CN112039209A - 户外能源双备及蓄电池充放切换监控装置 - Google Patents
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- H02J13/00—Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network
- H02J13/00006—Circuit arrangements for providing remote indication of network conditions, e.g. an instantaneous record of the open or closed condition of each circuitbreaker in the network; Circuit arrangements for providing remote control of switching means in a power distribution network, e.g. switching in and out of current consumers by using a pulse code signal carried by the network characterised by information or instructions transport means between the monitoring, controlling or managing units and monitored, controlled or operated power network element or electrical equipment
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- H02J—CIRCUIT ARRANGEMENTS OR SYSTEMS FOR SUPPLYING OR DISTRIBUTING ELECTRIC POWER; SYSTEMS FOR STORING ELECTRIC ENERGY
- H02J9/00—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting
- H02J9/04—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source
- H02J9/06—Circuit arrangements for emergency or stand-by power supply, e.g. for emergency lighting in which the distribution system is disconnected from the normal source and connected to a standby source with automatic change-over, e.g. UPS systems
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- Y04S20/00—Management or operation of end-user stationary applications or the last stages of power distribution; Controlling, monitoring or operating thereof
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- Y04S20/00—Management or operation of end-user stationary applications or the last stages of power distribution; Controlling, monitoring or operating thereof
- Y04S20/20—End-user application control systems
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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
- Y04—INFORMATION OR COMMUNICATION TECHNOLOGIES HAVING AN IMPACT ON OTHER TECHNOLOGY AREAS
- Y04S—SYSTEMS INTEGRATING TECHNOLOGIES RELATED TO POWER NETWORK OPERATION, COMMUNICATION OR INFORMATION TECHNOLOGIES FOR IMPROVING THE ELECTRICAL POWER GENERATION, TRANSMISSION, DISTRIBUTION, MANAGEMENT OR USAGE, i.e. SMART GRIDS
- Y04S20/00—Management or operation of end-user stationary applications or the last stages of power distribution; Controlling, monitoring or operating thereof
- Y04S20/20—End-user application control systems
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Abstract
本发明公开了户外能源双备及蓄电池充放切换监控装置,系统组成包括显示屏、中心交换机、服务器以及多台监控装置;所述显示屏、中心交换机、服务器以及多台监控装置通过网络链接;所述监控装置包含:主安装板、外壳、主板,主电接口、备电接口、蓄电池接口以及负载接口;所述主安装板位于外壳端面,所述主板位于外壳内部。本发明的有益效果是,本发明提供了一种实时监控主备电源状态、蓄电池状态、环境温湿度,并根据主电源、备电源、蓄电池状态自动切换供电状态,且可以显示、存储、通讯的户外能源双备及蓄电池充放切换监控装置。本地的信息显示帮助维护人员迅速判断设备的故障点,方便维修。
Description
技术领域
本发明涉及蓄电池领域,特别是一种户外能源双备及蓄电池充放切换监控装置。
背景技术
随着户外分布式供电系统的发展,现在的小型电箱、机柜等设备的供电还处在单电源供电状态下,一旦电源发生故障,整个电箱或机柜等设备出于瘫痪状态,由于设备比较分散,不能及时维修,造成一定的损失;并且普通电源并不具备完备的检测、故障信息采集、故障信息传输等功能造成分布式供电系统损坏以后,无法及时把信息传输给相关人员且无备用供电方式。
再者有些双电源设备,只能在主电损坏情况下,才能切换到备电源工作,这样造成直到设备损坏,备电源却从未使用或者新更换,造成资源的浪费。
发明内容
本发明的目的是为了解决上述问题,设计了一种户外能源双备及蓄电池充放切换监控装置。
实现上述目的本发明的技术方案为,一种户外能源双备及蓄电池充放切换监控装置,系统组成包括显示屏、中心交换机、服务器以及多台监控装置;
所述显示屏、中心交换机、服务器以及多台监控装置通过网络链接;
所述监控装置包含:主安装板、外壳、主板,主电接口、备电接口、蓄电池接口以及负载接口;
所述主安装板位于外壳端面,所述主板位于外壳内部,主电接口、备电接口、蓄电池接口以及负载接口均集成于主板上;
所述主板的后端部位还设置有RS485通讯接口、网口以及显示模块。
2、户外能源双备及蓄电池充放切换方法
S1:利用监控装置通过主电源模块和备电源模块自我监控并自动切换;
S2:利用监控装置通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息;
S3;在主电源模块和备电源模块均正常的情况下,可以根据主电源模块和备电源模块的使用时长,利用监控装置切换使用,保证主备电源使用时间基本均等,减少电源损坏几率。
优选的,所述外壳左右两端的上端部位具有若干螺孔,且位于若干螺孔的下方设置有若干螺栓。
优选的,所述主备电源任何一台正常的情况下,均可对蓄电池充电;
利用监控装置通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息。
优选的,主备电源都损坏的情况下,蓄电池可以持续向监控装置负载供电,保证设备的正常工作;可以通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息。
优选的,所述监控装置具有实时监控主备电源状态、自动均衡主备电源使用时长、蓄电池状态、环境温湿度的功能,并根据主电源、备电源、蓄电池状态自动切换供电状态,且可以显示、存储、通讯。
优选的,所述主安装板上具有多个散热孔。
优选的,所述主板上设置有网络重置按钮。
利用本发明的技术方案制作的户外能源双备及蓄电池充放切换监控装置,本发明提供了一种实时监控主备电源状态、蓄电池状态、环境温湿度,并根据主电源、备电源、蓄电池状态自动切换供电状态,且可以显示、存储、通讯的户外能源双备及蓄电池充放切换监控装置。本地的信息显示帮助维护人员迅速判断设备的故障点,方便维修。
附图说明
图1是户外能源双备及蓄电池充放切换监控装置网络传输模式图;
图2是户外能源双备及蓄电池充放切换监控装置传感器模式图;
图3是户外能源双备及蓄电池充放切换监控装置侧视图;
图4是户外能源双备及蓄电池充放切换监控装置信号处理流程图;
图中,1、外壳;2、螺孔;3、螺栓;4、主安装板;5、主电接口;6、备电接口;7、蓄电池接口;8、负载接口;9、RS485通讯接口;10、网口;11、网络重置按钮;12、主板;13、散热孔;15、充电监控模块;16、供电抉择模块;18、显示模块。
具体实施方式
下面结合附图对本发明进行具体描述,如图1-4所示,一种户外能源双备及蓄电池充放切换监控装置。
实施例1
户外能源双备及蓄电池充放切换监控装置,包括显示屏、中心交换机、服务器以及多台监控装置;
所述显示屏、中心交换机、服务器以及多台监控装置通过网络链接;
所述监控装置包含:外壳1、主板12,主电接口5、备电接口6、蓄电池接口7以及负载接口8;
所述主板12位于外壳1内部,主电接口5、备电接口6、蓄电池接口7以及负载接口8均集成于主板12上;
所述主板12的后端部位还设置有RS485通讯接口9、网口10以及显示模块18;
在图3中,主用电源通过主电接口5接入,备用电源通过备电接口6接入,蓄电池通过7蓄电池接口7接入,负载设备通过负载接口8接入。如果本装置当做其他控制设备的一个模块使用,通讯通过RS485通讯接口9接入;如果本装置直接通过网络传输到后台服务器,通讯通过网口10接入。网络重置按钮11是在使用网络通讯时,忘记网络的IP地址,通过此按钮,按压10S以上,设备会自动连接默认的IP地址,然后通过软件修改设备的网络相关参数。显示模块18显示本装置的相关信息。
在图4中,电源检测模块实时监测主电源和备电源的状态,并将状态通过信号线传到监控通讯模块,监控通讯模块通过显示模块18显示实时信息并通过网口10或者RS485通讯接口9将实时数据发送至接收设备。在主电源和备电源都正常的情况下,监控通讯模块根据主电源和备电源使用时间,来回切换主电源和备电源供电时间,保证主电源和备电源的使用时长基本相同,减少电源的损坏几率。当主电源模块发生故障时,电源检测模块自动切换至备电源,故障信息实时反馈给监控通讯模块,监控通讯模块通过显示模块18显示实时信息并通过网口10或者9RS485通讯接口9将实时数据发送至接收设备;当电源监控模块监测到备电源模块发生故障时,故障信息实时反馈给监控通讯模块,监控通讯模块通过18显示模块18显示实时信息并通过网口10或者9RS485通讯接口9将实时数据发送至接收设备;当电源监控模块监控到主电源和备电源均发生故障时,故障信息实时反馈给监控通讯模块,监控通讯模块通过显示模块18显示实时信息并通过网口10或者RS485通讯接口9将实时数据发送至接收设备。供电抉择模块16会将原先的电源供电转为蓄电池供电,此后供电抉择模块16要实时监测蓄电池电压变化,如果蓄电池电压降至设定最低点,自动切断负载供电,防止蓄电池过度放电造成不可逆转的损失。充电部分工作方式,充电监控模块15在电源检测模块供电情况下,给蓄电池充电或维护。本地的信息显示帮助维护人员迅速判断设备的故障点,方便维修。本装置的故障信息可以存储在监控通讯模块板载的存储模块内,方便后期查询。本装置本身载有温湿度传感器,可以实时采集本装置环境温湿度数据,此数据也通过网口10或者RS通讯接口将实时数据发送至接收设备,作为工作人员的参考信息。
实施例2
S1:利用监控装置通过主电源模块和备电源模块自我监控并自动切换;
S2:利用监控装置通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息;
S3;在主电源模块和备电源模块均正常的情况下,可以根据主电源模块和备电源模块的使用时长,利用监控装置切换使用,保证主备电源使用时间基本均等,减少电源损坏几率。
上述技术方案仅体现了本发明技术方案的优选技术方案,本技术领域的技术人员对其中某些部分所可能做出的一些变动均体现了本发明的原理,属于本发明的保护范围之内。
Claims (8)
1.户外能源双备及蓄电池充放切换监控装置,系统组成包括显示屏、中心交换机、服务器以及多台监控装置;
所述显示屏、中心交换机、服务器以及多台监控装置通过网络链接;
所述监控装置包含:主安装板、外壳、主板,主电接口、备电接口、蓄电池接口以及负载接口;
所述主安装板位于外壳端面,所述主板位于外壳内部,主电接口、备电接口、蓄电池接口以及负载接口均集成于主板上;
所述主板的后端部位还设置有RS485通讯接口、网口以及显示模块。
2.户外能源双备及蓄电池充放切换方法,其特征在于,
S1:利用监控装置通过主电源模块和备电源模块自我监控并自动切换;
S2:利用监控装置通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息;
S3;在主电源模块和备电源模块均正常的情况下,可以根据主电源模块和备电源模块的使用时长,利用监控装置切换使用,保证主备电源使用时间基本均等,减少电源损坏几率。
3.根据权利要求1所述的户外能源双备及蓄电池充放切换监控装置,其特征在于,所述外壳左右两端的上端部位具有若干螺孔,且位于若干螺孔的下方设置有若干螺栓。
4.根据权利要求2所述的户外能源双备及蓄电池充放切换方法其特征在于,所述主备电源任何一台正常的情况下,均可对蓄电池充电;
利用监控装置通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息。
5.根据权利要求2所述的户外能源双备及蓄电池充放切换方法其特征在于,主备电源都损坏的情况下,蓄电池可以持续向监控装置负载供电,保证设备的正常工作;可以通过本地故障信息存储、实时显示,以及通过网络或者串口方式来向服务器或者控制器实时传输信息。
6.根据权利要求1所述的户外能源双备及蓄电池充放切换监控装置,其特征在于,所述监控装置具有实时监控主备电源状态、自动均衡主备电源使用时长、蓄电池状态、环境温湿度的功能,并根据主电源、备电源、蓄电池状态自动切换供电状态,且可以显示、存储、通讯。
7.根据权利要求1所述的户外能源双备及蓄电池充放切换监控装置,其特征在于,所述主安装板上具有多个散热孔。
8.根据权利要求1所述的户外能源双备及蓄电池充放切换监控装置,其特征在于,所述主板上设置有网络重置按钮。
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