CN111951533B - Wisdom emergency system - Google Patents

Abstract

The utility model provides a wisdom emergency system manages safety cabinet and first processing end through emergent safe high in the clouds in unison, has solved the problem of the communication interrupt that the calamity brought. The safety cabinet is arranged in a grid mode and intelligently managed, so that disaster relief materials go deep into the same line, and the loss of emergency materials is avoided. Through intelligent organization and training of first-line volunteers and alarm persons, the persons participating in disaster relief are organically combined with emergency articles, the disaster relief time is shortened, and the disaster relief effectiveness is improved. The analysis statistics of big data provides the basis for scientific emergency decision.

Description

Wisdom emergency system

Technical Field

The utility model relates to the technical field of computers, particularly, relate to an intelligent emergency system.

Background

The natural disaster is an abnormal phenomenon which occurs in the nature and is relied on by human beings, and the harm of the natural disaster to human society is always amazing. Among them, there are sudden disasters such as earthquake, volcanic eruption, debris flow, tsunami, typhoon, flood, fire, etc.; there are also gradual change disasters that can be gradually shown in a long time, such as ground settlement, land desertification, drought, coastline change and the like; and environmental disasters caused by human activities such as ozone layer change, water body pollution, water and soil loss, acid rain and the like.

Taking the fire commander system as an example, currently, it mainly takes the fire brigade as the core. When a fire disaster occurs, the fire condition is registered to a fire command system through a fire alarm telephone, a fire fighting task is dispatched to a fire fighting team in a fire condition administration area by the fire command system, and then the fire fighting team specifically executes the fire fighting task. However, due to the wide scope of administration of fire brigades, especially in large cities, traffic congestion and other problems, fire brigades often delay the time to arrive at the scene. And many examples prove that the gold time for fire fighting is just half an hour after the fire happens, and self rescue or mutual rescue in the time is very critical. However, most people cannot find public fire-fighting articles nearby in time due to lack of necessary on-site guidance. Even if found, it is possible that the public fire-fighting item has been lost, or that the public fire-fighting item is locked up in order to prevent the public fire-fighting item from being lost. The fire-fighting article is not effectively managed, so that the fire cannot be effectively extinguished in time in the golden time when the fire happens, and a disaster is caused.

Disclosure of Invention

This summary is provided to introduce a selection of concepts in a simplified form that are further described below in the detailed description. This summary is not intended to identify key features or essential features of the claimed subject matter, nor is it intended to be used to limit the scope of the claimed subject matter.

The object of the present disclosure is to provide an intelligent emergency system capable of solving at least one of the above-mentioned technical problems. The specific scheme is as follows:

according to a specific embodiment of the present disclosure, in a first aspect, the present disclosure provides an intelligent emergency system, including:

the first communication link is used for transmitting data between the safety cabinet and the emergency safety cloud end;

the second communication link is used for transmitting data with the emergency safety cloud terminal in a mobile communication or internet communication mode;

the emergency safety cloud end is used for receiving reported alarm information, determining a corresponding alarm grid area in a management grid and an auxiliary grid area near the alarm grid area according to an alarm position in the alarm information, acquiring first safety cabinet information based on the alarm grid area and the auxiliary grid area, and sending the alarm information and the first safety cabinet information to a first processing end in the alarm grid area; the first processing terminal is further configured to receive first response safety cabinet information and first response information reported by the first processing terminal, and issue the first response information based on the first response safety cabinet information; wherein the first safe cabinet information comprises a safe cabinet location;

the first processing end is in signal connection with the second communication link, has a unique identifier, corresponds to a grid area in the management grid, and is used for receiving the alarm information and the first safety cabinet information, and determining and reporting the first response safety cabinet information and the first response information based on the alarm type and the alarm level of the alarm information and the first safety cabinet information;

the safety cabinet is provided with the unique identifier, and the unique identifier of the safety cabinet corresponds to a grid area in the management grid, and the method comprises the following steps: the emergency article, the safety cabinet processor, the safety cabinet communication module, the safety cabinet positioning module, the intelligent cabinet door and the safety cabinet alarm module are arranged in the cabinet; the safety cabinet communication module is in signal connection with the first communication link;

the safety cabinet processor is in signal connection with the safety cabinet communication module, the safety cabinet positioning module, the intelligent cabinet door and the safety cabinet alarm module respectively, and is used for determining that the unique identifier of the safety cabinet is the unique alarm identifier of the alarm information, acquiring the alarm type and the alarm grade of the alarm information based on the safety cabinet alarm module, acquiring the alarm position of the alarm information based on the safety cabinet positioning module or the safety cabinet communication module, reporting the alarm information or receiving the first response information, and opening the intelligent cabinet door based on the control information of the first response information so as to acquire emergency articles.

Compared with the prior art, the scheme of the embodiment of the disclosure at least has the following beneficial effects:

the utility model provides a wisdom emergency system manages safety cabinet and first processing end through emergent safe high in the clouds in unison, has solved the problem of the communication interrupt that the calamity brought. The safety cabinet is arranged in a grid mode and intelligently managed, so that disaster relief materials go deep into the same line, and the loss of emergency materials is avoided. Through intelligent organization and training of first-line volunteers and alarm persons, the persons participating in disaster relief are organically combined with emergency articles, the disaster relief time is shortened, and the disaster relief effectiveness is improved. The analysis statistics of big data provides the basis for scientific emergency decision.

Drawings

The above and other features, advantages and aspects of various embodiments of the present disclosure will become more apparent by referring to the following detailed description when taken in conjunction with the accompanying drawings. Throughout the drawings, the same or similar reference numbers refer to the same or similar elements. It should be understood that the drawings are schematic and that elements and features are not necessarily drawn to scale. In the drawings:

FIG. 1 shows a schematic diagram of a smart emergency system according to an embodiment of the present disclosure;

fig. 2 shows a schematic diagram of a security cabinet according to an embodiment of the present disclosure;

description of the reference numerals

The method comprises the following steps of 1-a safety cabinet communication module, 2-an intelligent cabinet door/an intelligent small door, 3-a safety cabinet voice module, 4-a classification alarm button, 5-a whole cabinet touch display unit, 6-a smoke sensor, 7-a temperature sensor, 8-a wide-angle camera and 9-a two-dimensional code.

Detailed Description

Embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While certain embodiments of the present disclosure are shown in the drawings, it is to be understood that the present disclosure may be embodied in various forms and should not be construed as limited to the embodiments set forth herein, but rather are provided for a more thorough and complete understanding of the present disclosure. It should be understood that the drawings and embodiments of the disclosure are for illustration purposes only and are not intended to limit the scope of the disclosure.

It should be understood that the various steps recited in the method embodiments of the present disclosure may be performed in a different order, and/or performed in parallel. Moreover, method embodiments may include additional steps and/or omit performing the illustrated steps. The scope of the present disclosure is not limited in this respect.

The term "include" and variations thereof as used herein are open-ended, i.e., "including but not limited to". The term "based on" is "based, at least in part, on". The term "one embodiment" means "at least one embodiment"; the term "another embodiment" means "at least one additional embodiment"; the term "some embodiments" means "at least some embodiments". Relevant definitions for other terms will be given in the following description.

It should be noted that the terms "first", "second", and the like in the present disclosure are only used for distinguishing different devices, modules or units, and are not used for limiting the order or interdependence relationship of the functions performed by the devices, modules or units.

It is noted that references to "a", "an", and "the" modifications in this disclosure are intended to be illustrative rather than limiting, and that those skilled in the art will recognize that "one or more" may be used unless the context clearly dictates otherwise.

The names of messages or information exchanged between devices in the embodiments of the present disclosure are for illustrative purposes only, and are not intended to limit the scope of the messages or information.

Alternative embodiments of the present disclosure are described in detail below with reference to the accompanying drawings.

A first embodiment, namely an embodiment of an intelligent emergency system, is provided for the present disclosure.

The embodiments of the present disclosure will be described in detail below with reference to fig. 1 and 2.

As shown in fig. 1, an intelligent emergency system includes: the emergency safety system comprises a first communication link, a second communication link, an emergency safety cloud, a first processing end and a safety cabinet.

And the first communication link is used for transmitting data between the safety cabinet and the emergency safety cloud end. The first communication link, comprising: a 4G communication link, a 5G communication link, and/or a satellite communication link. The problem of communication interruption caused by ground disasters is solved.

And the second communication link is used for transmitting data with the emergency safety cloud terminal in a mobile communication or internet communication mode.

The emergency safety cloud is a backbone of emergency safety.

The emergency safety cloud end is used for receiving reported alarm information, determining a corresponding alarm grid area in a management grid and an auxiliary grid area near the alarm grid area according to an alarm position in the alarm information, acquiring first safety cabinet information based on the alarm grid area and the auxiliary grid area, and sending the alarm information and the first safety cabinet information to a first processing end in the alarm grid area; and the first processing terminal is further configured to receive first response safety cabinet information and first response information reported by the first processing terminal, and issue the first response information based on the first response safety cabinet information.

Wherein the first safe cabinet information comprises a safe cabinet location.

The first disposal end is mainly used for directly commanding and executing emergency tasks. The first disposal terminal is typically used by a security officer. The safety personnel are responsible for checking the scene real situation through the safety cabinet camera; the daily patrol and the information of material storage are summarized and reported; training security personnel to maintain the certificate and go on duty, and regularly retraining; can contact fire-fighting department, public security department and other departments in an emergency.

The first processing end is in signal connection with the second communication link, has a unique identifier, corresponds to a grid area in the management grid, and is used for receiving the alarm information and the first safety cabinet information, and determining and reporting the first response safety cabinet information and the first response information based on the alarm type and the alarm level of the alarm information and the first safety cabinet information.

The intelligent emergency system divides an alarm area in a management range into a plurality of grid areas according to grids, and each grid area is provided with a safety cabinet.

As shown in fig. 2, the security cabinet having the unique identifier, and the unique identifier of the security cabinet corresponding to a grid area in the management grid, includes: the emergency article, the safety cabinet processor, the safety cabinet communication module, the safety cabinet positioning module, the intelligent cabinet door and the safety cabinet alarm module are arranged in the cabinet; the safety cabinet communication module is in signal connection with the first communication link.

The safety cabinet processor is in signal connection with the safety cabinet communication module, the safety cabinet positioning module, the intelligent cabinet door and the safety cabinet alarm module respectively, and is used for determining that the unique identifier of the safety cabinet is the unique alarm identifier of the alarm information, acquiring the alarm type and the alarm grade of the alarm information based on the safety cabinet alarm module, acquiring the alarm position of the alarm information based on the safety cabinet positioning module or the safety cabinet communication module, reporting the alarm information or receiving the first response information, and opening the intelligent cabinet door based on the control information of the first response information so as to acquire emergency articles.

Optionally, the safety cabinet communication module includes: a 4G communication unit, a 5G communication unit, and/or a satellite communication unit.

The safety cabinet processor determines a current communication unit based on the current communication state of each communication unit of the safety cabinet communication module, and reports information or receives issued information through the current communication unit.

Optionally, the safety cabinet alarm module includes: and the classification alarm unit and/or the information acquisition unit are set based on the alarm type and the alarm grade.

The safety cabinet processor generates corresponding alarm information based on the unique identification of the safety cabinet, the trigger information of the classification alarm unit and the safety cabinet positioning module, namely the classification alarm unit inputs the alarm type and the alarm grade through an alarm person. For example, the alarm types include: earthquakes, volcanic eruptions, debris flow, tsunamis, typhoons, floods, and fires; a fire alarm rating comprising: a level, B level, C level, D level, E level and F level; an alarm level for an earthquake comprising: sensible earthquakes, moderate and strong earthquakes; the classification alarm unit is a plurality of classification alarm buttons arranged on the outer surface of the safety cabinet, and each classification alarm button represents different alarm types and alarm levels; or the classified alarm unit is a safety cabinet touch display unit, the alarm type and the alarm grade are displayed in the safety cabinet touch display unit, and an alarm person selects and determines the alarm type and the alarm grade through the safety cabinet touch display unit.

The safety cabinet processor acquires the environmental information acquired by the information acquisition unit and generates the alarm information based on the unique identifier of the safety cabinet, the environmental information and the safety cabinet positioning module. For example, an information collection unit, comprising: a smoke sensor, a temperature sensor and a wide-angle camera; environmental information, including: smoke concentration, temperature and environmental image; when a fire disaster happens, the safety cabinet processor analyzes the environmental information to obtain the alarm type and the alarm grade.

Optionally, the intelligent emergency system further comprises a volunteer terminal. The volunteers can participate and execute emergency tasks according to the prompt messages of the volunteer terminals.

The emergency safety cloud is further used for issuing the alarm information, receiving volunteer response information reported by the volunteer terminal, generating volunteer emergency information according to the volunteer response information, the first response safety cabinet information and the alarm information, and issuing the volunteer emergency information to the volunteer terminal corresponding to the volunteer information.

Wherein the volunteer response information comprises a unique identification of the volunteer end and a volunteer end position. The volunteer emergency information includes the volunteer end location and the safety cabinet location corresponding to the volunteer end.

The volunteer terminal, having the unique identifier, comprising: the system comprises a volunteer end processor, a volunteer end communication module, a volunteer end positioning module and a volunteer end map module; the volunteer terminal communication module is in signal connection with the second communication link.

The volunteer end processor is respectively in signal connection with the volunteer end communication module and the volunteer end positioning module, and is used for receiving the alarm information, displaying the alarm information on a display interface of the volunteer end map module, acquiring a volunteer end position based on the volunteer end positioning module or the volunteer end communication module, and acquiring and reporting volunteer response information based on a unique identifier of the volunteer end and the volunteer end position; and the system is also used for receiving the volunteer emergency information and acquiring a path from the volunteer end position to the safety cabinet position according to the safety cabinet position, the volunteer end position and the map data of the volunteer end map module.

Optionally, the intelligent emergency system further comprises a user side. A user can check the nearby safety cabinet, the emergency material storage distribution in the cabinet and the nearby escape passage mark through the user side; contacting nearby security personnel and seeking help by one key; automatically opening the emergency material use permission of the area; and opening a cabinet door within the authority range to take emergency rescue materials.

The user terminal, which has the unique identifier, includes: the system comprises a user side processor, a user side communication module, a user side positioning module, a user side map module and a user side alarm module; the user side communication module is in signal connection with the second communication link.

The user side processor is respectively in signal connection with the user side communication module and the user side positioning module, and is used for determining that the unique identifier of the user side is the only alarm identifier of the alarm information, determining the alarm type and the alarm grade of the alarm information, acquiring the alarm position of the alarm information based on the user side positioning module or the user side communication module, displaying the alarm information on a display interface of the user side map module, and reporting the alarm information.

Optionally, the user-side processor further includes an input module or an image acquisition module.

The user side processor is further used for enabling the user side to be a registered user, based on the input module or the image acquisition module acquires the unique identifier of the safety cabinet, based on the unique identifier of the safety cabinet and the alarm information, applying for emergency safety cloud and acquiring second response information, and opening the intelligent cabinet door based on the control information of the second response information so as to acquire emergency articles.

For example, the unique identifier of the safety cabinet is attached to the outer surface of the safety cabinet in the form of a combination of a string of numbers and characters, and the user inputs the combination of the numbers and the characters through the input module, so that the unique identifier of the safety cabinet is obtained; or the unique identifier of the safety cabinet is posted on the outer surface of the safety cabinet in the form of a one-dimensional code or a two-dimensional code, and the user reads the unique identifier of the safety cabinet through the image acquisition module.

The emergency safety cloud is further used for receiving the unique identifier of the safety cabinet and the alarm information, and generating and issuing the second response information based on the unique identifier of the safety cabinet and the alarm information.

Optionally, the safety cabinet includes a plurality of safety compartments, and each safety compartment is configured with an emergency article; the intelligent cabinet door comprises a small intelligent door corresponding to the safety grid.

And the safety cabinet processor opens the corresponding small intelligent door according to the first response information or the second response information.

For example, each safety grid of the safety cabinet is respectively stored with an article for earthquake relief and a fire article, when the alarm type of the alarm information is fire, the control information of the first response information or the second response information can only open the intelligent wicket for fire article, and further open the intelligent wicket for partial fire article according to the alarm level.

Optionally, the intelligent emergency system further includes a second processing terminal. The second treatment end is primarily used by the leader. The leaders are responsible for macroscopic command decision-making, and viewing analysis reports (material statistics quantity, on-duty conditions of security guards, distribution of jurisdictions and the like); the accident situation is visually checked; emergency situation disposal and rapid and direct dispatching of rescue workers; and checking the accident occurrence records of the area.

The emergency safety cloud is further used for sending the alarm information, the first response safety cabinet information and/or the volunteer response information to a second processing end corresponding to the alarm information.

The second processing terminal is provided with the unique identifier, is in signal connection with the second communication link, and is used for receiving the alarm information, the first response safety cabinet information and/or the volunteer response information and displaying the alarm information, the first response safety cabinet information and/or the volunteer response information on a map interface.

Optionally, the safety cabinet further comprises a safety cabinet voice module in signal connection with the safety cabinet processor.

The first processing end comprises a first processing end processor and a first processing end voice module in signal connection with the first processing end processor.

The second handling end comprises a second handling end processor and a second handling end voice module in signal connection with the second handling end processor.

The volunteer end includes a volunteer-end speech module in signal connection with the volunteer-end processor.

The user side comprises a user side voice module in signal connection with the user side processor.

The safety cabinet processor, the first processing end processor, the second processing end processor, the volunteer end processor and the volunteer end are also used for establishing mutual voice connection based on the unique identifier, sending the voice collected by the corresponding voice module to a connecting party and receiving the voice sent by the connecting party.

And the voice communication is adopted, so that a security officer or a leader can perform emergency guidance on the site.

The first processing terminal, the second processing terminal, the volunteer terminal and the user terminal can be mobile terminals, such as a mobile phone, a PAD and a notebook computer; fixed terminals such as desktops and servers are also possible.

Optionally, the emergency security cloud includes:

the data storage module has mass data storage and management capacity and is used for storing and managing data received and transmitted by the emergency safety cloud;

the big data analysis and statistics module is used for carrying out comparison cleaning, conversion and integration on the data in the data storage module to generate integrated shared information and storing the integrated shared information into the data storage module;

and the safety education module is used for pushing safety education knowledge and training on-line safety skills.

The embodiment of the disclosure provides an intelligent emergency system, which manages a safety cabinet and a first disposal end in a unified manner through an emergency safety cloud end, and solves the problem of communication interruption caused by disasters. The safety cabinet is arranged in a grid mode and intelligently managed, so that disaster relief materials go deep into the same line, and the loss of emergency materials is avoided. Through intelligent organization and training of first-line volunteers and alarm persons, the persons participating in disaster relief are organically combined with emergency articles, the disaster relief time is shortened, and the disaster relief effectiveness is improved. The analysis statistics of big data provides the basis for scientific emergency decision.

The foregoing description is only exemplary of the preferred embodiments of the disclosure and is illustrative of the principles of the technology employed. It will be appreciated by those skilled in the art that the scope of the disclosure herein is not limited to the particular combination of features described above, but also encompasses other embodiments in which any combination of the features described above or their equivalents does not depart from the spirit of the disclosure. For example, the above features and (but not limited to) the features disclosed in this disclosure having similar functions are replaced with each other to form the technical solution.

Although the subject matter has been described in language specific to structural features and/or methodological acts, it is to be understood that the subject matter defined in the appended claims is not necessarily limited to the specific features or acts described above. Rather, the specific features and acts described above are disclosed as example forms of implementing the claims.

Claims (9)

1. An intelligent emergency system, comprising:

the first communication link is used for transmitting data between the safety cabinet and the emergency safety cloud end;

the second communication link is used for transmitting data with the emergency safety cloud terminal in a mobile communication or internet communication mode;

the emergency safety cloud end is used for receiving reported alarm information, determining a corresponding alarm grid area in a management grid and an auxiliary grid area near the alarm grid area according to an alarm position in the alarm information, acquiring first safety cabinet information based on the alarm grid area and the auxiliary grid area, and sending the alarm information and the first safety cabinet information to a first processing end in the alarm grid area; the first processing terminal is further configured to receive first response safety cabinet information and first response information reported by the first processing terminal, and issue the first response information based on the first response safety cabinet information; wherein the first safe cabinet information comprises a safe cabinet location;

the first processing end is in signal connection with the second communication link, has a unique identifier, corresponds to a grid area in the management grid, and is used for receiving the alarm information and the first safety cabinet information, and determining and reporting the first response safety cabinet information and the first response information based on the alarm type and the alarm level of the alarm information and the first safety cabinet information;

the safety cabinet is provided with the unique identifier, and the unique identifier of the safety cabinet corresponds to a grid area in the management grid, and the method comprises the following steps: the emergency article, the safety cabinet processor, the safety cabinet communication module, the safety cabinet positioning module, the intelligent cabinet door and the safety cabinet alarm module are arranged in the cabinet; the safety cabinet communication module is in signal connection with the first communication link;

the safety cabinet processor is respectively in signal connection with the safety cabinet communication module, the safety cabinet positioning module, the intelligent cabinet door and the safety cabinet alarm module, and is used for determining that the unique identifier of the safety cabinet is the unique alarm identifier of the alarm information, acquiring the alarm type and the alarm grade of the alarm information based on the safety cabinet alarm module, acquiring the alarm position of the alarm information based on the safety cabinet positioning module or the safety cabinet communication module, reporting the alarm information or receiving the first response information, and opening the intelligent cabinet door based on the control information of the first response information so as to acquire emergency articles;

wherein, the intelligent emergency system also comprises a volunteer end;

the emergency safety cloud is further used for issuing the alarm information, receiving volunteer response information reported by the volunteer terminal, generating volunteer emergency information according to the volunteer response information, the first response safety cabinet information and the alarm information, and issuing the volunteer emergency information to the volunteer terminal corresponding to the volunteer information; wherein the volunteer response information comprises a unique identification of the volunteer end and a volunteer end location; the volunteer emergency information comprises the volunteer end position and the safety cabinet position corresponding to the volunteer end;

the volunteer terminal, having the unique identifier, comprising: the system comprises a volunteer end processor, a volunteer end communication module, a volunteer end positioning module and a volunteer end map module; the volunteer terminal communication module is in signal connection with the second communication link;

the volunteer end processor is respectively in signal connection with the volunteer end communication module and the volunteer end positioning module, and is used for receiving the alarm information, displaying the alarm information on a display interface of the volunteer end map module, acquiring a volunteer end position based on the volunteer end positioning module or the volunteer end communication module, and acquiring and reporting volunteer response information based on a unique identifier of the volunteer end and the volunteer end position; and the system is also used for receiving the volunteer emergency information and acquiring a path from the volunteer end position to the safety cabinet position according to the safety cabinet position, the volunteer end position and the map data of the volunteer end map module.

2. The smart emergency system of claim 1, wherein the safety cabinet communication module comprises: a 4G communication unit, a 5G communication unit and/or a satellite communication unit; the first communication link, comprising: a 4G communication link, a 5G communication link and/or a satellite communication link;

the safety cabinet processor determines a current communication unit based on the current communication state of each communication unit of the safety cabinet communication module, and reports information or receives issued information through the current communication unit.

3. The smart emergency system of claim 1, wherein the safety cabinet alarm module comprises: the classified alarm unit and/or the information acquisition unit are set based on the alarm type and the alarm grade;

the safety cabinet processor generates corresponding alarm information based on the unique identification of the safety cabinet, the trigger information of the classification alarm unit and the safety cabinet positioning module;

and/or the safety cabinet processor acquires the environmental information acquired by the information acquisition unit and generates the alarm information based on the unique identifier of the safety cabinet, the environmental information and the safety cabinet positioning module.

4. The intelligent emergency system of claim 1, further comprising a user side;

the user terminal, which has the unique identifier, includes: the system comprises a user side processor, a user side communication module, a user side positioning module, a user side map module and a user side alarm module; the user side communication module is in signal connection with the second communication link;

the user side processor is respectively in signal connection with the user side communication module and the user side positioning module, and is used for determining that the unique identifier of the user side is the only alarm identifier of the alarm information, determining the alarm type and the alarm grade of the alarm information, acquiring the alarm position of the alarm information based on the user side positioning module or the user side communication module, displaying the alarm information on a display interface of the user side map module, and reporting the alarm information.

5. The intelligent emergency system of claim 4, wherein the client processor further comprises an input module or an image capture module;

the user side processor is further configured to, when the user side is a registered user, obtain the unique identifier of the security cabinet based on the input module or the image acquisition module, apply for and obtain second response information to the emergency security cloud based on the unique identifier of the security cabinet and the alarm information, and open the smart cabinet door based on control information of the second response information so as to obtain an emergency article;

the emergency safety cloud is further used for receiving the unique identifier of the safety cabinet and the alarm information, and generating and issuing the second response information based on the unique identifier of the safety cabinet and the alarm information.

6. The intelligent emergency system according to claim 1 or 5, wherein the safety cabinet includes a plurality of safety compartments, each safety compartment having an emergency article disposed therein; the intelligent cabinet door comprises an intelligent small door corresponding to the safety grid;

and the safety cabinet processor opens the corresponding small intelligent door according to the first response information or the second response information.

7. The intelligent emergency system according to claim 4, further comprising a second processing terminal;

the emergency safety cloud is further used for sending the alarm information, the first response safety cabinet information and/or the volunteer response information to a second processing end corresponding to the alarm information;

the second processing terminal is provided with the unique identifier, is in signal connection with the second communication link, and is used for receiving the alarm information, the first response safety cabinet information and/or the volunteer response information and displaying the alarm information, the first response safety cabinet information and/or the volunteer response information on a map interface.

8. The intelligent emergency system of claim 7,

the safety cabinet also comprises a safety cabinet voice module in signal connection with the safety cabinet processor;

the first processing end comprises a first processing end processor and a first processing end voice module in signal connection with the first processing end processor;

the second processing end comprises a second processing end processor and a second processing end voice module in signal connection with the second processing end processor;

the user side comprises a user side voice module in signal connection with the user side processor;

the safety cabinet processor, the first processing end processor, the second processing end processor and the user side processor are also used for establishing mutual voice connection based on the unique identification, sending the voice collected by the corresponding voice module to a connecting party and receiving the voice sent by the connecting party.

9. The intelligent emergency system of claim 1, wherein the emergency security cloud comprises:

the data storage module has mass data storage and management capacity and is used for storing and managing data received and transmitted by the emergency safety cloud;

the big data analysis and statistics module is used for carrying out comparison cleaning, conversion and integration on the data in the data storage module to generate integrated shared information and storing the integrated shared information into the data storage module;

and the safety education module is used for pushing safety education knowledge and training on-line safety skills.

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