CN111934322A - 一种智能节能电保护装置及节电系统 - Google Patents
一种智能节能电保护装置及节电系统 Download PDFInfo
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Abstract
本发明公开了一种智能节能电保护装置,包括信号接收装置、信号处理装置、智能监测装置、电压直通装置、无线通信装置一、控制器、无线通信装置二、客户端、检测装置一、检测装置二、处理装置一和处理装置二;所述信号接收装置的输出端与信号处理装置的输入端电性连接,且信号接收装置用于采集外部用电设备的工作需求信号,所述信号处理装置用于接收来自信号接收装置采集到的信号。本发明可以在电网电压低于预定低压阈值时,自动退出节电工作状态并予以报警,将电网电压直接输出至负载,而且通过无线通信装置二可以将信号发送至用户的客户端上,便于外界工作人员及时查知当前电网电压的工作情况,方便后续作出调整。
Description
技术领域
本发明涉及节电技术领域,具体是一种智能节能电保护装置及节电系统。
背景技术
电能,是指电以各种形式做功(即产生能量)的能力。电能被广泛应用在动力、照明、冶金、化学、纺织、通信、广播等各个领域,是科学技术发展、国民经济飞跃的主要动力,而随着经济的飞速发展,各种用电设备也是层出不穷,而且用电量也急剧上升,电力供应全面趋紧。
随着电网设备的不断发展,用电量也在急剧攀升,电力供应日益趋紧,但是现有的电网设备在使用过程中,并不需要全压工作,比如在无人的状况下可以适当降压,同时电网设备难以使降压节电器根据控制器的指令进行降压处理过程,无法达到节电的目的。因此,本领域技术人员提供了一种智能节能电保护装置及节电系统,以解决上述背景技术中提出的问题。
发明内容
本发明的目的在于提供一种智能节能电保护装置及节电系统,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:
一种智能节能电保护装置,包括信号接收装置、信号处理装置、智能监测装置、电压直通装置、无线通信装置一、控制器、无线通信装置二、客户端、检测装置一、检测装置二、处理装置一和处理装置二;
所述信号接收装置的输出端与信号处理装置的输入端电性连接,且信号接收装置用于采集外部用电设备的工作需求信号,所述信号处理装置用于接收来自信号接收装置采集到的信号;
所述信号处理装置的输出端与智能监测装置的输入端电性连接,所述智能监测装置的输出端与控制器的输入端电性连接,所述智能监测装置用于对处理后的信号进行实时监测,所述控制器用于分析监测后的信号,并生成指令;
所述电压直通装置的输出端与无线通信装置一的输入端电性连接,所述无线通信装置一与控制器无线连接,所述控制器与无线通信装置二无线连接,所述无线通信装置二的输出端与客户端的输入端电性连接,所述无线通信装置二用于接收控制器传递的控制指令,并将指令发送至客户端上;
所述控制器的输入端上还电性连接有检测装置一和检测装置二,且控制器的输出端上还电性连接有处理装置一和处理装置二,其中,所述控制器用于接收来自检测装置一上发出的检测信号,将信号分析后,发送至处理装置一上予以处理,所述控制器还用于接收来自检测装置二上发出的检测信号,将信号分析后,发送至处理装置二上予以处理。
作为本发明再进一步的方案:还包括阈值检测装置,所述阈值检测装置用于检测电网设备是否达到低压阈值,若达到所述低压阈值,则通过电压直通装置和无线通信装置一将信号传递至控制器上,再通过控制器将电网设备电压输出至负载。
作为本发明再进一步的方案:还包括报警装置,所述报警装置用于对阈值检测装置上检测出的低压阈值进行报警,所述控制器的输出端与报警装置的输入端电性连接。
作为本发明再进一步的方案:还包括断路装置,所述控制器的输出端与断路装置的输入端电性连接。
作为本发明再进一步的方案:所述控制器用于对智能监测装置上处理后的信号予以分析后,并发送指令控制断路装置将电路断开。
作为本发明再进一步的方案:所述报警装置为报警器、指示灯、语音播报器或电铃中的任意一种。
一种节电系统,包括:
信号接收模块,用于采集外部用电设备的工作需求信号;
信号处理模块,用于接收信号接收模块发送的信号;
智能监测模块,用于对信号处理模块上发送的信号进行实时监测;
电压直通模块、用于对阈值检测模块发送的电压信息进行传输;
阈值检测模块,用于检测电网设备是否达到低压阈值,若达到所述低压阈值,则通过电压直通模块和无线通信模块一将信号传递至控制模块上,再通过控制模块将电网设备电压输出至负载,同时控制报警模块予以报警;
无线通信模块一,用于对电压直通模块上传输的信号线路予以修改,转换为无线信号并发送至控制模块上;
控制模块,用于对阈值检测模块上检测出的低压阈值进行判定,并生成指令;
报警模块,用于对控制模块发出的指令予以执行,并及时报警;
无线通信模块二,用于对控制模块上发出的指令予以传输;
断路模块,用于对智能监测模块上处理后的信号予以分析后,并通过控制模块控制电路断开;
检测模块一,用于检测电网设备的温度值是否过高,若过高,则向控制模块上发送信号;
检测模块二,用于检测电网设备是否出现火灾现象,若出现,则向控制模块上发送信号;
处理模块一,用于对检测模块一上检测出的电网设备通过风扇予以降温;
处理模块二,用于对检测模块二上检测出的电网设备通过释放干粉易于灭火。
与现有技术相比,本发明的有益效果是:本发明可以在电网电压低于预定低压阈值时,自动退出节电工作状态并予以报警,将电网电压直接输出至负载,而且通过无线通信装置二可以将信号发送至用户的客户端上,便于外界工作人员及时查知当前电网电压的工作情况,方便后续作出调整,同时通过信号接收装置采集负荷设备的工作需求信号,并传输给信号处理装置,利用控制器分析处理信号接收装置接收到的信号,并生成指令,降压节电器根据逻辑控制器的指令进行降压处理过程,达到节电的目的,而且当检测模块一检测出电网设备的温度值过高时,此时将信号传递至控制模块上,再由控制模块控制处理模块一开始工作,进而带动风扇对电网设备予以降温和散热,当检测模块一检测出电网设备的温度值未达到过高时,此时风扇不工作,从而也起到了节电的目的。
附图说明
图1为一种智能节能电保护装置的原理图;
图2为一种节电系统的结构框图。
图中:1、信号接收装置;2、信号处理装置;3、智能监测装置;4、电压直通装置;5、阈值检测装置;6、无线通信装置一;7、报警装置;8、控制器;9、无线通信装置二;10、断路装置;11、客户端;12、信号接收模块;13、信号处理模块;14、智能监测模块;15、电压直通模块;16、阈值检测模块;17、无线通信模块一;18、报警模块;19、控制模块;20、无线通信模块二;21、断路模块;22、检测装置一;23、检测装置二;24、处理装置一;25、处理装置二;26、检测模块一;27、检测模块二;28、处理模块一;29、处理模块二。
具体实施方式
请参阅图1~2,本发明实施例中,一种智能节能电保护装置,包括信号接收装置1、信号处理装置2、智能监测装置3、电压直通装置4、无线通信装置一6、控制器8、无线通信装置二9、客户端11、检测装置一22、检测装置二23、处理装置一24和处理装置二25;
信号接收装置1的输出端与信号处理装置2的输入端电性连接,且信号接收装置1用于采集外部用电设备的工作需求信号,信号处理装置2用于接收来自信号接收装置1采集到的信号;
信号处理装置2的输出端与智能监测装置3的输入端电性连接,智能监测装置3的输出端与控制器8的输入端电性连接,智能监测装置3用于对处理后的信号进行实时监测,控制器8用于分析监测后的信号,并生成指令;
电压直通装置4的输出端与无线通信装置一6的输入端电性连接,无线通信装置一6与控制器8无线连接,控制器8与无线通信装置二9无线连接,无线通信装置二9的输出端与客户端11的输入端电性连接,无线通信装置二9用于接收控制器8传递的控制指令,并将指令发送至客户端11上;
控制器8的输入端上还电性连接有检测装置一22和检测装置二23,且控制器8的输出端上还电性连接有处理装置一24和处理装置二25,其中,控制器8用于接收来自检测装置一22上发出的检测信号,将信号分析后,发送至处理装置一24上予以处理,控制器8还用于接收来自检测装置二23上发出的检测信号,将信号分析后,发送至处理装置二25上予以处理。
优选的:还包括阈值检测装置5,阈值检测装置5用于检测电网设备是否达到低压阈值,若达到低压阈值,则通过电压直通装置4和无线通信装置一6将信号传递至控制器8上,再通过控制器8将电网设备电压输出至负载。
优选的:还包括报警装置7,报警装置7用于对阈值检测装置5上检测出的低压阈值进行报警,控制器8的输出端与报警装置7的输入端电性连接。
优选的:还包括断路装置10,控制器8的输出端与断路装置10的输入端电性连接。
优选的:控制器8用于对智能监测装置3上处理后的信号予以分析后,并发送指令控制断路装置10将电路断开。
优选的:报警装置7为报警器、指示灯、语音播报器或电铃中的任意一种。
一种节电系统,包括:
信号接收模块12,用于采集外部用电设备的工作需求信号;
信号处理模块13,用于接收信号接收模块12发送的信号;
智能监测模块14,用于对信号处理模块13上发送的信号进行实时监测;
电压直通模块15、用于对阈值检测模块16发送的电压信息进行传输;
阈值检测模块16,用于检测电网设备是否达到低压阈值,若达到低压阈值,则通过电压直通模块15和无线通信模块一17将信号传递至控制模块19上,再通过控制模块19将电网设备电压输出至负载,同时控制报警模块18予以报警;
无线通信模块一17,用于对电压直通模块15上传输的信号线路予以修改,转换为无线信号并发送至控制模块19上;
控制模块19,用于对阈值检测模块16上检测出的低压阈值进行判定,并生成指令;
报警模块18,用于对控制模块19发出的指令予以执行,并及时报警;
无线通信模块二20,用于对控制模块19上发出的指令予以传输;
断路模块21,用于对智能监测模块14上处理后的信号予以分析后,并通过控制模块19控制电路断开;
检测模块一26,用于检测电网设备的温度值是否过高,若过高,则向控制模块19上发送信号;
检测模块二27,用于检测电网设备是否出现火灾现象,若出现,则向控制模块19上发送信号;
处理模块一28,用于对检测模块一26上检测出的电网设备通过风扇予以降温;
处理模块二29,用于对检测模块二27上检测出的电网设备通过释放干粉易于灭火。
当检测模块一26检测出电网设备的温度值过高时,此时将信号传递至控制模块19上,再由控制模块19控制处理模块一28开始工作,进而带动风扇对电网设备予以降温和散热,当检测模块一26检测出电网设备的温度值未达到过高时,此时风扇不工作,从而起到了节电的目的,而当检测模块二27检测出电网设备出现火灾时,此时将信号传递至控制模块19上,再由控制模块19控制处理模块二29开始工作,进而释放干粉对火势予以扑灭,从而达到了自动灭火的目的。
以上所述的,仅为本发明较佳的具体实施方式,但本发明的保护范围并不局限于此,任何熟悉本技术领域的技术人员在本发明揭露的技术范围内,根据本发明的技术方案及其发明构思加以等同替换或改变,都应涵盖在本发明的保护范围之内。
Claims (7)
1.一种智能节能电保护装置,其特征在于,包括信号接收装置(1)、信号处理装置(2)、智能监测装置(3)、电压直通装置(4)、无线通信装置一(6)、控制器(8)、无线通信装置二(9)、客户端(11)、检测装置一(22)、检测装置二(23)、处理装置一(24)和处理装置二(25);
所述信号接收装置(1)的输出端与信号处理装置(2)的输入端电性连接,且信号接收装置(1)用于采集外部用电设备的工作需求信号,所述信号处理装置(2)用于接收来自信号接收装置(1)采集到的信号;
所述信号处理装置(2)的输出端与智能监测装置(3)的输入端电性连接,所述智能监测装置(3)的输出端与控制器(8)的输入端电性连接,所述智能监测装置(3)用于对处理后的信号进行实时监测,所述控制器(8)用于分析监测后的信号,并生成指令;
所述电压直通装置(4)的输出端与无线通信装置一(6)的输入端电性连接,所述无线通信装置一(6)与控制器(8)无线连接,所述控制器(8)与无线通信装置二(9)无线连接,所述无线通信装置二(9)的输出端与客户端(11)的输入端电性连接,所述无线通信装置二(9)用于接收控制器(8)传递的控制指令,并将指令发送至客户端(11)上;
所述控制器(8)的输入端上还电性连接有检测装置一(22)和检测装置二(23),且控制器(8)的输出端上还电性连接有处理装置一(24)和处理装置二(25),其中,所述控制器(8)用于接收来自检测装置一(22)上发出的检测信号,将信号分析后,发送至处理装置一(24)上予以处理,所述控制器(8)还用于接收来自检测装置二(23)上发出的检测信号,将信号分析后,发送至处理装置二(25)上予以处理。
2.根据权利要求1所述的一种智能节能电保护装置,其特征在于,还包括阈值检测装置(5),所述阈值检测装置(5)用于检测电网设备是否达到低压阈值,若达到所述低压阈值,则通过电压直通装置(4)和无线通信装置一(6)将信号传递至控制器(8)上,再通过控制器(8)将电网设备电压输出至负载。
3.根据权利要求2所述的一种智能节能电保护装置,其特征在于,还包括报警装置(7),所述报警装置(7)用于对阈值检测装置(5)上检测出的低压阈值进行报警,所述控制器(8)的输出端与报警装置(7)的输入端电性连接。
4.根据权利要求1所述的一种智能节能电保护装置,其特征在于,还包括断路装置(10),所述控制器(8)的输出端与断路装置(10)的输入端电性连接。
5.根据权利要求4所述的一种智能节能电保护装置,其特征在于,所述控制器(8)用于对智能监测装置(3)上处理后的信号予以分析后,并发送指令控制断路装置(10)将电路断开。
6.根据权利要求3所述的一种智能节能电保护装置,其特征在于,所述报警装置(7)为报警器、指示灯、语音播报器或电铃中的任意一种。
7.一种节电系统,其特征在于,包括:
信号接收模块(12),用于采集外部用电设备的工作需求信号;
信号处理模块(13),用于接收信号接收模块(12)发送的信号;
智能监测模块(14),用于对信号处理模块(13)上发送的信号进行实时监测;
电压直通模块(15)、用于对阈值检测模块(16)发送的电压信息进行传输;
阈值检测模块(16),用于检测电网设备是否达到低压阈值,若达到所述低压阈值,则通过电压直通模块(15)和无线通信模块一(17)将信号传递至控制模块(19)上,再通过控制模块(19)将电网设备电压输出至负载,同时控制报警模块(18)予以报警;
无线通信模块一(17),用于对电压直通模块(15)上传输的信号线路予以修改,转换为无线信号并发送至控制模块(19)上;
控制模块(19),用于对阈值检测模块(16)上检测出的低压阈值进行判定,并生成指令;
报警模块(18),用于对控制模块(19)发出的指令予以执行,并及时报警;
无线通信模块二(20),用于对控制模块(19)上发出的指令予以传输;
断路模块(21),用于对智能监测模块(14)上处理后的信号予以分析后,并通过控制模块(19)控制电路断开;
检测模块一(26),用于检测电网设备的温度值是否过高,若过高,则向控制模块(19)上发送信号;
检测模块二(27),用于检测电网设备是否出现火灾现象,若出现,则向控制模块(19)上发送信号;
处理模块一(28),用于对检测模块一(26)上检测出的电网设备通过风扇予以降温;
处理模块二(29),用于对检测模块二(27)上检测出的电网设备通过释放干粉易于灭火。
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