CN106594636A - 一种基于新能源发电技术的照明路灯 - Google Patents
一种基于新能源发电技术的照明路灯 Download PDFInfo
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F05—INDEXING SCHEMES RELATING TO ENGINES OR PUMPS IN VARIOUS SUBCLASSES OF CLASSES F01-F04
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- F05B2240/913—Mounting on supporting structures or systems on a stationary structure on a mast
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- F—MECHANICAL ENGINEERING; LIGHTING; HEATING; WEAPONS; BLASTING
- F21—LIGHTING
- F21W—INDEXING SCHEME ASSOCIATED WITH SUBCLASSES F21K, F21L, F21S and F21V, RELATING TO USES OR APPLICATIONS OF LIGHTING DEVICES OR SYSTEMS
- F21W2131/00—Use or application of lighting devices or systems not provided for in codes F21W2102/00-F21W2121/00
- F21W2131/10—Outdoor lighting
- F21W2131/103—Outdoor lighting of streets or roads
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- Y—GENERAL TAGGING OF NEW TECHNOLOGICAL DEVELOPMENTS; GENERAL TAGGING OF CROSS-SECTIONAL TECHNOLOGIES SPANNING OVER SEVERAL SECTIONS OF THE IPC; TECHNICAL SUBJECTS COVERED BY FORMER USPC CROSS-REFERENCE ART COLLECTIONS [XRACs] AND DIGESTS
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- Y02B20/00—Energy efficient lighting technologies, e.g. halogen lamps or gas discharge lamps
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Abstract
本发明公开了一种基于新能源发电技术的照明路灯,包括底座、踏梯、路灯杆、支撑杆、脚踏板、风车、风力发电装置、太阳能电池板、储电仓、灯罩、LED灯和监控摄像头,所述的底座的中间位置与路灯杆焊接,路灯杆上焊接踏梯,路灯杆上设有脚踏板,脚踏板下表面通过支撑杆与路灯杆连接,路灯杆上部设有连接件,连接件一端设有灯罩,灯罩内设有LED灯,灯罩下部设有护罩,路灯杆上设有监控摄像头,路灯杆顶端设有太阳能电池板,路灯杆一侧设有风车,路灯杆内安装储电仓。本发明方便工人进行维修,灯罩聚拢光线,使光线更加明亮,减少环境污染,节约资源,结构简单,使用方便,具有很高的市场价值,利于推广。
Description
技术领域
本发明涉及一种新能源技术,具体是一种基于新能源发电技术的照明路灯。
背景技术
20世纪90年代LED技术的长足进步,不仅是发光效率超过了白炽灯,光强达到了烛光级,而且颜色也从红色到蓝色覆盖了整个可见光谱范围,LED工作电压很低;工作电流很小;抗冲击和抗震性能好,可靠性高,寿命长;电光转化效率高,绿色环保、寿命长、反复开关无损寿命、体积小、发热少、亮度高、坚固耐用、易于调光、色彩多样、光束集中稳定、启动无延时,LED被用于各个领域,LED已经成为人们生产生活中比不可少的一部分,LED路灯也逐渐成为发展趋势。 但现有提供LED路灯的电能一般为火力发电或水力发电,对环境污染大,对能源利用率不高,同时输送过程中损耗大,浪费资源;LED路灯一般比较高,维修时需要专业梯子,操作困难。
发明内容
本发明的目的在于提供一种基于新能源发电技术的照明路灯,以解决上述背景技术中提出的问题。
为实现上述目的,本发明提供如下技术方案:
一种基于新能源发电技术的照明路灯,包括底座、踏梯、路灯杆、支撑杆、脚踏板、风车、风力发电装置、太阳能电池板、储电仓、灯罩、LED灯和监控摄像头,所述的底座的中间位置与路灯杆焊接,风车的尾部连接风力发电装置,风力发电装置固定在路灯杆上,底座上设有螺纹孔,路灯杆上焊接踏梯,路灯杆上设有脚踏板,脚踏板下表面通过支撑杆与路灯杆连接,路灯杆上部设有连接件,连接件为中空结构,连接件一端设有灯罩,灯罩内设有LED灯,灯罩下部设有护罩,路灯杆上设有监控摄像头,路灯杆顶端设有太阳能电池板,路灯杆一侧设有风车,路灯杆内安装储电仓,太阳能电池板和风车通过导线与储电仓连接,储电仓通过导线与LED灯连接。
作为本发明进一步的方案:所述风力发电装置包括风力发电机M、二极管D1、二极管D7和电容C1,所述二极管D7的阴极连接电阻R1、电阻R6、电阻R7、电位器RP1的一个固定端、电位器RP1的滑动端、三极管V2的集电极、蓄电池E的正极和芯片IC1的引脚5,风力发电机M的U相连接二极管D1的阳极和二极管D2的阴极,二极管D1的阴极连接二极管D3的阴极、二极管D5的阴极、二极管D7的阳极和电容C1,风力发电机M的V相连接二极管D3的阳极和二极管D4的阴极,风力发电机M的W相连接二极管D5的阳极和二极管D6的阴极,电阻R1的另一端连接电阻R2和芯片IC1的引脚1,二极管D2的阳极连接二极管D4的阳极、二极管D6的阳极、电容C1的另一端、电阻R2、电阻R3的另一端、电阻R5、二极管D8的阳极、三极管V1的发射极、三极管V2的发射极、蓄电池E的负极、LED灯组H和芯片IC1的引脚2,电位器RP1的另一个固定端连接电阻R4、二极管D8的阴极和芯片IC1的引脚3,蓄电池E的负极连接,电阻R4的另一端连接电阻R5的另一端和三极管V2的集电极,三极管V2的基极连接电阻R2的另一端、电阻R6的另一端和三极管V1的和芯片IC1的引脚4,三极管V1的集电极连接电阻R7的另一端和三极管V3的基极,三极管V3的发射极连接电位器RP2的一个固定端和电位器RP2的滑动端,电位器RP2的另一个固定端连接LED灯组H的另一端。
作为本发明进一步的方案:所述的螺纹孔分布在路灯杆的四周。
作为本发明再进一步的方案:所述的脚踏板为钢丝网制成。
作为本发明进一步的方案:所述的脚踏板为钢丝网制成。
作为本发明进一步的方案:所述芯片IC1的型号为LM321。
与现有技术相比,本发明的有益效果是:本发明通过底座上的螺纹孔将路灯固定在基座地面上,使其不容易倾斜歪倒,工人通过踏梯很快的爬上路灯上部,脚踏板给工人提供站脚和转身的空间,方便工人进行维修,灯罩聚拢光线,使光线更加明亮,护罩和灯罩保护LED灯,避免LED灯遭受外力或飞虫而损坏,影响使用寿命,监控摄像头用来监控来往车辆,防止其发生违章行为,太阳能电池板将光能转化为电能储存在储电仓中,风车将风能转化电能储存储电仓中,储电仓为LED灯提供电能,光能和风能为清洁可再生能源,其风力发电部分功能多样、保护效果好,减少环境污染,节约资源,使用寿命长,使用方便,具有很高的市场价值,利于推广。
附图说明
图1为一种基于新能源发电技术的照明路灯的结构示意图。
图2为风力发电装置的电路图。
图中:1、底座,2、螺纹孔,3、踏梯,4、路灯杆,5、支撑杆,6、脚踏板,7、风车,8、太阳能电池板,9、储电仓,10、连接件,11、灯罩,12、LED灯,13、护罩,14、监控摄像头,15、风力发电装置。
具体实施方式
下面结合具体实施方式对本专利的技术方案作进一步详细地说明。
请参阅图1-2,一种基于新能源发电技术的照明路灯,包括底座1、踏梯3、路灯杆4、支撑杆5、脚踏板6、风车7、太阳能电池板8、储电仓9、灯罩11、LED灯12和监控摄像头14,所述的底座1的中间位置与路灯杆4焊接,底座1上设有螺纹孔2,螺纹孔2分布在路灯杆4的四周,通过底座1上的螺纹孔2将路灯固定在基座地面上,基座地面一般由水泥浇筑而成,使其不容易倾斜歪倒,路灯杆4上焊接踏梯3,风车7的尾部连接风力发电装置15,风力发电装置15固定在路灯杆4上,踏梯3等距离分布,路灯杆4上设有脚踏板6,脚踏板6为钢丝网制成,脚踏板6下表面通过支撑杆5与路灯杆4连接,支撑杆5加强固定,工人通过踏梯3很快的爬上路灯上部,脚踏板6给工人提供站脚和转身的空间,方便工人进行维修,路灯杆4上部设有连接件10,连接件10为中空结构,连接件10可供导线经过,连接件10一端设有灯罩11,灯罩11内设有LED灯12,灯罩11聚拢光线,使光线更加明亮,灯罩11下部设有护罩13,护罩13和灯罩11保护LED灯12,避免LED灯12遭受外力或飞虫而损坏,影响使用寿命,路灯杆4上设有监控摄像头14,监控摄像头14用来监控来往车辆,防止其发生违章行为,路灯杆4顶端设有太阳能电池板8,路灯杆4一侧设有风车7,路灯杆4内安装储电仓9,太阳能电池板8和风车7通过导线与储电仓9连接,太阳能电池板8将光能转化为电能储存在储电仓9中,风车7将风能转化电能储存储电仓9中,储电仓9通过导线与LED灯12连接,储电仓9为LED灯12提供电能,光能和风能为清洁可再生能源,减少环境污染,节约资源。
风力发电装置15包括风力发电机M、二极管D1、二极管D7和电容C1,所述二极管D7的阴极连接电阻R1、电阻R6、电阻R7、电位器RP1的一个固定端、电位器RP1的滑动端、三极管V2的集电极、蓄电池E的正极和芯片IC1的引脚5,风力发电机M的U相连接二极管D1的阳极和二极管D2的阴极,二极管D1的阴极连接二极管D3的阴极、二极管D5的阴极、二极管D7的阳极和电容C1,风力发电机M的V相连接二极管D3的阳极和二极管D4的阴极,风力发电机M的W相连接二极管D5的阳极和二极管D6的阴极,电阻R1的另一端连接电阻R2和芯片IC1的引脚1,二极管D2的阳极连接二极管D4的阳极、二极管D6的阳极、电容C1的另一端、电阻R2、电阻R3的另一端、电阻R5、二极管D8的阳极、三极管V1的发射极、三极管V2的发射极、蓄电池E的负极、LED灯组H和芯片IC1的引脚2,电位器RP1的另一个固定端连接电阻R4、二极管D8的阴极和芯片IC1的引脚3,蓄电池E的负极连接,电阻R4的另一端连接电阻R5的另一端和三极管V2的集电极,三极管V2的基极连接电阻R2的另一端、电阻R6的另一端和三极管V1的和芯片IC1的引脚4,三极管V1的集电极连接电阻R7的另一端和三极管V3的基极,三极管V3的发射极连接电位器RP2的一个固定端和电位器RP2的滑动端,电位器RP2的另一个固定端连接LED灯组H的另一端。
本发明的工作原理是:风力发电装置15的工作原理如图2所示:风力发电机M完成风电转换并通过由二极管D1~二极管D6组成的桥型整流电路变成直流电,电容C1是滤波电容,滤波后的直流电经过止逆二极管D1后一部分储存在蓄电池E中作为储备电能,另一部分给电路供电,电路中的三极管V2对比较器IC1起滞回作用,使比较电路有两个门限电压:U1和U2,并且U1>U2,一个滞回区。当蓄电池E的电压从低升高至U1时,比较器IC1输出高电平;当电池电压降低至U2时,比较器IC1输出低电平。这个时候蓄电池端电压虽然会迅速升高至U2以上,但由于达不到U1,所以,比较器IC1仍然输出低电平,直到蓄电池E被充电后电压升高至U1以上才能再次输出高电平。这样就避免了电路的振荡,保护了LED灯组H和电池蓄电池E不会因为电压处于临界点而反复跳变,比较器IC1的正端1脚反映的是电池的采样电压U1,比较器IC1的负端3脚反映的是电池的参考电压U2,当U3>U2时,比较器IC1输出高电平,由于电路中设置了光敏电阻R2,白天时其阻值很低,因此白天时电路不工作,只有夜晚光线不足时,电阻R2的阻值增大,三极管V1才能导通,三极管V3截止,LED灯组H不工作;当U3<U2时,比较器IC1输出低电平,三极管V1截止,此时电容C2开始充电,电容C2的正极电压缓慢上升,三极管V3的导通角也随之慢慢增大,LED灯组H导通工作,这样就达到了软启动的目的,电位器RP1还能调节LED灯的亮度。
本发明通过底座上的螺纹孔将路灯固定在基座地面上,使其不容易倾斜歪倒,工人通过踏梯很快的爬上路灯上部,脚踏板给工人提供站脚和转身的空间,方便工人进行维修,灯罩聚拢光线,使光线更加明亮,护罩和灯罩保护LED灯,避免LED灯遭受外力或飞虫而损坏,影响使用寿命,监控摄像头用来监控来往车辆,防止其发生违章行为,太阳能电池板将光能转化为电能储存在储电仓中,风车将风能转化电能储存储电仓中,储电仓为LED灯提供电能,光能和风能为清洁可再生能源,其风力发电部分功能多样、保护效果好,减少环境污染,节约资源,使用寿命长,使用方便,具有很高的市场价值,利于推广。
上面对本专利的较佳实施方式作了详细说明,但是本专利并不限于上述实施方式,在本领域的普通技术人员所具备的知识范围内,还可以在不脱离本专利宗旨的前提下做出各种变化。
Claims (5)
1.一种基于新能源发电技术的照明路灯,包括底座、踏梯、路灯杆、支撑杆、脚踏板、风车、风力发电装置、太阳能电池板、储电仓、灯罩、LED灯和监控摄像头,其特征在于,所述的底座的中间位置与路灯杆焊接,风车的尾部连接风力发电装置,风力发电装置固定在路灯杆上,底座上设有螺纹孔,路灯杆上焊接踏梯,路灯杆上设有脚踏板,脚踏板下表面通过支撑杆与路灯杆连接,路灯杆上部设有连接件,连接件为中空结构,连接件一端设有灯罩,灯罩内设有LED灯,灯罩下部设有护罩,路灯杆上设有监控摄像头,路灯杆顶端设有太阳能电池板,路灯杆一侧设有风车,路灯杆内安装储电仓,太阳能电池板和风车通过导线与储电仓连接,储电仓通过导线与LED灯连接。
2.根据权利要求1所述的一种基于新能源发电技术的照明路灯,其特征在于,所述风力发电装置包括风力发电机M、二极管D1、二极管D7和电容C1,所述二极管D7的阴极连接电阻R1、电阻R6、电阻R7、电位器RP1的一个固定端、电位器RP1的滑动端、三极管V2的集电极、蓄电池E的正极和芯片IC1的引脚5,风力发电机M的U相连接二极管D1的阳极和二极管D2的阴极,二极管D1的阴极连接二极管D3的阴极、二极管D5的阴极、二极管D7的阳极和电容C1,风力发电机M的V相连接二极管D3的阳极和二极管D4的阴极,风力发电机M的W相连接二极管D5的阳极和二极管D6的阴极,电阻R1的另一端连接电阻R2和芯片IC1的引脚1,二极管D2的阳极连接二极管D4的阳极、二极管D6的阳极、电容C1的另一端、电阻R2、电阻R3的另一端、电阻R5、二极管D8的阳极、三极管V1的发射极、三极管V2的发射极、蓄电池E的负极、LED灯组H和芯片IC1的引脚2,电位器RP1的另一个固定端连接电阻R4、二极管D8的阴极和芯片IC1的引脚3,蓄电池E的负极连接,电阻R4的另一端连接电阻R5的另一端和三极管V2的集电极,三极管V2的基极连接电阻R2的另一端、电阻R6的另一端和三极管V1的和芯片IC1的引脚4,三极管V1的集电极连接电阻R7的另一端和三极管V3的基极,三极管V3的发射极连接电位器RP2的一个固定端和电位器RP2的滑动端,电位器RP2的另一个固定端连接LED灯组H的另一端。
3.根据权利要求1所述的一种基于新能源发电技术的照明路灯,其特征在于,所述的螺纹孔分布在路灯杆的四周。
4.根据权利要求1所述的一种基于新能源发电技术的照明路灯,其特征在于,所述的脚踏板为钢丝网制成。
5.根据权利要求1所述的一种基于新能源发电技术的照明路灯,其特征在于,所述芯片IC1的型号为LM321。
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