CN114000660A - 一种高效发电的微曲面发电瓦片 - Google Patents
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Abstract
本发明涉及一种高效发电的微曲面发电瓦片,包括:曲面铝基板、曲面光伏发电片、曲面透光板、密封胶条及曲面温差发电片,曲面铝基板的顶面开设有第一安装槽,在第一安装槽的槽底开设有第二安装槽;曲面光伏发电片通过塑胶膜固定在第二安装槽内;曲面透光板对应曲面光伏发电片的上方通过塑胶膜固定在第一安装槽内;密封胶条粘固曲面铝基板对应其与透曲面透光板的拼接缝隙处;曲面温差发电片固定在曲面铝基板的底面。本发明改变传统发电瓦片紧靠光照进行发电的发电方式,通过在曲面铝基板底面安装曲面温差发电片,在曲铝基板第二安装槽内安装曲面光伏发电片,可以充分利用太阳光和太阳光携带的热量,进而实现太阳光能的高效转化。
Description
技术领域
本发明涉及发电瓦片技术领域,特别涉及一种高效发电的微曲面发电瓦片。
背景技术
随着全球气候的变暖,化石能源的消耗引起了全球环境的问题,绿色低碳成为全球潮流,而太阳能正是绿色环保资源。
目前为了增强建筑本身电力资源的能力,在建筑屋顶上安装太阳能瓦片来提供电力,太阳能瓦片是将太阳能板和屋顶瓦片整合一起,众多太阳能瓦片相互搭接或者黏接构成太阳能屋顶,然而,传统太阳能瓦片构成的太阳能屋顶的发电效率仅为17-20%,发电效率较低。
因此,如何提供一种高效发电的微曲面发电瓦片是本领域技术人员亟待解决的技术问题。
发明内容
本发明提供一种高效发电的微曲面发电瓦片,解决现有发电瓦片发电效率低的技术问题。
本发明提供以下技术方案:一种高效发电的微曲面发电瓦片,包括:曲面铝基板、曲面光伏发电片、曲面透光板、密封胶条及曲面温差发电片,
曲面铝基板的顶面开设有第一安装槽,在第一安装槽的槽底开设有第二安装槽;
曲面光伏发电片通过塑胶膜固定在第二安装槽内;
曲面透光板对应曲面光伏发电片的上方通过塑胶膜固定在第一安装槽内;密封胶条粘固曲面铝基板对应其与透曲面透光板的拼接缝隙处;
曲面温差发电片固定在曲面铝基板的底面。
本发明的有益效果是:改变传统发电瓦片紧靠光照进行发电的发电方式,通过在曲面铝基板底面安装曲面温差发电片,在曲铝基板第二安装槽内安装曲面光伏发电片,可以充分利用太阳光和太阳光携带的热量,进而实现太阳光能的高效转化。
在上述技术方案的基础上,本发明还可以做如下改进。
进一步,曲面铝基板的前端开设有多个插接槽,后端连接有多个与插接槽匹配的插接柱。
采用上述进一步的有益效果是:通过在曲面铝基板的前端开设多个插接槽,后端连接多个插接柱,两片微曲面发电瓦片拼接时,多个插接柱一一插接进入多个插接槽内,可以将两片微曲面发电瓦片无缝连接,在提高挡风漏雨功能的同时也便于安装。
进一步,还包括多个第一磁片和多个第二磁片,多个第一磁片分别一一固定在多个插接槽的槽底;多个第二磁片分别一一固定在插接柱插接端的端面上;多个第一磁片和多个第二磁片的磁性相反。
采用上述进一步的有益效果是:通过在插接柱和插接槽上分别安装第一磁片和第二磁片,可以缩小两块曲面发电瓦片之间的间隙,提高屋顶的防水性能。
进一步,曲面铝基板的底面最底处焊接有多个用于固定的自攻螺钉。
进一步,曲面光伏发电片为单晶硅电池片或多晶硅电池片。
进一步,曲面透光板为玻璃、ETEF、玻纤布、钢化玻璃或亚克力板。
进一步,塑胶膜为POE膜。
进一步,还包括加热丝和开关,加热丝呈“S”型固定在曲面透光板的内部且与开关电性连接。
采用上述进一步的有益效果是:曲面透光板内侧安装“S”型加热丝,当暴雪天气来临时,开启加热丝,可以融化积雪。
进一步,还包括绝热涂料,绝热涂料喷涂在曲面温差发电片的底面。
采用上述进一步的有益效果是:可以减少太阳光热量进入屋内。
附图说明
图1为本发明一种高效发电的微曲面发电瓦片中两个微曲面发电瓦片拆分结构示意图;
图2为本发明一种高效发电的微曲面发电瓦片中两个微曲面发电瓦片组装结构示意图;
图3为本发明一种高效发电的微曲面发电瓦片的侧视内部结构示意图;
图4为本发明一种高效发电的微曲面发电瓦片中曲面透光板结构示意图;
图5为本发明一种高效发电的微曲面发电瓦片仰视结构示意图;
图6为本发明一种高效发电的微曲面发电瓦片中插接孔内部结构示意图。
附图标记名称:
1、曲面路基板,11、第一安装槽,12、第二安装槽,13、插接槽,14、插接柱,2、曲面光伏发电片,3、曲面透光板,4、密封胶条,5、曲面温差发电片,6、第一磁片,7、第二磁片,8、自攻螺钉,9、加热丝。
具体实施方式
以下结合附图对本发明的原理和特征进行描述,所举实例只用于解释本发明,并非用于限定本发明的范围。
如图4所示,一种高效发电的微曲面发电瓦片,包括:曲面铝基板1、曲面光伏发电片2、曲面透光板3、密封胶条4及曲面温差发电片5,
曲面铝基板1的顶面开设有第一安装槽11,在第一安装槽11的槽底开设有第二安装槽12;
曲面光伏发电片2通过塑胶膜固定在第二安装槽12内;
曲面透光板3对应曲面光伏发电片2的上方通过塑胶膜固定在第一安装槽11内;密封胶条4粘固曲面铝基板1对应其与透曲面透光板3的拼接缝隙处;
曲面温差发电片5固定在曲面铝基板1的底面。
如图1和图2所示,在一些具体实施例中,曲面铝基板1的前端可以开设有多个插接槽13,后端连接有多个与插接槽13匹配的插接柱14。
在一些具体实施例中,还可以包括多个第一磁片6和多个第二磁片7,多个第一磁片6分别一一固定在多个插接槽13的槽底;多个第二磁片7分别一一固定在插接柱14插接端的端面上;多个第一磁片6和多个第二磁片7的磁性相反。
在一些具体实施例中,曲面铝基板1的底面最底处焊接有多个用于固定的自攻螺钉8。
在一些具体实施例中,曲面光伏发电片2为单晶硅电池片或多晶硅电池片。
在一些具体实施例中,曲面透光板3可以为玻璃、ETEF、玻纤布、钢化玻璃或亚克力板。
具体地,塑胶膜可以为POE膜。
在一些具体实施例中,还可以包括加热丝9和开关,加热丝9呈“S”型固定在曲面透光板3的内部且与开关电性连接。
在一些具体实施例中,还包括绝热涂料,绝热涂料喷涂在曲面温差发电片5的底面。
以上所述仅为本发明的较佳实施例,并不用以限制本发明,凡在本发明的精神和原则之内,所作的任何修改、等同替换、改进等,均应包含在本发明的保护范围之内。
Claims (9)
1.一种高效发电的微曲面发电瓦片,其特征在于,包括:曲面铝基板(1)、曲面光伏发电片(2)、曲面透光板(3)、密封胶条(4)及曲面温差发电片(5),
所述曲面铝基板(1)的顶面开设有第一安装槽(11),在所述第一安装槽(11)的槽底开设有第二安装槽(12);
所述曲面光伏发电片(2)通过塑胶膜固定在所述第二安装槽(12)内;
所述曲面透光板(3)对应所述曲面光伏发电片(2)的上方通过塑胶膜固定在所述第一安装槽(11)内;所述密封胶条(4)粘固所述曲面铝基板(1)对应其与所述透曲面透光板(3)的拼接缝隙处;
所述曲面温差发电片(5)固定在所述曲面铝基板(1)的底面。
2.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,所述曲面铝基板(1)的前端开设有多个插接槽(13),后端连接有多个与所述插接槽(13)匹配的插接柱(14)。
3.根据权利要求2所述的一种高效发电的微曲面发电瓦片,其特征在于,还包括多个第一磁片(6)和多个第二磁片(7),多个所述第一磁片(6)分别一一固定在多个所述插接槽(13)的槽底;多个所述第二磁片(7)分别一一固定在所述插接柱(14)插接端的端面上;多个所述第一磁片(6)和多个所述第二磁片(7)的磁性相反。
4.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,所述曲面铝基板(1)的底面最底处焊接有多个用于固定的自攻螺钉(8)。
5.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,所述曲面光伏发电片(2)为单晶硅电池片或多晶硅电池片。
6.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,所述曲面透光板(3)为玻璃、ETEF、玻纤布、钢化玻璃或亚克力板。
7.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,所述塑胶膜为POE膜。
8.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,还包括加热丝(9)和开关,所述加热丝(9)呈“S”型固定在所述曲面透光板(3)的内部且与所述开关电性连接。
9.根据权利要求1所述的一种高效发电的微曲面发电瓦片,其特征在于,还包括绝热涂料,所述绝热涂料喷涂在所述曲面温差发电片(5)的底面。
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CN211622293U (zh) * | 2019-12-20 | 2020-10-02 | 瑞安市联航不锈钢有限公司 | 一种不锈钢屋面瓦 |
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GB0200751D0 (en) * | 2002-01-14 | 2002-02-27 | Integrated Technologies | Hybrid photovoltaic module |
CN106911292A (zh) * | 2017-03-02 | 2017-06-30 | 江苏武进汉能薄膜太阳能有限公司 | 曲面柔性基屋顶太阳能薄膜发电光伏瓦***及其制备方法 |
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