CN113902604A - Municipal engineering road water supply and drainage construction supervision method and system - Google Patents
Municipal engineering road water supply and drainage construction supervision method and system Download PDFInfo
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Abstract
The invention discloses a municipal engineering road water supply and drainage construction supervision method and system, and relates to the technical field of municipal engineering construction supervision. The method comprises the steps of scanning a field terrain to generate a three-dimensional model, leading the three-dimensional model into an evaluation module, carrying out risk evaluation, generating a risk grade report according to the risk evaluation, feeding the risk grade report back to a data platform, and reporting a depth detection marking area according to the risk grade; a supervision engineer carries out on-site detection on the numbered area in an engineering road field, and a three-dimensional laser scanner scans a field terrain to generate a three-dimensional model; the supervision system comprises a BIM model building module, and three-dimensional modeling is carried out on the uploaded digital terrain model epidermis through the BIM model to form an integral three-dimensional graph of a field area for the supervision engineer to detect. The data platform automatically informs a data administrator or a supervision engineer to carry out integration or reinspection after each detection and data integration, so that the construction period of the overall acceptance monitoring is shortened.
Description
Technical Field
The invention belongs to the technical field of municipal engineering road water supply and drainage construction, and particularly relates to a municipal engineering road water supply and drainage construction supervision method and system.
Background
Municipal engineering construction belongs to national infrastructure, mainly refers to infrastructure such as various public transport settings, water supply, drainage, gas, city flood control, sanitation and illumination in urban construction, is the essential material basis of city existence and development, wherein water supply, drainage system provide for people's life, production, municipal administration and elimination with water and waste water discharge facility's general name, supply the water yield and the quality of water that satisfy different demands to various different types of users, undertake the collection of user's precluded waste water simultaneously, carry and handle, reach the purpose of eliminating the pollutant in the waste water to health and environmental protection.
In the process of water supply and drainage construction of urban municipal engineering roads, firstly, construction units are required to carry out law-based project acquisition, then, reconnaissance units reconnaissance on construction sites, after the construction qualification is met, design units carry out law-based design on the project, construction units carry out construction after the design is completed, supervision units are required to strictly supervise the whole construction process in the construction process, wherein when the project is completed in the end period, the supervision units are required to complete the project acceptance, detect on the spot, fill corresponding forms and report the project department managers.
At present, in the process of completion and acceptance of a supervision unit, supervision personnel are required to comprehensively detect construction on a construction site and carry out corresponding records, if unqualified places are found, the unqualified places are required to be recorded on corresponding forms, as the acceptance and examination needs to be carried out for a plurality of times of rechecks, supervision engineers for examination and rechecks may not be the same person, so that a data carrier is required to integrate the detection forms and then deliver the detection forms to the rechecks, the process is long in time consumption, the detection forms can be wrongly filled after the rechecks for a plurality of times, the acceptance and detection data of some projects can be possibly modified, and the detection data cannot be effectively protected, so that the method and the system for supervising the drainage construction of the municipal engineering road are provided.
Disclosure of Invention
The invention aims to provide a municipal engineering road water supply and drainage construction supervision method and system, and solves the problems that existing data integration is long in time consumption and detection data cannot be effectively protected.
In order to solve the technical problems, the invention is realized by the following technical scheme:
the invention relates to a municipal engineering road water supply and drainage construction supervision method, which comprises the following steps:
s1: regionalizing the engineering road field, marking numbers, establishing a data platform, completing the whole engineering acceptance process in the data platform, recording whether the template mainly fills in acceptance detection data in the template, and embodying the data in a form;
s2: scanning a field terrain to generate a three-dimensional model, establishing an evaluation module in a data platform, calling quality specification information matched with the project information in the pre-recorded evaluation module according to the project attribute of the project information, leading the three-dimensional model into the evaluation module, carrying out risk evaluation, generating a risk grade report according to the risk evaluation, feeding the risk grade report back to the data platform, and detecting a marked region according to the depth of the risk grade report;
s3: filing a recording template in the data platform, inputting number information and a depth detection result, marking unqualified number areas according to the detection result in S2, generating a database according to the whole engineering detection result, uploading the database to the data platform, marking each detected supervision engineer in a form by adopting different colors when marking, conveniently referring to the next engineer, conveniently distinguishing, and uploading to the database for storage and encryption after filling detection data in the recording template;
s4: the method comprises the steps that a data base authority is opened by a data base administrator, after data uploaded by each detection in the data base are integrated and summarized, a data platform sends information according to a mobile phone number corresponding to an account number of each engineer logging in the data platform, the supervision engineer is informed to perform recheck on an unqualified engineering area, when the data base administrator needs to integrate the detection data, the data platform automatically sends a real-time secret key to the supervision engineer of the previous detection in an information form, after the supervision engineer confirms the information, the data base administrator can extract and integrate the detection data in the data base, after the detection of each supervision engineer finishes uploading the detection data, the data platform informs the data base administrator to perform data integration, and after the data integration finishes, the data platform informs the next supervision engineer to perform the next check and recheck;
s5: the supervision engineer extracts the detection data recorded in the database into the recording template, performs field recheck on the unqualified serial number areas recorded in the recording template, repeats the steps S3-S4 until all detection results are correct, finishes the detection, extracts the integrated detection data into the recording template, and performs targeted area recheck according to the unqualified areas recorded in the recording template;
s6: and receiving and storing the uploaded data files, and storing and encrypting the integrally detected detection data by the database.
Preferably, the area division is divided and numbered according to the road sections of the engineering road field, the numbering is sequentially arranged downwards according to the sequence of 'A1, A2 and A3.. once,' a primary check mark area, a primary secondary check mark area and a secondary check mark area are respectively arranged in the recording template for each input number, and a signature confirmation area of a proctorial engineer is additionally arranged in each mark area; and in the field detection process, a proctoring staff carries out corresponding detection through a professional detection instrument, whether the qualified condition is judged is filled into a corresponding label area in the recording template, and a proctoring engineer signs and confirms that the detection is correct.
Preferably, the database is provided with a key, the information content of the detection data uploaded to the database by the supervision engineer cannot be modified, and when the data administrator integrates the detection data, the detection data can be called only by opening the key by the previous detected supervision engineer.
Preferably, the numbering area is scanned in an all-around mode through the three-dimensional laser scanner, the digital terrain model skin is obtained, the BIM is used for exporting the field three-dimensional model, and the field three-dimensional model is uploaded to a model base of the data platform.
Preferably, each supervision engineer and the data man have independent account numbers in the data platform, the supervision engineer logs in the data platform through the account numbers, the recording work of the detection process is completed in the data platform, the data platform sends information to the corresponding account number user mobile phone numbers through the corresponding account numbers, the data man is reminded in time to integrate the detection data, and the supervision engineer is reminded to perform the next recheck.
Preferably, after the detection result is correct, the data obtained by the integration is stored by the data clerk, and the signature is confirmed by the chief supervision engineer and then reported to the manager of the engineering department.
A municipal works road plumbing construction supervision system includes:
the detection data creating module is used for creating a recording template for the detection data to be recorded according to the project site planning;
the BIM model building module is used for carrying out three-dimensional modeling on the uploaded digital terrain model epidermis through the BIM model to form an integral three-dimensional graph of a field area for detection of a supervision engineer;
the risk evaluation module is used for carrying out risk evaluation on the three-dimensional graph according to a quality control threshold corresponding to the pre-input quality standard information and by referring to the threshold;
the detection data entry module is used for entering the manual detection data into the recording template and uploading the manual detection data to the database for storage;
the detection data encryption module is used for encrypting the detection data uploaded to the database;
the detection notification module is used for notifying a data administrator or a supervision engineer after the detection process is finished and the integrated detection data is finished each time;
and the detection data storage module is used for receiving the data file uploaded to the database and storing the data file.
Preferably, the detection data uploaded to the database by the detection data encryption module cannot be modified, a real-time key is set in the database, key information is sent to a supervision engineer who detects the previous detection, the database is opened by the key after the supervision engineer confirms the key information, the detection data in the database is browsed and extracted, a data administrator user sends a key acquisition request to the detection data encryption module, the detection data encryption module inquires configuration information of the data administrator user terminal according to an ID (identity) of the data administrator user terminal, the detection data encryption module generates key data and sends the key data to a supervision engineer user terminal who checks and monitors the previous detection, the supervision engineer receives and confirms the key data to open the database, and the data administrator user accesses the database.
Preferably, the detection data notification module sends notification information to a mobile phone number corresponding to an account of a proctoring engineer or a data clerk.
Preferably, the modeled three-dimensional model is imported into a detection data entry module for storage.
The invention has the following beneficial effects:
1. the invention divides the engineering field into a plurality of number areas with basically consistent size, the first check and acceptance detection in the check and acceptance detection process carries out system detection on each number area, labels unqualified number areas, the subsequent recheck supervision engineer only needs to detect the labeled number areas, the detection data is stored, sorted and summarized by inputting the detection data into a data platform, the detection data can be visually known, the data platform automatically informs a data carrier or a supervision engineer after each detection and data integration for the next integration or recheck, the construction period of the overall check and acceptance monitoring is shortened, a constructor and a supervision party carry out discussion on a three-dimensional field model, mark areas with easy problems and issue the marked areas to the supervision engineer for detection, and the supervision engineer for detection and acceptance can have the key points of detection and acceptance, can accelerate with this acceptance check and add efficiency of survey, through at the inside risk assessment module that sets up of data platform to the quality standard information of multiple project is typeeed at its inside, when detecting the aassessment to corresponding project attribute, transfer corresponding quality standard information, compare with three-dimensional model according to the quality control threshold value of standard information, thereby reachd data detection information through the system, can the rapid system detect whole construction in the testing process, the supervision engineer consequently can emphatically detect the risk area.
2. The detection data is encrypted by the detection data encryption module, so that the problems of tampering and leakage of the detection data are solved, a data administrator needs to obtain the key confirmation of the previous supervision engineer when the data is required to be integrated, so that the database can be accessed, the data administrator cannot modify the detection data, and the safety of the detection data is guaranteed to a great extent.
Drawings
In order to more clearly illustrate the technical solutions of the embodiments of the present invention, the drawings used in the description of the embodiments will be briefly introduced below, and it is obvious that the drawings in the following description are only some embodiments of the present invention, and it is obvious for those skilled in the art that other drawings can be obtained according to the drawings without creative efforts.
FIG. 1 is a flow chart of a municipal engineering road water supply and drainage construction supervision method of the invention;
FIG. 2 is a schematic diagram of a municipal engineering road water supply and drainage construction supervision system.
Detailed Description
In order to make the technical means, the creation characteristics, the achievement purposes and the effects of the invention easy to understand, the invention is further described with the specific embodiments.
In the description of the present invention, it should be noted that the terms "upper", "lower", "inner", "outer", "front", "rear", "both ends", "one end", "the other end", and the like indicate orientations or positional relationships based on those shown in the drawings, and are only for convenience of description and simplicity of description, but do not indicate or imply that the referred device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention. Furthermore, the terms "first" and "second" are used for descriptive purposes only and are not to be construed as indicating or implying relative importance.
In the description of the present invention, it is to be noted that, unless otherwise explicitly specified or limited, the terms "mounted," "disposed," "connected," and the like are to be construed broadly, such as "connected," which may be fixedly connected, detachably connected, or integrally connected; can be mechanically or electrically connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood in specific cases to those skilled in the art.
The first embodiment is as follows:
referring to fig. 1, the invention relates to a municipal engineering road water supply and drainage construction supervision method, which comprises the following steps:
s1: regionalizing the engineering road field, marking numbers, establishing a data platform, completing the whole engineering acceptance process in the data platform, recording whether the template mainly fills in acceptance detection data in the template, and embodying the data in a form;
s2: scanning a field terrain to generate a three-dimensional model, establishing an evaluation module in a data platform, calling quality specification information matched with the project information in the pre-recorded evaluation module according to the project attribute of the project information, leading the three-dimensional model into the evaluation module, carrying out risk evaluation, generating a risk grade report according to the risk evaluation, feeding the risk grade report back to the data platform, and detecting a marked region according to the depth of the risk grade report;
s3: filing a recording template in the data platform, inputting number information and a depth detection result, marking unqualified number areas according to the detection result in S2, generating a database according to the whole engineering detection result, uploading the database to the data platform, marking each detected supervision engineer in a form by adopting different colors when marking, conveniently referring to the next engineer, conveniently distinguishing, and uploading to the database for storage and encryption after filling detection data in the recording template;
s4: the method comprises the steps that a data base authority is opened by a data base administrator, after data uploaded by each detection in the data base are integrated and summarized, a data platform sends information according to a mobile phone number corresponding to an account number of each engineer logging in the data platform, the supervision engineer is informed to perform recheck on an unqualified engineering area, when the data base administrator needs to integrate the detection data, the data platform automatically sends a real-time secret key to the supervision engineer of the previous detection in an information form, after the supervision engineer confirms the information, the data base administrator can extract and integrate the detection data in the data base, after the detection of each supervision engineer finishes uploading the detection data, the data platform informs the data base administrator to perform data integration, and after the data integration finishes, the data platform informs the next supervision engineer to perform the next check and recheck;
s5: the supervision engineer extracts the detection data recorded in the database into the recording template, performs field recheck on the unqualified serial number areas recorded in the recording template, repeats the steps S3-S4 until all detection results are correct, finishes the detection, extracts the integrated detection data into the recording template, and performs targeted area recheck according to the unqualified areas recorded in the recording template;
s6: and receiving and storing the uploaded data files, and storing and encrypting the integrally detected detection data by the database.
The area division is divided and numbered according to the road sections of the engineering road field, the numbering is sequentially arranged downwards according to the sequence of ' A1, A2 and A3. -. once ', a ' primary check mark area, a ' secondary check mark area ' and a ' proctoring engineer signature area ' are respectively arranged in the recording template for each input number, and a proctoring engineer signature area is additionally arranged in each mark area; and in the field detection process, a proctoring staff carries out corresponding detection through a professional detection instrument, whether the qualified condition is judged is filled into a corresponding label area in the recording template, and a proctoring engineer signs and confirms that the detection is correct.
The database sets up the key, and the inspection data information content that the supervision engineer uploaded to the database can not be modified, and when the data member integrated the inspection data, the supervision engineer who passes through the last inspection just can retrieve the inspection data by opening the key.
And carrying out all-dimensional scanning on the numbering area through a three-dimensional laser scanner to obtain a digital terrain model skin, and exporting a field three-dimensional model by using a BIM (building information modeling) model and uploading the field three-dimensional model to a model library of a data platform.
Each supervision engineer and the data personnel have independent account numbers in the data platform, the supervision engineer logs in the data platform through the account numbers, the recording work of the detection process is completed in the data platform, the data platform sends information to the corresponding account number user mobile phone numbers through the corresponding account numbers, the data personnel are reminded of integrating the detection data in time, and the supervision engineer is reminded of conducting the next rechecking.
After the detection result is correct, the data personnel stores the integrated data, and the chief manager confirms the signature and reports the signature to the manager of the engineering department.
Example two:
referring to fig. 2, a municipal works road water supply and drainage construction supervision system includes:
the detection data creating module is used for creating a recording template for the detection data to be recorded according to the project site planning;
the BIM model building module is used for carrying out three-dimensional modeling on the uploaded digital terrain model epidermis through the BIM model to form an integral three-dimensional graph of a field area for detection of a supervision engineer;
the risk evaluation module is used for carrying out risk evaluation on the three-dimensional graph according to a quality control threshold corresponding to the pre-input quality standard information and by referring to the threshold;
the detection data entry module is used for entering the manual detection data into the recording template and uploading the manual detection data to the database for storage;
the detection data encryption module is used for encrypting the detection data uploaded to the database;
the detection notification module is used for notifying a data administrator or a supervision engineer after the detection process is finished and the integrated detection data is finished each time;
and the detection data storage module is used for receiving the data file uploaded to the database and storing the data file.
The detection data encryption module uploads detection data in a database to be not modified, a real-time key is set in the database, key information is sent to a supervision engineer who detects the data last time, the database is opened through the key after the supervision engineer confirms the data, detection data in the database are browsed and extracted, a data administrator user sends a key acquisition request to the detection data encryption module, the detection data encryption module inquires configuration information of the data administrator user terminal according to an ID (identity) of the data administrator user terminal, the detection data encryption module generates key data to be sent to a supervision engineer user terminal which checks and monitors the data, the supervision engineer receives and confirms the key data to open the database, and the data administrator user accesses the database.
And the detection data notification module sends notification information to the mobile phone number corresponding to the account of the supervision engineer or the data administrator.
And importing the modeled three-dimensional model into a detection data entry module for storage.
Example three:
the working principle of the invention is as follows: at the initial stage of checking and accepting, a primary inspection supervision engineer carries out area numbering and dividing on the whole engineering field, numbering data are recorded into a recording template in a data platform, the primary inspection engineer detects each numbered area, whether qualified data of the corresponding area are filled in, the number of the unqualified area is marked, topographic skin data of the unqualified area are scanned through a three-dimensional laser scanner, a three-dimensional model is built through a BIM (building information modeling) and is uploaded and stored into a database, after the primary inspection engineer finishes checking and accepting detection, the data platform sends integration information to a user terminal of a data administrator to remind the user terminal of the data administrator to integrate the detection data, the data administrator applies for a key access database to the previous supervision engineer, after the detection data are integrated, the data platform automatically sends information to remind the next supervision engineer to carry out recheck, the recheck supervision engineer recheck the unqualified area marked by the primary inspection supervisor engineer, and uploading the detection data to a database and storing the data until the whole checking and accepting detection work is completed without errors.
The foregoing shows and describes the general principles and broad features of the present invention and advantages thereof. It will be understood by those skilled in the art that the present invention is not limited to the embodiments described above, which are described in the specification and illustrated only to illustrate the principle of the present invention, but that various changes and modifications may be made therein without departing from the spirit and scope of the present invention, which fall within the scope of the invention as claimed. The scope of the invention is defined by the appended claims and equivalents thereof.
Claims (10)
1. A municipal engineering road water supply and drainage construction supervision method is characterized by comprising the following steps: the method comprises the following steps:
s1: regionalizing the engineering road field, marking numbers and establishing a data platform;
s2: scanning a field terrain to generate a three-dimensional model, establishing an evaluation module in a data platform, calling quality specification information matched with the project information in the pre-recorded evaluation module according to the project attribute of the project information, leading the three-dimensional model into the evaluation module, carrying out risk evaluation, generating a risk grade report according to the risk evaluation, feeding the risk grade report back to the data platform, and detecting a marked region according to the depth of the risk grade report;
s3: filing a record template in the data platform, inputting number information and a depth detection result, marking unqualified number areas according to the detection result in S2, generating a database according to the whole engineering detection result, and uploading the database to the data platform;
s4: summarizing and integrating the detection data, uploading the detection data to a database, and performing a new round of reinspection according to the integrated data;
s5: extracting detection data in the database to a recording template, carrying out field recheck on the detection data according to the unqualified serial number area recorded in the recording template, and circularly repeating the steps S3-S4 until all detection results are accurate and correct, and then finishing the detection;
s6: and receiving and storing the uploaded data files.
2. The municipal engineering road water supply and drainage construction supervision method according to claim 1, characterized in that the regional division is divided and numbered according to the engineering road site road sections, the numbers are sequentially arranged downwards according to the sequence of 'A1, A2 and A3.. once.. the', the recording template is respectively provided with a 'primary check mark region, a primary recheck mark region and a secondary recheck mark region', and a proctorial engineer signature confirmation region is additionally arranged in each mark region; and in the field detection process, a proctoring staff carries out corresponding detection through a professional detection instrument, whether the qualified condition is judged is filled into a corresponding label area in the recording template, and a proctoring engineer signs and confirms that the detection is correct.
3. The municipal engineering road water supply and drainage construction supervision method according to claim 2, wherein the database is provided with a key, the information content of the detection data uploaded to the database by the supervision engineer cannot be modified, and the detection data can be retrieved by a data collector by opening the key by the supervision engineer who has performed the previous detection when integrating the detection data.
4. The municipal engineering road water supply and drainage construction supervision method according to claim 3, characterized in that a numbered area is scanned in all directions by a three-dimensional laser scanner to obtain a digital terrain model skin, and a BIM model is used to derive a field three-dimensional model and upload the field three-dimensional model to a model base of a data platform.
5. The municipal engineering road water supply and drainage construction supervision method according to claim 4, wherein an account login module is arranged in the data platform, each supervision engineer and a data clerk have independent accounts in the data platform, the supervision engineer logs in the data platform through the accounts to complete recording work of a detection process in the data platform, and the data platform sends information to corresponding account users through corresponding accounts to remind the data clerk to integrate detection data and remind the supervision engineer of next rechecking.
6. The municipal engineering road water supply and drainage construction supervision method according to claim 5, wherein after the detection result is correct, the data obtained after the integration is stored by the data collector, and the signature is confirmed by the general supervision engineer and then reported to the manager of the engineering department.
7. The utility model provides a municipal works road plumbing construction supervision system which characterized in that includes:
the detection data creating module is used for creating a recording template for the detection data to be recorded according to the project site planning;
the BIM model building module is used for carrying out three-dimensional modeling on the uploaded digital terrain model epidermis through the BIM model to form an integral three-dimensional graph of a field area for detection of a supervision engineer;
the risk evaluation module is used for carrying out risk evaluation on the three-dimensional graph according to a quality control threshold corresponding to the pre-input quality standard information and by referring to the threshold;
the detection data entry module is used for entering the manual detection data into the recording template and uploading the manual detection data to the database for storage;
the detection data encryption module is used for encrypting the detection data uploaded to the database;
the detection notification module is used for notifying a data administrator or a supervision engineer after the detection process is finished and the integrated detection data is finished each time;
and the detection data storage module is used for receiving the data file uploaded to the database and storing the data file.
8. The municipal engineering road water supply and drainage construction supervision system according to claim 7, wherein the detection data uploaded to the database by the detection data encryption module cannot be modified, a real-time key is set in the database, the supervision engineer sends key information to the previous detection, and after confirmation of the supervision engineer, the supervision engineer opens the database through the key, and browses and extracts the detection data in the database.
9. The municipal engineering road water supply and drainage construction supervision system according to claim 7, wherein the detection data notification module sends notification information to a mobile phone number corresponding to an account of a supervision engineer or a data clerk.
10. The municipal engineering road water supply and drainage construction supervision system according to claim 7, wherein the modeled three-dimensional model is imported into a detection data entry module for storage.
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CN116402407A (en) * | 2023-06-05 | 2023-07-07 | 山东四维卓识信息技术有限公司 | Construction detection data management system and method based on Internet of things |
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CN116402407A (en) * | 2023-06-05 | 2023-07-07 | 山东四维卓识信息技术有限公司 | Construction detection data management system and method based on Internet of things |
CN116402407B (en) * | 2023-06-05 | 2023-09-08 | 山东四维卓识信息技术有限公司 | Construction detection data management system and method based on Internet of things |
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