CN203849835U - Wireless data acquisition control system - Google Patents

Abstract

The utility model discloses a wireless data acquisition control system, and pertains to the technical field of geological disaster monitoring. The wireless data acquisition control system of the utility model comprises an information analysis control unit (1), a deep deformation monitoring unit (2), a earth surface imaging and ranging disaster monitoring unit (3), a rainfall monitoring unit (4), a wind speed monitoring unit (5), a temperature and humidity monitoring unit (6), a chemical gas monitoring unit (7), distributed sensor monitoring units (8), a sonar monitoring unit (9), a GSM/GPRS antenna transmitting unit (10), and a disaster alarm unit (11). Compared with the prior art, the system of the utility model has advantages of reliable performance, stable operation and advanced prevention alarming.

Description

Data acquisition control system

Technical field

The invention belongs to monitoring technology for geological hazards field, in particular, belong to a kind of technology of by data acquisition control system, the geologic hazards such as earthquake, landslide, rubble flow being carried out effective monitoring and warning.

Background technology

The geologic hazards such as earthquake, landslide, rubble flow take place frequently, very harmful to people's lives and properties.In the last few years along with the infrastructure projects such as power station, reservoir, highway, railway engineering constantly increase, the geologic hazard such as come down, breach a dyke, subside takes place frequently, and has a strong impact on use safety and the life-span of these infrastructure and engineering people's life has around been caused safely to very disadvantageous negative effect.At present there is tens thousand of of the geologic hazards such as earthquake, landslide, rubble flow in China every year, how these geologic hazards monitors with early warning conscientiously to protect people life property safety, and be the current important topic facing of China.

At present the geologic hazards such as earthquake, landslide, rubble flow are monitored and early warning is all action by government conventionally, need to mobilize a large amount of human and material resources, financial resources, and monitoring effect is conventionally also not ideal.The Geological Hazards Monitorings such as existing earthquake, landslide, rubble flow and method for early warning all need the variation by observing or survey address structure to predict the generation of geologic hazard, but due to the great contingency of existing of geologic hazard, these method and apparatus can only provide the possibility that geologic hazard occurs, the time of origin of the geologic hazard that cannot forecast with unerring accuracy.

Summary of the invention

The present invention, in order effectively to solve above technical matters, has provided a kind of data acquisition control system.

A kind of data acquisition control system of the present invention, it is characterized in that, comprise information analysis control module, deep deformation monitoring means, earth's surface imaging and range finding disaster monitoring unit, rainfall amount monitoring means, air monitoring unit, temperature and humidity monitoring means, chemical gas monitoring means, distributed sensor monitoring means, sonar monitoring means, GSM/GPRS antenna transmission unit, calamity forecast unit; Wherein:

Described information analysis control module is connected with range finding disaster monitoring unit, described rainfall amount monitoring means, described air monitoring unit, described temperature and humidity monitoring means, described chemical gas monitoring means, described distributed sensor monitoring means, described sonar monitoring means, described GSM/GPRS antenna transmission unit, described calamity forecast unit with described deep deformation monitoring means, the imaging of described earth's surface respectively; Described information analysis control module monitors information and carries out analyzing and processing with range finding disaster monitoring unit, described rainfall amount monitoring means, described air monitoring unit, described temperature and humidity monitoring means, described chemical gas monitoring means, described distributed sensor monitoring means, described sonar monitoring means described deep deformation monitoring means, the imaging of described earth's surface, and described information analysis control module is connected to described GSM/GPRS antenna transmission unit, described calamity forecast unit according to analysis processing result;

Described deep deformation monitoring means is monitored the early stage geology failure mode in monitored area, the degree of depth, scope;

The imaging of described earth's surface is carried out the scanning of timing continuous laser, is obtained the earth's surface image in monitored area monitored area with range finding disaster monitoring unit, after mobile object monitoring, integrity checking, position and directional surveillance, analyze object different time sections in monitored area and whether have motion and movement tendency; By laser range finder, the distance variation of selected object is carried out to Accurate Measurement, after analyzing, further whether displacement calculating acceleration changes again;

Described rainfall amount monitoring means is monitored the rainfall amount of monitored area;

Monitor the wind speed of monitored area described air monitoring unit;

Described temperature and humidity monitoring means is monitored the temperature and humidity of monitored area, by thermal resistance, the temperature of monitored area is monitored, and by ceramic wet dependent sensor, the soil moisture of monitored area is monitored;

The mercury vapour that described chemical gas monitoring means is piled up near overhead monitored area or radon gas reach abnormal concentrations and monitor;

Described distributed sensor monitoring means comprises main controlled node and multiple sensor node, and described main controlled node comprises top control module, vibration trigger module, wireless telecommunications receiver module, vibrational waveform database, vibrational waveform analysis module, vibration shear wave shape judge module, vibration compressional wave shape judge module, vibration plane waveform judge module, the timely interocclusal record module of wave amplitude, main GPS locating module, main power source module; Described top control module is connected with described vibration trigger module, described wireless telecommunications receiver module, described vibrational waveform database, described vibrational waveform analysis module, described vibration shear wave shape judge module, described vibration compressional wave shape judge module, described vibration plane waveform judge module, the timely interocclusal record module of described wave amplitude, described main GPS locating module, described main power source module respectively;

Described sensor node comprises node control module, wireless telecommunications transmitter module, MEMS 3-axis acceleration sensing module, acceleration sensing laying state module, node GPS locating module, node power module; Described node control module is connected with described wireless telecommunications transmitter module, described MEMS 3-axis acceleration sensing module, described acceleration sensing laying state module, described node GPS locating module, described node power module respectively;

Described distributed sensor monitoring means is for monitoring massif deformation and the ground vibration information of diverse location, massif deformation and the ground vibration information of the diverse location of the described main controlled node each described sensor node collection of reception and transmission is also carried out fusion treatment to obtain massif state and landslide early warning information, and described main controlled node is connected with described information analysis control module;

Described sonar monitoring means is for monitoring rock fracture, mobile fracture sound wave, slippage sound wave and the successional significantly transverse vibration of sending;

Described GSM/GPRS antenna transmission unit keeps controlling and monitoring contacting of command centre with a distant place, controls monitoring command centre transmit detected parameters, analyze data and scan the monitored area obtaining to a distant place;

Report to the police to the geologic hazard of different brackets according to the analysis result of described information analysis control module in described calamity forecast unit.

According to above-described data acquisition control system, preferably, described sensor node is 1-10.

The present invention compared with prior art has dependable performance, working stability, the prevention feature such as leading of reporting to the police.Data acquisition control system of the present invention can be carried out round-the-clock, unmanned enforcement dynamic surveillance to the geologic hazard of the formation such as earthquake, landslide, rubble flow, the information that control system monitors according to each monitoring means is determined the warning level of geologic hazard, and carries out remote information transmission by wireless communication mode and report to the police.

Brief description of the drawings

Accompanying drawing 1 is the structural representation of data acquisition control system of the present invention;

Accompanying drawing 2 is the main controlled node of distributed sensor monitoring means and structural representations of multiple sensor nodes in data acquisition control system of the present invention.

Embodiment

Fig. 1 is the structural representation of data acquisition control system of the present invention, and a kind of data acquisition control system of the present invention comprises information analysis control module 1, deep deformation monitoring means 2, earth's surface imaging and range finding disaster monitoring unit 3, rainfall amount monitoring means 4, air monitoring unit 5, temperature and humidity monitoring means 6, chemical gas monitoring means 7, distributed sensor monitoring means 8, sonar monitoring means 9, GSM/GPRS antenna transmission unit 10, calamity forecast unit 11; Information analysis control module 1 is connected with range finding disaster monitoring unit 3, described rainfall amount monitoring means 4, air monitoring unit 5, temperature and humidity monitoring means 6, chemical gas monitoring means 7, distributed sensor monitoring means 8, sonar monitoring means 9, GSM/GPRS antenna transmission unit 10, calamity forecast unit 11 with deep deformation monitoring means 2, earth's surface imaging respectively.

Information analysis control module 1 monitors information and carries out analyzing and processing with range finding disaster monitoring unit 3, rainfall amount monitoring means 4, air monitoring unit 5, temperature and humidity monitoring means 6, chemical gas monitoring means 7, distributed sensor monitoring means 8, sonar monitoring means 9 deep deformation monitoring means 2, earth's surface imaging, and information analysis control module 1 is connected to GSM/GPRS antenna transmission unit 10, calamity forecast unit 11 according to analysis processing result; The warning message that information analysis control module 1 sends according to different monitoring means, carries out the forecast of different brackets to geologic hazard; If aforementioned monitoring means sends the less of early warning information, information analysis control module 1 can send low-grade geological disaster forecasting; If aforementioned monitoring means sends the more of early warning information, information analysis control module 1 can send high-grade geological disaster forecasting.

Deep deformation monitoring means 2 is monitored the early stage geology failure mode in monitored area, the degree of depth, scope; The monitoring result of deep deformation monitoring means 2 plays an important role in information analysis control module 1 judges whether to exist the analytic process of potential geologic hazard, information analysis control module 1 can be according to the monitoring result of deep deformation monitoring means 2 in conjunction with the testing result of other detecting units to whether existing potential geologic hazard to analyze.

Earth's surface imaging is carried out the scanning of timing continuous laser, is obtained the earth's surface image in monitored area monitored area with range finding disaster monitoring unit 3, after mobile object monitoring, integrity checking, position and directional surveillance, analyze object different time sections in monitored area and whether have motion and movement tendency; By laser range finder, the distance variation of selected object is carried out to Accurate Measurement, after analyzing, further whether displacement calculating acceleration changes again; Earth's surface imaging plays an important role in information analysis control module 1 judges whether to exist the analytic process of potential geologic hazard with the monitoring result of range finding disaster monitoring unit 3, and information analysis control module 1 can base area telogenesis picture be combined the testing result of other detecting units to whether existing potential geologic hazard to analyze with the monitoring result of the disaster monitoring unit 3 of finding range.

Rainfall amount monitoring means 4 is monitored the rainfall amount of monitored area; Monitor the wind speed of monitored area air monitoring unit 5; Rainfall amount monitoring means 4 and air monitoring unit 5 monitoring result exist geologic hazard to there is the effect of auxiliary reference to judging whether; Temperature and humidity monitoring means 6 is monitored the temperature and humidity of monitored area, by thermal resistance, the temperature of monitored area is monitored, and by ceramic wet dependent sensor, the soil moisture of monitored area is monitored.Under normal circumstances, when mostly geologic hazard is that rainfall amount and wind speed change when generation, information analysis control module 1 exists the possibility of geologic hazard to carry out grading forewarning system according to the monitoring result of the monitoring result of rainfall amount monitoring means 4, air monitoring unit 5, temperature and humidity monitoring means 6 and in conjunction with the monitoring result of other monitoring means to judging whether.

The mercury vapour that chemical gas monitoring means 7 is piled up near overhead monitored area or radon gas reach abnormal concentrations and monitor; Chemical gas monitoring means 7 can play important reference role in the prealarming process of geologic hazard, information analysis control module 1 is connected with chemical gas monitoring means 7 and then can monitors mercury vapour or radon gas reaches abnormal concentrations, realizes the possibility that judges whether to exist geologic hazard.

Sonar monitoring means 9 is for monitoring rock fracture, mobile fracture sound wave, slippage sound wave and the successional significantly transverse vibration of sending; Sonar monitoring means 9 also can play important reference role in the prealarming process of geologic hazard, information analysis control module 1 is connected and then can monitors whether occurred rock fracture, mobile fracture sound wave, slippage sound wave and the successional significantly transverse vibration of sending with sonar monitoring means 9, realize the possibility that judges whether to exist geologic hazard.

Report to the police to the geologic hazard of different brackets according to the analysis result of information analysis control module 1 in calamity forecast unit 11.GSM/GPRS antenna transmission unit 10 keeps controlling contacting of monitoring command centre with a distant place, controls the early warning information of the definite different brackets in monitoring command centre transmits detected parameters, analyzes data, scanning obtains monitored area and calamity forecast unit 11 to a distant place.

Fig. 2 is the main controlled node of distributed sensor monitoring means and the structural representation of multiple sensor nodes in data acquisition control system of the present invention, distributed sensor monitoring means 8 is for monitoring massif deformation and the ground vibration information of diverse location, main controlled node 801 receives massif deformation and the ground vibration information of the diverse location that each sensor node 802 gathers and transmit, and carry out fusion treatment to obtain massif state and landslide early warning information, main controlled node 801 is connected with information analysis control module 1, distributed sensor monitoring means 8 checks that Ground Deformation and underground instantaneous vibration monitor and early warning geologic hazard extremely.

Distributed sensor monitoring means 8 comprises main controlled node 801 and multiple sensor node 802, and main controlled node 801 comprises top control module 8011, vibration trigger module 8012, wireless telecommunications receiver module 8013, vibrational waveform database 8014, vibrational waveform analysis module 8015, vibration shear wave shape judge module 8016, vibration compressional wave shape judge module 8017, vibration plane waveform judge module 8018, the timely interocclusal record module 8019 of wave amplitude, main GPS locating module 80110, main power source module 80111; Top control module 8011 is connected with vibration trigger module 8012, wireless telecommunications receiver module 8013, vibrational waveform database 8014, vibrational waveform analysis module 8015, vibration shear wave shape judge module 8016, vibration compressional wave shape judge module 8017, vibration plane waveform judge module 8018, the timely interocclusal record module 8019 of wave amplitude, main GPS locating module 80110, main power source module 80111 respectively.

Sensor node 802 is 1-10, and the quantity of sensor node 802 can arrange according to concrete landform.Sensor node 802 comprises node control module 8021, wireless telecommunications transmitter module 8022, MEMS 3-axis acceleration sensing module 8023, acceleration sensing laying state module 8024, node GPS locating module 8025, node power module 8026; Node control module 8021 is connected with wireless telecommunications transmitter module 8022, MEMS 3-axis acceleration sensing module 8023, acceleration sensing laying state module 8024, node GPS locating module 8025, node power module 8026 respectively.

The vibration signal that wireless telecommunications transmitter module 8022 detects MEMS 3-axis acceleration sensing module 8023 sends to the wireless telecommunications receiver module 8013 of main controlled node 801, vibrational waveform analysis module 8015 carries out to the vibration signal receiving the kind that Analysis deterrmination is shear wave, compressional wave, ground roll, after determining the kind of ripple, be further analyzed by vibration shear wave shape judge module 8016, vibration compressional wave shape judge module 8017, vibration plane waveform judge module 8018, wave amplitude and the time of the timely interocclusal record module 8019 of wave amplitude to ripple automatically records and stores again.Between the main GPS locating module 80110 of main controlled node 801, the node GPS locating module 8025 of sensor node 802, adopt difference localization method to obtain the high-accuracy positional information between main controlled node 801 and sensor node 802, so can obtain the deformation parameter on earth's surface.Utilize high-accuracy positional information between vibration signal, main controlled node 801 and the sensor node 802 that MEMS 3-axis acceleration sensing module 8023 detects can obtain the early warning information on landslide, earth's surface, also can obtain high-precision predicted time simultaneously.

Data acquisition control system also comprises lightning protection unit, power supply conversion memory unit, anti-theft alarm unit.Lightning protection unit is the high rod-like articles of metal, mounted with lightning protection earthing device.The voltage that voltage conversion apparatus output different brackets is set in power supply conversion memory unit, provides system required all power, and also having accumulator supply needs to use under situation.Anti-theft alarm unit is utilized blinking highlight that calamity forecast unit 11 sends and high frequency sound wave threatening invader or animal and then is reached early warning effect.

Claims (2)

1. a data acquisition control system, it is characterized in that, comprise information analysis control module (1), deep deformation monitoring means (2), earth's surface imaging and range finding disaster monitoring unit (3), rainfall amount monitoring means (4), air monitoring unit (5), temperature and humidity monitoring means (6), chemical gas monitoring means (7), distributed sensor monitoring means (8), sonar monitoring means (9), GSM/GPRS antenna transmission unit (10), calamity forecast unit (11); Wherein:

Described information analysis control module (1) respectively with described deep deformation monitoring means (2), the imaging of described earth's surface and range finding disaster monitoring unit (3), described rainfall amount monitoring means (4), described air monitoring unit (5), described temperature and humidity monitoring means (6), described chemical gas monitoring means (7), described distributed sensor monitoring means (8), described sonar monitoring means (9), described GSM/GPRS antenna transmission unit (10), described calamity forecast unit (11) is connected, described information analysis control module (1) is to described deep deformation monitoring means (2), the imaging of described earth's surface and range finding disaster monitoring unit (3), described rainfall amount monitoring means (4), described air monitoring unit (5), described temperature and humidity monitoring means (6), described chemical gas monitoring means (7), described distributed sensor monitoring means (8), described sonar monitoring means (9) information of monitoring is carried out analyzing and processing, described information analysis control module (1) according to analysis processing result to described GSM/GPRS antenna transmission unit (10), described calamity forecast unit (11) is connected,

Described deep deformation monitoring means (2) is monitored the early stage geology failure mode in monitored area, the degree of depth, scope;

The imaging of described earth's surface is carried out the scanning of timing continuous laser, is obtained the earth's surface image in monitored area monitored area with range finding disaster monitoring unit (3), after mobile object monitoring, integrity checking, position and directional surveillance, analyze object different time sections in monitored area and whether have motion and movement tendency; By laser range finder, the distance variation of selected object is carried out to Accurate Measurement, after analyzing, further whether displacement calculating acceleration changes again;

Described rainfall amount monitoring means (4) is monitored the rainfall amount of monitored area;

Monitor the wind speed of monitored area described air monitoring unit (5);

Described temperature and humidity monitoring means (6) is monitored the temperature and humidity of monitored area, by thermal resistance, the temperature of monitored area is monitored, and by ceramic wet dependent sensor, the soil moisture of monitored area is monitored;

The mercury vapour that described chemical gas monitoring means (7) is piled up near overhead monitored area or radon gas reach abnormal concentrations and monitor;

Described distributed sensor monitoring means (8) comprises main controlled node (801) and multiple sensor node (802), described main controlled node (801) comprises top control module (8011), vibration trigger module (8012), wireless telecommunications receiver module (8013), vibrational waveform database (8014), vibrational waveform analysis module (8015), vibration shear wave shape judge module (8016), vibration compressional wave shape judge module (8017), vibration plane waveform judge module (8018), the timely interocclusal record module of wave amplitude (8019), main GPS locating module (80110), main power source module (80111), described top control module (8011) respectively with described vibration trigger module (8012), described wireless telecommunications receiver module (8013), described vibrational waveform database (8014), described vibrational waveform analysis module (8015), described vibration shear wave shape judge module (8016), described vibration compressional wave shape judge module (8017), described vibration plane waveform judge module (8018), the timely interocclusal record module of described wave amplitude (8019), described main GPS locating module (80110), described main power source module (80111) is connected,

Described sensor node (802) comprises node control module (8021), wireless telecommunications transmitter module (8022), MEMS 3-axis acceleration sensing module (8023), acceleration sensing laying state module (8024), node GPS locating module (8025), node power module (8026); Described node control module (8021) is connected with described wireless telecommunications transmitter module (8022), described MEMS 3-axis acceleration sensing module (8023), described acceleration sensing laying state module (8024), described node GPS locating module (8025), described node power module (8026) respectively;

Described distributed sensor monitoring means (8) is for monitoring massif deformation and the ground vibration information of diverse location, described main controlled node (801) receive each described sensor node (802) gather and transmit diverse location massif deformation and ground vibration information and carry out fusion treatment with obtain massif state and landslide early warning information, described main controlled node (801) is connected with described information analysis control module (1);

Described sonar monitoring means (9) is for monitoring rock fracture, mobile fracture sound wave, slippage sound wave and the successional significantly transverse vibration of sending;

Described GSM/GPRS antenna transmission unit (10) keeps controlling and monitoring contacting of command centre with a distant place, controls monitoring command centre transmit detected parameters, analyze data and scan the monitored area obtaining to a distant place;

Report to the police to the geologic hazard of different brackets according to the analysis result of described information analysis control module (1) in described calamity forecast unit (11).

2. data acquisition control system according to claim 1, is characterized in that, described sensor node (802) is 1-10.