KR101309747B1 - System for rescuing distress of human life by collapse and fire - Google Patents

Abstract

PURPOSE: A system for rescuing people when a collapse or fire occurs is provided to minimize the number of victims by determining whether a person exists inside a building in which the collapse or fire occurs. CONSTITUTION: An acceleration sensor (110) measures vibrations affected to a building when an earthquake occurs or an external impact is applied. An inclination sensor (120) measures a change in an inclination angle of the building. An analog-to-digital (A/D) converting unit (140) converts analog data filtered in a band-pass filter into digital data. A human body sensing unit (300) detects an infrared ray generated from a human body and senses existence of a person inside the building. A data analyzing unit (400) determines whether a person exists inside the building. [Reference numerals] (100) Collapse detection unit; (110) Acceleration sensor; (120) Inclination sensor; (130) Band pass filter; (140) A/D converting unit; (200) Smoke detection unit; (300) Human body sensing unit; (400) Data analyzing unit; (500) Warning alarm unit; (600) Power supply unit

Description

System for rescuing distress of human life by collapse and fire}

The present invention detects the presence of people who have not been evacuated inside the building when an earthquake, external shock, or fire occurs in a building where people work or rest in the interior, and detects the burying person due to collapse and the suffocation due to fire. It sends an alarm and rescue request signal to help the rescue workers. More specifically, it detects the collapse and fire occurring in the building through the collapse detection unit and the smoke detection unit, and when there is a person inside the building. When the presence or absence of a person is detected through the human body detection unit, when a building collapses or fires, the rescue team sends a signal of collapse or fire to the rescue request terminal that is being carried by the rescue workers. Find out if there is a person who is buried in the collapse or smoke smoke choking When collapsed and fire of the building to transmit to the requesting terminal structure to crew on the life distress structure system in accordance with the breakdown or fire can quickly cut the buried structure, chair or choke.

As the social environment is rapidly diversified, the frequency of various disasters and accidents such as earthquakes, fires, explosions, and collapses has also increased dramatically. As a result, the scale of human and property damages caused by large-scale disasters and accidents is increasing. It is increasing.

In recent years, China's Sichuan earthquake and Haiti earthquake have caused many casualties and property damage. The most recent earthquake in Japan is a powerful 9.0 magnitude earthquake, which is the best prepared for the earthquake, but the magnitude of the damage is unimaginable. It's far beyond. As mentioned above, most of the casualties caused by the earthquake are caused by the collapse of buildings. About 70,000 people are killed in the Sichuan earthquake, 230,000 people are killed in the Haiti earthquake, and about 20,000 people are killed in the earthquake in Japan. Massive casualties have occurred. In addition, if a building collapses due to an earthquake or external impact, it may cause human life to die during the collapse of the building, but it is buried at the site of the collapsed accident. Rescuers were buried at the site of the collapse and survived for several days.

In addition, the fire of a building can occur in various forms such as user's carelessness, short circuit of electricity, and incidental fire due to collapse, and since a fire generated in a place where many people use, such as a large building, can cause large-scale human injury, Prompt and accurate judgments and alerts on occurrences are of paramount importance in preventing personal injury. Fires usually produce large amounts of carbon monoxide, which can choke people because it prevents oxygen from binding to hemoglobin, and in fact most of the casualties of fires are caused by smoke asphyxiation.

The collapse of the building or the occurrence of fire is sent to rescue workers in the scene of the accident, the rescuers are scattered throughout the site of the collapse or fire accident, rescued people who were killed or injured by the collapse or fire, and searched for isolated rescuers. Activities will include evacuation to safe areas and fighting down disasters such as fires. However, rescuers who are buried at the site of a collapse or fire accident or choked by a fire are mostly unconscious or unable to send their own rescue signals due to the collapse or fire. They may have trouble retrieving or recovering from a crash or fire. In addition, rescue workers are not able to search every part of the accident site where a collapse or fire has occurred, and they have to search all the accident sites one by one to find buried or smothered victims. Therefore, only a few days after the accident was completed, the victims of the sunk or suffocated people could be rescued.

As a result, the conventional method of evaluating the rescuer's location is based on the witness's testimony, the designer's testimony or the situation at the time of the accident, and the rescue operation is performed in the relevant area. Residents in need may lose their lives, and due to the nature of the accident site, rescue operations are performed manually to prevent chain accidents. There is a risk of loss of life, and most of all, if the survivor's estimated position is misplaced, time and effort will be wasted, and subsequent rescue work will lead to confusion. Delayed and inevitable loss of life A very difficult situation has arisen such as a problem that can only be caused.

The present invention has been made to solve the above problems and when the earthquake, fire, external impact occurs in the building people work or rest in the interior of the building to detect whether the collapse of the building through the collapse detection, through the smoke detection unit When the fire is detected and the threshold value is exceeded in advance, it is determined that a collapse or fire has occurred. Then, the alarm is alarmed through an alarm alarm unit inside the building, and the collapse or fire detector detects the collapse or fire of the building. In this case, the human body detecting unit detects whether a person exists inside the building, and if there is a person, a rescue request signal is sent to the rescue request terminal carried by the rescuer. In the collapse holding a rescue request terminal in the field The purpose of the present invention is to provide a life distress rescue system due to collapse and fire that can minimize the damage to life in case of collapse of a building or a fire accident by quickly rescued a buried person or a suffocated by fire.

The present invention detects the presence of people who have not been evacuated inside the building when an earthquake, fire, or external shock occurs in the building where people work or rest in the interior, and by detecting the suffocator and buried due to collapse In a life-saving distress rescue system following a collapse and fire that transmits an alarm and rescue request signal to the crew,

A collapse detector configured to detect vibrations and inclination changes caused by the earthquake or external impact through the acceleration sensor and the inclination sensor;

Smoke detector for detecting the smoke generated by the fire occurs in the building;

A human body detecting unit for detecting and detecting infrared rays generated by a human body whether a person is present inside the building when an earthquake or fire occurs in the building;

When analyzing the data detected by the collapse detection unit and the data detected by the fire and smoke detection unit to determine the collapse or the occurrence of fire, and if it is determined that the collapse or fire has occurred through the data detected by the human body detection unit Determining the presence or absence of a person and transmitting the location of the collapse or fire and the system's unique number to the rescue workers at a remote location via wireless RF.If a person is present, rescue the signal that the person is present at the site of the collapse or fire. Data analysis unit for transmitting to the crew;

An alarm alarm unit for alarming when a building collapses or fires through the data analyzed by the data analyzer, and when a person is present inside the building to alert rescuers by voice;

Temporary power supply when it is difficult to supply power to commercial power that normally supplies power to the collapse detection unit, smoke detection unit, human body detection unit, data analysis unit, and alarm alarm unit, and commercial power in case of collapse or fire of the building. A power supply including a battery capable of supplying the battery;

Residents carry the signal of the location of the building where the collapse or fire occurred and the unique number signal of the distress rescue system through the data analyzed by the data analysis unit, and wirelessly receive a message that a person exists if there is a person inside. Rescue request terminal to be confirmed by; .

In addition, the collapse detection unit acceleration sensor for measuring the vibration impact applied to the building when an earthquake or external impact occurs, tilt sensor for measuring the change of the tilt applied to the building when the earthquake or external impact occurs, and the acceleration And a band filter for filtering the frequency of the data measured by the sensor and the tilt sensor, and an A / D converter for converting the analog data filtered through the band filter into digital data.

When the smoke detector emits light from the light source lamp by the scattered light method, the light source of the light source lamp scatters due to the smoke generated by the fire of the building. It is characterized by detecting the occurrence of smoke by detecting an increase in current flow by the decrease of.

In addition, the data analysis unit

When the threshold value is exceeded through the acceleration and inclination data detected by the collapse detection unit, it is determined that a collapse has occurred, and the smoke generation data detected by the smoke detection unit is analyzed to determine if smoke occurs in the building. An event trigger generator for generating an event trigger signal indicating that a collapse or fire has occurred based on the data measured by the collapse detector and the smoke detector;

When the event trigger signal occurs that the fire occurred due to the collapse of the building or the detection of smoke in the event trigger generator, the human body detection for analyzing whether or not a person exists in the collapsed or fired building by analyzing the data transmitted from the human body detector. An analysis unit;

When an event trigger signal indicating that a building collapses or fires occurs in the event trigger generation unit, rescue workers carry the location information of the building in which the collapse or fire occurred and a unique number of the distress rescue system through wireless RF communication. A rescue request transmitter for transmitting to the rescue request terminal, and transmitting to the rescue request terminal that the person exists when the human body detecting analyzer determines that the person exists in the building through wireless RF communication;

When the event trigger generator determines that the building has collapsed or fired due to the occurrence of an event trigger signal, the building's collapse or fire alarm sounds, and an alarm that alerts the presence of a person when a person is present in the human body detection analyzer. Alarm alarm control unit for controlling to alarm; characterized in that consisting of.

When the event trigger signal is generated from the event trigger generator, an event trigger signal indicating that a building collapses or fires is generated, the location of a predetermined collapsed or fired structure and a unique number of the distress rescue system are rescued using wireless RF communication. When there is a person inside the building that collapsed or fired through the data analyzed by the human body detection and analysis unit after the event trigger signal is generated and the event that the event trigger signal is generated is transmitted to the rescue request terminal carried by the crew. The human body sensing transmission unit for transmitting to the rescue request terminal through the wireless RF communication, and by adjusting the strength of the radio RF signal of the human body detection transmission unit rescuers carry the rescue request terminal and the collapse or fire When searching for buryers or choking due to fire The RF sensitivity control unit may be configured to search for the investor or choke by changing the reception sound when the period of the reception sound is different according to the strength of the wireless RF signal to approach the investor or choke.

In addition, the collapse detection unit, smoke detection unit, human body detection unit, data analysis unit, alarm alarm unit and power supply unit is installed inside the housing to protect against external shock and heat in the event of collapse or fire of the building do.

The present invention detects the collapse of the building through the collapse detection unit when an earthquake, external shock, or fire occurs in a building where people work or rest in the interior, and detects whether or not a fire occurs through the smoke detection unit to set a threshold If it exceeds, it determines that a collapse or fire has occurred and alerts people who exist inside the building to cause a collapse or fire and the human body detects whether there is a person inside the building where the collapse or fire occurred. By sending a rescue request signal to a portable rescue request terminal, rescue workers quickly rescue the sunk or suffocated by the collapse when collapse or fire occurs in the building, thereby minimizing human injury.

In addition, when a building collapses or a fire occurs, when a buried person or suffocator occurs, the location of the collapsed or fired building and the unique number of the distress rescue system, which are set in advance by the rescue workers, are transmitted through wireless RF communication. When the rescuers rescue the sunker and the suffocator in the field, the strength of the wireless RF signal is increased as the rescuer approaches the distress rescue system during the rescue operation by adjusting the strength of the wireless RF signal transmitted to the rescue request terminal carried by the rescuers. The harder it is, the easier it is to locate the buried person or suffocator, so that the rapid structure can be advanced.

1 is a block diagram of a life distress rescue system according to the collapse and fire in accordance with the present invention.
Figure 2 is a detailed block diagram of the data analysis of the life-saving distress rescue system according to the collapse and fire according to the present invention.
Figure 3 shows an embodiment of a life distress rescue system according to the collapse and fire in accordance with the present invention.

The present invention detects the collapse of the building through the collapse detection unit when an earthquake, external shock, or fire occurs in a building where people work or rest in the interior, and detects whether or not a fire occurs through the smoke detection unit to set a threshold If it exceeds, it determines that a collapse or fire has occurred and alerts people who exist inside the building to cause a collapse or fire and the human body detects whether there is a person inside the building where the collapse or fire occurred. By transmitting a rescue request signal to a portable rescue request terminal, the rescuers can quickly rescue the investor or the suffocator due to the collapse in case of collapse or fire in the building, thereby minimizing human injury. Life-saving distress caused by collapse and fire The bath system will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of a life distress rescue system according to the collapse and fire according to the present invention, Figure 2 is a detailed configuration diagram of the data analysis unit of a life distress rescue system according to the collapse and fire according to the present invention, Figure 3 A diagram showing an embodiment of a life distress rescue system according to the collapse and fire according to the invention.

The present invention detects the collapse and fire occurring in the building through the collapse detection unit 100 and the smoke detection unit 200, and if there is a person inside the building to determine the presence or absence of a person through the human body detection unit (300). When the building is collapsed or fired, the rescuer transmits a collapsed or fired fire signal to the rescue request terminal 700 that the rescuers carry and collapses when it is determined that there is a person through the human body detecting unit 300. By sending to the rescue requesting terminal 700 that there is a burying person or smoke choking due to the fire caused by the collapse of the building and rescuers can quickly rescue the burying person or choking in the specifics of the present invention. Looking at the configuration as shown in Figures 1 to 2 the acceleration sensor 110 to change the vibration and inclination caused by the earthquake or an external impact of the building The collapse detection unit 100 for detecting through the inclination sensor 120, the smoke detection unit 200 for detecting the smoke generated when the fire occurs in the building by detecting the light, and the collapse detection unit 100 Analyzing the data and the data detected by the smoke detector 200 to determine the collapse or fire occurs when the preset threshold is exceeded, the collapse or fire occurred through the data detected by the human body detector 300 If it is determined that the presence of a person inside the building to determine whether the collapse or fire occurrence location and the system unique number to the rescue request terminal 700 carried by the rescuers in the distance via wireless RF communication, if there is a person Data analysis unit 400 for transmitting a signal that a person is present at the site of the collapse or fire occurred, and the data analyzed by the data analysis unit 400 When the collapse of the building or a fire occurs, the alarm, and if there is a person inside the building, the alarm alarm unit 500 to alert the rescuers to search the rescue site via voice, and the collapse detection unit ( 100) and the commercial power supply for the usual power to the smoke detector 200, the human body detector 300, the data analysis unit 400 and the alarm alarm unit 500 and the collapse or fire of the building commercially Position and distress rescue system of the building in which collapse or fire occurred through the data analyzed by the power supply unit 600 and the data analysis unit 400 and a battery capable of temporarily supplying power when it is difficult to supply power to the power source Received a unique number signal, and if there is a person inside the rescue request signal that the person exists wirelessly received by rescue workers can check Structure is composed of the request terminal 700.

The collapse detection unit 100 measures the vibration shock applied to the building when an earthquake or an external shock occurs through the acceleration sensor 110, and the tilt sensor 120 measures a change in tilt applied to the building when the earthquake or external shock occurs. ) Through the band filter 130 to filter the frequency of the data measured by the acceleration sensor 110 and the gradient sensor 120, and the analog data filtered through the band filter 130 is A / D The data is converted into digital data through the conversion unit 140 and transmitted to the data analysis unit 400.

In addition, the smoke detector 200 emits a light source from the light source lamp in a scattered light method, the light source of the light source lamp is scattered by the smoke generated by the fire of the building, the photoelectric device receives a part of the scattered light and the electrical resistance is reduced. The change of the electric resistance is detected by the decrease in the converted electrical resistance to detect smoke generation and transmit the detected data to the data analyzer 400.

The data analyzer 400 determines that a collapse has occurred when the threshold value exceeded a preset threshold through acceleration and slope data detected by the collapse detector 100, and detects smoke detected by the smoke detector 200. When the smoke is generated by analyzing the data, it is determined that a fire has occurred in the building, and an event trigger signal indicating that a collapse or fire has occurred is generated based on the data measured by the collapse detection unit 100 and the smoke detection unit 200. The event trigger generator 410 and the event trigger generator 410 detects the event trigger signal indicating that a collapse or fire has occurred due to the collapse of a building or the detection of smoke. A human body detection analyzer 420 analyzing the data to determine whether a person exists in the building in which the collapse or fire occurred; When the event trigger signal indicating that the building collapse or fire has occurred in the event trigger generation unit 410, the rescuer uses wireless RF communication to determine the location information of the building in which the collapse or fire occurred and the unique number of the distress rescue system. Are transmitted to the rescue request terminal 700 that they are carrying, and when the human body detection analyzer 420 determines that a person exists inside the building, a rescue request signal indicating that a person exists exists through a wireless RF communication. When the rescue request transmission unit 430 and the event trigger generating unit 410 determines that the building collapsed or caused by the occurrence of an event trigger signal, the building collapse or fire alarm sound and human body In the detection analysis unit 420 to control the alarm sound to alert the presence of a person when there is a person It consists of a beam alarm control unit 440. The

At this time, when the event trigger signal indicating that the building collapses or fires is generated in the event trigger generator 410, the rescue request transmitter 430 intrinsic to the location and distress rescue system of the building in which the collapse or fire occurred in advance. Disintegration or fire breakdown through the data analyzed by the human body detection analysis unit 420 after the event trigger signal generation and the collapse or fire occurrence transmission unit 431 for transmitting the number to the rescue request terminal carried by rescuers using wireless RF communication When there is a person inside the building in which the fire has occurred, a human body detecting transmitter 432 and a human body detecting transmitter 432 which transmits that the human body exists to the rescue request terminal 700 through wireless RF communication. By adjusting the strength of the RF signal, the rescuer possesses the rescue request terminal 700 and the investor or fire following collapse in the collapse or fire building RF search adjuster 433 to search the investor or choking through the change of the reception sound when the proximity of the investor or choking by varying the period of the reception sound according to the strength of the radio RF signal when searching for the choking according to the ashes It consists of

In addition, the collapse detection unit 100, the smoke detection unit 200, the human body detection unit 300, the data analysis unit 400, the alarm alarm unit 500 and the power supply unit 600 is the collapse of the building or fire It is configured to protect the inside of the housing 800 so as to protect against external impact and heat.

Figure 3 shows an embodiment according to the present invention by installing a life-saving distress rescue system according to the collapse and fire on the inner ceiling or inner wall of the building when the earthquake or external impact occurs in the building, the collapse detection unit 100 in the building Measured acceleration and inclination is measured and the measured data is transmitted to the event trigger generator 410 of the data analysis unit 400, the building collapses when the measured acceleration data and the inclination data exceeds a preset threshold I think it is. In addition, the smoke detector 200 determines that a fire has occurred in the building by transmitting the detected data to the event trigger generator 410 when the smoke is detected according to the fire when the fire occurs in the building. The event trigger generation unit 410 compares the data of the collapse detection unit 100 and the smoke detection unit 200 and determines that the collapse or fire of the building has occurred, the alarm alarm unit under the control of the alarm alarm control unit 440. In step 500, an alarm sound indicates that a collapse or fire has occurred, and generates an event trigger signal indicating that the collapse or fire has occurred, thereby providing the location information of the building previously set by the rescue request transmitter 430 and the distress rescue system. The unique number is transmitted to the rescue request terminal 700 carried by rescue workers using wireless RF communication.

In addition, when an event trigger signal is generated, the human body detecting unit 300 analyzes data detected by the human body detecting whether a person exists in the building, and when it determines that the person exists, the rescue request transmitter 430. In the present invention transmits to the rescue request terminal 700 that rescuers are carrying through the wireless RF communication that a person exists in the building. At this time, the rescuers carrying the rescue request terminal 700 receives the data transmitted from the rescue request transmitter 430 and transmits the location information of the building in which the collapse or fire occurred and the unique number of the distress rescue system installed in the building. Receives the location of the building and quickly arrives at the building in which the collapse or fire occurred, and performs a rescue operation according to the collapse or fire. In addition, when the human body detection transmission unit 432 of the rescue request transmission unit 430 determines that a person is inside the building in which the collapse or fire occurred, the rescue request terminal 700 indicates that a person exists inside the building. Sending a signal and the rescuers carry the rescue request terminal 700 while searching for a buried person or suffocate due to the collapse or fire of the building, and the rescue request transmission unit 430 when a person near the buried or choked place When the RF sensitivity control unit 433 adjusts the intensity of the wireless RF signal and changes the period of the received sound to approach the investor or the suffocator, the intensity of the received sound is gradually increased to quickly identify the position of the investor or the suffocate. In this way, it is possible to minimize casualties through rapid rescue operations.

According to the present invention having the above configuration, when the collapse or fire occurs, the collapse or fire of the building is directly transmitted to the rescue request terminal 700 carried by rescue workers, and the inside of the building in which the collapse or fire has occurred. This is to prevent human injury caused by people who have not been evacuated from being buried or suffocated in a collapsed or fired building. Although they did not die at the time of the accident, they lost their consciousness and were unable to send their own rescue signals, so rescue workers had to search and rescue the accident scene, but when they were buried or suffocated through the present invention, Grasp and actively exist people Rapid rescue work can be performed by alerting information at one location, which can minimize human injury through rapid rescue work in case of collapse or fire.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken in conjunction with the scope of the present invention. It will be understood by those of ordinary skill in the art that various changes in form and details may be made therein without departing from the scope of the present invention.

** Signs of the main parts of the drawings **
100: collapse detection unit 110: acceleration sensor
120: tilt sensor 130: band filter
140: A / D conversion unit 200: smoke detection unit
300: human body detection unit 400: data analysis unit
410: event trigger generator 420: human body detection analyzer
430: rescue request transmission unit 431: collapse or fire occurrence transmission unit
432: body detection transmitter 433: RF sensitivity control unit
440: alarm alarm control unit 500: alarm alarm unit
600: power supply unit 700: rescue request terminal
800: housing

Claims (6)

If there is an earthquake, external impact, or fire in a building where people work or rest inside, it will detect the presence of people who have not been evacuated inside the building, detect sunkers due to collapse and suffocators due to fire, In a distress rescue system following a collapse and a fire that transmits an alarm and a rescue request signal to make a rescue request,
A collapse detector configured to detect vibrations and inclination changes caused by the earthquake or external impact through the acceleration sensor and the inclination sensor;
Smoke detector for detecting the smoke generated by the fire occurs in the building;
A human body detecting unit detecting and detecting infrared rays generated by a human body whether a person is present inside the building when the building collapses or a fire occurs;
When analyzing the data detected by the collapse detection unit and the data detected by the smoke detection unit to determine the collapse or the occurrence of fire, if it is determined that the collapse or fire has occurred through the data detected by the human body detection unit Determining the presence or absence of fire and transmitting the location of the collapse or fire and the system's unique number to the rescue workers at a distance through wireless RF communication.If a person is present, the rescuer is signaled that the person is present at the site of the collapse or fire. A data analyzer for transmitting;
An alarm alarm unit for alarming when a building collapses or fires through the data analyzed by the data analysis unit, and when a person is present inside the building, alarming the rescuers with an alarm sound;
Temporary power supply when it is difficult to supply power to commercial power that normally supplies power to the collapse detection unit, smoke detection unit, human body detection unit, data analysis unit, and alarm alarm unit, and commercial power in case of collapse or fire of the building. A power supply including a battery capable of supplying the battery;
Responders receive the signal of the location of the building where the collapse or fire occurred and the unique number signal of the distress rescue system through the data analyzed by the data analysis unit, and wirelessly receive a signal that a person exists when the person exists inside the building. Rescue request terminal for carrying and confirming; Life distress rescue system due to collapse and fire, characterized in that consisting of.
The method of claim 1,
The collapse detector includes an acceleration sensor for measuring vibration applied to a building when an earthquake or an external impact occurs, a tilt sensor for measuring a change in tilt applied to a building when the earthquake or an external shock occurs, and the acceleration sensor and a tilt And a band filter for filtering the frequency of the data measured by the sensor, and an A / D converter for converting the analog data filtered through the band filter into digital data.
The method of claim 1,
When the smoke detector emits light from the light source lamp by the scattered light method, the light source of the light source lamp scatters due to the smoke generated by the fire of the building. Life and distress rescue system due to collapse and fire, characterized by detecting the occurrence of smoke by detecting an increase in current flow with a decrease of.
The method of claim 1,
The data analysis unit
When the threshold value is exceeded through the acceleration and inclination data detected by the collapse detection unit, it is determined that a collapse has occurred, and the smoke generation data detected by the smoke detection unit is analyzed to determine if smoke occurs in the building. An event trigger generator for generating an event trigger signal indicating that a collapse or fire has occurred based on the data measured by the collapse detector and the smoke detector;
When an event trigger signal indicating that a fire has occurred due to the collapse of a building or the detection of smoke occurs in the event trigger generation unit, a human body that analyzes the data received from the human body detecting unit to determine whether a person is present in the collapsed or fired building. A detection analyzer;
When an event trigger signal indicating that a building collapses or fires occurs in the event trigger generation unit, rescue workers carry the location information of the building in which the collapse or fire occurred and a unique number of the distress rescue system through wireless RF communication. A rescue request transmitter for transmitting to the rescue request terminal, and transmitting to the rescue request terminal that the person exists when the human body detecting analyzer determines that the person exists in the building through wireless RF communication;
When the event trigger generator determines that the building has collapsed or fired due to the occurrence of an event trigger signal, the building's collapse or fire alarm sounds, and an alarm that alerts the presence of a person when a person is present in the human body detection analyzer. Alarm alarm control unit for controlling the alarm; Life distress rescue system according to the collapse and fire comprising a.
5. The method of claim 4,
When the event trigger signal is generated from the event trigger generator, an event trigger signal indicating that a building collapses or fires is generated, the location of a predetermined collapsed or fired structure and a unique number of the distress rescue system are rescued using wireless RF communication. When there is a person inside the building that collapsed or fired through the data analyzed by the human body detection and analysis unit after the event trigger signal is generated and the event that the event trigger signal is generated is transmitted to the rescue request terminal carried by the crew. The human body sensing transmission unit for transmitting to the rescue request terminal through the wireless RF communication, and by adjusting the strength of the radio RF signal of the human body detection transmission unit rescuers carry the rescue request terminal and the collapse or fire When searching for buryers or choking due to fire According to the collapse and the fire, characterized in that the RF sensitivity control unit for searching the investor or choking through the change of the receiving sound when the proximity of the buried person or choking by varying the period of the reception sound according to the strength of the wireless RF signal Life Distress Rescue System.
The method of claim 1,
The collapse detection unit, smoke detection unit, human body detection unit, data analysis unit, alarm alarm unit and power supply unit collapse characterized in that installed inside the housing to protect against external shock and heat in the event of collapse or fire of the building And life-saving rescue systems following a fire.

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