CN205351153U - Curved surface solar energy photoelectricity glass of high strength - Google Patents

Abstract

The utility model discloses a curved surface solar energy photoelectricity glass of high strength is equipped with silicon dioxide layer, thin film solar cell module group layer, aluminium oxide thin layer, LED light source layer and AZO thin layer in proper order between upper and lower two insulating curved surface glass, the both sides of thin film solar cell module group layer are equipped with battery and supply control ware respectively, and one side of aluminium oxide thin layer is equipped with integrated line control ware, thin film solar cell module group layer is including thin film solar cell module, silicon dioxide layer locates on the insulating curved surface glass, thin film solar cell module group locates on the silicon dioxide layer on the layer, the aluminium oxide thin layer is located on the thin film solar cell module group layer, LED light source layer locates on the aluminium oxide thin layer, the AZO thin layer is located on the LED light source layer, the supply control ware passes through the wire and links to each other with battery and thin film solar cell module group respectively, integrated line control ware passes through the wire and links to each other with LED light source and thin film solar cell module group respectively. The utility model discloses effectively improve photoelectricity glass's intensity, improved the efficiency of light energy utilization.

Description

A kind of curved solar energy photoelectric glass of high intensity

Technical field

This utility model relates to the curved solar energy photoelectric glass of the illumination application of photoelectric glass, particularly a kind of high intensity.

Background technology

Photoelectric glass, it it is exactly the novel glass that luminous energy, electric energy and glass are organically combined, along with going deep into photoelectric glass area research, its range of application is also more and more extensive, but traditional photoelectric glass adopts tradition power supply mostly, it is impossible to the problem solving energy-saving and emission-reduction, in application aspect is also applied to displaying more, limit the range of application of photoelectric glass, and its intensity is relatively low, production application also exists inconvenience.

Utility model content

Based on this, for the problems referred to above, it is necessary to propose the curved solar energy photoelectric glass of a kind of high intensity, the problem that this photoelectric glass efficiently solves the insurmountable energy-saving and emission-reduction of Traditional photovoltaic glass, and its intensity is high, non-friable, curved-surface structure is effectively increased the efficiency of light energy utilization and enhances light intensity by the multiple reflections of light.

The technical solution of the utility model is: the curved solar energy photoelectric glass of a kind of high intensity, insulate upper and lower two and be sequentially provided with silicon dioxide layer between bend glass, film solar battery module group layer, aluminum oxide film layer, LED light active layer and AZO thin layer, film solar battery module group layer be respectively provided on two sides with accumulator and power-supply controller, the side of aluminum oxide film layer is provided with integrated circuit controller, described film solar battery module group layer includes film solar battery module, described silicon dioxide layer is sputtered on insulation bend glass, described film solar battery module group layer is located on silicon dioxide layer, described aluminum oxide film layer is sputtered on film solar battery module group layer, described LED light active layer is located on aluminum oxide film layer, described AZO thin layer is located in LED light active layer, described power-supply controller is connected with accumulator and film solar battery module group respectively by wire, described integrated circuit controller is connected with LED light source and film solar battery module group respectively by wire.

This utility model adopts curved-surface structure and increases film solar battery module group, and traditional photoelectric glass is frangible and its planar structure cannot be effectively improved the efficiency of light energy utilization, also defective in energy-saving and emission-reduction.This utility model improves the intensity of photoelectric glass by increasing silicon dioxide layer, increases film solar battery module group and is effectively utilized luminous energy, adopts curved-surface structure, utilize the multiple reflections of light to enhance light intensity.

Preferably, described upper and lower two insulation bend glasses are the glass after ion sputtering is cleaned.

Preferably, described silicon dioxide layer is purity is the silicon dioxide of 90% to 99%.

Preferably, described film solar battery module group includes sequentially being located at the electrode layer of insulated light transmission glass substrate, transparency conducting layer and semiconductor layer, and the side of insulated light transmission glass substrate is additionally provided with electrical function box.

Preferably, described AZO thin layer is aluminum-doped zinc oxide transparent electro-conductive glass.

The beneficial effects of the utility model are: this utility model solves Traditional photovoltaic Glass breadks easily, the problem that the efficiency of light energy utilization is not high, the intensity of photoelectric glass is improve by increasing silicon dioxide layer, increase film solar battery module group and be effectively utilized luminous energy, adopt curved-surface structure, utilize the multiple reflections of light to enhance light intensity.

Accompanying drawing explanation

Fig. 1 is structural representation of the present utility model；

Fig. 2 is film solar battery module group structural representation of the present utility model；

In figure, insulate under 10-bend glass, 20-AZO thin layer, 30-LED light source layer, 40-aluminum oxide film layer, 50-film solar battery module group layer, 60-silicon dioxide layer, 70-insulate bend glass, 80-power-supply controller, 90-accumulator, 11-insulated light transmission glass substrate, 12-electrode layer, 13-transparency conducting layer, 14-semiconductor layer, 15-electrical function box.

Detailed description of the invention

Below in conjunction with accompanying drawing, embodiment of the present utility model being described in detail, embodiment of the present utility model includes but not limited to the following example.

Embodiment:

A kind of curved solar energy photoelectric glass of high intensity, such as Fig. 1, shown in Fig. 2, it is sequentially provided with silicon dioxide layer 60 between upper insulation bend glass 70 and lower insulation bend glass 10, film solar battery module group layer 50, aluminum oxide film layer 40, LED light active layer 30 and AZO thin layer 20, film solar battery module group layer 50 be respectively provided on two sides with accumulator 90 and power-supply controller 80, the side of aluminum oxide film layer is provided with integrated circuit controller (these parts do not present in Figure of description), described film solar battery module group layer 50 includes film solar battery module, described silicon dioxide layer 60 is sputtered on insulation bend glass 70, described film solar battery module group layer 50 is located on silicon dioxide layer 60, described aluminum oxide film layer 40 is sputtered on film solar battery module group layer 50, described LED light active layer 30 is located on aluminum oxide film layer 40, described AZO thin layer 20 is located in LED light active layer 30, described power-supply controller 80 is connected with accumulator 90 and film solar battery module group respectively by wire, described integrated circuit controller (these parts do not present in Figure of description) is connected with LED light source 30 and film solar battery module group respectively by wire.

Preferably, described upper insulation bend glass 70 and lower insulation bend glass 10 are the glass after ion sputtering is cleaned.

Preferably, described silicon dioxide layer 60 is the silicon dioxide of 90% to 99% for purity.

Preferably, described film solar battery module group includes sequentially being located at the electrode layer 12 of insulated light transmission glass substrate 11, transparency conducting layer 13 and semiconductor layer 14, and the side of insulated light transmission glass substrate 11 is additionally provided with electrical function box 15.

Preferably, described AZO thin layer is aluminum-doped zinc oxide transparent electro-conductive glass.

Embodiment described above only have expressed detailed description of the invention of the present utility model, and it describes comparatively concrete and detailed, but therefore can not be interpreted as the restriction to this utility model the scope of the claims.It should be pointed out that, for the person of ordinary skill of the art, without departing from the concept of the premise utility, it is also possible to make some deformation and improvement, these broadly fall into protection domain of the present utility model.

Claims (5)

1. the curved solar energy photoelectric glass of a high intensity, it is characterized in that, insulate upper and lower two and be sequentially provided with silicon dioxide layer between bend glass, film solar battery module group layer, aluminum oxide film layer, LED light active layer and AZO thin layer, film solar battery module group layer be respectively provided on two sides with accumulator and power-supply controller, the side of aluminum oxide film layer is provided with integrated circuit controller, described film solar battery module group layer includes film solar battery module, described silicon dioxide layer is located on insulation bend glass, described film solar battery module group layer is located on silicon dioxide layer, described aluminum oxide film layer is located on film solar battery module group layer, described LED light active layer is located on aluminum oxide film layer, described AZO thin layer is overlying in LED light active layer, described power-supply controller is connected with accumulator and film solar battery module group respectively by wire, described integrated circuit controller is connected with LED light source and film solar battery module group respectively by wire.

2. the curved solar energy photoelectric glass of a kind of high intensity according to claim 1, it is characterised in that described upper and lower two insulation bend glasses are the glass after ion sputtering is cleaned.

3. the curved solar energy photoelectric glass of a kind of high intensity according to claim 1, it is characterised in that described silicon dioxide layer is purity is the silicon dioxide of 90% to 99%.

4. the curved solar energy photoelectric glass of a kind of high intensity according to claim 1, it is characterized in that, described film solar battery module group includes sequentially being located at the electrode layer of insulated light transmission glass substrate, transparency conducting layer and semiconductor layer, and the side of insulated light transmission glass substrate is additionally provided with electrical function box.

5. the curved solar energy photoelectric glass of a kind of high intensity according to claim 1, it is characterised in that described AZO thin layer is aluminum-doped zinc oxide transparent electro-conductive glass.