CN104597887A - Intelligent remote monitoring system fire hydrant - Google Patents

Intelligent remote monitoring system fire hydrant Download PDF

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Publication number
CN104597887A
CN104597887A CN201510044164.9A CN201510044164A CN104597887A CN 104597887 A CN104597887 A CN 104597887A CN 201510044164 A CN201510044164 A CN 201510044164A CN 104597887 A CN104597887 A CN 104597887A
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China
Prior art keywords
hydrant
remote monitoring
module
monitoring system
control module
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CN201510044164.9A
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Chinese (zh)
Inventor
宛如意
彭烨
幸敏力
黄凯宁
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深圳市开天源自动化工程有限公司
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Priority to CN201510044164.9A priority Critical patent/CN104597887A/en
Publication of CN104597887A publication Critical patent/CN104597887A/en

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    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B19/00Programme-control systems
    • G05B19/02Programme-control systems electric
    • G05B19/418Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM]
    • G05B19/41835Total factory control, i.e. centrally controlling a plurality of machines, e.g. direct or distributed numerical control [DNC], flexible manufacturing systems [FMS], integrated manufacturing systems [IMS], computer integrated manufacturing [CIM] characterised by programme execution
    • GPHYSICS
    • G05CONTROLLING; REGULATING
    • G05BCONTROL OR REGULATING SYSTEMS IN GENERAL; FUNCTIONAL ELEMENTS OF SUCH SYSTEMS; MONITORING OR TESTING ARRANGEMENTS FOR SUCH SYSTEMS OR ELEMENTS
    • G05B2219/00Program-control systems
    • G05B2219/20Pc systems
    • G05B2219/25Pc structure of the system
    • G05B2219/25314Modular structure, modules

Abstract

An intelligent fire hydrant remote monitoring system comprises a plurality of parameter collection modules, a plurality of control modules, a plurality of communication modules and a remote control monitoring center. Each fire hydrant corresponds to the corresponding parameter collection module, the corresponding control module and the corresponding communication module. Each parameter collection module is used for collecting data parameters of the corresponding fire hydrant. Each control module is arranged in the corresponding fire hydrant and used for sending the state parameters collected by the corresponding collection module to the remote control monitoring center through the corresponding communication module. The remote control monitoring center is used for storing all the state parameters from the communication modules and displaying all the state parameters from the communication modules in real time. All the fire hydrants in a certain geographic area can be managed in a unified mode through the remote control monitoring center, the required fire hydrants can be maintained in time, and the normal running of all the fire hydrants is ensured.

Description

智能消防栓远程监控系统 Intelligent remote monitoring system fire hydrant

技术领域 FIELD

[0001] 本发明涉及一种智能消防栓远程监控系统。 [0001] The present invention relates to an intelligent remote monitoring system hydrant.

背景技术 Background technique

[0002] 消防栓是城市灭火系统的必要设备之一。 [0002] fire hydrant is one of the necessary equipment for the city fire extinguishing system. 由于城市中的消防栓的分布较为分散,保养难且管理复杂。 Since the distribution of fire hydrants in the city are more scattered, difficult to maintain and manage complex. 往往在使用时才发现该消防栓有问题,如此,将会耽误最佳的灭火时机。 Often found when using the fire hydrant in question, so will delay the best time to fire.

发明内容 SUMMARY

[0003] 针对现有技术的不足,本发明旨在于提供一种可解决上述技术问题的智能消防栓远程监控系统。 [0003] for the deficiencies of the prior art, the present invention aims to provide one kind of intelligence can solve the technical problem of fire hydrant remote monitoring system.

[0004] 为实现上述目的,本发明采用如下技术方案: [0004] To achieve the above object, the present invention adopts the following technical solution:

[0005] 一种智能消防栓远程监控系统,其包括若干参数采集模块、若干控制模块、若干通信模块和一远程监控中心; [0005] A hydrant intelligent remote monitoring system, comprising a plurality of parameter collection module, a plurality of control module, a communication module and a plurality of remote monitoring center;

[0006] 每一消防栓对应一参数米集模块、一控制模块和一通信模块; [0006] Each hydrant meter parameter set corresponding to a module, a control module and a communication module;

[0007] 每一参数采集模块用于采集对应消防栓的状态参数; [0007] Each parameter collection module for collecting status parameters corresponding to the hydrant;

[0008] 每一控制模块设于消防栓内,用于将参数采集模块所采集的状态参数通过对应的一通信模块发送至该远程监控中心; [0008] Each control module is provided in the fire hydrant, the parameter collection module for the collected status parameters sent to the remote monitoring center through a corresponding communication module;

[0009] 该远程监控中心用于存储以及实时显示来自通信模块的各状态参数。 [0009] The remote monitoring center for storing and displaying the real-time status of each parameter from the communication module.

[0010] 优选地,每一参数采集模块包括电性连接控制模块的水压传感器,该水压传感器安装于管网中连通对应消防栓的消防支管上。 [0010] Preferably, each parameter acquisition module comprises a sensor electrically connected to the pressure control module, the pressure sensor is mounted on the communication network in the corresponding fire hydrant branch.

[0011] 优选地,该水压传感器安装于该消防支管延伸至阀门井内的部位上。 [0011] Preferably, the pressure sensor is mounted on the fire extends to the branch pipe portion of the valve well.

[0012] 优选地,消防栓的底座上开设通孔,一引线管安装于消防栓的侧壁,该引线管的下末端延伸至消防支管的上方,该水压传感器通过收容于引线管内的导线连接控制模块。 [0012] Preferably, the hydrant base defines a through hole, a side wall of the lead pipe is attached to the hydrant, the lower end of the lead pipe extends to above the fire branch pipe, the pressure sensor is accommodated by the wire within the lead tube connection control module.

[0013] 优选地,每一参数采集模块还包括四磁感应开关和一永磁体;永磁体安装于消防栓的阀门转轴上;四磁感应开关沿圆周方向分布于阀门转轴的周边,并形成第一圆周;所述永磁体位于阀门转轴的第二圆周上,第一圆周与第二圆周构成同心圆且位于同一水平面上;每一磁感应开关电性连接控制模块。 [0013] Preferably, each of the four parameter collection module further comprises a magnetic switch and a permanent magnet; a permanent magnet mounted on the hydrant valve shaft; four magnetic switch located in a circumferential direction of the valve shaft periphery, and forming a first circumferential ; a second circumference of the permanent magnet is located in the valve shaft, a first circumference and a second circumference concentric circle configuration on the same horizontal plane; each magnetic switch is electrically connected to the control module.

[0014] 优选地,每一参数采集模块还包括安装于消防栓的盖帽内的弹簧式振动开关,该弹簧式振动开关电性连接控制模块。 [0014] Preferably, each parameter collection module further comprises a spring-vibration switch cap is attached to the inside of the hydrant, the spring-vibration switch is electrically connected to the control module.

[0015] 优选地,每一参数采集模块还包括安装于消防栓上的滚珠式振动开关,该滚子式振动开关电性连接控制模块。 [0015] Preferably, each parameter collection module further comprises a ball-type switch mounted on the vibration of the hydrant, the vibration of the roller switch is electrically connected to the control module.

[0016] 优选地,每一参数采集模块还包括电性连接控制模块的RFID识别器和蜂鸣器,该RFID识别器和蜂鸣器安装于消防栓的盖帽内的一电路板上。 [0016] Preferably, each parameter collection module further comprising a control module electrically connected to the RFID identifier and the buzzer, the buzzer RFID identification and mounted on a circuit board within the hydrant caps.

[0017] 优选地,该控制模块设于该电路板上;该电路板与盖帽的内壁之间设有通风间隔,盖帽的内壁涂有隔热层。 [0017] Preferably, the control module disposed on the circuit board; a circuit board between the inner wall of the cap is provided with spaced ventilation, the cap inner wall is coated with a heat-insulating layer.

[0018] 优选地,该远程监控中心还在GIS地图搭建每一消防栓的编号及对应的经玮度,每一消防栓的编号关联对应的各状态参数。 [0018] Preferably, the remote monitoring center by Wei also GIS map structures corresponding to each of the number and the hydrant, each of the state parameters associated with each number corresponding to the fire hydrant.

[0019] 本发明的有益效果至少如下: [0019] Advantageous effects of the present invention, at least the following:

[0020] 1、本发明可通过远程监控中心统一管理某一地理区域的各个消防栓,以及时对有需求的消防栓进行维护,保证各消防栓正常运行。 [0020] 1, the present invention can be unified management through remote monitoring center a geographic area of ​​each fire hydrant, fire hydrant and when there is a demand for maintenance, to ensure the normal operation of each fire hydrant.

[0021] 2、该水压传感器安装于管网的消防支管或消防支管延伸至阀门井内的部位,相比安装于消防栓上,安装更方便快捷,更具推广性,无需大幅度改造消防栓,安装成本低。 [0021] 2, the pressure sensor is attached to the fire or the fire manifold branch pipe network to the valve extends within the well site, compared mounted on the hydrant, more convenient installation, more promotional, without substantial transformation hydrant and low installation costs.

[0022] 3、本发明通过采集水压、阀位开关度、消防栓倾斜度和盖帽状态等实时了解消防栓的状态,例如,是否盖帽被盗,消防栓是否被撞倒,消防栓是否漏水或被偷水等。 [0022] 3, real-time understanding of the present invention by taking the status of the fire hydrant water pressure, the valve position of the switch, and the cap hydrant inclination status, e.g., whether the cap was stolen, if the fire hydrant is knocked down, is leaking fire hydrant or stolen water.

[0023] 4、本发明通过RFID识别器识别可快速识别操作人员的身份是否合法,在不合法时发出报警,以提醒工作人员正有人违规操作消防栓。 [0023] 4, the present invention is an RFID identifier identifies the identity of the operator can quickly identify whether a legitimate alarm when not legitimate, to alert staff are illegal operations was hydrant.

[0024] 5、该电路板与盖帽的内壁之间设有通风间隔,以利于电路板进行散热;盖帽的内壁涂有隔热层,以阻隔外界的高温传递进盖帽内,从而保证电路板上的元件稳定工作。 [0024] 5, the circuit board is provided between the inner wall of the cap and the ventilation gap, the circuit board to facilitate heat dissipation; cap wall is coated with a heat insulation layer outside the barrier at a high temperature is transferred into the cap, in order to ensure the circuit board stability elements.

[0025] 6、该远程监控中心在GIS地图上设置各消防栓的信息,当发生火灾时,只需输入表示消防栓运行正常的限制条件即可在地图上显示出符合条件的消防栓,从而快速锁定有效的消防栓,提高灭火效率。 [0025] 6, the remote monitoring center setting information on each hydrant GIS map, when a fire occurs, the fire hydrant represents simply enter the normal operating constraints can exhibit qualified hydrant on the map, so that Quick lock effective fire hydrants, fire-fighting to improve efficiency.

附图说明 BRIEF DESCRIPTION

[0026]图1为本发明智能消防栓远程监控系统的较佳实施方式的模块示意图。 [0026] FIG 1 preferred embodiment of the hydrant remote monitoring system schematic block diagram of the present invention intelligence.

[0027]图2和图3为图1的智能消防栓远程监控系统的参数采集模块的水压传感器的两种安装方式的示意图。 [0027] FIG. 2 and FIG. 3 is a schematic view of two installation parameter collecting pressure sensor module of FIG. 1 hydrant intelligent remote monitoring system.

[0028]图4为图1的智能消防栓远程监控系统的参数采集模块的磁感应开关的安装示意图。 [0028] FIG. 4 is a schematic view of magnetic switch mounted parameter acquisition module intelligent remote monitoring system of FIG. 1 hydrant.

[0029] 图5为图1的智能消防栓远程监控系统的盖帽的局部剖面视图。 [0029] FIG. 5 is a partial cross-sectional view of the cap of the smart hydrant remote monitoring system of FIG. 1.

具体实施方式 Detailed ways

[0030] 下面将结合附图以及具体实施方式,对本发明做进一步描述: [0030] conjunction with the accompanying drawings and the following detailed description, the present invention will be further described:

[0031] 请参见图1,本发明涉及一种智能消防栓远程监控系统,其较佳实施方式包括若干参数采集模块、若干控制模块、若干通信模块和一远程监控中心。 [0031] Referring to FIG. 1, the present invention relates to a fire hydrant intelligent remote monitoring system, which comprises a number of preferred embodiments of the parameter acquisition module, a plurality of control module, a communication module and a plurality of remote monitoring center.

[0032] 每一消防栓对应一参数米集模块、一控制模块和一通信模块。 [0032] Each hydrant meter parameter set corresponding to a module, a control module and a communication module.

[0033] 每一参数采集模块用于采集对应消防栓的状态参数如水压、用水量、倾斜度等。 State parameters [0033] Each parameter collection module for collecting such water pressure corresponding to the hydrant, water, inclination and the like.

[0034] 每一控制模块设于消防栓内,用于将参数采集模块所采集的状态参数通过对应的一通信模块发送至该远程监控中心。 [0034] Each control module is provided in the fire hydrant, the parameter collection module for the collected status parameters sent to the remote monitoring center through a corresponding communication module.

[0035] 如此,可通过远程监控中心统一管理某一地理区域的各个消防栓,以及时对有需求的消防栓进行维护,保证各消防栓正常运行。 [0035] Thus, the unified management of a geographic area through remote monitoring center of each fire hydrant, fire hydrant, and when there is a demand for maintenance, to ensure the normal operation of each fire hydrant.

[0036] 参见图2,每一参数采集模块包括电性连接控制模块的水压传感器21,该水压传感器21安装于管网中连通对应消防栓13的消防支管22上,由于消防栓13的用水来自于消防支管22,则通过检测消防支管22的水压即可获取对应消防栓13的水压,相比安装于消防栓上,此种安装方式更方便,更具推广性,而无需大幅度改造消防栓。 [0036] Referring to Figure 2, each parameter acquisition module comprises a pressure sensor is electrically connected to the control module 21, the pressure sensor 21 is attached to the communication network corresponding to the fire hydrant 13 on the branch pipe 22, 13 is due to the hydrant fire water from the branch pipe 22, the water pressure of 22 to obtain a corresponding pressure hydrant 13, mounted on the comparison by detecting fire hydrant branch pipe, this is more convenient installation, more promotional, without large the transformation of the magnitude of the fire hydrant.

[0037] 参见图3,优选地,该水压传感器21安装于该消防支管22延伸至阀门井12内的部位上。 [0037] Referring to Figure 3, preferably, the pressure sensor 21 is mounted onto the extending portion 12 in the valve shaft 22 of the branch pipe fire. 如此,只需掀开阀门井12的井盖11,即可方便的进行安装水压传感器,更安装方便快捷,成本低。 Thus, simply open the valve shaft covers 11 and 12 can be easily mounted pressure sensors, and more convenient to install, and low cost.

[0038] 优选地,消防栓13的底座上开设通孔,一引线管23安装于消防栓13的侧壁,该引线管的下末端延伸至消防支管22的上方,该水压传感器21通过收容于引线管23内的导线连接控制模块,以使得水压传感器21的信号传输更稳定。 [0038] Preferably, the hydrant base defines a through hole 13, a lead-out tube 23 is mounted to the side wall 13 of the hydrant, the lower end of the lead to a fire pipe extends over the branch pipe 22, the pressure sensor 21 through the housing the lead wire connecting the control modules within the tube 23, so that the hydraulic pressure sensor 21 is more stable signal transmission.

[0039] 参见图4和图5,每一参数米集模块还包括四磁感应开关Dl和一永磁体16。 [0039] Referring to FIGS. 4 and 5, each parameter module further comprises a set of four meters magnetic switch and a permanent magnet 16 Dl. 永磁体16安装于消防栓13的阀门转轴15的圆周面上。 Permanent magnets 16 mounted on the circumferential surface of the rotary shaft 13 of the hydrant valve 15. 四磁感应开关Dl沿圆周方向分布于阀门转轴15的周边,并形成第一圆周;所述永磁体16位于阀门转轴的第二圆周上,第一圆周与第二圆周构成同心圆且位于同一水平面上;每一磁感应开关Dl电性连接控制模块。 Four magnetic switch Dl distributed in the circumferential direction of the periphery of the valve shaft 15, and a first circumferential formation; a second circumference of the permanent magnet 16 is located in the valve shaft, a first circumference and a second circumference concentric circle constituting the same horizontal plane ; Dl magnetic switch is electrically connected to each control module. 如此,通过转动消防栓转轴,可以激活离永磁体16最近的磁感应开关D1,阀门开度的检测精度可精确至1/4圈。 Thus, by rotating the shaft hydrant, 16 may be activated from the nearest permanent magnet magnetic switch D1, the detection accuracy of the valve opening degree can be accurate to 1/4 turn. 如此,通过检测消防栓的阀门开度大小和水压大小来获知平时消防栓的偷水或漏水情况,以及灭火行动中的用水量。 Thus, through the valve opening size and water pressure detection hydrant be learned to steal water or water leakage, fire hydrant usual, and the amount of water in fighting operations.

[0040] 每一参数采集模块还包括安装于消防栓的盖帽内的弹簧式振动开关,该振动开关电性连接控制模块。 [0040] Each parameter collection module further comprises a spring mounted within the hydrant vibration switch cap, the vibration switch is electrically connected to the control module. 如此,当有人将盖帽拿起时,该振动开关即会生成信号至控制模块,有利于防止盖帽被盗。 Thus, when someone picks up the cap, i.e. the vibrations generated switching signal to the control module, and prevent theft of the cap.

[0041] 每一参数采集模块还包括安装于消防栓上的滚珠式振动开关,该滚子式振动开关电性连接控制模块。 [0041] Each parameter collection module further comprises a ball-type switch mounted on the vibration of the hydrant, the vibration of the roller switch is electrically connected to the control module. 当消防栓被撞倒,且倾斜角超过30°时,该滚珠式振动开关即生成信号至控制模块。 When the hydrant is knocked down, and the inclination angle exceeds 30 °, the ball-type vibration switch which generates a signal to the control module.

[0042] 上述控制模块可实时将水压传感器、磁感应开关、弹簧式振动开关和滚珠式振动开关所生成的数据通过通信模块发送至远程监控中心。 [0042] The control module may be real pressure sensor, magnetic switch, and a spring-vibration switch ball switch vibration generated data to the remote monitoring center via the communication module.

[0043] 参见图5,每一参数采集模块还包括电性连接控制模块的RFID识别器和蜂鸣器,该RFID识别器和蜂鸣器安装于消防栓的盖帽31内的一电路板33上。 [0043] Referring to Figure 5, each parameter acquisition module further comprising an RFID identifier and a buzzer electrically connected to the control module, the RFID identifier and the buzzer is mounted on a circuit board 33 in cap 31 hydrant . 该RFID识别器用于读取维护人员的ID卡的身份信息,该控制模块用于判断该身份信息是否有效,在识别到身份信息无效时驱动蜂鸣器,以发出提示音,并通过通信模块发送报警信号至远程监控中心。 The RFID identification for reading the identity information of the maintenance personnel ID card, the control module for determining whether the identification information is valid, when the buzzer driver recognizes identification information is invalid, to tone sounds, and sent via the communication module alarm signal to a remote monitoring center. 如此,可快速判断操作人员的身份是否合法。 So, you can quickly determine the identity of the operator is legitimate.

[0044] 参见图5,该控制模块设于该电路板33上。 [0044] Referring to Figure 5, the control module disposed on the circuit board 33. 该电路板33与盖帽31的内壁之间设有通风间隔,以利于电路板33进行散热。 The circuit board 33 between the inner wall of the cap 31 is provided with a ventilation gap, the circuit board 33 to facilitate heat dissipation. 盖帽31的内壁涂有隔热层,以阻隔外界的高温传递进盖帽31内,从而保证电路板33上的元件稳定工作。 Cap inner wall 31 is coated with a heat insulation layer outside the barrier at a high temperature passed into the cap 31, thus ensuring stable operation member 33 on the circuit board.

[0045] 该通信模块采用微功耗传输的GPRS模块,其安装于帽盖的内侧壁上。 [0045] The communication module micro-power transmission GPRS module, which is mounted on the inner wall of the cap. 为省电,GPRS模块可采用异常或轮换唤醒工作模式,一般情况下,GPRS模块处于休眠状态,只有当采集的数据异常或设定的轮换时间到后才会进行信息的传输。 Power saving, GPRS module can be rotated or abnormal wake mode, under normal circumstances, GPRS module in a sleep state, only when abnormal data acquisition time or to set the rotation until after the transmission of the information. 休眠周期可以根据用户的需求进行设定,设定的时间越长,电池寿命越长,反之,越短。 Sleep period can be set according to the needs of users, the longer the time set, the longer the battery life, and vice versa, the shorter.

[0046] 该远程监控中心用于存储以及实时显示来自通信模块的各状态参数,其可根据各状态参数将工作异常的消防栓按区域进行分类统计,以方便维护人员建立运行管理维护计划。 [0046] The remote monitoring center for storage and display real-time status of each parameter from the communication module, it can work abnormal hydrants are classified by region, according to statistical parameters of each state to facilitate the maintenance personnel to establish operational management and maintenance plan.

[0047] 该远程监控中心还在GIS地图(Geographic Informat1n System,地理信息系统)搭建每一消防栓的编号及对应的经玮度,以通过GIS地图直观地了解管理区域内的各消防栓的地理位置。 [0047] The remote monitoring center also GIS map (Geographic Informat1n System, Geographic Information System) structures and a corresponding number of through Wei each hydrant to hydrant intuitive understanding in each geographical area managed by the GIS map position. 每一消防栓的编号关联对应的各参数。 The parameters associated with each number corresponding to a fire hydrant. 如此,当发生火灾时,只需输入表示消防栓运行正常的限制条件即可在地图上显示出符合条件的消防栓,从而快速锁定有效的消防栓,提高灭火效率。 Thus, when a fire occurs, simply enter the normal operation of the fire hydrant represent constraints can show qualified fire hydrant on the map, to quickly lock and effective fire hydrants, fire-fighting to improve efficiency.

[0048] 对于本领域的技术人员来说,可根据以上描述的技术方案以及构思,做出其它各种相应的改变以及变形,而所有的这些改变以及变形都应该属于本发明权利要求的保护范围之内。 [0048] to those skilled in the art, the technical solution according to the above described and contemplated, that various other changes and modifications appropriate, and all such changes and modifications should fall into the scope of the claims of the invention within.

Claims (10)

1.一种智能消防栓远程监控系统,其特征在于:其包括若干参数采集模块、若干控制模块、若干通信模块和一远程监控中心; 每一消防栓对应一参数米集模块、一控制模块和一通信模块; 每一参数采集模块用于采集对应消防栓的状态参数; 每一控制模块设于消防栓内,用于将参数采集模块所采集的状态参数通过对应的一通信模块发送至该远程监控中心; 该远程监控中心用于存储以及实时显示来自通信模块的各状态参数。 A hydrant intelligent remote monitoring system, comprising: a plurality of parameter collection module comprising, a plurality of control module, a communication module and a plurality of remote monitoring center; each hydrant meter parameter set corresponding to a module, a control module, and a communication module; each parameter collection module for collecting status parameters corresponding to the hydrant; each control module is disposed within the hydrant for the parameter collection module transmits the collected status parameters corresponding to the remote through a communication module monitoring center; the remote monitoring center for storing and displaying the real-time status of each parameter from the communication module.
2.如权利要求1所述的智能消防栓远程监控系统,其特征在于:每一参数采集模块包括电性连接控制模块的水压传感器,该水压传感器安装于管网中连通对应消防栓的消防支管上。 2. The smart hydrant according to claim 1 remote monitoring system, wherein: each of the parameter collection module comprises a pressure sensor is electrically connected to the control module, the pressure sensor is mounted in the communication network corresponding to the hydrant fire branch pipe.
3.如权利要求2所述的智能消防栓远程监控系统,其特征在于:该水压传感器安装于该消防支管延伸至阀门井内的部位上。 The intelligent claim 2, fire hydrant remote monitoring system, wherein: the pressure sensor is mounted on the fire extends to the branch pipe portion of the valve well.
4.如权利要求2或3所述的智能消防栓远程监控系统,其特征在于:消防栓的底座上开设通孔,一引线管安装于消防栓的侧壁,该引线管的下末端延伸至消防支管的上方,该水压传感器通过收容于引线管内的导线连接控制模块。 4. The smart claim 2 or claim 3 hydrant remote monitoring system, wherein: the through hole defines hydrant base, a lead wire is attached to the hydrant pipe of the side wall, the lower end of the tube extends to the wire fire upper branch pipe, the pressure sensor is accommodated by the connection control module to the wire lead within the tube.
5.如权利要求1所述的智能消防栓远程监控系统,其特征在于:每一参数采集模块还包括四磁感应开关和一永磁体;永磁体安装于消防栓的阀门转轴上;四磁感应开关沿圆周方向分布于阀门转轴的周边,并形成第一圆周;所述永磁体位于阀门转轴的第二圆周上,第一圆周与第二圆周构成同心圆且位于同一水平面上;每一磁感应开关电性连接控制模块。 5. The smart hydrant according to claim 1 remote monitoring system, wherein: each of the four parameter collection module further comprises a magnetic switch and a permanent magnet; a permanent magnet mounted on the hydrant valve shaft; magnetic switch in four distributed in the circumferential direction of the valve shaft periphery, and forming a first circumference; a second circumference of the permanent magnet is located in the valve shaft, a first circumference and a second circumference concentric circle configuration on the same horizontal plane; each magnetic switch electrically connection control module.
6.如权利要求1所述的智能消防栓远程监控系统,其特征在于:每一参数采集模块还包括安装于消防栓的盖帽内的弹簧式振动开关,该弹簧式振动开关电性连接控制模块。 6. The intelligent hydrant according to claim 1 remote monitoring system, wherein: each of the parameter collection module further comprises a spring-vibration switch in the cap is attached to the hydrant, the spring-vibration switch is electrically connected to the control module .
7.如权利要求1所述的智能消防栓远程监控系统,其特征在于:每一参数采集模块还包括安装于消防栓上的滚珠式振动开关,该滚子式振动开关电性连接控制模块。 7. Smart hydrant according to claim 1 remote monitoring system, wherein: each of the parameter collection module further comprises a ball-type switch mounted on the vibration of the hydrant, the vibration of the roller switch is electrically connected to the control module.
8.如权利要求1所述的智能消防栓远程监控系统,其特征在于:每一参数采集模块还包括电性连接控制模块的RFID识别器和蜂鸣器,该RFID识别器和蜂鸣器安装于消防栓的盖帽内的一电路板上。 8. Smart hydrant according to claim 1 remote monitoring system, wherein: each of the parameter collection module further comprising an RFID identification and control module electrically connected to the buzzer, the buzzer and the RFID identification mounted a circuit board within the cap to the hydrant.
9.如权利要求1所述的智能消防栓远程监控系统,其特征在于:该控制模块设于该电路板上;该电路板与盖帽的内壁之间设有通风间隔,盖帽的内壁涂有隔热层。 9. The smart hydrant according to claim 1 remote monitoring system, wherein: the control module disposed on the circuit board; a circuit board between the inner wall of the cap is provided with spaced ventilation, the wall is coated with a septum cap thermosphere.
10.如权利要求1所述的智能消防栓远程监控系统,其特征在于:该远程监控中心还在GIS地图搭建每一消防栓的编号及对应的经玮度,每一消防栓的编号关联对应的各状态参数。 10. The intelligent hydrant according to claim 1 remote monitoring system, which is characterized in that: the remote monitoring center by Wei also GIS map structures corresponding to each of the number and the hydrant, the corresponding number associated with each hydrant the parameters of each state.
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