CN105477819A - Application method of fire hydrant monitoring system based on Internet of Things - Google Patents

Abstract

The invention discloses an application method of a fire hydrant monitoring system based on the Internet of Things, and belongs to the field of application of the Internet of Things to fire hydrant equipment. The application method comprises the following steps that 1, a position sensor is used for monitoring the mounting position, an anti-collision sensor is used for monitoring collisions, a tilt angle sensor is used for monitoring whether tilting happens or not, and a water pressure sensor is used for monitoring water outlet pressure; 2, all the sensors monitor and collect information, and signals are transmitted to a central processing unit through a wireless receiving and sending circuit; 3, the signals are compared with pre-stored information through the central processing unit, and a display screen and an alarm are controlled to correspondingly act; and 4, for abnormal fire hydrants, the central processing unit sends the information to a smart phone through the wireless network. According to the method, fire hydrants can be monitored efficiently in real time, information feedback is carried out on damaged fire hydrants, maintenance personnel are informed of treatment in time, normal use of the fire hydrants is guaranteed, it is truly guaranteed that fire extinguishment work is carried out normally, and use is easy and convenient.

Description

A kind of using method of the fire hydrant supervisory systems based on Internet of Things

Technical field

The present invention relates to a kind of fire hydrant supervisory systems, particularly a kind of using method of the fire hydrant supervisory systems based on Internet of Things, belongs to the application of Internet of Things at fire hydrant facilities.

Background technology

In existing city, the Main Function of fire hydrant implements fire extinguishing for fire fighting truck from city water-supply pipe network or the water intaking of outdoor fire fighting water supply network, also directly can connect water-band or hydraulic giant goes out above-water method.Because self delivery water yield of fire fighting truck is limited, often need to find extra water source when putting out a fire, now fire hydrant has just given play to huge water supply effect, conscientiously ensures normally carrying out of extinguishing operation.

At present, because some entity and individual's security against fire consciousness are thin, the impaired situation of fire hydrant is very general.Once breaking out of fire, the fire hydrant of damage cannot play its due effect, constitute a serious threat to the security of the lives and property of the people; Meanwhile, along with the continuous expansion of city size, the fitting limit of fire hydrant is also in continuous expansion, and for fire units, realizing comprehensive, the real-time monitoring management of fire hydrant becomes a kind of an urgent demand.

Also resting on the management of fire hydrant at present relies on manpower to carry out scene tracking, monitoring one by one to fire hydrant, and waste of human resource is serious, and efficiency is low, can not feed back the information of fire hydrant timely and effectively; In addition leak is existed to the fire hydrant supervision of infringement, notification technique personnel can not keep in repair in time, bring very large hidden danger to fire-fighting work.

Summary of the invention

For above-mentioned prior art Problems existing, the invention provides a kind of using method of the fire hydrant supervisory systems based on Internet of Things, can carry out monitoring in real time, efficiently to fire hydrant, and information feed back is carried out to the fire hydrant be damaged, notify that maintenance personal processes in time, ensure the normal use of fire hydrant, conscientiously ensure normally carrying out of extinguishing operation, it is simple, convenient to use.

To achieve these goals, the using method of a kind of fire hydrant supervisory systems based on Internet of Things that the present invention adopts, the information feedback module that this system comprises the information acquisition module be arranged on fire hydrant, the information transmission modular be connected with information acquisition module, the message processing module be connected with information transmission modular and is connected with message processing module, described information feedback module be arranged on operating personnel's receiver module with it and coordinate;

Described information acquisition module, for gathering the related status information of fire hydrant;

Described information transmission modular, the status information for the fire hydrant collected by information acquisition module is converted into discernible data-signal and is delivered in message processing module by this signal;

Described message processing module, carry out analyzing and processing to this signal for the fire hydrant data-signal that receives through information transmission modular conveying, according to the content of signal, message processing module to be given an order feedback signal to information feedback module;

The command signal that described information feedback module reception message processing module sends also makes corresponding feedback action, partial feedback command signal is transferred to through information feedback module and is arranged on operating personnel's receiver module with it simultaneously, notifies that operating personnel carry out related work by receiver module;

Described information acquisition module comprises a position sensor be arranged on fire hydrant, is somely arranged on anticollision sensor outside fire hydrant and obliquity sensor respectively, and some hydraulic pressure sensors be arranged on inside fire hydrant;

Described position sensor is arranged on the top of fire hydrant, for monitoring the positional information of fire hydrant in real time;

Described anticollision sensor, outside the surrounding being arranged on fire hydrant respectively, for collecting the damaged in collision information of fire hydrant;

Described obliquity sensor is arranged on outside the surrounding of fire hydrant, for gathering the angular slope information of fire hydrant;

Described hydraulic pressure sensor is arranged on the downside of the delivery port of fire hydrant, for monitoring the pressure change of flowing out water through fire hydrant;

Described information transmission modular, comprise wireless transceiver circuit, the fire hydrant convert information of information acquisition module Position Sensor, anticollision sensor, obliquity sensor and hydraulic pressure sensor collection is discernible data-signal and passes to message processing module by described wireless transceiver circuit;

Described message processing module comprises central processing unit, described central processing unit transforms wireless transceiver circuit in information transmission modular and the data-signal transmitted is analyzed, and the fire hydrant information that prestores in the data message of transmission and central processing unit is contrasted, when finding that fire hydrant exists abnormal, central processing unit sends feedback command, according to the unusual condition of fire hydrant, control information feedback module is made respective feedback action or is sent repair orders signal to being arranged on operating personnel's receiver module with it;

Described information feedback module comprises the display screen being respectively used to show the change of position of hydrant, change of pitch angle, damaged in collision information and fire water pressure, and alarm, when the damaged in collision of fire hydrant exceedes to a certain degree, alarm in information feedback module gives the alarm, and simultaneously central processing unit sends repair orders by information feedback module to operating personnel's receiver module with it;

Described receiver module is the smart mobile phone that can be connected by wireless network with central processing unit;

The using method of this supervisory systems comprises the following steps:

1) installation site of fire hydrant monitored in real time by the position sensor by being arranged on fire hydrant top, the some anticollision sensors outside the surrounding being arranged on fire hydrant, and whether Real-Time Monitoring fire hydrant collides by foreign object; By the whether run-off the straight of the obliquity sensor monitoring fire hydrant outside the surrounding that is arranged on fire hydrant; By the hydraulic pressure sensor on the downside of the delivery port that is arranged on fire hydrant, monitoring fire hydrant flows out the pressure change of water;

2) monitored by each information of each sensor to fire hydrant, and Information Monitoring relied on the wireless transceiver circuit in information transmission modular to be converted into can by the data-signal of message processing module identification, then by this signal transmission to the central processing unit in message processing module;

3) central processing unit receives wireless transceiver circuit and to transform and after the data-signal transmitted, the position of hydrant prestored in this signal and central processing unit, inclination angle, collision and hydraulic pressure information are contrasted, when information is in normal range (NR), then only by the display screen in information feedback module, the change of position of hydrant, change of pitch angle, damaged in collision information and fire water pressure is shown; When relevant information is in abnormal, except being shown by the relevant information of display screen to fire hydrant, the alarm also in control information feedback module gives the alarm, and reminds operating personnel to note;

4) to there is abnormal fire hydrant, central processing unit is coordinated with operating personnel's smart mobile phone with it by wireless network, is sent to there is abnormal fire hydrant information on smart mobile phone by central processing unit.

As improvement, described position sensor adopts electro-optical pickoff.

As improvement, described obliquity sensor adopts SCA100T-D02 chip.

As improvement, described hydraulic pressure sensor adopts model to be PTG504.

Compared with prior art, the invention has the beneficial effects as follows: by difference installation site sensor on fire hydrant, anticollision sensor, obliquity sensor and hydraulic pressure sensor monitor the position of fire hydrant in real time, inclination angle, the information such as collision situation and variation in water pressure, and by information transmission modular, each change information is passed to message processing module, judge that whether each data message of fire hydrant is normal by message processing module, to abnormal fire hydrant occurs, message processing module sends corresponding command signal, coordinated by information feedback module and/or receiver module, the position of abnormal fire hydrant and the situation of being damaged are passed to operating personnel, guarantee that operating personnel can keep in repair damage fire hydrant timely and effectively, supervisory efficiency is high, ensure the normal use of fire hydrant, normally carrying out of practical guarantee extinguishing operation, use simple, convenient.

Accompanying drawing explanation

Fig. 1 is the structural principle schematic diagram of supervisory systems of the present invention;

Fig. 2 is using method flow chart of the present invention.

Detailed description of the invention

For making the object, technical solutions and advantages of the present invention clearly understand, below by accompanying drawing and embodiment, the present invention is further elaborated.But should be appreciated that, specific embodiment described herein, only in order to explain the present invention, is not limited to scope of the present invention.

As shown in Figure 1 and Figure 2, a kind of using method of the fire hydrant supervisory systems based on Internet of Things, first this system information feedback module of comprising the information acquisition module be arranged on fire hydrant, the information transmission modular be connected with information acquisition module, the message processing module be connected with information transmission modular and being connected with message processing module, described information feedback module be arranged on operating personnel's receiver module with it and coordinate;

Described information acquisition module, for gathering the related status information of fire hydrant;

Described information transmission modular, the status information for the fire hydrant collected by information acquisition module is converted into discernible data-signal and is delivered in message processing module by this signal;

Described message processing module, carry out analyzing and processing to this signal for the fire hydrant data-signal that receives through information transmission modular conveying, according to the content of signal, message processing module to be given an order feedback signal to information feedback module;

The command signal that described information feedback module reception message processing module sends also makes corresponding feedback action, partial feedback command signal is transferred to through information feedback module and is arranged on operating personnel's receiver module with it simultaneously, notifies that operating personnel carry out related work by receiver module;

Described information acquisition module comprises a position sensor be arranged on fire hydrant, is somely arranged on anticollision sensor outside fire hydrant and obliquity sensor respectively, and some hydraulic pressure sensors be arranged on inside fire hydrant;

Described position sensor is arranged on the top of fire hydrant, for monitoring the positional information of fire hydrant in real time;

Described anticollision sensor, outside the surrounding being arranged on fire hydrant respectively, for collecting the damaged in collision information of fire hydrant;

Described obliquity sensor is arranged on outside the surrounding of fire hydrant, for gathering the angular slope information of fire hydrant;

Described hydraulic pressure sensor is arranged on the downside of the delivery port of fire hydrant, for monitoring the pressure change of flowing out water through fire hydrant;

Described information transmission modular, comprise wireless transceiver circuit, the fire hydrant convert information of information acquisition module Position Sensor, anticollision sensor, obliquity sensor and hydraulic pressure sensor collection is discernible data-signal and passes to message processing module by described wireless transceiver circuit;

Described message processing module comprises central processing unit, described central processing unit transforms wireless transceiver circuit in information transmission modular and the data-signal transmitted is analyzed, and the fire hydrant information that prestores in the data message of transmission and central processing unit is contrasted, when finding that fire hydrant exists abnormal, central processing unit sends feedback command, according to the unusual condition of fire hydrant, control information feedback module is made respective feedback action or is sent repair orders signal to being arranged on operating personnel's receiver module with it;

Described information feedback module comprises the display screen being respectively used to show the change of position of hydrant, change of pitch angle, damaged in collision information and fire water pressure, and alarm, when the damaged in collision of fire hydrant exceedes to a certain degree, alarm in information feedback module gives the alarm, and simultaneously central processing unit sends repair orders by information feedback module to operating personnel's receiver module with it;

Described receiver module is the smart mobile phone that can be connected by wireless network with central processing unit.

When using the fire hydrant supervisory systems based on Internet of Things of the present invention, monitored the installation site of fire hydrant in real time by the position sensor being arranged on fire hydrant top; By the some anticollision sensors outside the surrounding that is arranged on fire hydrant, whether Real-Time Monitoring fire hydrant collides by foreign object; By the whether run-off the straight of the obliquity sensor monitoring fire hydrant outside the surrounding that is arranged on fire hydrant, due to when fire hydrant tilts, in fire hydrant, hydraulic pressure can change, and affects normally carrying out of extinguishing operation, therefore also needs to pay special attention to the inclination angle of fire hydrant; By the hydraulic pressure sensor on the downside of the delivery port that is arranged on fire hydrant, monitoring fire hydrant flows out the pressure change of water;

By each sensor in real time, effectively each information of fire hydrant is monitored, and Information Monitoring relied on the wireless transceiver circuit in information transmission modular to be converted into can by the data-signal of message processing module identification, then by this signal transmission to the central processing unit in message processing module;

Central processing unit receives wireless transceiver circuit and to transform and after the data-signal transmitted, the position of hydrant prestored in this signal and central processing unit, inclination angle, collision and hydraulic pressure information are contrasted, when relevant information is in normal range (NR), then only by the display screen in information feedback module, the change of position of hydrant, change of pitch angle, damaged in collision information and fire water pressure is shown; When relevant information is in abnormal, now except being shown by the relevant information of display screen to fire hydrant, the alarm also in control information feedback module gives the alarm, and reminds operating personnel to note;

In addition, to abnormal fire hydrant occurs, central processing unit is coordinated with operating personnel's smart mobile phone with it by wireless network, particular location and the relevant abnormalities information of abnormal fire hydrant will be there is by central processing unit, such as, angle change, the information such as the variation in water pressure that causes that to be shifted by external force damaged in collision or fire hydrant internal structure are sent on smart mobile phone, and convenient operation personnel in time, effectively carry relevant maintenance tool or parts keep in repair damage fire hydrant, change.The normal use of efficient guarantee fire hydrant, ensures normally carrying out of extinguishing operation conscientiously, and present system uses simple, convenient.

As the improvement of embodiment, described position sensor adopts electro-optical pickoff, easy to use.

As the improvement of embodiment, described obliquity sensor adopts SCA100T-D02 chip, and source is wide, and it is simple, convenient to use.

As the improvement of embodiment, described hydraulic pressure sensor adopts PTG504, operates easy to use.

The foregoing is only preferred embodiment of the present invention, not in order to limit the present invention, all any amendments done within the spirit and principles in the present invention, equivalent replacement or improvement etc., all should be included within protection scope of the present invention.

Claims (4)

1. the using method based on the fire hydrant supervisory systems of Internet of Things, it is characterized in that, the information feedback module that this system comprises the information acquisition module be arranged on fire hydrant, the information transmission modular be connected with information acquisition module, the message processing module be connected with information transmission modular and is connected with message processing module, described information feedback module be arranged on operating personnel's receiver module with it and coordinate;

Described information acquisition module, for gathering the related status information of fire hydrant;

Described information transmission modular, the status information for the fire hydrant collected by information acquisition module is converted into discernible data-signal and is delivered in message processing module by this signal;

Described message processing module, carry out analyzing and processing to this signal for the fire hydrant data-signal that receives through information transmission modular conveying, according to the content of signal, message processing module to be given an order feedback signal to information feedback module;

The command signal that described information feedback module reception message processing module sends also makes corresponding feedback action, partial feedback command signal is transferred to through information feedback module and is arranged on operating personnel's receiver module with it simultaneously, notifies that operating personnel carry out related work by receiver module;

Described information acquisition module comprises a position sensor be arranged on fire hydrant, is somely arranged on anticollision sensor outside fire hydrant and obliquity sensor respectively, and some hydraulic pressure sensors be arranged on inside fire hydrant;

Described position sensor is arranged on the top of fire hydrant, for monitoring the positional information of fire hydrant in real time;

Described anticollision sensor, outside the surrounding being arranged on fire hydrant respectively, for collecting the damaged in collision information of fire hydrant;

Described obliquity sensor is arranged on outside the surrounding of fire hydrant, for gathering the angular slope information of fire hydrant;

Described hydraulic pressure sensor is arranged on the downside of the delivery port of fire hydrant, for monitoring the pressure change of flowing out water through fire hydrant;

Described information transmission modular, comprise wireless transceiver circuit, the fire hydrant convert information of information acquisition module Position Sensor, anticollision sensor, obliquity sensor and hydraulic pressure sensor collection is discernible data-signal and passes to message processing module by described wireless transceiver circuit;

Described message processing module comprises central processing unit, described central processing unit transforms wireless transceiver circuit in information transmission modular and the data-signal transmitted is analyzed, and the fire hydrant information that prestores in the data message of transmission and central processing unit is contrasted, when finding that fire hydrant exists abnormal, central processing unit sends feedback command, according to the unusual condition of fire hydrant, control information feedback module is made respective feedback action or is sent repair orders signal to being arranged on operating personnel's receiver module with it;

Described information feedback module comprises the display screen being respectively used to show the change of position of hydrant, change of pitch angle, damaged in collision information and fire water pressure, and alarm, when the damaged in collision of fire hydrant exceedes to a certain degree, alarm in information feedback module gives the alarm, and simultaneously central processing unit sends repair orders by information feedback module to operating personnel's receiver module with it;

Described receiver module is the smart mobile phone that can be connected by wireless network with central processing unit;

The using method of this supervisory systems comprises the following steps:

1) installation site of fire hydrant monitored in real time by the position sensor by being arranged on fire hydrant top, the some anticollision sensors outside the surrounding being arranged on fire hydrant, and whether Real-Time Monitoring fire hydrant collides by foreign object; By the whether run-off the straight of the obliquity sensor monitoring fire hydrant outside the surrounding that is arranged on fire hydrant; By the hydraulic pressure sensor on the downside of the delivery port that is arranged on fire hydrant, monitoring fire hydrant flows out the pressure change of water;

2) monitored by each information of each sensor to fire hydrant, and Information Monitoring relied on the wireless transceiver circuit in information transmission modular to be converted into can by the data-signal of message processing module identification, then by this signal transmission to the central processing unit in message processing module;

3) central processing unit receives wireless transceiver circuit and to transform and after the data-signal transmitted, the position of hydrant prestored in this signal and central processing unit, inclination angle, collision and hydraulic pressure information are contrasted, when information is in normal range (NR), then only by the display screen in information feedback module, the change of position of hydrant, change of pitch angle, damaged in collision information and fire water pressure is shown; When relevant information is in abnormal, except being shown by the relevant information of display screen to fire hydrant, the alarm also in control information feedback module gives the alarm, and reminds operating personnel to note;

4) to there is abnormal fire hydrant, central processing unit is coordinated with operating personnel's smart mobile phone with it by wireless network, is sent to there is abnormal fire hydrant information on smart mobile phone by central processing unit.

2. the using method of a kind of fire hydrant supervisory systems based on Internet of Things according to claim 1, is characterized in that, described position sensor adopts electro-optical pickoff.

3. the using method of a kind of fire hydrant supervisory systems based on Internet of Things according to claim 1, is characterized in that, described obliquity sensor adopts SCA100T-D02 chip.

4. the using method of a kind of fire hydrant supervisory systems based on Internet of Things according to claim 1, is characterized in that, described hydraulic pressure sensor adopts model to be PTG504.