CN107645204A - 室内光源供电控制系统及方法 - Google Patents
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Abstract
一种室内光源供电控制方法,用于一低功耗电子装置及一电力供应装置。低功耗电子装置具有一室内型太阳能储能单元、一控制模块及一天线模块。电力供应装置具有一室内灯具、一开关单元及一天线单元。该方法包含:控制模块接受储备电能供电,且当控制模块判断室内型太阳能储能单元的储备电能不足时就通过该天线模块发送一接通信号,且天线单元接收低功耗电子装置发送的接通信号,以控制开关单元导通市电提供电力给该室内灯具,且室内灯具输出光能给室内型太阳能储能单元,以接收室内灯具的光能而转换为储备电能以使该低功耗电子装置继续运作。
Description
技术领域
本发明涉及一种供电控制系统,特别是涉及一种室内光源供电控制系统及方法。
背景技术
已知现有无线防盗警报系统具有安装于门窗上的一磁感应器及一无线警报器,若门窗被破坏,则磁感应器通过无线警报器通知安防主机。然而,学校、医疗院所或办公大楼的门窗极多,面临更换电池及人工维护成本提高的问题。又例如长假或寒暑假期间,无线防盗警报系统所需安装的电池电力容易耗尽而无法作用,容易遭小偷侵入。
另一方面,无线感测网络(物联网)具有用于感测例如:温度、湿度、气压、一氧化碳、二氧化碳或烟雾的无线感测器(senseor node),各种无线感测器也须安装电池,因此,也会面临更换电池及人工维护成本提高的问题。
发明内容
本发明的目的在于提供一种解决先前技术缺失的室内光源供电控制系统及方法。
本发明室内光源供电控制系统包含一低功耗电子装置及一电力供应装置。该低功耗电子装置具有一可利用外界弱光发电而转换为一储备电能的室内型太阳能储能单元、一电性连接该室内型太阳能储能单元并接受该储备电能供电的控制模块、及一天线模块,该天线模块电性连接该控制模块,且当该控制模块判断该室内型太阳能储能单元的储备电能不足时就通过该天线模块发送一接通信号。该电力供应装置,具有一室内灯具、一开关单元及一天线单元。该室内灯具连接一市电,并设置于邻近该室内型太阳能储能单元以提供光能给该室内型太阳能储能单元。该开关单元电性连接该市电及该室内灯具之间。该天线单元电性连接该开关单元,并接收该低功耗电子装置发送的接通信号,以控制该开关单元导通该市电提供电力给该室内灯具,且该室内灯具输出光能给该低功耗电子装置的室内型太阳能储能单元,以接收该室内灯具的光能而转换为该储备电能以使该低功耗电子装置继续运作。
本发明所述的室内光源供电控制系统,当该低功耗电子装置的控制模块判断该储备电能充饱时通过该天线模块发送一断开信号,该电力供应装置经由该天线单元接收该断开信号,以控制该开关单元断开以停止该市电提供电力给该室内灯具。
本发明所述的室内光源供电控制系统,该低功耗电子装置还包括一受该控制模块控制的主要电路,该主要电路是一门窗感应电路、一电子锁电路或一环境感测电路。
本发明所述的室内光源供电控制系统,该室内灯具包括一交流/直流转换器及一发光模块,该交流/直流转换器具有二输入端,其中一输入端电性连接传输该市电的火线,该开关单元包括一第一切换模块及一第一控制器。该第一切换模块具有一继电模块、一第一接脚、一第二接脚及一第三接脚,该第一接脚电性连接传输该市电的地线,该第二接脚电性连接该交流/直流转换器的另一输入端。该第一控制器,电性连接传输该市电的地线、火线、该第三接脚及该天线单元。借此,该第一控制器通过该天线单元接收该低功耗电子装置发送的接通信号,以控制该继电模块导通该市电提供电力给该室内灯具。
本发明所述的室内光源供电控制系统,该室内灯具包括一交流/直流转换器及一发光模块,该交流/直流转换器具有二端,其中一端电性连接传输该市电的地线,该开关单元包括一第二切换模块及一第二控制器。该第二切换模块具有一单相固态继电器、一控制端及一输出端,该输出端电性连接该交流/直流转换器的另一端。该第二控制器电性连接该火线、该控制端及该天线单元。借此,该第二控制器通过该天线单元接收该低功耗电子装置发送的接通信号,以控制该单相固态继电器导通该市电提供电力给该室内灯具。
本发明一种的室内光源供电控制方法应用于一低功耗电子装置及一电力供应装置,该低功耗电子装置具有一室内型太阳能储能单元、一控制模块及一天线模块,该电力供应装置具有一室内灯具、一开关单元及一天线单元,该室内型太阳能储能单元借由外界弱光发电而转换为一储备电能,该室内灯具连接一市电并设置于邻近该室内型太阳能储能单元以提供光能给该室内型太阳能储能单元,该开关单元电性连接该市电及该室内灯具之间,该天线单元电性连接该开关单元;该方法包含下述步骤:
该控制模块接受该储备电能供电,且当该控制模块判断该室内型太阳能储能单元的储备电能不足时就通过该天线模块发送一接通信号;及
该天线单元接收该低功耗电子装置发送的接通信号,以控制该开关单元导通该市电提供电力给该室内灯具,且该室内灯具输出光能给该低功耗电子装置的室内型太阳能储能单元,以接收该室内灯具的光能而转换为该储备电能以使该低功耗电子装置继续运作。
本发明所述的室内光源供电控制方法,当该低功耗电子装置的控制模块判断该储备电能充饱时通过该天线模块发送一断开信号,该电力供应装置经由该天线单元接收该断开信号以控制该开关单元停止该市电提供电力给该室内灯具。
本发明的有益效果在于:电力供应装置的室内型太阳能储能单元通过室内灯具可供应例如无线防盗警报系统的磁感应器或环境感应器的低功耗电子装置,无须更换电池并免除人工维护成本。对于长假或寒暑假期间,无线防盗警报系统的电力不会耗尽而可持续作用,可避免小偷侵入。另外,功耗电子装置的控制模块判断该储备电能充饱时可通知电力供应装置停止提供电力给室内灯具,可进一步节省不必要的能源消耗。
附图说明
图1是本发明室内光源供电控制系统的实施例的一系统方块图;
图2是该实施例的开关单元的第一实施态样的一电路方块图;及
图3是该实施例的开关单元的第二实施态样的一电路方块图。
具体实施方式
下面结合附图及实施例对本发明进行详细说明。
在本发明被详细描述的前,应当注意在以下的说明内容中,类似的元件是以相同的编号来表示。
参阅图1,本发明室内光源供电控制系统100的实施例包含一低功耗电子装置11及一电力供应装置12。
低功耗电子装置11具有一主要电路5、一室内型太阳能储能单元3、一控制模块30及一天线模块301。电力供应装置12具有一室内灯具4、一开关单元2及一天线单元101。各元件的作用原理说明如下。
室内型太阳能储能单元3具有一太阳能电池31、一充电电路32及一储能模块33,太阳能电池31可以是一种非晶硅或硒化铜铟镓(Copper Indium Gallium Diselenide,简称为CIGS)的薄膜太阳能储能单元,可利用外界弱光发电而由充电电路32转换为一储备电能储存于储能模块33中。
控制模块30电性连接室内型太阳能储能单元3并接受储备电能供电。主要电路5受控制模块30控制并供应电力,本实施例的主要电路5是一门窗感应电路,其他实施例也可以是需要恒常运作的一电子锁电路、一环境感测电路或其他需要持续供电以维持恒常运作的主动式电路,亦属于本发明的应用范畴。
室内灯具4连接一市电1并设置于邻近室内型太阳能储能单元3,以提供光能给室内型太阳能储能单元3。开关单元2电性连接市电1及室内灯具4之间。
低功耗电子装置11的天线模块301电性连接控制模块30,且当控制模块30判断室内型太阳能储能单元3的储备电能不足时就通过天线模块301发送一接通信号。电力供应装置12的天线单元101电性连接开关单元2,并接收低功耗电子装置11发送的接通信号以控制开关单元2导通市电1提供电力给室内灯具4,且室内灯具4输出光能给低功耗电子装置11的室内型太阳能储能单元3,以接收室内灯具4的光能而转换为储备电能以使低功耗电子装置11继续运作。另外,当低功耗电子装置11的控制模块30判断储备电能充饱时通过天线模块301发送一断开信号,电力供应装置12经由天线单元101接收断开信号以控制开关单元2断开,以停止市电1提供电力给室内灯具4以节省不必要的耗电。
本实施例中,低功耗电子装置11的天线模块301及电力供应装置12的天线单元101是采用低功耗蓝牙(Bluetooth low energy;缩写为BLE)通讯介面,但不以此为限制。
参阅图2,并配合图1,在第一实施态样中,室内灯具4包括一交流/直流转换器41及一发光模块42,交流/直流转换器41具有二输入端,其中一输入端电性连接传输市电1的火线51,开关单元2包括一第一切换模块20及一第一控制器21。第一切换模块20具有一继电模块22、一第一接脚201、一第二接脚202及一第三接脚203,第一接脚201电性连接传输市电1的地线52,第二接脚202电性连接交流/直流转换器41的另一输入端。第一控制器21电性连接传输市电1的地线52、火线51、第三接脚203及天线单元101。借此,第一控制器21通过天线单元101接收低功耗电子装置11发送的接通信号以控制继电模块22导通市电1提供电力给室内灯具4,使低功耗电子装置11的室内型太阳能储能单元3受室内灯具4照射而转换光能并储存电能,进而供电给其他元件继续运作。
参阅图3,并配合图1,在第二实施态样中,室内灯具4也包括交流/直流转换器41及发光模块42,与第一实施态样类似。与第一实施态样不同的是,本实施态样的交流/直流转换器41具有二端,其中一端电性连接传输市电1的地线52,开关单元2’包括一第二切换模块620及一第二控制器61。第二切换模块620具有一单相固态继电器62、一控制端621及一输出端622,输出端622电性连接交流/直流转换器41的另一端。第二控制器61电性连接火线51、控制端621及天线单元101。借此,第二控制器61通过天线单元101接收低功耗电子装置11发送的接通信号以控制单相固态继电器62导通市电1提供电力给室内灯具4,使低功耗电子装置11的室内型太阳能储能单元3受室内灯具4照射而转换光能并储存电能,进而供电给其他元件继续运作。
综上所述,本发明至少具有以下功效:电力供应装置12的室内型太阳能储能单元3,通过室内灯具4可供应电能给例如无线防盗警报系统的磁感应器或环境感应器的低功耗电子装置11,无须更换电池并免除人工维护成本。对于长假或寒暑假期间,无线防盗警报系统的电力不会耗尽而可持续作用,可避免小偷侵入。另外,功耗电子装置的控制模块30判断储备电能充饱时可通知电力供应装置12停止提供电力给室内灯具4,可进一步节省不必要的能源消耗,因此确实能达成本发明的目的。
以上所述内容,仅为本发明的实施例而已,但不能以此限定本发明实施的范围,即大凡依本发明权利要求书及专利说明书内容所作的简单的等效变化与修饰,都在本发明专利涵盖的范围内。
Claims (7)
1.一种室内光源供电控制系统,其特征在于:包含:
一低功耗电子装置,具有:
一室内型太阳能储能单元,可利用外界弱光发电而转换为一储备电能,
一控制模块,电性连接该室内型太阳能储能单元并接受该储备电能供电,及
一天线模块,电性连接该控制模块,且当该控制模块判断该室内型太阳能储能单元的储备电能不足时就通过该天线模块发送一接通信号;及
一电力供应装置,具有:
一室内灯具,连接一市电,并设置于邻近该室内型太阳能储能单元以提供光能给该室内型太阳能储能单元;
一开关单元,电性连接该市电及该室内灯具之间,及
一天线单元,电性连接该开关单元,并接收该低功耗电子装置发送的接通信号以控制该开关单元导通该市电提供电力给该室内灯具,且该室内灯具输出光能给该低功耗电子装置的室内型太阳能储能单元以接收该室内灯具的光能而转换为该储备电能以使该低功耗电子装置继续运作。
2.如权利要求1所述的室内光源供电控制系统,其特征在于:当该低功耗电子装置的控制模块判断该储备电能充饱时通过该天线模块发送一断开信号,该电力供应装置经由该天线单元接收该断开信号以控制该开关单元断开以停止该市电提供电力给该室内灯具。
3.如权利要求2所述的室内光源供电控制系统,其特征在于:该低功耗电子装置还包括一受该控制模块控制的主要电路,该主要电路是一门窗感应电路、一电子锁电路或一环境感测电路。
4.如权利要求1至3任一项所述的室内光源供电控制系统,其特征在于:该室内灯具包括一交流/直流转换器及一发光模块,该交流/直流转换器具有二输入端,其中一输入端电性连接传输该市电的火线,该开关单元包括:
一第一切换模块,具有一继电模块、一第一接脚、一第二接脚及一第三接脚,该第一接脚电性连接传输该市电的地线,该第二接脚电性连接该交流/直流转换器的另一输入端;及
一第一控制器,电性连接传输该市电的地线、火线、该第三接脚及该天线单元;
借此,该第一控制器通过该天线单元接收该低功耗电子装置发送的接通信号,以控制该继电模块导通该市电提供电力给该室内灯具。
5.如权利要求1至3任一项所述的室内光源供电控制系统,其特征在于:该室内灯具包括一交流/直流转换器及一发光模块,该交流/直流转换器具有二端,其中一端电性连接传输该市电的地线,该开关单元包括:
一第二切换模块,具有一单相固态继电器、一控制端及一输出端,该输出端电性连接该交流/直流转换器的另一端;及
一第二控制器,电性连接该火线、该控制端及该天线单元;
借此,该第二控制器通过该天线单元接收该低功耗电子装置发送的接通信号,以控制该单相固态继电器导通该市电提供电力给该室内灯具。
6.一种室内光源供电控制方法,应用于一低功耗电子装置及一电力供应装置,该低功耗电子装置具有一室内型太阳能储能单元、一控制模块及一天线模块,该电力供应装置具有一室内灯具、一开关单元及一天线单元,该室内型太阳能储能单元借由外界弱光发电而转换为一储备电能,该室内灯具连接一市电并设置于邻近该室内型太阳能储能单元以提供光能给该室内型太阳能储能单元,该开关单元电性连接该市电及该室内灯具之间,该天线单元电性连接该开关单元,其特征在于:该方法包含下述步骤:
该控制模块接受该储备电能供电,且当该控制模块判断该室内型太阳能储能单元的储备电能不足时就通过该天线模块发送一接通信号;及
该天线单元接收该低功耗电子装置发送的接通信号,以控制该开关单元导通该市电提供电力给该室内灯具,且该室内灯具输出光能给该低功耗电子装置的室内型太阳能储能单元,以接收该室内灯具的光能而转换为该储备电能以使该低功耗电子装置继续运作。
7.如权利要求6所述的室内光源供电控制方法,其特征在于:当该低功耗电子装置的控制模块判断该储备电能充饱时通过该天线模块发送一断开信号,该电力供应装置经由该天线单元接收该断开信号,以控制该开关单元停止该市电提供电力给该室内灯具。
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CN109027917A (zh) * | 2018-07-21 | 2018-12-18 | 李能彬 | 室内光电转换循环系统 |
CN109542007A (zh) * | 2018-11-28 | 2019-03-29 | 河北旗馨节能环保科技有限公司 | 双模式时间控制装置和时间控制方法 |
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CN109027917A (zh) * | 2018-07-21 | 2018-12-18 | 李能彬 | 室内光电转换循环系统 |
CN109542007A (zh) * | 2018-11-28 | 2019-03-29 | 河北旗馨节能环保科技有限公司 | 双模式时间控制装置和时间控制方法 |
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