CN204576755U - Landslide and mud-stone flow disaster dynamic monitor - Google Patents

Abstract

The application relates to landslide and mud-stone flow disaster dynamic monitor, and device is made up of electric power system, monitoring center, data collection station, GPRS communication network and remote server five part.The utility model structure is simple, easy for installation, maintenance cost is low, solar panel, accumulator, monitoring center's equipment and data acquisition terminal equipment market are easily bought and low price, rain sensor, obliquity sensor, stay wire displacement sensor and video monitor carry out real-time volume monitoring from many aspects to the condition of a disaster, precision is high, data are accurate, the condition of a disaster command centre remote control equipment duty, save a large amount of manpower and materials, and the condition of a disaster and peripheral information comprehensively can be analyzed, grasp the condition of a disaster state of development comprehensively.

Description

Landslide and mud-stone flow disaster dynamic monitor

Technical field

The utility model relates to hazards control and monitoring technology, specifically a kind of landslide and mud-stone flow disaster dynamic monitor.

Background technology

China is the country that a disaster takes place frequently, and particularly annual flood season is in highlands, mountain region, and landslide and mud-stone flow disaster concentrate outburst, and it has sudden strong, feature that destructive power is large, causes loss without redemption to the people.At present, for the prevention of this type of disaster, various places establish the anti-group of group gradually and survey system, carry out regular inspection, investigate Hidden hazrads point, carry out the measures such as emphasis monitoring to disaster hidden danger point, but these measures are also mainly by manually completing, and the monitoring technology means backwardness relatively used; Also some area adopts GPS real time monitoring, although GPS monitoring has ageing strong, precision high feature, GPS device is expensive, and large-scale application is unrealistic; Although also some area adopts wireless sensor device to be monitored by cordless communication network, the condition of a disaster information is sent to masses suffering from disaster by the means such as note, broadcast, and the alarm mode of this single-point is difficult to periphery the condition of a disaster informix.

Summary of the invention

In order to overcome the deficiency of above-mentioned landslide and mud-stone flow disaster monitoring means, the utility model provides a kind of landslide and mud-stone flow disaster dynamic monitor, effectively reduce the cost of equipment investment, real-time for the condition of a disaster information can accurately be sent to the condition of a disaster command centre, for command centre's united analysis, early warning and rescue again simultaneously.

For achieving the above object, the technical solution of the utility model is as follows:

The utility model is made up of electric power system 1, monitoring center 5, data collection station 16, GPRS communication network 14 and remote server 15 5 part.Electric power system 1 comprises solar panel 4, solar charging controller 3 and accumulator 2.Monitoring center 5 comprises disaster monitoring equipment box 6; disaster monitoring equipment box 6 built-in power protective device 7, GPRS low-power consumption detection and control terminal 8, pwm signal modulator 12 and deconcentrator 13, GPRS low-power consumption detection and control terminal 8 are provided with sim card slot 9 and external antenna binding post 10.Data collection station 16 comprises video monitor 20, obliquity sensor 19, stay wire displacement sensor 18 and rain sensor 17.Solar panel 4, solar charging controller 3 are connected successively with accumulator 2; accumulator 2 is connected with apparatus for protecting power supply 7; apparatus for protecting power supply 7 is connected with deconcentrator 13; video monitor 20, obliquity sensor 19, stay wire displacement sensor 18, rain sensor 17 are connected with pwm signal modulator 12 by deconcentrator 13; GPRS low-power consumption detection and control terminal 8 connects deconcentrator 13 and pwm signal modulator 12 respectively; antenna 11 is connected to external antenna binding post 10, and GPRS network 14 is connected with remote server 15.

In technique scheme, GPRS low-power consumption detection and control terminal operating voltage is 12V, working current≤10mA, and working temperature is-40 ~+85 DEG C.

In technique scheme, obliquity sensor is numeric type double-shaft tilt angle sensor, and precision is 0.1 °.

In technique scheme, stay wire displacement sensor is stainless steel bracing wire, and working pulling force is about 6N, and wire diameter specification is Φ 0.6, and linear precision is 0.05%FS.

In technique scheme, it is Φ 200 ± 0.6mm that rain sensor holds footpath, the mouth of a river, and measuring precipitation intensity is≤4mm/Min, resolution 0.2mm, error ± 4% (indoor static is tested, and raininess is 2mm/Min).

In technique scheme, video monitor is IR Color CCD industrial camera, pixel value 2,000,000.

In technique scheme, collection signal is digital signal through unified output of pwm signal modulator.

In technique scheme, solar charging controller is C plastic casing breaker.

The beneficial effects of the utility model are as follows:

The utility model structure is simple, easy for installation, maintenance cost is low, solar panel, accumulator, monitoring center's equipment and data acquisition terminal equipment market are easily bought and low price, rain sensor, obliquity sensor, stay wire displacement sensor and video monitor carry out real-time volume monitoring from many aspects to the condition of a disaster, precision is high, data are accurate, the condition of a disaster command centre remote control equipment duty, save a large amount of manpower and materials, and the condition of a disaster and peripheral information comprehensively can be analyzed, grasp the condition of a disaster state of development comprehensively.

Accompanying drawing explanation

Fig. 1 is utility model works principle schematic.

Fig. 2 is the utility model disaster monitoring equipment box interior layout figure.

In figure, 1, electric power system; 2, accumulator; 3, solar charging controller; 4, solar panel; 5, monitoring center; 6, disaster monitoring equipment box; 7, apparatus for protecting power supply; 8, GPRS low-power consumption detection and control terminal; 9, sim card slot; 10, external antenna binding post; 11, antenna; 12, pwm signal modulator; 13, deconcentrator; 14, GPRS network; 15, remote server; 16, data collection station; 17, rain sensor; 18, stay wire displacement sensor; 19, obliquity sensor; 20, video monitor;

Embodiment

Below in conjunction with concrete accompanying drawing, the utility model scheme is described in detail.

The utility model is made up of electric power system 1, monitoring center 5, data collection station 16, GPRS communication network 14 and remote server 15 5 part.Electric power system 1 comprises solar panel 4, solar charging controller 3 and accumulator 2.Monitoring center 5 comprises disaster monitoring equipment box 6; disaster monitoring equipment box 6 built-in power protective device 7, GPRS low-power consumption detection and control terminal 8, pwm signal modulator 12 and deconcentrator 13, GPRS low-power consumption detection and control terminal 8 are provided with sim card slot 9 and external antenna binding post 10.Data collection station 16 comprises video monitor 20, obliquity sensor 19, stay wire displacement sensor 18 and rain sensor 17.Solar panel 4, solar charging controller 3 are connected successively with accumulator 2; accumulator 2 is connected with apparatus for protecting power supply 7; apparatus for protecting power supply 7 is connected with deconcentrator 13; video monitor 20, obliquity sensor 19, stay wire displacement sensor 18, rain sensor 17 are connected with pwm signal modulator 12 by deconcentrator 13; GPRS low-power consumption detection and control terminal 8 connects deconcentrator 13 and pwm signal modulator 12 respectively; antenna 11 is connected to external antenna binding post 10, and GPRS network 14 is connected with remote server 15.

In technique scheme, GPRS low-power consumption detection and control terminal operating voltage is 12V, working current≤10mA, and working temperature is-40 ~+85 DEG C.

In technique scheme, obliquity sensor is numeric type double-shaft tilt angle sensor, and precision is 0.1 °.

In technique scheme, stay wire displacement sensor is stainless steel bracing wire, and working pulling force is about 6N, and wire diameter specification is Φ 0.6, and linear precision is 0.05%FS.

In technique scheme, it is Φ 200 ± 0.6mm that rain sensor holds footpath, the mouth of a river, and measuring precipitation intensity is≤4mm/Min, resolution 0.2mm, error ± 4% (indoor static is tested, and raininess is 2mm/Min).

In technique scheme, video monitor is IR Color CCD industrial camera, pixel value 2,000,000.

In technique scheme, collection signal is digital signal through unified output of pwm signal modulator.

In technique scheme, solar charging controller is C plastic casing breaker.

The course of work of present embodiment is:

Obliquity sensor and stay wire displacement sensor are embedded in sliding mass, bracing wire is strained, obliquity sensor is placed in suitable angle, the angular field of view of adjustment video monitor, and rain sensor is placed in monitoring equipment masthead, remote command center controls the running of each equipment by GPRS network, according to Various Seasonal and weather conditions, the adjustment video capture time interval, when massif is subjected to displacement conversion, what relevant information was real-time occurs to remote command center, and command centre makes corresponding early warning according to harmful grade.

Above-mentioned embodiment is only for further illustrating a kind of embodiment of the present utility model, and be not used in restriction protection domain of the present utility model, namely the utility model does not limit to present embodiment.Every according to technical spirit of the present utility model; any simple modification that above-mentioned embodiment is done, equivalent variations, modification and modification; and to being grouped into simple combination, the merging of component in the middle part of present embodiment or simply decomposing, all in the protection domain of technical solutions of the utility model.

Claims (3)

1. landslide and mud-stone flow disaster dynamic monitor, comprise electric power system, monitoring center, data collection station, GPRS communication network and remote server, is characterized in that described electric power system is by solar panel, solar charging controller and accumulator composition, described monitoring center comprises disaster monitoring equipment box, disaster monitoring equipment box built-in power protective device, GPRS low-power consumption detection and control terminal, pwm signal modulator and deconcentrator, GPRS low-power consumption detection and control terminal is provided with sim card slot and external antenna binding post, and described data collection station is by video monitor, obliquity sensor, stay wire displacement sensor and rain sensor composition, described solar panel, solar charging controller is connected successively with accumulator, and accumulator is connected with apparatus for protecting power supply, and apparatus for protecting power supply is connected with deconcentrator, video monitor, obliquity sensor, stay wire displacement sensor, rain sensor is connected with pwm signal modulator by deconcentrator, and GPRS low-power consumption detection and control terminal connects deconcentrator and pwm signal modulator respectively, and antenna is connected to external antenna binding post, and GPRS network is connected with remote server.

2. the landslide according to right 1 and mud-stone flow disaster dynamic monitor, is characterized in that described collection signal is digital signal through unified output of pwm signal modulator.

3. the landslide according to right 1 and mud-stone flow disaster dynamic monitor, is characterized in that described solar charging controller is C plastic casing breaker.