CN110557501A - risk identification rescue method and system based on coordination of smart watch and smart phone - Google Patents

Abstract

the risk identification rescue method and system based on the coordination of the smart watch and the smart phone are characterized in that a data acquisition component acquires positioning information data and heart rate information data of a field operation user; the data processing component judges whether the field operation user has poisoning, fainting and falling conditions; the data encryption component encrypts and isolates the acquired data; the data transmission component transmits the encrypted data to the mobile phone end; the management user invites the field operation user and the supervision user to form a community space through the invitation component; the data decryption component decrypts the received data; the risk early warning component is used for triggering a risk alarm by a field operation user, a management user or a supervision user, and the field operation user withdraws according to the risk alarm; and the equipment control component is used for shutting down the field operation equipment according to a preset instruction after the risk early warning component triggers a risk alarm. The intelligent identification and interactive rescue of the working staff in the industrial toxic environment are realized, and the limit of privacy disclosure risk examination is avoided.

Description

risk identification rescue method and system based on coordination of smart watch and smart phone

Technical Field

the embodiment of the invention relates to the technical field of high-risk operation, in particular to a risk identification rescue method and system based on coordination of a smart watch and a smart phone.

Background

At present, in a single environment, such as a certain factory or a team, personnel are generally mutually independent and cannot perform mutual-protection and mutual-assistance cooperation, especially, after a certain employee falls down or is poisoned and other accidents happen among the same staff in the same chemical factory, other employees or managers cannot timely find and cooperate, sometimes collective poisoning and other accidents can also happen, risks cannot be timely identified in the single environment, and great production risks and potential safety hazards exist.

Therefore, the applicant develops and declares a technical scheme for risk identification in a single environment based on a mobile terminal in the future so as to identify the falling risk through a mobile phone carried by each employee in an industrial risk scene, and after the risk is identified, the risk is positioned and sent to a manager, and the manager transmits an instruction through the mobile phone or provides rescue through mobile phone positioning.

in the subsequent research and development process, the applicant finds that the group sharing after the mobile phone positioning is adopted relates to the safety problems of position leakage and the like, so that software developed based on the corresponding technical scheme is difficult to pass position privacy examination, and the popularization of the software is influenced. The existing mobile phone positioning has the following defects: due to the position privacy examination, the mobile phone cannot deeply exchange positioning information. Namely: the location of the a handset can be temporarily shared with the B handset user, but not for a long time. Meanwhile, it is impossible for a mobile phone user a to simultaneously inquire multiple mobile phone positions such as BCDE (i.e. group positioning is not allowed).

Although in practice there is a large amount of location class software, it is nevertheless considered to be a security risk. Because of the security risk of the positioning software, the positioning software cannot be disclosed as general software in a software store, which ultimately results in the limitation of the prior art solutions in practical popularization and application.

The existing positioning watch allows the positioning transmission function to be realized. But the positioning information of the positioning watch only allows one-way data transmission and cannot realize the function of interactive communication. Such as: the watches S1, S2, S3 and S4 of 4 students can simultaneously transmit data to the executive Z, but the 4 students S1, S2, S3 and S4 cannot mutually communicate.

In certain situations where the risk is extremely high, such as in a hazardous industrial work environment, there is a strong mutual insurance responsibility among each employee. In this particular situation, it is extremely important that the information between the employees is smoothly communicated. Therefore, a new technical scheme is urgently needed, so that the user can transmit the risks and difficulties of the environment where the user is located to other people in real time, and mutual aid under the risks is realized.

disclosure of Invention

Therefore, the risk identification rescue method and system based on coordination of the smart watch and the smart phone are provided by the embodiment of the invention, through cooperation of the smart watch and the smart phone, intelligent identification and interactive rescue of job workers in an industrial toxic environment are realized, the problem of positioning privacy leakage is not involved while data transmission is completed, and corresponding software popularization is not limited by privacy leakage risk review.

In order to achieve the above object, the embodiments of the present invention provide the following technical solutions: the risk identification rescue system based on the coordination of the smart watch and the smart phone comprises a watch end and a mobile phone end, wherein the watch end is used for being configured for a field operation user, and the mobile phone end is used for being configured for the field operation user, a management user and a supervision user; the watch end is provided with a data acquisition component, a data processing component, an alarm component, a data encryption component and a data transmission component; the mobile phone end is provided with an invitation component, a data decryption component, a display component, a risk early warning component and an equipment control component;

The data acquisition assembly is used for acquiring positioning information data and heart rate information data of a field operation user;

The data processing component is used for judging whether the field operation user has poisoning, fainting and falling conditions according to the positioning information data and the heart rate information data;

the alarm assembly is used for giving an alarm when a poisoning, faint or falling condition occurs to a user in field operation;

the data encryption component is used for encrypting and isolating the collected positioning information data, the heart rate information data or the alarm data;

the data transmission component is used for transmitting the encrypted positioning information data, the encrypted heart rate information data or the encrypted alarm data to the mobile phone end;

The invitation component is used for the management user to invite the field operation user and the supervision user to form a community space;

the data decryption component is used for decrypting the received positioning information data, the received heart rate information data or the received alarm data;

The display component is used for displaying the positioning information data and the heart rate information data of the field operation users in real time through the community space;

The risk early warning component is used for triggering a risk alarm by a field operation user, a management user or a supervision user, and the field operation user withdraws according to the risk alarm;

the equipment control assembly is used for shutting down the field operation equipment according to a preset instruction after the risk early warning assembly triggers a risk alarm.

As a preferred scheme of a risk identification rescue system based on coordination of a smart watch and a smart phone, the alarm component comprises an automatic alarm unit; the automatic alarm unit is used for the data processing assembly to judge whether the field operation user is in a poisoning, faint or falling state to automatically alarm.

as an optimal scheme of a risk identification rescue system based on coordination of a smart watch and a smart phone, the alarm assembly further comprises a voice alarm unit, a Morse password alarm unit and a key alarm unit;

The voice alarm unit calls for help through a voice password under the condition that a field operation user cannot move;

The Morse password alarm unit is used for calling for help by knocking the Morse password under the condition that a field operation user cannot speak;

The key alarm unit is used for a field operation user to call for help by one key through an entity key or an interface key.

As a preferred scheme of the risk identification rescue system based on coordination of the smart watch and the smart phone, the alarm assembly further comprises an alarm canceling unit, and the alarm canceling unit is used for manually canceling the call for help after the call for help is triggered by mistake.

As a preferable scheme of the risk identification rescue system based on coordination of the smart watch and the smart phone, the display component is further used for displaying the field monitoring value and the operation condition of the field operation equipment in real time through the community space.

the embodiment of the invention also provides a risk identification and rescue method based on the coordination of the smart watch and the smart phone, which comprises the following steps:

The watch end collects positioning information data and heart rate information data of a field operation user, judges whether the field operation user has poisoning, fainting or falling conditions according to the positioning information data and the heart rate information data, and automatically gives an alarm when the field operation user is judged to have the poisoning, fainting or falling conditions;

encrypting and isolating the collected positioning information data, heart rate information data or alarm data, and transmitting the encrypted positioning information data, heart rate information data or alarm data to a mobile phone terminal;

the mobile phone terminal decrypts the received positioning information data, heart rate information data or alarm data, the management user invites the field operation user and the supervision user to form a community space in advance, and the positioning information data, the heart rate information data, the field monitoring value and the running condition of the field operation equipment of the field operation user are displayed in real time through the community space;

When a risk alarm is triggered by a field operation user, a management user or a supervision user, the field operation user withdraws according to the risk alarm, and after the risk alarm is triggered, the field operation equipment is shut down according to a preset instruction.

The method comprises the steps of as a preferred scheme of a risk identification rescue method based on coordination of a smart watch and a smart phone, pre-defining a high-altitude area, acquiring geographic position coordinates of the high-altitude area, and judging that a falling condition of a field worker occurs when the positioning of the field worker is in the geographic position coordinate range of the high-altitude area and heart rate data is suddenly increased to a preset value.

The method comprises the steps of as a preferred scheme of a risk identification rescue method based on coordination of a smart watch and a smart phone, pre-defining a stair area, obtaining geographic position coordinates of the stair area, and judging that a falling condition of a field worker occurs when the field worker is located in the geographic position coordinate range of the stair area and heart rate data is suddenly increased to a preset value.

the method comprises the steps of as a preferred scheme of a risk identification rescue method based on coordination of a smart watch and a smart phone, pre-defining a high-toxicity area, acquiring geographic position coordinates of the high-toxicity area, and judging that a poisoning or faint condition occurs to a field operator when the positioning of the field operator is in the geographic position coordinate range of the high-toxicity area and heart rate data suddenly reduces to a preset value or disappears.

as an optimal scheme of a risk identification and rescue method based on coordination of a smart watch and a smart phone, a live working user calls for help through a voice password under the condition that the live working user cannot move; the user can not call for help by knocking the Morse password in case of field operation; the field operation user calls for help by one key through the entity key or the interface key; and after the distress call is triggered by mistake, the distress call is cancelled manually.

In the embodiment of the invention, a watch end is configured to a field operation user, and a mobile phone end is configured to the field operation user, a management user and a supervision user; the watch end is provided with a data acquisition component, a data processing component, an alarm component, a data encryption component and a data transmission component; the mobile phone end is provided with an invitation component, a data decryption component, a display component, a risk early warning component and an equipment control component; the data acquisition component acquires positioning information data and heart rate information data of a field operation user; the data processing component judges whether the field operation user has poisoning, fainting and falling conditions according to the positioning information data and the heart rate information data; the alarm component gives an alarm when a user performs poisoning, fainting or falling in field operation; the data encryption component encrypts and isolates the collected positioning information data, the collected heart rate information data or the collected alarm data; the data transmission component transmits the encrypted positioning information data, the encrypted heart rate information data or the encrypted alarm data to the mobile phone terminal; the management user invites the field operation user and the supervision user to form a community space through the invitation component; the data decryption component decrypts the received positioning information data, the received heart rate information data or the received alarm data; the display component displays the positioning information data and the heart rate information data of the field operation user in real time through a community space; the risk early warning component is used for triggering a risk alarm by a field operation user, a management user or a supervision user, and the field operation user withdraws according to the risk alarm; and the equipment control component is used for shutting down the field operation equipment according to a preset instruction after the risk early warning component triggers a risk alarm. The traditional technical scheme does not use a portable electronic device as a risk identification tool, the portable mobile phone and the portable watch are used as risk judgment carriers in the technical scheme, the environmental risk is automatically monitored, mutual protection and reminding among members in a risk area are completed in a simple, direct and automatic mode, meanwhile, through cooperation of the intelligent watch and the intelligent mobile phone, intelligent identification and interactive rescue of operation workers in an industrial toxic environment are achieved, the problem of positioning privacy leakage is not involved when data transmission is completed, and corresponding software popularization is not limited by privacy disclosure risk review.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below. It should be apparent that the drawings in the following description are merely exemplary, and that other embodiments can be derived from the drawings provided by those of ordinary skill in the art without inventive effort.

Fig. 1 is a schematic diagram of a risk identification and rescue system based on coordination of a smart watch and a smart phone according to an embodiment of the present invention;

fig. 2 is a schematic diagram of a risk identification rescue method based on coordination of a smart watch and a smart phone according to an embodiment of the present invention;

Fig. 3 is a diagram of a risk identification rescue technology based on coordination of a smart watch and a smart phone according to an embodiment of the present invention.

Detailed Description

the present invention is described in terms of particular embodiments, other advantages and features of the invention will become apparent to those skilled in the art from the following disclosure, and it is to be understood that the described embodiments are merely exemplary of the invention and that it is not intended to limit the invention to the particular embodiments disclosed. All other embodiments, which can be derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

referring to fig. 1, a risk identification rescue system based on coordination of a smart watch and a smart phone is provided, and the risk identification rescue system comprises a watch end 1 and a phone end 2, wherein the watch end 1 is configured for a field operation user, and the phone end 2 is configured for the field operation user, a management user and a supervision user.

The watch end 1 is provided with a data acquisition component 3, a data processing component 4, an alarm component 5, a data encryption component 6 and a data transmission component 7. The data acquisition assembly 3 is used for acquiring positioning information data and heart rate information data of field operation users. The data processing component 4 is used for judging whether the field operation user has poisoning, faint and falling conditions according to the positioning information data and the heart rate information data. The alarm assembly 5 is used for giving an alarm when a poisoning, faint or falling condition occurs to a field operation user. The data encryption component 6 is used for encrypting and isolating the collected positioning information data, the heart rate information data or the alarm data. The data transmission component 7 is used for transmitting the encrypted positioning information data, the encrypted heart rate information data or the encrypted alarm data to the mobile phone end 2;

The mobile phone end 2 is provided with an invitation component 8, a data decryption component 9, a display component 10, a risk early warning component 11 and an equipment control component 12. The invitation component 8 is used for the management user to invite the field operation user and the supervision user to form a community space. The data decryption component 9 is used for decrypting the received positioning information data, the received heart rate information data or the received alarm data. The display component 10 is used for displaying the positioning information data and the heart rate information data of the field operation users in real time through the community space. The risk early warning component 11 is used for triggering a risk alarm by a field operation user, a management user or a supervision user, and the field operation user withdraws according to the risk alarm. The equipment control component 12 is used for shutting down the field operation equipment according to a preset instruction after the risk early warning component 11 triggers a risk alarm.

in one embodiment of the risk identification rescue system based on the coordination of a smart watch and a smart phone, the alarm assembly 5 comprises an automatic alarm unit 13; the automatic alarm unit 13 is used for the data processing component 4 to judge whether the field operation user is in a poisoning, faint or falling state to automatically alarm. The method has the advantages that the alarm operation can not be carried out when the on-site operation user is in extremely dangerous conditions such as poisoning, fainting or falling, and once the on-site operation user is judged to be poisoned, fainting or falling, the automatic alarm is carried out, so that the on-site operation user who is in danger can be rescued by other on-site operation users, management users or supervision users in the fastest time.

Specifically, the principle for judging the extremely dangerous situations such as poisoning, falling or the like of a field operation user is that a high-altitude area is defined in advance, the geographic position coordinates of the high-altitude area are obtained, and when the positioning of a field operation person is in the geographic position coordinate range of the high-altitude area and the heart rate data is suddenly increased to a preset value, the falling situation of the field operation person is judged. The method comprises the steps of pre-defining a stair area, obtaining the geographic position coordinates of the stair area, and judging that the field operation personnel has a falling condition when the positioning of the field operation personnel is in the geographic position coordinate range of the stair area and the heart rate data is suddenly increased to a preset value. The method comprises the steps of defining a high-toxicity area in advance, obtaining the geographic position coordinates of the high-toxicity area, and judging that the field operation personnel is poisoned or in a faint state when the positioning of the field operation personnel is in the geographic position coordinate range of the high-toxicity area and the heart rate data is suddenly reduced to a preset value or disappears.

in an embodiment of the risk identification rescue system based on coordination of the smart watch and the smart phone, the alarm assembly 5 further includes a voice alarm unit 14, a moss cipher alarm unit 15, and a key alarm unit 16. The voice alarm unit 14 calls for help through the voice password when the field operation user cannot move, for example, the voice alarm unit 14 calls for help when the field operation user cannot move, and the password is identified as help. The Morse password alarm unit 15 is used for calling for help by tapping the Morse password under the condition that a field operation user can not speak, and directly calling for help by tapping the mobile phone Morse password SOS (three short, three long or three light) under the condition that the field operation user can not speak. The key alarm unit 16 is used for the field operation user to call for help by one key through the entity key or the interface key. When calling for help, can adopt location, sound, light, shake to guide, and the back is sent out in the call for help, and the spot operation user's cell-phone end 2 conveys the locating information to other members of team, and wrist-watch end 1 guides team personnel to salvage through sound, flash of light, vibration simultaneously.

In an embodiment of the risk identification rescue system based on coordination of the smart watch and the smart phone, the alarm assembly 5 further comprises an alarm canceling unit 17, and the alarm canceling unit 17 is configured to manually cancel the distress call after the distress call is triggered by mistake. After the emergency call is triggered by mistake, the emergency call can be manually cancelled within a few seconds, and after the preset time period is exceeded, the alarm cannot be cancelled, so that the safety of field operation users is ensured to the maximum extent.

in an embodiment of the risk identification rescue system based on coordination of the smart watch and the smart phone, the display component 10 is further configured to display the field monitoring value and the operation condition of the field operation device in real time through the community space.

Referring to fig. 2 and 3, an embodiment of the present invention further provides a risk identification rescue method based on coordination between a smart watch and a smart phone, including the following steps:

S1: the watch end 1 collects positioning information data and heart rate information data of a field operation user, judges whether the field operation user has poisoning, fainting or falling conditions according to the positioning information data and the heart rate information data, and automatically gives an alarm when the field operation user is judged to have the poisoning, fainting or falling conditions;

S2: encrypting and isolating the collected positioning information data, heart rate information data or alarm data, and transmitting the encrypted positioning information data, heart rate information data or alarm data to the mobile phone end 2;

S3: the mobile phone end 2 decrypts the received positioning information data, heart rate information data or alarm data, the management user invites the field operation user and the supervision user to form a community space in advance, and the positioning information data, the heart rate information data, the field monitoring value and the operation condition of the field operation equipment of the field operation user are displayed in real time through the community space;

S4: when a risk alarm is triggered by a field operation user, a management user or a supervision user, the field operation user withdraws according to the risk alarm, and after the risk alarm is triggered, the field operation equipment is shut down according to a preset instruction.

in one embodiment of a risk identification rescue method based on coordination of a smart watch and a smart phone, a high-altitude area is defined in advance, geographic position coordinates of the high-altitude area are obtained, and when the positioning of a field worker is in the geographic position coordinate range of the high-altitude area and heart rate data is suddenly increased to a preset value, the falling condition of the field worker is judged.

In one embodiment of a risk identification rescue method based on coordination of a smart watch and a smart phone, a stair area is defined in advance, geographic position coordinates of the stair area are obtained, and when the location of a field worker is within the geographic position coordinate range of the stair area and heart rate data is suddenly increased to a preset value, the situation that the field worker falls is judged.

In one embodiment of a risk identification rescue method based on coordination of a smart watch and a smart phone, a high-toxicity area is defined in advance, geographical position coordinates of the high-toxicity area are obtained, and when the positioning of a field operator is located in the geographical position coordinate range of the high-toxicity area and heart rate data suddenly drops to a preset value or disappears, it is determined that the field operator is poisoned or in a faint state.

in one embodiment of the risk identification and rescue method based on the coordination of the smart watch and the smart phone, a live working user calls for help through a voice password under the condition that the live working user cannot move; the user can not call for help by knocking the Morse password in case of field operation; the field operation user calls for help by one key through the entity key or the interface key; and after the distress call is triggered by mistake, the distress call is cancelled manually.

In one embodiment of a risk identification rescue method based on coordination of a smart watch and a smart phone, mobile risk identification software H is developed for a watch end 1, mobile risk identification software Q is developed for a mobile phone end 2, and the software H and the software Q are two independent pieces of software in order to cooperate with privacy disclosure review. The field operation user carries the positioning watch S and the smart phone P at the same time. The smart phone P of the field operation user only needs to install the risk identification software Q. And managing the mobile control terminal of the user T, and simultaneously installing the software H and the software Q. And the management user T accesses the positioning data and the heart rate data into the risk identification software Q at the control end of the management user T.

in some specific environments, the software H and the software Q are respectively installed at two different mobile equipment ends for operation, data are transmitted through Bluetooth, and the two pieces of software are kept isolated from each other. The software H and the software Q are respectively installed at two different mobile equipment ends to operate, the data at the H end is identified through the camera at the Q end, the single item transmission of the data is completed, and the mutual isolation of the two pieces of software is kept.

Specifically, the mobile risk identification software H may refer to the mobile phone terminal 2 child watch management terminal software, and is mainly installed in the mobile control mobile phone terminal 2 of the management user T. Has the following functions: collecting positioning information of a plurality of positioning watches S; collecting health monitoring information of a plurality of positioning watches S, wherein the health monitoring information comprises monitoring of 'whether heart rate is normal', 'falling, throwing' and 'poisoning or fainting'; alarm information of a plurality of positioning watches S is collected. Comprises a one-key distress call, a distress password alarm and a Morse password alarm. And carrying out encryption isolation processing on the collected information. The encrypted data is transmitted to the software Q.

Specifically, the software Q may refer to a wechat group and is mainly installed on the mobile phone of each field operation user. Has the following functions: and the management user T installs software Q at the mobile control end to serve as a control center. The administrative user invites the field job users P1, P2, and P3. And displaying various types of information in real time in the community space of the software Q, wherein the displaying comprises the following steps: the location information and physical condition of the field operation user, the numerical value of each field monitoring and the operation condition of each field operation device. Anyone in the community can manually trigger a risk alarm according to the field situation. And after the risk alarm is triggered, the field equipment is shut down according to a design instruction, and the field operation user receives the evacuation alarm and sends an evacuation instruction. And analyzing the encrypted data of the software H into the software Q, and presenting the state of the field operation user S in real time. And the alarm data of the software Q is transmitted to the software H, and the positioning watch S also triggers risk alarm and guides field operation users to evacuate.

in the embodiment of the invention, a watch end 1 is configured for a field operation user, and a mobile phone end 2 is configured for the field operation user, a management user and a supervision user; the watch end 1 is provided with a data acquisition component 3, a data processing component 4, an alarm component 5, a data encryption component 6 and a data transmission component 7; the mobile phone end 2 is provided with an invitation component 8, a data decryption component 9, a display component 10, a risk early warning component 11 and an equipment control component 12; the data acquisition component 3 acquires positioning information data and heart rate information data of a field operation user; the data processing component 4 judges whether the field operation user has poisoning, faint and falling conditions according to the positioning information data and the heart rate information data; the alarm component 5 gives an alarm when a poisoning, faint or falling condition occurs to a field operation user; the data encryption component 6 encrypts and isolates the collected positioning information data, the collected heart rate information data or the collected alarm data; the data transmission component 7 transmits the encrypted positioning information data, heart rate information data or alarm data to the mobile phone end 2; the management user invites the field operation user and the supervision user to form a community space through the invitation component 8; the data decryption component 9 decrypts the received positioning information data, the received heart rate information data or the received alarm data; the display component 10 displays the positioning information data and the heart rate information data of the field operation user in real time through a community space; the risk early warning component 11 is used for triggering risk alarms by field operation users, management users or supervision users, and the field operation users evacuate according to the risk alarms; the equipment control component 12 is used for shutting down the field operation equipment according to a preset instruction after the risk early warning component 11 triggers a risk alarm. The traditional technical scheme does not use a portable electronic device as a risk identification tool, the portable mobile phone and the portable watch are used as risk judgment carriers in the technical scheme, the environmental risk is automatically monitored, mutual protection and reminding among members in a risk area are completed in a simple, direct and automatic mode, meanwhile, through cooperation of the intelligent watch and the intelligent mobile phone, intelligent identification and interactive rescue of operation workers in an industrial toxic environment are achieved, the problem of positioning privacy leakage is not involved when data transmission is completed, and corresponding software popularization is not limited by privacy disclosure risk review.

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 (10)

1. The risk identification rescue system based on the coordination of the smart watch and the smart phone is characterized by comprising a watch end and a mobile phone end, wherein the watch end is configured for a field operation user, and the mobile phone end is configured for the field operation user, a management user and a supervision user; the watch end is provided with a data acquisition component, a data processing component, an alarm component, a data encryption component and a data transmission component; the mobile phone end is provided with an invitation component, a data decryption component, a display component, a risk early warning component and an equipment control component;

the data acquisition assembly is used for acquiring positioning information data and heart rate information data of a field operation user;

The data processing component is used for judging whether the field operation user has poisoning, fainting and falling conditions according to the positioning information data and the heart rate information data;

the alarm assembly is used for giving an alarm when a poisoning, faint or falling condition occurs to a user in field operation;

The data encryption component is used for encrypting and isolating the collected positioning information data, the heart rate information data or the alarm data;

The data transmission component is used for transmitting the encrypted positioning information data, the encrypted heart rate information data or the encrypted alarm data to the mobile phone end;

The invitation component is used for the management user to invite the field operation user and the supervision user to form a community space;

the data decryption component is used for decrypting the received positioning information data, the received heart rate information data or the received alarm data;

the display component is used for displaying the positioning information data and the heart rate information data of the field operation users in real time through the community space;

The risk early warning component is used for triggering a risk alarm by a field operation user, a management user or a supervision user, and the field operation user withdraws according to the risk alarm;

the equipment control assembly is used for shutting down the field operation equipment according to a preset instruction after the risk early warning assembly triggers a risk alarm.

2. The smart-watch and smart-phone coordination based risk identification rescue system of claim 1, wherein the alarm component comprises an automatic alarm unit; the automatic alarm unit is used for the data processing assembly to judge whether the field operation user is in a poisoning, faint or falling state to automatically alarm.

3. The risk identification and rescue system based on smart watch and smart phone coordination according to claim 2, wherein the alarm assembly further comprises a voice alarm unit, a Morse password alarm unit and a key alarm unit;

The voice alarm unit calls for help through a voice password under the condition that a field operation user cannot move;

The Morse password alarm unit is used for calling for help by knocking the Morse password under the condition that a field operation user cannot speak;

The key alarm unit is used for a field operation user to call for help by one key through an entity key or an interface key.

4. the risk identification rescue system based on smart watch and smart phone coordination according to claim 3, wherein the alarm assembly further comprises an alarm cancellation unit for manually cancelling the distress call after the distress call is falsely triggered.

5. the risk identification and rescue system based on smart watch and smart phone coordination according to claim 1, wherein the display component is further configured to display the operation conditions of the field monitoring values and the field operation devices in real time through the community space.

6. risk identification and rescue method based on coordination of smart watch and smart phone is characterized by comprising the following steps:

The watch end collects positioning information data and heart rate information data of a field operation user, judges whether the field operation user has poisoning, fainting or falling conditions according to the positioning information data and the heart rate information data, and automatically gives an alarm when the field operation user is judged to have the poisoning, fainting or falling conditions;

encrypting and isolating the collected positioning information data, heart rate information data or alarm data, and transmitting the encrypted positioning information data, heart rate information data or alarm data to a mobile phone terminal;

The mobile phone terminal decrypts the received positioning information data, heart rate information data or alarm data, the management user invites the field operation user and the supervision user to form a community space in advance, and the positioning information data, the heart rate information data, the field monitoring value and the running condition of the field operation equipment of the field operation user are displayed in real time through the community space;

when a risk alarm is triggered by a field operation user, a management user or a supervision user, the field operation user withdraws according to the risk alarm, and after the risk alarm is triggered, the field operation equipment is shut down according to a preset instruction.

7. the risk identification and rescue method based on coordination of the smart watch and the smart phone according to claim 6, characterized in that an overhead area is pre-defined, geographical position coordinates of the overhead area are obtained, and when the location of a field worker is within the geographical position coordinate range of the overhead area and the heart rate data suddenly increases to a preset value, it is determined that the field worker is in a falling condition.

8. The risk identification and rescue method based on coordination of the smart watch and the smart phone according to claim 6, characterized in that a stair area is defined in advance, the geographical position coordinates of the stair area are obtained, and when the location of a field worker is within the geographical position coordinate range of the stair area and the heart rate data suddenly increases to a preset value, it is determined that the field worker has a falling condition.

9. The risk identification and rescue method based on coordination of the smart watch and the smart phone according to claim 6, characterized in that a high-toxicity area is defined in advance, geographical position coordinates of the high-toxicity area are obtained, and when the positioning of a field worker is within the geographical position coordinate range of the high-toxicity area and the heart rate data suddenly drops to a preset value or disappears, it is determined that the field worker is in a poisoning or stupor condition.

10. The risk identification and rescue method based on the coordination of the smart watch and the smart phone according to claim 6, characterized in that a live working user calls for help through a voice password under the condition that the live working user cannot move; the user can not call for help by knocking the Morse password in case of field operation; the field operation user calls for help by one key through the entity key or the interface key; and after the distress call is triggered by mistake, the distress call is cancelled manually.