CN111833016A

CN111833016A - Infrastructure building supervision method based on BIM

Info

Publication number: CN111833016A
Application number: CN202010651877.2A
Authority: CN
Inventors: 陈耀忠; 蒋柏文
Original assignee: Huizhou Zhucheng Engineering Management Co ltd
Current assignee: Huizhou Zhucheng Engineering Management Co ltd
Priority date: 2020-07-08
Filing date: 2020-07-08
Publication date: 2020-10-27

Abstract

The application relates to the field of building supervision, in particular to a infrastructure building supervision method based on BIM, which comprises the following steps: s1: establishing a project BIM model; s2: setting subsystems in each department and establishing a central server; s3: detecting a construction site; s4: comparing the detection results; s5: feeding back the detection position with the detection result as a to-be-determined detection position to a subsystem of the proctoring personnel marked as qualified; s6: comparing the detection results again; s7: sending the unqualified reasons of the secondary undetermined detection position to a subsystem marked as qualified proctoring personnel; s8: the supervisor selects whether to accept or not; s9: unifying the detection results and uploading the detection results to a central server; s10: and the central server integrates all the detection results and forms a final version of detection result. The method and the device have the effect of improving the accuracy of the supervision result so as to improve the safety of the building.

Description

Infrastructure building supervision method based on BIM

Technical Field

The application relates to the field of building supervision, in particular to a infrastructure building supervision method based on BIM.

Background

Project supervision refers to the entrust of a supervision unit with related qualification by a party A, and represents a specialized service activity for monitoring the project construction of a party B by the party A according to project construction documents approved by the country, laws and regulations related to the project construction, project construction supervision contracts and other project construction contracts. Project supervision is a paid project consultation service; is entrusted by the first party; the supervision is mainly based on laws, regulations, technical standards, related contracts and documents; the supervision criterion is law keeping, integrity, justice and science; the supervision aims to ensure the quality and safety of engineering construction, improve the engineering construction level and fully exert investment benefits.

However, the supervision and inspection usually uses supervision personnel to inspect each part of the building to judge whether each part of the building still meets the requirement of the building strength, and because the quality of the supervision and inspection is very easily affected by the detection effect of the supervision personnel, if the inspection personnel fails or fails, the safety of the building is directly affected, and therefore, the space for improvement is also provided.

Disclosure of Invention

In order to improve the accuracy of the supervision result and further improve the safety of the building, the application provides a BIM-based infrastructure building supervision method.

The infrastructure building supervision method based on the BIM adopts the following technical scheme.

A BIM-based infrastructure building supervision method comprises the following steps:

s1: establishing a project BIM model according to the national building design standard;

s2: setting subsystems in each department, establishing a central server, storing a BIM (building information model) in the central server, wherein the subsystems comprise a fixed end and a movable end, all the subsystems are used for uploading data to the central server and browsing the data on the central server, the central server records the real-time data uploaded by all the subsystems, classifies the acquired data and establishes a historical database;

s3: the construction site is detected, at least three supervisors are arranged to separately detect the whole construction site, the supervisors carry the mobile terminal when detecting, the supervisors detect each detection position and mark the BIM on the mobile terminal, the marking result is qualified or unqualified, the marking result is uploaded to a central server, and the marking result is uploaded for the reason of the unqualified;

s4: after all the supervisors finish the detection and upload the result to the central server, the central server compares the detection results, if the marks of one detection position are all qualified, the detection result of the detection position is qualified, if the marks of one detection position are all unqualified, the detection result of the detection position is unqualified, and if the marks of one detection position are both qualified and unqualified, the detection result of the detection position is undetermined;

s5: feeding back the detection position with the detection result to be determined to a subsystem marked as a qualified proctoring person, detecting the detection position with the detection result to be determined again by the proctoring person receiving the feedback, and uploading the detection result again;

s6: after all the supervision personnel receiving the feedback complete the detection and upload the result to the central server, the central server compares the detection result, if the marks of the second detection position are all unqualified, the detection result of the detection position is unqualified, and if the marks of the second detection position are still qualified and unqualified, the detection result of the detection position is secondary undetermined;

s7: sending the unqualified reasons of the secondary undetermined detection position to a subsystem marked as qualified proctoring personnel, selecting acceptance or non-acceptance by the qualified proctoring personnel, and uploading the acceptance or non-acceptance to a central server;

s8: if the proctorial selection marked as qualified is accepted, the final result of the position is unqualified, and if the proctorial selection marked as qualified is not accepted, the detection result of the detection position is undetermined for three times;

s9: feeding the three to-be-determined detection positions back to all supervisors, then evaluating the three to-be-determined detection positions by all supervisors together, unifying detection results and uploading the detection results to a central server;

s10: and the central server integrates all the detection results and forms a final version of detection result.

Through adopting above-mentioned technical scheme, in S3, three prisoner detects whole job site respectively alone, make can not influence each other between the three prisoner, guarantee every prisoner 'S testing result' S fair and impartial, reduce the possibility that testing personnel missed measure or the false positive, and then improve the security of building, then contrast the result, the position that has different opinions detects repeatedly, thereby guarantee the accuracy of testing result, utilize the BIM model simultaneously, thereby promote accuracy and the speed that the result is compared.

Preferably, in S2, before the construction, the designer and the constructor upload the design data and the construction data to the central server respectively, adjust the BIM model according to the design data and the construction data, and the supervisor compares the design data and the construction data to determine the detection step and plan the detection position, and uploads the comparison result to the central server.

By adopting the technical scheme, the central server is planned first, and the detection position is determined, corrected and planned first, so that the efficiency of subsequent detection is improved.

Preferably, in S3 to S10, the positions of the test that are qualified and unqualified are marked with two colors on the BIM model, and the positions of the test that are undetermined, undetermined twice and undetermined three times are marked with a third color on the BIM model.

By adopting the technical scheme, the detected positions are marked into different colors, so that the operators can conveniently identify the positions.

Preferably, in S3 to S10, the positions that are qualified are marked in green, the positions that are not qualified are marked in red, and the positions that are to be determined, twice to be determined, and three times to be determined are marked in yellow.

By adopting the technical scheme, in most of the existing color marks, green is usually used for marking to pass or be qualified, red is usually used for marking to fail or be unqualified, and yellow is usually used for marking to be undetermined, so that the three colors are selected, and the use habit of an operator is met.

Preferably, in S2, the fixed end is a computer, and the mobile end is a mobile phone or a tablet.

By adopting the technical scheme, the selected equipment is a commercially available part, and is convenient to obtain and use.

Preferably, in S1, the BIM model includes two modes, one is a general mode, and the other is a project mode, the general mode is a fixed general mode, and the project mode is a mode determined according to each department.

By adopting the technical scheme, the general mode is suitable for a plurality of projects, but each project cannot be perfectly matched, the project mode is adjusted and determined according to the actual condition of the project, the operation is slightly more complicated than the general mode but is adapted to the project, and the selection is carried out according to the requirement in the actual work.

Preferably, in S1, in the general mode, the product model data all adopt STEP standards.

By adopting the technical scheme, the unified standard is used, so that each department can upload and look up data on the central server.

Preferably, in the S1, in the project mode, all departments upload the software types and software versions used by each department to the server, then take an intersection of the various software types and software versions, confirm the result obtained by taking the intersection as a format for storing data on the central server, and use the STEP standard if the result obtained by taking the intersection is an empty set.

By adopting the technical scheme, the software types and the software version types commonly used among all departments are obtained by taking the intersection of various software types and software versions, and the software types and the software version types are defined as the storage format of the central server, so that the data can be conveniently read by people of all departments without format conversion, and the efficiency is further improved.

In summary, the present application includes at least one of the following beneficial technical effects:

the whole construction site is detected by the three supervisors respectively and independently, so that the three supervisors cannot influence each other, the fairness and the fairness of the detection result of each supervisor are ensured, the possibility of missed detection or wrong detection of the detectors is reduced, and the safety of the building is improved;

the BIM model has two groups of modes, the general mode is suitable for a plurality of projects but can not perfectly match each project, the project mode is adjusted and determined according to the actual condition of the project, the operation is slightly more complicated than the general mode but is adapted to the project, and the selection is carried out according to the requirement in the actual work;

in the project mode, people of all departments can conveniently read data without format conversion, and therefore efficiency is improved.

Drawings

Fig. 1 is a flowchart of an embodiment of the present application.

Detailed Description

The present application is described in further detail below with reference to fig. 1.

The embodiment of the application discloses an infrastructure building supervision method based on BIM. Referring to fig. 1, a BIM-based infrastructure building supervision method includes:

s2: setting subsystems in each department, establishing a central server, storing a BIM (building information modeling) model in the central server, wherein the subsystems comprise a fixed end and a movable end, all the subsystems are used for uploading data to the central server and browsing the data on the central server, the central server records the real-time data uploaded by all the subsystems, classifies the acquired data and establishes a historical database;

Further, in S2, before the construction, the designer and the constructor upload the design data such as drawings, models, etc. and the construction data such as drawings, models, etc. to the central server respectively and adjust the BIM model according to the design data and the construction data, and the supervisor compares the design data and the construction data to determine the detection steps and plan the detection positions, and uploads the results to the central server.

The central server is planned first, and the detection position is determined, corrected and planned first, so that the efficiency of subsequent detection is improved.

And in the steps S3 to S10, the qualified and unqualified detection positions are respectively marked into two colors on the BIM, the detection positions to be determined in the undetermined mode, the secondary undetermined mode and the tertiary undetermined mode are marked into a third color on the BIM, and the detection positions are marked into different colors, so that the identification of an operator is facilitated.

Further, in S3 to S10, the positions that are qualified are marked in green, the positions that are not qualified are marked in red, and the positions that are undetermined, undetermined for the second time and undetermined for the third time are marked in yellow, wherein in most of the existing color marks, green is often used for marking to pass or be qualified, red is often used for marking to fail or be unqualified, and yellow is often used for marking to be undetermined, so that the three colors are selected, and the use habits of operators are met.

In this embodiment, in S2, the fixed end is a computer, the mobile end is a mobile phone or tablet, and all the selected devices are commercially available pieces, which is convenient for obtaining and using.

In S1, the BIM model includes two modes, one is a general mode, the other is a project mode, the general mode is a fixed general mode, and the project mode is a mode determined according to each department.

In the general mode, the product model data adopts the STEP standard. By using the unified standard, the data can be uploaded and consulted by various departments at the central server.

In the project mode, all departments upload the software types and software versions used by all departments to the server, then take intersection of all the software types and software versions, confirm the intersection-taken result as a data storage format on the central server, and use the STEP standard if the intersection-taken result is an empty set. By taking intersection of various software types and software versions, the software type and the software version type commonly used among all departments are obtained, and the software type and the software version type are defined as the storage format of the central server, so that data can be conveniently read by people of all departments without format conversion, and further the efficiency is improved.

The general mode is suitable for a plurality of projects, but each project cannot be perfectly matched, the project mode is adjusted and determined according to the actual condition of the project, the operation is slightly more complicated than the general mode but is adapted to the project, and in the actual work, the selection is carried out according to the requirement.

The implementation principle of the infrastructure building supervision method based on the BIM in the embodiment of the application is as follows: detect whole job site alone respectively through three prison reason personnel for can not influence each other between the three prison reason personnel, guarantee every prison reason personnel's testing result's fair and impartial, reduce the possibility that testing personnel missed to examine or the false retrieval, and then improve the security of building, then contrast the result, the position that has different opinions detects repeatedly, thereby guarantee testing result's accuracy, utilize the BIM model simultaneously, thereby promote accuracy and the speed that the result is compared.

The above embodiments are preferred embodiments of the present application, and the protection scope of the present application is not limited by the above embodiments, so: all equivalent changes made according to the structure, shape and principle of the present application shall be covered by the protection scope of the present application.

Claims

1. A BIM-based infrastructure building supervision method is characterized by comprising the following steps: the method comprises the following steps:

2. The BIM-based infrastructure building supervision method according to claim 1, wherein: in S1 and S2, before construction, the designer and the constructor upload the design data and the construction data to the central server, adjust the BIM model according to the design data and the construction data, compare the design data and the construction data by the supervisor, determine the detection step and plan the detection position, and upload the result to the central server.

3. The BIM-based infrastructure building supervision method according to claim 1, wherein: in the steps S3 to S10, the qualified and unqualified detection positions are respectively marked with two colors on the BIM model, and the detection positions to be determined, to be determined twice and to be determined three times are marked with a third color on the BIM model.

4. The BIM-based infrastructure building supervision method according to claim 3, wherein: in S3 to S10, the positions that are qualified are marked in green, the positions that are not qualified are marked in red, and the positions that are undetermined, undetermined for the second time, and undetermined for the third time are marked in yellow.

5. The BIM-based infrastructure building supervision method according to claim 1, wherein: in S2, the fixed end is a computer, and the mobile end is a mobile phone or a tablet.

6. The BIM-based infrastructure building supervision method according to claim 1, wherein: in S1, the BIM model includes two modes, one is a general mode, and the other is a project mode, the general mode is a general mode established by installing international standards, and the project mode is a mode determined according to each department.

7. The BIM-based infrastructure building supervision method according to claim 6, wherein: in the S1, in the general mode, the product model data all adopt the STEP standard.

8. The BIM-based infrastructure building supervision method according to claim 6, wherein: in the S1, in the project mode, all departments upload the software types and software versions used by each department to the server, then take the intersection of the various software types and software versions, confirm the result of taking the intersection as the format for storing data on the central server, and use the STEP standard if the result of taking the intersection is an empty set.