CN113073880A - 5g通信基站机房节能系统 - Google Patents

5g通信基站机房节能系统 Download PDF

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CN113073880A
CN113073880A CN202110321944.9A CN202110321944A CN113073880A CN 113073880 A CN113073880 A CN 113073880A CN 202110321944 A CN202110321944 A CN 202110321944A CN 113073880 A CN113073880 A CN 113073880A
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常建刚
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Abstract

本发明公开了5G通信基站机房节能系统,包括防水高台、抗震弹簧、通信基站机房、雨水防护收集装置、光电转化装置、风电转化装置、机房空调和节能控制装置。本发明属于5G通信基站技术领域,具体是5G通信基站机房节能系统,采用光电转化节能和风电转化节能相结合的方式,实现了对光能和风能的高效利用,实现了自然节能的技术效果,采用对雨水防护和收集相结合的方式,实现了对5G通信基站机房防护的同时对与雨水收集利用的技术效果,的有效解决了目前市场上5G通信基站机房节能系统效果差,且自身结构复杂,维护较为不便的问题。

Description

5G通信基站机房节能系统
技术领域
本发明属于5G通信基站技术领域,具体是指5G通信基站机房节能系统。
背景技术
5G通信现在我国逐级普及,其中5G通信基是5G网络的核心设备,提供无线覆盖,实现有线通信网络与无线终端之间的无线信号传输;基站的架构、形态直接影响5G网络如何部署;其中5G通信基站机房逐步遍布全国各地域,其中机房温度是体现机房正常运转的主要环节,但现有用于5G通信基站机房温度调节大多还是采用传统的空调结构,结构能耗较大,且现有基站机房没有设置雨水收集组件,机房外壁容易受到雨水侵蚀,且不能对雨水进行收集。
发明内容
针对上述情况,为克服现有技术的缺陷,本发明提供5G通信基站机房节能系统,采用光电转化节能和风电转化节能相结合的方式,实现了对光能和风能的高效利用,实现了自然节能的技术效果,采用对雨水防护和收集相结合的方式,实现了对5G通信基站机房防护的同时对与雨水收集利用的技术效果,的有效解决了目前市场上5G通信基站机房节能系统效果差,且自身结构复杂,维护较为不便的问题。
本发明采取的技术方案如下:本发明5G通信基站机房节能系统,包括防水高台、抗震弹簧、通信基站机房、雨水防护收集装置、光电转化装置、风电转化装置、机房空调和节能控制装置,所述抗震弹簧设于防水高台上,所述通信基站机房设于抗震弹簧上壁上,所述雨水防护收集装置设于通信基站机房和抗震弹簧上,所述光电转化装置设于雨水防护收集装置和通信基站机房上,所述风电转化装置设于雨水防护收集装置和通信基站机房上,所述机房空调设于通信基站机房上,所述节能控制装置设于通信基站机房内。
进一步地,所述雨水防护收集装置包括锥形导流体、导流槽、防护围挡、太阳能板、光电转化件、雨水导流管和雨水收集箱,所述锥形导流体设于通信基站机房上壁上,所述导流槽设于锥形导流体上,所述防护围挡设于通信基站机房与锥形导流体连接处,所述太阳能板设于锥形导流体外侧壁上且与导流槽间隔设置,所述光电转化件设于通信基站机房内,所述雨水导流管的一端与防护围挡贯通相连,所述雨水收集箱设于抗震弹簧上,所述雨水导流管的另一端与雨水收集箱贯通相连。
进一步地,所述风电转化装置包括支撑杆、风力发电叶和风电转化件,所述支撑杆设于锥形导流体顶端,所述风力发电叶转动设于支撑杆上端,所述风电转化件设于通信基站机房内。
进一步地,所述节能控制装置包括储电件、温度传感器和控制器,所述储电件、温度传感器和控制器分别设于通信基站机房内侧壁上,所述储电件、温度传感器、风电转化件和光电转化件分别与控制器电连接。
进一步地,所述通信基站机房外侧壁上设有维护门。
采用上述结构本发明取得的有益效果如下:本方案5G通信基站机房节能系统,采用光电转化节能和风电转化节能相结合的方式,实现了对光能和风能的高效利用,实现了自然节能的技术效果,采用对雨水防护和收集相结合的方式,实现了对5G通信基站机房防护的同时对与雨水收集利用的技术效果,的有效解决了目前市场上5G通信基站机房节能系统效果差,且自身结构复杂,维护较为不便的问题。
附图说明
图1为本发明5G通信基站机房节能系统的整体结构示意图;
图2为本发明5G通信基站机房节能系统的左视图;
图3为本发明5G通信基站机房节能系统的主视图;
图4为本发明5G通信基站机房节能系统的右视图;
图5为本发明5G通信基站机房节能系统的后视图;
图6为本发明5G通信基站机房节能系统的俯视图;
图7为本发明5G通信基站机房节能系统的仰视图;
图8为本发明5G通信基站机房节能系统的剖视图。
其中,1、防水高台,2、抗震弹簧,3、通信基站机房,4、雨水防护收集装置,5、光电转化装置,6、风电转化装置,7、机房空调,8、节能控制装置,9、锥形导流体,10、导流槽,11、防护围挡,12、太阳能板,13、光电转化件,14、雨水导流管,15、雨水收集箱,16、支撑杆,17、风力发电叶,18、风电转化件,19、储电件,20、温度传感器,21、控制器,22、维护门。
附图用来提供对本发明的进一步理解,并且构成说明书的一部分,与本发明的实施例一起用于解释本发明,并不构成对本发明的限制。
具体实施方式
下面将结合本发明实施例中的附图,对本发明实施例中的技术方案进行清楚、完整地描述,显然,所描述的实施例仅仅是本发明一部分实施例,而不是全部的实施例;基于本发明中的实施例,本领域普通技术人员在没有做出创造性劳动前提下所获得的所有其他实施例,都属于本发明保护的范围。
如图1-8所示,本发明5G通信基站机房3节能系统,包括防水高台1、抗震弹簧2、通信基站机房3、雨水防护收集装置4、光电转化装置5、风电转化装置6、机房空调7和节能控制装置8,所述抗震弹簧2设于防水高台1上,所述通信基站机房3设于抗震弹簧2上壁上,所述雨水防护收集装置4设于通信基站机房3和抗震弹簧2上,所述光电转化装置5设于雨水防护收集装置4和通信基站机房3上,所述风电转化装置6设于雨水防护收集装置4和通信基站机房3上,所述机房空调7设于通信基站机房3上,所述节能控制装置8设于通信基站机房3内。
所述雨水防护收集装置4包括锥形导流体9、导流槽10、防护围挡11、太阳能板12、光电转化件13、雨水导流管14和雨水收集箱15,所述锥形导流体9设于通信基站机房3上壁上,所述导流槽10设于锥形导流体9上,所述防护围挡11设于通信基站机房3与锥形导流体9连接处,所述太阳能板12设于锥形导流体9外侧壁上且与导流槽10间隔设置,所述光电转化件13设于通信基站机房3内,所述雨水导流管14的一端与防护围挡11贯通相连,所述雨水收集箱15设于抗震弹簧2上,所述雨水导流管14的另一端与雨水收集箱15贯通相连。
所述风电转化装置6包括支撑杆16、风力发电叶17和风电转化件18,所述支撑杆16设于锥形导流体9顶端,所述风力发电叶17转动设于支撑杆16上端,所述风电转化件18设于通信基站机房3内。
所述节能控制装置8包括储电件19、温度传感器20和控制器21,所述储电件19、温度传感器20和控制器21分别设于通信基站机房3内侧壁上,所述储电件19、温度传感器20、风电转化件18和光电转化件13分别与控制器21电连接。
所述通信基站机房3外侧壁上设有维护门22。
具体使用时,用户启动5G通信基站机房节能系统,温度传感器20对通信基站机房3内的温度进行实时感应,并将感应数据传输至控制器21,经控制器21处理后,发现通信基站机房3内的温度较高时,控制机房空调7工作,对机房进行降温,发现通信机房内的温度较低时,控制机房空调7工作,对机房进行升温操作,实现对机房空调7节能使用的技术效果,当遇雨水天气时,雨水沿着锥形导流体9和导流槽10流下,在防护围挡11的作用下对雨水进行围挡,防止雨水落下,进而雨水通过雨水导流管14流入雨水收集箱15中进行回收利用,太阳能板12吸收太阳能并通过光电转化件13将太阳能转化成电能储存在储电件19中,风力发电叶17转动并通过风电转化件18转化成电能储存在储电件19中,供机房使用,达到节能的目的,以上便是本发明整体的工作流程,下次使用时重复此步骤即可。
需要说明的是,在本文中,诸如第一和第二等之类的关系术语仅仅用来将一个实体或者操作与另一个实体或操作区分开来,而不一定要求或者暗示这些实体或操作之间存在任何这种实际的关系或者顺序。而且,术语“包括”、“包含”或者其任何其他变体意在涵盖非排他性的包含,从而使得包括一系列要素的过程、方法、物品或者设备不仅包括那些要素,而且还包括没有明确列出的其他要素,或者是还包括为这种过程、方法、物品或者设备所固有的要素。
尽管已经示出和描述了本发明的实施例,对于本领域的普通技术人员而言,可以理解在不脱离本发明的原理和精神的情况下可以对这些实施例进行多种变化、修改、替换和变型,本发明的范围由所附权利要求及其等同物限定。
以上对本发明及其实施方式进行了描述,这种描述没有限制性,附图中所示的也只是本发明的实施方式之一,实际的结构并不局限于此。总而言之如果本领域的普通技术人员受其启示,在不脱离本发明创造宗旨的情况下,不经创造性的设计出与该技术方案相似的结构方式及实施例,均应属于本发明的保护范围。

Claims (5)

1.5G通信基站机房节能系统,其特征在于:包括防水高台、抗震弹簧、通信基站机房、雨水防护收集装置、光电转化装置、风电转化装置、机房空调和节能控制装置,所述抗震弹簧设于防水高台上,所述通信基站机房设于抗震弹簧上壁上,所述雨水防护收集装置设于通信基站机房和抗震弹簧上,所述光电转化装置设于雨水防护收集装置和通信基站机房上,所述风电转化装置设于雨水防护收集装置和通信基站机房上,所述机房空调设于通信基站机房上,所述节能控制装置设于通信基站机房内。
2.根据权利要求1所述的5G通信基站机房节能系统,其特征在于:所述雨水防护收集装置包括锥形导流体、导流槽、防护围挡、太阳能板、光电转化件、雨水导流管和雨水收集箱,所述锥形导流体设于通信基站机房上壁上,所述导流槽设于锥形导流体上,所述防护围挡设于通信基站机房与锥形导流体连接处,所述太阳能板设于锥形导流体外侧壁上且与导流槽间隔设置,所述光电转化件设于通信基站机房内,所述雨水导流管的一端与防护围挡贯通相连,所述雨水收集箱设于抗震弹簧上,所述雨水导流管的另一端与雨水收集箱贯通相连。
3.根据权利要求2所述的5G通信基站机房节能系统,其特征在于:所述风电转化装置包括支撑杆、风力发电叶和风电转化件,所述支撑杆设于锥形导流体顶端,所述风力发电叶转动设于支撑杆上端,所述风电转化件设于通信基站机房内。
4.根据权利要求3所述的5G通信基站机房节能系统,其特征在于:所述节能控制装置包括储电件、温度传感器和控制器,所述储电件、温度传感器和控制器分别设于通信基站机房内侧壁上,所述储电件、温度传感器、风电转化件和光电转化件分别与控制器电连接。
5.根据权利要求4所述的5G通信基站机房节能系统,其特征在于:所述通信基站机房外侧壁上设有维护门。
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