CN104966747A - Efficiency heat-dissipation solar cell - Google Patents

Abstract

The invention provides an efficiency heat-dissipation solar cell. The efficiency heat-dissipation solar cell includes a solar panel and a photovoltaic panel; a side surface of the solar panel is provided with a charging and discharging interface; and the photovoltaic panel is fixed and suspended on the solar panel through a support, and is parallel to the solar panel. With the efficiency heat-dissipation solar cell adopted, remaining heat of sunlight can be effectively diffused, so that the temperature of the solar cell will not be too high, and the photoelectric conversion efficiency of the solar cell can be improved.

Description

A kind of high efficiency heat radiation solar cell

Technical field

The present invention relates to field of batteries; Concrete, be a kind of solar cell.

Background technology

Battery must be indispensable in our life, the figure of visible battery everywhere in life, and solar cell has environmental protection can not cause environmental pollution, only just electric energy can be produced with sunlight, and can the advantage such as Reusability, gradually pay close attention to by people use, use solar energy also very economical material benefit simultaneously, there is no energy charge in operation, but the photoelectric conversion rate of the solar cell of the marketization is now still lower, generally only have 16.5%, the heat of remaining sunlight will be stored in inside battery, make battery hot, more serious may cause battery explosion.

Summary of the invention

For the problems referred to above, the object of the present invention is to provide a kind of high efficiency heat radiation solar cell, this solar cell while collection solar energy carries out generating electricity, can reduce the caloric value of cell panel as much as possible.

The technical solution adopted for the present invention to solve the technical problems is: this high efficiency heat radiation solar cell, comprises cell panel and photovoltaic panel; Described cell panel side has discharge and recharge interface; Described photovoltaic panel is fixed by support and is suspended on cell panel, and parallel with cell panel.

As preferably, described support comprises the cylinder perpendicular to cell panel surface; Further, the cylinder forming described support is expansion link, and when being reduced to the limit, described photovoltaic panel fits in described cell panel surface, so that reduce the overall volume of battery when not charging.

As preferably, the center of described photovoltaic panel offers aperture, and the upper surface of described cell panel is furnished with the cross hair just right with described aperture.

As preferably, surface coverage just right with photovoltaic panel on described cell panel has minute surface, so that infrared emanation that photovoltaic panel produces is reflexed to the external world, reduces the caloric value of cell panel further.

Beneficial effect of the present invention is: this high efficiency heat radiation solar cell in use, under being placed on sunlight, now solar radiation is in photovoltaic panel, produce electric energy, be not in contact with it because photovoltaic panel is suspended in above cell panel, be convenient to the flowing of air, serve good radiating effect, make the temperature of battery be unlikely to too high and damage is caused to battery, the danger of even blasting.

Accompanying drawing explanation

Fig. 1 is the stereogram of this high efficiency heat radiation solar cell;

Fig. 2 is the front view of the photovoltaic panel of this high efficiency heat radiation solar cell;

Fig. 3 is the front view of the cell panel of this high efficiency heat radiation solar cell.

Embodiment

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

At Fig. 1 in 3 illustrated embodiments, this high efficiency heat radiation solar cell, comprises cell panel 1 and photovoltaic panel 2; Described cell panel 1 side has discharge and recharge interface; Described photovoltaic panel 2 is fixed by support 3 and is suspended on described cell panel 1, and parallel with described cell panel 1.

This high efficiency heat radiation solar cell in use, under being placed on sunlight, now solar radiation is in described photovoltaic panel 2, produce electric energy, be not in contact with it because photovoltaic panel 2 is suspended in above described cell panel 1, be convenient to the flowing of air, serve good radiating effect, make the temperature of battery be unlikely to too high and damage is caused to battery, the danger of even blasting.

Described support 3 comprises the cylinder perpendicular to described cell panel 1 surface as shown in Figure 1; Further, the cylinder forming described support 3 is expansion link, and when being reduced to the limit, described photovoltaic panel 2 fits in described cell panel 1 surface; The center of described photovoltaic panel 2 offers aperture 21, and the upper surface of described cell panel 1 is furnished with the cross hair 11 just right with described aperture 21; Surface coverage just right with photovoltaic panel 2 on described cell panel 1 has minute surface.

The cylinder of described support 3 is expansion link, can be reduced to cell panel 1 inner, reducing the overall volume of battery when not needing charging; Sunlight is imaged on described cell panel 1 upper surface one circular light spot through the aperture 21 in described photovoltaic panel 2, whether position overlaps with cross hair 11 midpoint of cell panel 1 upper surface to observe the center of circle of this hot spot, whether direct projection is in described photovoltaic panel 2 can to judge sunlight, if be not direct projection regulate this too can the angle of battery make direct sunlight as described in photovoltaic panel 2, the absorptivity of described like this photovoltaic panel 2 pairs of sunlights just can improve, and improves the photoelectric conversion efficiency of this solar cell; When shining upon on whole solar cell, also part sunlight direct irradiation will be had on described cell panel 1, this part sunlight reflects by the minute surface being placed in described cell panel 1 upper surface, further avoid sun direct irradiation on battery, makes the temperature of battery too high.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, within the spirit and principles in the present invention all, any amendment done, equivalent replacement, improvement etc., all should be included within protection scope of the present invention.

Claims (5)

1. a high efficiency heat radiation solar cell, comprises cell panel (1) and photovoltaic panel (2); Described cell panel (1) side has discharge and recharge interface; It is characterized in that: described photovoltaic panel (2) is fixed by support (3) and is suspended on described cell panel (1), and parallel with described cell panel (1).

2. high efficiency heat radiation solar cell according to claim 1, is characterized in that: described support (3) comprises the cylinder perpendicular to described cell panel (1) surface.

3. high efficiency heat radiation solar cell according to claim 1, is characterized in that: the cylinder forming described support (3) is expansion link, and when being reduced to the limit, described photovoltaic panel (2) fits in described cell panel (1) surface.

4. high efficiency heat radiation solar cell according to claim 1, it is characterized in that: the center of described photovoltaic panel (2) offers aperture (21), the upper surface of described cell panel (1) is furnished with the cross hair (11) just right with described aperture (21).

5. high efficiency heat radiation solar cell according to claim 1, is characterized in that: the surface coverage that described cell panel (1) is upper and photovoltaic panel (2) is just right has minute surface.