CN103807907A - 利用太阳能的发电及供暖系统 - Google Patents
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Abstract
本发明涉及一种利用太阳能的发电及供暖系统,其包括:将太阳能转换成电能的太阳能电池模块;由用于将上述太阳能集热的多个集热棒构成的集热设备;热交换存储箱,其中设置了使存有通过上述太阳光集热设备集聚热量的导热油通过管道进行热交换后再通过太阳能电池模块输出的电能发热的电热体并存储有流体;通过由存储在上述热交换存储箱中的流体产生的蒸汽流入使内部的涡轮旋转的涡轮部;通过上述涡轮部的涡轮旋转进行发电的发电机;对在上述涡轮部使涡轮旋转的蒸汽进行回收并冷凝的冷凝器;利用通过冷凝器冷凝的流体进行建筑物供暖的供暖部;对通过上述建筑物的供暖部供暖后温度下降的流体进行回收并向热交换存储箱供水的给水泵;以及蓄电池。
Description
技术领域
本发明涉及一种利用太阳能电池和太阳热集热棒发电并为建筑物提供冷气和暖气的设备。通过使用利用上述太阳光的发电和集热棒,将通过太阳光发电获得的电力在没有太阳光的夜间或者下雨天用作供暖电源。上述太阳光发电是利用半导体将太阳能转换为电能,太阳热集热棒是利用太阳光集热并蓄热从而利用太阳能通过涡轮及发电机获得电能或者将上述集聚的热能直接向建筑物供暖。
背景技术
与本发明相同的现有技术在大韩民国专利注册第10-1079642号中有相关记载。图1是现有的利用太阳热及太阳光发电的供暖系统构成图。在上述图1中,现有的利用太阳热及太阳光发电的供暖系统设置有在建筑物外墙上设置并通过集聚太阳热而产生温室效果的构件单元100,在上述构件单元100的外侧设置有能够让阳光进入到构件单元100内的透光窗120,为了使进入到构件单元100内的阳光有效地转化为能量,在构件单元100的室内一侧设置有黑色的吸热板110。另外,在上述吸热板110上设置有能够让室内空气流入的流入孔111,利用太阳热将流入到构件单元100内的室内空气加热后再向室内放出的流出孔113。由于流入上述流入孔111的空气温度比构件单元100内部温度低,因此将其设置在下侧,由于从流出孔113放出的空气温度比室内的温度高,因此将其设置在上侧,这样就可以使其产生自然的对流现象。另外,上述构件单元100呈四角形舰体状,透光窗120的材质可以采用透明塑料或者玻璃、亚克力板等,上述吸热板110是吸收太阳热的地方,可以将其涂成黑色或者采用黑色材质的材料制作。另外,为了确保周边130能够对舰体进行支撑,可以采用合成树脂或者金属材料制作。在这里,所谓的“黑色材质”可以是市场上常见的聚乙烯醇(Polyvinylalcohol,PVA),上述构件单元100不仅可以通过自然的对流使室内空气流入或者放出,而且还可以采用强制送风的方式。
发明内容
技术课题
由于上述现有的利用太阳热及太阳光发电的供暖系统采用平板状太阳吸热板,因此存在集热效率低的问题。另外,上述现有的利用太阳热及太阳光发电的供暖系统只利用太阳能的供暖系统,因此存在能源利用效率低的问题。为了解决上述问题,本发明利用太阳能的发电及供暖系统的目的在于,提高太阳能集热效率,以最有效的方式利用能源。本发明的另一个目的在于,将太阳光发电输出到蓄电池存储后,将其用作能量存储箱的动力源,以确保即使在夜间或者是阴天也能够有效地利用供暖系统。
课题解决方法
为了解决上述现有技术存在的问题,本发明的利用太阳能的发电及供暖系统包括:将太阳能转换成电能的太阳能电池模块;集热设备,其由用于将上述太阳能集热的多个集热棒构成;热交换存储箱,其中设置有电热体并存储有流体,该电热体使存有通过上述太阳光集热设备集聚热量的导热油通过管道进行热交换后再通过太阳能电池模块输出的电能发热;涡轮部,通过由存储在上述热交换存储箱中的流体产生的蒸汽流入使内部的涡轮旋转;发电机,通过上述涡轮部的涡轮旋转进行发电;冷凝器,对在上述涡轮部使涡轮旋转的蒸汽进行回收并冷凝;供暖部,利用通过冷凝器冷凝的流体进行建筑物供暖;给水泵,对通过上述建筑物的供暖部供暖后温度下降的流体进行回收并向热交换存储箱供水;蓄电池,对上述发电机产生的电力进行存储并与上述电热体进行导电连接。依据本发明的系统包括上述循环周期,因此能够有效地利用太阳能。
发明效果
如上所述,本发明利用太阳能的发电及供暖系统能够最大限度地利用太阳能。另外,本发明的另一个效果在于,通过使用环保的清洁能源,减少化石能源的使用,从而减少二氧化碳及一氧化碳的排放。另外,本发明的另一个效果在于,通过将发电机输出的电力用作热交换箱的能源,从而确保即使是在夜间等不能利用太阳能的时间内也能够有效地利用热交换箱。
附图说明
图1是现有的利用太阳热及太阳光发电的供暖系统构成图;
图2是本发明利用太阳能的发电及供暖系统整体构成图;
图3是用于本发明的太阳热集热棒立体图;
图4是用于本发明的太阳热集热棒分解立体图;
图5是用于本发明的太阳热集热棒剖面构成图;
图6是用于本发明的太阳热集热棒横切面构成图;
图7是用于本发明的太阳热集热设备剖面构成图。
附图编号说明
10:太阳能电池模块,20:太阳光集热设备,
20:热交换存储箱,21:集热棒本体,
22:集热棒支架,23:发热棒支撑轴,
24:封套,27:发热棒,
29:空间部,29-1:薄膜,
29-2:第2空间部,40:涡轮部,
50:发电机,60:冷凝器,
70:供暖部,80:给水泵,
90:蓄电池
具体实施方式
下面,将参照图2至图7对本发明利用太阳能的发电及供暖系统进行说明。
图2是本发明利用太阳能的发电及供暖系统整体构成图。在图2中,本发明利用太阳能的发电及供暖系统包括:将太阳能转换成电能的太阳能电池模块10;集热设备20,其由用于将上述太阳能集热的多个集热棒构成;热交换存储箱30,其中设置有电热体并存储有流体,该电热体通过导热油流动的管道37进行热交换后再通过太阳能电池模块10输出的电能发热,其中上述导热油中存有通过上述太阳光集热设备20集聚的热量;涡轮部40通过由存储在上述热交换存储箱30中的流体产生的蒸汽流入使驱动内部的涡轮41的涡轮旋转;发电机50,通过上述涡轮部40的涡轮旋转进行发电;冷凝器60,对在上述涡轮部40使涡轮旋转的蒸汽进行回收并冷凝的;供暖部70,利用通过冷凝器60冷凝的流体进行建筑物供暖;给水泵80,对通过上述建筑物的供暖部70供暖后温度下降的流体进行回收并向热交换存储箱供水;蓄电池90,对上述发电机50产生的电力进行存储并与上述电热体进行导电连接。另外,将上述发电机50产生的电力存储在蓄电池90中,既可以将其用于使上述电热体35发热,也可以用于对蓄电池90充电,剩余部分电力还可以为建筑物(95)提供照明能源。
图3是用于本发明的太阳热集热棒立体图。在图3中,用于本发明的太阳热集热棒25包括:插入并支撑在插入于集热棒本体21内的集热棒支架22上的发热棒支撑轴23;插入上述支撑轴23内对集热棒本体21内部进行密封的封套24;插入并设置在插入上述封套24内的发热棒支撑轴23末端的发热棒27。上述发热棒主体28可以是圆筒状、四角形或者多角形等多种形状。
图4是用于本发明的太阳热集热棒分解立体图。在图4中,用于本发明的太阳热集热棒25包括:底面成圆形的集热棒本体21;插入并设置在集热棒本体21内的集热棒支架22;插入并设置在上述集热棒支架22中心的发热棒支撑轴23;插入上述发热棒支撑轴23,且在连接时对集热棒本体21内部进行密封的封套24;在上述封套24上部与发热棒支撑轴23连接的发热棒27。
图5是用于本发明的太阳热集热棒剖面构成图。在图5中,用于本发明的太阳热集热棒25包括:具有在内侧形成的密闭真空部即空间部29和,在上述空间部29内侧附着并涂覆有陶瓷和碳的薄膜29-1,并且底面被密闭的集热棒主体21;插入并设置在形成于上述集热棒主体21内侧的空间部29内侧的集热棒支架22;插入并设置在上述集热棒支架22中央,且内部形成的第2空间部29-2被氟里昂气体填充的发热棒支撑轴23;插入上述发热棒支撑轴23,密闭设置在上述集热棒主体21上部末端的用石棉制成的封套24;与上述发热棒支撑轴23连成一体,为确保与上述发热棒支撑轴23的内部第2空间部29-2连通而形成有内部第3空间部29-3,用铸铁及银的合金制造的发热棒27。如上构成的集热棒25如果向集热棒主体21施加太阳热,涂覆在集热棒主体21内部的空间部29一面的薄膜29-1就能够有效地吸收太阳热,并使填充在发热棒支撑轴23的内部第2空间部29-2中的氟里昂气体加热,加热后温度上升的氟里昂气体就向上部流动,并填充到发热棒27的内部第3空间部29-3。上述集热棒25的集热棒主体21外侧面由玻璃构成,从而容易让太阳光透过。
图6是用于本发明的太阳热集热棒横切面构成图。在图6中,用于本发明的太阳热集热棒25在集热棒主体21内侧形成有密闭的空间部29,在上述空间部29的一个侧面附着有薄膜29-1,在上述集热棒主体21的空间部29内侧插入并设置有两端形成闭路的U形集热棒支架22。另外,在上述集热棒支架22的中心插入并设置有发热棒支撑轴23。
图7是用于本发明的太阳热集热设备剖面构成图。在图7中,用于本发明的太阳热集热设备20包括:导热油通过流入口20-1和流出口20-2流动的集热箱20-3;发热棒27插入上述集热箱20-3内,集热棒主体21向集热箱20-3外部露出设置的多个集热棒25。上述导热油通过上述集热箱20-3的流入口20-1流入集热箱20-3,通过上述集热棒25的发热棒27散发的热量被加热后,再通过流出口20-2流入热交换存储箱30。另外,上述集热棒主体在上述集热箱20-3下部露出,当太阳热向外皮由玻璃制作的集热棒主体21外侧照晒时,设置在上述集热棒21的主体内侧的薄膜29就能够有效地吸收上述太阳热能量,并使填充到上述集热棒主体21内侧的发热棒支撑轴23内部第2空间部29-2中的氟里昂气体加热。如上被加热的氟里昂气体向位于集热箱20-3内部的发热棒27内部第3空间部29-3上升,并对通过上述集热箱20-3流入口20-1流入的导热油加热。对上述导热油加热后温度下降的氟里昂气体被液化后再次向集热棒25的主体内部第2空间部29-2下降,然后重新吸收太阳热能量,被加热后再次循环上述周期。
如上所述,本发明利用太阳能的发电及供暖系统能够有效利用太阳能,最大限度地减少能源浪费。
Claims (7)
1.一种利用太阳能的发电及供暖系统,其特征在于:
用于收集太阳热的太阳热集热棒包括:集热棒本体(21);插入并设置在上述集热棒本体(21)内侧形成的空间部(29)内侧的集热棒支架(22);插入并设置在上述集热棒支架(22)的中央,设置有内部形成的第2空间部(29-2)的发热棒支撑轴(23);插入上述发热棒支撑轴(23)内,设置成对上述集热棒主体(21)上部末端进行密闭的封套(24);与上述发热棒支撑轴(23)连成一体,为确保与上述发热棒支撑轴(23)内部的第2空间部(29-2)连通而形成有内部第3空间部(29-3)的发热棒(27)。
2.如权利要求1所述的利用太阳能的发电及供暖系统,其特征在于:
在上述空间部(29)的一面附着有薄膜(29-1)。
3.如权利要求1所述的利用太阳能的发电及供暖系统,其特征在于:
上述第2空间部(29-2)内填充有氟里昂气体。
4.如权利要求1所述的利用太阳能的发电及供暖系统,其特征在于:
上述封套(24)由石棉材料制成。
5.如权利要求1所述的利用太阳能的发电及供暖系统,其特征在于:
上述集热棒主体(21)的外皮由玻璃制成。
6.如权利要求2所述的利用太阳能的发电及供暖系统,其特征在于:
上述薄膜(29-1)涂覆有陶瓷和碳的薄膜(29-1)。
7.如权利要求2所述的利用太阳能的发电及供暖系统,其特征在于:
上述发热棒(27)和发热棒支撑轴(23)由铸铁与银的合金制成。
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CN114977989B (zh) * | 2022-07-19 | 2022-10-11 | 运易通科技有限公司 | 一种仓库顶棚复合式供电电路装置 |
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