JP3191517U - Disaster prevention relief service device - Google Patents

Abstract

Disclosed is a disaster prevention and relief service device that takes comprehensive measures from before a disaster to after a disaster.
A sensor module is connected to a building structure, and an information system monitoring and control center module is remotely connected to the sensor module by data. The information system monitoring and control center module 2 includes a pre-warning module 21 that performs a warning before a disaster occurs, a survey report module 22 that provides information on the current disaster situation, a search and rescue module 23 that performs search and rescue, and a post-disaster It comprises a diagnostic module 24 that performs situation diagnosis. When a disaster does not occur, the advance warning module 21 performs a pre-disaster prevention report, and when a disaster occurs, the investigation report module 22 provides an immediate disaster report, and the search and rescue module 23 dispatches personnel to the disaster occurrence area for rescue. After the disaster occurs, the diagnosis module 24 diagnoses whether the building structure 5 is damaged or needs to be reinforced.
[Selection] Figure 2

Description

The present invention relates to a service device, and more particularly, to a disaster prevention and rescue service device that can take comprehensive measures in a flexible manner before, during, and after a disaster.

A general building structure is not normally monitored and controlled, and only confirms the safety state of the building structure by simple inspection and measurement within a predetermined time. Such a rough method cannot reliably grasp the daily changes of the building structure. When a typhoon breaks a bridge and many people die, or when a building collapses due to a natural disaster (such as an earthquake, wind disaster, or debris flow) or a human disaster (such as a terrorist attack) When a person is trapped in an object, the current rescue method is to search for a disaster occurrence area with a disaster rescue dog or a life exploration device, and it is very difficult to find. In addition, it is impossible to reliably grasp the damage status of the collapsed building, and it is impossible to predict whether it will collapse during rescue or digging.

The present invention is composed of a sensor module, a pre-warning module, a survey report module, a search and rescue module, and a diagnostic module, thereby taking comprehensive measures including search and rescue from before the disaster to after the disaster. It is an object to provide a disaster prevention and relief service device that can be used.

To achieve the above object, the present invention comprises at least one sensor module connected to a building structure and an information system monitoring and control center module remotely connected to the sensor module. The information system monitoring and control center module includes a pre-warning module that gives warnings before a disaster occurs, a research report module that provides various types of information in the immediate disaster situation, a search and rescue module that performs search and rescue, and a post-disaster situation diagnosis It consists of a diagnostic module. When a disaster does not occur, the advance warning module reports for prevention before the disaster, and when a disaster occurs, the investigation report module immediately reports the disaster, and the search and rescue module dispatches personnel to the disaster site. By performing rescue, immediate relief can be performed. Also, during the rescue process, the rescue device worn by the victim and the signal measurement device on the aviation equipment work together to quickly determine the exact location where the victim is confined, and search and rescue during a disaster. Increasing the accuracy and speed of the can effectively improve the survival probability of the victims. Furthermore, after a disaster occurs, the diagnostic module immediately diagnoses whether there is a need for breakage or reinforcement of the building structure.

With the above structure, the present invention can take flexible and comprehensive measures before disaster, at the time of disaster, relief, and after disaster.

It is the schematic which showed the Example of this invention. It is the block diagram which showed the structure of this invention. It is the schematic which showed a mode that the rescue apparatus of this invention was equipped. It is the schematic of the disaster site of this invention.

Please refer to FIG. 1 and FIG. The present invention comprises at least one sensor module 1 connected to a building structure 5 and an information system monitoring control center module 2.

The information system monitoring and control center module 2 is connected to the sensor module 1 by remote communication, and immediately investigates and reports the disaster situation. In addition, the information system monitoring control center module 2 is connected to the sensor module 1 for data and provides a pre-warning module 21 for performing a warning before the occurrence of a disaster, and connected to the sensor module 1 for data and provides various information in the current disaster situation. The survey report module 22 includes a search / rescue module 23 that performs data search and rescue by being connected to the sensor module 1, and a diagnosis module 24 that is connected to the sensor module 1 and performs status diagnosis after a disaster. Further, the search / rescue module 23 is data-connected to the aircraft equipment 3 such as an unmanned remote control airplane or helicopter provided with the signal measuring device 31. The aviation equipment 3 is data-connected to the rescue apparatus 4 that is worn by the victim and interlocked with the signal measuring apparatus. The rescue device 4 is provided with a transmission / reception component 41, and issues a rescue signal after receiving a measurement signal emitted from the signal measurement device 31. The signal measuring device 31 that has received the information determines the position and then sends information to the information system monitoring control center module 2. The information system monitoring and control center module 2 deploys and directs search and rescue personnel at the disaster site. Further, the rescue device 4 described above is any one of a ring, a bracelet, a wristwatch belt, a necklace, a strap, and a rucksack.

Please refer to FIG. The prior warning module 21 is data-connected to at least one main authority (for example, a building management committee, a bridge / slope management organization, etc.). Since the advance warning module 21 performs the supervisory control report and the advance warning report, it is possible to effectively prevent the occurrence of a disaster through continuous monitoring control.

The investigation report module 22 is connected to at least one disaster relief mechanism (for example, a fire department) by data connection, and the diagnosis module 24 is connected to the sensor module 1 to perform diagnosis report.

Please refer to FIG. 1 to FIG. The sensor module 1 is any one of a 3D laser digital scanning device, a biaxial clinometer, a laser raster measuring instrument, a fine vibration accelerometer, a fume measuring instrument, a gas measuring instrument, and an infrared temperature measuring instrument. Thereby, the sensor module 1 can sense various possible disasters when connected to the building structure 5. The sensor module 1 is provided in the building structure 5 when the customer applies for the installation of the disaster prevention and rescue service device and signs a contract. The sensor module 1 senses and measures the state of the building structure 5, determines whether it is normal, and issues a sensor signal. The sensor signal is sent to the advance warning module 21. The advance warning module 21 collects the sensor signal as a monthly safety monitoring control report, sends it to the main engine for inspection, and stores it. If the sensor signal indicates an abnormality, the advance warning module 21 summarizes the advance warning report of the abnormal situation and alerts the main engine and saves it. Further, the advance warning module 21 is connected to at least one meteorological organization to obtain pre-disaster information such as typhoon approach, etc., and provides and stores it as a preliminary warning report of disasters such as typhoons and floods. To do. As described above, the advance warning function for abnormalities before a disaster is achieved. When an earthquake, typhoon, flood or other unavoidable disaster occurs, the survey report module 22 grasps the current state of the building structure 5 by the sensor module 1 and immediately reports the disaster status. If the sensor module 1 generates a sensor signal indicating an abnormality due to a disaster situation, the investigation report module 22 issues at least one abnormality signal to at least one disaster relief mechanism, and the search and rescue module 23 sends a golden time to the disaster relief organization. Notify the rescue operation immediately within 72 hours. This achieves an immediate reporting function for disaster situations during a disaster. In addition, after a disaster such as an earthquake, typhoon, or flood, the diagnostic module 24 analyzes the sensor signal to check whether the building structure 5 has been damaged, whether personnel have safely entered or exited, and structural reinforcement is necessary. Achieving the post-disaster building diagnostic function by diagnosing whether there is a potential hazard or not.

The search and rescue module 23 will be described in detail. When no disaster occurs or when a disaster occurs, the victim 6 carries the rescue device 4 (in this embodiment, a bracelet) in advance. When the building structure 5 collapses and the disaster victim 6 is trapped in the rubble, the search and rescue staff dispatches the aircraft 3 provided with the signal measuring device 31 to the sky above the disaster area to perform measurement. The measurement method at this time is as follows. First, a measurement signal covering the disaster area is emitted from the signal measuring device 31, and the receiving / transmitting component 41 of the rescue device 4 carried by the disaster victim 6 receives and feeds back the measurement signal. This is received by the signal measuring device 31. At this time, the exact position of the victim 6 is immediately determined, and information about the accurate position is sent to the information system monitoring and control center module 2, and the information system monitoring and control center module 2 Conduct.

Furthermore, since the receiving / transmitting component 41 can emit a heat source and a light source, the search and rescue person can know the exact position of the disaster victim 6 by checking the position of the light source by sensing the heat source and measuring the eye. In this embodiment, signal transmission / reception is used as an example.

Refer to all figures. The present invention has the following advantages.

First, the sensor module 1, the advance warning module 21, the investigation report module 22, the search and rescue module 23, and the diagnosis module 24 can take comprehensive measures from before the disaster to after the disaster.

Second, a ground search rescuer is required by linking the signal measuring device 31 provided in the aircraft 3 and the rescue device 4 carried by the victim 6 on the ground to provide accurate coordinate information of the victim. The victim 6 can be rescued during the initial stage.

DESCRIPTION OF SYMBOLS 1 Sensor module 2 Information system monitoring control center module 21 Advance warning module 22 Investigation report module 23 Search and rescue module 24 Diagnosis module 3 Aircraft equipment 31 Signal measuring device 4 Rescue device 41 Sending and receiving parts 5 Building structure 6 Disaster victim

Claims (7)

A disaster prevention and rescue service device comprising at least one sensor module connected to a building structure and an information system monitoring and control center module,
The information system monitoring and control center module is immediately connected to the sensor module as a data and immediately reports a disaster situation,
The information system monitoring and control center module includes a pre-warning module that performs a warning before the occurrence of a disaster, a survey report module that provides various types of information in the current disaster situation, a search and rescue module that performs search and rescue, and a situation after the disaster. It consists of a diagnostic module that performs diagnosis,
The search and rescue module is data-connected with an aircraft device provided with a signal measuring device,
The disaster prevention and rescue service device is characterized in that the aviation device is data-connected to a rescue device worn by a victim and interlocked with the signal measuring device. The sensor module is data-connected to the information system monitoring control center module by remote communication,
The sensor module is data-connected to the advance warning module, the investigation report module, the search and rescue module, and the diagnostic module, respectively.
The disaster prevention and rescue service device according to claim 1, wherein the advance warning module is connected to at least one main engine to perform monitoring control report and advance warning report. The investigation report module is data-connected to at least one disaster relief mechanism,
The disaster prevention and rescue service device according to claim 1, wherein the diagnosis module is connected to the sensor module in order to perform a diagnosis report. The aircraft device is one of an unmanned remote control airplane or a helicopter,
The disaster prevention and rescue service device according to claim 1, wherein the rescue device is one of a ring, a bracelet, a wristwatch belt, a necklace, a strap, and a rucksack. The rescue device is further provided with a receiving / transmitting component,
The transmitting / receiving component issues a rescue signal after receiving the measurement signal emitted from the signal measuring device,
The signal measuring device receives the rescue signal to determine the position;
The signal measuring device is connected to the information system monitoring and control center module so that search and rescue personnel can be deployed and commanded to a disaster site by the information system monitoring and control center module. The disaster prevention and rescue service device according to 1. A disaster prevention and rescue service device comprising at least one sensor module connected to a building structure and an information system monitoring and control center module,
The information system monitoring and control center module is immediately connected to the sensor module as a data and immediately reports a disaster situation,
The information system monitoring and control center module includes a pre-warning module that performs a warning before the occurrence of a disaster, a survey report module that provides various types of information in the current disaster situation, a search and rescue module that performs search and rescue, and a situation after the disaster. A disaster prevention and relief service device comprising a diagnostic module for performing a diagnosis. The sensor module is data-connected to the information system monitoring control center module by remote communication,
The disaster prevention and rescue service device according to claim 6, wherein the sensor module is connected to the advance warning module, the investigation report module, and the diagnostic module, respectively.