CN102400568B - 生态环保能源综合建筑大楼 - Google Patents
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Abstract
本发明涉及一种生态环保能源综合建筑大楼。包括楼体、门窗、楼顶、护栏,其楼顶上浇筑有混凝土增强层;将肥土转移楼顶,湿润的土壤通过阳光和气流很快而干,增加土质的肥元素,并杀伤土壤中的细虫和寄生虫,使地面有害之虫豺,如老鼠、蚊子、苍蝇等不受侵扰;解决了因建设而导致农田减少,使抛荒田变为种植良田,减少水土、肥土流失;采用太阳能对农作物生长期有保护作用,不受台风、冰雹、暴雨破坏和气候环境影响,一年四季可以种植农作物,保持城区气候的调和作用,种植面积起到了保护自然环境的作用,改善居住环境;采用风雨水力新能源发电,供应大楼所需的用电,大大降低风力发电独立开发成本;克服了天然气、液化气、电力供应紧张和沼气、太阳能、地热能利用不足的局面,实现绿色环保,低碳生活。
Description
技术领域
本发明属于建筑物领域,涉及一种高科技生态环保能源综合建筑大楼。
背景技术
目前,我国经济发达的沿海地区,土地资源大部分被征用,农民的宅基地被集中划分,正在实施居住上楼计划,但是农村传统的建筑格局科技含量很低,不利于生态环保综合利用。
在我国南方农村因建设而导致农田日益减少,气候环境严重变化,由于传统的耕种方式落后,有许多农田抛荒达八年之久,人类已面临能源、耕地、旱涝、少水等严重资源不足的困境。
对于城镇楼宇,多存在着设计理念老旧,建筑物使用功能单一,同时也面临着天然气、液化气、电力供应紧张和沼气、太阳能、地热能利用不足的两难局面,不可再生能源日益减少,对地球创伤严重,为此,人类为了长久生存必须打造合理的生存环境,实现国家倡导的绿色环保,低碳生活。
发明内容
本发明的目的在于提供一种高科技生态环保能源综合建筑大楼,采用新技术,新能源综合设计,既能发电,又能在楼顶种植农田,增加人均居住面积,改善人与土地、人与自然环境。
本发明采用的技术方案:一种生态环保能源综合建筑大楼,包括楼体、门窗、楼顶、护栏,其楼顶上浇筑有混凝土增强层。
所述的混凝土增强层上设置有农田肥土层,农田肥土层上种植有农作物。
所述的混凝土增强层上安装有发电装置。
所述的护栏上安装有太阳能装置。
所述的楼体的内墙设置有保温装饰板。
所述的混凝土增强层上设置有空气层。
所述的楼体造型为圆型结构,在中部的圆型楼顶上浇筑有混凝土增强层,其上设置有护栏、停机坪,楼体外围设置有围墙。
所述的发电装置为风雨水能发电装置,其风叶轮的叶片端部设置有可拆装折叠的盛水抽屉,盛水抽屉上设置有齿牙,盛水抽屉下部设置有引水槽,引水槽的接水端与风叶轮的叶片在同一平面;支柱顶部设置有球型转轴,转轴上设置有与之配套的带球型槽的弹簧钢杠杆,杠杆一端通过球型定向活动关节联接回水桶,另一端通过球型定向活动关节联接储水桶,两水桶与风叶轮的叶片在同一平面,风叶轮的叶片为玻璃钢真空凹槽型,储水桶下面设置有回水槽,储水桶内底面设置有封水板,封水板底面联接出水顶杆,出水顶杆连通回水槽,回水槽内的水流入回水桶;发电机、风叶轮安装在立柱顶部,发电机联接传动装置,液压装置或电控装置,或联接电网接入口。
所述的太阳能装置为升降式转动太阳能装置,其太阳能板框架为方型空心不锈钢型材联接成带有纵、横梁的正方体或长方体的框架,其正面安装有玻璃材质的太阳能面板,背面设置有黑沙与合成树脂粘胶为一体的太阳能背板,太阳能背板上安装有活动顶板,活动顶板铰接升降转动装置,所述的升降转动装置选用油泵千斤顶,其电机联接千斤顶,千斤顶顶部通过钢板块铰接活动顶板;所述的升降转动装置选用液压升降装置,其电机联接液压泵,液压泵联接伸缩杆,伸缩杆通过钢板块铰接活动顶板。
所述的保温装饰板为环保温度控制装饰板,其面板设置在散温层的表面,面板表面设置有装饰网纹,背板设置在保温层的表面,背板表面设置有吸声纹路,背板上设置有倒齿固定钉;散温层、保温层通过隔梁联接在一起,构成带有进水气槽和出水气槽的封闭空腔,设置有密封件及温控器管,进水气槽连通进水气阀门通口接头,出水气槽连通出水气阀门管口接头,进水气阀门通口接头、出水气阀门通口接头分别连通供水、气管路。
本发明所具有的积极有益效果:
1.对建筑工程采用新技术,新能源综合设计,解决了因建设而导致农田减少,使抛荒田变为种植良田,减少水土、肥土流失,增加人均居住面积,改善居住环境,实现人与土地、人与自然的和谐共处。
2.使农作物生长期缩短,粮食产量大大提高。
3.将肥土转移楼顶,湿润的土壤通过阳光和气流很快而干,增加土质的肥元素,并杀伤土壤中的细虫和寄生虫,使地面有害之虫豺,如老鼠、蚊子、苍蝇等不受侵扰。
4.楼顶上设置有升降式转动太阳能装置,既能发电,又有对农作物生长期内的保护作用,不受台风、冰雹、暴雨破坏和气候环境影响,每幢大楼设有大型地下井水池,旱灾时保证农作物的用水,一年四季可以种植农作物,并保持城区气候的调和作用。
5.楼顶设计采用风雨水力新能源发电,大楼建造大型蓄电池,供应大楼所需的用电,大大降低风力发电独立开发成本。
6.楼顶上农作物所需的肥料全部来自于大楼卫生厕所产生的粪便废物陈酿,用密封管道输送施肥,沼气作为燃能使用,生产出的农作物属于绿色天然食品。
7.建筑采用船形轨道式基础构造设计,抗九级地震,减少地震带来的毁灭性损失;室内采用环保温度控制装饰板,起到散热、防火、装饰作用,向室内供热或供冷,提供冬暖夏凉的舒适环境。
8.楼顶农田种植,地面空间增大,地面还可以种植水稻、果树。
9.种植面积起到了保护自然环境的作用,从天空看大地,成为绿色海洋。
10.培训专业队伍种植楼顶农田,采用轻型电动智能机械播种、收割,自动喷灌、施肥,大大减少了肥料、虫药和劳动力成本,改变农业低收入的现状。
11.管理采用先进的监控系统,专业的物业设施,确保业主的人身财产安全,成为绿色环保安全园区,减少医保费用,使人健康长寿。
12.建筑大楼具多种使用功能,克服了天然气、液化气、电力供应紧张和沼气、太阳能、地热能利用不足的局面,减少不可再生能源的开发,保护地球的创伤,为人类打造合理的长久生存环境,实现绿色环保,低碳生活,实现21-22世纪城乡发展新能源、新思路、环保园区的建设。
附图说明
图1为本发明实施例1结构示意图的主视图;
图2为图1的局部剖视图;
图3为本发明实施例2结构示意图的主视图;
图4为图3的轴测图;
图5为本发明的风雨水能发电装置结构示意图;
图6为图5中风叶轮结构放大示意图;
图7为图5中风叶轮结构的左视图;
图8为图5中风叶轮结构的主视图;
图9为本发明的升降式转动太阳能板结构示意图的主视图;
图10为图9的后视图;
图11为图9的升降式转动状态示意图;
图12为图10的升降式转动状态示意图;
图13为本发明的升降式转动太阳能板液压升降装置结构示意图;
图14为本发明的环保温度控制装饰板结构示意图主视图;
图15为图14的后视图;
图16为图14的剖视图;
图17为图15的剖视图。
具体实施方式
实施例1
参照图1、图2所示,一种生态环保能源综合建筑大楼,主要包括楼体1、门窗2、楼顶3、护栏4、发电装置5、太阳能装置6、保温装饰板7、楼顶混凝土增强层8、农田肥土层9、农作物10、外墙11等;其楼体1、钢化玻璃真空门窗2、楼顶3、外墙11均为现有建筑物大楼结构,本发明在楼顶3上浇筑有带有空气层801的楼顶混凝土增强层8,其上设置有农田肥土层9、护栏4,农田肥土层9上种植有小麦、水稻等农作物10,护栏4上安装有太阳能装置6,楼顶混凝土增强层8上安装有发电装置5;楼体1的内墙设置有保温装饰板7。
实施例2
参照图3、图4所示,所述的建筑大楼的楼体1造型可以是圆型结构,楼体1外围设置有围墙13,在建筑大楼中部的圆型楼顶3上浇筑有带有空气层801的混凝土增强层8,其上设置有护栏4、停机坪12;其余结构同实施例1。
参照图5、图6、图7、图8及图2所示,所述的发电装置5可选用现有技术的水力发电装置或风力发电装置,或采用本发明的风雨水能发电装置。所述的风雨水能发电装置5主要包括回水桶501、球型定向活动关节502、盛水抽屉503、杠杆504、转轴505、支柱506、回水槽507、发电机508、风叶轮509、引水槽510、立柱511、储水桶512、封水板513、出水顶杆514等;其立柱511选用玻璃钢纤维树脂材料制作,立柱511顶部安装有发电机508,发电机508的输入轴上安装有风叶轮509,风叶轮509上的叶片为玻璃钢真空材质,每一叶片为凹槽型,叶片的端部设置有盛水抽屉503,盛水抽屉503为聚氯乙烯材质,内壁带有齿牙,齿牙有利于盛水抽屉503装嵌到叶片上的牢固性,盛水抽屉503可以拆装及折叠,盛水抽屉503下部设置有聚氯乙烯材质的凹型引水槽510,引水槽510的接水端与风叶轮509的叶片在同一平面。
其弹簧钢支柱506顶部安装有球型转轴505,转轴505上安装有与之配套的带球型槽的弹簧钢杠杆504,杠杆504的一端通过球型定向活动关节502固联不锈钢双层回水桶501,另一端通过球型定向活动关节502固联不锈钢双层储水桶512,而且两只水桶与风叶轮509的叶片在同一平面,使回水桶501、储水桶512只能沿着杠杆504的上下运动作上下垂直定向活动而不能随意转动,才能保证回水桶501上升时其内的雨水倾倒在盛水抽屉503及凹槽型的真空叶片内;储水桶512下面设置有回水槽507,储水桶512内底面设置有封水板513,封水板513底面联接空心出水顶杆514,空心出水顶杆514可选用钢管制作,空心出水顶杆514连通回水槽507,回水槽507内的水可流入回水桶501。
所述的发电机508、球型定向活动关节502、球型转轴505均为现有技术,可外购成品。所述的风叶轮509规格系列化,可与各种类型的发电机508配套,发电机508可配套联接传动装置,液压装置,电控装置,以及与电网相连的接入口等,可将发电机508产生的电能、数据通过电缆、光缆传输到控制室及变电站设备,再送入电网,通过互联网可在室内遥控操作
参照图9、图10及图2、图3所示,所述的太阳能装置6可选用现有技术的太阳能装置,或采用本发明的液压升降式转动太阳能装置。所述的升降式转动太阳能装置6,主要包括太阳能板框架601、升降转动装置602、太阳能面板603、太阳能背板604、活动顶板605等零部件;其太阳能板框架601选用方型空心不锈钢型材焊接成带有纵、横梁的正方体或长方体的框架,太阳能板框架601的正面安装有玻璃材质的太阳能面板603,太阳能板框架601的背面设置有黑沙与合成树脂粘胶为一体的太阳能背板604,太阳能背板604中部安装有不锈钢材质的活动顶板605,活动顶板605的两侧边位于相邻的两纵梁内,活动顶板605铰接升降转动装置602。
参照图11、图12所示,所述的升降转动装置602可选用现有技术油泵千斤顶或液压升降装置,可外购。
所述的油泵千斤顶包括电机6021、千斤顶6022、钢板块6023等;其电机6021联接油泵千斤顶6022,千斤顶6022顶部通过钢板块6023铰接活动顶板605,活动顶板605沿着太阳能板框架601中部的框架轨道上下滑动,并带动太阳能板升降及翻动一定角度。
参照图13所示,所述的液压升降装置包括电机6021、钢板块6023、伸缩杆6024、液压泵6025等;其电机6021联接液压泵6025,液压泵6025联接伸缩杆6024,伸缩杆6024铰接钢板块6023,钢板块6023铰接活动顶板605,活动顶板605带动太阳能板框架601升降及翻动一定角度。
参照图14、图15、图16、图17所示,所述的保温装饰板7可选用现有技术的保温装饰板,或采用本发明的室内环保温度控制装饰板,所述的环保温度控制装饰板7主要包括面板701、背板702、倒齿固定钉703、散温层704、进水气槽705、隔梁706、保温层707、出水气槽708、进水气阀门通口接头709、出水气阀门通口接头710、温控器管711及密封件等;其面板701材质为铜铁铝分层一体合金,设置在散温层704的表面,散温层704材质为铜铝合金,面板701的表面设置有装饰网纹,起到散热、防火、装饰作用,背板702材质由铁树脂纤维分体合成,设置在保温层707的表面,背板702的表面设置有吸声纹路,起到保温、吸声作用,在背板702上设置有倒齿固定钉703,用于安装时与固定在建筑物内墙上的水泥浆插接。
所述的散温层704、保温层707通过铜铝合金材质的隔梁706联接在一起,构成带有进水气槽705和出水气槽708的封闭空腔,并设置有密封件及温控器管711,空腔内设置有化学原料液体或太阳能温水,配合地下井水及温控器调温,温控器管711为现有技术,可外购,进水气槽705连通进水气阀门通口接头709,出水气槽708连通出水气阀门通口接头710,所述的进水气阀门通口接头709、出水气阀门通口接头710分别连通建筑物的供水、气管路,适用于水冷暖或气冷暖。所述的保温层707材质为树脂纤维,采用模压热合而成。
Claims (4)
1.一种生态环保能源综合建筑大楼,包括楼体、门窗、楼顶、护栏,其特征在于楼顶(3)上浇筑有混凝土增强层(8);所述的混凝土增强层(8)上设置有农田肥土层(9),农田肥土层(9)上种植有农作物(10);所述的混凝土增强层(8)上安装有发电装置(5);所述的护栏(4)上安装有太阳能装置(6);所述的楼体(1)的内墙设置有保温装饰板(7);所述的混凝土增强层(8)上设置有空气层(801);所述的保温装饰板(7)为环保温度控制装饰板,其面板(701)设置在散温层(704)的表面,面板(701)表面设置有装饰网纹,背板(702)设置在保温层(707)的表面,背板(702)表面设置有吸声纹路,背板(702)上设置有倒齿固定钉(703);散温层(704)、保温层(707)通过隔梁(706)联接在一起,构成带有进水气槽(705)和出水气槽(708)的封闭空腔,设置有密封件及温控器管(711),进水气槽(705)连通进水气阀门通口接头(709),出水气槽(708)连通出水气阀门管口接头(710),进水气阀门通口接头(709)、出水气阀门通口接头(710)分别连通供水、气管路。
2.根据权利要求1所述的生态环保能源综合建筑大楼,其特征在于所述的楼体(1)造型为圆型结构,在中部的圆型楼顶(3)上浇筑有混凝土增强层(8),其上设置有护栏(4)、停机坪(12),楼体(1)外围设置有围墙(13)。
3.根据权利要求1所述的生态环保能源综合建筑大楼,其特征在于所述的发电装置(5)为风雨水能发电装置,其风叶轮(509)的叶片端部设置有可拆装折叠的盛水抽屉(503),盛水抽屉(503)上设置有齿牙,盛水抽屉(503)下部设置有引水槽(510),引水槽(510)的接水端与风叶轮(509)的叶片在同一平面;支柱(506)顶部设置有球型转轴(505),转轴(505)上设置有与之配套的带球型槽的弹簧钢杠杆(504),弹簧钢杠杆(504)一端通过球型定向活动关节(502)联接回水桶(501),另一端通过球型定向活动关节(502)联接储水桶(512),两水桶与风叶轮(509)的叶片在同一平面,风叶轮(509)的叶片为玻璃钢真空凹槽型,储水桶(512)下面设置有回水槽(507),储水桶(512)内底面设置有封水板(513),封水板(513)底面联接出水顶杆(514),出水顶杆(514)连通回水槽(507),回水槽(507)内的水流入回水桶(501);发电机(508)、风叶轮(509)安装在立柱(511)顶部,发电机(508)联接传动装置,或者液压装置,或者电控装置,或者联接电网接入口。
4.根据权利要求1所述的生态环保能源综合建筑大楼,其特征在于所述的太阳能装置(6)为升降式转动太阳能装置,其太阳能板框架(601)为方型空心不锈钢型材联接成带有纵、横梁的正方体或长方体的框架,其正面安装有玻璃材质的太阳能面板(603),背面设置有黑沙与合成树脂粘胶为一体的太阳能背板(604),太阳能背板(604)上安装有活动顶板(605),活动顶板(605)铰接升降转动装置(602),所述的升降转动装置(602)选用油泵千斤顶,其电机(6021)联接千斤顶(6022),千斤顶(6022)顶部通过钢板块(6023)铰接活动顶板(605);所述的升降转动装置(602)选用液压升降装置,其电机(6021)联接液压泵(6025),液压泵(6025)联接伸缩杆(6024),伸缩杆(6024)通过钢板块(6023)铰接活动顶板(605)。
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AU2011372144B2 (en) * | 2011-06-27 | 2015-11-26 | Ko Muroi | Architectural structure |
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WO2012031376A1 (zh) | 2012-03-15 |
US20120216468A1 (en) | 2012-08-30 |
US8615940B2 (en) | 2013-12-31 |
CN102400568A (zh) | 2012-04-04 |
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