KR101429259B1 - Remote control system for seismic station - Google Patents

Abstract

The present invention relates to a remote control system for a seismological observatory. The system includes a seismometer which is installed in a seismological observatory, records seismic data measured by a seismic sensor, and monitors the internal state data of the seismometer; an environment monitoring device which monitors the external environment where the seismometer is installed and collects environment monitoring data; a seismic data collection server which is installed in an operation center at a remote place and collects the seismic data and the state data of the seismometer transmitted from the seismometer; and an environment monitoring data collection server which is installed in the operation center, collects the state data of the seismometer from the seismic data collection server, and collects the environment monitoring data transmitted from the environment monitoring device. According to the present invention, the seismic data recorded by the seismometer as well as the state data and external environment data of the seismometer are collected, and the operation center at the remote place receives and extracts the same to analyze validity. As a result, the reliability of seismic data being monitored is improved.

Description

Remote control system for seismic station

The present invention relates to a remote management system of a seismic station, and more particularly, to a remote control system of a seismic station, and more particularly, to a system for monitoring a seismic station, And to a remote management system of a seismic observatory that manages so that validity can be grasped.

In general, earthquakes are caused by natural causes such as continental drift or volcanic eruptions, artifacts such as the development of fossil fuels and groundwater, reservoirs, artificial explosions, and the collapse of large buildings.

When such an earthquake occurs, a disaster occurs. It is divided into a primary disaster caused by the earthquake itself and a secondary disaster occurring incidentally.

The characteristics of today's earthquake disaster countermeasures are focused on mitigation of primary disasters and deterrence of secondary disasters. When a major earthquake strikes, houses are destroyed or damaged, cracks are formed on the ground, and injection phenomena occur.

In addition, landslides occur and cause great damage. Earthquake and volcanic eruptions coincide with each other. When the volcano erupts due to an earthquake, the volcanic ash cloud hits the sky.

Particularly dangerous is a fire caused by an earthquake, and the damage caused by fire is much larger than the damage caused by the earthquake itself. With regard to damage to buildings, there is a special engineering department called earthquake engineering (earthquake engineering), which is studying its countermeasures, and seismic building methods are being developed.

In this case, the primary disaster is a direct disaster such as earthquake-induced earthquake, destruction of underground structures, disintegration of ground, tsunami, destruction of houses and ships, etc. Secondary disasters are fire, water, electricity, And disruption of life caused by the destruction of the distribution of life materials and supplies.

Therefore, it is necessary to rapidly collect and analyze earthquake-related data in order to quickly establish countermeasures against earthquakes. As an example of such an earthquake observation system, Registration No. 10-0395750 has been proposed. The present invention relates to a seismic monitoring system, and more particularly, to a seismic monitoring system for detecting an earthquake when an earthquake occurs and measuring movement of the ground in units of acceleration; And analyzed the acceleration data of the transmitted ground, and filtered out only the seismic component of the natural frequency band which is weakest in the supply station among the ground vibration applied to the supply station. Then, it analyzes two horizontal components (north-south and east-west) If the judgment is an earthquake, the earthquake response characteristic analysis and the situation of the gas supply station are compared with the preset values, and the data is stored And a seismic wave receiver for transmitting an earthquake warning, maximum ground acceleration, and SI value to the control room.

According to this configuration, when an earthquake occurs, it is possible to collect the seismic data quickly, and an earthquake warning can be performed.

In this case, the seismic wave sensing device normally senses the acceleration value using an acceleration sensor installed in each direction of the acceleration transmitted to the ground when an earthquake occurs. The seismic wave sensing device may have different temperature or humidity depending on its installation environment There is a problem that reliability of seismic data is lowered when only seismic data is sensed while ignoring it.

Further, even when an error occurs in an acceleration sensor, a seismic recorder, or the like, which is a seismic wave sensing device, in particular, when no problem occurs on the communication line, the seismic data is constantly observed and collected. It is hard to judge.

Reference literature: Patent No. 10-0395750

Therefore, the present invention solves these problems, and it is an object of the present invention to provide a seismic data acquisition system and a seismic recorder system that collects and analyzes seismic data from inside and outside of an earthquake recorder, The present invention provides a remote management system of a seismic observatory that manages data so as to determine the validity of a seismic observation station.

In addition, the present invention manages data such that the environmental information of the inside and outside of the earthquake recorder as well as the environment of the sensor mounting unit where the earthquake sensor is installed is collected and analyzed at the remote operation center and the validity of the observed earthquake data can be more clearly determined A remote control system of a seismic observatory is provided.

In order to solve such a technical problem,

An earthquake recorder installed at the earthquake observation station for recording the earthquake data measured from the earthquake sensor and monitoring the state information inside the earthquake recorder; An environment monitoring device for monitoring an external environment provided with the earthquake recorder and collecting environmental monitoring information; An earthquake data collection server provided in an operation center at a remote site for collecting earthquake data and seismic recorder state information transmitted from the earthquake recorder; And an environment monitoring information collection server provided in the operation center for collecting the seismic recorder status information from the earthquake data collection server and collecting environmental monitoring information transmitted from the environmental monitoring apparatus. System.

At this time, the earthquake recorder includes a state monitoring unit for extracting the earthquake recorder state information, which is state information of the earthquake recorder itself.

The earthquake sensor is an acceleration sensor, and is installed at a sensor mounting part at a distance from the seismic observing station.

The earthquake recorder and the environmental monitoring apparatus installed in the seismic observation station are connected to a network through a first switching hub.

The earthquake data collection server and the environmental monitoring information collection server installed in the operation center are connected to a network through a second switching hub.

The environmental monitoring apparatus may further include a first sensor unit for measuring environmental monitoring information on the external environment of the seismograph recorder, and a second sensor unit for receiving environmental monitoring information in the form of an analog signal for the external environment measured by the first sensor unit, A memory for storing the environmental monitoring information; a first processor for controlling the first processor; and an Ethernet communication unit connected to the first switching hub.

The first sensor unit may include a first temperature sensor for monitoring the temperature inside the seismic station, a first humidity sensor for monitoring the humidity inside the seismic station, and an AC and DC battery supply voltage And an AC and DC voltage measuring unit.

In addition, the environmental monitoring apparatus collects peripheral image information through a camera to manage the history of the passengers entering and exiting the seismic observation station.

The environment monitoring apparatus transmits peripheral image information collected through the camera to an environmental monitoring information collection server provided in a remote operation center through a network.

The environmental monitoring apparatus receives environment monitoring information of a sensor mounting unit from an environmental monitoring sensor module that monitors status information on an installation environment of a sensor mounting unit provided with an earthquake sensor installed apart from an earthquake recorder.

The environmental monitoring device further includes a first serial communication unit for data communication with the environmental monitoring sensor module. The environmental monitoring sensor module includes a second sensor for measuring environmental monitoring information on the installation environment of the sensor mounting unit, A second serial communication unit for transmitting environmental monitoring information of the sensor mounting unit measured by the second sensor unit to the environment monitoring device, and a second processor for controlling the environment.

Here, the second sensor unit may include a second temperature sensor for monitoring the temperature of the sensor mounting unit, and a second humidity sensor for monitoring the humidity of the sensor mounting unit.

According to the present invention, the reliability of seismic data to be monitored can be improved by analyzing the validity of the seismic data recorded in the earthquake recorder as well as collecting and extracting the state of the seismograph recorder and the external environmental information together at the remote operation center .

In addition, the present invention can monitor a site in real time at a remote location using temperature, humidity, power state and intruder information of a seismic observatory installed with an earthquake recorder, and store external environmental information, intruders and user information in real time, Accurate information analysis is possible.

1 is an overall configuration diagram of a remote management system of an earthquake observation station according to the present invention.
2 is a detailed configuration diagram of an environmental monitoring apparatus according to the present invention.

The remote management system of a seismic station according to the present invention will be described in detail with reference to the accompanying drawings.

Prior to this, terms and words used in the present specification and claims should not be construed as limited to ordinary or dictionary terms, and the inventor should appropriately interpret the concepts of the terms appropriately It should be interpreted in accordance with the meaning and concept consistent with the technical idea of the present invention based on the principle that it can be defined.

Therefore, the embodiments described in the present specification and the configurations shown in the drawings are only the most preferred embodiments of the present invention, and not all of the technical ideas of the present invention are described. Therefore, It should be understood that various equivalents and modifications may be present.

1 and 2, a remote management system of an earthquake observing station according to the present invention is a remote management system of an earthquake observation station according to an embodiment of the present invention. The remote management system includes an earthquake recorder 100 installed in an unmanned earthquake observatory 1, The monitoring information is simultaneously collected and analyzed by the operation center (2) at the remote site to manage the data so as to judge the validity of the seismic data.

Particularly, the environmental monitoring information of the sensor mounting portion 3 where the earthquake sensor 30 is installed as well as the inside and the outside of the earthquake recorder 100 are collected and analyzed by the operation center 2 at the remote site, It can be confirmed clearly.

The remote management system of the seismic station according to the present invention includes an earthquake recorder 100 installed in the seismic station 1 for recording the seismic data measured from the seismic sensor 30 and monitoring the state information inside the seismic recorder, An environmental monitoring device 200 for monitoring the external environment provided with the earthquake recorder 100 and collecting environmental monitoring information; an earthquake recorder 100 provided in the remote operation center 2 for receiving earthquake data and earthquake data transmitted from the earthquake recorder 100; The earthquake data collecting server 300 collects state information of the earthquake recorder from the earthquake data collecting server 300 and collects the earthquake recorder state information from the earthquake data collecting server 300, And an environmental monitoring information collection server 400 for collecting environmental monitoring information.

Hereinafter, the constitution of each part of the present invention will be described in detail.

First, the earthquake recorder 100 is a digital earthquake recorder. The earthquake recorder 100 includes a state monitoring unit 110 that monitors the state monitoring of the earthquake recorder 100 itself, and extracts the earthquake recorder state information, which is state information of the earthquake recorder itself. The state monitoring unit 110 monitors supply voltage, current, and power consumption for driving the seismograph 100, manages the used memory of the seismograph 100, and monitors the internal temperature of the recorder.

As described above, the conventional digital earthquake recorder includes a state sensing unit 110 for sensing the internal state of the seismograph 100.

The earthquake recorder 100 is installed in the earthquake observation station 1 and collects earthquake data measured through the earthquake sensor 30.

At this time, the seismic sensor 30 uses an acceleration sensor and is installed in the sensor mounting part 3 when it is installed at a distance from the seismic station 1.

In this case, it is also important to monitor not only the installation environment of the seismograph 100, but also the status information of the installation environment of the sensor mounting unit 3. [ For this purpose, an environmental monitoring sensor module 600 for monitoring environmental monitoring information of the sensor mounting unit 3 equipped with the earthquake sensor 30 is installed to monitor environmental monitoring information of the sensor mounting unit.

The earthquake recorder 100 and the environment monitoring apparatus 200 provided in the seismic station 1 are connected to the internal network at the seismic station 1 so that they can communicate with each other through the first switching hub 11 .

The earthquake data collection server 300 and the environmental monitoring information collection server 400 installed in the operation center 2 are connected to the operation center 2 through the second switching hub 22, Lt; / RTI > network.

Of course, the seismic observation station 1 and the operation center 2 are connected to the Internet through a known router or modem to perform data communication remotely.

The environmental monitoring apparatus 200 includes a first sensor unit 210 for measuring environmental monitoring information on the inside of the seismic observatory 1 where the seismograph 100 is installed, that is, the external environment of the seismograph 100, An AD converter 220 for converting environmental monitoring information of an analog signal type to an external environment measured by the first sensor unit 210 into a digital signal form, A memory 230, a digital I / O 244 for controlling the input and output of the switches 240 and 242, a first processor 250 for controlling the switch, and an Ethernet communication unit 260 connected to the first switching hub 11 .

The environmental monitoring apparatus 200 may be manufactured in the form of an embedded signal processing board and monitors the external environment (temperature / humidity / voltage, etc.) in which the seismograph 100 is installed, The ARM processor, which is a signal processing device, can be used as an example.

The first sensor unit 210 includes a first temperature sensor 212 for monitoring the temperature inside the seismic station 1, a first humidity sensor 214 for monitoring the humidity inside the seismic station 1, And an AC and DC voltage measuring unit 216 and 218 for measuring AC and DC battery supply voltages for power supply monitoring.

The environmental monitoring device 200 is installed in the seismic station 1 to control the fan and the cooling / heating device for controlling the temperature and the humidity, and manages power sources such as a constant power source and a battery power source according to priorities.

In addition, the environmental monitoring apparatus 200 also collects surrounding image information through an IP-based camera 500 that monitors the surrounding environment for managing the history of passengers entering and exiting the seismic station 1. The IP-based camera 500 is useful for checking presence / absence of an intruder through monitoring of an accessing party.

Of course, the environmental monitoring apparatus 200 transmits the peripheral image information collected through the IP-based camera 500 to the environmental monitoring information collection server 400 provided in the operation center 2 at the remote site through the network, .

The environmental monitoring apparatus 200 further includes an environment monitoring sensor module 600 for monitoring status information on the installation environment of the sensor mounting unit 3 provided with the seismic sensor 30 installed apart from the seismograph 100, And receives the environmental monitoring information of the sensor mounting unit 3. [

The environmental monitoring sensor module 600 includes a second sensor unit 610 for measuring environmental monitoring information on the installation environment of the sensor mounting unit 3 and a second sensor unit 610 for measuring the environment of the sensor mounting unit A second serial communication unit 620 for transmitting the environmental monitoring information to the environment monitoring apparatus 200, and a second processor 630 for controlling the environment.

Of course, the environmental monitoring apparatus 200 includes a first serial communication unit 270 to perform RS-485 communication with the second serial communication unit 620 of the environmental monitoring sensor module 600 to monitor the environment of the sensor mounting unit Information is received.

The second sensor unit 610 includes a second temperature sensor 612 for monitoring the temperature of the sensor mounting unit 3 provided with the earthquake sensor 30 and a second temperature sensor 612 for monitoring the humidity of the sensor mounting unit 3 provided with the earthquake sensor 30. [ And a second humidity sensor 614 for monitoring the humidity. Thereby further measuring the environmental monitoring information on the temperature and humidity of the sensor mounting unit 3 provided with the earthquake sensor 30 which operates sensitively.

The environmental monitoring apparatus 200 collects the external environment monitoring information generated by monitoring the external environment in which the seismograph 100 is installed and the environmental monitoring information of the sensor mounting unit measured by the environmental monitoring sensor module 600, To the environmental monitoring information collection server 400 provided in the operation center 2. [

Hereinafter, an operation example of the remote management system of the seismic observing station according to the present invention will be described with reference to FIG. 1 and FIG.

The earthquake recorder of the earthquake observation station 1 generates seismic data using the information monitored by the earthquake sensor 30.

At this time, the earthquake recorder 100 itself monitors the supply voltage, current and power consumption for driving the earthquake recorder 100, manages the use memory of the earthquake recorder 100, monitors the internal temperature of the recorder 100, The recorder status information is extracted.

On the other hand, an environmental monitoring sensor module 600 is installed in the sensor mounting portion 3 where the earthquake sensor 30 is installed to monitor environmental monitoring information of the sensor mounting portion.

The earthquake recorder 100 installed in the earthquake observation station 1 transmits the seismic data and the seismograph recorder status information to the earthquake data collection server 300 installed in the operation center 2 via a network, The data collection server 300 manages the received earthquake data and the earthquake recorder status information in a database.

The environmental monitoring device 200 installed in the seismic observation station 1 provided with the earthquake recorder 100 measures environment monitoring information on the external environment of the earthquake recorder 100, 600) is installed to receive environmental monitoring information of the sensor mounting unit through serial communication.

The environmental monitoring apparatus 200 collects environmental monitoring information of the earthquake recorder 100 to be measured and environment monitoring information of the sensor mounting unit measured and received by the environmental monitoring sensor module 600, To the environmental monitoring information collection server 400 installed in the server 400. The environmental monitoring information collection server 400 manages and manages the received environmental monitoring information in a database. In this case, the environmental monitoring information collection server 400 receives the earthquake record state information extracted from the earthquake data collection server 300 through the network, and manages the database together with the environmental monitoring information.

Of course, the environment monitoring information collection server 400 collects peripheral image information collected through the IP-based camera 500 that monitors the seismic observation station 1 through a network and manages the information together.

In this way, the operation center (2) collectively monitors the internal and external conditions of the earthquake recorder installed on the earthquake observation station and the state of the sensor mounting part on which the earthquake sensor is mounted, together with the earthquake data, Can be utilized.

It will be apparent to those skilled in the art that various modifications and variations can be made in the present invention without departing from the spirit or scope of the invention. The scope of protection of the present invention should be construed under the following claims, and all technical ideas within the scope of equivalents thereof should be construed as being included in the scope of the present invention.

1: Seismic Observation Station 2: Operation Center
3: sensor mounting portion 11: first switching hub
22: second switching hub 30: seismic sensor
100: earthquake recorder 110: state monitoring unit
200: environmental monitoring apparatus 300: earthquake data collection server
400: environmental monitoring information collection server 500: camera

Claims (12)

An earthquake recorder installed at the earthquake observation station for recording the earthquake data measured from the earthquake sensor and monitoring the state information inside the earthquake recorder; An environment monitoring device for monitoring an external environment provided with the earthquake recorder and collecting environmental monitoring information; An earthquake data collection server provided in an operation center at a remote site for collecting earthquake data and seismic recorder state information transmitted from the earthquake recorder; And an environmental monitoring information collection server provided in the operation center for collecting the seismic recorder status information from the earthquake data collection server and collecting environmental monitoring information transmitted from the environmental monitoring apparatus,
The earthquake recorder has a state monitoring section for extracting state information of the earthquake recorder itself, which is the state information of the earthquake recorder itself, monitors supply voltage, current and power consumption for driving the earthquake recorder, manages the use memory of the earthquake recorder, The internal temperature of the recorder is monitored,
The environmental monitoring apparatus controls the ventilator and the air conditioner installed in the seismic observation station and manages power sources such as a constant power source and a battery power source according to priority,
The environmental monitoring device collects peripheral image information through a camera to manage the history of the passengers entering and exiting the seismic observation station, and transmits the peripheral image information to an environmental monitoring information collection server provided in an operation center at a remote place through a network A remote control system of a seismic station.

delete The method according to claim 1,
Wherein the seismic sensor is an acceleration sensor and is installed at a sensor mounting part at a distance from the seismic observing station.
The method according to claim 1,
Wherein the earthquake recorder and the environmental monitoring apparatus installed in the seismic observation station are connected to a network through a first switching hub.
The method according to claim 1,
Wherein the earthquake data collection server and the environmental monitoring information collection server installed in the operation center are connected to a network through a second switching hub.
The method according to claim 1,
The environmental monitoring apparatus includes a first sensor unit for measuring environmental monitoring information on the external environment of the seismograph, a second sensor unit for converting environment monitoring information in the form of analog signals to an external environment measured by the first sensor unit, A memory for storing the environmental monitoring information; a first processor for controlling the first processor; and an Ethernet communication unit connected to the first switching hub.
The method according to claim 6,
The first sensor unit includes a first temperature sensor for monitoring the temperature inside the seismic station, a first humidity sensor for monitoring the humidity inside the seismic station, an AC sensor for measuring the AC and DC battery supply voltage And a DC voltage measuring unit.
delete delete The method according to claim 1,
Wherein the environmental monitoring apparatus receives environmental monitoring information of a sensor mounting unit from an environmental monitoring sensor module for monitoring status information on an installation environment of a sensor mounting unit provided with an earthquake sensor installed apart from an earthquake recorder Management system.
11. The method of claim 10,
The environmental monitoring apparatus further includes a first serial communication unit for data communication with the environmental monitoring sensor module,
Wherein the environmental monitoring sensor module includes a second sensor unit for measuring environmental monitoring information on an installation environment of the sensor mounting unit, and a second sensor unit for transmitting environmental monitoring information of the sensor mounting unit measured by the second sensor unit to the environmental monitoring device. A serial communication unit, and a second processor for controlling the remote control system.
12. The method of claim 11,
Wherein the second sensor unit includes a second temperature sensor for monitoring the temperature of the sensor mounting unit, and a second humidity sensor for monitoring the humidity of the sensor mounting unit.

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