CN204206079U - The solar panel of automatic regulating illumination intensity - Google Patents

Abstract

The utility model discloses a kind of solar panel of automatic regulating illumination intensity, comprise solar panel and be arranged at the collector lens above described solar panel, be arranged at the radiating subassembly below described solar panel; Be arranged at the blinds mounting rod above described collector lens, described blinds mounting rod is provided with some blinds be arranged in parallel, described blinds is located on described blinds mounting rod; Cylindricality air chamber is provided with between described radiating subassembly and described solar panel, piston and the expansion link being connected described piston is provided with in described cylindricality air chamber, described expansion link one end is positioned at described cylindricality air chamber and connects described piston, the described expansion link other end is provided with drag-line, and the same side free end of some described blinds all connects described drag-line.The utility model can according to the heat resistance regulating illumination intensity of solar panel self, thus protection solar panel improve the lighting efficiency of solar panel.

Description

The solar panel of automatic regulating illumination intensity

Technical field

The utility model relates to a kind of solar panel of automatic regulating illumination intensity, belongs to solar environment friendly and utilizes product manufacturing technical field.

Background technology

Common solar panel mainly contains silicon wafer battery, hull cell, gallium arsenide cells etc., usual solar panel is also provided with collector lens, for being irradiated to after solar light focusing on solar panel to reach high magnification usefulness.When the light gathering design of collector lens is more weak time, when intensity of illumination is little, solar panel almost absorbs less than luminous energy; And when the light gathering design of collector lens is stronger time, when intensity of illumination is larger, the luminous energy that solar panel absorbs is too much, the heat that solar panel produces is difficult to distribute in time, easily cause the temperature of solar cell too high, generating effect will be had a strong impact on, even can burn whole solar battery apparatus.In the prior art; usual needs design the collector lens of suitable light gathering according to different areas and season; even the then same season of areal; all what there were significant differences in Different periods intensity of illumination on the same day; therefore in order to protect solar panel not by high temperature failure; the collector lens that usual employing light gathering is more weak or do not adopt collector lens; above-mentioned factor greatly limit the level of application of collector lens, thus makes solar panel can not give full play to its photoelectric efficiency.

Utility model content

The utility model is just for the deficiency that prior art exists; a kind of solar panel of automatic regulating illumination intensity is provided; can according to the heat resistance regulating illumination intensity of solar panel self; thus protection solar panel improve the lighting efficiency of solar panel, meet actual operation requirements.

For solving the problem, technical solution adopted in the utility model is as follows:

A solar panel for automatic regulating illumination intensity, comprising: solar panel and the outside framework for fixing described solar panel;

Fixed by described outside framework and be arranged at the collector lens above described solar panel, and fixed by described outside framework and be arranged at the radiating subassembly below described solar panel;

Fixed by described outside framework and be arranged at the blinds mounting rod above described collector lens, described blinds mounting rod is provided with some blinds be arranged in parallel, described blinds is located on described blinds mounting rod;

Cylindricality air chamber is provided with between described radiating subassembly and described solar panel, piston and the expansion link being connected described piston is provided with in described cylindricality air chamber, described expansion link one end is positioned at described cylindricality air chamber and connects described piston, the described expansion link other end is provided with drag-line, and the same side free end of some described blinds all connects described drag-line.

As the improvement of technique scheme, described cylindricality air chamber one end is provided with described piston and described expansion link, and the described cylindricality air chamber other end is provided with inflation control valve.

As the improvement of technique scheme, described expansion link comprises and is parallel to the flat part of described cylindricality air chamber and the kink for being connected described drag-line, described drag-line one end connects described kink, the described drag-line other end connects torsion spring contraction axis, and described torsion spring contraction axis is arranged on described blinds mounting rod.

As the improvement of technique scheme, described torsion spring contraction axis comprises contraction arbor wheel, torsion spring and slide block, described blinds mounting rod is provided with the chute coordinating described slide block, described slide block can slide but can not rotate in described chute, described contraction arbor wheel is arranged on described slide block, described torsion spring is arranged between described contraction arbor wheel and described slide block, and described torsion spring two ends connect described contraction arbor wheel and described slide block respectively.

Compared with prior art, implementation result of the present utility model is as follows for the utility model:

The solar panel of automatic regulating illumination intensity described in the utility model, when solar panel heat distributes not in time, solar panel own temperature can raise, make the gas expansion in cylindricality air chamber, promotion piston and expansion link move, and drive blinds to rotate thus reduce the quantity of illumination, therefore, it is possible to according to the heat resistance regulating illumination intensity of solar panel self, protection solar panel; And when ambient light is according to after remitted its fury, the contraction of gas in cylindricality air chamber, pulls piston and expansion link to move, torsion spring contraction axis shrinks drag-line and drives blinds to rotate thus increase the quantity of illumination, thus improves the lighting efficiency of solar panel.

Accompanying drawing explanation

Fig. 1 is the solar cell panel structure schematic diagram of automatic regulating illumination intensity described in the utility model;

Fig. 2 is the structural representation of torsion spring contraction axis described in the utility model and chute;

Fig. 3 be described in the utility model can slide but four kinds of the slide block that can not rotate enumerate structural representation.

Embodiment

Below in conjunction with specific embodiments content of the present utility model is described.

As shown in Figure 1 to Figure 3, be the solar cell panel structure schematic diagram of automatic regulating illumination intensity described in the utility model.The solar panel of automatic regulating illumination intensity described in the utility model, comprising: solar panel 1 and the outside framework 2 for fixing described solar panel 1; Fixed and the collector lens 3 be arranged at above described solar panel 1 by described outside framework 2, and fixed and the radiating subassembly 4 be arranged at below described solar panel 1 by described outside framework 2; Fixed and the blinds mounting rod 5 be arranged at above described collector lens 3 by described outside framework 2, described blinds mounting rod 5 is provided with some blinds 51 be arranged in parallel, described blinds 51 is located on described blinds mounting rod 5; Cylindricality air chamber 7 is provided with between described radiating subassembly 4 and described solar panel 1, piston 71 and the expansion link 72 being connected described piston 71 is provided with in described cylindricality air chamber 7, described expansion link 72 one end is positioned at described cylindricality air chamber 7 and connects described piston 71, described expansion link 72 other end is provided with drag-line 8, and the same side free end of some described blinds 51 all connects described drag-line 8.

Further optimally, described cylindricality air chamber 7 one end is provided with described piston 71 and described expansion link 72, and described cylindricality air chamber 7 other end is provided with inflation control valve 73.Specifically preferably, described expansion link 72 comprises the flat part 721 and the kink 722 for being connected described drag-line 8 that are parallel to described cylindricality air chamber 7, described drag-line 8 one end connects described kink 722, described drag-line 8 other end connects torsion spring contraction axis 9, and described torsion spring contraction axis 9 is arranged on described blinds mounting rod 5.Further with improvement, described torsion spring contraction axis 9 comprises contraction arbor wheel 91, torsion spring 92 and slide block 93, described blinds mounting rod 5 is provided with the chute 52 coordinating described slide block 93, described slide block 93 can slide but can not rotate in described chute 52, described contraction arbor wheel 91 is arranged on described slide block 93, described torsion spring 92 is arranged between described contraction arbor wheel 91 and described slide block 93, and described torsion spring 92 two ends connect described contraction arbor wheel 91 and described slide block 93 respectively.

Under normal condition, appropriate gas is filled with to cylindricality air chamber 7 by inflation control valve 73, make expansion link 72 position moderate, thus ensure that blinds 51 is arranged perpendicular to solar panel 1, the maximization of solar panel 1 lighting efficiency is realized by collector lens 3, after ambient temperature rises gradually or extraneous intensity of illumination is strengthened gradually, the own temperature of solar panel 1 rises gradually, gas expansion in cylindricality air chamber 7 promotes piston 71 and expansion link 72 moves to the right shown in Fig. 1, drag-line 8 is pulled to drive blinds 51 to rotate, the angle between blinds 51 and solar panel 1 is made to be less than 90 °, thus the illumination of a blocking reflected part, damage by reducing intensity of illumination protection solar panel 1 to avoid its temperature too high.After ambient temperature or intensity of illumination weaken, along with the reduction of solar panel 1 own temperature, contraction of gas in cylindricality air chamber 7, piston 71 and expansion link 72 travelling backwards, drag-line 8 moves to the left shown in Fig. 1 under the elastic shrinkage effect of torsion spring contraction axis 9, thus the state making blinds 51 recover perpendicular to solar panel 1, make the lighting efficiency of solar panel 1 return to maximization.Wherein blinds 51 is when rotation, and the horizontal level of drag-line 8 can change, and therefore arranges chute 52 so that torsion spring contraction axis 9 adjusting position, is conducive to the adjustment realizing blinds 51 angle.

Above content is in conjunction with specific embodiments to the detailed description that the utility model is done, and can not assert that the utility model is specifically implemented to be only limitted to these explanations.For the utility model person of ordinary skill in the field, without departing from the concept of the premise utility, some simple deduction or replace can also be made, all should be considered as the scope belonging to the utility model protection.

Claims (4)

1. a solar panel for automatic regulating illumination intensity, is characterized in that, comprising:

Solar panel (1) and the outside framework (2) for fixing described solar panel (1);

Fixed by described outside framework (2) and be arranged at the collector lens (3) of described solar panel (1) top, and fixed by described outside framework (2) and be arranged at the radiating subassembly (4) of described solar panel (1) below;

Fixed by described outside framework (2) and be arranged at the blinds mounting rod (5) of described collector lens (3) top, described blinds mounting rod (5) is provided with some blinds (51) be arranged in parallel, described blinds (51) is located on described blinds mounting rod (5);

Cylindricality air chamber (7) is provided with between described radiating subassembly (4) and described solar panel (1), piston (71) and the expansion link (72) being connected described piston (71) is provided with in described cylindricality air chamber (7), described expansion link (72) one end is positioned at described cylindricality air chamber (7) and connects described piston (71), described expansion link (72) other end is provided with drag-line (8), and the same side free end of some described blinds (51) all connects described drag-line (8).

2. the solar panel of regulating illumination intensity automatically as claimed in claim 1, it is characterized in that, described cylindricality air chamber (7) one end is provided with described piston (71) and described expansion link (72), and described cylindricality air chamber (7) other end is provided with inflation control valve (73).

3. the solar panel of regulating illumination intensity automatically as claimed in claim 1 or 2, it is characterized in that, described expansion link (72) comprises and is parallel to the flat part (721) of described cylindricality air chamber (7) and the kink (722) for being connected described drag-line (8), described drag-line (8) one end connects described kink (722), described drag-line (8) other end connects torsion spring contraction axis (9), and described torsion spring contraction axis (9) is arranged on described blinds mounting rod (5).

4. the solar panel of regulating illumination intensity automatically as claimed in claim 3, it is characterized in that, described torsion spring contraction axis (9) comprises shrinks arbor wheel (91), torsion spring (92) and slide block (93), described blinds mounting rod (5) is provided with the chute (52) coordinating described slide block (93), described slide block (93) can slide but can not rotate in described chute (52), described contraction arbor wheel (91) is arranged on described slide block (93), described torsion spring (92) is arranged between described contraction arbor wheel (91) and described slide block (93), and described torsion spring (92) two ends connect described contraction arbor wheel (91) and described slide block (93) respectively.