CN111980202A - 一种同时吸收太阳能和风能的吸能墙体 - Google Patents
一种同时吸收太阳能和风能的吸能墙体 Download PDFInfo
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Abstract
一种同时吸收太阳能和风能的吸能墙体,属于建筑节能墙体技术领域,所述墙体上同时安装有太阳能发电装置和风能发电装置;所述太阳能发电装置的太阳能面板做成了正八方状穹隆结构太阳能面板;所述风能发电装置安装在四个正八方状穹隆结构太阳能面板所构成的喇叭状聚风口位置;其有益效果是将太阳能发电装置和风能发电装置同时安装在建筑物墙体上,能够同时吸收太阳能和风能,其中将太阳能面板做成正八方状穹隆结构体,可以从多个角度吸收阳光,提高太阳能的吸收效率;将风能发电装置安装在四个太阳能面板所构成的正方形空隙谷底,利用喇叭状聚风口收集风能,可以协同提高风能吸收效率;整体上可以有效提高墙体的吸能效率。
Description
技术领域
本发明涉及建筑节能墙体技术领域,具体为一种同时吸收太阳能和风能的吸能墙体。
背景技术
传统墙体多为钢筋混凝土浇灌,冬冷夏热透气性差,且由于土地资源越加紧张,高层建筑比比皆是,高层建筑能够接收到更多的阳光和风力,但一般都没有对阳光和风力加以利用。
为此,专利文献CN 109208779 B公开了一种节能型墙体结构,包括内墙体、防水层和发电风扇,所述防水层固定贴附在内墙体的外壁上,并通过防水层的外壁设置有岩棉板,所述岩棉板的外壁通过基板胶水固定粘接有防水层二,所述发电风扇通过穿设钢筋固定安装在安装槽内部,所述安装槽内部对应发电风扇的端面设置有防护罩。该节能型墙体结构,具备对墙体建筑施工的同时对墙体的防水保温层同时施工,并对风能组件外部固定防护,提高风能组件对高层墙体承接风力利用安全性的优点,解决了现有高层建筑墙体对风能承接无法对风能合理利用的问题。但是该方案只利用了风能,且风能的利用率很小,仅能利用到安装槽7范围内的风能。
专利文献CN 102121298 B一种气温自适应节能装置,该装置由外到内包括有太阳能光伏发电方阵层、散热层、热电热泵芯层和热辐射层,太阳能光伏发电方阵层是由光伏电池板拼接而成,热电热泵芯层是由热电热泵芯片组成,太阳能光伏发电方阵层与热电热泵芯层通过电线连接,电线上接有一电流转向开关;该方案具有结构简单紧凑、施工方便、成本低、温控和节能效果好等优点。但是该方案只利用的太阳能,且太阳能的利用率也有限,不能获得不同角度的阳光照射能量。
发明内容
本发明所要解决的技术问题是针对上述技术缺陷,提供一种能够同时吸收太阳能和风能的建筑物墙体,并且能够接收不同角度的阳光照射能量同时能够接收更大范围的风能,以提高建筑墙体的对外界能量的利用效果。
为解决上述技术问题,本发明所采用的技术方案是一种能够同时吸收太阳能风能的吸能墙体,包括建筑物墙体,其特征在于所述墙体上同时安装有太阳能发电装置和风能发电装置。
所述太阳能发电装置包括太阳能面板和光能蓄电池,所述太阳能面板为穹状结构,其顶面为正八方形平面板,其八方形平面板的周边为倾斜状等腰梯形平面板,八个全等的等腰梯形的八个上底分别与正八方形平面板的八个边重合,八个全等的等腰梯形的各个腰边以及八个下底依次前后相连接,构成一个正八方状穹隆结构太阳能面板;若干个八方状穹隆结构太阳能面板依次紧贴呈纵向和横向排列布设在建筑物墙体外表面上,构成太阳能面墙;所述太阳能面板电连接光能蓄电池,光能蓄电池安装在墙体上。
所述风能发电装置包括聚风口、风轮腔、风轮、发电机、风能蓄电池、安装柱和出风管,所述聚风口由依次呈环状相连的四个正八方状穹隆结构太阳能面板所围成的谷底状正方形空隙构成,成为正方形的喇叭状聚风口,该正方形聚风口周边的前侧翼由紧贴正方形的四个八方状穹隆结构太阳能面板中的一个倾斜状等腰梯形平面板构成,即八方状穹隆结构太阳能面板中的部分倾斜状等腰梯形平面板即是太阳能面板,又是聚风口周边的聚风侧翼;所述风轮安装在风轮腔内,风轮连接发电机,发电机安装在安装柱上,安装柱穿插固定在墙体上,发电机电连接风能蓄电池,风能蓄电池安装在墙体上;出风管安装在墙体内,出风管连通风轮腔,并向上通过墙体上方的房顶排出。
所述各个风能蓄电池以及各个光能蓄电池之间安装有导线管,导线管中安装有导线,各个风能蓄电池以及各个光能蓄电池之间由导线连接,既可以串联也可以并联。
所述风轮外侧的聚风口上安装有防护罩。
所述光能蓄电池和风能蓄电池均为铅酸免维护蓄电池。
所述墙体为钢筋混凝土墙体,其主体墙由水泥砂浆混凝土浇筑而成,水泥砂浆混凝土的内侧为内墙装饰层,外侧为轻质保温砂浆层。
所述各个风能蓄电池以及各个光能蓄电池均安装在水泥砂浆混凝土的外表面上,所述各个风能蓄电池以及各个光能蓄电池上还设有电池保护框。
一种吸能墙体的施工方法,包括如下步骤:
⑴制作正八方状穹隆结构太阳能面板,首先制作一个正八方形太阳能面板作为主面板,再制作八个全等的等腰梯形太阳能面板作为斜侧面板,其中等腰梯形的上底与正八方形的边长相等,然后将八个全等的等腰梯形太阳能面板分别安装在正八方形太阳能面板的边缘上,并将八个全等的等腰梯形太阳能面板的腰边及下底前后相连接,构成正八方状穹隆结构太阳能面板;如此制作若干个正八方状穹隆结构太阳能面板。
⑵用轻质保温砂浆预制轻质保温板体,并使轻质保温板体的结构与八方状穹隆结构太阳能面板的内部结构相匹配,使轻质保温板体能够稳合塞入到八方状穹隆结构太阳能面板内成为正八方形隆起状轻质保温板;制作时在轻质保温板体的内表面的中心位置预设光能蓄电池的容纳空间,并在容纳空间内预装电池框,同时在轻质保温板体内预设导线管,导线管从外表面连通到电池框。
⑶绑扎浇筑墙体的钢筋笼骨,在绑扎好的钢筋笼骨内布设出风管并绑扎固定在钢筋笼骨上,再将安装柱呈垂直状绑扎固定在钢筋笼骨上。
⑷架设浇筑墙体的模板,再浇筑水泥砂浆,养护完毕后拆除模板,得到水泥砂浆钢筋混凝土主体墙。
⑸在主体墙的外表面上根据设计位置分别固定安装若干个风能蓄电池和若干个光能蓄电池;在所述各个风能蓄电池以及各个光能蓄电池之间安装导线管,在导线管中安装导线,将导线连接各个风能蓄电池以及各个光能蓄电池,根据需要既可以串联也可以并联或混合相联;在风能蓄电池上安装电池框。
⑹在主体墙的外表面上根据设计位置固定安装若干个轻质保温板体,并使每一个轻质保温板体上的电池框罩住一个光能蓄电池,并将光能蓄电池连接导线,使导线穿过导线管连通向外;然后将正八方状穹隆结构太阳能面板固定安装在轻质保温板体外表面上,并将导线连通。
⑺在四个呈环状互相连接的正八方型隆起状的轻质保温板内必有一个正方形空隙,位于该正方形空隙外侧的四个倾斜状的等腰梯形太阳能面板共同构成聚风口;在该正方形空隙内侧的侧壁上设置侧壁板,构成风轮腔,所述风轮腔正对风能蓄电池和安装柱的位置。
⑻将发电机机壳或定子固定安装在安装柱上,并将发电机导电线连接风能蓄电池;再将风轮固定安装在转子转轴上。
⑼在所述风轮外侧的聚风口上安装防护罩。
⑽在主体墙的内侧表面上安装内墙装饰层。
本发明的有益效果是将太阳能发电装置和风能发电装置同时安装在建筑物墙体上,能够同时吸收太阳能和风能,其中将太阳能面板做成正八方状穹隆结构体,可以从多个角度吸收阳光,提高太阳能的吸收效率;将风能发电装置安装在四个太阳能面板所构成的正方形空隙谷底,利用喇叭状聚风口收集风能,可以协同提高风能吸收效率;整体上可以有效提高墙体的吸能效率。
附图说明
图1为本发明吸能墙体正面结构示意图。
图2为图1中AA线的切面结构示意图。
图3为图1中BB线的切面结构示意图。
图中:1.墙体、2.正八方状穹隆结构太阳能面板、3.正八方形太阳能面板、4.等腰梯形太阳能面板,5.轻质保温板体、6.电池框、7.出风管、8.安装柱、9.风能蓄电池、10.光能蓄电池、11.正方形空隙、12.聚风口、13.风轮腔、14.风轮、15.防护罩、16.内墙装饰层、17.风能发电机。
具体实施方式
下面结合实施例对本发明作进一步说明,以下实施例旨在说明本发明而不是对本发明的进一步限定,不应以此限制本发明的保护范围。
实施例1。
如图所示,制作一种能够同时吸收太阳能和风能的吸能墙体1,该墙体1上同时安装有太阳能发电装置和风能发电装置。
首先制作正八方状穹隆结构太阳能面板2,首先制作一个正八方形太阳能面板3作为主面板,再制作八个全等的等腰梯形太阳能面板4作为斜侧面板,其中等腰梯形的上底与正八方形的边长相等,然后将八个全等的等腰梯形太阳能面板4分别安装在正八方形太阳能面板3的边缘上,并将八个全等的等腰梯形太阳能面板4的腰边及下底前后首尾相连接,构成正八方状穹隆结构太阳能面板2;如此制作若干个正八方状穹隆结构太阳能面板2。
然后用轻质保温砂浆预制轻质保温板体5,并使轻质保温板体5的结构与八方状穹隆结构太阳能面板2的内部结构相匹配,使轻质保温板体5能够稳合塞入到八方状穹隆结构太阳能面板2内部成为正八方形隆起状轻质保温板体5;制作时在轻质保温板体5的内表面的中心位置预设光能蓄电池10的容纳空间,并在容纳空间内预装电池框6,同时在轻质保温板体5内预设导线管,并使导线管从外表面连通到电池框6。
然后在需要建设的建筑物上绑扎浇筑墙体的钢筋笼骨,在绑扎好的钢筋笼骨内布设出风管7,并使出风管7向上伸出到预设的屋顶之外,然后将出风管7绑扎固定在钢筋笼骨上,再将用于安装风能发电机17的安装柱8呈垂直状绑扎固定在钢筋笼骨上。
然后进行支模,架设浇筑墙体的模板,再浇筑水泥砂浆,养护完毕后拆除模板,得到水泥砂浆混凝土主体墙。
在主体墙的外表面上根据设计位置分别固定安装若干个风能蓄电池9和若干个光能蓄电池10;在所述各个风能蓄电池9以及各个光能蓄电池10之间安装导线管,在导线管中安装导线,将导线连接各个风能蓄电池9和各个光能蓄电池10,根据需要既可以串联也可以并联或混合并串联。
在主体墙的外表面上根据设计位置固定安装若干个轻质保温板体5,并使每一个轻质保温板体5上的电池框6罩住一个光能蓄电池10,并将光能蓄电池10连接导线,使导线穿过导线管连通在外;然后将正八方状穹隆结构太阳能面板2固定安装在轻质保温板体5外表面上,并将导线连通正八方状穹隆结构太阳能面板2。
由于轻质保温板体5是正八方形隆起状结构,在四个呈环状互相连接的正八方型隆起状的轻质保温板5内必有一个正方形空隙11,位于该正方形空隙11外侧的四个倾斜状的等腰梯形太阳能面板4共同构成喇叭状的聚风口12;在该正方形空隙11内侧的侧壁上设置侧壁板,构成风轮腔13,所述风轮腔13正对并罩住风能蓄电池9和安装柱8的安装位置。此处最好不要在正方形风轮腔13中另外再设置圆形风筒,经对比,在同样的风力情况下,设置圆形风筒的风轮14转速没有只用方形风轮腔的速度快。
然后将风能发电机17的机壳或者定子固定安装在安装柱8上,并将发电机17的导电线连接风能蓄电池9;再将风轮14固定安装在转子转轴上,再在所述风轮14外侧的聚风口12上安装防护罩16。
最后在主体墙的内侧表面上安装内墙装饰层16。这样就做成了一种能够同时吸收太阳能和风能的吸能墙体1,这种墙体的外表面全部被太阳能发电装置的太阳能面板和风能发电装置的防护罩及风轮覆盖,整个墙体可以同时吸收太阳能和风能,特别是太阳能面板为正八方状穹隆结构太阳能面板2,其中四个正八方状穹隆结构太阳能面板2相互呈环状连接后能够利用其倾斜状的等腰梯形太阳能面板在中心位置构成正方形喇叭状的聚风口,可以收集大面积的风流截面,增加风能的收集量。
Claims (9)
1.一种同时吸收太阳能和风能的吸能墙体,包括墙体,其特征在于所述墙体上同时安装有太阳能发电装置和风能发电装置。
2.根据权利要求1所述的同时吸收太阳能风能的吸能墙体,其特征在于所述太阳能发电装置包括太阳能面板和光能蓄电池;所述太阳能面板为穹状结构,其顶面为正八方形平面板,其八方形平面板的周边为倾斜状等腰梯形平面板,八个全等的等腰梯形的八个上底分别与正八方形平面板的八个边重合,八个全等的等腰梯形的各个腰边以及八个下底依次前后相连接,构成一个八方状穹隆结构太阳能面板;若干个八方状穹隆结构太阳能面板依次紧贴呈纵向和横向排列布设在建筑墙体外表面上,构成太阳能面墙;所述太阳能面板电连接光能蓄电池,所述光能蓄电池安装在墙体上;
所述风能发电装置包括聚风口、风轮腔、风轮、发电机、风能蓄电池、安装柱和出风管;所述聚风口由依次前后相连的四个八方状穹隆结构太阳能面板所构成的正方形空隙构成,成为正方形聚风口,该正方形聚风口周边的前侧翼由紧贴正方形的四个八方状穹隆结构太阳能面板中的倾斜状等腰梯形平面板构成;所述风轮腔连通聚风口和出风管;所述风轮安装在风轮腔内,风轮连接发电机,发电机安装在安装柱上,安装柱穿插固定在墙体上,发电机电连接风能蓄电池,风能蓄电池安装在墙体上,出风管安装在墙体内,并向上通过墙体上方的房顶排出。
3.根据权利要求2所述的同时吸收太阳能风能的吸能墙体,其特征在于所述各个风能蓄电池以及各个光能蓄电池之间安装有导线管,导线管中安装有导线,各个风能蓄电池以及各个光能蓄电池之间由导线连接。
4.根据权利要求3所述的同时吸收太阳能风能的吸能墙体,其特征在于所述风轮外侧的聚风口上安装有防护罩。
5.根据权利要求4所述的同时吸收太阳能风能的吸能墙体,其特征在于所述光能蓄电池和风能蓄电池均为铅酸免维护蓄电池。
6.根据权利要求5所述的同时吸收太阳能风能的吸能墙体,其特征在于所述墙体为钢筋混凝土墙体,其主体由水泥砂浆混凝土浇筑而成,水泥砂浆混凝土的内侧为内墙装饰层,外侧为轻质保温砂浆层。
7.根据权利要求6所述的同时吸收太阳能风能的吸能墙体,其特征在于所述光能蓄电池上还设有电池框。
8.一种吸能墙体的施工方法,其特征在于包括如下步骤:
⑴制作正八方状穹隆结构太阳能面板,首先制作一个正八方形太阳能面板作为主面板,再制作八个全等的等腰梯形太阳能面板作为斜侧面板,其中等腰梯形的上底与正八方形的边长相等,八个全等的等腰梯形太阳能面板分别安装在正八方形太阳能面板的边缘上,并将八个全等的等腰梯形太阳能面板的腰边及下底前后相连接,构成正八方状穹隆结构太阳能面板;如此制作若干个正八方状穹隆结构太阳能面板;
⑵用轻质保温砂浆预制轻质保温板体,并使轻质保温板体的结构与八方状穹隆结构太阳能面板的内部结构相匹配,使轻质保温板体能够稳合塞入到八方状穹隆结构太阳能面板内成为正八方形隆起状轻质保温板;制作时在轻质保温板体的内表面的中心位置预设光能蓄电池的容纳空间,并在容纳空间内预装电池框,同时在轻质保温板体内预设导线管,导线管从外表面连通到电池框;
⑶绑扎浇筑墙体的钢筋笼骨,在绑扎好的钢筋笼骨内布设出风管并绑扎固定在钢筋笼骨上,再将安装柱呈垂直状绑扎固定在钢筋笼骨上;
⑷架设浇筑墙体的模板,再浇筑水泥砂浆,养护完毕后拆除模板,得到水泥砂浆钢筋混凝土主体墙;
⑸在主体墙的外表面上根据设计位置分别固定安装若干个风能蓄电池和若干个光能蓄电池;在所述各个风能蓄电池以及各个光能蓄电池之间安装导线管,在导线管中安装导线,将导线连接各个风能蓄电池以及各个光能蓄电池;在风能蓄电池上安装电池框;
⑹在主体墙的外表面上根据设计位置固定安装若干个轻质保温板体,并使每一个轻质保温板体上的电池框罩住一个光能蓄电池,并将光能蓄电池连接导线,使导线穿过导线管连通向外;然后将正八方状穹隆结构太阳能面板固定安装在轻质保温板体外表面上,并将导线连通;
⑺在四个呈环状互相连接的正八方型隆起状的轻质保温板内必有一个正方形空隙,位于该正方形空隙外侧的四个倾斜状的等腰梯形太阳能面板共同构成聚风口;在该正方形空隙内侧的侧壁上设置侧壁板,构成风轮腔,所述风轮腔正对风能蓄电池和安装柱的位置;
⑻将发电机机壳或定子固定安装在安装柱上,并将发电机导电线连接风能蓄电池;再将风轮固定安装在转子转轴上。
9.根据权利要求8所述的吸能墙体的施工方法,其特征在于所述风轮外侧的聚风口上还安装防护罩。
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