This disclosure claims priority to Chinese patent application No. CN201721828796.5, filed on Dec. 22, 2017, the disclosure of which is incorporated herein by reference in its entirety.
The disclosure relates to the application field of solar cell panel, and particularly relates to a solar cell panel and a bicycle using the solar cell panel.
A shared bicycle is an emerging shared economic product that appears in recent years, and is rapidly popular with consumers due to the advantages of convenience, environmental protection, low price and the like. Meanwhile, the shared bicycle also promotes rapid development of mobile new energy industry.
A solar cell panel for the shared bicycle is installed in a basket of the shared bicycle, but a surface of the solar cell panel is often partially covered or shielded by goods placed in the basket, reducing overall efficiency of the solar cell panel. With respect to the above problem of the solar cell panel used in the shared bicycle, an effective solution for ensuring overall generating efficiency of the solar cell panel and bringing convenient manufacture and simple structure is not presented currently.
The present disclosure provides a solar cell panel which is formed by segmenting a solar cell chip with large size and then restructuring it.
A solar cell panel for a bicycle includes output busbars and a plurality of solar cell groups connected in parallel between the output busbars.
Each of the solar cell groups includes a plurality of solar cell strings connected in series, and each of the solar cell strings includes a plurality of solar cell connected in series.
The plurality of solar cell strings in one of the solar cell groups are arranged alternately with the plurality of solar cell strings in another one of the solar cell groups, and the plurality of solar cell strings in the same one of the solar cell groups are spaced apart from each other.
A solar cell panel for a bicycle includes output busbars and a plurality of solar cell groups connected in parallel between the output busbars.
Each of the solar cell groups includes a plurality of solar cell strings connected in series, and each of the solar cell strings includes a plurality of solar cells connected in series.
A bicycle includes the solar cell panel according to any embodiment.
Embodiments of the present disclosure are described below in detail. Examples of embodiments are shown in drawings. In the drawings, same or like numerals refer to same or like elements throughout, or refer to elements with same or like functions.
The present embodiment provides a solar cell panel, which may be used in a bicycle. In an embodiment, the solar cell panel is arranged in a basket or a fender of the bicycle. The solar cell panel is configured to power an electrical device of the bicycle. The electrical device includes, but is not limited to, an intelligent lock and the like. The bicycle may be a shared bicycle, however, is not limited to the shared bicycle.
As shown in
In an embodiment, the solar cells 2 may be arranged in multiple rows or multiple columns, and for example, arranged in multiple columns as shown in
Electrodes of two solar cells 2 located in different columns and connected in series are connected through a conducting apparatus 3, and for example, are electrically connected through a metal busbar or a wire and the like. In an embodiment, to ensure electrical safety, an electrical isolating apparatus may be arranged between adjacent solar cells 2 which are located in different columns and not electrically connected in series. In practical operation, an insulating coating, insulating cement or insulating spacer/strip and the like may be used as the electrical isolating apparatus.
In an embodiment, the solar cell panel may be a crystalline solar cell panel and a thin film solar cell panel. The crystalline solar cell panel has a low cost and a high photovoltaic conversion efficiency, and is suitable for generating electricity under outdoor sunlight. The thin film solar cell panel has a high cost, a photovoltaic conversion efficiency lower than the photovoltaic conversion efficiency of the crystalline solar cell panel. However, the thin film solar cell panel has a better weak light effect, and can generate power under the light of the common lamp.
The solar cell panel in the related art may be shielded by an object when being used, the solar cell shielded by the object panel cannot generate current and becomes a load consuming the power generated by other solar cell panels. In addition, the solar cell shielded by the object may generate heat, and such phenomenon is called a “hot spot effect”. The solar cell panel will be damaged is the hot spot effect is severe, causing that the solar cell panel cannot work normally.
In the solar cell panel in this embodiment, the solar cell groups are connected in parallel and the voltage is stable, it is ensured that the solar cell panel can power the battery normally when a part of the solar cell panel is shielded, and the charging current is not reduced. Even being shielded by an object, the solar cell panel of this embodiment can keep a stable voltage and further charges the device. In addition, the solar cell groups are connected in parallel, so the charging current is increased, and the solar cell panel may maximum the charging current when not being shielded.
The present disclosure provides a solar cell panel. A solar cell panel with a large size is divided into a plurality of solar cell groups connected in parallel, each solar cell group includes a plurality of solar cell strings connected in series, and the solar cell string includes a plurality of solar cells connected in series. The solar cell strings in the groups are arranged alternately so that the solar cell strings in the same group are in a non-contact state. Compared with a solar cell panel with a same area, a multi-level scaled down solar cell chip structure can reduce generating current of each solar cell. Since the solar cells in the same group are arranged separately, a hot spot effect caused by shielding of a local region and a defect that reduces the overall absorption and conversion rate of the solar cell panel can be alleviated and even eliminated.
Number | Date | Country | Kind |
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201721828796.5 | Dec 2017 | CN | national |