CN103184800A

CN103184800A - Building with triangular solar photovoltaic conversion structure

Info

Publication number: CN103184800A
Application number: CN2011104490504A
Authority: CN
Inventors: 王广武
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-12-29
Filing date: 2011-12-29
Publication date: 2013-07-03

Abstract

The invention relates to a building with triangular solar photovoltaic conversion structures, which comprises a solar controller, a storage battery, an inverter, solar panels, transparent building glass, triangular supporting structures and heat insulating materials, wherein the back surfaces of the triangular supporting structures are connected onto a building elevation structure, the solar panels for photovoltaic conversion are installed on the inclined surfaces of the triangular supporting structures, light reflecting plates, arc-shaped light condensing plates, decoration plates or decoration glass plates are installed on the other surfaces of the triangular supporting structures, and the right-angle outward extension surfaces of the triangular supporting structures are the transparent building glass or transparent building doors/windows.

Description

Triangle solar energy photoelectric conversion building

Technical field;

The present invention relates to the solar energy photoelectric conversion building, comprising: roof, body of wall, curtain wall.

Background technology;

Present BIPV (Building Integrated PV), more be that surface power station ramp structure mounting method has directly been moved on the roof or on the body of wall, this not only brings hidden danger to building safety, and the steadiness of photovoltaic system self also is problem, also destroys the overall appearance of building simultaneously to a certain extent.Because photovoltaic system is opaque, can't realize generating and two kinds of functions of daylighting.Because solar panel is single layer structure, does not possess heat insulation function, can't realize building energy conservation.

On the existing device of solar generating solar panel wind-force dedusting or snow-removing device are not set, because the printing opacity outer panels is subjected to the impact of wind sand for a long time, the corrosion of gas, the covering of dust or accumulated snow, reduce printing opacity outer panels solar radiation intensity, reduce the opto-electronic conversion usefulness of device of solar generating, cause the waste of resource.

On the existing device of solar generating solar panel windchill device is not set, when the solar cell plate temperature is elevated to 35 degree when above, opto-electronic conversion usefulness and the application life of reducing solar panel.

Summary of the invention;

The objective of the invention is; 1, utilize the triangle member to have the intensity height, indeformable, the characteristics of good stability, the steadiness problem of solution photovoltaic generating system self, the application life of improving photovoltaic generating system.2, the opto-electronic conversion solar panel is installed for generating in the triangular support structure inclined-plane, and another inclined-plane of triangular structure or right angle face are installed the printing opacity building glass and be used for daylighting, realizes generating electricity and two kinds of functions of daylighting.3, the opto-electronic conversion solar panel is installed on inclined-plane of triangular structure, reflector or arc solar panel are installed in another inclined-plane of triangular structure, reflector or arc solar panel reflex to sunshine or houselights on the solar panel of installing on adjacent inclined-plane, improve the solar panel photoelectric transformation efficiency and realize generating at night and the two kinds of functions of throwing light on.4, Solar panel backside arranges heat insulating material, and heat insulating material has the solar panel of absorption pressure distortion, prevents solar panel stress rupture and building thermal-insulation energy-saving double action.5, triangular support roof structure solar panel top arranges wind-force dedusting or snow removing or heat sink, improves opto-electronic conversion usefulness and the application life of solar panel.6, triangular support roof structure solar panel bottom arranges drainage system, is beneficial to the discharge of roof ponding.

The triangle solar energy photoelectric conversion building that the present invention proposes, comprise: controller for solar, battery, inverter, solar panel, the printing opacity building glass, triangular support structure, heat insulating material, the triangular support structure back side is connected on the elevation of building structure, the opto-electronic conversion solar panel is installed on the triangular support structure inclined-plane, the another side of triangular support structure is installed reflector or arc solar panel or decoration panel or decorative glass board, extended surface is printing opacity building glass or printing opacity building doors and windows outside the triangular structure right angle, during use, reflector or arc solar panel or decoration panel or decorative glass board are radiated at adjacent triangular support structure solar panel inclined-plane with solar reflection optical and carry out opto-electronic conversion, houselights in building glass or the printing opacity building doors and windows or be installed in reflector or arc solar panel or decoration panel or decorative glass board on houselights be radiated at adjacent triangular support structure solar panel inclined-plane and carry out opto-electronic conversion, improve the opto-electronic conversion usefulness of solar panel, realize night illumination and two kinds of functions of solar panel opto-electronic conversion.

Triangular support structure is installed on the roof, the opto-electronic conversion solar panel is installed on the triangular support structure inclined-plane, printing opacity building glass or reflector or arc solar panel are installed in another inclined-plane of triangular structure, triangular support roof structure bottom arranges rhone, the triangular support structure that solar panel is installed on a plurality of inclined-planes is arranged in parallel on the roof, during use, solar light irradiation carries out opto-electronic conversion on the solar panel inclined-plane, on solar light irradiation building glass or reflector or the arc solar panel, the reverberation of building glass or reflector or arc solar panel is radiated at the solar panel inclined-plane and carries out opto-electronic conversion.

For improving the opto-electronic conversion usefulness of solar panel, triangular support roof structure solar panel top arranges wind-force dedusting or snow-removing device or windchill device, the air outlet of wind-force dedusting or snow-removing device is positioned at the upper surface of solar panel, power wind blows to the upper surface of solar panel by air outlet, remove upper surface dust or the accumulated snow of solar panel, another effect of power wind that blows to the upper surface of solar panel is to solar panel cooling, opto-electronic conversion usefulness and the application life of improving solar panel.

For improving the application life of solar panel, prevent that solar panel from being flooded by rainwater, triangular support roof structure solar panel bottom arranges drainage system.

For preventing the solar panel surface contamination, be coated with self-cleaning coating on the solar panel or paste self-cleaning film.

For improving the heat-insulating property on building roof, building glass adopts hollow glass, LOW-E hollow glass or three layers of hollow glass.

For solving the natural ventilation problem of building roof and construction wall, establish opening door-leaf on the printing opacity building glass.

When triangular structure is used for wall body structure or curtain wall construction, warming plate is laid on inclined-plane of triangular structure, lay the unit module solar panel on the warming plate, the unit module solar panel is fixed on the triangular structure with screw or gland or profile, lay printing opacity building glass or reflector or arc solar panel on another inclined-plane of triangular structure, the effect of warming plate is to prevent the distortion of unit module solar panel and building heat preservation, warming plate comprises: the inorganic heat preservation plate, the organic heat-insulating plate, the wood that has cavity is moulded plate.

Triangular structure adopts steel work or aluminium extruded sections or concrete structure or has Wood-plastic material or the wooden construction of metal liner.

Triangle solar energy photoelectric conversion building comprises: roof, body of wall, curtain wall, suitable factory building, storehouse, wholesale fair center, exhibition conference centre, parking lot, agricultural greenhouse, aquaculture animal shop.

Description of drawings;

Below in conjunction with drawings and Examples the present invention is further described.

Fig. 1 has feature triangle insulating reflector panel of the present invention and warming solar energy cell panel combination roof opto-electronic conversion building sectional structure chart.

Fig. 2 has feature triangle printing opacity hollow glass of the present invention and warming solar energy cell panel combination roof opto-electronic conversion building sectional structure chart.

Fig. 3 has feature triangle reflector of the present invention and warming solar energy cell panel combination metope or curtain wall opto-electronic conversion building sectional structure chart.

Fig. 4 has feature triangle decorative panel of the present invention and warming solar energy cell panel combination metope or curtain wall opto-electronic conversion building sectional structure chart.

The specific embodiment;

Embodiment 1;

Triangle insulating reflector panel and warming solar energy cell panel combination roof opto-electronic conversion building sectional structure chart are as shown in Figure 1, wherein: the 1st, the aluminium alloys lower transverse beam, the 2nd, aluminium alloys lower transverse beam solar panel gripper shoe, the 3rd, the solar panel bottom plate, the 4th, the insulating reflector panel gripper shoe, the 5th, the insulating reflector panel bottom plate, the 6th, drain, the 7th, aluminium alloys top rail, the 8th, aluminium alloys top rail solar panel supporting plate, the 9th, aluminium alloys top rail insulating reflector panel supporting plate, the 10th, triangular supports, the 11st, solar panel, the 12nd, warming plate under the solar panel, the 13rd, reflector or solar panel, the 14th, warming plate under the reflector, the 15th, fluid sealant, the 16th, vibration damping sealing mat, the 17th, airduct, the 18th, airduct air outlet.

During assembling, aluminium alloys lower transverse beam 1 two ends are fixed on the wall body structure, aluminium alloys top rail 5 two ends are fixed on the wall body structure, triangular supports 6 is installed between aluminium alloys lower transverse beam 1 and the aluminium alloys top rail 5, warming plate 12 and solar panel 11 lower ends are installed on aluminium alloys lower transverse beam 1 solar panel gripper shoe 2 and the solar panel bottom plate 3 under the solar panel, with fluid sealant 15 adjacent slits is sealed, warming plate 12 and solar panel 11 upper ends are installed on aluminium alloys top rail 7 and the aluminium alloys top rail solar panel supporting plate 8 under the solar panel, with fluid sealant 15 adjacent slits is sealed, warming plate 14 lower ends are installed on aluminium alloys lower transverse beam 1 insulating reflector panel gripper shoe 4 and the insulating reflector panel bottom plate 5 under reflector 13 and the reflector, with fluid sealant 15 adjacent slits is sealed, warming plate 14 upper ends are installed on aluminium alloys top rail 7 and the aluminium alloys top rail insulating reflector panel supporting plate 9 under reflector 13 and the reflector, with fluid sealant 15 adjacent slits is sealed, airduct 17 is installed on the aluminium alloys top rail 7, power wind enters airduct 17, accelerate directive solar panel 11 surfaces, back by airduct air outlet 18, remove surface dirt and cooling, rainwater flows in the drain 6 along solar panel 11 surfaces and reflector 13 surfaces, discharges outdoor by the side drainage pipe.Reflector or solar panel 13 to solar panel 11 surfaces, improve the opto-electronic conversion usefulness of solar panel 11 with sunlight reflected.

Embodiment 2:

Triangle printing opacity hollow glass and warming solar energy cell panel combination roof opto-electronic conversion building sectional structure chart are as shown in Figure 2, wherein: the 19th, the aluminium alloys lower transverse beam, the 20th, aluminium alloys lower transverse beam solar panel gripper shoe, the 21st, the solar panel bottom plate, the 22nd, printing opacity hollow glass gripper shoe, the 23rd, printing opacity hollow glass bottom plate, the 24th, drain, the 25th, aluminium alloys top rail, the 26th, aluminium alloys top rail solar panel supporting plate, the 27th, aluminium alloys top rail printing opacity hollow glass supporting plate, the 28th, triangular supports, the 29th, solar panel, the 30th, warming plate under the solar panel, the 31st, printing opacity hollow glass, the 32nd, fluid sealant, the 33rd, vibration damping sealing mat, the 34th, airduct, the 35th, airduct air outlet.

During assembling, aluminium alloys lower transverse beam 19 two ends are fixed on the wall body structure, aluminium alloys top rail 25 two ends are fixed on the wall body structure, triangular supports 28 is installed between aluminium alloys lower transverse beam 19 and the aluminium alloys top rail 25, warming plate 30 and solar panel 29 lower ends are installed on aluminium alloys lower transverse beam 19 solar panel gripper shoes 20 and the solar panel bottom plate 21 under the solar panel, with fluid sealant 32 adjacent slits is sealed, warming plate 30 and solar panel 29 upper ends are installed on aluminium alloys top rail 25 and the aluminium alloys top rail solar panel supporting plate 26 under the solar panel, with fluid sealant 32 adjacent slits is sealed, printing opacity hollow glass 31 lower ends are installed on aluminium alloys lower transverse beam 19 printing opacity hollow glass gripper shoes 22 and the printing opacity hollow glass bottom plate 23, with fluid sealant 32 adjacent slits is sealed, printing opacity hollow glass 31 upper ends are installed on aluminium alloys top rail 25 and the aluminium alloys top rail printing opacity hollow glass supporting plate 27, with fluid sealant 32 adjacent slits is sealed, airduct 34 is installed on the aluminium alloys top rail 25, power wind enters airduct 34, accelerate directive solar panel 29 surfaces, back by airduct air outlet 35, remove surface dirt and cooling, rainwater flows in the drain 24 along solar panel 29 surfaces and printing opacity hollow glass 31 surfaces, discharges outdoor by the side drainage pipe.Printing opacity hollow glass 31 has heat-insulating property, when sunlight enters by printing opacity hollow glass 31 in, indoor light was radiated at solar panel 29 surfaces by printing opacity hollow glass 31 and carried out opto-electronic conversion night, realized the secondary utilization of the energy.

Embodiment 3:

Triangle reflector and warming solar energy cell panel combination metope or curtain wall opto-electronic conversion building sectional structure chart are as shown in Figure 3, wherein: the 36th, triangular supports, the 37th, the solar cell board thermal insulation board, the 38th, solar panel, the 39th, illuminating lamp reflection shield, the 40th, illuminating lamp, the 41st, reflector or solar panel, the 42nd, printing opacity building glass or printing opacity building doors and windows, the 43rd, body of wall or curtain wall, the 44th, coupling bar.

During assembling, triangular supports 36 usefulness coupling bars 44 are fixed on the body of wall 43, solar cell board thermal insulation board 37 is installed by the outer inclined-plane of triangular supports 36 lower floor, solar panel 38 is installed above the solar cell board thermal insulation board 37, illuminating lamp 40 is installed in the illuminating lamp reflection shield 39, reflector or solar panel 41 are installed on triangular supports 36 lower inclined planes, and printing opacity building glass or printing opacity building doors and windows 42 are installed in the building hole of reflector or solar panel 41 belows.

During use, solar light irradiation carries out opto-electronic conversion at solar panel 38, solar light irradiation is on reflector or solar panel 41, reflector or solar panel 41 carry out opto-electronic conversion with sunlight reflected to lower floor's solar panel 38 surfaces, and printing opacity building glass or printing opacity building doors and windows 42 are used for architectural lighting.

Night is when using, houselights 40 is radiated on reflector or the solar panel 41, reflector or solar panel 41 reflex to lower floor's solar panel 38 surfaces with illuminating lamp and carry out opto-electronic conversion, room lighting light passes the printing opacity building glass or printing opacity building doors and windows 42 is radiated on reflector or the solar panel 41, reflector or solar panel 41 reflex to lower floor's solar panel 38 surfaces with illuminating lamp and carry out opto-electronic conversion, room lighting light passes printing opacity building glass or printing opacity building doors and windows 42 and is radiated at and carries out opto-electronic conversion on lower floor's solar panel 38, realize illumination and the two kinds of functions of generating electricity, realize the secondary utilization of houselights.

Embodiment 4:

Triangle decorative panel and warming solar energy cell panel combination metope or curtain wall opto-electronic conversion building sectional structure chart are as shown in Figure 4, wherein: the 45th, triangular supports, the 46th, the solar cell board thermal insulation board, the 47th, solar panel, the 48th, decorative panel, the 49th, printing opacity building glass or printing opacity building doors and windows, the 50th, body of wall or curtain wall, the 51st, coupling bar.

During assembling, triangular supports 45 usefulness coupling bars 51 are fixed on the body of wall 50, solar cell board thermal insulation board 46 is installed by the outer inclined-plane of triangular supports 45 lower floor, solar panel 47 is installed above the solar cell board thermal insulation board 46, decorative panel 48 is installed on triangular supports 45 lower planes, and printing opacity building glass or printing opacity building doors and windows 49 are installed in the building hole of decorative panel 48 belows.

During use, solar light irradiation carries out opto-electronic conversion at solar panel 38, and decorative panel 48 has decoration function, and printing opacity building glass or printing opacity building doors and windows 42 are used for architectural lighting.

Claims

1. the triangle solar energy photoelectric conversion is built, comprise: controller for solar, battery, inverter, solar panel, the printing opacity building glass, triangular support structure, heat insulating material, it is characterized in that: the triangular support structure back side is connected on the elevation of building structure, the opto-electronic conversion solar panel is installed on the triangular support structure inclined-plane, and the another side of triangular support structure is installed reflector or arc solar panel or decoration panel or decorative glass board, and extended surface is printing opacity building glass or printing opacity building doors and windows outside the triangular structure right angle.

2. the triangle solar energy photoelectric conversion is built, comprise: controller for solar, battery, inverter, solar panel, the printing opacity building glass, braced structures, heat insulating material, it is characterized in that: triangular support structure is installed on the roof, and the opto-electronic conversion solar panel is installed on the triangular support structure inclined-plane, and printing opacity building glass or reflector or arc solar panel are installed in another inclined-plane of triangular structure, triangular support roof structure bottom arranges rhone, and the triangular support structure that solar panel is installed on a plurality of inclined-planes is arranged in parallel on the roof.

3. as claim 1 or 2 described triangle solar energy photoelectric conversion buildings, it is characterized in that: on reflector or arc solar panel or decoration panel or the decorative glass board illuminating lamp is installed, reflector or arc solar panel or decoration panel or decorative glass board reflex to houselights and carry out opto-electronic conversion and illumination on the solar panel.

4. as claim 1 or 2 described triangle solar energy photoelectric conversion buildings, it is characterized in that: reflector or arc solar panel or decoration panel or decorative glass board reflex to adjacent triangular support structure solar panel inclined-plane with sunshine and carry out opto-electronic conversion.

5. as claim 1 or 2 described triangle solar energy photoelectric conversion buildings, it is characterized in that: be coated with self-cleaning coating on the solar panel or paste self-cleaning film.

6. as claim 1 or 2 described triangle solar energy photoelectric conversion buildings, it is characterized in that: solar panel is made of insulation backboard and solar battery panel.

7. as claim 1 or 2 described triangle solar energy photoelectric conversion buildings, it is characterized in that: solar panel is the hollow solar panel, and the hollow solar panel is by euphotic solar energy battery panel and gas incubation cavity and printing opacity backboard and glue combination manufacturing.

8. as claim 1 or 2 described triangle solar energy photoelectric conversion buildings, it is characterized in that: the inclined-plane is installed on the opto-electronic conversion solar panel wind-force dedusting heat sink is set.