CN113809770A - 全电景区控制系统 - Google Patents
全电景区控制系统 Download PDFInfo
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Abstract
本发明涉及电力控制技术领域,是一种全电景区控制系统,包括核心中控单元、信息采集装置、温控装置、疫情防控单元和多个能源装置;每个能源装置均包括风力发电组件、光伏发电组件、市电、供电控制单元和蓄电池组件;信息采集装置包括身份认证单元、图像采集单元和电能采集单元;温控装置包括多个负载温度采集单元和体温检测单元;疫情防控单元分别与核心中控单元和警示单元连接;本发明能对景区的供电系统进行控制,结合用电的高峰及低谷,通过多种供电方式,实现对景区各个区域的供电调节,达到节能的目的,同时有效调节电力成本;同时通过温控装置与疫情防控单元联动,进行安全,保证景区的稳定运行。
Description
技术领域
本发明涉及电力控制技术领域,是一种全电景区控制系统。
背景技术
随着“双碳”目标和绿色能源升级转型的要求下,行业内全电气化水平不断提高,越来越多的企业选择全电气化系统的升级与配置。现有景区未能将风能、光能与市电进行融合,并且不能有效结合用电高峰及低谷,对景区供电进行调节。
发明内容
本发明提供了一种全电景区控制系统,克服了上述现有技术之不足,其能有效解决现有景区不能根据负载用电情况进行供电调节的问题。
本发明的技术方案是通过以下措施来实现的:一种全电景区控制系统,包括核心中控单元、信息采集装置、温控装置、疫情防控单元、警示单元和多个能源装置;
多个能源装置分别设置在景区的不同区域,每个能源装置均包括风力发电组件、光伏发电组件、市电、供电控制单元和蓄电池组件,风力发电组件、光伏发电组件和市电均与供电控制单元连接,供电控制单元分别与蓄电池组件和核心中控单元连接;
信息采集装置包括身份认证单元、图像采集单元和电能采集单元,身份认证单元、图像采集单元分别与核心中控单元和疫情防控单元连接,电能采集单元与核心中控单元连接;
温控装置包括多个负载温度采集单元和设置在景区入口处的体温检测单元,每个负载温度采集单元均与核心中控单元连接,体温检测单元与疫情防控单元;
疫情防控单元分别与核心中控单元和警示单元连接,核心中控单元与警示单元连接。
下面是对上述发明技术方案的进一步优化或/和改进:
上述供电控制单元包括充电控制模块和供电切换模块,风力发电组件和光伏发电组件均与充电控制模块连接,充电控制模块与蓄电池组件连接,蓄电池组件和市电均与供电切换模块连接,供电切换模块与核心中控单元连接。
上述核心中控单元包括交互模块、中央控制模块、安防模块,交互模块与安防模块连接,安防模块与中央控制模块连接,中央控制模块分别与供电控制单元、信息采集装置、负载温度采集单元、疫情防控单元和警示单元连接。
上述信息采集装置还包括环境温度采集单元和环境湿度采集单元,环境温度采集单元和环境湿度采集单元均与核心中控单元连接。
上述还包括安全加密单元,安全加密单元分别核心中控单元和负载温度采集单元连接。
本发明能对景区的供电系统进行控制,结合用电的高峰及低谷,通过多种供电方式,实现对景区各个区域的供电调节,达到节能的目的,同时有效调节电力成本;同时通过温控装置对进入景区的游客进行体温检测,并与疫情防控单元联动,在出现体温异常的情况时,疫情防控单元能及时通过信息采集装置获得游客的身份信息和人脸信息,并上报至核心中控单元和警示单元实现告警,完成正常的防疫工作,保证景区的稳定运行。
附图说明
附图1为本发明的电路结构示意图。
附图2为本发明中能源装置的电路结构示意图。
附图3为本发明中核心中控单元的电路结构示意图。
具体实施方式
本发明不受下述实施例的限制,可根据本发明的技术方案与实际情况来确定具体的实施方式。
下面结合实施例及附图对本发明作进一步描述:
如附图1所示,一种全电景区控制系统,包括核心中控单元、信息采集装置、温控装置、疫情防控单元、警示单元和多个能源装置;
多个能源装置分别设置在景区的不同区域,每个能源装置均包括风力发电组件、光伏发电组件、市电、供电控制单元和蓄电池组件,风力发电组件、光伏发电组件和市电均与供电控制单元连接,供电控制单元分别与蓄电池组件和核心中控单元连接;
信息采集装置包括身份认证单元、图像采集单元和电能采集单元,身份认证单元、图像采集单元分别与核心中控单元和疫情防控单元连接,电能采集单元与核心中控单元连接;
温控装置包括多个负载温度采集单元和设置在景区入口处的体温检测单元,每个负载温度采集单元均与核心中控单元连接,体温检测单元与疫情防控单元;
疫情防控单元分别与核心中控单元和警示单元连接,核心中控单元与警示单元连接。
上述技术方案中,多个能源装置实现对景区各个区域的景区负载进行供电及供电调节,每个能源装置均包括风力发电组件、光伏发电组件、市电、供电控制单元和蓄电池组件;风力发电组件包括设置在区域内的风力发电装置,风力发电装置可包括支架、风机定子、风机转子、变压器和电流逆变器,两个平行设置的支架的顶端均与一个风机定子的一端固定连接,风机定子和风机转子之间设置有轴承,风机转子外侧连接设有若干扇叶,风机定子分别与供电控制单元、变压器和电流逆变器连接,供电控制单元可将风能转换为电能,在蓄电池组件内进行存储,也可通过变压器和电流逆变器为景区负载供电;光伏发电组件可包括变压器、电流逆变器和若干设置在景区内的光伏电池板,供电控制单元可将光能转换为电能,在蓄电池组件内进行存储,也可通过变压器和电流逆变器为景区负载供电。
工作时,各个供电控制单元均与对应的景区负载连接,核心中控单元获得景区各个区域的用电信息,判断景区各个区域的电力负荷是否过高,根据判断结果控制电力负荷过高的区域的供电控制单元控制对应的风力发电组件、光伏发电组件、蓄电池组件为该区域的景区负载进行电能补充;并且在夜晚(用电低谷期),各个供电控制单元能根据核心中控单元的指令控制蓄电池组件放电,为景区负载供电,减少市电使用,降低成本。
上述技术方案中,信息采集装置包括身份认证单元、图像采集单元和电能采集单元;身份认证单元可为设置在景区进口处的人证识别装置,用于确定游客身份,完成人证统一判断;图像采集单元为设置在景区各个位置的摄像机,获取景区各个位置实时图像信号;电能采集单元包括若干电能采集终端,设置在景区的各个区域,获取景区各个区域的实时用电信息,用于核心中控单元判断景区各个区域的电力负荷是否过高。
上述技术方案中,温控装置包括多个负载温度采集单元和设置在景区入口处的体温检测单元;负载温度采集单元可为温度传感器,用于采集对应景区负载的温度,并判断是否超限,并将判断结果发送至核心中控单元,核心中控单元根据判断结果对对应的景区负载进行控制;体温检测单元用于对进入景区的游客进行体温检测,在体温超限时,体温检测单元发送信息至疫情防控单元,疫情防控单元从信息采集装置处获取该游客的身份信息和人脸信息,并发送至核心中控单元和警示单元进行告警。
上述技术方案中,警示单元可包括语音提示单元、通信单元、电子显示大屏,用于显示核心中控单元和疫情防控单元的信息及判断结果。
本发明公开了一种全电景区控制系统,能对景区的供电系统进行控制,结合用电的高峰及低谷,通过多种供电方式,实现对景区各个区域的供电调节,达到节能的目的,同时有效调节电力成本;同时通过温控装置对进入景区的游客进行体温检测,并与疫情防控单元联动,在出现体温异常的情况时,疫情防控单元能及时通过信息采集装置获得游客的身份信息和人脸信息,并上报至核心中控单元和警示单元实现告警,完成正常的防疫工作,保证景区的稳定运行。
可根据实际需要,对上述全电景区控制系统作进一步优化或/和改进:
如附图2所示,所述供电控制单元包括充电控制模块和供电切换模块,风力发电组件和光伏发电组件均与充电控制模块连接,充电控制模块与蓄电池组件连接,风力发电组件、光伏发电组件、蓄电池组件和市电均与供电切换模块连接,供电切换模块与核心中控单元连接。
使用时供电切换模块与对应区域的景区负载连接,核心中控单元向供电切换模块发送景区电力负荷判断结果,供电切换模块根据景区电力负荷判断结果,控制是否使用风力发电组件、光伏发电组件、蓄电池组件向该区域内的景区负载供电。
如附图3所示,所述核心中控单元包括中央控制模块和多个节能分控模块,节能分控模块与能源装置的数量相同且一一对应,每个分控模块均包括交互模块、节点控制模块、安防模块,交互模块与安防模块连接,安防模块与节点控制模块连接,节点控制模块分别与中央控制模块和对应的能源装置连接,中央控制模块分别与信息采集装置、负载温度采集单元、疫情防控单元和警示单元连接。
上述技术方案中,交互模块用于工作人员与节点控制模块之间的信息交互;安防模块为现有公知的加密模块,用于对交互模块和节点控制模块之间的交互信息进行加密处理,保证交互信息的安全;节点控制模块为处理芯片,完成信息接收及判断,完成指令发送。中央控制模块用于与信息采集装置、负载温度采集单元、疫情防控单元、警示单元和每个节能分控模块通信,完成信息接收、处理、分析、告警等工作。
如附图1所示,所述信息采集装置还包括环境温度采集单元和环境湿度采集单元,环境温度采集单元和环境湿度采集单元均与核心中控单元连接。
上述技术方案中,环境温度采集单元包括若干温度传感器,分别对应设置在景区的各个位置处,用于测量景区各个位置的环境温度;湿度采集单元包括若干湿度传感器,分别对应设置在景区的各个位置处,用于测量景区各个位置的实时湿度。
如附图1所示,还包括安全加密单元,安全加密单元分别核心中控单元和负载温度采集单元连接。
上述技术方案中,安全加密单元为现有公知的加密芯片,可包括多个加密芯片,对信息采集装置输出的各路信息进行加密。
以上技术特征构成了本发明的实施例,其具有较强的适应性和实施效果,可根据实际需要增减非必要的技术特征,来满足不同情况的需求。
Claims (8)
1.一种全电景区控制系统,其特征在于,包括核心中控单元、信息采集装置、温控装置、疫情防控单元、警示单元和多个能源装置;
多个能源装置分别设置在景区的不同区域,每个能源装置均包括风力发电组件、光伏发电组件、市电、供电控制单元和蓄电池组件,风力发电组件、光伏发电组件和市电均与供电控制单元连接,供电控制单元分别与蓄电池组件和核心中控单元连接;
信息采集装置包括身份认证单元、图像采集单元和电能采集单元,身份认证单元、图像采集单元分别与核心中控单元和疫情防控单元连接,电能采集单元与核心中控单元连接;
温控装置包括多个负载温度采集单元和设置在景区入口处的体温检测单元,每个负载温度采集单元均与核心中控单元连接,体温检测单元与疫情防控单元;
疫情防控单元分别与核心中控单元和警示单元连接,核心中控单元与警示单元连接。
2.根据权利要求1所述的全电景区控制系统,其特征在于,所述供电控制单元包括充电控制模块和供电切换模块,风力发电组件和光伏发电组件均与充电控制模块连接,充电控制模块与蓄电池组件连接,蓄电池组件和市电均与供电切换模块连接,供电切换模块与核心中控单元连接。
3.根据权利要求1或2所述的全电景区控制系统,其特征在于,所述核心中控单元包括交互模块、中央控制模块、安防模块,交互模块与安防模块连接,安防模块与中央控制模块连接,中央控制模块分别与供电控制单元、信息采集装置、负载温度采集单元、疫情防控单元和警示单元连接。
4.根据权利要求1或2所述的全电景区控制系统,其特征在于,所述信息采集装置还包括环境温度采集单元和环境湿度采集单元,环境温度采集单元和环境湿度采集单元均与核心中控单元连接。
5.根据权利要求3所述的全电景区控制系统,其特征在于,所述信息采集装置还包括环境温度采集单元和环境湿度采集单元,环境温度采集单元和环境湿度采集单元均与核心中控单元连接。
6.根据权利要求1或2或5所述的全电景区控制系统,其特征在于,还包括安全加密单元,安全加密单元分别核心中控单元和负载温度采集单元连接。
7.根据权利要求3所述的全电景区控制系统,其特征在于,还包括安全加密单元,安全加密单元分别核心中控单元和负载温度采集单元连接。
8.根据权利要求4所述的全电景区控制系统,其特征在于,还包括安全加密单元,安全加密单元分别核心中控单元和负载温度采集单元连接。
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