CN112459234A - 一种装配式节能环保型阳光房 - Google Patents
一种装配式节能环保型阳光房 Download PDFInfo
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Abstract
本发明公开了一种装配式节能环保型阳光房,包括阳光房本体和储水箱,所述阳光房本体由多个钢结构框架和安装在框架上的双层可调节玻璃装配而成,阳光房地面上安装有支撑板,支撑板下方设置有太阳能光伏板,所述阳光房本体屋顶两侧边缘安装有雨水收集管,所述雨水收集管设置有一定的倾斜角度,其低端与排水管连接,所述排水管底部出口设有排水孔,所述排水孔通过分流装置连接至储水箱,所述储水箱埋于地下,储水箱底部安装有水泵,所述水泵通过输水管路与太阳能光伏板和保温层相连。本发明有效回收利用水资源,优化了传统钢化玻璃阳光房隔热性与保温性,同时结合智能家居系统,提高了阳光房的夜晚使用率,优化了人居环境。
Description
技术领域
本发明涉及节能环保型阳光房技术领域,具体是一种装配式节能环保型阳光房。
背景技术
与煤矿、石油等传统矿物燃料相比,太阳能举有普遍、清洁、长久和量大等优点。太阳能发展随着全球传统能源短缺、气候变暖和环境污染等问题日益突出,各国政府加大了对包括太阳能在内的新能源政策扶持力度。我国是一个太阳能资源较为充沛的国家,在华北与西部广泛流行一种采用玻璃和金属框架搭建的玻璃建筑,称为阳光房。传统阳光房大多采用钢化玻璃顶,其通透性较好但是隔热性和保温性较差,夜晚由于温度较低对于阳光房的使用率较低。
发明内容
本发明的目的是针对上述问题,提供一种装配式节能环保型阳光房,实现太阳能的充分利用,从而营造一种智能人居的阳光房。装配式节能环保型阳光房,提供屋檐汇集屋面雨水,通过排水管排向排水孔,同时地表流水也部分流向排水孔,通过栅格网和筛析桶的双重筛选,初步过滤掉体积较大的难溶于水的杂志,通过净水箱内的过滤介质进行二次过滤,提高水质,流入储水箱,提供储水箱内的储水。本发明的玻璃采用特殊双层玻璃结构。可调节玻璃的透明程度,同时有效阻挡阳光射入,基于使用者的需求调节房内阳光强度。为充分利用太阳能,在阳光房的地面铺设抗压玻璃,其下铺设太阳能板,日间太阳能板吸收太阳能量,转化为电池电能储藏,夜间通电释放热量给予水体,为室内提供热量,解决了太阳房夜间使用率低下的问题。
为实现上述目的,本发明所采取的技术方案为:
一种装配式节能环保型阳光房,包括阳光房本体和储水箱,所述阳光房本体由多个钢结构框架和安装在框架上的双层可调节玻璃装配而成,阳光房地面上安装有支撑板,支撑板下方设置有太阳能光伏板,所述阳光房本体屋顶两侧边缘安装有雨水收集管,所述雨水收集管设置有一定的倾斜角度,其低端与排水管连接,所述排水管底部出口设有排水孔,所述排水孔通过分流装置连接至储水箱,所述储水箱埋于地下,储水箱底部安装有水泵,所述水泵通过输水管路与加热装置和保温层相连。
所述双层可调节玻璃由两块双层low-E玻璃和固定在双层low-E玻璃两端的钢节点构成,所述钢节点与钢结构框架密封连接;设置在阳光房侧面的双层可调节玻璃,其双层low-E玻璃之间所留空隙形成所述保温层,保温层与双层low-E玻璃之间设有隔热层,所述隔热层内填充有陶瓷纤维隔热材料。
所述分流装置包括电子三通阀、净水箱和污水管,所述排水孔通过管路与电子三通阀的进水口连接,所述净水箱一端通过管路与电子三通阀的出水口连接,另一端与储水箱相连,所述污水管一端与电子三通阀的另一出水口连接,一端通向下水道。
所述太阳能光伏板与蓄电池组相连,所述蓄电池组一端通过导线与控制箱连接,另一端通过导线与加热装置相连。
所述储水箱内部安装有水位传感器,所述管路上安装有温度传感器,所述阳光房本体外侧墙壁上安装有控制箱,内侧屋顶上安装有照明灯;所述水泵、水位传感器、温度传感器、太阳能光伏板、电子三通阀和照明灯通过导线与控制箱连接。
所述加热装置由设置在太阳能光伏板边缘的太阳能真空管及其内部的电加热管构成,所述电加热管通过导线与蓄电池组相连。
所述排水孔设置为为倒梯形,排水孔位于地面的进水口处设置有栅格网,所述栅格网一侧通过转轴承与地面连接固定,另一侧设有把手;所述排水孔出水口至电子三通阀的管道内设置有筛析桶,所述筛析桶底部设有过滤网,筛析桶顶部两侧设置有把手。
所述阳光房本体外墙底部固定有落水管,外墙边缘的地面挖有檐沟,所述落水管和檐沟通向排水孔。
所述净水箱内部填充有三层过滤介质,由上之下依次为石英砂-活性炭-石英砂。
本发明的有益效果:
1)本发明一种装配式节能环保型阳光房,利用屋檐和屋面汇集雨水,同时地表流水也部分流向排水孔,经两层筛网初步净化,净水箱进行二次净化,送入储水箱,储水箱内的水通过水泵作用,在太阳能真空管中加热,起到阳光房保温的效果,实现水资源的回收利用,节能环保;
2)本发明充分利用太阳能,在阳光房的地面铺设抗压玻璃,其下铺设太阳能光伏板,日间太阳能光伏板吸收太阳能量,转化为电能储藏在蓄电池组中,夜间通电释放热量给予水体,并通过管路将热水送至保温层,为室内提供热量,解决了太阳房夜间使用率低下的问题;
3)本发明整体采用装配式构造,可以快速拆卸安装,便于临时搭建。
附图说明
图1为本发明一种装配式节能环保型阳光房的整体结构示意图;
图2为本发明一种装配式节能环保型阳光房的轴测图;
图3为本发明一种装配式节能环保型阳光房双层可调节玻璃的结构示意图;
图4为本发明一种装配式节能环保型阳光房的装配分解图;
图中:1、阳光房本体;2、储水箱;3、双层可调节玻璃;4、阳光房地面;5、支撑板;6、太阳能光伏板;7、雨水收集管;8、排水管;9、排水孔;10、水泵;11、保温层;12、双层low-E玻璃;13、钢节点;14、隔热层;15、电子三通阀;16、净水箱;17、污水管;18、控制箱;19、水位传感器;20、温度传感器;21、照明灯;22、输水管路;23、落水管;24、檐沟;25、太阳能真空管。
具体实施方式
为了更好地解释本发明,下面结合附图和实施例对本发明进行详细的描述。
实施例:参见图1-4。
如图1所示,一种装配式节能环保型阳光房,包括阳光房本体1和储水箱2,其特征在于,所述阳光房本体1由多个钢结构框架26和安装在框架上的双层可调节玻璃3装配而成,阳光房地面4上安装有支撑板5,支撑板5下方设置有太阳能光伏板6,所述阳光房本体1屋顶两侧边缘安装有雨水收集管7,所述雨水收集管7设置有一定的倾斜角度,其低端与排水管8连接,所述排水管8底部出口设有排水孔9,所述排水孔9通过分流装置连接至储水箱2,所述储水箱2埋于地下,储水箱底部安装有水泵10,所述水泵10通过输水管路22与加热装置和保温层11相连。
如图3所示,所述支撑板5为透明钢化玻璃,所述双层可调节玻璃3由两块双层low-E玻璃12和固定在双层low-E玻璃12两端的钢节点13构成,所述钢节点13与钢结构框架26密封连接;设置在阳光房侧面的双层可调节玻璃3,其双层low-E玻璃12之间所留空隙形成所述保温层11,保温层11与双层low-E玻璃12之间设有隔热层14,所述隔热层14内填充有陶瓷纤维隔热材料。
所述分流装置包括电子三通阀15、净水箱16和污水管17,所述排水孔9通过管路与电子三通阀15的进水口连接,所述净水箱16一端通过管路与电子三通阀15的出水口连接,另一端与储水箱2相连,所述污水管17一端与电子三通阀15的另一出水口连接,一端通向下水道。
所述太阳能光伏板6与蓄电池组相连,所述蓄电池组一端通过导线与控制箱18连接,另一端通过导线与加热装置相连。
所述储水箱2内部安装有水位传感器19,所述管路上安装有温度传感器20,所述阳光房本体1外侧墙壁上安装有控制箱18,内侧屋顶上安装有照明灯21;所述水泵10、水位传感器19、温度传感器20、太阳能光伏板6、电子三通阀15和照明灯21通过导线与控制箱18连接。
所述加热装置由设置在太阳能光伏板6边缘的太阳能真空管25及其内部的电加热管构成,所述电加热管通过导线与蓄电池组相连。
所述排水孔9设置为为倒梯形,排水孔9位于地面的进水口处设置有栅格网,所述栅格网一侧通过转轴承与地面连接固定,另一侧设有把手;所述排水孔9出水口至电子三通阀15的管道内设置有筛析桶,所述筛析桶底部设有过滤网,筛析桶顶部两侧设置有把手。
所述阳光房本体1外墙底部固定有落水管23,外墙边缘的地面挖有檐沟24,所述落水管23和檐沟24通向排水孔9。
所述净水箱16内部填充有三层过滤介质,由上之下依次为石英砂-活性炭-石英砂。
本发明一种装配式节能环保型阳光房,利用屋檐和屋面汇集雨水,地表流水也部分流向排水孔9,经两层筛网初步净化,净水箱16进行二次净化后,送入储水箱2,储水箱2内的水通过水泵10作用,在管路中加热,起到阳光房保温的效果,实现水资源的回收利用,节能环保;日间通过太阳能光伏板6吸收太阳能量,转化为电能储藏在蓄电池组中,夜间通电释放热量给予水体,并通过管路将热水送至保温层11,为室内提供热量,有效解决了太阳房夜间使用率低下的问题;同时阳光房各部分采用装配式构造,可以实现快速拆卸安装,便于临时搭建。
以上所述仅为本发明的优选实施例,并非因此限制本发明的专利范围,凡是利用本发明说明书及附图内容所作的等效结构或等效变换,或直接或间接运用在其他相关的技术领域,均同理包括在本发明的专利保护范围内。
Claims (9)
1.一种装配式节能环保型阳光房,其特征在于,包括阳光房本体(1)和储水箱(2),其特征在于,所述阳光房本体(1)由多个钢结构框架(26)和安装在框架上的双层可调节玻璃(3)装配而成,阳光房地面(4)上安装有支撑板(5),支撑板(5)下方设置有太阳能光伏板(6),所述阳光房本体(1)屋顶两侧边缘安装有雨水收集管(7),所述雨水收集管(7)设置有一定的倾斜角度,其低端与排水管(8)连接,所述排水管(8)底部出口设有排水孔(9),所述排水孔(9)通过分流装置连接至储水箱(2),所述储水箱(2)埋于地下,储水箱底部安装有水泵(10),所述水泵(10)通过输水管路(22)与加热装置和保温层(11)相连。
2.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述支撑板(5)为透明钢化玻璃,所述双层可调节玻璃(3)由两块双层low-E玻璃(12)和固定在双层low-E玻璃(12)两端的钢节点(13)构成,所述钢节点(13)与钢结构框架(26)密封连接;设置在阳光房侧面的双层可调节玻璃(3),其双层low-E玻璃(12)之间所留空隙形成所述保温层(11),保温层(11)与双层low-E玻璃(12)之间设有隔热层(14),所述隔热层(14)内填充有陶瓷纤维隔热材料。
3.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述分流装置包括电子三通阀(15)、净水箱(16)和污水管(17),所述排水孔(9)通过管路与电子三通阀(15)的进水口连接,所述净水箱(16)一端通过管路与电子三通阀(15)的出水口连接,另一端与储水箱(2)相连,所述污水管(17)一端与电子三通阀(15)的另一出水口连接,一端通向下水道。
4.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述太阳能光伏板(6)与蓄电池组相连,所述蓄电池组一端通过导线与控制箱(18)连接,另一端通过导线与加热装置相连。
5.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述储水箱(2)内部安装有水位传感器(19),所述管路上安装有温度传感器(20),所述阳光房本体(1)外侧墙壁上安装有控制箱(18),内侧屋顶上安装有照明灯(21);所述水泵(10)、水位传感器(19)、温度传感器(20)、太阳能光伏板(6)、电子三通阀(15)和照明灯(21)通过导线与控制箱(18)连接。
6.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述加热装置由设置在太阳能光伏板(6)边缘的太阳能真空管(25)及其内部的电加热管构成,所述电加热管通过导线与蓄电池组相连。
7.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述排水孔(9)设置为为倒梯形,排水孔(9)位于地面的进水口处设置有栅格网,所述栅格网一侧通过转轴承与地面连接固定,另一侧设有把手;所述排水孔(9)出水口至电子三通阀(15)的管道内设置有筛析桶,所述筛析桶底部设有过滤网,筛析桶顶部两侧设置有把手。
8.根据权利要求1所述的一种装配式节能环保型阳光房,其特征在于,所述阳光房本体(1)外墙底部固定有落水管(23),外墙边缘的地面挖有檐沟(24),所述落水管(23)和檐沟(24)通向排水孔(9)。
9.根据权利要求3所述的一种装配式节能环保型阳光房,其特征在于,所述净水箱(16)内部填充有三层过滤介质,由上之下依次为石英砂-活性炭-石英砂。
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CN114135126A (zh) * | 2021-12-02 | 2022-03-04 | 南京工业大学 | 一种装配式医疗站 |
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CN114592601A (zh) * | 2022-04-01 | 2022-06-07 | 河北远大钢构科技有限公司 | 重型钢结构装配式被动房 |
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