CN201298288Y - Earthquake disaster monitor - Google Patents

Abstract

The utility model discloses an earthquake disaster monitor, which comprises an intelligent control unit, a data acquisition module, a video monitoring module, a GPS module, an intelligent power supply module and an IPv4/IPv6 network module. The data acquisition module takes a single-chip computer and an A/D converter as the core thereof and acquires data of on-site earthquake disaster by various types of earthquake disaster sensors; the video monitoring module comprises an infrared video camera and an image acquisition card, and is used for providing a 24-hour video monitoring of the earthquake hit areas; the GPS module is used for acquiring geographical position and time of the earthquake disaster monitor; the intelligent power supply module realizes the status switch of the earthquake disaster monitor, and produces three startup requests as seismonastic startup, timing startup and manual startup; the intelligent control unit realizes the functions of acquiring, storing, displaying and uploading the data of the on-site earthquake disaster; and the IPv4/IPv6 network module realizes the access of the earthquake disaster monitor to a wired/wireless network. The earthquake disaster monitor realizes the acquisition of information such as the earthquake factors (time, geographical position and magnitude), on-site videos and secondary disasters (fire and leakage of high-risk and toxic substances and the like), and solves the problems of quick acquisition of the earthquake disaster information.

Description

A kind of earthquake disaster monitor

Technical field

The utility model relates to a kind of earthquake disaster monitor.

Background technology

Earthquake brings serious harm for human survival safety, socio-economic development and social stability with its sudden and huge destructiveness.In order to alleviate casualties, property loss and the social influence that earthquake causes to greatest extent, must carry out protection against and mitigation of earthquake disasters work.As the earthquake emergency rescue work of one of protection against and mitigation of earthquake disasters three big work systems, be " key " of mitigation, progressively be subjected to the great attention of country and society in recent years.Earthquake emergency rescue work is to be prerequisite and basis to obtain the detailed the condition of a disaster information of earthquake field.After earthquake disaster takes place, seismic magnitude, degree, space distribution, secondary disaster, and obtaining fast of information such as earthquake development trend be the core of whole earthquake emergency response, also is simultaneously the key of rescue decision-making.Yet, from the 8.0 grades of earthquake rescues in Wenchuan process, can find, the condition of a disaster and rescue information obtain the actual demand that lags far behind rescue.Earthquake field does not have special-purpose the condition of a disaster acquisition instrument, only can rely on the rescue personnel to go deep into the disaster area and could understand the condition of a disaster, and these have all incured loss through delay the opportunity of emergency management and rescue greatly, has reduced the usefulness of rescue decision-making.Therefore must develop and have independent intellectual property right and the earthquake disaster monitor that tallies with the national condition with the earthquake earthquake situations.

Patent " transmission line disaster monitoring system (application number: 200710035497.0) " and " Real-time hydrology information automatic supervision and alert system of disaster pre-alarm (application number: 200610111352.X) " provided two kinds of the condition of a disaster supervisory systems respectively towards transmission line of electricity and hydrographic information, and be not directed to the supervisory system of earthquake disaster in the practical application specially.Usually adopt the element information of strong-motion instrument acquisition earthquake motion in the practical application, to reach the purpose that earthquake disaster obtains.Yet strong-motion instrument only can provide the relevant information of earthquake motion, and on-the-spot destruction situation can not be provided intuitively, and secondary disaster informations such as fire, high-risk noxious material leakage, and this brings great restriction for emergency management and rescue and rescue decision-making.

The utility model content

Technology of the present utility model is dealt with problems: overcome the deficiencies in the prior art, a kind of earthquake disaster monitor is provided, realization is to earthquake key element (earthquake time of origin, geographic position and earthquake magnitude), live video, and the obtaining of secondary disaster information such as (fire, high-risk noxious material leakages etc.), solve the problem of obtaining fast of earthquake disaster information.

Technical solution of the present utility model: a kind of earthquake disaster monitor comprises: intelligent control unit, data acquisition module, video monitoring module, GPS module, intelligent power module and IPv4/IPv6 mixed-media network modules mixed-media, wherein:

Data acquisition module is a core with single-chip microcomputer and A/D converter, by multiple the condition of a disaster sensor acquisition earthquake field the condition of a disaster data, described multiple the condition of a disaster sensor comprises three-axis acceleration sensor, fire sensor and toxic gas sensor, three-axis acceleration sensor is used to obtain the element information of earthquake motion, promptly obtain local seismic intensity information by calculating the three axial acceleration value, fire sensor and toxic gas sensor are the secondary disaster sensor, fire sensor obtains temperature and cigarette sense information, and toxic gas sensor obtains the concentration information of high-risk poisonous and harmful substance; The above-mentioned the condition of a disaster information that data acquisition module obtains is uploaded to intelligent control unit by serial line interface;

Video monitoring module is made of infrared video video camera and image pick-up card, in order to the video monitoring of round-the-clock earthquake field round the clock to be provided; Infrared video video camera output analog video signal is converted to digital signal by image pick-up card with this analog video signal, is uploaded to intelligent control unit by USB interface;

The GPS module is used to obtain the geographic position and the time of earthquake disaster monitor, and for whole earthquake disaster monitor provides the unified time benchmark, is uploaded to intelligent control unit by serial line interface;

The intelligent power module realizes that earthquake disaster monitor state switches, and its generation sense shake starts, regularly starts or manually starts three kinds of startup requests, is uploaded to intelligent control unit by serial line interface, reaches the purpose of power management;

Intelligent control unit is realized collection, storage, demonstration and the upload function of earthquake field the condition of a disaster data; Intelligent control unit powers on the back from intelligent power module acquisition startup type, i.e. sense shake starts, regularly starts and manually starts, carry out control command according to starting type then, send acquisition to data acquisition module, video acquisition module and GPS module, the condition of a disaster data of each module collection are carried out local demonstration and preservation, and these data are uploaded to higher level department or system by the IPv4/IPv6 mixed-media network modules mixed-media;

The IPv4/IPv6 mixed-media network modules mixed-media realizes that the wire/radio network of earthquake disaster monitor inserts.

Described intelligent power module comprises single-chip microcomputer, sense shake device, real-time clock, Man Machine Interface, solar electric power supply system, monitor power control circuit and serial line interface; In order to guarantee that the earthquake disaster monitor is ready at any time, and reduce system power dissipation, the earthquake disaster monitor is in dormant state usually, and the work of intelligent power module is only arranged; Solar electric power supply system is earthquake disaster monitor other parts power supplies by the monitor power control circuit under the control of single-chip microcomputer; Sense shake device, real-time clock and Man Machine Interface are connected with the external event interrupt interface of single-chip microcomputer respectively, when earthquake takes place, sense shake device sends the sense shake to single-chip microcomputer and starts request, when arriving certain time of setting in advance, real-time clock sends to single-chip microcomputer and regularly starts request, when needs carry out system when being provided with to the earthquake disaster monitor, Man Machine Interface sends the request of manually starting to single-chip microcomputer; After single-chip microcomputer is received and is started request, the power supply of setting up solar electric power supply system and earthquake disaster monitor other parts by the monitor power control circuit is connected to the power supply of earthquake disaster monitor other parts, the earthquake disaster monitor withdraws from dormant state, enter monitor state, single-chip microcomputer sends to intelligent control unit by serial line interface and starts type simultaneously.

The bright advantage compared with prior art of the utility model is:

(1) the utility model has also been realized the collection of secondary disaster informations such as fire, poison gas, for necessary information basis has been established in the condition of a disaster synthetical collection and the emergency management and rescue of earthquake field when realizing that the earthquake element information obtains fast;

(2) the utility model can provide the live video module, can more directly perceived, clearly understand the actual destruction situation of important foundation facilities such as on-the-spot buildings, highway and bridge;

(3) the utility model configuration thoughts are shaken device and real-time clock, have realized the automatic and timing acquiring of earthquake field the condition of a disaster information;

(4) the utility model adopts the IPv4/IPv6 mixed-media network modules mixed-media, supports wired, wireless multiple network transmission medium, supports the IPv4/IPv6 dual stack, provides reliable truck for earthquake disaster takes place by uploading of on-the-spot the condition of a disaster data of back.

Description of drawings

Fig. 1 is a theory diagram of the present utility model;

Fig. 2 is the hardware block diagram of data acquisition module of the present utility model;

Fig. 3 is the hardware block diagram of intelligent power module of the present utility model;

Fig. 4 is the schematic diagram of monitor power control circuit of the present utility model;

Fig. 5 is an overall work process flow diagram of the present utility model;

Fig. 6 is the workflow diagram of overall observing and controlling process of the present utility model.

Embodiment

As shown in Figure 1, the earthquake disaster monitor is made of intelligent control unit 1, data acquisition module 2, video monitoring module 3, GPS module 4, intelligent power module 5 and IPv4/IPv6 mixed-media network modules mixed-media 6.

Intelligent control unit 1 adopts the embedded type low-power consumption computing machine of Highgrade integration, supports the windows platform exploitation, can be competent at big data quantity, big visit capacity the condition of a disaster data acquisition, work such as store and upload.Be used for the integrated of other module and use, realize earthquake field the condition of a disaster data collection, store and upload.

As shown in Figure 2, data acquisition module 2 is a core with high performance single-chip microcomputer 21 and A/D converter 22, by multiple the condition of a disaster sensor acquisition earthquake field the condition of a disaster data.The condition of a disaster sensor comprises three-axis acceleration sensor 23 (as the seismic intensity sensor), fire sensor 24 (as sensors such as temperature, cigarette senses) and toxic gas sensor 25.Three-axis acceleration sensor 23 its models are MMA7260Q, are used to obtain the element information of earthquake motion, promptly obtain local seismic intensity information by calculating the three axial acceleration value.Fire sensor 24 and toxic gas sensor 25 are the secondary disaster sensor, fire sensor 24 its models are IRBD300, be used to obtain temperature and cigarette sense information, toxic gas sensor 25 its models are respectively 7E/F, 7HH and 7ST/F, are used to obtain the concentration information of high-risk poisonous and harmful substance.The above-mentioned the condition of a disaster information that data acquisition module 2 obtains is uploaded to intelligent control unit 1 by serial line interface 26.Data acquisition module 2 has been realized the collection of secondary disaster informations such as fire and high-risk poisonous and harmful substance leakage on the basis that obtains the earthquake motion element information, reached the purpose of earthquake disaster comprehensively monitoring.

Video monitoring module 3 is made of infrared video video camera and USB image pick-up card, in order to the video monitoring of round-the-clock earthquake field round the clock to be provided.The analog video signal of infrared video video camera output PAL/NTSC standard, image pick-up card is converted to digital signal with this analog video signal, is uploaded to intelligent control unit 1 by USB interface.Video monitoring module 3 can dynamically be uploaded the image information of earthquake field by the video information of gathering, clearly recognize the actual destruction situation of important foundation facilities such as buildings, highway and bridge, for emergency management and rescue and rescue decision-making provide the condition of a disaster information the most intuitively.

GPS module 4 is used to obtain the geographic position and the time of earthquake disaster monitor, and provides the unified time benchmark for whole earthquake disaster monitor.The seismic intensity that time that GPS module 4 is obtained and geographical location information obtain with three-axis acceleration sensor 23 constitutes the complete element information of earthquake motion.

As shown in Figure 3, intelligent power module 5 is a core with high performance single-chip microcomputer 51, form by sense shake device 52, real-time clock 53, Man Machine Interface 54, solar electric power supply system 55, monitor power control circuit 56 and serial line interface 57, realize the management of earthquake disaster monitor power supply and the switching of instrument state.The earthquake disaster monitor is owing to dispose several data collection and monitoring module, and Overall Power Consumption is bigger, and solar electric power supply system 55 can not guarantee the long-term continuous working of earthquake disaster monitor.When not having earthquake to take place, have only 5 work of intelligent power module in the earthquake disaster monitor.Intelligent power module 5 is cut off being connected of solar electric power supply systems 55 and earthquake disaster monitor other parts power supply by monitor power control circuit 56, and the earthquake disaster monitor works in dormant state.When high performance single-chip microcomputer 51 receives that sense shake device 52, real-time clock 53 or Man Machine Interface 54 start request, monitor power control circuit 56 just can be set up solar electric power supply system 55 and be connected with the power supply of earthquake disaster monitor other parts, thereby the earthquake disaster monitor withdraws from dormant state, enters monitor state.The startup request that sense shake device 52 and real-time clock 53 produce is request automatically.Sense shake device 52 is a UG series earthquake sense shake device, when earthquake takes place, sends the startup request to single-chip microcomputer 51.Real-time clock 53 its models are PCF 8563, when arriving certain time of setting in advance, send the startup request to single-chip microcomputer 51.The startup request that Man Machine Interface 54 produces is a manual request.Man Machine Interface 54 is made of 4 * 4 matrix keyboards, and when needs carry out system when being provided with to the earthquake disaster monitor, 4 * 4 matrix keyboards send to single-chip microcomputer 51 and start request.After single-chip microcomputer 51 was received and started request, intelligent power module 5 was the power supply of earthquake disaster monitor by monitor power control circuit 56, sent to intelligent control unit 1 by serial line interface 57 simultaneously to start type.Intelligent power module 5 has realized that the state of earthquake disaster monitor switches, and has reached the purpose of power management, has realized obtaining automatically of earthquake disaster.

Solar electric power supply system 55 is made up of solar panel, charge controller and high-performance lithium battery.The solar panel model is STP075-12, is used for sun power is converted to electric energy, is whole earthquake disaster monitor power supply.The charge controller model is Solsum8.0, realizes the charge and discharge control to the high-performance lithium battery.The high-performance lithium battery size is Li 50-12.6, is used to store the electric energy that is come by the solar panel conversion.

Figure 4 shows that the schematic diagram of monitor power control circuit 56.Monitor power control circuit 56 is made up of voltage conversion circuit and on-off circuit two parts.Voltage conversion circuit is by capacitor C 1～C5, voltage stabilizing diode D1, and DC/DC module U2 forms, and the output voltage V b of high-performance lithium battery is transformed to the required direct current 5V voltage VDD of earthquake disaster monitor, and wherein the U2 model is EC5B01.On-off circuit is made of darlington array U1, and the U1 model is ULN2003A.The 1B of U1～4B pin short circuit, and link to each other with the power supply of single-chip microcomputer 51 control pin.The 1C of U1～4C pin short circuit, and link to each other with negative electrode-VIN of U2.The 1B of U1～4B pin short circuit and 1C～4C pin short circuit is to make full use of the driving force of darlington array.When the power supply control pin of single-chip microcomputer 51 is output as low level, 1B～the 4B that is U1 is input as low level, then 1C～4C of U1 is output as high level, on-off circuit is in off-state, voltage conversion circuit is output as low level, monitor power control circuit 56 cut-out solar electric power supply systems 55 are connected with earthquake disaster monitor other parts power supply, and the earthquake disaster monitor works in dormant state.When the power supply control pin of single-chip microcomputer 51 is output as high level, 1B～the 4B that is U1 is input as high level, then 1C～4C of U1 is output as low level, on-off circuit is in closure state, voltage conversion circuit is output as VDD, monitor power control circuit 56 is set up being connected of solar electric power supply system 55 and earthquake disaster monitor other parts power supply, and the earthquake disaster monitor withdraws from dormant state, enters monitor state.

Multiple network transmission mediums such as 6 supports of IPv4/IPv6 mixed-media network modules mixed-media are wired, WiFi wireless network (IEEE802.11x), WiMax wireless network (IEEE802.16), 3G wireless network, support the IPv4/IPv6 dual stack, realize that the wire/radio network of earthquake disaster monitor inserts.IPv4/IPv6 mixed-media network modules mixed-media 6 has been realized wired and wireless multiple network medium, and the Redundancy Design of multiple transport protocols, the reliable data channel that provides for uploading of earthquake disaster information.

Figure 5 shows that the overall work flow process of earthquake disaster monitor.Intelligent power module 5 produces sense shake startup, timing starts or manually start three kinds starts request.When local earthquake calamity feelings monitor started, intelligent power module 5 was whole earthquake disaster monitor power supply by monitor power control circuit 56.Start the operating system after intelligent control unit 1 powers on, after os starting is finished control handed to the overall measurement and control program that runs on the intelligent control unit 1.Each module that overall measurement and control program is used to coordinate the earthquake disaster monitor realize the condition of a disaster data collection, processing, storage, show and function such as upload.Overall measurement and control program at first obtains to start type from intelligent power module 5, i.e. sense shake starts, regularly starts and manually starts, carry out control command according to starting type then, send acquisition to data acquisition module 2, video acquisition module 3 and GPS module 4, the condition of a disaster data of each module collection are carried out local demonstration and preservation, and these data are uploaded to higher level department or system by IPv4/IPv6 mixed-media network modules mixed-media 6.

As shown in Figure 6, carry out the initialization of each module after the overall measurement and control program operation, obtain the status information of each module, analyze the startup type of earthquake disaster monitor.When sense shake starts, read the condition of a disaster data, upload the condition of a disaster data, judge whether to finish the monitoring task, finish then quitting a program and close instrument, do not finish and then read and upload the condition of a disaster data continuously.When regularly starting, the read transducer state is uploaded sensor states, reads the condition of a disaster data, uploads the condition of a disaster data, quits a program afterwards and closes instrument.When manually starting, finish man-machine event handlings such as the earthquake disaster monitor is soft, hardware setting, quit a program afterwards and close instrument.

The content that is not described in detail in the utility model instructions belongs to this area professional and technical personnel's known prior art.

The above only is a preferred implementation of the present utility model; should be pointed out that for those skilled in the art, under the prerequisite that does not break away from the utility model principle; can also make some improvements and modifications, these improvements and modifications also should be considered as protection domain of the present utility model.

Claims (3)

1, a kind of earthquake disaster monitor is characterized in that comprising: intelligent control unit (1), data acquisition module (2), video monitoring module (3), GPS module (4), intelligent power module (5) and IPv4/IPv6 mixed-media network modules mixed-media (6), wherein:

Data acquisition module (2) comprises single-chip microcomputer (21), A/D converter (22) and multiple the condition of a disaster sensor; Described multiple the condition of a disaster sensor comprises the element information that is used to obtain earthquake motion, promptly passes through to calculate the toxic gas sensor (25) of the concentration information of the three-axis acceleration sensor (23) of the local seismic intensity information of three axial acceleration value acquisition, the fire sensor (24) that obtains temperature and cigarette sense information and the high-risk poisonous and harmful substance of acquisition; Multiple the condition of a disaster sensor acquisition earthquake field the condition of a disaster data are converted into digital signal through A/D converters (22) and send in the single-chip microcomputer (21) and handle the above-mentioned the condition of a disaster information of obtaining; The above-mentioned the condition of a disaster information that acquisition module (2) obtains is uploaded to intelligent control unit (1) by serial line interface (26);

Video monitoring module (3) is made of infrared video video camera and image pick-up card, in order to the video monitoring of round-the-clock earthquake field round the clock to be provided; Infrared video video camera output analog video signal is converted to digital signal by image pick-up card with this analog video signal, is uploaded to intelligent control unit (1) by USB interface;

GPS module (4) is used to obtain the geographic position and the time of earthquake disaster monitor, and for whole earthquake disaster monitor provides the unified time benchmark, is uploaded to intelligent control unit (1) by serial line interface;

Intelligent power module (5) realizes that earthquake disaster monitor state switches, and its generation sense shake starts, regularly starts or manually starts three kinds of startup requests, is uploaded to intelligent control unit (1) by serial line interface, reaches the purpose of power management;

Intelligent control unit (1) is realized collection, storage, demonstration and the upload function of earthquake field the condition of a disaster data; Intelligent control unit (1) powers on the back from intelligent power module (5) acquisition startup type, i.e. sense shake starts, regularly starts and manually starts, carry out control command according to starting type then, send acquisition to data acquisition module (2), video acquisition module (3) and GPS module (4), the condition of a disaster data of each module collection are carried out local demonstration and preservation, and these data are uploaded to higher level department or system by IPv4/IPv6 mixed-media network modules mixed-media (6);

IPv4/IPv6 mixed-media network modules mixed-media (6) realizes that the wire/radio network of earthquake disaster monitor inserts.

2, earthquake disaster monitor according to claim 1 is characterized in that: described intelligent power module (5) comprises single-chip microcomputer (51), sense shake device (52), real-time clock (53), Man Machine Interface (54), solar electric power supply system (55), monitor power control circuit (56) and serial line interface (57); Solar electric power supply system (55) passes through monitor power control circuit (56) under the control of single-chip microcomputer (51) be the power supplies of earthquake disaster monitor other parts; Sense shake device (52), real-time clock (53) and Man Machine Interface (54) are connected with the external event interrupt interface of single-chip microcomputer (51) respectively, when earthquake takes place, sense shake device (52) sends the sense shake to single-chip microcomputer (51) and starts request, when arriving certain time of setting in advance, real-time clock (53) sends to single-chip microcomputer (51) and regularly starts request, when needs carry out system when being provided with to the earthquake disaster monitor, Man Machine Interface (54) sends the request of manually starting to single-chip microcomputer (51); After single-chip microcomputer (51) is received and is started request, the power supply of setting up solar electric power supply system (55) and earthquake disaster monitor other parts by monitor power control circuit (56) is connected to the power supply of earthquake disaster monitor other parts, the earthquake disaster monitor withdraws from dormant state, enter monitor state, single-chip microcomputer (51) sends to intelligent control unit (1) by serial line interface (57) and starts type simultaneously.

3, earthquake disaster monitor according to claim 1, it is characterized in that: described IPv4/IPv6 mixed-media network modules mixed-media (6) is supported the multiple network transmission medium of wired, WiFi wireless network, WiMax wireless network, 3G wireless network, and supports the IPv4/IPv6 dual stack.

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