CN109327616B

CN109327616B - Mobile terminal-based risk identification device and method under single environment

Info

Publication number: CN109327616B
Application number: CN201811271690.9A
Authority: CN
Inventors: 黄莹
Original assignee: Individual
Current assignee: Individual
Priority date: 2018-10-29
Filing date: 2018-10-29
Publication date: 2020-12-01
Anticipated expiration: 2038-10-29
Also published as: CN109327616A

Abstract

The risk identification device and method based on the mobile terminal under the single environment collect user action audio data information under the single environment for risk identification; acquiring geometric three-dimensional action data information of a user in a single environment for risk identification; acquiring user geographical position data in a single environment for risk identification; according to the geographic position data information of the user, the user under the single environment is related to form an inter-insurance joint guarantee person; detecting the dynamic and static states of the user in a single environment according to the geographic position data of the user, the user action audio data or the geometric three-dimensional action data; safety reminding is carried out on the user according to the dynamic and static state information of the user; under the premise that the user reminding module carries out safety reminding on the user without feedback, the user is contacted with the mutual insurance contact personnel; and seeking help to a preset security or fire department on the premise that the user contacts the mutual protection and joint protection personnel without feedback. The invention effectively ensures the life safety of the members in the same production environment.

Description

Mobile terminal-based risk identification device and method under single environment

Technical Field

The invention relates to the technical field of data processing, in particular to a risk identification device and method under a single environment based on a mobile terminal.

Background

The application environment of the existing danger reminding system of a mobile terminal such as a mobile phone is global, in fact, the risk perception data of the global scope is extremely difficult to know, the danger which can be known through various channels is also large in scope, such as typhoon entry, and the reminding which is too wide but has no characteristics is difficult to obtain the practical application value. In a factory production environment, most of people are usually in the same production environment, the types of risks faced by members are similar, and sometimes risks such as toxic gas leakage and the like are also faced collectively.

At present, in a single environment, such as a certain factory or a team, personnel are generally mutually independent and cannot perform mutual-insurance mutual-help cooperation, especially, when a certain employee falls down or is poisoned among the same team personnel in the same chemical factory, other employees cannot timely find and cooperate, sometimes collective poisoning and other events can also occur, risk cannot be timely identified in the single environment, and great production risk and potential safety hazard exist. Therefore, a new technical solution is needed to solve the problem of risk identification in a single environment.

Disclosure of Invention

The embodiment of the invention aims to provide a device and a method for identifying risks in a single environment based on a mobile terminal, which are used for realizing the mutual protection and reminding among members in a risk area in a simple, direct and automatic manner by taking the mobile terminal such as a mobile phone as a carrier for risk judgment, thereby effectively ensuring the life safety among the members in the same production environment.

In order to achieve the above object, an embodiment of the present invention provides a risk identification device based on a mobile terminal in a single environment, where the risk identification device includes a data acquisition unit and a data processing unit, a connection relationship is established between the data acquisition unit and the data processing unit, and the data acquisition unit includes a user positioning module, an audio acquisition module, and an action acquisition module; the data processing unit comprises a user correlation module, a dynamic and static detection module, a user reminding module, a member calling module and an outer edge help seeking module;

the user positioning module and the user association module establish a data transfer relationship, the audio acquisition module and the dynamic and static detection module establish a data transfer relationship, the action acquisition module and the dynamic and static detection module establish a data transfer relationship, the dynamic and static detection module and the user positioning module establish a data transfer relationship, the user reminding module and the dynamic and static detection module establish a data transfer relationship, the panelist calling module and the user reminding module establish a data transfer relationship, and the outer edge help seeking module and the panelist calling module establish a data transfer relationship;

the user positioning module is used for acquiring user geographic position data in a single environment for risk identification, and transmitting the acquired user geographic position data to the user association module and the dynamic and static detection module; the audio acquisition module is used for acquiring user action audio data information in a single environment for risk identification, and the audio acquisition module transmits the acquired action audio data information to the dynamic and static detection module; the action acquisition module is used for acquiring geometric three-dimensional action data information of the user in a single environment for risk identification through a three-axis gyroscope and an acceleration sensor, and transmitting the acquired geometric three-dimensional action data information of the user to the dynamic and static detection module;

the user association module is used for carrying out relationship on the users under the single environment according to the geographic position data information of the users so as to form an inter-insurance joint insurance staff; the dynamic and static detection module is used for detecting the dynamic and static states of the user in a single environment according to the geographic position data of the user, the user action audio data or the geometric three-dimensional action data, and the dynamic and static detection module transmits the acquired dynamic and static state data of the user to the user reminding module; the user reminding module is used for carrying out safety reminding on the user according to the dynamic and static state information of the user; the group member calling module is used for contacting the mutual protection joint insurance personnel on the premise that the user reminding module carries out safety reminding on the user without feedback; the outer edge help seeking module is used for seeking help to a preset security or fire department on the premise that the user contacts the mutual protection and joint protection personnel through the member calling module without feedback.

As a preferred scheme of the risk identification device based on the mobile terminal in the single environment, the data acquisition unit further includes a hazard source acquisition module, and the hazard source acquisition module is used for correcting or adding information of a hazard area in the single environment by a user, and the hazard area includes a toxic gas leakage area.

As a preferred scheme of the risk identification device based on the mobile terminal in the single environment, the data processing unit further comprises a timing module, the timing module establishes a data transmission relation with the user reminding module, the timing module is used for timing the time of the user without a static state, and when the set time is reached, the user reminding module does not receive action feedback of the user, and then the group member calling module actively contacts the mutual insurance joint protection personnel.

As a preferred scheme of the risk identification device based on the mobile terminal in the single environment, the data processing unit further includes a line judgment module, the line judgment module establishes a data transfer relationship with the user positioning module, and the line judgment module is used for recording a movement route according to the positioning information of the user and judging an optimal routing inspection line of the frequent operation point and the routing inspection point of the user in the single environment.

As a preferred scheme of the risk identification device based on the mobile terminal in the single environment, the data processing unit further includes a habit retrieval module, the habit retrieval module establishes a data transfer relationship with the line judgment module and the user location module, and the habit retrieval module is configured to judge a position where a habit of the user is located in the single environment according to the user line information acquired by the line judgment module and the user location information acquired by the user location module.

As a preferred scheme of the risk identification device based on the mobile terminal in the single environment, the data processing unit further includes a state marking module, the state marking module establishes a data transmission relationship with the habit retrieval module and the user positioning module, the state marking module is used for marking the behavior state of the user according to the position of the user, and the behavior state includes monitoring, rest, inspection or operation.

The embodiment of the invention also provides a risk identification method under the single environment based on the mobile terminal, which is realized by adopting the risk identification device and comprises the following steps:

calling an audio acquisition module to acquire user action audio data information under a single environment for risk identification, and transmitting the acquired action audio data information to a dynamic and static detection module by the audio acquisition module;

calling an action acquisition module to acquire user geometric three-dimensional action data information in a single environment for risk identification through a three-axis gyroscope and an acceleration sensor, and transmitting the acquired user geometric three-dimensional action data information to a dynamic and static detection module by the action acquisition module;

calling a user positioning module to acquire user geographical position data under a single environment for risk identification, and transmitting the acquired user geographical position data to a user association module and a dynamic and static detection module by the user positioning module;

calling a user association module to carry out relationship on the user under the single environment according to the geographic position data information of the user so as to form an inter-insurance joint guarantee person;

calling a dynamic and static detection module to detect the dynamic and static states of the user in a single environment according to the geographic position data of the user, the user action audio data or the geometric three-dimensional action data, and transmitting the acquired dynamic and static state data of the user to a user reminding module by the dynamic and static detection module;

calling a user reminding module to safely remind a user according to the dynamic and static state information of the user; calling a member calling module to contact the mutual insurance contact personnel on the premise that the user reminding module carries out safety reminding on the user without feedback;

and calling the outer edge help seeking module to seek help from a preset security or fire department on the premise that the user contacts the mutual protection and joint protection personnel through the member calling module without feedback.

As a preferred scheme of the risk identification method in the single environment based on the mobile terminal, the risk identification method further includes calling a risk source acquisition module for a user to correct or add information of a dangerous area in the single environment, where the dangerous area includes a toxic gas leakage area.

As a preferred scheme of the risk identification method under the single environment based on the mobile terminal, the risk identification method further comprises the steps of calling a timing module to time the time of the user in a static state, and when the set time is reached, the user reminding module does not receive action feedback of the user, and then the member calling module actively contacts the mutual insurance joint guarantee personnel.

As a preferable scheme of the risk identification method under the single environment based on the mobile terminal, the risk identification method further comprises,

calling a line judgment module to record a movement line according to the positioning information of the user and judge the optimal routing inspection line of the frequent operation point and the routing inspection point of the user in a single environment;

calling a habit retrieval module to judge the position of the habit of the user in the single environment according to the user line information acquired by the line judgment module and the user position information acquired by the user positioning module;

and the calling state marking module marks the behavior state of the user according to the position of the user, wherein the behavior state comprises monitoring, rest, routing inspection or operation.

The embodiment of the invention has the following advantages: the technical scheme can be applied among members of a specific risk team, automatic grouping of the members based on the positioning information is realized, member information data are disclosed, operation steps are simplified, and malicious harassment is avoided. The system is characterized in that the system automatically senses falling and falling at high altitude based on a sensor technology, dangers are associated with inter-protection and inter-protection personnel, or security or fire departments, effective position information and environment information are provided, rescue is convenient to provide, blind operation and password operation are supported by all operations, most of risk conditions are covered, mutual protection and reminding among members in a risk area are completed in a simple, direct and automatic mode, and the life safety of the staff is guaranteed.

Drawings

Fig. 1 is a schematic diagram of a risk identification device in a single environment based on a mobile terminal according to an embodiment of the present invention;

fig. 2 is a schematic diagram illustrating a risk identification method in a single environment based on a mobile terminal according to an embodiment of the present invention;

fig. 3 is a schematic diagram illustrating a method for identifying risks in a single environment based on a mobile terminal according to another embodiment of the present invention;

wherein, 1, a data acquisition unit; 2. a data processing unit; 3. a user positioning module; 4. an audio acquisition module; 5. an action acquisition module; 6. a user association module; 7. a dynamic and static detection module; 8. a user reminding module; 9. a group member calling module; 10. an outer edge help module; 11. a hazard source acquisition module; 12. a timing module; 13. a line judgment module; 14. a habit retrieval module; 15. and a state marking module.

Detailed Description

In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in detail below. In the following description, numerous specific details are set forth in order to provide a thorough understanding of the present invention. This invention may, however, be embodied in many different forms and should not be construed as limited to the embodiments set forth herein.

Unless defined otherwise, all technical and scientific terms used herein have the same meaning as commonly understood by one of ordinary skill in the art to which this invention belongs. The terminology used herein in the description of the invention is for the purpose of describing particular embodiments only and is not intended to be limiting of the invention. As used herein, the term "and/or" includes any and all combinations of one or more of the associated listed items.

Referring to fig. 1, a risk identification device based on a mobile terminal in a single environment comprises a data acquisition unit 1 and a data processing unit 2, wherein a connection relationship is established between the data acquisition unit 1 and the data processing unit 2, and the data acquisition unit 1 comprises a user positioning module 3, an audio acquisition module 4 and an action acquisition module 5; the data processing unit 2 comprises a user correlation module 6, a dynamic and static detection module 7, a user reminding module 8, a member calling module 9 and an outer edge help seeking module 10.

The user positioning module 3 and the user association module 6 establish a data transfer relationship, the audio acquisition module 4 and the dynamic and static detection module 7 establish a data transfer relationship, the action acquisition module 5 and the dynamic and static detection module 7 establish a data transfer relationship, the dynamic and static detection module 7 and the user positioning module 3 establish a data transfer relationship, the user reminding module 8 and the dynamic and static detection module 7 establish a data transfer relationship, the panelist calling module 9 and the user reminding module 8 establish a data transfer relationship, and the outer edge help seeking module 10 and the panelist calling module 9 establish a data transfer relationship.

The user positioning module 3 is used for acquiring user geographical position data in a single environment for risk identification, and the user positioning module 3 transmits the acquired user geographical position data to the user association module 6 and the dynamic and static detection module 7; the audio acquisition module 4 is used for acquiring user action audio data information in a single environment for risk identification, and the audio acquisition module 4 transmits the acquired action audio data information to the dynamic and static detection module 7; the action acquisition module 5 is used for acquiring the geometric three-dimensional action data information of the user in the single environment for risk identification through the three-axis gyroscope and the acceleration sensor, and the action acquisition module 5 transmits the acquired geometric three-dimensional action data information of the user to the dynamic and static detection module 7.

The user association module 6 is used for carrying out relationship on the users under the single environment according to the geographic position data information of the users so as to form an inter-insurance joint guarantee personnel; the dynamic and static detection module 7 is used for detecting dynamic and static states of the user in a single environment according to the geographic position data of the user, the user action audio data or the geometric three-dimensional action data, and the dynamic and static detection module 7 transmits the acquired dynamic and static state data of the user to the user reminding module 8; the user reminding module 8 is used for carrying out safety reminding on the user according to the dynamic and static state information of the user; the member calling module 9 is used for contacting the mutual protection joint insurance personnel on the premise that the user reminding module 8 carries out safety reminding on the user without feedback; the outer edge help seeking module 10 is used for seeking help to a preset security or fire department on the premise that the user contacts the mutual protection and joint protection personnel through the member calling module 9 without feedback.

In an embodiment of the risk identification apparatus based on a mobile terminal in a single environment, the data acquisition unit 1 further includes a hazard source acquisition module 11, and the hazard source acquisition module 11 is used for a user to correct or add information of a hazardous area in the single environment, where the hazardous area includes a toxic gas leakage area.

In an embodiment of the risk identification device based on the mobile terminal in a single environment, the data processing unit 2 further includes a timing module 12, the timing module 12 establishes a data transmission relationship with the user reminding module 8, the timing module 12 is configured to time the time when the user has no moving and static state, and when the set time is reached, the user reminding module 8 does not receive the action feedback of the user, the member calling module 9 actively contacts the mutually-protected joint protection personnel. The data processing unit 2 further comprises a line judgment module 13, the line judgment module 13 establishes a data transfer relationship with the user positioning module 3, and the line judgment module 13 is used for recording a movement route according to the positioning information of the user and judging the optimal routing inspection line of the frequent operation point and the routing inspection point of the user in a single environment.

The data processing unit 2 further comprises a habit retrieval module 14, the habit retrieval module 14 establishes a data transmission relationship with the line judgment module 13 and the user positioning module 3, and the habit retrieval module 14 is configured to determine a position where a habit of a user is located in a single environment according to the user line information acquired by the line judgment module 13 and the user position information acquired by the user positioning module 3. The data processing unit 2 further comprises a state marking module 15, the state marking module 15 establishes a data transmission relationship with the habit retrieval module 14 and the user positioning module 3, and the state marking module 15 is used for marking the behavior state of the user according to the position of the user, wherein the behavior state includes monitoring, rest, inspection or operation.

Referring to fig. 2, an embodiment of the present invention further provides a risk identification method in a single environment based on a mobile terminal, where the risk identification method is implemented by using the risk identification device, and the risk identification method includes the following steps:

s1: calling an audio acquisition module 4 to acquire user action audio data information under a single environment for risk identification, and transmitting the acquired action audio data information to a dynamic and static detection module 7 by the audio acquisition module 4;

s2: the method comprises the steps that an action acquisition module 5 is called to acquire user geometric three-dimensional action data information in a single environment for risk identification through a three-axis gyroscope and an acceleration sensor, and the action acquisition module 5 transmits the acquired user geometric three-dimensional action data information to a dynamic and static detection module 7;

s3: calling a user positioning module 3 to acquire user geographical position data under a single environment for risk identification, and transmitting the acquired user geographical position data to a user association module 6 and a dynamic and static detection module 7 by the user positioning module 3;

s4: calling a user association module 6 to carry out relationship on the user under the single environment according to the geographic position data information of the user so as to form an inter-insurance joint guarantee person;

s5: calling a dynamic and static detection module 7 to detect the dynamic and static states of the user in a single environment according to the geographic position data of the user, the user action audio data or the geometric three-dimensional action data, and transmitting the acquired dynamic and static state data of the user to a user reminding module 8 by the dynamic and static detection module 7;

s6: calling a user reminding module 8 to safely remind the user according to the dynamic and static state information of the user; calling a member calling module 9 to contact the mutual insurance contact personnel on the premise that a user reminding module 8 carries out safety reminding on the user without feedback;

s7: the outer edge help seeking module 10 is called to seek help to a preset security or fire department on the premise that the user contacts the mutual protection and joint protection personnel through the member calling module 9 without feedback.

In an embodiment of the risk identification method based on the mobile terminal in the single environment, the risk identification method further includes invoking a risk source acquisition module 11 for the user to correct or add information of a dangerous area in the single environment, where the dangerous area includes a toxic gas leakage area.

In an embodiment of the risk identification method in a single environment based on the mobile terminal, the risk identification method further includes the steps of calling the timing module 12 to time the time of the user in a static state, and when the set time is reached, the user reminding module 8 does not receive action feedback of the user, and then the member calling module 9 actively contacts the mutually-protected joint insurance personnel.

Referring to fig. 3, in an embodiment of a risk identification method in a single environment based on a mobile terminal, the risk identification method includes,

t1: calling a user positioning module 3 to acquire user geographical position data under a single environment for risk identification, and transmitting the acquired user geographical position data to a user association module 6 and a dynamic and static detection module 7 by the user positioning module 3;

t2: calling a user association module 6 to carry out relationship on the user under the single environment according to the geographic position data information of the user so as to form an inter-insurance joint guarantee person;

t3: a line judgment module 13 is called to record the movement line according to the positioning information of the user and judge the optimal routing inspection line of the frequent operation point and the routing inspection point of the user in a single environment;

t4: the habit retrieval module 14 is called to judge the position of the habit of the user in the single environment according to the user line information acquired by the line judgment module 13 and the user position information acquired by the user positioning module 3;

t5: the calling state marking module 15 marks the behavior state of the user according to the position of the user, and the behavior state includes monitoring, resting, routing inspection or operation.

Based on the technical scheme of the invention, WeChat small program software can be developed and applied to mutual-protection and mutual-assistance cooperation among personnel in the same team and the same factory. Such as: after the same chemical plant workers identify each other, accidents such as falling, poisoning and the like are automatically sensed, and alarm reminding is carried out.

The user positioning module 3 acquires positioning information A, and the audio acquisition module 4 acquires audio information B; the action acquisition module 5 acquires information C of the three-axis gyroscope and the acceleration sensor. When the user uses the mobile phone, the user can obtain the stair climbing action according to the motion record of the user, and the stair position can be automatically judged according to the mobile phone positioning information. When the user uses the system in a factory environment, the user can judge information such as frequent operation points, inspection points, optimal inspection lines and the like by operating the movement lines and the frequency.

The habit retrieval module 14 is used for retrieving user habits, and positions such as a rest room, a final control room and the like are located and judged. The user corrects or adds dangerous area information such as toxic gas leakage risk points manually through the dangerous source collecting module 11. The user starts the applet and the user association module 6 identifies nearby people as mutually insured people for the same team based on the location information. And the automatic teams are mutually associated to form an interconnected insurance combined group. Except for a door of a security or fire department, malicious invasion of an account of a foreign person is avoided.

After a user enters a poisoning suffocation risk area, the dynamic and static detection module 7 senses no action after the timing module 12 reaches a certain time, and the user reminding module 8 reminds the group member calling module 9 of automatically contacting the inter-insurance joint protection personnel through sound, flash and vibration reminding. When the person falls down or falls down from high altitude, the person can automatically call for help to protect the associated security personnel.

The state marking module 15 does not act in the final control room for a long time, and marks the user state as 'monitoring in'; the rest area has no action for a long time, and the state of the user is marked as 'in rest'; in a regular specified time period, a user enters a regular inspection line and is marked as 'inspection in'; in the complex control area, when the user performs complicated movements, the user is marked as 'operating in the middle'. These labels can be viewed by the co-insurance staff of the same team.

Based on the group member calling module 9, the voice command 'lifesaving' can be adopted, three sounds are called continuously, and the mutual protection and mutual protection personnel are called directly. And when the mobile terminal is in a screen off state, the mobile phone Morse code SOS (three short and three long or three light) is knocked to directly call for help of the mutual protection joint protection personnel. And can also call for help by one key manually. And after the help calling is triggered by mistake, continuously shaking the mobile terminal or manually sliding to cancel the help calling. When the mutual protection and the protection are invalid, or a plurality of people intensively have the same condition, the safety protection or the fire fighting department which is set in advance is automatically called. The person or department who obtains the demand for calling for help can look over the position information of the person for calling for help, the current operation type, the peripheral image shot by the camera, listen to nearby sounds and the like.

The technical scheme is applied among members of a specific risk team, automatic grouping of the members based on the positioning information is realized, member information data are disclosed, operation steps are simplified, and malicious harassment is avoided. The system is characterized in that the system automatically senses falling and falling at high altitude based on a sensor technology, dangers are associated with inter-protection and inter-protection personnel, or security or fire departments, effective position information and environment information are provided, rescue is convenient to provide, blind operation and password operation are supported by all operations, most of risk conditions are covered, mutual protection and reminding among members in a risk area are completed in a simple, direct and automatic mode, and the life safety of the staff is guaranteed.

Although the invention has been described in detail above with reference to a general description and specific examples, it will be apparent to one skilled in the art that modifications or improvements may be made thereto based on the invention. Accordingly, such modifications and improvements are intended to be within the scope of the invention as claimed.

Claims

1. Risk identification equipment under single environment based on mobile terminal, its characterized in that: the risk identification device comprises a data acquisition unit (1) and a data processing unit (2), wherein a connection relation is established between the data acquisition unit (1) and the data processing unit (2), and the data acquisition unit (1) comprises a user positioning module (3), an audio acquisition module (4) and an action acquisition module (5); the data processing unit (2) comprises a user association module (6), a dynamic and static detection module (7), a user reminding module (8), a member calling module (9) and an outer edge help seeking module (10);

the user positioning module (3) and the user association module (6) establish a data transfer relationship, the audio acquisition module (4) and the dynamic and static detection module (7) establish a data transfer relationship, the action acquisition module (5) and the dynamic and static detection module (7) establish a data transfer relationship, the dynamic and static detection module (7) and the user positioning module (3) establish a data transfer relationship, the user reminding module (8) and the dynamic and static detection module (7) establish a data transfer relationship, the panelist calling module (9) and the user reminding module (8) establish a data transfer relationship, and the outer edge help seeking module (10) and the panelist calling module (9) establish a data transfer relationship;

the user positioning module (3) is used for acquiring user geographical position data in a single environment for risk identification, and the user positioning module (3) transmits the acquired user geographical position data to the user association module (6) and the dynamic and static detection module (7); the audio acquisition module (4) is used for acquiring user action audio data information in a single environment for risk identification, and the audio acquisition module (4) transmits the acquired action audio data information to the dynamic and static detection module (7); the action acquisition module (5) is used for acquiring geometric three-dimensional action data information of the user in a single environment for risk identification through a three-axis gyroscope and an acceleration sensor, and the action acquisition module (5) transmits the acquired geometric three-dimensional action data information of the user to the dynamic and static detection module (7);

the user association module (6) is used for carrying out relationship on the users under the single environment according to the geographic position data information of the users so as to form an inter-insurance joint guarantee personnel; the dynamic and static detection module (7) is used for detecting the dynamic and static states of the user in a single environment according to the geographic position data of the user, the user action audio data or the geometric three-dimensional action data, and the dynamic and static detection module (7) transmits the acquired dynamic and static state data of the user to the user reminding module (8); the user reminding module (8) is used for carrying out safety reminding on the user according to the dynamic and static state information of the user; the member calling module (9) is used for contacting the mutual protection joint insurance personnel on the premise that the user reminding module (8) carries out safety reminding on the user without feedback; the outer edge help seeking module (10) is used for seeking help to a preset security or fire department on the premise that a user contacts the mutual protection joint protection personnel through the member calling module (9) without feedback;

the member calling module 9 adopts a voice command 'lifesaving', continuously calls three sounds, and directly calls for help to mutually protect the joint insurance personnel; when the mobile terminal is in a screen-off state, the mobile phone Morse code SOS is knocked to directly call for help for the mutual protection joint protection personnel;

after the help-calling is triggered by mistake, continuously shaking the mobile terminal or manually sliding to cancel the help-calling; when the mutual protection and protection call for help is invalid or the same condition happens in a plurality of people, a preset security or fire department is automatically called; the person or department who needs to call for help can check the position information of the person who calls for help, the current operation type, the peripheral image shot by the camera and listen to the nearby sound;

the data processing unit (2) further comprises a line judgment module (13), the line judgment module (13) establishes a data transfer relationship with the user positioning module (3), and the line judgment module (13) is used for recording a movement route according to positioning information of a user and judging an optimal routing inspection line of a frequent operation point and a routing inspection point of the user in a single environment;

the data processing unit (2) further comprises a habit retrieval module (14), the habit retrieval module (14) establishes a data transmission relationship with the line judgment module (13) and the user positioning module (3), and the habit retrieval module (14) is used for judging the position of the habit of the user in a single environment according to the user line information acquired by the line judgment module (13) and the user position information acquired by the user positioning module (3);

the habit retrieval module 14 is used for retrieving user habits, and positions of a rest room and a final control room are positioned and judged;

the data processing unit (2) further comprises a state marking module (15), the state marking module (15) establishes a data transmission relation with the habit retrieval module (14) and the user positioning module (3), the state marking module (15) is used for marking the behavior state of the user according to the position of the user, and the behavior state comprises monitoring, rest, routing inspection or operation.

2. The mobile terminal-based risk identification device under single environment according to claim 1, wherein: the data acquisition unit (1) further comprises a dangerous source acquisition module (11), wherein the dangerous source acquisition module (11) is used for correcting or adding dangerous area information under a single environment by a user, and the dangerous area comprises a toxic gas leakage area.

3. The mobile terminal-based risk identification device under single environment according to claim 1, wherein: the data processing unit (2) further comprises a timing module (12), the timing module (12) and the user reminding module (8) establish a data transmission relation, the timing module (12) is used for timing the time of the user in a static state, and when the set time is reached, the user reminding module (8) does not receive action feedback of the user, the member calling module (9) actively contacts with the mutual protection joint insurance personnel.

4. A risk identification method based on a mobile terminal under a single environment, wherein the risk identification method adopts the risk identification device of any one of claims 1 to 3, and is characterized in that: the risk identification method comprises the following steps:

calling an audio acquisition module (4) to acquire user action audio data information under a single environment for risk identification, and transmitting the acquired action audio data information to a dynamic and static detection module (7) by the audio acquisition module (4);

calling an action acquisition module (5) to acquire user geometric three-dimensional action data information under a single environment for risk identification through a three-axis gyroscope and an acceleration sensor, and transmitting the acquired user geometric three-dimensional action data information to a dynamic and static detection module (7) by the action acquisition module (5);

calling a user positioning module (3) to acquire user geographical position data under a single environment for risk identification, and transmitting the acquired user geographical position data to a user association module (6) and a dynamic and static detection module (7) by the user positioning module (3);

calling a user association module (6) to carry out relationship on the user under the single environment according to the geographic position data information of the user so as to form an inter-insurance joint guarantee person;

calling a dynamic and static detection module (7) to detect the dynamic and static states of the user in a single environment according to the geographic position data of the user, the audio data of the user action or the geometric three-dimensional action data, and transmitting the acquired dynamic and static state data of the user to a user reminding module (8) by the dynamic and static detection module (7);

calling a user reminding module (8) to safely remind the user according to the dynamic and static state information of the user; calling a member calling module (9) to contact the mutual insurance joint guarantee personnel on the premise that a user reminding module (8) carries out safety reminding on the user without feedback;

calling an outer edge help seeking module (10) to seek help to a preset security or fire department on the premise that a user contacts an inter-protection joint protection personnel through a member calling module (9) without feedback;

the risk identification method may further comprise,

a line judgment module (13) is called to record the movement route according to the positioning information of the user and judge the optimal routing inspection line of the frequent operation point and the routing inspection point of the user in a single environment;

calling a habit retrieval module (14) to judge the position of the habit of the user in a single environment according to the user line information acquired by the line judgment module (13) and the user position information acquired by the user positioning module (3);

a calling state marking module (15) marks the behavior state of the user according to the position of the user, wherein the behavior state comprises monitoring, rest, routing inspection or operation;

after the help-calling is triggered by mistake, continuously shaking the mobile terminal or manually sliding to cancel the help-calling; when the mutual protection and protection call for help is invalid or the same condition happens in a plurality of people, a preset security or fire department is automatically called; the person or department who obtains the demand for calling for help can look over the position information of the person for calling for help, the current operation type, the peripheral image shot by the camera and listen to the nearby sound.

5. The method for identifying risks in a single environment based on a mobile terminal according to claim 4, wherein the method comprises: the risk identification method further comprises the step of calling a risk source acquisition module (11) for a user to correct or add information of the dangerous area under the single environment, wherein the dangerous area comprises a toxic gas leakage area.

6. The method for identifying risks in a single environment based on a mobile terminal according to claim 4, wherein the method comprises: the risk identification method further comprises the steps of calling a timing module (12) to time the time of the user in a static state, and when the set time is reached, a user reminding module (8) does not receive action feedback of the user, and then a member calling module (9) actively contacts with the mutual insurance joint guarantee personnel.