CN101539334A - 风光制热储存装置 - Google Patents
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Abstract
本发明风光制热储存装置,创新设计发热器、聚光罩、储热堆三个关键部件,其结构独特新颖技巧,可充分利用风力和阳光共同制取热量并集中于储热堆,能全天候提供暖气和热水。其性能优越,风光互补制热不停,储热温高能量充足。既解决黑夜无光与阴雨连绵之困,亦克服风停静止或风速微弱之难。本发明优选空气为传热介质,可远距离输送热量,管网无故障易管理,运行成本低。该装置能与建筑物设计一体化,亦可独立建造特大型装置于挡风透光的地方,集中统一给城区、工厂或农村供热,能取代燃煤供热采暖。其零耗能、零耗水、零排污,节约资源,环境友好,生态文明。本发明是低成本高效率利用可再生能源的新技术,十分适用于绿色节能建筑。
Description
技术领域
本发明风光制热储存装置,创新利用风力和阳光既结合又互补,共同制取热能,集中储存统一使用,属于低成本高效率利用可再生能源的新技术,特别适用于建筑节能与绿色建筑领域。
背景技术
目前国产太阳能热水器仍然采用电热辅助,太阳能供暖尚处于试验示范阶段,而风能供暖及热水还未见出现,对于风光互补共同制热提供暖气和热水的技术更是空白。本发明则为填补该空白而创新设计的独特装置。
发明内容
本发明风光制热储存装置解决该向题的技术方案是:利用垂直风力机带动发热器直接加热储热堆,而阳光通过聚光罩折射聚集于储热堆并转化为热量而储存。储热堆内置换热管,出入口装有单向阀,并用通气管连接室内及水箱的散热器。空气作为传热介质加热增压后则按规定方向循环流动,并持续进行热交换,以保障全天候提供暖气和热水。
本发明的技术特征包括风力机、发热器、储热堆、换热管、聚光罩和隔热板。主要特征是储热堆,其次是发热器和聚光罩。储热堆是核心并作为热量载体,优选吸光强、传热快、耐高温的特种矿物质制造,其形状呈圆柱体加半球体,宜以高度和直径相等为最佳造型。内置换热管,正中央为发热器,由轴捧和套筒构成,选用耐磨损、耐氧化、耐高温的金属制造,轴捧随风力机转动与套筒磨擦发热,所制热量由风力机决定,其间需设置一离合器。风力机的叶片为透明的有机材料,以免阻挡阳光。聚光罩为双层夹空玻璃结构,夹层空气厚度要适当,以求隔热保温效果良好, 其形状与储热堆相似,且同一中轴线,同一水平底面亦即隔热板。该板必须是保温隔热阻燃的复合板。换热管要选用环形压力管,外段设置一安全阀,单向阀设定相应压力指数,以确保安全运行。风力机、聚光罩、储热堆的配置,可根据风能、太阳能资源实际状况以及用户需热量而设计确定。本发明风光制热储存装置设计有小中大和特大四种型号与规格,小中大三种可与建筑物顶层设计一体化,安装在天面楼板上,以满足该楼住户的用热需要。而特大型装置则可独立建造于当风透光的地方,集中统一给城区、工厂或农村供热。因为空气加热膨胀变为压缩气体可以远距离输送。此举将能取代燃煤供热采暖,有利于新旧建筑节能改造,可节省大量投资和减少运行成本。
本发明风光制热储存装置的有益效果明显突出,是低成本高效率利用可再生能源的新技术。
1.风光互补共同制热集中储存,既可解决黑夜无光及阴雨连绵之困,亦可克服风停静止与风速微弱之难。
2.空气为传热介质加热增压后可以远距离输送,原有管网及散热器亦可利用,不动用水资源,无结冰塞管裂管故障。
3.能与建筑物设计一体化,满足该楼房住户用热需要,亦可独立建造特大型装置,集中统一供热,取代燃煤供热采暖。
4.零耗能、零耗水、零排污,节约资源,环境友好,生态文明。
附图说明
如图1为本发明风光制热储存装置的示意图
1、风力机 2、发热器 3、储热堆 4、换热管 5、聚光罩 6、隔热板
具体实施方式
如图1所示为本发明风光制热储存装置的具体实施方式,包括风力机1、发热器2、储热堆3、换热管4、聚光罩5、隔热板6。整体装置力求与顶层楼面设计一体化,应根据用户需求及现场实际设计适应型号与规格的装置。由于储热堆3比较笨重难于搬动,小型号的可以预制成件,其他大中型号的宜现场制作,同时把相应配套的发热器2和换热管4凝结固定在其中规定的位置。聚光罩5则需先为其制作相似形状的金属框架,用以支撑连结及固定双层夹空玻璃块,能防台风袭击并能久经雨打日晒。隔热板6与楼面板粘结牢固为一体化并与聚光罩5构成一密封整体。风力机1与发热器2之间设置一离合器,轴杆用支架固定,叶片要透明不阻挡阳光。换热管4与安全阀、单向阀及通气管与散热器的安装连接要认真检查,绝不能漏气,通气管室外段需用保温材料包扎好,室内段设一温控开关,确保气温适宜人居安全。
Claims (1)
1.本发明风光制热储存装置的技术特征,包括风力机1、发热器2、储热堆3、换热管4、聚光罩5、隔热板6;主要特征是储热堆3,其次是发热器2和聚光罩5;储热堆3是核心并作为热量载体,形状呈圆柱体加半球体,宜以高度等同直径为最佳造型,选用吸光强、传热快、耐高温的矿物质制造,内置换热管4,正中央为发热器2,由金属轴棒和套筒构成,轴棒随垂直风力机1转动与套筒磨擦发热,所制热量由风力机1决定,其间需设置一离合器,叶片为透明的有机材料以免阻挡阳光;聚光罩5为双层夹空玻璃结构,夹层空气厚度要适当,以求隔热保温效果良好,形状与储热堆3相似,同一中轴线,同一水平底面,亦即隔热板6;该板须是保温隔热阻燃的复合板,与楼面粘结牢固为一体化并与聚光罩5结合为一密封整体;换热管4为环形压力管,外段设一安全阀,出入口分别装有单向阀,用以规定气流方向及确保运行安全;风力机1、聚光罩5、储热堆3的配置,可根据风能与太阳能资源实际状况以及用户所需供热量而设计确定;本发明装置设计有小中大和特大四种型号与规格,小中大三种可与建筑物设计一体化,特大型的则可独立建造于当风透光的地方,集中统一给城区、工厂和农村供热。
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Cited By (6)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103967716A (zh) * | 2014-05-27 | 2014-08-06 | 成都博昱新能源有限公司 | 一种风力发电与光热发电综合应用的方法 |
CN109796057A (zh) * | 2017-11-17 | 2019-05-24 | 广州光环能源科技有限公司 | 一种利用风力和阳光进行海水淡化的装置 |
CN109798674A (zh) * | 2017-11-17 | 2019-05-24 | 广州光环能源科技有限公司 | 风光开水塔 |
CN111820059A (zh) * | 2020-07-22 | 2020-10-27 | 罗王飞 | 一种农业种植用防冻害风热预埋件 |
CN111887712A (zh) * | 2020-07-03 | 2020-11-06 | 绍兴市吉柏尼机电有限公司 | 排气组件、装设有该排气组件的锅盖及压力烹饪器具 |
CN112617590A (zh) * | 2020-12-30 | 2021-04-09 | 重庆呈渝酒店设备有限公司 | 一种新型节能蒸饭柜 |
-
2008
- 2008-03-18 CN CN2008100268236A patent/CN101539334B/zh not_active Expired - Fee Related
Cited By (8)
Publication number | Priority date | Publication date | Assignee | Title |
---|---|---|---|---|
CN103967716A (zh) * | 2014-05-27 | 2014-08-06 | 成都博昱新能源有限公司 | 一种风力发电与光热发电综合应用的方法 |
CN109796057A (zh) * | 2017-11-17 | 2019-05-24 | 广州光环能源科技有限公司 | 一种利用风力和阳光进行海水淡化的装置 |
CN109798674A (zh) * | 2017-11-17 | 2019-05-24 | 广州光环能源科技有限公司 | 风光开水塔 |
CN111887712A (zh) * | 2020-07-03 | 2020-11-06 | 绍兴市吉柏尼机电有限公司 | 排气组件、装设有该排气组件的锅盖及压力烹饪器具 |
CN111820059A (zh) * | 2020-07-22 | 2020-10-27 | 罗王飞 | 一种农业种植用防冻害风热预埋件 |
CN111820059B (zh) * | 2020-07-22 | 2021-12-07 | 安徽相源新能源有限公司 | 一种农业种植用防冻害风热预埋件 |
CN112617590A (zh) * | 2020-12-30 | 2021-04-09 | 重庆呈渝酒店设备有限公司 | 一种新型节能蒸饭柜 |
CN112617590B (zh) * | 2020-12-30 | 2022-04-15 | 重庆呈渝酒店设备有限公司 | 一种新型节能蒸饭柜 |
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