CN112473035A - Earthquake life-saving system - Google Patents

Abstract

The invention discloses an earthquake lifesaving system, which relates to the technical field of lifesaving and comprises a lifesaving cabin, an emergency bag arranged in the lifesaving cabin, a signal transmitting device matched with the lifesaving cabin and a cloud management center, wherein the signal transmitting device comprises an automatic inductor and a signal transmitter, the automatic inductor is connected with the signal transmitter, the cloud management center is arranged at the far end and is in communication connection with the signal transmitter, the cloud management center records the signal transmitting device, the automatic inductor automatically triggers the signal transmitter after sensing vibration, and the signal transmitter sends set information to the cloud management center. And the cloud management center records each signal transmitting device and stores the place of the user corresponding to each signal transmitting device. The earthquake lifesaving system protects the body of a user through the lifesaving cabin, maintains the life of the user through the emergency bag, and helps the user to timely rescue through the combination of the signal transmitting device and the cloud management center, so that the survival probability of the user in an earthquake is improved.

Description

Earthquake life-saving system

Technical Field

The invention belongs to the technical field of lifesaving under disaster conditions such as earthquakes, and particularly relates to an earthquake lifesaving system.

Background

Disasters such as earthquakes, mine collapse and the like are used as an irresistible disaster killer, and once the disasters occur, huge losses and casualties can be caused. For most people in disaster, people who have suffered from earthquake, mine collapse and other disasters cannot escape in time, not only can be injured due to collapse of buildings, but also can be died because the people are trapped in narrow spaces and cannot be rescued in time. Therefore, it is necessary to design an earthquake lifesaving system to solve the above problems.

In the prior art, rigid sealing devices such as a rescue capsule and the like are mostly adopted as barriers for resisting falling of heavy objects during earthquake, so that the body of a user is protected from being injured by smashing. The existing patent "an earthquake survival capsule" discloses an earthquake survival capsule, and the cross-section of this survival capsule is triangle-shaped, and inside is equipped with many strengthening ribs, is provided with multiple living food and the instrument of fleing in the cabin, but furthest's assurance under-deck personnel's safety. The refuge cabin can be placed at one corner of the room at ordinary times, and people can open the cabin door to enter the refuge room in emergency. Although the refuge in the rescue capsule can avoid being injured by a crashing object, whether the refuge can be carried out in time in the rescue capsule is still a serious problem. When an earthquake happens, the earthquake is often sudden, a user can avoid a danger for a while when the user is in a hurry to enter a rescue capsule, the search time is prolonged or even the user cannot be searched because the position of the user is not clear from the outside when the user passively waits for rescue, and finally the user can be rescued in time to cause life danger.

Disclosure of Invention

In order to solve the above problems, an object of the present invention is to provide an earthquake life-saving system, which can not only protect the body of a user from being injured by a crashing object, but also automatically send a help-seeking message to a cloud management center at the first time, and the cloud management center organizes rescue workers according to the help-seeking message to rescue the user in time.

In order to achieve the purpose, the technical scheme of the invention is as follows:

the invention provides an earthquake lifesaving system which comprises a lifesaving cabin, an emergency bag arranged in the lifesaving cabin, a cloud management center and a signal transmitting device matched with the lifesaving cabin, wherein the signal transmitting device comprises an automatic sensor and a signal transmitter, the automatic sensor is connected with the signal transmitter, the cloud management center is arranged at the far end and is in communication connection with the signal transmitter, the cloud management center records the signal transmitting device, the automatic sensor automatically triggers the signal transmitter after sensing vibration, and the signal transmitter sends set information to the cloud management center. The rescue capsule is made of firmer materials, such as graphene alloy, so that the compression resistance of the rescue capsule is enhanced. And the cloud management center records each signal transmitting device and stores the place of the user corresponding to each signal transmitting device. When the earthquake comes, the user can quickly enter the rescue capsule to avoid danger, and the rescue capsule protects the body of the user from being injured by a smashing object. The signal transmitter can automatically send set information to the cloud management center at the first time, and the cloud management center rapidly determines the trapped user and the trapped place according to the set information and organizes rescue personnel to timely rescue the user. The emergency bag equipped in the rescue capsule comprises grains, water, an oxygen bag and the like, so that the emergency bag is convenient for a user to use when waiting for rescue after the user leaves the rescue capsule, and the body is kept in a better state. When the earthquake starts, the communication line is not broken, and the signal transmitting device can successfully transmit the setting information in the first time. Generally, the set information is set as 'we have earthquakes here', so that the method is simple and clear and is convenient for the cloud management center to quickly capture useful information. The automatic sensor may be a shock sensor.

Further, the emergency package includes an emergency oxygen package and an emergency food package. When a user is lack of oxygen, the emergency oxygen bag can be used for oxygen inhalation, and the emergency food bag is generally used for placing compressed dry grains, water and other foods so as to be convenient for the user to use.

Further, the rescue capsule is a foldable rescue capsule, and the vibration of the rescue capsule when the rescue capsule is converted from the folded state to the opened state can be sensed by the automatic sensor. In normal times, the user folds the rescue capsule into a smaller size and places the rescue capsule in a proper position such as a corner and the like, so that great influence on the daily work and life of the user is avoided; the user expandes folding survival capsule, and the vibrations that the action of expandes arouse can be sensed by the auto-induction ware, and the auto-induction ware triggers signal transmitter immediately automatically, sends settlement information to the high in the clouds management center very first time.

Furthermore, the signal transmitter comprises an internet of things communication module, the signal transmitter is in communication connection with the cloud management center through the internet of things communication module, the cloud management center distributes a unique equipment number to each signal transmitting device, the equipment numbers are associated with the internet of things cards in the corresponding signal transmitting devices, and the cloud management center stores characteristic information marked by the equipment numbers. Each signal transmitting device corresponds to a specific user and an internet of things card in the signal transmitting device, namely, each equipment number is associated with the specific user and the specific internet of things card. The cloud management center combines the relevant information of the specific user such as the age, the sex, the long-term disease condition and the like of the specific user corresponding to the signal transmitting device with the place of the specific user to form characteristic information, marks the characteristic information through the corresponding equipment number and stores the characteristic information, and then associates the characteristic information with the corresponding Internet of things card through the equipment number. And when the cloud management center stores the characteristic information of a large number of different specific users, the unique equipment numbers corresponding to the specific users are used for marking. When an earthquake occurs, after the Internet of things card sends set information to the cloud management center, the cloud management center can quickly find the equipment number associated with the Internet of things card according to the Internet of things card sending the information, opens the characteristic information marked by the equipment number, preliminarily knows the relevant information and the place of the trapped user according to the characteristic information, is convenient for rescue personnel to better master the basic situation of the trapped user, and provides targeted rescue.

Furthermore, after the signal transmitter is triggered, the internet of things communication module continuously and regularly transmits set information to the cloud management center within a set time length. The set time duration is generally set to be 30 minutes, the continuous regular transmission means that the Internet of things communication module automatically transmits set information according to a preset rule, the rule can be set to continuously transmit 2 pieces of set information into one group, each group is separated by 10 minutes, and the automatic stop is realized when the set information is transmitted to the fourth group. If the cloud management center receives the set information sent according to the rule within the set time, the communication line is still connected, and the earthquake destructive power of the place where the trapped user is located is not large. If the duration of the setting information received by the cloud management center is not longer than the set duration, the communication line is broken, and the earthquake destructive power of the place where the trapped user is located is large. The set time period of half an hour is determined in consideration of the fact that a large earthquake does not occur half an hour after an ordinary earthquake, and may be set to 50 minutes, 40 minutes, or the like according to actual conditions. The cloud management center preliminarily judges the earthquake damage degree of the place where each user is located according to the received information sending and setting actions of the Internet of things card associated with each user, provides the information and the corresponding characteristic information to emergency rescue personnel, and facilitates the emergency rescue personnel to make a corresponding rescue scheme.

Furthermore, the signal transmitter also comprises a wireless transmitting module, the wireless transmitting module stores the Morse code representing the distress information, the automatic sensor is connected with the wireless transmitting module, the automatic sensor senses vibration and then automatically triggers the wireless transmitting module, and the wireless transmitting module automatically and continuously transmits the stored Morse code; the earthquake life-saving system also comprises a wireless code receiving device arranged at the far end, and the wireless code receiving device receives the Moss code sent by the wireless sending module. The channel for the wireless transmission module to transmit the radio code can be set to 243 MHZ. When the trapped user is rescued, the wireless code receiving device is tuned to the corresponding channel, the Moss code sent by the wireless sending module is searched, accurate and reliable rescue places and more detailed help seeking information are provided for rescuers through the received Moss code, and the rescuers can conveniently and timely rescue the trapped user.

Furthermore, a prompting lamp and a switching button are correspondingly arranged on the signal transmitting device, the prompting lamp and the switching button are connected with the wireless transmitting module, the wireless transmitting module stores four different Morse code which represent four different distress messages and are respectively 'SOS', open wound urgent rescue is needed, fracture pain is caused to be rescued, and a health state is caused to be rescued, the wireless transmitting module automatically transmits the Morse code representing the 'SOS' after being triggered, and the prompting lamp is on; the moss code sent by pressing the switching button is switched among the remaining three moss codes. The prompting lamp is on to indicate that the wireless sending module is automatically sending the Morse code representing the SOS, and the wireless sending module works normally. The switching button can be designed into three buttons which are arranged side by side, the three buttons respectively correspond to the help-seeking information which is urgent for rescue with open trauma, fracture pain and health state, the trapped user selects the corresponding button to switch the Moss code to be sent according to the actual condition, the rescuer better grasps the actual condition of the trapped user according to the received Moss code, and the rescue work is carried out orderly.

Furthermore, a hand generator is further arranged inside the rescue capsule, the signal transmitting device comprises a rechargeable battery, the rechargeable battery supplies power for the signal transmitting device, and the hand generator charges the rechargeable battery. When a user is trapped in the rescue capsule to wait for rescue, the user can charge the rechargeable battery through the hand generator, the signal generating device can be powered on and used when the signal generating device is ensured, the trapped user can utilize the signal generating device to send out distress information ceaselessly in the waiting rescue time, rescue personnel can conveniently rescue in time, and the situation of passively waiting for rescue is avoided. When passively waiting for rescue, the outside cannot know the specific situation of the trapped user, and if the trapped user is buried deeply, the difficulty of confirming the accurate position and the physical condition of the trapped user by rescuers is increased.

Furthermore, the earthquake lifesaving system also comprises a terminal APP, wherein the terminal APP is in communication connection with a cloud management center, and the cloud management center distributes an initial password for each equipment number; the user uses the equipment number as a user name, enters the terminal APP through the initial password and communicates with the cloud management center. After a user enters a terminal APP by using the equipment number and the initial password, displaying the characteristic information marked by the equipment number in an interface, and checking whether the characteristic information conforms to the real condition of the user by the user; and feature information can be added, and if the number of users corresponding to the signal emitting device is increased, the feature information of new users can be added. The cloud management center is in contact with the user through the terminal APP, regularly reminds the user to overhaul the equipment, and can remind the user to overhaul the equipment every half year. The user confirms specific maintenance time through the terminal APP and the cloud management center, and the cloud management center reminds the user to maintain the equipment at the confirmed maintenance time.

The maintenance steps of the equipment are as follows,

the method comprises the following steps that firstly, a cloud management center inquires whether a maintenance mode is started or not from a terminal APP, and a user confirms to the cloud management center through the terminal APP;

secondly, the cloud management center guides a user to start the signal transmitting device, the user confirms the start, and the user shakes the rescue capsule or opens the folding rescue capsule; at the moment, the user observes whether the prompt lamp of the wireless sending module synchronously shines due to triggering; the cloud management center detects whether the set information sent by the continuous rule within the set duration is received or not and whether the set information is correct or not; the staff detects whether the wireless code receiving device receives the SOS wireless code which is continuously sent;

step three, the cloud management center guides a user to detect whether the switching button is normal or not, the user confirms the start, the user presses the Moss code sent by the switching button in a switching mode, a worker detects whether the radio code receiving device receives the switched radio code or not, and whether the switched radio code is consistent with the radio code corresponding to the switching button or not;

step four, the cloud management center guides a user to overhaul the hand-operated engine, the user confirms that the hand-operated engine starts, the user charges the rechargeable battery in the signal transmitting device by using the hand-operated generator, and the capacity of the battery is detected; if the fault exists, the user reports the fault condition to the cloud management center;

step five, the cloud management center guides a user to examine and repair whether other devices and structures in the rescue capsule are normal or not, the user confirms that the rescue capsule starts, and the user checks; if the fault exists, the user reports the fault condition to the cloud management center;

step six, the cloud management center sends a summary report of the maintenance action to a user; if the equipment has a fault, the cloud management center communicates with the user to determine maintenance time, and maintenance personnel are organized to maintain the equipment; the cloud management center suggests the next overhaul time of the user, and the next overhaul time is determined by the user.

The invention has the advantages that: compared with the prior art, in the invention, when an earthquake occurs, the user can quickly enter the rescue capsule to avoid danger, and the rescue capsule can protect the body of the user from being injured by smashing. The signal transmitter can automatically send set information to the cloud management center at the first time, and the cloud management center rapidly determines the trapped user and the trapped place according to the set information and organizes rescue personnel to timely rescue the user. The emergency bag equipped in the rescue capsule comprises grains, water, an oxygen bag and the like, so that the emergency bag is convenient for a user to use when waiting for rescue after the user leaves the rescue capsule, and the body is kept in a better state. The earthquake lifesaving system can protect the body of a user through the lifesaving cabin, maintain the life of the user through the emergency bag, and improve the survival probability of the user in an earthquake by combining the signal transmitting device and the cloud management center to help the user to be rescued in time.

Drawings

Fig. 1 is a block diagram of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the present invention more apparent, the present invention is described in further detail below with reference to the accompanying drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

In order to achieve the purpose, the technical scheme of the invention is as follows:

referring to fig. 1, the invention provides an earthquake lifesaving system, which comprises a lifesaving cabin, an emergency pack installed in the lifesaving cabin, a cloud management center and a signal transmitting device installed in a matched manner with the lifesaving cabin, wherein the signal transmitting device comprises an automatic sensor and a signal transmitter, the automatic sensor is connected with the signal transmitter, the cloud management center is arranged at the far end and is in communication connection with the signal transmitter, the automatic sensor automatically triggers the signal transmitter after sensing vibration, and the signal transmitter transmits set information to the cloud management center. The rescue capsule is made of graphene alloy, and the compression resistance of the rescue capsule is enhanced. And the cloud management center records each signal transmitting device and stores the place of the user corresponding to each signal transmitting device. When the earthquake comes, the user can quickly enter the rescue capsule to avoid danger, and the rescue capsule protects the body of the user from being injured by a smashing object. The signal transmitter can automatically send set information to the cloud management center at the first time, and the cloud management center rapidly determines the trapped user and the trapped place according to the set information and organizes rescue personnel to timely rescue the user. The emergency bag equipped in the rescue capsule comprises grains, water, an oxygen bag and the like, so that the emergency bag is convenient for a user to use when waiting for rescue after the user leaves the rescue capsule, and the body is kept in a better state. When the earthquake starts, the communication line is not broken, and the signal transmitting device can successfully transmit the setting information in the first time. The set information is set as 'we have earthquakes here', so that the method is simple and clear and is convenient for the cloud management center to quickly capture useful information. The automatic sensor may be a shock sensor.

The emergency bag comprises an emergency oxygen bag and an emergency food bag. When in oxygen deficiency, a user can use the emergency oxygen bag to absorb oxygen, and the emergency food bag is used for placing compressed dry food, water and other foods to facilitate the use of the user.

The rescue capsule is a foldable rescue capsule, and the vibration of the rescue capsule when the rescue capsule is converted from a folded state to an opened state can be sensed by the automatic sensor. In normal times, the user folds the rescue capsule into a smaller size and places the rescue capsule in a proper position such as a corner and the like, so that great influence on the daily work and life of the user is avoided; the user expandes folding survival capsule, and the vibrations that the action of expandes arouse can be sensed by the auto-induction ware, and the auto-induction ware triggers signal transmitter immediately automatically, sends settlement information to the high in the clouds management center very first time.

The signal transmitter comprises an internet of things communication module, the signal transmitter is in communication connection with the cloud management center through the internet of things communication module, the cloud management center distributes unique equipment numbers for each signal transmitting device, the equipment numbers are associated with the internet of things cards in the corresponding signal transmitting devices, and the cloud management center stores characteristic information marked by the equipment numbers. Each signal transmitting device corresponds to a specific user and an internet of things card in the signal transmitting device, namely, each equipment number is associated with the specific user and the specific internet of things card. The cloud management center combines the relevant information of the specific user such as the age, the sex, the long-term disease condition and the like of the specific user corresponding to the signal transmitting device with the place of the specific user to form characteristic information, marks the characteristic information through the corresponding equipment number and stores the characteristic information, and then associates the characteristic information with the corresponding Internet of things card through the equipment number. And when the cloud management center stores the characteristic information of a large number of different specific users, the unique equipment numbers corresponding to the specific users are used for marking. When an earthquake occurs, after the Internet of things card sends set information to the cloud management center, the cloud management center can quickly find the equipment number associated with the Internet of things card according to the Internet of things card sending the information, opens the characteristic information marked by the equipment number, preliminarily knows the relevant information and the place of the trapped user according to the characteristic information, is convenient for rescue personnel to better master the basic situation of the trapped user, and provides targeted rescue.

After the signal transmitter is triggered, the internet of things communication module continuously and regularly transmits set information to the cloud management center within a set time length. The set time is 30 minutes, the continuous regular transmission means that the Internet of things communication module automatically transmits set information according to a preset rule, the rule is that 2 pieces of set information are continuously transmitted to form a group, each group is separated by 10 minutes, and the transmission is automatically stopped when the group is transmitted to the fourth group. If the cloud management center receives the set information sent according to the rule within the set time, the communication line is still connected, and the earthquake destructive power of the place where the trapped user is located is not large. If the duration of the setting information received by the cloud management center is not longer than the set duration, the communication line is broken, and the earthquake destructive power of the place where the trapped user is located is large. The set time period is determined in consideration of the existing situation that a large earthquake does not occur after half an hour of the general earthquake. The cloud management center preliminarily judges the earthquake damage degree of the place where each user is located according to the received information sending and setting actions of the Internet of things card associated with each user, provides the information and the corresponding characteristic information to emergency rescue personnel, and facilitates the emergency rescue personnel to make a corresponding rescue scheme.

The signal transmitter also comprises a wireless transmitting module, the wireless transmitting module stores the Morse code representing the distress information, the automatic sensor is connected with the wireless transmitting module, the automatic sensor senses vibration and then automatically triggers the wireless transmitting module, and the wireless transmitting module automatically and continuously transmits the stored Morse code; the earthquake life-saving system also comprises a wireless code receiving device arranged at the far end, and the wireless code receiving device receives the Moss code sent by the wireless sending module. The channel for transmitting the code by the wireless transmission module can be set to 243 MHZ. When the trapped user is rescued, the wireless code receiving device is tuned to the corresponding channel, the Moss code sent by the wireless sending module is searched, accurate and reliable rescue places and more detailed help seeking information are provided for rescuers through the received Moss code, and the rescuers can conveniently and timely rescue the trapped user.

The signal transmitting device is correspondingly provided with a prompt lamp and a switching button, the prompt lamp and the switching button are connected with the wireless transmitting module, the wireless transmitting module stores four different Morse code which represent four different distress messages and are respectively 'SOS', open wound emergency rescue, fracture pain rescue and health state rescue, the wireless transmitting module automatically transmits the Morse code representing the 'SOS' after being triggered, and the prompt lamp is on; the moss code sent by pressing the switching button is switched among the remaining three moss codes. The prompting lamp is on to indicate that the wireless sending module is automatically sending the Morse code representing the SOS, and the wireless sending module works normally. The switching button is designed into three buttons which are arranged side by side, the three buttons respectively correspond to the help-seeking information which is urgent to rescue in need of open trauma, fracture pain and health state, the trapped user selects the corresponding button to switch the Moss code to be sent according to the actual condition, the rescuer better grasps the actual condition of the trapped user according to the received Moss code, and the rescue work is carried out orderly.

The interior of the rescue capsule is also provided with a hand generator, the signal transmitting device comprises a rechargeable battery, the rechargeable battery supplies power for the signal transmitting device, and the hand generator charges the rechargeable battery. When a user is trapped in the rescue capsule to wait for rescue, the user can charge the rechargeable battery through the hand generator, the signal generating device can be powered on and used when the signal generating device is ensured, the trapped user can utilize the signal generating device to send out distress information ceaselessly in the waiting rescue time, rescue personnel can conveniently rescue in time, and the situation of passively waiting for rescue is avoided. When passively waiting for rescue, the outside cannot know the specific situation of the trapped user, and if the trapped user is buried deeply, the difficulty of confirming the accurate position and the physical condition of the trapped user by rescuers is increased.

The earthquake lifesaving system also comprises a terminal APP, wherein the terminal APP is in communication connection with the cloud management center; the cloud management center distributes an initial password for each equipment number, and the user uses the equipment number as a user name, enters the terminal APP through the initial password and communicates with the cloud management center. After a user enters a terminal APP by using the equipment number and the initial password, displaying the characteristic information marked by the equipment number in an interface, and checking whether the characteristic information conforms to the real condition of the user by the user; and feature information can be added, and if the number of users corresponding to the signal emitting device is increased, the feature information of new users can be added. The cloud management center is in contact with the user through the terminal APP, the user is reminded to overhaul the equipment every half year, one overhaul every half year is achieved, and the normal use of the equipment is guaranteed. The user confirms specific maintenance time through the terminal APP and the cloud management center, and the cloud management center reminds the user to maintain the equipment at the confirmed maintenance time.

The maintenance steps of the equipment are as follows,

the method comprises the following steps that firstly, a cloud management center inquires whether a maintenance mode is started or not from a terminal APP, and a user confirms to the cloud management center through the terminal APP;

secondly, the cloud management center guides a user to start the signal transmitting device, the user confirms the start, and the user shakes the rescue capsule or opens the folding rescue capsule; at the moment, the user observes whether the prompt lamp of the wireless sending module synchronously shines due to triggering; the cloud management center detects whether the set information sent by the continuous rule within the set duration is received or not and whether the set information is correct or not; the staff detects whether the wireless code receiving device receives the SOS wireless code which is continuously sent;

step three, the cloud management center guides a user to detect whether the switching button is normal or not, the user confirms the start, the user presses the Moss code sent by the switching button in a switching mode, a worker detects whether the radio code receiving device receives the switched radio code or not, and whether the switched radio code is consistent with the radio code corresponding to the switching button or not;

step four, the cloud management center guides a user to overhaul the hand-operated engine, the user confirms that the hand-operated engine starts, the user charges the rechargeable battery in the signal transmitting device by using the hand-operated generator, and the capacity of the battery is detected; if the fault exists, the user reports the fault condition to the cloud management center;

step five, the cloud management center guides a user to examine and repair whether other devices and structures in the rescue capsule are normal or not, the user confirms that the rescue capsule starts, and the user checks; if the fault exists, the user reports the fault condition to the cloud management center;

step six, the cloud management center sends a summary report of the maintenance action to a user; if the equipment has a fault, the cloud management center communicates with the user to determine maintenance time, and maintenance personnel are organized to maintain the equipment; the cloud management center suggests the next overhaul time of the user, and the next overhaul time is determined by the user.

The present invention is not limited to the above preferred embodiments, and any modifications, equivalent substitutions and improvements made within the spirit and principle of the present invention should be included in the protection scope of the present invention.

Claims (9)

1. An earthquake life-saving system which is characterized in that: including the survival capsule, install the emergent package in the survival capsule, high in the clouds management center, with the supporting signal emission device who installs of survival capsule, signal emission device includes auto-induction ware and signal transmitter, the auto-induction ware is connected with signal transmitter, high in the clouds management center sets up at distal end and signal transmitter communication connection, high in the clouds management center registers signal emission device, auto-induction ware senses vibrations back auto-triggering signal transmitter, signal transmitter sends settlement information to high in the clouds management center.

2. A seismic rescue system as claimed in claim 1, wherein: the emergency bag comprises an emergency oxygen bag and an emergency food bag.

3. A seismic rescue system as claimed in claim 1, wherein: the rescue capsule is a foldable rescue capsule, and the vibration of the rescue capsule when the rescue capsule is converted from a folded state to an opened state can be sensed by the automatic sensor.

4. A seismic rescue system as claimed in claim 3, wherein: the signal transmitter comprises an internet of things communication module, the signal transmitter is in communication connection with the cloud management center through the internet of things communication module, the cloud management center distributes unique equipment numbers for each signal transmitting device, the equipment numbers are associated with the internet of things cards in the corresponding signal transmitting devices, and the cloud management center stores characteristic information marked by the equipment numbers.

5. An earthquake life-saving system as defined in claim 4, wherein: after the signal transmitter is triggered, the internet of things communication module continuously and regularly transmits set information to the cloud management center within a set time length.

6. A seismic rescue system as claimed in claim 5, wherein: the signal transmitter also comprises a wireless transmitting module, the wireless transmitting module stores the Morse code representing the distress information, the automatic sensor is connected with the wireless transmitting module, the automatic sensor senses vibration and then automatically triggers the wireless transmitting module, and the wireless transmitting module automatically and continuously transmits the stored Morse code; the earthquake life-saving system also comprises a wireless code receiving device arranged at the far end, and the wireless code receiving device receives the Moss code sent by the wireless sending module.

7. A seismic rescue system as claimed in claim 6, wherein: the signal transmitting device is correspondingly provided with a prompt lamp and a switching button, the prompt lamp and the switching button are connected with the wireless transmitting module, the wireless transmitting module stores four different Morse code which represent four different distress messages and are respectively 'SOS', open wound emergency rescue, fracture pain rescue and health state rescue, the wireless transmitting module automatically transmits the Morse code representing the 'SOS' after being triggered, and the prompt lamp is on; the moss code sent by pressing the switching button is switched among the remaining three moss codes.

8. A seismic rescue system as claimed in claim 7, wherein: the interior of the rescue capsule is also provided with a hand generator, the signal transmitting device comprises a rechargeable battery, the rechargeable battery supplies power for the signal transmitting device, and the hand generator charges the rechargeable battery.

9. A seismic rescue system as claimed in claim 8, wherein: the earthquake lifesaving system also comprises a terminal APP, wherein the terminal APP is in communication connection with a cloud management center, the cloud management center distributes an initial password for each equipment number, a user uses the equipment number as a user name, enters the terminal APP through the initial password, changes or perfects corresponding characteristic information, and is matched with the cloud management center to complete equipment maintenance; the cloud management center reminds a user to overhaul the equipment every half year through the terminal APP, the user determines specific overhaul time through the terminal APP and the cloud management center, and the cloud management center reminds the user to overhaul the equipment at the determined overhaul time;

the maintenance steps of the equipment are as follows,

the method comprises the following steps that firstly, a cloud management center inquires whether a maintenance mode is started or not from a terminal APP, and a user confirms to the cloud management center through the terminal APP;

secondly, the cloud management center guides a user to start the signal transmitting device, the user confirms the start, and the user shakes the rescue capsule or opens the folding rescue capsule; at the moment, the user observes whether the prompt lamp of the wireless sending module synchronously shines due to triggering; the cloud management center detects whether the set information sent by the continuous rule within the set duration is received or not and whether the set information is correct or not; the staff detects whether the wireless code receiving device receives the SOS wireless code which is continuously sent;

step three, the cloud management center guides a user to detect whether the switching button is normal or not, the user confirms the start, the user presses the Moss code sent by the switching button in a switching mode, a worker detects whether the radio code receiving device receives the switched radio code or not, and whether the switched radio code is consistent with the radio code corresponding to the switching button or not;

step four, the cloud management center guides a user to overhaul the hand-operated engine, the user confirms that the hand-operated engine starts, the user charges the rechargeable battery in the signal transmitting device by using the hand-operated generator, and the capacity of the battery is detected; if the fault exists, the user reports the fault condition to the cloud management center;

step five, the cloud management center guides a user to examine and repair whether other devices and structures in the rescue capsule are normal or not, the user confirms that the rescue capsule starts, and the user checks; if the fault exists, the user reports the fault condition to the cloud management center;

step six, the cloud management center sends a summary report of the maintenance action to a user; if the equipment has a fault, the cloud management center communicates with the user to determine maintenance time, and maintenance personnel are organized to maintain the equipment; the cloud management center suggests the next overhaul time of the user, and the next overhaul time is determined by the user.

Images