CN106460374A - 利用可再生能源的活动住宅 - Google Patents
利用可再生能源的活动住宅 Download PDFInfo
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Abstract
本发明涉及一种利用可再生能源的活动住宅,该活动住宅的特征在于包括:‑壳体结构(20),包括可安装并可拆卸的支撑结构(12)、以及使用可拆连接件安装在该壳体结构(20)上的面板(14)和屋盖(16),‑将所述壳体结构(20)固定到地面上的地脚螺钉(22),和‑利用可再生能源并由所述壳体结构(20)承载的供电系统(30)、饮用水供水系统(50)、废水处理系统(80)、以及通风和供暖系统(90)。
Description
技术领域
本发明涉及一种利用可再生能源的活动住宅。
背景技术
为了确保可持续发展,如今,环境意识变得越来越重要。对于民用住宅和用于长时间停留的其它建筑(例如办公楼、公共建筑等),这主要反映在可再生能源的利用和废物回收利用,包括废热。在可再生能源领域,最常用的方案之一是利用布置在屋顶上的太阳能电池来保障住宅的至少一部分能源供应。利用太阳能进行供暖也开始普及。所谓的被动式住宅解决了废热回收的问题。一方面,这些住宅具有优异的保温性能;另一方面,通过热交换器向住宅引入通风用新鲜空气,使得排出的较高温度的废气对引入的新鲜但温度较低的空气进行加热,从而大大降低甚至消除了供暖需求。
总体上讲,虽然当前流行的利用可再生能源的住宅和被动式住宅比常规建筑更环保一些,但是即使采用这种替代技术的住宅也具有明显的生态印记。
发明内容
本发明的一个目的是提供一种利用可再生能源并且基本上没有生态印记的住宅。更确切地说,本发明的一个目的是提供一种活动住宅,这种活动住宅在第一个地点安装之后,可以拆除、运输并再次安装到下一个地点。另一个目的是确保在任何安装场地无需显著改变环境(例如被建造、铺设污水管或挖掘污水坑所改变)。
这些目的是通过一种利用可再生能源的活动住宅实现的,该活动住宅的特征包括:
-壳体结构,包括可安装并可拆卸的支撑结构、以及使用可拆连接件安装在该壳体结构上的面板和屋盖,
-将所述壳体结构固定到地面上的地脚螺钉,和
-利用可再生能源并由所述壳体结构承载的供电系统、饮用水供水系统、废水处理系统、以及通风和供暖系统。
本发明的活动住宅仅通过地脚螺钉与环境接触。供电系统、饮用水供水系统、废水处理系统、以及通风和供暖系统共同使得所述活动住宅相当于一座连接至所有基本公用事业基础设施的住宅,但是该工程不需要侵扰环境,尤其是地面(不需要饮用水管网、污水管网、天然气管道,甚至与电网的连接都是可选的),从而该住宅没有生态印记。
在从属权利要求中限定了本发明的更多的有益实施方式。
附图说明
下面将参照附图通过示例性实施方式更详细地说明本发明。
图1是本发明的活动住宅的侧视截面图,其中示出了地面;
图2是住宅的供电系统的框图;
图3是住宅的饮用水供水和废水处理系统的示意图;
图4是布置在下层设备空间中的饮用水供水和废水处理系统的各个单元的框图;
图5是居住层的用水口和排水口的示意性俯视平面图;
图6是布置在居住层的通风和供暖系统的各个单元的示意性俯视平面图;
图7是布置在下侧设备层的通风和供暖系统的各个单元的示意性俯视平面图。
具体实施方式
图1是本发明的活动住宅10的侧视截面图,其中还示出了地面8。活动住宅10包括由高强度材料(例如金属、木材、碳纤维等)构成的可安装和可拆卸的支撑结构12,该支撑结构12支持住宅的内外墙壁和其它边界面(例如住宅10的基础、其室内地板、其顶棚等),这些构造是安装在支撑结构12上的面板14和屋盖16的形式。支撑结构12和面板14可由市场上可买到的材料(例如木材、纤维素材料等)制成。在支撑结构12上还可形成阳台18,优选在住宅10的南立面墙板14(可包括门或窗)处形成,并且阳台18优选由栏杆18a限定。屋盖16优选部分地探出到阳台18之外,从而可遮盖阳台18的一部分,或遮盖整个阳台18。阳台18的被遮盖部分优选可通过纱窗19与户外环境隔开,该纱窗19优选可在轨道中滑动,从而可在阳台18的被遮盖部分产生一个无蚊虫的空间。屋盖16也可为屋盖板的形式,其中的部件是市场上可买到的。
支撑结构12、面板14和屋盖16共同限定壳体结构20,该壳体结构20通过地脚螺钉22固定到地面8上。地脚螺钉22的规格和其间隔密度(即,每单位地面空间中的地脚螺钉数目)取决于活动住宅10的尺寸和规划重量、以及每个地脚螺钉22的承载能力。住宅10可安装在具有不同承载能力的地脚螺钉22上,地脚螺钉22的布置形式可由本领域技术人员根据通过已知方式进行的静力分析来确定。优选采用承载能力为4吨的地脚螺钉22。
壳体结构20承载利用可再生能源的以下系统:供电系统、饮用水供水系统50、废水处理系统80、以及通风和供暖系统90。
壳体结构20包括设备空间26和位于其上方的居住空间28。本发明不仅涉及民用住宅,对于非民用住宅,术语“居住空间28”应理解为涵盖为了人员的长时间停留而设计的其它场所,例如办公场所、购物场所、公共场所等。
供电系统、饮用水供水系统50、废水处理系统80、及通风和供暖系统90至少部分地安装在设备空间26中。根据一种优选实施方式,可通过假顶棚29分隔出上层设备空间26b。优选在居住空间中提供用于下到工程空间26中的多个可打开和可关闭的出入点,如图4至8中所示的检修口24。
供电系统30包括太阳能电池31,该太阳能电池31优选布置在屋盖16的朝南的屋盖部分16a上。太阳能电池31可为任何类型的已知光电电池,例如单晶或多晶型,而且,正如本领域中所熟知的,该太阳能电池可包括多块太阳能板(未示出)。承载太阳能电池31的屋盖部分16a优选探出到活动住宅10的朝南的立面墙板14之外,从而在阳光入射角β(即,阳光和竖直方向之间的角度)处于一年中的最小角度时可防止立面墙板14受到阳光直晒(例如,在匈牙利,阳光入射角β最小时是6月21日,但是优选在整个夏季(至少在整个6月和7月)中防止立面墙板14受到阳光直晒),并且在相对于竖直方向的入射角γ在一年中最大时阳光可照射在立面墙板14上(例如,在匈牙利,入射角γ最大时是12月21日,但是优选在整个冬季(至少在整个12月和1月)中阳光可照射在立面墙板14上),如图1所示。探出到朝南的立面墙板14之外的屋盖16部分的尺寸优选使得在上述的后一个时段中阳光至少直接照射立面墙板14的一半高度,更优选至少直接照射立面墙板14的三分之二高度。朝南的立面墙板14可包括窗户、阳台门、延伸到地板的法式落地窗、或其他可透光的方案。
承载太阳能电池31的屋盖部分16a优选具有与全年运转的最佳角度对应的倾角α,该角度在本领域中是公知的,例如在匈牙利,该角度为43°。
供电系统30还包括连接至布置在屋盖16上的太阳能电池31的逆变器32,该逆变器32将太阳能电池31的直流电压输出转换为交流电压。本发明的活动住宅10在供电方面可作为就地的脱网(独立运转的)电网,但是也可经由可逆的公用事业电量表34连接至公共电网33。该电量表既计量来自于电网的电能的使用量,又计量对电网的电能贡献量,并在用户和电力公司(例如,在匈牙利是E-ON、等)之间结算余额,这种结算方式在匈牙利是由法律规定的,但是在其他国家中,计费条款可能由相应的合同规定。在脱网供电系统30的情况中,特别有利的方式是提供采用可再生能源的附加发电技术,例如通过在屋盖16上安装风力发电机35,该风力发电机35也连接至逆变器32。在联网供电系统30的情况中,这也是一种选项。
优选以由逆变器32产生的交流电压经由电气开关板36(以及电缆、连接插座等)向电器37供电。
供电系统30优选还包括蓄电池充电电子装置38和蓄电池39,从而可将产生的电能储存起来一段时间,以备天气或时段不允许发电时使用。蓄电池39还可在应急时使用。相应地,应急照明、供暖和通风、以及安防设备40优选连接至蓄电池39,以确保即使在太阳能电池31(以及可选的风力发电机35)不发电和公共电网33不可用时也能向这些设备40供电。
在图3至图5中示出了饮用水供水系统50和废水处理系统80。
饮用水供水系统50包括用于从屋盖16收集雨水的容器51(例如檐沟)。雨水从容器51通过槽道52(在图3和图4中以虚线示出)流入布置在设备空间26中的沉淀池53的入口53a。沉淀池53优选具有溢流口53b和可密封的排水口53c、以及用于向系统50的其它部件转输雨水的出口53d。沉淀池53经由导管54连接至清水池55。根据此实施方式,清水池55由两个池体部分55a、55b组成。一个或多个泵56用于从沉淀池53向清水池55输水。沿导管54在沉淀池53的出口53d的下游布置有粗滤装置57,该粗滤装置57滤除从沉淀池53流出的水中的粗碎屑(例如树枝、树叶、鸟毛等),这种碎屑会损害布置在更下游的装置。例如,一种适当的粗滤装置57是以“Big Blue”作为商标销售的装置,该装置具有带可拆卸滤网的过滤室。除菌过滤装置58(例如用于除菌过滤的Homespring牌小型水处理装置,或者基于反渗透过滤技术的其它装置)连接至导管54(优选在泵56的下游),用于从雨水产生无菌水,该装置58优选布置在居住空间28中,以便维护。在除菌过滤装置58的上游还可布置预过滤装置59(例如Honeywell牌预滤器),用于在水进入除菌过滤装置58之前对其进行进一步粗滤,但是,该预过滤装置59优选与系统50的其它部件一起布置在设备空间26中。当然,在单个装置中可集成一个或多个不同的过滤器;而且,可根据具体情况省略过滤器。
优选通过泵56和部分地通过导管54形成第二条输水回路60,以便用泵56通过除菌过滤装置58(优选还通过预过滤装置59)连续地或不时地循环储存在清水池55(或其池体部分55a、55b)中的水。第二条输水回路60例如通过四通阀61连接至导管54。
两个池体部分55a和55b优选例如通过一根或多根可密封和可打开的导管63经由阀门62互连,从而可使两个池体部分55a、55b保持相同的水位,并且同时可彼此独立隔断每个池体部分55a、55b以进行维护,并可通过排放口53c排水。采用两个或更多池体部分55a、55b的另一个优点是,可在金属支撑结构12的构件之间以更节省空间的方式布置整个清水池55。
池体部分55a、55b优选具有通气口65,该通气口65配有除菌过滤器64,从而仅将无菌空气引入无菌水上方的空间中。池体部分55a、55b优选还配有卸荷阀66。
在沉淀池53和清水池55(或其池体部分55a、55b)中优选布置液位指示器67,用于指示其中的水位。
清水池55通过管路69连接至活动住宅10的用水口68,在该管路69中布置有第二个水泵70,用于确保适当的水流量和压力。优选沿管路69在泵70的下游布置活性碳过滤器71,以中和饮用水的任何气味。电热水器和容器72也连接至管路69,这确保住宅10的热水供应。
饮用水供水系统50还可包括本领域技术人员所熟知的更多元件(例如阀门、电磁阀、截止阀、配水管等),这些元件在此不进一步详述。
废水处理系统80包括布置在设备空间26中的黑水罐81和灰水罐82。黑水罐81连接至卫生间83的排水口,并且,根据实际情况,还可连接至布置在居住空间28中的浴盆83'。卫生间83和浴盆83'配有内置泵,该内置泵使用最少的水量或药剂,用于使用来自于冲洗水箱84的化学溶液进行冲洗。黑水罐81优选与便携式马桶排放车(例如Toi-Toi牌便携式马桶的排放车)相容,从而能够简单地使用已知技术确保黑水的处置。相应地,所述的黑水罐81的实施方式包括黑水排放口81a、湿式粉碎管路81b和进气口81c,在罐81处于空罐状态时,该进气口81c打开。黑水罐81的通风通过末端位于屋盖16层上方并且包括活性碳过滤器85的排气管81d保证。黑水罐81优选也配有液位指示器86。当然,也可考虑其它类型的黑水罐81,例如与常规的粪水车相容的黑水罐。
灰水罐82与其它用水设备的排水口87连接。灰水罐82优选配有通气装置88,该通气装置向灰水中通气,以帮助分解其中的有机残余物。净化后的灰水例如适合于浇灌并满足不需要饮用水级水质的其它用水需求,因此,灰水罐82优选与户外防冻用水口89连接(参见图5)。灰水罐82可布置在设备空间26中(参见图4),也可布置在设备空间26之外(参见图3)。
图6和图7中所示的通风和供暖系统包括通入居住空间28的分岔散流进气管路91(以带箭头的实线绘出)和从居住空间28引出的分岔排气管路92(以带箭头的虚线绘出)。通入住宅10中的进气管路91的进气部分91a和从住宅10引出的排气管路92的排气部分92a汇集到构成系统90的一部分的热交换器93(例如WOLF CWK-400热交换器)中,以回收废热。在热交换器93内,经由排气管路92进入的室温空气向通过进气管路91的入口部分91a从户外吸入的新鲜空气传递废热,从而该新鲜空气被加热。在较热天气期间,热交换器93以相反的方式工作:通过排气管92的排气部分92a排出的较冷空气冷却从室外吸入的较热空气。
新鲜空气优选在住宅10的立面处吸入,即,进气管路91的入口部分91a连接至布置在住宅的立面之一上的进气口91b。进气口91b优选具有防雨百叶窗、防鸟网和防虫网(未示出)。废气优选通过屋盖16排出,即,排气管路92的排气部分92a连接至布置在屋盖16中的排气口92b,该排气口92b优选具有排风机、防雨百叶窗、防鸟网和防虫网。
从热交换器穿出的进气管路91优选在布置在设备空间26中的分气装置94中分为分路91c。根据图7中所示的实施方式,分路91c通向内至在居住空间28的地板28a中的空调缓冲空间95,该缓冲空间95通过地板格栅96通入居住空间28。应理解,也可考虑用于引入被加热或冷却的新鲜空气的其它布置形式。
端接在热交换器93中的排气管路92优选连接至布置在假顶棚29上方的第二分气装置94',并在该处分为分路92c。根据此实施方式,在图6中能够看出,分路92c在上层设备空间26b中的假顶棚29的上方延伸,废气通过形成在假顶棚29中的通气口97a从居住空间28中抽出。在有供水的房间和客厅-厨房的假顶棚29中优选固定有气阀97b,通过气阀97b进行吸气。排气管路92也可具有不同的布置形式。
如图7中所示的通风和供暖系统90优选包括空气过滤器98、循环风扇99、电加热器100等更多元件。壁炉101可具有独立的通风,该通风装置优选是连接至供电系统30的蓄电池39的应急设备40之一,因此,即使在不能发电和外接公共电网33故障时,也能保证住宅10的通风和供暖。这对于被动式住宅尤其重要,在这种住宅中,不漏气的门窗有助于供暖。住宅10可配有也利用可再生能源的有源供热设备,例如居住空间28中的电加热器100或壁炉101。
居住空间28的平面布置图仅是示例性的,本领域技术人员可根据需要对其进行修改。民用住宅也仅是本发明的活动住宅10的可能用途的一个例子。
活动住宅10的一个优点是,在安装后可以拆除,并运输和重新安装到新的地点,因此整座住宅10都是可“移动”的,而不仅是布置在其中的陈设用具。住宅10的另一个优点是,在拆除和运走之后,它实际上不会留下任何生态印记,因为它仅通过地脚螺钉22与环境接触。住宅10的再一个优点是,由于供电、饮用水供水、废水处理和供暖都依靠可再生能源,因此是自给自足的,这意味着不需要公用服务设施,因此可安装在任何地点。
对于本领域技术人员来说显而易见的是,在不脱离由所附权利要求限定的保护范围的前提下,能够对上文所公开的实施方式做出各种修改。
Claims (10)
1.利用可再生能源的活动住宅,其特征在于包括:
-壳体结构(20),包括可安装并可拆卸的支撑结构(12)、以及使用可拆连接件安装在该壳体结构(20)上的面板(14)和屋盖(16),
-将壳体结构(20)固定到地面上的地脚螺钉(22),和
-利用可再生能源并由所述壳体结构(20)承载的供电系统(30)、饮用水供水系统(50)、废水处理系统(80)、以及通风和供暖系统(90)。
2.如权利要求1所述的活动住宅,其特征在于,所述壳体结构(20)包括设备空间(26)以及位于该设备空间(26)上方的居住空间(28)或者适合于长时间停留的其它空间,并且供电系统(30)、饮用水供水系统(50)、废水处理系统(80)、以及通风和供暖系统(90)至少部分地安装在设备空间(26)中。
3.如权利要求1或2所述的活动住宅,其特征在于,所述供电系统(30)包括安装在屋盖(16)上的太阳能电池(31)和与该太阳能电池(31)连接的逆变器(32),优选还包括连接至公共电网(33)的可逆电量表(34),并且优选还包括蓄电池充电电气装置(38)和蓄电池(39)。
4.如权利要求3所述的活动住宅,其特征在于,承载太阳能电池(31)的屋盖部分(16a)是朝南的,并且探出到住宅(10)的朝南的立面墙板(14)之外,从而当活动住宅(10)安装地点的相对于竖直方向的阳光入射角为一年中最小时,该立面墙板(14)不受阳光直晒;并且,当活动住宅(10)安装地点的相对于竖直方向的阳光入射角为一年中最大时,阳光会直接照射该立面墙板(14),优选阳光至少直接照射该立面墙板(14)的一半高度,更优选至少直接照射该立面墙板(14)的三分之二高度。
5.如权利要求3所述的活动住宅,其特征在于,承载太阳能电池(31)的屋盖部分(16a)是朝南的,并且具有与全年的最佳运转角度对应的倾角(α)。
6.如权利要求1至5中任一项所述的活动住宅,其特征在于,所述饮用水供水系统(50)包括用于从屋盖(16)收集雨水的容器(51)、布置在设备空间(26)中的沉淀池(53)、以及将容器(51)与沉淀池(53)连接的槽道(52),还包括连接至沉淀池(53)的出口(53d)的用于滤除粗杂质的粗滤装置(57)、以及布置在粗滤装置(57)的下游的除菌过滤装置(58)。
7.如权利要求6所述的活动住宅,其特征在于,所述饮用水供水系统(50)包括在设备空间(26)中布置在除菌过滤装置(58)的下游的清水池(55),并且优选包括沿连接清水池(55)与活动住宅(10)的用水口(68)的管路(69)布置的活性碳过滤器(71)。
8.如权利要求7所述的活动住宅,其特征在于,所述清水池(55)包括至少两个池体部分(55a、55b),这些池体部分经由可密封和可打开的导管(63)彼此互连。
9.如权利要求1至8中任一项所述的活动住宅,其特征在于,所述废水处理系统(80)包括布置在设备空间(26)中的黑水罐(81)和灰水罐(82),该黑水罐(81)连接至卫生间(83)的排水口,还可选地连接至布置在居住空间(28)中的浴盆(83')的排水口,该灰水罐(82)连接至布置在居住空间(28)中的其它用水设备的排水口(87),并且该灰水罐(82)优选还连接至通气装置(88),优选还连接至户外用水口(89)。
10.如权利要求1至9中任一项所述的活动住宅,其特征在于,所述通风和供暖系统(90)包括通向居住空间(28)中的进气管路(91)和从居住空间(28)通向热交换器(93)的排气管路(92);并且,通入住宅(10)中的进气管路(91)的进气部分(91a)和从住宅(10)引出的排气管路(92)的排气部分(92a)横穿热交换器(93);通入住宅(10)中的进气管路(91)的进气部分(91a)优选连接至布置在住宅(10)的立面之一上的进气口(91b);从住宅(10)引出的排气管路(92)的排气部分(92a)优选连接至布置在屋盖(16)上的排气口(92b)。
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AU2015242365A2 (en) | 2019-09-26 |
AU2015242365A1 (en) | 2016-10-20 |
WO2015150843A2 (en) | 2015-10-08 |
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EP3126584B1 (en) | 2018-09-12 |
US20170025988A1 (en) | 2017-01-26 |
AU2015101968A4 (en) | 2019-10-24 |
EP3126584A2 (en) | 2017-02-08 |
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