CN110472858B - Construction engineering supervision information management method - Google Patents
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Abstract
The invention relates to a construction project supervision information management method, which belongs to the technical field of project supervision, and the technical scheme is characterized in that a construction area is provided with a project supervision information management and control system, wherein the project supervision information management and control system comprises a parameter input module, a dangerous source database, a mobile terminal, a central processing module and a display module; the parameter input module is used for inputting the current engineering scale parameters; the dangerous source database stores dangerous source data information of engineering projects; the mobile terminal is used for collecting dangerous source information affecting the project; the central processing module is used for generating a progress influence factor and correcting project progress information according to the progress influence factor; the method solves the problems that the existing project supervision information management cannot count the integral influence of the modification of the dangerous source on project progress in the construction process, and is not beneficial to supervision personnel to perform project node supervision management; the dangerous source in the project construction process can be analyzed and evaluated, and project node management is convenient for supervision staff.
Description
Technical Field
The invention relates to the technical field of engineering supervision, in particular to a construction engineering supervision information management method.
Background
The project supervision refers to the commission of the supervision unit with relevant qualification by the first party, and represents a specialized service activity of monitoring the project construction of the second party by the first party according to the project construction files approved by the country, laws and regulations related to the project construction, the project construction supervision contracts and other project construction contracts. Engineering supervision is a paid engineering consultation service; the method is entrusted by a first party, the main basis of supervision is laws, regulations, technical standards, related contracts and files, the guidelines of supervision are law, integrity, fairness and science, the purpose of supervision is to ensure engineering construction quality and safety, improve engineering construction level, fully exert investment benefits, gradually deepen along with the reform of the national construction field, gradually perfect building legislation, and the construction supervision system becomes a legal basic system in the engineering construction field of China, and the position of supervision in engineering construction is important.
The traditional engineering supervision information management is to manually fill out various forms, and manually transmit and manage information. Along with the informatization of society, the information of engineering supervision is managed by adopting a software system based on an intelligent platform in an auxiliary way, so that the method is widely and widely applied. The auxiliary software system of the existing engineering supervision can refer to the Chinese patent application document with the publication number of CN107705020A, and discloses an engineering supervision information management and control system, which comprises: the system comprises a client, a server and a server, wherein the client comprises a personal office unit, a comprehensive management unit, an information center unit, an operation management unit, a safety quality management unit, a project management unit, a system management unit, a training management unit and a file management unit; the server side is used for receiving the data transmitted by the client side for analysis and control, returning analysis and control result data to the client side, and transmitting the original data and the analysis and control result data to the database for storage; the database is used for storing data transmitted by the server side.
In engineering construction, some dangerous sources exist, and the dangerous sources need to be corrected in time, when a supervision person finds the dangerous sources in the supervision process, the supervision person needs to prompt a constructor to correct the dangerous sources in time, so that production or safety accidents are avoided; the existing engineering supervision information management cannot count the integral influence of the dangerous source correction on project progress in the construction process, so that project node supervision management by supervision personnel is not facilitated.
Disclosure of Invention
The invention aims to provide an engineering construction project supervision information management and control method which can analyze and evaluate dangerous sources in the project construction process and is convenient for supervision personnel to manage project nodes.
The above object of the present invention is achieved by the following technical solutions: setting an engineering supervision information management and control system in a construction area, wherein the engineering supervision information management and control system comprises a parameter input module, a dangerous source database, a mobile terminal, a central processing module and a display module;
the parameter input module is used for inputting the current engineering scale parameters and sending the engineering scale parameters to the central processing module;
the dangerous source database stores dangerous source data information of engineering projects;
the mobile terminal is used for collecting dangerous source information affecting the project and sending the collected information to the central processing module;
the central processing module generates project progress information according to the engineering scale parameter information input by the parameter input module; the central processing module searches data information in the dangerous source database according to the acquired information sent by the mobile terminal, generates a progress influence factor and corrects project progress information according to the progress influence factor;
and the display module displays and outputs project progress information generated by the central processing module.
By adopting the technical scheme, the central processing module generates project progress information according to the engineering scale parameter information input by the parameter input module, and further, supervision and examination of the project progress are facilitated for supervision staff according to the progress information; some dangerous sources existing in the construction process need to be modified in time, so that safety production accidents are avoided, different dangerous sources need to consume different manpower and material resources, the required modification time is different, and the central processing module generates project progress information according to engineering scale parameter information input by the parameter input module; the central processing module searches the data information in the dangerous source database according to the acquired information sent by the mobile terminal, generates a progress influence factor, corrects project progress information according to the progress influence factor, and further facilitates constructors to adjust construction schemes in time.
The invention is further provided with: the mobile terminal comprises a manual input module and a wireless communication module, wherein the manual input module is used for inputting dangerous source information and sending the dangerous source information to the wireless communication module, and the wireless communication module sends the dangerous source information input by the manual input module to the central processing module through a wireless network.
Through adopting above-mentioned technical scheme, the prisoner is patrolled and examined the supervision in-process and is carried about mobile terminal, behind the dangerous source of inspection in-process discovery, through manual input module input current dangerous source information, and then send current dangerous source information to central processing module through wireless communication module, central processing module carries out analysis processing to dangerous source information again to make things convenient for the staff efficient to gather dangerous source information.
The invention is further provided with: the mobile terminal further comprises an image acquisition module, wherein the image acquisition module is used for acquiring images of the external environment and sending acquired image information to the wireless communication module, and the wireless communication module sends the image information to the central processing module through a wireless network.
By adopting the technical scheme, the mobile terminal comprises an image acquisition module, the image acquisition module can acquire images of the external environment, the wireless communication module is used for sending the images to the central processing module, and the central processing module can identify and judge the image information to generate progress influence factors; through the image acquisition module staff can utilize convenient and fast gather external dangerous source information, make things convenient for the staff to operate.
The invention is further provided with: the mobile terminal also comprises a GPS positioning module, wherein the GPS positioning module is used for positioning the current position of the mobile terminal and sending positioning information to the wireless communication module, and the wireless communication module is used for sending the positioning information to the central processing module through a wireless network; the central processing module generates position track information according to the positioning information, and sends the position track information to the display module, and the display module displays and outputs the position track information.
Through adopting above-mentioned technical scheme, mobile terminal is provided with GPS positioning module, and then can carry out the record to the route of patrolling and examining of supervision personnel to make things convenient for the manager of backstage to look over the route of patrolling and examining of each supervision personnel, conveniently manage comprehensively the engineering supervision.
The invention is further provided with: the system comprises a construction area, a satellite remote sensing imaging module, an unmanned aerial vehicle acquisition module and a central processing module, wherein the satellite remote sensing imaging module carries out remote sensing imaging on the construction area and sends remote sensing imaging information to the central processing module; the unmanned aerial vehicle acquisition module carries out flight acquisition on the construction area according to the set track and sends flight acquisition image information to the central processing module; and the central processing module performs image fitting according to the remote sensing imaging information and the flight acquisition image information to generate a three-dimensional live-action map, and sends the three-dimensional live-action map to the display module for display output.
Through adopting above-mentioned technical scheme, synthesize the image acquisition through satellite remote sensing imaging module and unmanned aerial vehicle collection module to the construction area, and then generate three-dimensional live-action map through central processing module to the staff looks over the condition of construction area through display module, makes things convenient for the staff to monitor the construction area and looks over.
The invention is further provided with: and the central processing module marks the position of the dangerous source on the three-dimensional live-action map according to the position information of the dangerous source, and displays and outputs the dangerous source through the display module.
Through adopting above-mentioned technical scheme, central processing module marks the dangerous source position on three-dimensional live-action map according to the positional information of dangerous source to show the output through display module, and then make things convenient for the staff to carry out audio-visual observation to the position of dangerous source, conveniently carry out the rectification management work.
The invention is further provided with: and the central processing module marks the positions of the dangerous sources with different colors according to the progress influence factors of the dangerous sources.
Through adopting above-mentioned technical scheme, central processing module marks the dangerous source position with different colours according to the progress influence factor of dangerous source to make things convenient for the staff audio-visual to observe the dangerous source of each position to the influence condition of engineering progress.
The invention is further provided with: the central processing module generates modification scheme information according to the progress influence factors and sends the modification scheme information to the display module, and the display module displays and outputs the modification scheme information.
Through adopting above-mentioned technical scheme, central processing module generates the correction scheme according to progress influence factor to with correction scheme information transmission for display module, through display module to the correction scheme show output, thereby supply the staff to carry out the correction reference, make things convenient for the staff to carry out later stage correction to engineering project.
The invention is further provided with: the system comprises a central processing module, a short message sending module and a short message sending module, wherein the short message sending module stores mobile phone numbers of owners, the central processing module generates a correction report according to progress influence factors and a correction scheme, the correction report is sent to the short message sending module, and the short message sending module sends the correction report to mobile phone number service ends of the owners in a short message mode.
Through adopting above-mentioned technical scheme, through the setting of SMS transmission module, central processing module generates the correction report according to progress influence factor and correction scheme, and then in time sends the correction report to the owner through the SMS transmission module, and then makes the owner know current project correction content in time.
In summary, the beneficial technical effects of the invention are as follows:
1. the central processing module generates project progress information according to the project scale parameter information input by the parameter input module, and further, the project progress is conveniently managed and checked by a manager according to the progress information; some dangerous sources existing in the construction process need to be modified in time, so that safety production accidents are avoided, different dangerous sources need to consume different manpower and material resources, the required modification time is different, and the central processing module generates project progress information according to engineering scale parameter information input by the parameter input module; the central processing module searches the data information in the dangerous source database according to the acquired information sent by the mobile terminal, generates a progress influence factor, corrects project progress information according to the progress influence factor, and further facilitates constructors to adjust construction schemes in time;
2. the mobile terminal comprises a manual input module, an image acquisition module, a wireless communication module and a GPS positioning module, so that workers can acquire dangerous source information in the inspection process by using the mobile terminal in the engineering inspection process, and the dangerous source information is sent to the central processing module through a wireless network and is analyzed and processed by the central processing module;
3. through the setting of satellite remote sensing imaging module and unmanned aerial vehicle collection module, synthesize the image acquisition through satellite remote sensing imaging module and unmanned aerial vehicle collection module to the construction area, and then generate three-dimensional live-action map through central processing module to the staff looks over the condition of construction area through display module, makes things convenient for the staff to monitor the construction area and looks over.
Drawings
Fig. 1 is a functional block diagram of an engineering supervision information management and control system.
In the figure, 1, a parameter input module; 2. a hazard source database; 3. a mobile terminal; 31. a manual input module; 32. an image acquisition module; 33. a GPS positioning module; 34. a wireless communication module; 4. a central processing module; 5. a display module; 6. a short message sending module; 7. a satellite remote sensing imaging module; 8. and the unmanned aerial vehicle acquisition module.
Detailed Description
The present invention will be described in further detail with reference to the accompanying drawings.
Referring to fig. 1, an engineering supervision information management system is established in a construction area, and then supervision and control are performed on a construction process through the engineering supervision information management system. The engineering supervision information management and control system comprises a parameter input module 1, a hazard source database 2, a mobile terminal 3, a central processing module 4 and a display module 5. The hazard source database 2 stores hazard source data information of engineering projects. The mobile terminal 3 adopts intelligent devices such as a smart phone, a tablet personal computer, a PDA and the like, so that the mobile terminal is convenient for a supervision person to carry about. The central processing module 4 and the display module 5 adopt a background PC host and a background display to process and display the data collected by the front end of the mobile terminal 3, thereby facilitating construction reference by supervision personnel and construction.
When the engineering is managed, the current engineering scale parameters are input by the parameter input module 1 through peripherals such as a keyboard and the like, and the engineering scale parameters are sent to the central processing module 4. The central processing module 4 generates project progress information according to the engineering scale parameter information input by the parameter input module 1. The display module 5 displays and outputs the project progress information generated by the central processing module 4. And then, through the time node of the project progress information, the supervision personnel performs supervision and examination on the current project progress node.
Referring to fig. 1, some dangerous sources existing in the construction process need to be modified in time, so that safety production accidents are avoided. Different dangerous sources need consume different manpower and material resources, and the required correction time is different, and then can influence the construction progress of project. In daily work, the supervision personnel needs to carry out construction inspection on the project, and in the construction inspection process, the mobile terminal 3 is carried with the user. The mobile terminal 3 includes a manual input module 31, an image acquisition module 32, a GPS positioning module 33, and a wireless communication module 34. The manual input module 31 is used for inputting dangerous source information and sending the dangerous source information to the wireless communication module 34, and the wireless communication module 34 sends the dangerous source information input by the manual input module 31 to the central processing module 4 through a wireless network. The image acquisition module 32 is used for acquiring an image of an external environment, and sending acquired image information to the wireless communication module 34, and the wireless communication module 34 sends the image information to the central processing module 4 through a wireless network. The GPS positioning module 33 locates the position of the current mobile terminal 3 and transmits the location information to the wireless communication module 34, and the wireless communication module 34 transmits the location information to the central processing module 4 through a wireless network. In the inspection process, after the inspection staff finds the dangerous source needing to be rectified, the current dangerous source information is manually input through the manual input module 31 or the image acquisition is carried out on the dangerous source through the image acquisition module 32 by utilizing the camera on the mobile terminal 3, and then the acquired information is sent to the central processing module 4.
Referring to fig. 1, the central processing module 4 searches data information in the hazard source database 2 according to the acquired information sent by the mobile terminal 3, generates a progress influencing factor, corrects project progress information according to the progress influencing factor, and further obtains a corresponding time node of the delayed construction progress, so that constructors can timely adjust project construction. The central processing module 4 generates modification scheme information according to the progress impact factors, and sends the modification scheme information to the display module 5, and the display module 5 displays and outputs the modification scheme information. The supervision personnel and the constructors refer to the rectification scheme, and then a reasonable and efficient rectification scheme is formulated. The central processing module 4 generates position track information according to the positioning information of the GPS module, and sends the position track information to the display module 5, and the display module 5 displays and outputs the position track information. Therefore, the manager can observe the inspection track of the inspection manager, and further manage the inspection work conveniently.
Referring to fig. 1, the engineering supervision information management and control system further includes a short message sending module 6, a satellite remote sensing imaging module 7 and an unmanned aerial vehicle acquisition module 8. The short message sending module 6 stores the mobile phone number of the owner, the central processing module 4 generates a correction report according to the progress impact factor and the correction scheme, and sends the correction report to the short message sending module 6, and the short message sending module 6 sends the correction report to the mobile phone number server of the owner in a short message mode. And furthermore, when the project is modified, the owner is informed in time, so that the owner can conveniently monitor the project.
Referring to fig. 1, a satellite remote sensing imaging module 7 performs remote sensing imaging on a construction area, and transmits remote sensing imaging information to a central processing module 4; the unmanned aerial vehicle acquisition module 8 carries out flight acquisition on the construction area according to the set track and sends flight acquisition image information to the central processing module 4; the central processing module 4 performs image fitting according to the remote sensing imaging information and the flight acquisition image information to generate a three-dimensional live-action map, and sends the three-dimensional live-action map to the display module 5 for display output. The central processing module 4 marks the position of the dangerous source on the three-dimensional live-action map according to the position information of the dangerous source. The central processing module 4 marks the dangerous source positions with different colors according to the progress impact factors of the dangerous sources and displays and outputs the dangerous source positions through the display module 5. Through the three-dimensional live-action map of the construction area that display module 5 output, the supervision personnel of backstage can convenient and fast look over the state of construction area. The positions of the dangerous sources are marked with different colors according to the progress influence factors of different dangerous sources, so that the influence of each dangerous source on the project progress can be intuitively observed by using a supervisor.
The implementation principle of the embodiment is as follows:
the inspection attendant carries the mobile terminal 3 with him, and then when the dangerous source is found in the inspection process, the dangerous source is manually input or image acquisition is performed, and the dangerous source is sent to the central processing module 4 through the wireless network. The central processing module 4 generates a progress influencing factor by searching and analyzing the related content of the dangerous source database 2, corrects project progress information according to the progress influencing factor, and generates a correction scheme according to the progress influencing factor so as to guide constructors and proctoring staff to perform construction and correction operations.
The embodiments of the present invention are all preferred embodiments of the present invention, and are not intended to limit the scope of the present invention in this way, therefore: all equivalent changes in structure, shape and principle of the invention should be covered in the scope of protection of the invention.
Claims (8)
1. A construction engineering supervision information management method is characterized in that: the construction method comprises the steps that an engineering supervision information management and control system is arranged in a construction area and comprises a parameter input module (1), a dangerous source database (2), a mobile terminal (3), a central processing module (4) and a display module (5);
the parameter input module (1) is used for inputting current engineering scale parameters and sending the engineering scale parameters to the central processing module (4);
the dangerous source database (2) stores dangerous source data information of engineering projects;
the mobile terminal (3) is used for collecting dangerous source information affecting projects and sending the collected information to the central processing module (4), wherein the mobile terminal (3) comprises a manual input module (31) and a wireless communication module (34), the manual input module (31) is used for inputting the dangerous source information and sending the dangerous source information to the wireless communication module (34), and the wireless communication module (34) sends the dangerous source information input by the manual input module (31) to the central processing module (4) through a wireless network;
the central processing module (4) generates project progress information according to the engineering scale parameter information input by the parameter input module (1); the central processing module (4) searches the data information in the dangerous source database (2) according to the acquisition information sent by the mobile terminal (3), generates a progress influence factor and corrects project progress information according to the progress influence factor;
the display module (5) displays and outputs project progress information generated by the central processing module (4).
2. The construction engineering supervision information management method according to claim 1, wherein: the mobile terminal (3) further comprises an image acquisition module (32), wherein the image acquisition module (32) is used for acquiring images of the external environment and sending acquired image information to the wireless communication module (34), and the wireless communication module (34) sends the image information to the central processing module (4) through a wireless network.
3. The construction engineering supervision information management method according to claim 1, wherein: the mobile terminal (3) further comprises a GPS positioning module (33), the GPS positioning module (33) is used for positioning the position of the current mobile terminal (3) and sending positioning information to a wireless communication module (34), and the wireless communication module (34) is used for sending the positioning information to a central processing module (4) through a wireless network; the central processing module (4) generates position track information according to the positioning information and sends the position track information to the display module (5), and the display module (5) displays and outputs the position track information.
4. The construction engineering supervision information management method according to claim 1, wherein: the system also comprises a satellite remote sensing imaging module (7) and an unmanned aerial vehicle acquisition module (8), wherein the satellite remote sensing imaging module (7) carries out remote sensing imaging on a construction area and sends remote sensing imaging information to the central processing module (4); the unmanned aerial vehicle acquisition module (8) carries out flight acquisition on the construction area according to the set track and sends flight acquisition image information to the central processing module (4); the central processing module (4) performs image fitting according to remote sensing imaging information and flight acquisition image information to generate a three-dimensional live-action map, and sends the three-dimensional live-action map to the display module (5) for display output.
5. The construction engineering supervision information management method according to claim 4, wherein: the central processing module (4) marks the position of the dangerous source on the three-dimensional live-action map according to the position information of the dangerous source, and displays and outputs the dangerous source through the display module (5).
6. The construction engineering supervision information management method according to claim 5, wherein: the central processing module (4) marks the dangerous source positions in different colors according to the progress influence factors of the dangerous sources.
7. The construction engineering supervision information management method according to claim 1, wherein: the central processing module (4) generates modification scheme information according to the progress influence factors and sends the modification scheme information to the display module (5), and the display module (5) displays and outputs the modification scheme information.
8. The construction engineering supervision information management method according to claim 7, wherein: the mobile phone number management system further comprises a short message sending module (6), wherein the short message sending module (6) stores the mobile phone number of the owner, the central processing module (4) generates a correction report according to the progress impact factor and the correction scheme, the correction report is sent to the short message sending module (6), and the short message sending module (6) sends the correction report to the mobile phone number service end of the owner in a short message mode.
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| CN111126939B (en) * | 2019-11-22 | 2023-10-03 | 河北瑞池工程项目管理有限公司 | Project progress supervision control system |
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| CN112122221B (en) * | 2020-09-28 | 2021-07-16 | 广州南华工程管理有限公司 | Project supervision information management method based on Internet of things |
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| CN114739843B (en) * | 2022-03-10 | 2023-05-02 | 内蒙古锐信工程项目管理有限责任公司 | Construction monitoring method for building engineering supervision based on big data |
| CN115146933A (en) * | 2022-06-20 | 2022-10-04 | 深圳市城市公共安全技术研究院有限公司 | Processing method, system, equipment and storage medium for dangerous source explosion accident |
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