CN110782134A - Engineering quality monitoring method and system - Google Patents
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Abstract
The invention provides a method and a system for monitoring engineering quality, which discover a distribution area where quality problems occur by associating a BIM model to form a historical record for later inquiry, and can immediately compile and push the problems to related responsible persons in the form of an electronic form. The instruction of the rectification notice of the quality problem can be initiated at any time through the APP terminal of the mobile phone, so that the office is not limited to an office. The information degree of the engineering project can be improved, and a higher-efficiency operation mode is provided for project quality monitoring. The invention improves the operation efficiency of quality problem rectification notification and makes up the defect that a two-dimensional plane cannot be expressed.
Description
Technical Field
The invention relates to a method and a system for monitoring engineering quality.
Background
Generally, a supervisor in project management manages project engineering quality through a quality adjustment sheet and the like, most of the project management is a paper data circulation storage mode, and the traditional method causes a series of problems:
1. problems found by field patrol must be recorded and then written in an office, so that the supervision difficulty is increased.
2. It is difficult to clearly express the actual morphology of the quality problem by the two-dimensional form of the textual description and the photograph.
3. The paper problem rectification single flow rotating speed is slow, and the paper problem rectification single flow rotating speed is very easy to lose, so that the problem cannot be solved in time, and the efficiency is low.
4. No system for statistical analysis of the overall problem is formed and no effective empirical summary can be performed.
Disclosure of Invention
The invention aims to provide a method and a system for monitoring engineering quality.
In order to solve the above problems, the present invention provides a method for monitoring engineering quality, comprising:
building a BIM model of the engineering;
acquiring a rectification notification of the quality problem in the project from a mobile phone end of a supervisor, and associating the rectification notification of the quality problem to a corresponding position in a BIM (building information modeling);
and pushing the rectification notice of the quality problem associated with the corresponding position in the BIM to a mobile phone end of a responsible person.
Further, in the above method, obtaining a correction notification of the quality problem in the project from a mobile phone of a supervisor comprises:
and acquiring a correction notice of the quality problem in the project, wherein the correction notice comprises a summary name, the positioning of a specific position, the specific description of the quality problem, a related person in charge, the classification of the problem and the time required for finishing the correction, from a mobile phone end of a supervisor.
Further, in the above method, in the rectification notice of quality problem in engineering including summary name, location of specific position, specific description of quality problem, related person in charge, classification of problem and required rectification completion time, obtained from the mobile phone of the supervisory personnel,
the specific position is positioned by a GPS position of a cell phone end of a supervisor.
Further, in the above method, after pushing the rectification notification of the quality problem associated with the corresponding position in the BIM model to the mobile phone of the responsible person, the method further includes:
and obtaining feedback corresponding to the rectification notice of the quality problem from the mobile phone end of the responsible person, and sending the feedback to the mobile phone end of the supervisory person.
Further, in the above method, after obtaining a feedback of the rectification notification corresponding to the quality problem from a mobile phone of a responsible person and sending the feedback to a mobile phone of a supervising person, the method further includes:
and carrying out classification statistics based on the rectification notice of the quality problem and the corresponding feedback thereof to form corresponding chart statistical information.
According to another aspect of the present invention, there is also provided an engineering quality monitoring system, comprising:
the model building module is used for building a BIM model of the engineering;
the platform module is used for acquiring a correction notice of the quality problem in the project from a mobile phone end of a supervisor, and associating the correction notice of the quality problem to a corresponding position in a BIM (building information modeling); and pushing the rectification notice of the quality problem associated with the corresponding position in the BIM model to a mobile phone end of a responsible person.
Further, in the above system, the platform module is configured to obtain, from a mobile phone of a supervisory person, a rectification notification of the quality problem in the project, where the rectification notification includes a summary name, a location of a specific location, a specific description of the quality problem, a relevant responsible person, a classification of the problem, and a time required for completion of rectification.
Further, in the above system, the GPS at the cell phone end of the monitoring person generates the location of the specific location.
Further, in the above system, the platform module is configured to obtain a feedback of the correction notification corresponding to the quality problem from a mobile phone terminal of a responsible person, and send the feedback to a mobile phone terminal of a supervisory person.
Further, in the above system, the platform module is configured to perform classification statistics based on the correction notification of the quality problem and the corresponding feedback thereof, so as to form corresponding chart statistical information.
Compared with the prior art, the method and the device have the advantages that the distribution area where the quality problem occurs is found by associating the BIM, the historical record is formed and can be inquired in the later period, and the problem finder can write immediately and can push the problem to the related responsible person in the form of the electronic form. The instruction of the rectification notice of the quality problem can be initiated at any time through the APP terminal of the mobile phone, so that the office is not limited to an office. The information degree of the engineering project can be improved, and a higher-efficiency operation mode is provided for project quality monitoring. The invention improves the operation efficiency of quality problem rectification notification and makes up the defect that a two-dimensional plane cannot be expressed.
Drawings
Fig. 1 is a flowchart of a method for monitoring engineering quality according to an embodiment of the present invention.
Detailed Description
In order to make the aforementioned objects, features and advantages of the present invention comprehensible, embodiments accompanied with figures are described in further detail below.
As shown in fig. 1, the present invention provides a method for monitoring engineering quality, comprising:
step S1, building a BIM model of the project;
the BIM technology can be applied to modeling of the project to be built, and the BIM model is accessed to the platform to form a rich three-dimensional database;
step S2, acquiring a correction notice of the quality problem in the project from a mobile phone end of a supervisor, and associating the correction notice of the quality problem to a corresponding position in a BIM model;
here, a project supervisor patrols the site, finds quality problems, and checks the specific position corresponding to the BIM model;
and step S3, pushing the correction notice of the quality problem associated with the corresponding position in the BIM model to the mobile phone end of the responsible person.
The project management platform can be developed and applied through technologies such as the internet of things, the internet and cloud technologies based on the background of the information era, serves project participants to better monitor projects, and meets the actual requirements of enterprise levels on project monitoring.
The BIM technology (building information model) is based on the information data of the construction engineering, and builds a building model, and simulates the real information of the building through digital information.
The BIM lightweight engine can smoothly browse and cooperatively work the BIM model in a tablet and a mobile phone which are commonly configured.
The system administrator sets an independent account according to the project department, gives corresponding authority to the independent account, and can log in through a computer end and a mobile phone end to realize data intercommunication.
According to the invention, through associating the BIM model, the distribution area where the quality problem occurs is found, a history record is formed, the history record can be used for later-stage query, and through the form of an electronic form, a problem finder can write immediately and can push the problem to a related person in charge. The instruction of the rectification notice of the quality problem can be initiated at any time through the APP terminal of the mobile phone, so that the office is not limited to an office. The information degree of the engineering project can be improved, and a higher-efficiency operation mode is provided for project quality monitoring. The invention improves the operation efficiency of quality problem rectification notification and makes up the defect that a two-dimensional plane cannot be expressed.
In an embodiment of the engineering quality monitoring method of the present invention, in step S2, the obtaining, from the cell phone of the supervisory person, a correction notification of the quality problem in the engineering includes:
and acquiring a correction notice of the quality problem in the project, wherein the correction notice comprises a summary name, the positioning of a specific position, the specific description of the quality problem, a related person in charge, the classification of the problem and the time required for finishing the correction, from a mobile phone end of a supervisor.
Here, a series of options such as a summary name, positioning of a specific position, specific description of a quality problem, a related person in charge, classification of a problem, time required for finishing rectification, and the like are filled in through a form of initiating an instruction by a mobile phone terminal, and editing is finished on site.
In one embodiment of the engineering quality monitoring method, a correction notice of the quality problems in the engineering, which comprises a summary name, the positioning of a specific position, the specific description of the quality problems, related persons in charge, the classification of the problems and the time required for finishing the correction, is obtained from a mobile phone end of a supervisor,
the specific position is positioned by a GPS position of a cell phone end of a supervisor.
Here, the location system and the model are combined to locate the problem site in detail.
In an embodiment of the engineering quality monitoring method of the present invention, in step S3, after pushing the correction notification of the quality problem associated with the corresponding position in the BIM model to the mobile phone of the responsible person, the method further includes:
and obtaining feedback corresponding to the rectification notice of the quality problem from the mobile phone end of the responsible person, and sending the feedback to the mobile phone end of the supervisory person.
Here, the mobile phone end of the supervisor can check the feedback condition of the correction notice of the quality problem at any time.
In an embodiment of the engineering quality monitoring method of the present invention, after obtaining a feedback of the rectification notification corresponding to the quality problem from a mobile phone of a responsible person and sending the feedback to a mobile phone of a supervisory person, the method further includes:
and carrying out classification statistics based on the rectification notice of the quality problem and the corresponding feedback thereof to form corresponding chart statistical information.
Here, the project management platform may perform classification statistics on the correction notification of the quality problem and the corresponding feedback thereof to form a required chart form, which may include parameters such as the number of problems and the correction percentage. The method can form the sorting and the chart of various problems, is convenient to summarize experience, and provides a more real basis for engineering claims.
The invention provides an engineering quality monitoring system, comprising:
the model building module is used for building a BIM model of the engineering;
the BIM technology can be applied to modeling of the project to be built, and the BIM model is accessed to the platform to form a rich three-dimensional database;
the platform module is used for acquiring a correction notice of the quality problem in the project from a mobile phone end of a supervisor, and associating the correction notice of the quality problem to a corresponding position in a BIM (building information modeling); and pushing the rectification notice of the quality problem associated with the corresponding position in the BIM model to a mobile phone end of a responsible person.
Here, a project supervisor patrols the site, finds quality problems, and checks the specific position corresponding to the BIM model;
the project management platform can be developed and applied through technologies such as the internet of things, the internet and cloud technologies based on the background of the information era, serves project participants to better monitor projects, and meets the actual requirements of enterprise levels on project monitoring.
The BIM technology (building information model) is based on the information data of the construction engineering, and builds a building model, and simulates the real information of the building through digital information.
The BIM lightweight engine can smoothly browse and cooperatively work the BIM model in a tablet and a mobile phone which are commonly configured.
The system administrator sets an independent account according to the project department, gives corresponding authority to the independent account, and can log in through a computer end and a mobile phone end to realize data intercommunication.
According to the invention, through associating the BIM model, the distribution area where the quality problem occurs is found, a history record is formed, the history record can be used for later-stage query, and through the form of an electronic form, a problem finder can write immediately and can push the problem to a related person in charge. The instruction of the rectification notice of the quality problem can be initiated at any time through the APP terminal of the mobile phone, so that the office is not limited to an office. The information degree of the engineering project can be improved, and a higher-efficiency operation mode is provided for project quality monitoring. The invention improves the operation efficiency of quality problem rectification notification and makes up the defect that a two-dimensional plane cannot be expressed.
In an embodiment of the engineering quality monitoring system of the present invention, the platform module is configured to obtain, from a mobile phone of a supervisor, a rectification notification of the quality problem in the engineering, where the rectification notification includes a summary name, a location of a specific location, a specific description of the quality problem, a related responsible person, a classification of the problem, and a time required for completion of rectification.
Here, a series of options such as a summary name, positioning of a specific position, specific description of a quality problem, a related person in charge, classification of a problem, time required for finishing rectification, and the like are filled in through a form of initiating an instruction by a mobile phone terminal, and editing is finished on site.
In an embodiment of the engineering quality monitoring system of the present invention, the GPS of the cell phone of the supervisory person generates the location of the specific position.
Here, the location system and the model are combined to locate the problem site in detail.
In an embodiment of the engineering quality monitoring system of the present invention, the platform module is configured to obtain a feedback of the correction notification corresponding to the quality problem from a mobile phone terminal of a responsible person, and send the feedback to a mobile phone terminal of a supervising person.
Here, the mobile phone end of the supervisor can check the feedback condition of the correction notice of the quality problem at any time.
In an embodiment of the engineering quality monitoring system of the present invention, the platform module is configured to perform classification statistics based on the correction notification of the quality problem and corresponding feedback thereof to form corresponding chart statistical information.
Here, the project management platform may perform classification statistics on the correction notification of the quality problem and the corresponding feedback thereof to form a required chart form, which may include parameters such as the number of problems and the correction percentage. The method can form the sorting and the chart of various problems, is convenient to summarize experience, and provides a more real basis for engineering claims.
The embodiments in the present description are described in a progressive manner, each embodiment focuses on differences from other embodiments, and the same and similar parts among the embodiments are referred to each other.
Those of skill would further appreciate that the various illustrative elements and algorithm steps described in connection with the embodiments disclosed herein may be implemented as electronic hardware, computer software, or combinations of both, and that the various illustrative components and steps have been described above generally in terms of their functionality in order to clearly illustrate this interchangeability of hardware and software. Whether such functionality is implemented as hardware or software depends upon the particular application and design constraints imposed on the implementation. Skilled artisans may implement the described functionality in varying ways for each particular application, but such implementation decisions should not be interpreted as causing a departure from the scope of the present invention.
It will be apparent to those skilled in the art that various changes and modifications may be made in the invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.
Claims (10)
1. A method for monitoring engineering quality is characterized by comprising the following steps:
building a BIM model of the engineering;
acquiring a rectification notification of the quality problem in the project from a mobile phone end of a supervisor, and associating the rectification notification of the quality problem to a corresponding position in a BIM (building information modeling);
and pushing the rectification notice of the quality problem associated with the corresponding position in the BIM to a mobile phone end of a responsible person.
2. The project quality monitoring method according to claim 1, wherein the obtaining of the correction notice of the quality problem in the project from the mobile phone of the supervisor comprises:
and acquiring a correction notice of the quality problem in the project, wherein the correction notice comprises a summary name, the positioning of a specific position, the specific description of the quality problem, a related person in charge, the classification of the problem and the time required for finishing the correction, from a mobile phone end of a supervisor.
3. The project quality monitoring method according to claim 2, characterized in that, in the correction notice of the quality problem in the project, which includes the summary name, the location of the specific position, the specific description of the quality problem, the related responsible person, the classification of the problem and the time required for finishing the correction, is obtained from the mobile phone end of the supervisor,
the specific position is positioned by a GPS position of a cell phone end of a supervisor.
4. The engineering quality monitoring method according to claim 1, wherein after pushing the correction notification of the quality problem associated to the corresponding position in the BIM model to the cell phone of the responsible person, further comprising:
and obtaining feedback corresponding to the rectification notice of the quality problem from the mobile phone end of the responsible person, and sending the feedback to the mobile phone end of the supervisory person.
5. The project quality monitoring method according to claim 4, wherein after obtaining feedback corresponding to the correction notification of the quality problem from a mobile phone end of a responsible person and sending the feedback to a mobile phone end of a supervisor, the method further comprises:
and carrying out classification statistics based on the rectification notice of the quality problem and the corresponding feedback thereof to form corresponding chart statistical information.
6. An engineering quality monitoring system, comprising:
the model building module is used for building a BIM model of the engineering;
the platform module is used for acquiring a correction notice of the quality problem in the project from a mobile phone end of a supervisor, and associating the correction notice of the quality problem to a corresponding position in a BIM (building information modeling); and pushing the rectification notice of the quality problem associated with the corresponding position in the BIM model to a mobile phone end of a responsible person.
7. The project quality monitoring system according to claim 6, wherein the platform module is used for obtaining a correction notice of the quality problems in the project from a mobile phone end of a supervisor, wherein the correction notice comprises a summary name, a location of a specific position, a specific description of the quality problems, a related person in charge, a classification of the problems and a time required for completion of correction.
8. The project quality monitoring system of claim 7, wherein the GPS location of the supervisory personnel's mobile phone end generates the location of the specific location.
9. The engineering quality monitoring system of claim 6, wherein the platform module is configured to obtain feedback corresponding to the correction notification of the quality problem from a mobile phone of a responsible person, and send the feedback to a mobile phone of a supervisory person.
10. The engineering quality monitoring system of claim 9, wherein the platform module is configured to perform classification statistics based on the correction notification of the quality problem and its corresponding feedback to form corresponding chart statistics.
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Application publication date: 20200211 |