CN201387889Y - Passive solar light collecting device - Google Patents

Abstract

The utility model discloses a passive solar light collecting device which comprises a tree-shaped solar battery module. The tree-shaped solar battery module can collect sunlight all around the day time, and can output first-form electric energy, wherein a light collecting surface of the tree-shaped solar battery module is formed by a plurality of solar batteries through full-direction circular combination at 360 degrees in space; and in addition, the appearance imitates the shape of natural trees to obtain the largest light collecting area, and an accommodating space is formed inside the tree-shaped solar battery module.

Description

The passive type solar energy lighting equipment

Technical field

The utility model relates to a kind of solar light collecting device, particularly about a kind of passive type solar energy lighting equipment, it has a taper solar battery module, gather daytime full sunlight and export the first form electric energy, wherein the daylighting face of this taper solar battery module is spatially to be formed with 360 ° of comprehensive ring groups by a plurality of solar cells.

Background technology

Present solar battery apparatus in order to improve total output energy, utilizes motor and controlling organization to adjust the solar battery module orientation with solar tracking, have the reflection of utilization, refracting means concentrate sunlight to solar battery module to convert electric energy to; Utilize motor and controlling organization to adjust in the prior art in solar battery module orientation at these, because the regulatory mechanism that adds has accounted for additional space, make when on house or other building, assembling these solar battery apparatus and can bring inconvenience, these motors and controlling organization are the cost that has more in addition, and need extra electric power to reach the control purpose; And these utilize reflection, refracting means concentrate sunlight to solar battery module to convert electric energy to, reflection, refracting means also must additionally be set, be unfavorable for assembling and increase cost.

At the shortcoming of existing solar battery apparatus, the utility model provide a kind of structure stable, do not need extra regulation device, can effectively utilize the passive type solar energy lighting equipment of sunlight on daytime.

The utility model content

A purpose of the present utility model provides a kind of passive type solar energy lighting equipment, it has a taper solar battery module, gather daytime full sunlight and export the first form electric energy, wherein the daylighting face of this taper solar battery module is spatially to be formed with 360 ° of comprehensive ring groups by a plurality of solar cells, and is that pyramidal or cone shape shape is to obtain the maximum daylighting area of tool in appearance.

Another purpose of the present utility model provides a kind of passive type solar energy lighting equipment, does not need extra regulatory mechanism and electric power, the sunlight and export the first form electric energy of gathering daytime entirely.

Another purpose of the present utility model provides a kind of passive type solar energy lighting equipment, and including an accommodation space can ccontaining relevant electric energy processing unit, to avoid these relevant electric energy processing unit to be soaked with rain or directly to tan by the sun under sunlight.

In order to achieve the above object, the utility model proposes a passive type solar energy lighting equipment, it has a taper solar battery module, gather daytime full sunlight and export the first form electric energy, wherein the daylighting face of this taper solar battery module is spatially to form and include an accommodation space with 360 ° of comprehensive ring groups by a plurality of solar cells.

The beneficial effects of the utility model are, the passive type solar energy lighting equipment that is provided be a kind of structure stable, do not need extra regulation device, can effectively utilize the sunlight on daytime.

For further understanding structure of the present utility model, feature and purpose thereof, the attached now detailed description with graphic and preferred embodiment as after.

Description of drawings

Fig. 1 a and Fig. 1 b are schematic diagram, and it illustrates the schematic appearance of the passive type solar energy lighting equipment of the utility model preferred embodiment;

Fig. 2 a and Fig. 2 b are schematic diagram, and it illustrates the calcspar of the inner relevant electric energy processing unit of the utility model passive type solar energy lighting equipment.

Embodiment

Please refer to Fig. 1 a, it illustrates the schematic appearance of the passive type solar energy lighting equipment of the utility model one preferred embodiment; As shown in the figure, passive type solar energy lighting equipment of the present utility model, it comprises a solar battery module 100 and an accommodation space 110.

Wherein, this solar battery module 100 is spatially formed with 360 ° of comprehensive ring groups by a plurality of solar cells 101, and copy pyramidal shape to obtain the maximum daylighting area of tool in appearance, these solar cells 101 can be monocrystalline solar cells, polycrystalline solar cell or three, five family's solar cells; This accommodation space 110 is in order to ccontaining relevant electric energy processing unit (please refer to the explanation of Fig. 2 a), to avoid these relevant electric energy processing unit to be soaked with rain or directly to tan by the sun under sunlight.

Please refer to Fig. 1 b, it illustrates the schematic appearance of the passive type solar energy lighting equipment of another preferred embodiment of the utility model; As shown in the figure, passive type solar energy lighting equipment of the present utility model, it comprises a solar battery module 120 and an accommodation space 130.

Wherein, this solar battery module 120 is spatially formed with 360 ° of comprehensive ring groups by a plurality of solar cells 101, and cone shape in appearance shape is to obtain the maximum daylighting area of tool, and these solar cells 101 can be monocrystalline solar cells, polycrystalline solar cell or three, five family's solar cells; This accommodation space 130 is in order to ccontaining relevant electric energy processing unit (please refer to the explanation of Fig. 2 a), to avoid these relevant electric energy processing unit to be soaked with rain or directly to tan by the sun under sunlight.

Please refer to Fig. 2 a, it illustrates the calcspar of the inner relevant electric energy processing unit of passive type solar energy lighting equipment of the utility model one preferred embodiment; As shown in the figure, electric energy processing unit of the present utility model, it comprises a controller 210 and an or apparatus for storing electrical energy 220.

Wherein, this solar cell 101 is in order to becoming transform light energy the first form electric energy, and this first form electric energy is interdependent with intensity of illumination; This controller 210 is to be coupled to this solar cell 101 in order to convert this first form electric energy to second form electric energy, this second form electric energy is for example and without limitation to the form of alternating voltage or direct voltage or alternating current or direct current, according to this, this controller 210 can be the AC and DC power supply unit or decides electric current output charging device; And this apparatus for storing electrical energy 220 is to be coupled to this controller 210 in order to store this second form electric energy.

Please refer to Fig. 2 b, it illustrates the calcspar of the inner relevant electric energy processing unit of passive type solar energy lighting equipment of another preferred embodiment of the utility model; As shown in the figure, electric energy processing unit of the present utility model, it comprises a controller 210 and an or apparatus for storing electrical energy 220.

Wherein, this solar cell 101 is in order to becoming transform light energy the first form electric energy, and this first form electric energy is interdependent with intensity of illumination; This controller 210 is coupled to this solar cell 101 in order to convert this first form electric energy to second form electric energy, this second form electric energy is for example and without limitation to the form of alternating voltage or direct voltage or alternating current or direct current, according to this, this controller 210 can be the AC and DC power supply unit or decides electric current output charging device; And this apparatus for storing electrical energy 220 is coupled to this solar cell 101 in order to store this first form electric energy.

So via enforcement of the present utility model, it uses a plurality of solar cells spatially to form with 360 ° of comprehensive ring groups, and the shape of copying the Nature trees in appearance is to obtain maximum daylighting area; It provides the holding space for holding electric energy processing unit of being correlated with in inside in addition, to avoid these relevant electric energy processing unit to be soaked with rain or directly to tan by the sun under sunlight, really can improve the shortcoming of existing solar energy equipment.

What the utility model disclosed is preferred embodiment, and patent right category of the present utility model is not all taken off in Ju Bu change or modification and come from technological thought of the present utility model and be easy to the person of knowing by inference by the people who has the knack of this skill such as.

Claims (10)

1. a passive type solar energy lighting equipment is characterized in that, has a taper solar battery module, and wherein the daylighting of this taper solar battery module is that a plurality of solar cells spatially form with 360 ° of comprehensive ring groups.

2. passive type solar energy lighting equipment as claimed in claim 1 is characterized in that, further has an accommodation space, and wherein this accommodation space is positioned at this taper solar battery module inside.

3. passive type solar energy lighting equipment as claimed in claim 2 is characterized in that, further has a controller, and this controller places the accommodation space of this taper solar battery module.

4. passive type solar energy lighting equipment as claimed in claim 2 is characterized in that, further has an apparatus for storing electrical energy, and this apparatus for storing electrical energy places the accommodation space of this taper solar battery module.

5. passive type solar energy lighting equipment as claimed in claim 3 is characterized in that, further has an apparatus for storing electrical energy, and this apparatus for storing electrical energy places the accommodation space of this taper solar battery module.

6. passive type solar energy lighting equipment as claimed in claim 1 is characterized in that, this taper solar battery module is monocrystalline silicon material, polysilicon material or three or five family's materials.

7. passive type solar energy lighting equipment as claimed in claim 3 is characterized in that, this controller is a direct current or alternating voltage output device.

8. passive type solar energy lighting equipment as claimed in claim 3 is characterized in that, this controller is certain electric current output charging device.

9. passive type solar energy lighting equipment as claimed in claim 1 is characterized in that, the outward appearance of this solar battery module is pyramidal.

10. passive type solar energy lighting equipment as claimed in claim 1 is characterized in that, the outward appearance of this solar battery module is coniform.

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