates electric power by maintaining the cold and hot temperature difference through absorbing and dissipating heat and transmits the electric power to the power supply processor through a conductor wire; and the power supply processor charges the storage battery and supplies the electric power to the micro-charging unit through conductor wires. If the micro-charging device is put into service extensively, the amount of electric power supplied by power grids employing thermal power generation can be reduced to a certain extent, thereby not only relatively improving the safety of charging, but also realizing the objectives of energy saving, emission reducing, low-carbon economizing, and environment protecting.

Description

Utilize little charging device of building sunlight heat thermo-electric generation

Technical field

The utility model relates to the photo-thermal thermo-electric generation, especially a kind of little charging device that utilizes building sunlight heat thermo-electric generation.

Background technology

Along with continuous progress in science and technology and people to setting up deepening continuously of the important understanding of conservation-minded society, implement " energy conservation priority, structure optimization, environmental friendliness " sustainable energy development strategy, economize on resources and risen to the height of fundamental state policy, the energy is by improving the human lives and economic development is necessary, meanwhile, the energy also may cause health problem and environmental problems such as air pollution, global warming.Because old folk power supply system only provides a kind of interchange 220 volt of 50 all pattern, and developing rapidly and the popularization and application product for civilian useization along with modern science and technology, different purposes, polytype small low-voltage micropower electrical equipment is used in a large number, each is inconsistent for its charging voltage of a great variety and required, as take to exchange 220 volt of 50 week and change the power consumption requirements that different low-voltage direct electrical appliances is satisfied in power supply, just need the good and reliable high-low pressure AC/DC of fail safe conversion equipment, its result causes the electric power supply complex system, maximize, maintenance cost increase and efficient reduction etc.Meanwhile, comparatively fast and in the technology application obtained certain breakthrough with the semiconductor thermo-electric generation apparatus that micropower low-voltage direct characteristics are complementary in development in the last few years, equipment is already developed and is reached its maturity reliable and have advantages such as no chemical substance and machinery noise pollution in eighties of last century in addition, therefore as one of best power supply candidate significant and consideration especially.On the other hand, along with the process of modern cityization in acceleration constantly, skyscraper is universal day by day, shines sunlight on these buildings between daytime and is wasted mostly or produces light pollution, and the sunlight that how effectively to utilize multi-story structure to accept also is a problem that is worth research.

The utility model content

At the problem that prior art exists, the purpose of this utility model is to provide a kind of little charging device of simple in structure, function is single-minded, model is complete utilization building sunlight heat thermo-electric generation.

For achieving the above object, little charging device of the utility model utilization building sunlight heat thermo-electric generation, comprise Power Generation Section and power management portion, the Power Generation Section comprises temperature-difference power generation module, erecting bed and absorber plate, power management portion then comprises power processor, storage battery and little charhing unit, wherein, the outer face of absorber plate is embedded in the sunny side body of wall of building, heat conduction is set with erecting bed on the feed pipe of building, the hot junction face of temperature-difference power generation module is fixedlyed connected with the inner face of absorber plate, and the cold junction face of temperature-difference power generation module is fixedlyed connected with erecting bed heat conduction; Temperature-difference power generation module is kept cold and hot temperature difference generation electric power and is transferred to power processor through conductor wire by drawing and evacuate heat, and power processor charges a battery by conductor wire and powers to little charhing unit.

Further, it is indoor that described power management portion is that integrated device is arranged at, and be electrically connected by conductor wire and described temperature-difference power generation module, and described power processor, storage battery and little charhing unit are electrically connected with conductor wire.

Further, the hot junction face of described temperature-difference power generation module is connected with the fixedly connected securing member that is set to two planes folder heat-conducting glue fat of the heat conduction of the inner face of described absorber plate.

Further, the cold junction face of described temperature-difference power generation module is connected with fixedly connected firm of the face-flange that is set to of the heat conduction of erecting bed.

Further, described erecting bed also is connected with securing member with described feed pipe cambered surface coupling, and material all is set to metal.

The utility model attempts building illumination body of wall itself that have and feed pipe system respectively as natural high-temperature, low-temperature heat source, and combines the power as thermo-electric generation; Simultaneously, in conjunction with the charging voltage of low-power electrical device and power characteristics with the electric energy of thermo-electric generation directly, be used effectively, make the little charging device that is fit to this type of low-power electrical device; Can to a certain degree reduce the mains supply electric weight of thermoelectricity generating on a large scale after this device is enabled, both improve the fail safe of charging relatively, can reach saving and the environmental objective of energy-saving and emission-reduction and low-carbon (LC) again.

Description of drawings

Fig. 1 is the utility model operation principle schematic block diagram;

Fig. 2 is the utility model power generation part installation site schematic diagram under construction;

Fig. 3 is the A portion structure enlarged drawing of Fig. 2.

Embodiment

Below, with reference to the accompanying drawings, the utility model is more fully illustrated, exemplary embodiment of the present utility model has been shown in the accompanying drawing.Yet the utility model can be presented as multiple multi-form, and should not be construed as the exemplary embodiment that is confined to narrate here.But, these embodiment are provided, thereby make the utility model comprehensively with complete, and scope of the present utility model is fully conveyed to those of ordinary skill in the art.

In order to be easy to explanation, here can use such as " on ", D score " left side " " right side " the space relative terms of etc.ing, for element shown in the key diagram or the feature relation with respect to another element or feature.It should be understood that except the orientation shown in the figure spatial terminology is intended to comprise the different azimuth of device in using or operating.For example, if the device among the figure is squeezed, be stated as the element that is positioned at other elements or feature D score will be positioned at other elements or feature " on ".Therefore, the exemplary term D score can comprise upper and lower orientation both.Device can otherwise be located (revolve turn 90 degrees or be positioned at other orientation), and the used here relative explanation in space can correspondingly be explained.

As shown in Figure 1, 2, 3, little charging device of the utility model utilization building sunlight heat thermo-electric generation, comprise Power Generation Section and power management portion, the Power Generation Section comprises temperature-difference power generation module 11, erecting bed 3, absorber plate 4, conductor wire (not shown) etc., and power management portion then comprises power processor 12, storage battery 14 and little charhing unit 13.

As shown in Figure 3, wherein temperature-difference power generation module 11 is arranged between sunny side body of wall 1 inboard and feed pipe 2 of building, the hot junction face 7 of temperature-difference power generation module 11 is fixedlyed connected with the inner face heat conduction of absorber plate 4, the cold junction face 6 of temperature-difference power generation module 11 is fixedlyed connected with erecting bed 3 heat conduction, and erecting bed 3 is also fixedlyed connected with feed pipe 2 heat conduction.The outer face of absorber plate 4 is embedded in sunny side body of wall 1 top layer of building.

As shown in Figure 1, it is indoor that power management portion is that integrated device is arranged at, and be electrically connected by conductor wire (line of arrow 18) and temperature-difference power generation module 11, its inner power processor 12, storage battery 14 and little charhing unit 13 also are electrically connected with conductor wire (line of arrow 18).

Operation principle and installation process: as shown in Figure 1, 2, 3.Outer face with absorber plate 4 is embedded in the outer veneer of wall of building earlier, then temperature-difference power generation module 11 is placed position A between the inboard and feed pipe 2 of the sunny side body of wall 1 of building, and between the inner face of hot junction face 7 and absorber plate 4, clamp heat-conducting glue fat and be connected with securing member.

Simultaneously, the cold junction face 6 of temperature-difference power generation module is connected with firm of face-flange with the installed surface (not shown) of erecting bed 3; Then again erecting bed 3 is connected with securing member with two coupling cambered surfaces of feed pipe 2; Connect relevant electric wiring at last and finish installation.

As shown in Figure 1, 2, 3, during work, absorber plate 4 passes through its hot junction faces 7 again from absorber plate 4 draw heats from sunny side body of wall 1 draw heat, temperature-difference power generation module 11; Temperature-difference power generation module 11 is evacuated heats and erecting bed 3 is evacuated heats to feed pipe 2 through its cold junction faces 6 to erecting bed 3; Temperature-difference power generation module 11 is kept cold and hot temperature difference generation electric power and is transferred to power processor 12 through conductor wire (line of arrow 18) by drawing and evacuate heat, power processor 12 is made according to setting and is judged selection, accumulators 14 charges and to little charhing unit 13 power supplies, the feed direction is represented in the sensing of arrow 18.

Claims (5)

1. utilize little charging device of building sunlight heat thermo-electric generation, it is characterized in that, this little charging device comprises Power Generation Section and power management portion, the Power Generation Section comprises temperature-difference power generation module, erecting bed and absorber plate, power management portion then comprises power processor, storage battery and little charhing unit, wherein, the outer face of absorber plate is embedded in the sunny side body of wall of building, heat conduction is set with erecting bed on the feed pipe of building, the hot junction face of temperature-difference power generation module is fixedlyed connected with the inner face of absorber plate, and the cold junction face of temperature-difference power generation module is fixedlyed connected with erecting bed heat conduction; Temperature-difference power generation module is kept cold and hot temperature difference generation electric power and is transferred to power processor through conductor wire by drawing and evacuate heat, and power processor charges a battery by conductor wire and powers to little charhing unit.

2. little charging device of sunlight heat thermo-electric generation is built in utilization as claimed in claim 1, it is characterized in that, it is indoor that described power management portion is that integrated device is arranged at, and be electrically connected by conductor wire and described temperature-difference power generation module, described power processor, storage battery and little charhing unit are electrically connected with conductor wire.

3. little charging device of sunlight heat thermo-electric generation is built in utilization as claimed in claim 1, it is characterized in that the hot junction face of described temperature-difference power generation module is connected with the fixedly connected securing member that is set to two planes folder heat-conducting glue fat of the heat conduction of the inner face of described absorber plate.

4. little charging device of utilization building sunlight heat thermo-electric generation as claimed in claim 1 is characterized in that the cold junction face of described temperature-difference power generation module is connected with fixedly connected firm of the face-flange that is set to of the heat conduction of erecting bed.

5. little charging device of utilization building sunlight heat thermo-electric generation as claimed in claim 1 is characterized in that, described erecting bed also is connected with securing member with described feed pipe cambered surface coupling, and material all is set to metal.

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