CN204854813U - Geological disaster monitoring system - Google Patents

Abstract

The utility model provides a geological disaster monitoring system, including monitoring facilities (100) and monitoring analysis module (200), monitoring facilities (100) are including orientation module (110), transport module (130), collection module (120), control module (140) and power module (150), power module (150) include the IOT group battery, and this IOT group battery includes parallel connection's the electroplax that charges (151), first battery (152) and second battery (153). The utility model discloses a geological disaster monitoring system operating time is long, and ability continued work has guaranteed the earth's surface feature data accuracy that obtains, practices thrift manpower resources. Simultaneously, owing to combine first battery and second battery realization bimodulus to supply power, power module has characteristics such as wide operational temperature range and the instantaneous power supply of heavy current, the further earth's surface feature data accuracy of guaranteeing the acquisition. In addition, through the natural environment's to monitoring facilities located detection, adaptive modulation power module's electric quantity.

Description

A kind of geological disaster monitoring system

Technical field

The utility model relates to Geological Hazards Monitoring field, more particularly, relates to a kind of geological disaster monitoring system.

Background technology

China's region length and breadth of land, topography is varied, and geologic hazard happens occasionally, and wherein the geologic hazard such as landslide, avalanche, rubble flow causes casualties and the serious main cause of direct economic loss.And Geological Hazards Monitoring being the change procedure that front ground table status occurs to specifically understand and grasp disaster, catching the characteristic information that disaster occurs in time, so just needing monitoring equipment to be often placed in the multiple area of geologic hazard.Owing to being often placed in the multiple area of geologic hazard, and traditional monitoring equipment can not the power pack of adaptive adjustment monitoring equipment, the operating time of monitoring equipment is shorter, and it is high to the temperature requirement of working environment, need just normally to work at suitable temperature, and be in the multiple area of geologic hazard, temperature can not meet the demands well, maintainer is so just needed regularly to safeguard accordingly, add human cost, can therefore be hindered the investigation of topographical features simultaneously, make the topographical features data of acquisition inaccurate, even obtain less than data, the work that can not continue.

Utility model content

The technical problems to be solved in the utility model is, for the deficiency of existing geological disaster monitoring system, the operating time of monitoring equipment is shorter, and it is high to the temperature requirement of working environment, make the geologic feature data of acquisition inaccurate, even obtain less than data, the work that can not continue, a kind of geological disaster monitoring system is provided.

The technical scheme that the utility model technical solution problem adopts is for providing a kind of geological disaster monitoring system, comprise monitoring equipment and monitoring analysis module, wherein, described monitoring equipment comprises locating module, the transport module carrying out data transmission with monitoring analysis module, acquisition module, control module and provides the supply module of power supply respectively to described locating module, described transport module, described control module and described acquisition module; Described supply module comprises IOT electric battery, and this IOT electric battery comprises charged electrical plate, the first battery and the second battery, and described charging electroplax, described first battery and described second cell parallel connect; When described control module detects that the battery electric quantity of described first battery is less than setting value and described monitoring equipment is in the environment of the natural conditions having charging, export the described charging electroplax that control signal controls described supply module to charge to described first battery, detect in described control module and to export enabling signal when described first battery no current exports and start described second battery and described first battery to be charged or as power supply.

In above-mentioned geological disaster monitoring system, described first battery be using lithium ion as energy-accumulating medium can the secondary energy storage device of recharge; Described charging electroplax comprises sun power electroplax or wind energy electroplax.

In above-mentioned geological disaster monitoring system, described second battery is lithium thionyl chloride cell or lithium chlorosulfuric acid battery.

In above-mentioned geological disaster monitoring system, described control module comprises detection electricity device and testing status information device.

In above-mentioned geological disaster monitoring system, described acquisition module comprises warming probe and vibrations probe.

In above-mentioned geological disaster monitoring system, described supply module also comprises the electricity display unit of the total electricity for showing described IOT electric battery in real time.

In above-mentioned geological disaster monitoring system, described locating module is GPS module.

In above-mentioned geological disaster monitoring system, described transport module is gsm module.

Enforcement the beneficial effects of the utility model have: geological disaster monitoring system longevity of service, and ensure that the topographical features data of acquisition are accurate, energy continuous firing, saves human resources.Simultaneously, power because supply module realizes bimodulus in conjunction with the first battery and the second battery, supply module has the feature such as wide operating temperature range and big current instantaneous power, operating temperature range comprises-40 ~ 85 degrees Celsius, operating temperature range is wide, monitoring equipment is all normally run when this working temperature, ensures that the topographical features data obtained are accurate further.In addition, by the detection to the physical environment residing for monitoring equipment, when the data of physical environment arrive the natural conditions of charging, control the first battery and charge, the electricity of Adaptive Modulation supply module, ensure that the topographical features data obtained are accurate further.

Accompanying drawing explanation

Fig. 1 is the schematic diagram of geological disaster monitoring system embodiment of the present utility model.

Fig. 2 is the schematic diagram of the supply module in Fig. 1.

Embodiment

In order to make the purpose of this utility model, technical scheme and advantage clearly understand, below in conjunction with drawings and Examples, the utility model is further elaborated.Should be appreciated that specific embodiment described herein only in order to explain the utility model, and be not used in restriction the utility model.

As shown in Figure 1, be the schematic diagram of geological disaster monitoring system embodiment of the present utility model.This system comprises monitoring equipment 100 and monitoring analysis module 200, wherein, monitoring equipment 100 comprises locating module 110, acquisition module 120, transport module 130, control module 140 and supply module 150, supply module 150 is electrically connected with locating module 110, acquisition module 120, transport module 130 and control module 140 respectively, control module 140 is also electrically connected with locating module 110, acquisition module 120 and transport module 130 respectively, wherein:

The position data at acquisition module 120 place of monitoring equipment 100, by combined antenna receiving satellite signal, is outputted to control module 140 after process by locating module 110; In the present embodiment, locating module 110 is GPS module, but is not limited thereto, and can also be Big Dipper module, GLONASS (GLONASS) module etc.

Acquisition module 120, for monitoring various topographical features data, outputs to control module 140; In the present embodiment, acquisition module 120 comprises warming probe and vibrations probe, the wherein temperature information on warming probe acquires earth's surface, the shockproofness information on vibrations probe acquires earth's surface, be appreciated that acquisition module 120 also comprises wireless sensor network, gather other topographical features data, as six-axle acceleration sensor, optical sensor, angular acceleration transducer etc., gather as data such as light intensity, all directions acceleration respectively.

Control module 140 receives the position data that locating module 110 exports, receive the various topographical features data that acquisition module 120 exports, and the data received are processed, then the data after process are passed back to monitoring analysis module 200 by transport module 130, like this, the data that collect are carried out visual analyzing stored in database by monitoring analysis module 200, know the geological form situation of change in a certain region in real time, by with Geological Hazards Monitoring model, judge or early warning, to realize the monitoring to geologic hazard;

Transport module 130 is for carrying out data transmission with monitoring analysis module 200; In the present embodiment, transport module 130 is gsm module, but is not limited thereto, and can also be CDMA module or GPRS module.

The data processing that monitoring analysis module 200 is correlated with for the data and carrying out receiving transport module 130 and transmit, as by data stored in database, and carry out visual analyzing.

Supply module 150 provides power supply to respectively locating module 110, acquisition module 120, transport module 130 and control module 140.

As shown in Figure 2, be the schematic diagram of supply module in Fig. 1.With reference to figure 2, supply module 150 comprises IOT (InternetofThings, Internet of Things) electric battery (in figure non-label), this IOT electric battery comprises charged electrical plate 151 and the first battery 152, wherein, charging electroplax 151 and the first battery 152 are connected in parallel, and charging electroplax 151 is also connected with the first battery 152.Charging electroplax 151 charges for giving the first battery 152, now, control module 140 detects the battery level information of the first battery 152 in supply module 150, simultaneously, control module 140 goes back the environmental information whether test and monitoring equipment 100 is in the natural conditions having charging, when battery electric quantity is less than setting value and watch-dog 100 is in the environment of the natural conditions having charging, output control signals to supply module 150, with the charging electroplax 151 controlled in supply module 150, first battery 152 is charged, like this, the powering quantity of self-adaptative adjustment supply module 150, guarantee monitoring equipment long-play, and then make the topographical features data of acquisition accurate.

In the present embodiment, first battery 152 be using lithium ion as energy-accumulating medium can the secondary energy storage device of recharge, comprise and be not limited to super capacitor, lithium-ion capacitance, lithium ion battery and combination thereof, this secondary energy storage device is optimized for low-temperature working and designs and have larger stored energy capacitance redundancy, therefore ensure that the ability under cryogenic with instantaneous repeatedly heavy-current discharge of supply module 150.

Meanwhile, charging electroplax 151 comprises sun power electroplax, now, when control module 140 detects that monitoring equipment 100 is in the environment had under sunshine, charge to the first battery 152, the powering quantity of self-adaptative adjustment supply module 150, ensures monitoring equipment 100 long-play further; Be appreciated that charging electroplax 151 also comprises wind energy electroplax, now, when control module 140 detects that monitoring equipment 100 is in the environment having wind, the first battery 152 charged, ensure monitoring equipment 100 long-play further.Certainly, charging electroplax 151 also comprises other environmental energy gathering-devices, under proper environment Parameter Conditions, charges to the first battery 152.

Further, this IOT electric battery also comprises the second battery 153, this second battery 153 is connected in parallel with charging electroplax 151 and the first battery 152 respectively, detect when the first battery 151 no current exports in control module 140 and export enabling signal to supply module 150, the first battery 152 charged or other module for power supply that are monitoring equipment 100 as power supply to start the second battery 153.In the present embodiment, the second battery 153 is lithium-thionyl chloride (Li/SOCl2) battery or lithium chlorosulfuric acid battery.

In the present embodiment, supply module 150 also comprises electricity display unit (not shown), for showing total electricity of IOT electric battery in real time.

In the present embodiment, supply module 150 realizes bimodulus in conjunction with the first battery 151 and the second battery 153 and powers, simultaneously, first battery 151 and the second battery 153 combine, supply module 150 has wide operating temperature range, big current instantaneous power feature, operating temperature range comprises-40 ~ 85 degrees Celsius, operating temperature range is wide, monitoring equipment 100 is all normally run in this operating temperature range, ensure monitoring equipment 100 long-play, and then ensure that the topographical features data that Geological Hazards Monitoring obtains are accurate, can continuous firing.Meanwhile, relatively existing single lithium ion battery, has longer serviceable life, reaches 3 years.And the generally only power supply about 10 days of single lithium ion battery.In addition, by the detection to the physical environment residing for monitoring equipment, the data of the physical environment detected are passed to control module, if the data of physical environment arrive the natural conditions of charging, control the first battery and charge, the electricity of Adaptive Modulation supply module.

Accordingly, be provided with acquisition locator data device, acquisition topographical features data set in control module 140, detect electricity device, testing status information device, judgment means, data generating device, storage blind area data device and send data set; Wherein:

Obtaining locator data device for receiving the position data at acquisition module 120 place of the monitoring equipment 100 of locating module 110 output, after process, outputting to data generating device;

Obtaining the topographical features data that topographical features data set collects for obtaining acquisition module 120, comprising the sunlight intensity of monitoring equipment position, the intensity of wind and mechanical vibration intensity, after process, outputting to data generating device;

Detecting electricity device for detecting the battery level information of the first battery 152 in supply module 150, after process, outputting to data generating device;

Testing status information device is for detecting the work state information of the first battery 152 in supply module 150, and namely detecting the first battery 152 has no current to export, and outputs to data generating device after process;

Judgment means is for judging whether transport module 130 is connected to the network successful, and when successful connection, output signal is to sending data set; When connecting unsuccessful, and then judge whether connect number of times reaches setting value, when transport module 130 set point number connected to the network is all unsuccessful, output signal is to storing blind area data device;

Data generating device receives the data obtaining locator data device, gather field environment data set, detect electricity device and testing status information device, generates current transmission data;

Send data set for the data sent in data generating device and the data sent in storage blind area data device.

In the present embodiment, above-mentioned control module 140 can be integrated on one piece of complete circuit board by integrated circuit (IC) design.Be appreciated that the set that also can be designed to each different circuit board.

Summary, geological disaster monitoring system longevity of service of the present utility model, ensure that the topographical features data obtained are accurate, energy continuous firing, saves human resources.Simultaneously, power because supply module realizes bimodulus in conjunction with the first battery and the second battery, supply module has the features such as big current instantaneous power, wide operating temperature range, operating temperature range comprises-40 ~ 85 degrees Celsius, operating temperature range is wide, monitoring equipment 100 is all normally run when this working temperature, ensures that the topographical features data obtained are accurate further.In addition, by the detection to the physical environment residing for monitoring equipment, when the data of physical environment arrive the natural conditions of charging, control the first battery and charge, the electricity of Adaptive Modulation supply module, ensures the accuracy of the topographical features data obtained further.

The above; be only the utility model preferably embodiment; but protection domain of the present utility model is not limited thereto; anyly be familiar with those skilled in the art in the technical scope that the utility model discloses; the change that can expect easily or replacement, all should be encompassed within protection domain of the present utility model.Therefore, protection domain of the present utility model should be as the criterion with the protection domain of claim.

Claims (8)

1. a geological disaster monitoring system, it is characterized in that, comprise monitoring equipment (100) and monitoring analysis module (200), wherein, described monitoring equipment (100) comprises locating module (110), the transport module (130) carrying out data transmission with described monitoring analysis module (200), acquisition module (120), control module (140) and provides the supply module (150) of power supply respectively to described locating module (110), described transport module (130), described control module (140) and described acquisition module (120); Described supply module (150) comprises IOT electric battery, this IOT electric battery comprises charged electrical plate (151), the first battery (152) and the second battery (153), and described charging electroplax (151), described first battery (152) and described second battery (153) are connected in parallel; When described control module (140) detects that the battery electric quantity of described first battery (152) is less than setting value and described monitoring equipment (100) is in the environment of the natural conditions having charging, export the described charging electroplax (151) that control signal controls described supply module (150) to charge to described first battery (152), detect in described control module (140) and to export enabling signal when described first battery (151) no current exports and start described second battery (153) and described first battery (152) to be charged or as power supply.

2., according to the geological disaster monitoring system described in claim 1, it is characterized in that, described first battery (152) be using lithium ion as energy-accumulating medium can the secondary energy storage device of recharge; Described charging electroplax (151) comprises sun power electroplax or wind energy electroplax.

3. according to the geological disaster monitoring system described in claim 2, it is characterized in that, described second battery (153) is lithium thionyl chloride cell or lithium chlorosulfuric acid battery.

4. according to the geological disaster monitoring system described in claim 3, it is characterized in that, described control module (140) comprises detection electricity device and testing status information device.

5. according to the geological disaster monitoring system described in claim 4, it is characterized in that, described acquisition module (120) comprises warming probe and vibrations probe.

6. according to the geological disaster monitoring system described in claim 5, it is characterized in that, described supply module (150) also comprises the electricity display unit of the total electricity for showing described IOT electric battery in real time.

7. the geological disaster monitoring system according to any one of claim 1-6, is characterized in that, described locating module (110) is GPS module.

8. the geological disaster monitoring system according to any one of claim 1-6, is characterized in that, described transport module (130) is gsm module.