CN202373601U

CN202373601U - Solar panel array for wind tower power generation building

Info

Publication number: CN202373601U
Application number: CN2011205548565U
Authority: CN
Inventors: 周登荣; 周剑
Original assignee: Individual
Current assignee: Individual
Priority date: 2011-12-27
Filing date: 2011-12-27
Publication date: 2012-08-08
Anticipated expiration: 2021-12-27

Abstract

The utility model provides a solar panel array for a wind tower power generation building. The solar panel array comprises multiple solar panels (1), solar panel supports (2), supporting rods (3), connecting rods (4), fixing rods (5) and fixed connecting bases (6), wherein the solar panel array is arranged at the south direction at the top end of the wind tower power generation building through the solar panel supports. The solar panel array for the wind tower power generation building, provided by the utility model, has the advantages that the structures of the solar panels are compact, the space utilization ratio is high, the installation is simple and convenient, the maintenance and the replacement are convenient, the inclination angles of the solar panels can be adjusted, and the application range is wide.

Description

The solar panel array that is used for wind tower power generation construction

Technical field

The utility model relates to solar panel, is specifically related to a kind of solar panel array that is used for wind tower power generation construction.

Background technology

Solar energy is one of most important regenerative resource, does not produce any pollution, and can freely use.Because solar energy is a kind of energy of cleaning, its application just worldwide increases apace.Utilizing solar power generation is exactly a kind of mode of using solar energy, and the cost of building a solar power system at present still is higher, and from China's cost for solar power generation of present stage, its cost approximately is 60%～70% of a solar panel expense.The applicant of the utility model discloses a kind of solar energy wind tower power generation construction in No. 2011110426807.8 one Chinese patent application, it has put down in writing many groups solar panel.In this patent application; Solar panel is installed in the top of building and each layer periphery from top to bottom; Though this energy saving building has guaranteed enough big light-receiving area; Make reduced by the influence of sunlight lighting angle, but the deficiency that exists is: need to consume that a large amount of solar panel, solar panel space availability ratio are not high, inconvenient installation, the angle of inclination that is difficult to keep in repair replacement, solar panel can not be regulated, the scope of application is narrower.

Summary of the invention

The purpose of the utility model is a kind of solar panel array that is used for wind tower power generation construction of design, practices thrift the cost of solar panel array through choosing suitable azimuth and inclination angle, so that more fully effectively utilize solar energy.

For realizing above-mentioned purpose; The utility model is realized through following technical scheme: a kind of solar panel array that is used for wind tower power generation construction; This solar panel array comprises: polylith solar panel, solar-cell panel support, support bar, connecting rod, fixed lever, fixed connecting base, wherein solar panel array is installed in the south orientation on the top of wind tower power generation construction through support.

Preferably, the inclination angle of solar panel array is 50 °～60 °.

Preferably, following three layers of arrangement during the cell panel of solar panel array is divided into.

Preferably, the cell panel of solar panel array is a quadrangle.

Preferably, has one deck waterproof membrane above the cell panel of solar panel array.

Preferably, the waterproof membrane above the cell panel of solar panel array is the transparent watertight film of high light transmittance.

Preferably, the support bar of solar panel array battery board bracket is a cylinder.

Preferably, the support bar of solar panel array battery board bracket is height-adjustable support bar.

Preferably, the support bar quantity of solar panel array battery board bracket is two.

Preferably, any support bar of battery board bracket is divided into two sections support bars in the solar panel array.

Preferably, any end of two sections support bars of any support bar of battery board bracket has screw thread in the solar panel array.

Preferably, two sections screwed two ends of support bar in any support bar of battery board bracket connect through nut in the solar panel array.

Preferably, the end that the support bar of battery board bracket is connected with the cell panel fixed connecting base in the solar panel array has the hole.

Preferably, the support bar of solar panel array battery board bracket is connected with the cell panel fixed connecting base through matched in clearance.

Preferably, the connecting rod of solar panel array battery board bracket is two.

Preferably, an end of the fixed lever of solar panel array battery board bracket is connected with support bar, and the other end is connected with connecting rod.

Preferably, the support bar 3 of solar-cell panel support 2, connecting rod 4, fixed lever 5 are hollow pipe or select solid tubes according to actual conditions.

Optional is that solar panel array is combined through series system by solar module.

Optional is that solar panel array is combined through parallel way by solar module.

Optional is that solar panel array is combined through the connection in series-parallel hybrid mode by solar module.

Compared with prior art, the advantage of the utility model is: solar cell panel structure compactness, space availability ratio tilt adjustable high, that simple and convenient, maintenance replacement easily, solar panel are installed save, the scope of application is extensive.

Description of drawings

In order to make the utility model be convenient to understand, combine accompanying drawing to describe the specific embodiment of the utility model now.

Fig. 1 is the roof plan general illustration that the solar panel array that is used for wind tower power generation construction of the utility model has been installed.

Fig. 2 is the individual layer roof plan sketch map that the solar panel array that is used for wind tower power generation construction of the utility model has been installed.

Fig. 3 is the roof sketch map that the solar panel array that is used for wind tower power generation construction of the utility model has been installed.

Fig. 4 is the cell panel fixed connecting base structural representation of the solar panel array of the utility model.

Fig. 5 is the supporting bar structure sketch map of cell panel of the solar panel array of the utility model.

Fig. 6 is the general illustration of the solar-cell panel support of the utility model.

Embodiment

Below in conjunction with accompanying drawing the utility model is done further to describe in detail.

The individual layer roof plan sketch map that Fig. 1 and Fig. 2 show the roof plan general illustration of the solar panel array that is used for wind tower power generation construction that the utility model has been installed respectively and the solar panel array that is used for wind tower power generation construction of the utility model has been installed; Wherein the roof is divided into three layers that stack is up and down arranged; Solar panel array is installed on each layer roof; Solar panel array is installed in the south orientation on the top of wind tower power generation construction through support; Cell panel 1 is a quadrangle, and the inclination angle of solar panel array is 50 °～60 ° and top with one deck high light transmittance waterproof membrane.The angle of inclination is made as 50 °～60 °, and purpose is when adhering to snow above the solar panel 1 or other foreign material the time, under the effect at self gravitation and suitable angle of inclination (50 °～60 °), can come off from the sensitive surface of solar panel 1.Solar panel 1 is fixedly connected with the roof through solar-cell panel support 2.

Fig. 3 shows roof sketch map and the support bar 3 of battery board bracket and the sketch map of roof structure of the solar panel array that is used for wind tower power generation construction that the utility model has been installed; Wherein solar-cell panel support 2 is installed on the south orientation on wind tower power generation construction roof; The support bar 3 of solar-cell panel support 2, connecting rod 4, fixed lever 5; This fixed lever 5 can be chosen to be hollow pipe, also can be chosen as solid tubes according to actual conditions.The purpose of electing hollow pipe as is to reduce the cost input, improves economy.

Fig. 4 and Fig. 5 illustrate the structural representation of the cell panel fixed connecting base 6 of solar panel array in the utility model, and wherein fixed connecting base 6 has circular hole, and the circular hole of fixed connecting base 6 is connected fixing with an end of support bar 3 through the matched in clearance bolt.The advantage that connects like this be can so that the inclination angle of solar panel can regulate.

Fig. 6 is the general illustration of solar-cell panel support in the utility model; It comprises polylith solar panel 1, solar-cell panel support 2, support bar 3, connecting rod 4, fixed lever 5, fixed connecting base 6; The support bar 3 of the battery board bracket 2 of solar panel array is a cylinder; The height of the support bar 3 of battery board bracket 2 can be regulated through nut 7, and support bar 3 quantity of battery board bracket 2 are two.Any support bar 3 of battery board bracket 2 is divided into two sections support bars.Any end of two sections support bars of any support bar 3 of battery board bracket 2 has screw thread.Two sections screwed two ends of support bar in any support bar 3 of battery board bracket 2 connect through nut.Rotating nut 7 can adjustable support bar 3 length, and then can regulate the angle of inclination of solar panel 1.The end that the support bar 3 of battery board bracket 2 is connected with cell panel fixed connecting base 6 has the hole.The support bar 3 of battery board bracket is connected with the fixed connecting base 6 of cell panel through matched in clearance, can make support bar 3 elongations perhaps shorten length through rotation nut 7 then.Regulate the angle of inclination of solar panel 1, receive solar light irradiation to greatest extent.Preferably, the diameter of support bar 3 is 4 centimetres, can fully resist the gravity that the covering of strong wind and heavy snow produces, and also can make corresponding adjustment according to the applied geography position of solar panel 1 and weather conditions different.

The connecting rod 4 of battery board bracket 2 is two; One end of the fixed lever 5 of battery board bracket 2 is connected with support bar 3; The other end is connected with connecting rod 4; One end of the fixed lever 5 of battery board bracket 2 is connected with support bar 3, and the other end is connected fixed lever with connecting rod 4 effect is to make that the structure of support 2 is more stable.

Solar panel array is combined through series system or parallel way and connection in series-parallel hybrid mode by solar module.

More than combine the specific embodiment of the utility model to describe in detail, but be not to be restriction the utility model.Every technical spirit according to the utility model all still belongs to the scope of the utility model technical scheme to any simple modification that above embodiment did.

Claims

1. solar panel array that is used for wind tower power generation construction; Comprise polylith solar panel (1), solar-cell panel support (2), support bar (3), connecting rod (4), fixed lever (5), fixed connecting base (6), wherein solar panel array is installed in the south orientation on the top of wind tower power generation construction through support.

2. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: the inclination angle of solar panel array is 50 °～60 °.

3. the solar panel array that is used for wind tower power generation construction as claimed in claim 2 is characterized in that: following three layers of arrangement during cell panel (1) is divided into.

4. the solar panel array that is used for wind tower power generation construction as claimed in claim 3 is characterized in that: cell panel (1) is a quadrangle.

5. the solar panel array that is used for wind tower power generation construction as claimed in claim 4 is characterized in that: have one deck waterproof membrane above the cell panel (1).

6. the solar panel array that is used for wind tower power generation construction as claimed in claim 5 is characterized in that: the waterproof membrane above the cell panel (1) is the transparent watertight film of high light transmittance.

7. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: the support bar (3) of battery board bracket (2) is a cylinder.

8. the solar panel array that is used for wind tower power generation construction as claimed in claim 7 is characterized in that: the support bar (3) of battery board bracket (2) Height Adjustable.

9. the solar panel array that is used for wind tower power generation construction as claimed in claim 8 is characterized in that: support bar (3) quantity of battery board bracket (2) is two.

10. the solar panel array that is used for wind tower power generation construction as claimed in claim 9 is characterized in that: any support bar (3) of battery board bracket (2) is divided into two sections support bars.

11. the solar panel array that is used for wind tower power generation construction as claimed in claim 10 is characterized in that: any end of two sections support bars of any support bar (3) of battery board bracket (2) has screw thread.

12. the solar panel array that is used for wind tower power generation construction as claimed in claim 11 is characterized in that: two sections screwed two ends of support bar in any support bar (3) of battery board bracket (2) connect through nut (7).

13. the solar panel array that is used for wind tower power generation construction as claimed in claim 12 is characterized in that: the support bar (3) of battery board bracket (2) has the hole with the end that cell panel fixed connecting base (6) is connected.

14. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: the support bar of battery board bracket (3) is connected with the fixed connecting base (6) of cell panel through matched in clearance.

15. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: the connecting rod (4) of battery board bracket (2) is two.

16. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: an end of the fixed lever (5) of battery board bracket (2) is connected with support bar (3), and the other end is connected with connecting rod (4).

17. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: the support bar 3 of solar-cell panel support 2, connecting rod 4, fixed lever 5 are for being hollow pipe.

18. the solar panel array that is used for wind tower power generation construction as claimed in claim 1, it is characterized in that: solar panel array is combined through series system by solar module.

19. the solar panel array that is used for wind tower power generation construction as claimed in claim 1, it is characterized in that: solar panel array is combined through parallel way by solar module.

20. the solar panel array that is used for wind tower power generation construction as claimed in claim 1 is characterized in that: solar panel array is combined through the connection in series-parallel hybrid mode by solar module.