CN111626575A - Construction safety quality hidden danger management method based on internet environment - Google Patents

Abstract

The invention discloses a construction safety quality hidden danger management method based on an internet environment, which utilizes a server, a Web end, a mobile phone APP end and a monitoring system to realize that a mobile phone APP checks construction site operation in real time, compares the hidden danger with a system hidden danger database to find the hidden danger and pushes the hidden danger to a related responsible person in real time so as to carry out rectification processing on the hidden danger, and then carries out intelligent analysis and management on safety construction through inspection records and rectification records of hidden danger problems. The management method can effectively reduce the investment of human resources under the environment that the labor cost is increasingly high, improve the working efficiency, ensure the accuracy and timeliness of data and have obvious economic benefit; the problems of safety and quality hidden danger can be integrally and effectively controlled, and the occurrence of safety production accidents is avoided; the innovative method for online dynamic control of safety quality has good popularization significance, and can provide reference for various construction projects.

Description

Construction safety quality hidden danger management method based on internet environment

Technical Field

The invention relates to the technical field of building construction, in particular to a construction safety quality hidden danger management method based on an internet environment.

Background

With the rising trend of the Chinese infrastructure, the national safety quality accidents are continuously emergent, and especially the double prevention mechanism is provided, so that higher requirements are provided for the investigation and treatment of the potential safety quality hazards of construction enterprises. The main body of the traditional potential safety quality hazard investigation and treatment is a person, the person is required to go to the site to carry out one-to-one inspection, a potential safety hazard rectification notice sheet and a rectification reply record are required to be manually compiled for the found problems, the transmission time of the potential safety hazard information is long, the potential safety hazard rectification efficiency is low, and the current fast pace of safety and quality management cannot be adapted; at present, partial construction and construction units also develop a system platform for safety quality management, and through trial research, most of clients established through a computer upload information, the rectification timeliness of hidden dangers is poor, meanwhile, rectification records of hidden dangers still need to be manually compiled, and the defects of repeated operation and heavy workload are exposed.

Therefore, the aim of management innovation application is to achieve instant transmission of potential safety quality hazard information, optimize a transmission process, achieve paperless office work, automatically form safety and quality inspection file records, integrate video monitoring, potential safety hazard troubleshooting and safety quality data analysis into one mobile phone APP software in combination with portability of information resources and mobile phones, establish an APP software background on an Aries cloud computing server, and achieve intelligent integrated service of 'Internet + potential safety quality hazard management'.

In view of the above, a management method relying on hidden construction safety quality hazards in an internet environment is urgently needed.

Disclosure of Invention

The invention aims to solve the technical problem of providing a construction safety quality hidden danger management method in an internet environment, overcoming the defects in the prior art and realizing intelligent integrated service of internet and safety quality hidden danger management.

The technical problem to be solved by the invention is realized by the following technical scheme:

a management method for potential safety quality hazards in construction relying on an internet environment utilizes a server, a Web end, a mobile phone APP end and a monitoring system to realize that a mobile phone APP checks construction site operation in real time, compares the potential safety quality hazards with a system potential hazard database, finds the potential safety hazards, pushes the potential safety hazards to relevant responsible persons in real time so as to correct and modify the potential safety hazards, and carries out intelligent analysis and management on safety construction through inspection records and correction records of potential safety hazards.

Preferably, in the above technical solution, the management method includes the steps of:

(1) the mobile phone APP end is connected with a monitoring system of a construction site, a construction video of the construction operation site can be checked in real time through the mobile phone APP, screenshot, rotation, stretching, zooming and any switching among a plurality of monitoring pictures can be carried out on the construction video at any time, and the construction screenshot is stored in a mobile phone album so as to facilitate subsequent hidden trouble shooting;

(2) the construction screenshot and the hidden danger database are automatically identified, hidden dangers are distinguished, if hidden dangers are found, the mobile phone APP end automatically pushes the hidden dangers to a rectification responsible person and hidden danger related persons in a short message mode, the mobile phone APP end and the server automatically store related hidden danger records and information at the same time, corresponding hidden danger problem categories can be searched in the database by inputting keywords or searching a hidden danger list, then hidden danger problem description and rectification requirements are carried out, and inspection records and rectification records are automatically formed and led out;

(3) on the basis of a hidden danger database, the found hidden danger problems are labeled, each hidden danger data has a corresponding hidden danger level, data comparison is carried out according to the type and the level of the hidden danger problems, a hidden danger problem development trend table or graph is formed, and the hidden danger problems are conveniently and accurately positioned and managed.

Preferably, in the above technical solution, the monitoring system includes a security risk video monitoring system, a general working face monitoring system, and a security key part monitoring system; the safety risk video monitoring system completely covers a project area with high risk and high risk exceeding a certain scale; the general operation surface monitoring system is mainly a place where the work of workers is intensive in non-dangerous large projects, and the installation place is fixed; the security key part monitoring system is a fixed focus camera and does not move.

Preferably, in the above technical scheme, the safety risk video monitoring system is used for a tunnel underground excavation working face, the general working face monitoring system is used for a steel bar processing field, and the public security key part monitoring system is used for various material storehouses, power distribution areas and living areas.

Preferably, in the above technical solution, the hidden danger database includes two categories of safety and quality, the safety includes safety management, fire safety, and emergency power supply, and the quality includes quality management, waterproof engineering, and steel bar engineering.

Preferably, in the above technical scheme, after the hidden trouble is uploaded, the mobile phone APP or the Web connected to the server may search the corresponding hidden trouble problem category in the database by inputting a keyword or searching a hidden trouble list, and then perform the hidden trouble description and rectification requirements.

Preferably, in the above technical solution, the Web end is connected to the server through a wire.

Preferably, in the above technical solution, the mobile phone APP end and the server end are wirelessly connected

The technical scheme of the invention has the following beneficial effects:

(1) the development and application of intelligent integrated software eliminate the problems of potential safety hazards and quality hazards, greatly improve the rectification efficiency and ensure the continuous and safe production of projects;

(2) the investment of human resources can be effectively reduced under the environment that the labor cost is increasingly high, the working efficiency is improved, the accuracy and the timeliness of data can be ensured, and the economic benefit is remarkable;

(3) the intelligent integrated service of Internet and potential safety quality hazard management is realized by integrating paperless office, automatically forming safety and quality inspection file records, combining the portability of information resources and mobile phones, integrating video monitoring, potential safety hazard troubleshooting and safety quality data analysis.

Detailed Description

Specific examples of the invention are described in detail below to facilitate a further understanding of the invention.

All experimental procedures used in the following examples are conventional unless otherwise specified. Materials, reagents and the like used in the following examples are commercially available unless otherwise specified.

Example 1

A certain contract section of a certain number of lines of Beijing subway. Two connection channels, one connection channel serving as a pump room, one interval air shaft serving as a track panel well and two shield starting shafts serving as construction vertical shafts are arranged in the interval. The station is a three-line transfer station, the main structure is an underground four-layer three-span frame structure, the upper part of the north section of the main body and the public transportation junction are constructed in the same period, open excavation is adopted for construction, and the excavation depth of a foundation pit is 29.00 m.

Research and development ideas and objects

The APP software research and development is divided into three stages: the method comprises the following steps that an integrated video monitoring system is developed in the first stage, and the situation of field operation is checked through mobile phone APP software; the second stage integrates the hidden danger checking function to realize the real-time transmission of the hidden danger; and in the third stage, intelligent real-time analysis capability of the APP software is realized through labeling of risk levels, types and the like of the hidden danger problems. The sustainable development of the software is realized through the modularized addition function, the bug of the management flow is repaired through the practical application of each stage, the software function is optimized, and the controllability of the software is improved. Through the research and development of three stages, the software service function is effectively improved.

(1) Video integration phase

And in 2017, 9, 22, a research and development group of department of projects completes the software development of the first stage, and the function of interconnecting the mobile phone client and the on-site video monitoring is realized. And clicking the camera at the position in the project work point map through software to realize real-time checking of the construction state of the construction work site at the position. In the software development process, a research and development group divides a video monitoring system of a construction site into three systems, namely a safety risk video monitoring system, a general working face monitoring system, a security key part monitoring system and the like; the safety risk video monitoring camera completely covers a project area with high risk and high risk exceeding a certain scale. And establishing a monitoring camera mounting method, such as a tunnel underground excavation working face, and arranging a specially-assigned person to manage the camera to closely follow the excavation working face. The general operation surface monitoring system is mainly used in places where large projects are not dangerous and workers work intensively, and the installation place is fixed, such as a steel bar processing field; the security key part monitoring camera is generally a fixed focus camera and does not move, and the monitoring key points are various material storehouses, power distribution areas, living areas and the like.

In the use process of software, through practical operation experience, a screen capture function in the video watching process is added by a research and development group, and a screen capture is automatically stored in a mobile phone album, so that convenience is brought to online of the next hidden danger troubleshooting function. The monitoring video image is rotated, stretched and zoomed by gesture operation, so that management personnel can conveniently patrol and examine each operation surface on site. And a switching key is added in the monitoring picture, so that the monitoring pictures can be browsed one by one conveniently.

(2) Investigation of hidden danger

And in 2018, 28 months 2, the project department completes the development of APP software in the second stage, and the hidden danger troubleshooting and law enforcement function of the mobile phone client is realized. The core of the hidden danger investigation is classification and identification of hidden danger data, a project department always executes a problem base management system after long-term management, and the project department compiles a safety and quality control key point manual by combining documents such as laws, regulations, standards and the like on the basis of a problem base ledger in the past year and divides the hidden danger problems of a construction site into two categories of safety and quality. In the security class, all hidden danger problems are divided into 18 subclasses such as safety management, fire safety, emergency power and the like, the total number of the potential danger problems is 101 items and 330 items, the quality of the potential danger problems is divided into 141 subclasses such as quality management, waterproof engineering, reinforcing steel bar engineering and the like, the database is updated according to seasons, the hidden danger data are ensured to be in line with the actual situation of the engineering, and the current standard is matched with the hidden danger troubleshooting basis.

Through practical application, the research and development group carries out continuous deep optimization and upgrading in the aspect of hidden danger information transmission, and the hidden danger information push function is added. For the hidden danger of uploading in field implementation, the system can automatically push information in software, and can also push hidden danger information to a rectification responsible person and a hidden danger related person (such as a responsible person at a work site where a problem is located) in a short message mode, so that the timeliness and the accuracy of information transmission are ensured, and the hidden danger of field investigation can be valued and rectified at the first time.

The research and development group optimizes the hidden danger uploading function, can search the corresponding hidden danger problem category in the database by inputting keywords or searching a hidden danger list, and then carries out the description and the rectification requirements of the hidden danger problems. And the information of the work area, the labor crew, the rectification time, the rectification responsible person, the acquaintance and the like related to the hidden danger can be clicked and selected in the menu, so that the operation is convenient and quick. The photo can be imported by calling a mobile phone camera by using software, and can also be selected by accessing a mobile phone photo album. Through function optimization, a skilled person uploads hidden danger information and takes a picture in a mobile phone APP after finding hidden danger, the time consumption is averagely less than 1 minute, and the first-time contact person can finish the uploading of the hidden danger information within 2 minutes under the condition of field guidance.

At the beginning of developing a hidden danger troubleshooting module, the problem of archiving hidden danger records is solved. All problems that APP software uploaded can all draw the hidden danger problem inspection record that needs formed at the control backstage of software as required, according to the five definite principles of hidden danger rectification, automatic formation and derivation inspection record and rectification record have both ensured the overall process transparence of hidden danger problem rectification, leave field management's inspection vestige again, reduce work load by a wide margin simultaneously, promote work efficiency comprehensively. Through comparison, the time spent by the rectifying personnel for manually filling the form, editing the photo and closing the inspection record is about 90 minutes, and only 1 minute is needed by software to export a qualified inspection record from the background.

(3) Intelligent analysis

Each construction unit regularly calls the safety quality example every week and every month, the safety and quality management department of the department of project needs to summarize hidden danger problems occurring on site for one week or more than one month, and data comparison and analysis are carried out through the hidden danger quantity, and the work area and the labor force are quantitatively examined. Because the number of construction work points is large, the hidden danger problem is various, the manual statistical analysis is performed in 2 days by needing each specially-assigned person of a safety and quality management department, the basic workload of the logical relationship of data is large, the requirement on the work fineness of statistical personnel is high, and the auditing workload of recheckers is increased accordingly. A data error may cause a chain reaction, which cannot reflect the actual production management situation on site. In order to effectively solve the problem, on the basis of the second-stage hidden danger investigation, a research and development group carries out third-stage intelligent data analysis module development.

And labeling the set hidden danger data on the basis of a second-stage safety and quality hidden danger problem database, wherein each hidden danger data has a corresponding hidden danger level, and checking a deduction standard and punishing money. The hidden danger problem found is subjected to homotagging setting through a hidden danger database selected during hidden danger uploading, and data tags of a work area, a team, a responsible person and the like which can be clicked and selected are uploaded by adding the hidden danger, so that the datamation of the hidden danger problem is realized; the safety and quality assessment data comparison between the work area and the labor team is embodied in real time, the data comparison is carried out according to the type of the hidden danger problem, a systematic statistical chart of the development trend and the like of the hidden danger problem is formed, and the hidden danger problem is conveniently and accurately positioned and managed in the process. All statistical data reports reflect real-time change on the basis of hidden trouble shooting, thus thoroughly solving the inaccuracy and low efficiency of manual data analysis, and ensuring accurate quantitative assessment work and safety management data analysis and clear management guide.

The application benefits are as follows:

the research and development of intelligent integrated software of 'Internet + safety quality hidden danger management' finds 1416 safety and quality hidden danger problems in accumulated investigation in the construction stage of a certain contract section of a certain number of lines of Beijing subway, and the whole modification time limit of the hidden danger problems is completed within 24 hours. Has wide application prospect.

The innovative research and development of the 'Internet + potential safety quality hazard management' software enables the investment of human resources to be effectively reduced under the environment that the labor cost is increasingly high, the working efficiency is improved, the accuracy and the timeliness of data can be guaranteed, and the economic benefit is remarkable.

In the aspect of social benefit, the intelligent integrated service concept of construction enterprises in Internet and construction safety quality hidden danger management is further improved, the problems of safety and quality hidden dangers are effectively controlled, and safety production accidents are avoided. The innovative method for online dynamic control of safety quality has good popularization significance, and can provide reference for various construction projects.

Although the present invention has been described with reference to the above embodiments, it should be understood that the present invention is not limited thereto, and various changes and modifications may be made by those skilled in the art without departing from the spirit and scope of the present invention.

Claims (8)

1. The management method is characterized in that a server, a Web end, a mobile phone APP end and a monitoring system are utilized to realize that a mobile phone APP checks construction site operation in real time, compares the potential hazards with a system potential hazard database, finds the potential hazards and pushes the potential hazards to relevant responsible persons in real time so as to correct the potential hazards, and then carries out intelligent analysis management on safety construction through inspection records and correction records of potential hazard problems.

2. The method for managing the hidden danger of construction safety and quality under the internet-based environment according to claim 1, wherein the method for managing the hidden danger of construction safety and quality under the internet-based environment comprises the following steps:

(1) the mobile phone APP end is connected with a monitoring system of a construction site, a construction video of the construction operation site can be checked in real time through the mobile phone APP, screenshot, rotation, stretching, zooming and any switching among a plurality of monitoring pictures can be carried out on the construction video at any time, and the construction screenshot is stored in a mobile phone album so as to facilitate subsequent hidden trouble shooting;

(2) the construction screenshot and the hidden danger database are automatically identified, hidden dangers are distinguished, if hidden dangers are found, the mobile phone APP end automatically pushes the hidden dangers to a rectification responsible person and hidden danger related persons in a short message mode, the mobile phone APP end and the server automatically store related hidden danger records and information at the same time, corresponding hidden danger problem categories can be searched in the database by inputting keywords or searching a hidden danger list, then hidden danger problem description and rectification requirements are carried out, and inspection records and rectification records are automatically formed and led out;

(3) on the basis of a hidden danger database, the found hidden danger problems are labeled, each hidden danger data has a corresponding hidden danger level, data comparison is carried out according to the type and the level of the hidden danger problems, a hidden danger problem development trend table or graph is formed, and the hidden danger problems are conveniently and accurately positioned and managed.

3. The method for managing the hidden danger of construction safety quality under the internet environment according to claim 2, wherein the monitoring system comprises a safety risk video monitoring system, a general working face monitoring system and a security key part monitoring system; the safety risk video monitoring system completely covers a project area with high risk and high risk exceeding a certain scale; the general operation surface monitoring system is mainly a place where the work of workers is intensive in non-dangerous large projects, and the installation place is fixed; the security key part monitoring system is a fixed focus camera and does not move.

4. The method for managing the hidden danger of construction safety and quality under the internet environment according to claim 3, wherein the safety risk video monitoring system is used for a tunnel underground excavation working face, the general working face monitoring system is used for a steel bar processing field, and the public security key part monitoring system is used for various material storehouses, power distribution areas and living areas.

5. The method for managing the construction safety and quality hidden dangers under the internet environment as claimed in claim 2, wherein the hidden danger database comprises two categories of safety and quality, wherein the safety includes safety management, fire safety and emergency power, and the quality includes quality management, waterproof engineering and reinforcing steel bar engineering.

6. The method for managing the hidden danger of construction safety and quality under the internet environment as claimed in claim 2, wherein after the hidden danger is uploaded, the mobile phone APP terminal or the Web terminal connected with the server can search the corresponding hidden danger problem category in the database by inputting keywords or searching a hidden danger list, and then the hidden danger problem description and rectification requirements are carried out.

7. The method for managing the hidden danger of construction safety and quality under the internet-based environment according to claim 1, wherein the Web end is connected with the server through a wire.

8. The method for managing the construction safety quality hidden danger in the internet-based environment according to claim 1, wherein the mobile phone APP terminal is in wireless connection with the server terminal.