CN101136129A - Solar panel theft preventing installation and anti-theft method thereof - Google Patents

Solar panel theft preventing installation and anti-theft method thereof Download PDF

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Publication number
CN101136129A
CN101136129A CN 200710121935 CN200710121935A CN101136129A CN 101136129 A CN101136129 A CN 101136129A CN 200710121935 CN200710121935 CN 200710121935 CN 200710121935 A CN200710121935 A CN 200710121935A CN 101136129 A CN101136129 A CN 101136129A
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China
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solar
signal
solar cell
panel
alarm
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CN 200710121935
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Chinese (zh)
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刘晓健
毛法兵
潘耀杰
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北京意科通信技术有限责任公司
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Priority to CN 200710121935 priority Critical patent/CN101136129A/en
Publication of CN101136129A publication Critical patent/CN101136129A/en

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Abstract

The solar cell board anti-theft device is jointed with a solar power supply system controller, which comprises a alarming-signal generation unit to detect position conditions of the solar cell board and generate a alarming-signal to the solar power-supply system controller while detecting the cell board far away from safety range, an alarming unit for receiving the instruction signals sent from the solar power-supply system controller to conduct local photo-acoustic alarming.

Description

太阳能电池板防盗装置及其防盗方法技术领域本发明涉及的是一种防盗装置和方法,特别涉及的是一种太阳能电池板防盗装置以及防盗方法。 Anti-theft device and a solar panel theft TECHNICAL FIELD The present invention relates to an anti-theft device and method, and particularly relates to an antitheft device for a solar panel and a method of theft. 背景技术对于电力设置的保护,是关系到能源安全的一个重要方面,据统计2005年第一季度青海省共发生电力设施被盗窃破坏案件34起,造成直接经济损失70多万元。 Background for the protection of power set is related to energy security is an important aspect, according to statistics in the first quarter of 2005 Qinghai electric power facilities were destroyed theft cases were 34 cases, resulting in direct economic losses of more than 70 million. 据省电力公司统计,在这34起案件中,西宁供电局9起、海东供电局11 起、海南供电局12起、黄化供电局l起,海西供电局l起。 According to the provincial power company statistics, in the 34 cases, nine Xining Power Supply Bureau, Power Supply Bureau Haidong 11 cases, 12 cases of Hainan Power Supply Bureau, from yellow Supply Bureau l, from Haixi Power Supply Bureau l. 涉及青海省电力公司6个局中的5个供电局,其中重大案件20起,特大案件14起,被盗输电线39. 05 千米,太阳能电池板60块,35KV拉线28条,10KV塔材46件,造成1基10KV 倒杆,被盗窃的还有变压器,电缆线等电力设施,造成直接经济损失75. 75万元。 Relates Qinghai electric power company 6 Bureau Power Supply 5, wherein major cases 20 cases, 14 cases large, transmission line theft 39.05 kilometers, solar panels 60, 28 35KV cable, 10KV tower material 46, killing one base 10KV shot down, as well as stolen transformers, cables and other power facilities, causing a direct economic loss of 757,500 yuan. 尽管同期相比发案有所下降,但所造成的经济损失却上升了37, 6% 。 Although the incidence compared to the same period of decline, but the economic losses has increased by 37, 6%. '青藏铁路沿线移动网络覆盖一期工程建设完成,但是后期维护工作和基站设施的安全问题成为对移动公司的巨大考验,尤其是太阳能基板经常被不法分子偷盗,使基站不能正常工作。 'Mobile network coverage along the Qinghai-Tibet Railway construction of a complete, but the post-maintenance and safety work station facilities become a huge challenge for mobile companies, especially solar substrate often lawless elements theft, the base station does not work. 据西藏移动介绍,从2005年3月到2006年4月,共丟失太阳能基板3000多块,损失150多万。 According to the Tibet movement to reports, from March 2005 to April 2006, a total of more than 3000 solar substrate loss, loss of more than 150 million. 在纳木措湖附近的一个基站上,价值120万元的太阳能基板全部被盗。 A base station in the vicinity of Lake Namtso, the value of 1.2 million all stolen solar substrate. 为了保护通信设施,移动公司需要聘用当地居民作为值守人员,或者从公司派驻值守人员。 To protect communications facilities, mobile companies need to hire local residents as the officers on duty, or on duty personnel stationed from the company. 一个基站需要两名值守, 一名值守一个月的工资至少要一两千元。 A base station needs two on duty, a duty to at least one month's salary two thousand dollars. 也就是说, 一个基站一年仅值守的费用就需要两万元以上,还不包括技术上的维护。 In other words, only one base year, the cost of duty will need more than 20,000 yuan, not including technical maintenance. 因节约能源且绿色环保,太阳能路灯渐渐成为城市照明新宠,扬州市于2006 年"4 • 1 8"前夕安装试用。 Due to energy conservation and environmental protection, solar street lighting gradually become the new darling of the city, on the eve of Yangzhou City in 2006 "4 • 1 8" to install the trial. 但相关人士在接受记者采访时坦陈,由于损坏被盗严重,太阳能路灯在扬城推广很难。 However, stakeholders in an interview with reporters frankly stated that, due to the theft of serious damage, it is difficult to promote solar street in the city of Yang. 太阳能路灯的核心部件太阳能板和电池经常被偷去当废品卖,最多一天被盗和损坏有五六盏。 Solar lights core components of the solar panels and batteries are often sold as scrap stolen, theft and damage up to a day have fifty-six. 一盏太阳能路灯4 0 0 0元左右,这两种部件价值差不多占2 / 3 。 A solar street 400 about $ 0, the value of these two components accounted for almost 2/3. 由此可见,目前太阳能电池板丟失是阻碍其应用、推广的一大重要因素,如何经济有效的解决该问题成为本发明的最终目的。 One of the important factors Thus, the current loss of solar panels is hindering its application and promotion, and how cost-effective solution to this problem become the ultimate object of the invention. 发明内容本发明的目的在于,提供一种太阳能电池板防盗装置以及防盗方法,用以克服上述缺陷。 Object of the present invention is to provide an antitheft device for a solar panel and anti-theft method to overcome the above drawbacks. 为实现上述目的,本发明采用的技术方案在于,首先提供一种太阳能电池板防盗装置,与一太阳能供电系统控制器结合使用,其中:其包括: 一报警信号产生单元用以侦测太阳能电池板的位置情况,在侦测到其远离安全范围时产生一报警信号给所述太阳能供电系统控制器;一报警单元用以接收所述太阳能供电系统控制器发出的指令信号,进行本地的声光报警;较佳的,所述的报警信号产生单元包括一导线以及与其相连接的一恒压电路, 所述的导线穿过所述的太阳能电池板,并与所述的太阳能供电系统控制器相连接;较佳的,所述的报警信号产生单元包括射频识别标签、 一阅读器以及一天线组成,所述的射频识别标签设置于所述的太阳能电池板极板上,所述的天线用以在所述的射频识别标签和阅读器间传递射频信号,所述的阅读器与所述太阳能供 To achieve the above object, the present invention adopts the technical solution that is first provided an antitheft device for a solar panel, a solar power supply used in conjunction with the system controller, wherein: comprising: a warning signal generation means for detecting a solar cell panel the location condition, detects that generates an alarm signal to the controller away from the solar power supply system safety range; an alarm unit to receive the instruction signal solar power system issued by the controller, the local sound and light alarm ; preferably, the alarm signal generating means comprises a constant voltage circuit, and a wire connected thereto, said wire through said solar cell panel, and connected to the solar power system controller ; preferably, the alarm signal generating means comprises a radio frequency identification tag, a reader and an antenna composed of the radio frequency identification tag disposed on the solar cell panel electrode plate, according to the antenna between the RFID tag and the reader transmitting a radio frequency signal, the reader for the solar 系统控制器相连接;较佳的,所述的恒压电路是由一直流电源、 一限流电阻以及一光电耦合器串联而成;较佳的,还包括一通信单元,其与所述的太阳能供电系统控制器相连,将报警信息传输至远程的控制中心;其次提供了一种太阳能电池板防盗方法,其是通过上述的太阳能电池板防盗装置实现的,其特征在于,其包括的步骤为:侦测至少一太阳能电池板是否超出安全的位置范围;在没有超出安全位置范围的情况下,太阳能供电系统控制器一信号输入端获得一稳定信号;当所述的太阳能电池板超出安全位置范围的情况下,所述的太阳能供电系统控制器一信号输入端获得一报警信号;所述的太阳能供电系统控制器发出指令信号,进行本地的声光报警; 较佳的,还包括:所述的太阳能供电系统控制器通过一通信单元,将报警信息传输至远程的控制中 The system controller is connected; Preferably, the constant voltage circuit is composed of a DC power source, a current limiting resistor and a photocoupler in series; Preferably, further comprising a communication unit, with the solar power system connected to the controller, the alarm information is transmitted to the remote control center; second solar cell panel is provided a theft prevention method, which is obtained by the above-mentioned solar panel realized an antitheft device, characterized in that it comprises the steps of : detecting at least one solar panel exceeds a safe range of positions; in the safety position without exceeding the scope of the solar power system controller a signal input terminal to obtain a stabilization signal; and when the solar panel exceeds the safe range of positions in the case where the solar power system controller a signal input terminal to obtain a warning signal; the solar power system controller issues a command signal, the local sound and light alarm; preferred, further comprising: said a solar power system controller via the communication unit, the alarm information is transmitted to the remote control 心;较佳的,所述的稳定信号是经过一直流电源输出,通过光耦和限流电阻,在检测导线上产生一电流,通过光耦对所述的电流采样获得的;较佳的,所述的检测导线穿过所述的太阳能电池板,当所述的太阳能电池板超出所述安全的位置范围时,则造成检测导线断开,产生所述报警信号;较佳的,所述的稳定信号是由一设在所述的太阳能电池板上的射频识别标签, 处于磁场范围内,使一阅读器获得稳定的信号产生的,所述的磁场范围与所述的安全的位置范围相等;较佳的,所述的太阳能电池板超过所述的安全的位置范围,使所述的阅读器得不到信号,从而产生所述报警信号;较佳的,所述的射频识别标签存储有所述太阳能电池板的信息,所述信息包括:太阳能电池板编号、所处的位置,当产生所述报警信号时,所述的太阳能供电系统控制器通过所 Heart; Preferably, the stabilized signal is output through a DC power, through the optocoupler and current limiting resistor, a current is generated in the detection conductor, obtained by sampling the current of the optocoupler; preferred, the detection of the wire through the solar cell panel, when the solar panel beyond the safe range of positions, the wire disconnection detection result, the alarm signal is generated; preferably, said stabilization signal is a radio frequency identification tag disposed in the solar panel, within the magnetic field range of the reader to obtain a stable signal is generated, equal range of positions of the magnetic field range and the secure; preferably, the solar panel exceeds the safe range of positions, so that the reader not signal, thereby generating the alarm signal; preferably, the RFID tag has been stored said solar cell panel information, the information comprising: a solar cell panel ID, the position at which, when the alarm signal is generated, according to the solar power system controller 述的通信单元将所述的信息传输给远程的控制中心。 The communication unit described later, the information transmitted to the remote control center. 与现有技术比较本发明的有益效果在于,成本低,可靠性强,便于远距离集约管理。 Advantageous Effects comparison with the prior art of the present invention, low cost, reliability, ease of remote intensive management. 附图说明图1为本发明太阳能电池板防盗装置的结构原理图; 图2为本发明太阳能电池板防盗装置的实施例一的结构简图; 图2A为本发明太阳能电池板防盗装置的实施例一中报警信号信号产生单元的结构简图;图3为本发明太阳能电池板防盗装置的实施例二的结构简图; 图4为本发明太阳能电池板防盗方法的流程图。 1 shows the schematic structure of a solar cell panel of the present invention, an antitheft device; configuration diagram of an embodiment of the solar cell panel to an anti-theft device of the present invention, FIG. 2; FIG. 2A is a solar cell panel of the present invention, an antitheft device generating an alarm signal in a structure diagram of the unit; configuration diagram of an embodiment of the solar panel two anti-theft device of the present invention in FIG. 3; FIG. 4 is a flowchart of a method of the solar cell panel antitheft invention. 具体实施方式以下结合附图,对本发明上述的和另外的技术特征和优点作更详细的说明。 DETAILED DESCRIPTION OF THE DRAWINGS The above and further features and advantages of the present invention will be described in more detail. 请参阅图l所示,其为本发明太阳能电池板防盗装置的结构原理图,其与一太阳能供电系统控制器1相连,所述的太阳能供电系统控制器1其为太阳能系统自带的设备,在本发明中其用以实现本发明太阳能电池板防盗装置中数据的处理 See FIG. L, which shows the schematic structure of the solar cell panel antitheft device of the present invention, with a solar power supply system connected to the controller 1, the solar power system controller 1 which is a solar system built-in device, in the present invention, which is used to implement data processing of the present invention is a solar cell panel antitheft device

和控制其它部件的动作; 一报警信号产生装置2其用以侦测太阳能电池板的位置情况,在侦测到其远离安全范围时产生一报警信号给所述太阳能供电系统控制器1; 一报警单元3用以接收所述太阳能供电系统控制器l发出的指令信号,进行本地的声光报警,其为蜂鸣器、扬声器以及LED灯组组成(所述的报警单元3其为本领域技术人员都通晓的技术这里就不再赘述了);由于有些太阳能电池板设置于偏远的地区,为了实现和监测中心的联系,还包括一通信单元4,其与所述的太阳能供电系统控制器1相连,将报警信息传输至远程的监测中心。 And controlling operation of other components; generating a warning signal which means 2 for detecting the position of the solar cell panel, an alarm is generated in the detected signal to the solar power system controller 1 when it is away from the safety range; an alarm 3 means for receiving a command signal sent by the controller l solar power supply system, a local sound and light alarm, which is a buzzer, a speaker, and LED lights group consisting (said alarm means 3 known to those skilled in are proficient in the art of not repeated here); since the solar cell panel provided in some remote areas, and a monitoring center in order to achieve contact, further comprising a communication unit 4, with the solar power supply system connected to the controller 1 , alarm information is transmitted to the remote monitoring center. 请参阅图2所示,其为本发明太阳能电池板防盗装置的实施例一的结构简图, 所述的太阳能供电系统控制器包括:与中央处理器110相连接的按键117、模拟量输入电路lll、开关量输入电路112、内存114、闪存115以及其它常规功能模块113;所述的报警信号产生装置21、通信单元41以及报警单元31分别与所述的中央处理器110相连接;所述的报警信号产生装置21用以侦测太阳能电池板的位置情况,在侦测到其远离安全范围时产生一报警信号给所述太阳能供电系统控制器, 由中央处理器110进行处理,并将一指令信号传输给所述的报警单元31,进行声光报警;同时将报警信息通过所述的通信单元41传输给远端的监控中心,并且把此次异常状态记录在所述的闪存115中,作为日志内容。 Please refer to FIG. 2, the solar cell panel of the present invention, an antitheft device which is a configuration diagram of an embodiment of a solar power system controller comprising: a central processor 110 and a key 117 connected to the analog input circuit LLL, digital input circuit 112, memory 114, flash memory 115 and other conventional functional module 113; generating the alarm signal 21, the communication unit 41 and an alarm unit 31 are respectively connected to said central processor means 110; the alarm signal generating means 21 for detecting the position where the solar cell panel generates an alarm signal to the controller when the solar power system detects away from the safety range, the processing by the central processor 110, and a command signal to the alarm unit 31, sound and light alarm; alarm simultaneously transmitting information through the communication unit 41 to a remote monitoring center, and the abnormal state of the record in the flash memory 115, as the contents of the log. 请结合图2A所示,其为本发明太阳能电池板防盗装置的实施例一中报警信号信号产生单元的结构简图;其包括: 一导线212以及与其相连接的一恒压电路, 所述的导线212穿过所述的太阳能电池板(图中未示),其引出的端子216与所述的太阳能供电系统控制器的中央处理器110相连接,所述的恒压电路是由一直流电源211、 一限流电阻214、限压电阻215以及一光电耦合器213串耳关而成;由于直流电源211输出,通过导线212、光耦215以及限流电阻212产生一2mA左右的电流,通过光耦215对小电流进行采样,并将釆样信号与所述的中央处理器110相连接,当太阳能电池板远离安全位置,必然要切断所述的导线212,则中央处理器110监测不到采样信号,从而使中央处理器110获得报警信号。 Please FIGS. 2A, an embodiment of a solar panel alarm signal generating configuration diagram of the antitheft device of the present invention, which unit; comprising: a lead 212 and a constant voltage circuit connected thereto, said 212 wire through the solar panel (not shown), led out of the central processor 110 of the terminal 216 and the solar power system controller connected to the constant voltage circuit is composed of a DC power 211, a current limiting resistor 214, a resistor 215 and a pressure limiting photocoupler 213 string off from the ear; output due to a DC power supply 211, a current of about 2mA generated by wires 212, the optocoupler 215 and a current limiting resistor 212, by optocoupler 215 pairs of small current sampling, and preclude the sampled signal with said central processor 110 is connected, when the solar panels away from the safe position, inevitably cutting the wire 212, the central processor 110 to monitor not sampling the signal, such that the central processor 110 obtains an alarm signal. 请参阅图3所示,其为本发明太阳能电池板防盗装置的实施例二的结构简图, 所述的太阳能供电系统控制器包括:与中央处理器121相连接的按键127、模拟量输入电路122、开关量输入电路123、内存125、闪存126以及其它常规功能模块124,所述的报警信号产生装置、通信单元42以及报警单元32分别与所述的中央处理器121相连接;所述的报警信号产生装置用以侦测太阳能电池板的位置情况,在侦测到其远离安全范围时产生一报警信号给所述太阳能供电系统控制器,由中央处理器121进行处理,并将一指令信号传输给所述的报警单元32,进行声光报警;同时将报警信息通过所述的通信单元42传输给远端的监控中心;同时把此次异常状态记录在所述的闪存126中,作为日志内容;本实施例在于实施例一相区别的方面是在于,所述的报警信号产生装置包括:阅读器转换电 Please refer to FIG. 3, the solar cell panel of the present invention, an antitheft device which is the structure diagram of the second embodiment, a solar power system controller comprising: a central processor 121 and a key 127 connected to the analog input circuit 122, digital input circuit 123, memory 125, flash memory 126 and other conventional functional module 124, the alarm signal generating means, the communication unit 42 and an alarm unit 32 are respectively connected to the central processor 121; and the alarm signal generating means for detecting the position of the solar cell panel, it detects an alarm signal is generated away from the safety range to the solar power system controller 121 for processing by the central processor, and a command signal transmitted to the alarm unit 32, sound and light alarm; while the alarm information through the communication unit 42 is transmitted to the remote monitoring center; the same time, the abnormal state is recorded in the flash memory 126, as the log content; Example the present embodiment is distinguished from an aspect that the alarm signal generating means comprising: a conversion circuit reader 路221、天线222以及射频识别标签223,所述的射频识别标签223设置于所述的太阳能电池板极板上,所述的天线222用以在所述的射频识别标签223和阅读器转换电路221间传递射频信号,所述的阅读器转换电路221与所述太阳能供电系统控制器的中央处理器相121连接;当所述的射频识别信号超过了安全位置,也就是说太阳能电池板被盗走,此时天线222侦测不到射频识别标签223的信号,以致于所述的阅读器转换电路221无法获得信号,则中央处理器121监测不到采样信号, 从而使中央处理器121获得报警信号。 Path 221, antenna 222 and a radio frequency identification tag 223, the RFID tag 223 is provided on the pole plate solar cell panel, the antenna 222 to convert the radio frequency identification tag 223 and the reader circuitry central processor 221 transmitting a radio frequency signal, the reader circuit 221 converts the solar power system 121 is connected with the controller; when the radio frequency identification signal exceeds the safety position, i.e. the solar panel is stolen walking, antenna 222 at this time the detection signal is less than the radio frequency identification tag 223, such that the reader can not obtain a signal conversion circuit 221, the central processor 121 monitors not sampled signal, such that the central processor 121 obtains the alarm signal. 请参阅图4所示,其为本发明太阳能电池板防盗方法的流程图,其是通上述的太阳能电池板防盗装置实现的,其包括的步骤为:步骤a:侦测至少一太阳能电池板是否超出安全的位置范围; 步骤b:在没有超出安全位置范围的情况下,太阳能供电系统控制器一信号输入端获得一稳定信号;步骤c:当所述的太阳能电池板超出安全位置范围的情况下,所述的太阳能供电系统控制器一信号输入端获得一报警信号;步骤d:所述的太阳能供电系统控制器发出指令信号,进行本地的声光报警; 步骤e:所述的太阳能供电系统控制器通过一通信单元,将报警信息传输至远程的控制中心;所述的稳定信号在实施例一中是经过一直流电源输出,通过光耦和限流电阻, 在检测导线上产生一电流,通过光耦对所述的电流采样获得的;所述的检测导线穿过所述的太阳能电池板,当所 Please refer to FIG. 4, which is a flowchart of a method of the solar cell panel antitheft invention, which is above the solar panel through the anti-theft device implemented, comprising the steps of: Step a: detecting whether the at least one solar panel step C; in the safety position without exceeding the scope of the solar power system controller a signal input terminal to obtain a stable signal:: a case where the solar cell panel exceeds the safety range of positions; safe location outside the range of step b the solar power system controller a signal input terminal to obtain an alarm signal; step d: the solar power system controller issues a command signal, the local sound and light alarm; step e: the solar power system control through a communication unit to transmit alarm information to the remote control center; the stabilization signal in the embodiment is through a DC power output through the optocoupler and current limiting resistor, a current is generated in the detected lead by sampling the optocoupler current obtained; detecting the wire through the solar cell panel, when the 的太阳能电池板超出所述安全的位置范围时,则造成检测导线断开,产生所述报警信号;所述的稳定信号在实施例二中是由一设在所述的太阳能电池板上的射频识别标签,处于磁场范围内,使一阅读器获得稳定的信号产生的,所述的磁场范围与所述的安全的位置范围相等; When the solar panel beyond the safe range of positions, the wire disconnection detection result, the alarm signal is generated; stabilization signal according to the second embodiment of is provided by a solar panel according to the radio identification tag, is within the magnetic field range of the reader to obtain a stable signal is generated, equal range of positions of the magnetic field range and the secure;

所述的太阳能电池板超过所述的安全的位置范围,使所述的阅读器转换电路得不到信号,从而产生所述报警信号;对于实施例二中,所述的射频识别标签存储有所述太阳能电池板的信息,所述信息包括:太阳能电池板编号、所处的位置,当产生所述报警信号时,所述的太阳能供电系统控制器通过所述的通信单元将所述的信息传输给远程的控制中心。 The solar panel exceeds the safe range of positions, so that the reader not converting circuit signal, thereby generating the alarm signal; Second embodiment for the radio frequency identification tag has been stored said solar cell panel information, the information comprising: a solar cell panel ID, the position at which the information transmission, when the alarm signal is generated, by the communication unit according to the solar power supply system of the controller to the remote control center. 以上所述仅为本发明的较佳实施例,对本发明而言仅仅是说明性的,而非限制性的。 The above are only preferred embodiments of the present invention, for the present invention are merely illustrative, and not restrictive. 本专业技术人员理解,在本发明权利要求所限定的精神和范围内可对其进行许多改变,修改,甚至等效,但都将落入本发明的保护范围内。 Understood by those skilled in the claims of the invention within the spirit and scope as defined can be many alternatives, modifications, equivalents and even, but will fall within the scope of the present invention.

Claims (12)

1、一种太阳能电池板防盗装置,与一太阳能供电系统控制器结合使用,其特征在于:其包括:一报警信号产生单元用以侦测太阳能电池板的位置情况,在侦测到其远离安全范围时产生一报警信号给所述太阳能供电系统控制器; 一报警单元用以接收所述太阳能供电系统控制器发出的指令信号,进行本地的声光报警。 1, an antitheft device for a solar panel, a solar power supply used in conjunction with the system controller, characterized by: comprising: a warning signal generation means for detecting the position of the solar cell panel, in its safe distance from the detected generating a warning signal to the range of the solar power system controller; an alarm unit to receive the instruction signal solar power system issued by the controller, the local sound and light alarm.
2、 根据权利要求1所述的太阳能电池板防盗装置,其特征在于,所述的报警信号产生单元包括一导线以及与其相连接的一恒压电路,所述的导线穿过所述的太阳能电池板,并与所述的太阳能供电系统控制器相连接。 2, the solar cell panel anti-theft device according to claim 1, wherein said alarm signal generating means comprises a constant voltage circuit, and a wire connected thereto, said wire through said solar cell plate, and is connected to the solar power supply system controller.
3、 根据权利要求1所述的太阳能电池板防盗装置,其特征在于,所述的报警信号产生单元包括射频识别标签、 一阅读器以及一天线组成,所述的射频识别标签设置于所述的太阳能电池板极板上,所述的天线用以在所述的射频识别标签和阅读器间传递射频信号,所述的阅读器与所述太阳能供电系统控制器相连接。 3, the solar cell panel anti-theft device according to claim 1, wherein said alarm signal generating means comprises a radio frequency identification tag, a reader and an antenna composed of the radio frequency identification tag disposed in said plate solar panel, an antenna for the radio frequency identification between the tag reader and the radio frequency signal is transmitted, the reader and the solar power supply system connected to the controller.
4、 根据权利要求2所述的太阳能电池板防盗装置,其特征在于,所述的恒压电路是由一直流电源、 一限流电阻以及一光电耦合器串联而成。 4. The solar panel antitheft device as claimed in claim 2, wherein said constant voltage circuit is composed of a DC power source, a current limiting resistor and a photocoupler in series.
5、 根据权利要求1所述的太阳能电池板防盗装置,其特征在于,还包括一通信单元,其与所述的太阳能供电系统控制器相连,将报警信息传输至远程的控制中心。 5. The solar panel anti-theft device as claimed in claim 1, characterized by further comprising a communication unit, which is connected to the solar power system controller, alarm information is transmitted to the remote control center.
6、 一种太阳能电池板防盗方法,其是通过上述的太阳能电池板防盗装置实现的,其特征在于,其包括的步骤为:侦测至少一太阳能电池板是否超出安全的位置范围;在没有超出安全位置范围的情况下,太阳能供电系统控制器一信号输入端获得一稳定信号;当所述的太阳能电池板超出安全位置范围的情况下,所述的太阳能供电系统控制器一信号输入端获得一报警信号;所述的太阳能供电系统控制器发出指令信号,进行本地的声光报警。 6, anti-theft method for a solar panel, which is achieved by the above-described anti-theft device of the solar panel, characterized in that it comprises the steps of: detecting at least a range of positions solar panel exceeds a safe; not exceeded in if the security range of positions, a solar power supply system control signal input terminal to obtain a stabilization signal; and when the solar panel beyond the scope of the case where the safety position, according to a solar power system controller to give a signal input terminal an alarm signal; the solar power system controller issues a command signal, the local sound and light alarm.
7、 根据权利要求6所述的太阳能电池板防盗方法,其特征在于,还包括:所述的太阳能供电系统控制器通过一通信单元,将报警信息传输至远程的控制中心。 7, the solar cell panel anti-theft method according to claim 6, characterized in that, further comprising: a solar power system controller via a communication unit to transmit alarm information to the remote control center.
8、 根据权利要求6所述的太阳能电池板防盗方法,其特征在于,所述的稳定信号是经过一直流电源输出,通过光耦和限流电阻,在检测导线上产生一电流,通过光耦对所述的电流采样获得的。 8, solar cell panel according to claim theft method according to claim 6, wherein said stabilizing signal is output through a DC power, through the optocoupler and current limiting resistor, a current is generated in the detection wire, through the optocoupler the current obtained by sampling.
9、 根据权利要求8所述的太阳能电池;f反防盗方法,其特征在于,所述的;f企测导线穿过所述的太阳能电池板,当所述的太阳能电池板超出所述安全的位置范围时,则造成检测导线断开,产生所述报警信号。 9, the solar cell according to claim 8, wherein; F anti-theft method, characterized in that said; F test wire through half of the solar panels, when the solar panel beyond the safe range position, the wire disconnection detection result, the alarm signal is generated.
10、 根据权利要求6所述的太阳能电池板防盗方法,其特征在于,所述的稳定信号是由一设在所述的太阳能电池板上的射频识别标签,处于磁场范围内,使一阅读器获得稳定的信号产生的,所述的磁场范围与所述的安全的位置范围相等。 10, solar cell panel according to claim theft method according to claim 6, wherein said stabilizing signal is generated by a radio frequency identification tag disposed in the solar panel, within the magnetic field range, so that a reader obtaining a stable signal generated is equal to the position of the safety range of the magnetic field range.
11、 根据权利要求IO所述的太阳能电池板防盗方法,其特征在于,所述的太阳能电池板超过所述的安全的位置范围,使所述的阅读器得不到信号,从而产生所述报警信号。 11. The security method of the solar cell panel IO claim, wherein said solar cell panel exceeds the safe range of positions, so that the reader not signal to produce said alarm signal.
12、 根据权利要求11所述的太阳能电池板防盗方法,其特征在于,所述的射频识别标签存储有所述太阳能电池板的信息,所述信息包括:太阳能电池板编号、 所处的位置,当产生所述报警信号时,所述的太阳能供电系统控制器通过所述的通信单元将所述的信息传输给远程的控制中心。 12, the solar cell panel anti-theft method according to claim 11, wherein said radio frequency identification tag storing information of the solar cell panel, the information comprising: a solar cell panel ID, the position is located, when the alarm signal is generated, according to the solar power system controller via the communication unit transmitting information to the remote control center.
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