CN110533290B - On-site potential safety hazard management method and system based on instant messaging - Google Patents

Abstract

The invention discloses a site potential safety hazard management method based on instant messaging, which comprises the following steps: after the editing of the reported potential safety hazard information is finished, the reported information is sent to a safety management platform; starting a hidden danger processing event, and acquiring a corresponding hidden danger rectification proposal; the management personnel carries out approval processing on the hidden danger troubleshooting information and the hidden danger rectification proposal; after secondary confirmation, the site supervisor pushes the hidden danger rectification implementation scheme to site constructors; the site constructor corrects the hidden trouble; and the service personnel analyzes and counts the information. In addition, a site potential safety hazard management system based on instant messaging is also disclosed. By adopting the method and the device, potential safety hazard rectification and management cost can be reduced, distrust on potential safety hazard troubleshooting and treatment is reduced, the potential safety hazard treatment on site is more transparent and convenient, and a good responsibility implementation mechanism is established, so that the potential safety hazard troubleshooting, treatment and rectification on site is promoted.

Description

On-site potential safety hazard management method and system based on instant messaging

Technical Field

The invention relates to the technical field of communication and computers, in particular to a method and a system for managing potential safety hazards on site based on instant messaging.

Background

The high mountain canyon of the often depths of large-scale engineering project, geological conditions are complicated, and the totality is arranged complicacy, and construction strength is big, and construction equipment cross operation is frequent, and mutual interference is big, and the potential safety hazard influence factor is many, and the incident easily appears in the construction process. According to statistics, the number of casualty accidents caused by unsafe behaviors of people accounts for 70-90% of the total number in the production activity.

However, the inventor of the present invention has found that, with the development of digitization and intelligent technologies in the prior art, although a large-scale engineering construction site can collect massive safety data, most of the safety data is original and non-real-time data, and the safety data has the characteristics of fuzzy information, blind information, incomplete information, and the like.

Therefore, in the prior art, how to identify risks and hidden dangers and take effective control measures in a targeted manner is still lack of an effective fusion excavation method and technology. At present, the following key problems exist in the safe production information acquisition and safe risk control of large-scale engineering construction: the problems of multi-source information identification, characterization and positioning are solved, the reporting time of hidden dangers is long, and the process is complicated; corresponding workflow reconstruction problems, the traditional field safety management is often uncertain in responsibility, the execution efficiency of a management system is low, the timeliness is gradually reduced when the system is transmitted layer by layer, the safety consciousness of constructors is low, and the like. These problems are not well solved at the construction site.

Disclosure of Invention

Based on this, in order to solve the technical problems in the prior art, a method for managing the potential safety hazard on site based on instant messaging is provided, which comprises the following steps:

step 1, after a potential hazard finder in a site finds potential safety hazards in the site, using an instant messaging client installed in a site terminal held by the potential safety hazard finder to edit reported information of the potential safety hazards in the site, wherein the reported information comprises site pictures, site positions and occurrence time, and sending the reported information to a safety management platform after the reported information is edited;

step 2, the safety management platform receives the reported information, identifies the type, source and emergency degree of the potential safety hazard in the reported information by analyzing and processing the reported information through data, sorts and classifies the information to form hidden danger troubleshooting information, and starts a hidden danger processing event; meanwhile, the safety management platform queries and acquires a corresponding hidden danger rectification proposal in a cloud server connected with the safety management platform according to the hidden danger troubleshooting information;

step 3, the safety management platform queries a personnel information table stored in the cloud server to obtain a manager in charge of processing the potential safety hazard, the hidden danger troubleshooting information and the hidden danger rectification proposal scheme are pushed to an instant messaging client installed on a management terminal held by the manager, and after receiving the hidden danger troubleshooting information and the hidden danger rectification proposal scheme sent by the safety management platform, the manager carries out approval processing on the hidden danger troubleshooting information and the hidden danger rectification proposal scheme to obtain approval information; sending the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the approval information to an instant messaging client installed on a field terminal held by a field supervisor through a safety management platform;

step 4, after receiving the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the approval information, the field supervision personnel inspects the site on site according to the type, the source and the site position of the hidden danger and confirms the site for the second time to obtain a hidden danger rectification implementation scheme, and pushes the hidden danger rectification implementation scheme to an instant communication client installed on a site terminal held by the site construction personnel;

step 5, the site constructor receives the hidden danger rectification implementation scheme, rectifies and rectifies the hidden danger according to the hidden danger rectification implementation scheme, and edits rectified and rectified hidden danger information by using an instant messaging client installed on a site terminal held by the site constructor and uploads the rectified and rectified information to a safety management platform;

step 6, the safety management platform receives the hidden danger rectification information and pushes the hidden danger rectification information to a manager, and the manager evaluates the hidden danger rectification result according to the hidden danger rectification information and selects to close the hidden danger processing event; when the manager selects to close the hidden danger processing event, the safety management platform stores the hidden danger troubleshooting information, the hidden danger rectification implementation scheme and the hidden danger rectification information into the cloud server, and corresponding business personnel analyze and count the information in the cloud server.

In one embodiment, the safety management platform receives the report information and then queries a personnel information table stored in a cloud server connected with the safety management platform, and the hidden danger finder is identified through an instant messaging client account of the hidden danger finder.

In an embodiment, in step 2, when the safety management platform cannot query a corresponding hidden danger rectification suggestion scheme in a cloud server connected with the safety management platform according to hidden danger troubleshooting information, the safety management platform sends the hidden danger troubleshooting information to a rear-end engineering designer, and the engineering designer generates the hidden danger rectification suggestion scheme according to a change reason, a change content, a change engineering quantity and a design drawing and uploads the hidden danger rectification suggestion scheme to the cloud server.

In one embodiment, in step 3, when the safety management platform pushes the hidden danger troubleshooting information and the hidden danger rectification proposal to a manager, whether the pushing is successful is judged, and for the information which is not successfully pushed, the information is added into a delay pushing list to try pushing again; when the continuous pushing fails for 3 times and the manager cannot respond in time, the pushing is not attempted any more, and the safety management platform directly sends the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the temporary non-approval information to the field supervision personnel.

In one embodiment, the instant messaging client is a WeChat client.

In addition, in order to solve the technical problems in the prior art, a field potential safety hazard management system based on instant messaging is particularly provided.

The field potential safety hazard management system comprises a field terminal, a management terminal, a safety management platform and a cloud server;

the field terminal is held by field supervision personnel and field construction personnel on the engineering field;

the management terminal is held by a manager;

the field terminal and the management terminal are provided with instant messaging clients;

the field terminal, the management terminal and the safety management platform are connected and communicated with each other;

the safety management platform and the cloud server are connected and communicated with each other.

The embodiment of the invention has the following beneficial effects:

the invention can reduce the potential safety hazard rectification and management cost, reduce the distrust on the potential safety hazard investigation and treatment, ensure that the site potential safety hazard treatment is more transparent and convenient, and establish a good responsibility implementation mechanism, thereby promoting the site potential safety hazard investigation, treatment and rectification.

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 is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Wherein:

fig. 1 is a schematic flow chart of a method for managing potential safety hazards on site based on instant messaging in the present invention;

fig. 2 is a schematic diagram of an instant messaging based on-site potential safety hazard management system according to the present invention.

Detailed Description

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 only a part of the embodiments of the present invention, and not all of the embodiments. 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.

The invention discloses an instant messaging-based field potential safety hazard management system.

The field potential safety hazard management system comprises a field terminal, a management terminal, a safety management platform and a cloud server;

the field terminal is held by field supervision personnel and field construction personnel on the engineering field;

the management terminal is held by a manager;

the field terminal and the management terminal are provided with instant messaging clients;

the field terminal, the management terminal and the safety management platform are connected and communicated with each other;

the safety management platform and the cloud server are connected and communicated with each other.

The invention discloses a site potential safety hazard management method based on instant messaging, which comprises the following steps:

step 1, after a potential hazard finder in a site finds potential safety hazards in the site, using an instant messaging client installed in a site terminal held by the potential safety hazard finder to edit reported information of the potential safety hazards in the site, wherein the reported information comprises site pictures, site positions and occurrence time, and sending the reported information to a safety management platform after the reported information is edited;

step 2, the safety management platform receives the reported information, analyzes the reported information through data analysis processing, identifies the type, source and emergency degree of the potential safety hazard in the reported information, sorts and classifies the information to form hidden danger troubleshooting information, and starts a hidden danger processing event; meanwhile, the safety management platform queries and acquires a corresponding hidden danger rectification proposal in a cloud server connected with the safety management platform according to the hidden danger troubleshooting information;

step 3, the safety management platform queries a personnel information table stored in the cloud server to obtain a manager in charge of processing the potential safety hazard, the hidden danger troubleshooting information and the hidden danger rectification proposal scheme are pushed to an instant messaging client installed on a management terminal held by the manager, and after receiving the hidden danger troubleshooting information and the hidden danger rectification proposal scheme sent by the safety management platform, the manager carries out approval processing on the hidden danger troubleshooting information and the hidden danger rectification proposal scheme to obtain approval information; sending the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the approval information to an instant messaging client installed on a field terminal held by a field supervisor through a safety management platform;

step 4, after receiving the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the approval information, the field supervision personnel inspects the site on site according to the type, the source and the site position of the hidden danger and confirms the site for the second time to obtain a hidden danger rectification implementation scheme, and pushes the hidden danger rectification implementation scheme to an instant communication client installed on a site terminal held by the site construction personnel;

step 5, the site constructor receives the hidden danger rectification implementation scheme, rectifies and rectifies the hidden danger according to the hidden danger rectification implementation scheme, and edits rectified and rectified hidden danger information by using an instant messaging client installed on a site terminal held by the site constructor and uploads the rectified and rectified information to a safety management platform;

step 6, the safety management platform receives the hidden danger rectification information and pushes the hidden danger rectification information to a manager, and the manager evaluates the hidden danger rectification result according to the hidden danger rectification information and selects to close the hidden danger processing event; when the manager selects to close the hidden danger processing event, the safety management platform stores the hidden danger troubleshooting information, the hidden danger rectification implementation scheme and the hidden danger rectification information into the cloud server, and corresponding business personnel analyze and count the information in the cloud server.

In one embodiment, the safety management platform receives the report information and then queries a personnel information table stored in a cloud server connected with the safety management platform, and the hidden danger finder is identified through an instant messaging client account of the hidden danger finder.

In an embodiment, in step 2, when the safety management platform cannot query a corresponding hidden danger rectification suggestion scheme in a cloud server connected with the safety management platform according to hidden danger troubleshooting information, the safety management platform sends the hidden danger troubleshooting information to a rear-end engineering designer, and the engineering designer generates the hidden danger rectification suggestion scheme according to a change reason, a change content, a change engineering quantity and a design drawing and uploads the hidden danger rectification suggestion scheme to the cloud server.

In one embodiment, in step 3, when the safety management platform pushes the hidden danger troubleshooting information and the hidden danger rectification proposal to a manager, whether the pushing is successful is judged, and for the information which is not successfully pushed, the information is added into a delay pushing list to try pushing again; when the continuous pushing fails for 3 times and the manager cannot respond in time, the pushing is not attempted any more, and the safety management platform directly sends the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the temporary non-approval information to the field supervision personnel.

In one embodiment, the instant messaging client is a WeChat client.

The embodiment of the invention has the following beneficial effects:

the technical scheme of the invention forms a lean, quick and flat management mode and has the characteristics of decentralization, openness, timeliness, information non-falsification and real-name property. The reporting efficiency is remarkably improved through application practice display, and potential safety hazard rectification and management cost is reduced; the distrust on the potential safety hazard investigation and treatment is reduced, the site potential safety hazard treatment is more transparent and convenient, and a good responsibility implementation mechanism is established, so that the site potential safety hazard investigation, treatment and rectification is improved. By carrying out data mining on a large amount of hidden danger data and an rectification method, targeted early warning, safety performance evaluation and safety management workflow optimization reconstruction are realized, and a foundation is provided for future hidden danger troubleshooting and treatment work.

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; such modifications and substitutions do not depart from the spirit and scope of the corresponding technical solutions.

Claims (5)

1. A field potential safety hazard management method based on instant messaging is characterized by comprising the following steps:

step 1, after a potential hazard finder in a site finds potential safety hazards in the site, using an instant messaging client installed in a site terminal held by the potential safety hazard finder to edit reported information of the potential safety hazards in the site, wherein the reported information comprises site pictures, site positions and occurrence time, and sending the reported information to a safety management platform after the reported information is edited;

step 2, the safety management platform receives the reported information, identifies the type, source and emergency degree of the potential safety hazard in the reported information by analyzing and processing the reported information through data, sorts and classifies the information to form hidden danger troubleshooting information, and starts a hidden danger processing event; meanwhile, the safety management platform queries and acquires a corresponding hidden danger rectification proposal in a cloud server connected with the safety management platform according to the hidden danger troubleshooting information;

step 3, the safety management platform queries a personnel information table stored in the cloud server to obtain a manager responsible for processing the potential safety hazard, and pushes hidden danger troubleshooting information and a hidden danger rectification proposal to an instant messaging client installed on a management terminal held by the manager; after receiving the hidden danger troubleshooting information and the hidden danger rectification proposal sent by the safety management platform, the manager carries out approval processing on the hidden danger troubleshooting information and the hidden danger rectification proposal to obtain approval information; the hidden danger troubleshooting information, the hidden danger rectification proposal and the approval information are sent to an instant messaging client installed on a field terminal held by a field supervisor through the safety management platform;

step 4, after receiving the hidden danger troubleshooting information, the hidden danger rectification proposal scheme and the approval information, the field supervisor conducts field on-site investigation and secondary confirmation according to the type, source and field position of the hidden danger to obtain a hidden danger rectification implementation scheme, and the hidden danger rectification implementation scheme is pushed to an instant communication client installed on a field terminal held by a field constructor;

step 5, the site constructor receives the hidden danger rectification implementation scheme, rectifies the hidden danger according to the hidden danger rectification implementation scheme, edits rectified and rectified hidden danger information by using an instant messaging client installed on a site terminal held by the site constructor, and uploads the rectified and rectified hidden danger information to the safety management platform;

step 6, the safety management platform receives the hidden danger rectification information and pushes the hidden danger rectification information to the manager, and the manager evaluates the hidden danger rectification result according to the hidden danger rectification information and selects to close the hidden danger processing event; when the manager selects to close the hidden danger processing event, the safety management platform stores the hidden danger troubleshooting information, the hidden danger rectification implementation scheme and the hidden danger rectification information into the cloud server, and corresponding business personnel analyze and count the information in the cloud server.

2. The method of claim 1,

and the safety management platform inquires a personnel information table stored in the cloud server connected with the safety management platform after receiving the reported information, and identifies the hidden danger finder through an instant messaging client account of the hidden danger finder.

3. The method of claim 1,

in step 2, when the safety management platform cannot inquire a corresponding hidden danger rectification proposal in the cloud server connected with the safety management platform according to the hidden danger troubleshooting information, the safety management platform sends the hidden danger troubleshooting information to a rear-end engineering designer, and the engineering designer generates the hidden danger rectification proposal according to a change reason, a change content, a change engineering quantity and a design drawing and uploads the hidden danger rectification proposal to the cloud server.

4. The method according to claim 2 or 3,

step 3, when the safety management platform pushes the hidden danger troubleshooting information and the hidden danger rectification proposal scheme to the manager, judging whether the pushing is successful, adding the information which is not successfully pushed into a delay pushing list, and trying to push again; when the continuous pushing fails for 3 times, and the manager cannot respond in time, the pushing is not attempted any more, and the safety management platform directly sends the hidden danger troubleshooting information, the hidden danger rectification proposal and the temporary non-approval information to the field supervision personnel.

5. The method according to claim 2 or 3,

the instant messaging client is a WeChat client.

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