CN111905297A - Safety management system and method for high-altitude operation - Google Patents

Abstract

The embodiment of the invention provides a high-altitude operation safety management system and a method thereof, wherein the system comprises: the intelligent wearable equipment and the alarm information management module; the intelligent wearable equipment is used for detecting the high-altitude operation non-standard information, and when the high-altitude operation non-standard information is detected, the intelligent wearable equipment sends alarm information and sends the alarm information to the alarm information management module; and the alarm information management module is used for generating an alarm solution plan according to the alarm information after receiving the alarm information. Through the intelligent wearable device and the alarm information management module, alarm prompt can be performed on irregular operation and on-site emergency situations of the operators, on one hand, behavior of the operators can be standardized, and the operators can be reminded to correct the behavior; on the other hand, the system can enable managers to know the field situation in time, assist in handling or carry out treatment at the first time, protect the personal safety of operating personnel and effectively optimize the overhead working management.

Description

Safety management system and method for high-altitude operation

Technical Field

The invention relates to the technical field of information processing, in particular to a high-altitude operation safety management system and method.

Background

The prevention of high-altitude falling accidents is the key and difficult point in high-altitude operation safety management, and because individual operators have unsafe psychology of luck or paralysis, safety belts are not used in a standard way, and safety management personnel are difficult to monitor each operator in place, the high-altitude falling accidents are difficult to eradicate and improve.

Moreover, when there are many project points and the operators at the project points are scattered, the managers cannot acquire the site conditions in time, and once the operators have a falling accident, the operators are likely to fail to perform the rescue work in time, so that the personal safety of the operators cannot be effectively guaranteed. Therefore, the high-altitude operation management needs to be optimized urgently, and scientific and informatization management means are urgently needed for the high-altitude operation.

Disclosure of Invention

Embodiments of the present invention provide a system and a method for safety management of aerial work, so as to solve the technical problems mentioned in the above background art, or at least partially solve the technical problems mentioned in the above background art.

In a first aspect, an embodiment of the present invention provides an aerial work safety management system, including:

the intelligent wearable device and the alarm information management module;

the intelligent wearable equipment is used for detecting the high-altitude operation non-standard information, and when the high-altitude operation non-standard information is detected, the intelligent wearable equipment sends alarm information and sends the alarm information to the alarm information management module;

and the alarm information management module is used for generating an alarm solution plan according to the alarm information after receiving the alarm information.

More specifically, the intelligent wearable device specifically includes: the portable controller, the safety belt, the intelligent hook, the intelligent D ring, the portable controller and the intelligent D ring are respectively arranged at the rear part of the safety belt, and the intelligent hook is connected with the safety belt through the intelligent D ring;

the intelligent D ring is used for detecting the wearing tightness information of the safety belt, and sending out non-standard wearing alarm information when the wearing tightness of the safety belt is unqualified;

the portable controller is used for detecting the current operation height and the falling speed, and when the current operation height is higher than the preset altitude and the falling speed is higher than the preset falling speed, falling alarm information is sent;

wherein, intelligence couple is used for continuously carrying out the unhook and detects, when intelligence couple detects the unhook condition, sends out unhook alarm information.

More specifically, the system further comprises: the mobile networking equipment is in communication connection with the intelligent wearable equipment and the alarm information management module respectively;

the mobile networking equipment consists of a main route and a plurality of mobile networking devices distributed on an operation site, wherein the main route is used for being connected with an external network and used as a WIFI AP (wireless fidelity) to send wireless network signals, and the mobile networking devices are interconnected through a wireless network;

the mobile networking equipment is further used for detecting field environment information and sending the field environment information to the alarm information management module, so that the alarm information management module can generate environment alarm information according to the field environment information.

More specifically, the system further comprises: a historical data tracing module;

the historical data tracing module is used for storing the alarm information received by the alarm information management module and an alarm solution plan generated according to the alarm information.

The system further comprises an alarm information management module for:

and analyzing the alarm information stored by the historical data tracing module, generating intelligent early warning information, and sending the intelligent early warning information to the intelligent wearable equipment.

More specifically, the system further comprises: an operation plan management module for managing the operation plan,

the operation plan management module is used for displaying operation plan information and sending the operation plan information to a field controller so that the field controller can distribute the intelligent wearable equipment according to the operation plan information;

wherein the job plan information includes: information of the high-altitude operation personnel, intelligent wearable equipment used by the high-altitude operation personnel, an operation place and an operation scene.

The intelligent wearable device further comprises: a smart head camera; the intelligent head-mounted camera is in communication connection with the mobile networking equipment;

the intelligent head-mounted camera is used for acquiring screen information and screen communication of an operation site.

More specifically, the system further comprises: an intelligent monitoring management module;

the intelligent monitoring management module is used for displaying the operation site screen information acquired by the intelligent head-mounted camera;

the intelligent monitoring management module is used for carrying out screen-viewing conversation with the intelligent wearable equipment.

In a second aspect, an embodiment of the present invention provides an aerial work safety management method based on the aerial work safety management system in the first aspect, including:

detecting the high-altitude operation non-standard information through the intelligent wearable equipment, and sending alarm information when detecting the high-altitude operation non-standard information;

and generating an alarm solution plan according to the alarm information.

According to the aerial work safety management system and method provided by the embodiment of the invention, through the intelligent wearable device and the alarm information management module, alarm prompt can be carried out on the nonstandard operation and the field emergency situation of the operator, on one hand, the behavior of the operator can be standardized, and the operator can be reminded to correct the behavior; on the other hand, the system can enable managers to know the field situation in time, assist in handling or carry out treatment at the first time, protect the personal safety of operating personnel and effectively optimize the overhead working management.

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, and it is obvious that the drawings in the following description are some embodiments of the present invention, and those skilled in the art can also obtain other drawings according to the drawings without creative efforts.

FIG. 1 is a schematic diagram of an aerial work safety management system according to an embodiment of the present invention;

fig. 2 is a flow chart illustrating a control process of the aerial work safety management system according to an embodiment of the present invention;

fig. 3 is a flowchart of a safety management method for high altitude construction according to an embodiment of the present invention.

Detailed Description

In order to make the objects, technical solutions and advantages of the embodiments of the present invention clearer, the technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, but not all, embodiments of the present invention. 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.

Fig. 1 is a schematic structural diagram of an aerial work safety management system according to an embodiment of the present invention, as shown in fig. 1, including: the intelligent wearable device 110 and the alarm information management module 120;

the intelligent wearable device 110 is configured to detect the high-altitude operation non-specification information, and when the high-altitude operation non-specification information is detected, the intelligent wearable device sends alarm information and sends the alarm information to the alarm information management module 120;

the alarm information management module 120 is configured to generate an alarm solution plan according to the alarm information after receiving the alarm information.

Specifically, the intelligent wearable device described in the embodiment of the invention comprises an intelligent safety belt and an intelligent head-mounted camera, wherein before high-altitude operation, an intelligent D ring on the intelligent safety belt can detect safety belt wearing tightness information, when the safety belt wearing tightness is unqualified, out-of-specification wearing alarm information is sent, at the moment, an operator needs to adjust the safety belt, and when the intelligent D ring can detect the safety belt wearing tightness is qualified, the alarm can be eliminated.

In the process of high-altitude operation, a portable controller in the intelligent safety belt can detect the current operation height and the falling speed, when the current operation height is higher than the preset altitude and the falling speed is higher than the preset falling speed, falling alarm information is sent, and the falling speed described in the embodiment of the invention refers to the falling speed of an operator detected by the portable controller; for example, the preset poster height may be 2 meters or 2.5 meters; the preset dropping speed is 1m/s or 1.5 m/s.

The intelligent couple in the intelligent safety belt continuously carries out unhook detection, when the intelligent couple detected the unhook condition, sends out unhook alarm information.

The alarm information described in the embodiment of the invention includes but is not limited to unhook alarm information, wear out-of-specification alarm information or fall alarm information; wherein still can carry the information of the intelligent wearing equipment that appears alarm information and the operation personnel information and the current operation place of wearing this equipment among the alarm information.

When the warning information of the wearing non-standard is received and the warning information of the wearing non-standard is not eliminated within the preset time, the warning information is automatically sent to a manager of the operation place to request for on-site assistance.

And when the unhooking alarm information is received and is not eliminated within the preset time, sending alarm information to a manager of the operation site to request on-site assistance confirmation.

When receiving the falling alarm information, the system automatically sends alarm information to the manager of the operation site, automatically contacts the background manager and prompts the background manager to contact medical support.

The manager can manually add, delete and modify the type of the non-standard operation and the type of the emergency, and the manager can check the equipment alarm condition in the field operation process at any time through the alarm information management module.

According to the embodiment of the invention, through the intelligent wearable device and the alarm information management module, alarm prompt can be carried out on the nonstandard operation and on-site emergency situations of the operators, on one hand, the behavior of the operators can be standardized, and the operators can be reminded to correct the behavior; on the other hand, the system can enable managers to know the field situation in time, assist in handling or carry out treatment at the first time, protect the personal safety of operating personnel and effectively optimize the overhead working management.

On the basis of the above embodiment, the intelligent wearable device specifically includes: the portable controller, the safety belt, the intelligent hook, the intelligent D ring, the portable controller and the intelligent D ring are respectively arranged at the rear part of the safety belt, and the intelligent hook is connected with the safety belt through the intelligent D ring;

the intelligent D ring is used for detecting the wearing tightness information of the safety belt, and sending out non-standard wearing alarm information when the wearing tightness of the safety belt is unqualified;

the portable controller is used for detecting the current operation height and the falling speed, and when the current operation height is higher than the preset altitude and the falling speed is higher than the preset falling speed, falling alarm information is sent;

wherein, intelligence couple is used for continuously carrying out the unhook and detects, when intelligence couple detects the unhook condition, sends out unhook alarm information.

Specifically, the intelligent wearable device described in the embodiment of the invention comprises an intelligent safety belt, the intelligent safety belt specifically comprises a safety belt body, a portable controller, an air pressure calibrator, an intelligent hook, an intelligent D ring and an intelligent rope grabber hanging ring, and a height acquisition module is arranged in the portable controller and the air pressure calibrator and can acquire operation height information. Be equipped with pressure sensor on the intelligence D ring, the detectable intelligence safety belt wearing condition. The intelligent rope grabbing device hanging ring is also provided with a pressure sensor which can detect whether the intelligent safety belt is connected with the rope grabbing device.

Be equipped with the intelligence lock on the intelligence couple and hang the state detector, single hook intelligence safety belt contains an intelligence couple, and double hook intelligence safety belt contains a pair of intelligence couple. When the intelligent hook is opened and the operation height exceeds the preset safety height, the intelligent lock is opened, and the intelligent hook continuously performs unhooking detection. The intelligent couple of single hook intelligence safety belt detects the couple and whether on hanging the point, and intelligent couple can't freely open and shut after the intelligence lock is opened, and whether the intelligent couple of double hook intelligence safety belt detects at least one couple on hanging the point, and the intelligence lock is opened the unable free opening and shutting simultaneously of a pair of intelligence couple of back.

After the intelligent lock is opened, the operating personnel can not open and close by themselves, unlocking application needs to be sent to the alarm information management module through the portable controller, and the unlocking can be carried out only after the alarm information management module approves.

Meanwhile, the intelligent hook in the embodiment of the invention is provided with a physical emergency unlocking button, if the intelligent hook needs to be unlocked in case of emergency, the intelligent hook automatically carries out mechanical unlocking so that an operator can timely carry out emergency escape, and simultaneously sends emergency unlocking information to a background so that a manager can timely learn the emergency unlocking condition.

The intelligent wearable equipment can effectively realize the tightness detection of the safety belt before operation, ensure that the safety belt of an operator is reasonably worn, and meanwhile, the intelligent safety belt provided with the acceleration sensor is arranged in the operation process, when the operation height is higher than the preset safety height, whether a falling event occurs or not is continuously detected, and if the falling event occurs, an alarm is given immediately, so that rescue can be timely carried out.

On the basis of the above embodiment, the system further includes: the mobile networking equipment is in communication connection with the intelligent wearable equipment and the alarm information management module respectively;

the mobile networking equipment consists of a main route and a plurality of mobile networking devices distributed on an operation site, wherein the main route is used for being connected with an external network and used as a WIFI AP (wireless fidelity) to send wireless network signals, and the mobile networking devices are interconnected through a wireless network;

the mobile networking equipment is further used for detecting field environment information and sending the field environment information to the alarm information management module, so that the alarm information management module can generate environment alarm information according to the field environment information.

Specifically, the mobile networking equipment described in the embodiment of the present invention is composed of a plurality of mobile networking devices, a first mobile networking device is a main router, which is connected to an external network in a wired manner and used as a WIFI AP to send a wireless network signal, other mobile networking devices are provided with 2 WIFI interfaces, the upper WIFI interface is used to connect to a WIFI network of the main router, and the lower WIFI interface is used to establish a wireless network, so as to achieve the purpose of WIFI extension. And selecting a proper number of mobile networking devices according to the field operation range and arranging the mobile networking devices in a proper mode (both horizontal and vertical) so that all operation points on the field can receive network signals. In addition, the mobile networking device is internally provided with an acquisition module and a camera, so that the temperature, the humidity, the wind power level, the noise coefficient and the like of a site can be acquired, and a site monitoring picture can be provided.

The system can perform real-time communication among hardware devices, real-time data transmission is performed among intelligent wearable devices through Bluetooth, real-time communication is performed between the intelligent wearable devices and a field controller through wireless network signals sent by mobile networking devices, and data are transmitted between the field controller and a server and between the server and a user system in real time through 4G/5G and NB-IoT communication modes.

The users of the system comprise network end users and mobile end app end users, and the network end users and the mobile end app end users can receive information sent by all hardware devices and send control instructions to the corresponding hardware devices through the web server and the database server.

In order to ensure that the network is fully covered in each place of a working place, the mobile networking equipment described in the embodiment of the invention can be further provided with an acquisition module and a camera, so that the temperature, the humidity, the wind power level, the noise coefficient and the picture of the working site can be effectively acquired, the environmental information of the site, such as the temperature, the humidity, the wind power level, the noise coefficient and the like, is transmitted to the site controller, the environmental information of the site is sequentially transmitted to the alarm information management module, and the alarm information management module sends alarm information to the site through an intelligent algorithm, such as the following noon time period safety reminding, high temperature alarm, strong wind alarm and the like.

The alarm information management module can also identify people who do not wear the safety belts with the specified models in the images through a preset intelligent algorithm and send alarm information.

Even if the operation site does not have an external network, the mobile networking equipment provided by the embodiment of the invention can also realize real-time data transmission between the management platform and the site intelligent equipment through the ad hoc network, so that background management personnel can know the site condition in real time and send out a control instruction, and the management and control strength of the management personnel is enhanced; in addition, the background management personnel can also carry out video conversation with field operation personnel, remotely guide field operation, and effectively improve the operation efficiency.

On the basis of the above embodiment, the system further includes: a historical data tracing module;

the historical data tracing module is used for storing the alarm information received by the alarm information management module and an alarm solution plan generated according to the alarm information.

Specifically, the historical data tracing module realizes the multi-dimensional query function of various types of data in the system, supports the data export function, and facilitates further utilization and analysis of the data by a user. The module comprises task execution condition information inquiry, personnel operation information inquiry, personnel violation record inquiry, alarm information inquiry, personnel performance inquiry, equipment use condition inquiry and the like, so that a user can conveniently utilize system data in a multi-dimensional manner, and complete tracing of aerial work process data is realized. The manager can inquire the corresponding operation record by inputting information such as personnel code, equipment code, operation date and the like, so that the manager can master the global operation state, and can give an alarm in advance and trace back.

On the basis of the above embodiment, the system further includes an alarm information management module further configured to:

and analyzing the alarm information stored by the historical data tracing module, generating intelligent early warning information, and sending the intelligent early warning information to the intelligent wearable equipment.

Specifically, if the number of times of emergency dangerous situations in the afternoon period is counted according to the alarm information stored in the historical data tracing module, a concentrated safety prompt is sent for the personnel working in the afternoon period.

If the situation that the falling event is easy to occur when the field humidity is higher than a is obtained through statistics, a safety prompt for paying attention to the falling is sent to the working personnel above the field humidity a; if the fact that the scene temperature is more than b and the dizziness and the falling event are easy to happen is obtained according to statistics, a safety prompt of high-temperature alarm is sent for the workers above the scene temperature b; if the fact that the scene temperature is higher than c and the dizziness and the falling are very easy to happen is obtained according to statistics, aiming at the fact that the worker above the scene temperature c sends out a safety prompt that the scene temperature is not suitable for operation, the worker feeds back information to a background manager, selects a time period suitable for operation to conduct operation, and prevents the occurrence of dangerous situations in advance.

According to the embodiment of the invention, the construction risk can be better avoided by effectively utilizing the historical data.

On the basis of the above embodiment, the system further includes: the field controller is in communication connection with the intelligent wearable device and the alarm information management module respectively;

the field controller is used for identifying staff information, distributing intelligent wearable equipment corresponding to the staff information, binding the staff information and the intelligent wearable equipment information, and uploading the bound staff information and the intelligent wearable equipment information to the alarm information management module.

Specifically, the field controller stores the equipment type, the equipment code, the equipment validity period, the equipment binding personnel information, the equipment working state, the working place and the height information of the intelligent wearable equipment. Each hardware device is provided with a two-dimension code label and comprises information such as equipment codes and entry dates, and the label information of the two-dimension codes needs to be registered in an equipment management module when one hardware device is newly added, so that the equipment is managed by using the Internet of things. Of course, the system can be externally connected with an employee card management system, and the operator can be identified by reading the information of the employee card.

On the basis of the above embodiment, the system further includes: an operation plan management module for managing the operation plan,

the operation plan management module is used for displaying operation plan information and sending the operation plan information to a field controller so that the field controller can distribute the intelligent wearable equipment according to the operation plan information;

wherein the job plan information includes: information of the high-altitude operation personnel, intelligent wearable equipment used by the high-altitude operation personnel, an operation place and an operation scene.

Specifically, the operation plan management module can realize the functions of making, importing and dispatching the aerial operation plan, after the work plan is made, background management personnel dispatch tasks to corresponding field controllers, and the field operators select intelligent equipment to execute aerial operation according to received task information.

The operation plan management module can display basic information such as high-altitude operation personnel information, used safety belts and cameras, operation places, operation time, operation types, operation scenes and the like, and can realize the correlation matching configuration of the operation personnel, the intelligent safety belts and the head-mounted cameras, so that the basis for carrying out high-altitude operation management work is realized. The operation plan management function is a basic function of the platform for safety control.

On the basis of the above embodiment, the intelligent wearable device further includes: a smart head camera; the intelligent head-mounted camera is in communication connection with the mobile networking equipment;

the intelligent head-mounted camera is used for acquiring screen information and screen communication of an operation site.

The system further comprises: an intelligent monitoring management module;

the intelligent monitoring management module is used for displaying the operation site screen information acquired by the intelligent head-mounted camera;

the intelligent monitoring management module is used for carrying out screen-viewing conversation with the intelligent wearable equipment.

Specifically, the video monitoring module displays and records pictures shot by the head-mounted camera, and has the functions of shooting and video call, when a manager needs to conduct operation guidance on a site, the video call is opened, and at the moment, the site operator and a background manager can conduct real-time video call. If emergency happens, the manager can check the scene picture through the video monitoring module and find out the scene state at the first time by combining the alarm information. The field operation personnel accessible dabs the button of wearing the camera or sends voice command control camera and shoots, conveniently carries out contrastive analysis to the condition of different operation points.

The video monitoring module can store the pictures shot by the camera and the field pictures for a period of time so that managers can conveniently perform afterward review and analysis work.

On the basis of the above embodiment, the system may further include: a statistical analysis module;

the statistical analysis module can perform multi-dimensional statistical analysis on the high-altitude operation historical data in a chart statistical mode, and the multi-dimensional statistical analysis comprises functions of department personnel violation condition comparison, personnel violation times comparison, company or group violation times comparison in each month and the like, so that a user can conveniently perform deep analysis on the high-altitude operation data.

The statistical analysis module comprises information such as operation information, operation time, alarm records, operation and equipment data, operator codes, equipment codes, contact information, field pictures and the like. For the alarm records, the alarm reasons can be analyzed, such as human errors caused by irregular operation, emergencies caused by field conditions or emergencies, and classified statistics can be carried out according to information such as operation time intervals, working years of operators and the like.

And displaying a pie chart proportion pie chart on a statistical analysis interface, wherein the pie chart proportion chart is respectively in an operating state and a non-operating state, and operating state proportion data is displayed in the proportion pie chart, so that a viewer can see the pie chart in a list. And displaying a state overview catalog comprising information such as dormancy, ground stay, overhead operation, overhead non-operation, abnormal work, offline, the number of workers and the like below the pie chart, and displaying a corresponding data statistical table and a histogram trend by clicking the modules.

A personnel performance management module;

the personnel performance management module can carry out performance scoring management according to the violation operation that the safety belt used in the high-altitude operation process of the operating personnel, and realizes effective supervision on the working normalization of the operating personnel. The information displayed by the personnel performance management module comprises personnel number, working age, job type, job completion times, job violation times, violation incentives, job itemizing, dominant incentives, comprehensive scoring, ranking and other information, and the report generation and export functions are supported.

A system management module;

the system management module comprises a user management module, a permission management module and a log management module, and only the network end is provided with the system management module.

The user management module is used for realizing maintenance of user information and management of corresponding authority, and the user information comprises user names, passwords, names, job numbers, departments, jobs, telephone numbers, roles, personal participating items and the like. The system administrator can maintain and modify the user information, forbid the user information which does not need to access the system any more, and forbid logging in the system. The main interface provides functions of adding, deleting, modifying, inquiring detailed information, configuring roles, function permission, operation permission and the like. After the user logs in the system, the personal information, the password and other information of the user can be modified.

And the authority management module realizes the functions of role authority division and role information management. The system is provided with an administrator responsible for providing different types of software use authorization to other users. Different roles have different system operation permissions, only an administrator has the permission to create the roles, and different users allocate different function permissions and data resources. The module displays information such as role names, creation time, remarks and the like, can provide functions of inquiry, addition, modification and functional authority, and has the same operation process as each operation step of user management. Other personnel can fill in a request form and apply for system function use authorization; the administrator can give different functional modules to the applicant after receiving the prompt sent by the system.

The log management is used for recording the login situation of the user, and recording the login attribute in a form of a table, and the log list comprises a user name, a real name, a login module, detailed information, operation time, a result and a login IP, which is the guarantee of system security. The system provides information for inquiring specific user login in a screening mode of user name, login module, result, starting time and ending time. The user can select the result meeting the query condition in the query area of the interface by inputting the conditions of the user name, the login module, the starting time, the ending time, the result and the like, and the result is displayed in the log list area.

According to the embodiment of the invention, on the basis of controlling the operation safety, the operation of personnel is controlled, and through the operation plan management module and the performance management module, a background manager can make an operation plan, dispatch and supervise tasks according to the operation plan, perform data assessment on field operators according to the operation conditions recorded by the system and the like.

Fig. 2 is a flow chart of the management and control of the aerial work safety management system according to an embodiment of the present invention, and as shown in fig. 2, the flow chart of the management and control of the system includes: planning stage, executing stage and evaluation and analysis stage; in the planning stage, a manager makes an operation plan or imports the operation plan, a task is distributed to a corresponding operation area according to the operation plan, a field operator receives the task, and the task execution stage is started.

In the execution stage, an operator swipes an operator card to an operation field management position to select intelligent wearing equipment according to the received task type and the field condition, the intelligent wearing equipment comprises an intelligent safety belt and an intelligent head-mounted camera, the operator selects a single-hook safety belt or a double-hook safety belt according to the operation type, and selects whether to wear the head-mounted camera according to the field condition and the operation difficulty degree. The field controller reads the employee card, identifies information such as employee information and intelligent wearable equipment codes, binds the operating personnel with the intelligent wearable equipment, and uploads the operating information, the personnel information and the equipment information to the server.

The mobile networking equipment on the operation site collects the temperature, the humidity, the wind power level, the noise coefficient and the picture of the site through the collection module and the camera, transmits the environmental information of the site such as the temperature, the humidity, the wind power level, the noise coefficient and the like to the site controller, sequentially transmits the environmental information of the site to the server and the system platform, and the system platform sends early warning information to the site through an intelligent algorithm, such as the following noon time period safety reminding, high temperature early warning, strong wind early warning and the like.

When high-altitude operation is executed, the intelligent safety belt monitors the wearing condition of the safety belt, the hanging condition of the hook, the irregular operation behavior and the field environment information in real time and transmits the information to the server; the head-mounted camera transmits the scene picture to the server in real time, if the video call request sent by the manager is received, the operator carries out real-time video call with the manager after receiving the request, and the manager can provide remote guidance for the scene, so that the operation efficiency is improved.

In the process of high-altitude operation, if the behavior is not standardized, the intelligent safety belt sends out a voice alarm prompt and uploads the voice alarm prompt to the server, and the alarm is stopped after the operation personnel adjust the behavior to be in accordance with the standard. If the emergency such as sudden falling occurs (the intelligent safety belt detects that the falling speed is greater than 1m/s), the intelligent safety belt sends out a voice alarm prompt and sends alarm information to the server, and after receiving the alarm information, background management personnel immediately check field operation information, personnel information and video pictures, make processing and carry out rescue work at the first time.

In addition, whether irrelevant personnel break into the operation site or not can be checked through the pictures acquired by the mobile networking equipment, and the occurrence of unexpected situations is prevented.

After the task is executed, the operating personnel releases the intelligent wearable equipment, returns to the field control point and swipes the employee card, the field controller identifies the employee card, reads information such as operating personnel information and intelligent wearable equipment codes, and uploads the information to the server again.

In the evaluation and analysis stage, according to the received irregular behavior information, alarm information, operation information and personnel information in the operation process, the management platform performs performance assessment and evaluation on the operation personnel, performs data statistics and analysis on the operation condition within a period of time, and summarizes operation rules, unsafe factors, average operation duration of various types of operations and the like. On one hand, the management work of large enterprises is facilitated, and the management flow is optimized; on the other hand, the experience training of predecessors is summarized, safety training is timely carried out, danger is prevented in advance, and the safety of operating personnel is guaranteed.

The system of the embodiment of the invention comprises an operation planning stage, an execution stage and an evaluation analysis stage after operation, thereby not only standardizing the behavior of the operators, but also standardizing the whole management flow, optimizing and improving the management efficiency while improving the personal safety guarantee of the operators, and being beneficial to the management and control work of large enterprises.

Fig. 3 is a flowchart of an aerial work safety management method according to an embodiment of the present invention, as shown in fig. 3, including:

step S1, detecting the high-altitude operation non-standard information through the intelligent wearable equipment, and sending alarm information when detecting the high-altitude operation non-standard information;

and step S2, generating an alarm solution plan according to the alarm information.

The method embodiments provided in the embodiments of the present invention are substantially the same as the methods of the system embodiments described above, and for details of the process and the details, reference is made to the embodiments described above, which are not repeated herein.

According to the embodiment of the invention, through the intelligent wearable device and the alarm information management module, alarm prompt can be carried out on the nonstandard operation and on-site emergency situations of the operators, on one hand, the behavior of the operators can be standardized, and the operators can be reminded to correct the behavior; on the other hand, the system can enable managers to know the field situation in time, assist in handling or carry out treatment at the first time, protect the personal safety of operating personnel and effectively optimize the overhead working management.

Finally, it should be noted that: the above examples are only intended to illustrate the technical solution of the present invention, but not to limit it; although the present invention has been described in detail with reference to the foregoing embodiments, it will be understood by those of ordinary skill in the art that: the technical solutions described in the foregoing embodiments may still be modified, or some technical features may be equivalently replaced; and such modifications or substitutions do not depart from the spirit and scope of the corresponding technical solutions of the embodiments of the present invention.

Claims (10)

1. An aerial work safety management system, comprising: the intelligent wearable equipment and the alarm information management module;

the intelligent wearable equipment is used for detecting the high-altitude operation non-standard information, and when the high-altitude operation non-standard information is detected, the intelligent wearable equipment sends alarm information and sends the alarm information to the alarm information management module;

and the alarm information management module is used for generating an alarm solution plan according to the alarm information after receiving the alarm information.

2. The aerial work safety management system of claim 1, wherein the intelligent wearable device specifically comprises: the portable controller, the safety belt, the intelligent hook, the intelligent D ring, the portable controller and the intelligent D ring are respectively arranged at the rear part of the safety belt, and the intelligent hook is connected with the safety belt through the intelligent D ring;

the intelligent D ring is used for detecting the wearing tightness information of the safety belt, and sending out non-standard wearing alarm information when the wearing tightness of the safety belt is unqualified;

the portable controller is used for detecting the current operation height and the falling speed, and when the current operation height is higher than the preset altitude and the falling speed is higher than the preset falling speed, falling alarm information is sent;

wherein, intelligence couple is used for continuously carrying out the unhook and detects, when intelligence couple detects the unhook condition, sends out unhook alarm information.

3. The aerial work safety management system of claim 1, further comprising: the mobile networking equipment is in communication connection with the intelligent wearable equipment and the alarm information management module respectively;

the mobile networking equipment consists of a main route and a plurality of mobile networking devices distributed on a job site, wherein the main route is used for connecting with an external network and sending wireless network signals as WIFIAP, and the mobile networking devices are interconnected through a wireless network;

the mobile networking equipment is further used for detecting field environment information and sending the field environment information to the alarm information management module, so that the alarm information management module can generate environment alarm information according to the field environment information.

4. The aerial work safety management system of claim 1, further comprising: a historical data tracing module;

the historical data tracing module is used for storing the alarm information received by the alarm information management module.

5. The aerial work safety management system of claim 4, further comprising an alarm information management module further configured to:

and analyzing the alarm information stored by the historical data tracing module, generating intelligent early warning information, and sending the intelligent early warning information to the intelligent wearable equipment.

6. The aerial work safety management system of claim 1, further comprising: the field controller is in communication connection with the intelligent wearable device and the alarm information management module respectively;

the field controller is used for identifying staff information, distributing intelligent wearable equipment corresponding to the staff information, binding the staff information and the intelligent wearable equipment information, and uploading the bound staff information and the intelligent wearable equipment information to the alarm information management module.

7. The aerial work safety management system of claim 1, further comprising: an operation plan management module for managing the operation plan,

the operation plan management module is used for displaying operation plan information and sending the operation plan information to a field controller so that the field controller can distribute the intelligent wearable equipment according to the operation plan information;

wherein the job plan information includes: information of the high-altitude operation personnel, intelligent wearable equipment used by the high-altitude operation personnel, an operation place and an operation scene.

8. The aerial work safety management system of claim 3, wherein the smart wearable device further comprises: a smart head camera; the intelligent head-mounted camera is in communication connection with the mobile networking equipment;

the intelligent head-mounted camera is used for viewing screen communication and acquiring screen information of an operation site.

9. The aerial work safety management system of claim 8, further comprising: an intelligent monitoring management module;

the intelligent monitoring management module is used for displaying the operation site screen information acquired by the intelligent head-mounted camera;

the intelligent monitoring management module is used for carrying out screen-viewing conversation with the intelligent wearable equipment.

10. An aerial work safety management method based on the aerial work safety management system of any one of claims 1 to 9, comprising:

detecting the high-altitude operation non-standard information through the intelligent wearable equipment, and sending alarm information when detecting the high-altitude operation non-standard information;

and generating an alarm solution plan according to the alarm information.

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