CN115936616A - Building engineering construction progress monitoring system integrated with BIM and using method thereof - Google Patents

Abstract

The invention provides a building engineering construction progress monitoring system integrated with BIM and a using method thereof, and solves the problems that the existing construction progress control mode is labor-consuming and time-consuming, and the safety risk is high. When the system is used, the construction site scene internet of things monitoring terminal arranged on the construction site is matched with the operator patrol image-text data obtained by manual patrol of a constructor and the supervisor patrol image-text information obtained by manual patrol of a supervisor, so that the constructor terminal, the supervisor terminal and the headquarter terminal can obtain the construction site scene information in real time in the whole course, the construction state in the whole course is really known, the whole course of construction is monitored, and the safety risk caused by the long time of monitoring vacuum is avoided. Meanwhile, the construction side terminal and the design side terminal are connected through the BIM cloud platform, so that the visualization degree of engineering construction is improved, the configuration cost of the construction side terminal and the configuration cost of the design side terminal can be reduced, and the cooperative work in the construction process is smoother.

Description

Building engineering construction progress monitoring system integrated with BIM and using method thereof

Technical Field

The invention relates to the technical field of building construction, in particular to a building engineering construction progress monitoring system integrated with BIM and a using method thereof.

Background

The construction stage is an important stage of the life cycle of the building, and if the construction progress has delay, the cost and the quality of the whole construction project are influenced, so that the control of the construction progress is particularly important on a project construction site.

The current construction progress control mode mostly depends on the character image data reported by a constructor and a supervisor after the field inspection to acquire the current state of the construction field, and then the project headquarter carries out approval on the uploaded data and starts the next stage of construction. In this process, not only take time and labor, it is long often can have the monitoring vacuum to patrol the personnel moreover for project headquarters is difficult to really know whole construction state, and the safety risk is higher.

Disclosure of Invention

The invention provides a building engineering construction progress monitoring system integrated with BIM and a using method thereof, aiming at solving the problems that the existing construction progress control mode in the background technology is labor-consuming and time-consuming and has higher safety risk.

The technical scheme of the invention is as follows: a building engineering construction progress monitoring system integrated with BIM comprises a headquarter terminal, a designer terminal, a BIM cloud platform, a supervisor terminal, a constructor terminal and a site Internet of things monitoring terminal;

the construction site Internet of things monitoring terminal is in signal connection with the construction side terminal, the supervision side terminal and the headquarter terminal respectively;

the BIM cloud platform comprises a BIM model cloud platform, and the BIM model cloud platform is used for browsing, newly building, modifying and storing a BIM model;

the construction side terminal is used for newly building the data of the patrol graphics and texts of a constructor; the construction side terminal is in signal connection with the BIM cloud platform and used for calling BIM model data and building a construction plan of each stage according to the BIM model data;

the construction side terminal is in signal connection with the supervision side terminal and is used for transmitting the construction plan, the construction site information and the construction side patrol image-text data of each stage to the supervision side terminal;

the proctor terminal is used for creating proctor patrol image-text information; the supervision side terminal is in signal connection with the construction side terminal, the site Internet of things monitoring terminal and the design side terminal respectively;

the design side terminal is in signal connection with the BIM cloud platform and is used for building and modifying the BIM model through the BIM model cloud platform;

the design side terminal is in signal connection with the supervision side terminal and is used for receiving the rectification and modification data, and a rectification and modification data three-dimensional model is newly built through the BIM cloud platform according to the rectification and modification data, so that the construction side terminal can retrieve the rectification and modification data three-dimensional model through the BIM cloud platform.

Preferably, the BIM cloud platform further includes a cloud document platform, and the cloud document platform is used for managing and browsing cloud documents on line.

Preferably, the construction side terminal can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform, and can upload the construction plan, the site information of the construction site and the construction side patrol image-text data of each stage to the cloud document platform to form new cloud documents.

Preferably, the supervisor terminal is in signal connection with the BIM cloud platform, and the supervisor terminal can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform and upload the supervisor patrol image-text information and the rectification data to the cloud document platform to form new cloud documents.

Preferably, the terminal of the design party can call and browse the existing cloud document on the cloud document platform through the BIM cloud platform.

Preferably, the building site internet of things monitoring terminal is in signal connection with the BIM cloud platform, and a cloud document platform of the BIM cloud platform is used for storing and backing up building site information monitored by the building site internet of things monitoring terminal.

Preferably, the headquarter terminal is in signal connection with the BIM cloud platform, and the headquarter terminal can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform and can display the existing cloud documents.

A use method of a building engineering construction progress monitoring system integrated with BIM comprises the following steps: s1, designing a BIM design model on a BIM model cloud platform through a terminal of a designer according to exploration data and project requirements by the designer;

s2, the construction side calls the BIM design model from the BIM model cloud platform through the construction side terminal, designs a construction progress plan of each stage of the building engineering according to the BIM design model, and uploads the construction progress plan of each stage to the cloud document platform through the construction side terminal;

s3, the designer accesses the construction progress plans from the cloud document platform through the designer terminal, and the BIM design model is layered according to the construction progress plans of each stage to obtain a BIM design stage model;

s4, the construction side retrieves the BIM design stage model from the BIM model cloud platform through the construction side terminal, and installs a site Internet of things monitoring terminal before each construction stage according to a construction progress plan of each stage;

s5, in each construction stage, a constructor newly builds constructor patrol image-text data on a constructor terminal in sequence by taking a time axis as a sequence, and uploads the constructor patrol image-text data to a cloud document platform; the proctoring party creates proctoring party patrol image-text information on a proctoring party terminal in a sequence of time axis, and uploads the proctoring party patrol image-text information to a cloud document platform;

s6, according to the construction progress plan of each stage, the manager performs acceptance sampling on the current construction project information together with the constructor in a time sequence after the construction plan of each stage is completed, so that construction acceptance sampling data of the stage are obtained, and the construction acceptance sampling data of the stage are uploaded to a cloud document platform through the manager terminal;

s7, the designer retrieves the building acceptance sampling data from the cloud document platform through the designer terminal, establishes a BIM construction phase model according to the building acceptance sampling data, performs error comparison on the BIM construction phase model and a corresponding BIM design phase model, integrates partial data exceeding errors, and newly builds a phase rectification data three-dimensional model on the BIM model cloud platform;

s8, the construction party retrieves the stage rectification data three-dimensional model from the BIM model cloud platform through the construction party terminal, rectifies and rectifies the difference of the actual construction site according to the stage rectification data three-dimensional model, and reports to a supervision party after rectification and rectification are completed;

s9, after receiving the report of the construction party, the supervisor performs acceptance sampling on the actual construction site at the stage again to obtain rectified building acceptance sampling data, and searches and reads the three-dimensional model of the rectified stage data through the supervisor terminal, compares the rectified building acceptance sampling data with the three-dimensional model of the rectified stage data one by one, if the error does not meet the design requirement, repeats the steps S6-S9 until the rectified building acceptance sampling data all meet the design requirement, and the supervisor uploads the rectified building acceptance sampling data to the cloud document platform through the supervisor terminal;

s10, repeating the steps S4 to S9 by taking a time axis as a sequence until all construction plans are completed;

and S11, the project headquarters retrieves BIM model information and cloud document information through a BIM cloud platform at any stage of the steps S1 to S10 through a headquarters terminal, and acquires video information of a full-stage construction site through a site Internet of things monitoring terminal at any stage of the steps S5 to S10.

Preferably, step S4 further comprises the steps of: s4.1, the construction side retrieves the BIM design stage model from the BIM model cloud platform through the construction side terminal, determines the installation position of the site Internet of things monitoring terminal in each construction stage according to the construction progress plan of each stage, and uploads the installation position information of the site Internet of things monitoring terminal in each construction stage to the cloud document platform;

s4.2, before each construction stage begins, the construction side retrieves the installation information of the site Internet of things monitoring terminal of the construction stage from the BIM model cloud platform through the construction side terminal, and installs the site Internet of things monitoring terminal at the construction site.

The invention has the advantages that: when the system is used, the construction site scene internet of things monitoring terminal arranged on the construction site is matched with the operator patrol image-text data obtained by manual patrol of a constructor and the supervisor patrol image-text information obtained by manual patrol of a supervisor, so that the constructor terminal, the supervisor terminal and the headquarter terminal can obtain the construction site scene information in real time in the whole course, the construction state in the whole course is really known, the whole course of construction is monitored, and the safety risk caused by the long time of monitoring vacuum is avoided.

Meanwhile, the construction side terminal and the design side terminal are arranged through the BIM cloud platform, so that the visualization degree of engineering construction is improved, the configuration cost of the construction side terminal and the configuration cost of the design side terminal can be reduced, the communication efficiency of the construction side terminal and the design side terminal in the construction process is improved, and the cooperative work in the construction process is smoother.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the description of the embodiments or the prior art will be briefly described below, it is obvious that the drawings in the following description are only some embodiments of the present invention, and for those skilled in the art, other drawings can be obtained according to the drawings without creative efforts.

Fig. 1 is a system diagram in example 1.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are only a part of the embodiments of the present invention, and not all of the embodiments. All other embodiments, which can be obtained by a person skilled in the art without inventive effort based on the embodiments of the present invention, are within the scope of the present invention.

Example 1: the utility model provides an integrated BIM's building engineering construction progress monitoring system, as shown in figure 1, includes headquarter terminal design side terminal, BIM cloud platform, prison side terminal, constructor terminal and building site thing networking monitor terminal.

The BIM cloud platform comprises a BIM model cloud platform and a cloud document platform, wherein the BIM model cloud platform is used for browsing, creating, modifying and storing BIM models, and the cloud document platform is used for managing and browsing cloud documents on line.

The construction site internet of things monitoring terminal is in signal connection with the construction site terminal, the supervision side terminal and the headquarter terminal respectively, and the construction site internet of things monitoring terminal is arranged on a construction site and used for acquiring construction site information in real time and transmitting the construction site information to the construction site terminal, the supervision side terminal and the headquarter terminal.

Building site thing networking monitor terminal is including laying at indoor static image acquisition device: an RGB-G sensor and a panoramic camera; and laying out an outdoor dynamic image acquisition device: and high-definition cameras and radar equipment on the inspection robot and the inspection unmanned aerial vehicle are arranged. Through the site Internet of things monitoring terminal, high-precision indoor and outdoor three-dimensional information can be obtained to serve as site information, so that a designer can construct a BIM construction stage model to provide video image data information, and other parties can make inquiries and views.

The building site Internet of things monitoring terminal is in signal connection with the BIM cloud platform, and a cloud document platform of the BIM cloud platform is used for storing and backing up building site information monitored by the building site Internet of things monitoring terminal and serving as backup for other parties to check and contrast.

And the constructor terminal is used for newly building constructors to patrol the image-text data.

The construction side terminal is in signal connection with the BIM cloud platform, can call BIM model data and browse existing cloud documents on the cloud document platform through the BIM cloud platform, and newly builds a construction plan of each stage according to the BIM model data; and the construction side terminal can upload the construction plan, the site information of the construction site and the construction side patrol image-text data of each stage to the cloud document platform to form a new cloud document which is used as a backup for other parties to check and contrast.

And the construction side terminal is in signal connection with the supervision side terminal and is used for transmitting the construction plan, the construction site information and the construction side patrol image-text data of each stage to the supervision side terminal.

And the proctor terminal is used for creating proctor patrol image-text information.

The supervision party terminal is in signal connection with the construction party terminal, the construction site Internet of things monitoring terminal and the design party terminal respectively and is used for receiving the construction plan, the construction site information and the construction party patrol image-text information of each stage and summarizing the data exceeding the errors according to the comparison of the construction plan, the construction site information, the construction party patrol image-text information and the supervision party patrol image-text information of each stage to form rectification data.

The supervisor terminal is in signal connection with the BIM cloud platform, and can take and browse the existing cloud documents on the cloud document platform through the BIM cloud platform and upload the supervisor patrol image-text information and the rectification data to the cloud document platform to form new cloud documents as backups for other parties to check and contrast.

The design side terminal is in signal connection with the BIM cloud platform and used for building and modifying the BIM through the BIM cloud platform and calling and browsing the existing cloud documents on the cloud document platform through the BIM cloud platform.

The design side terminal is in signal connection with the supervision side terminal and is used for receiving the rectification and modification data, and a rectification and modification data three-dimensional model is newly built through the BIM cloud platform according to the rectification and modification data, so that the construction side terminal can retrieve the rectification and modification data three-dimensional model through the BIM cloud platform.

The headquarter terminal is in signal connection with the BIM cloud platform, and the headquarter terminal can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform and can give an indication to the existing cloud documents.

A use method of a building engineering construction progress monitoring system integrated with BIM comprises the following steps: s1, designing a BIM design model on a BIM model cloud platform through a terminal of a designer according to exploration data and project requirements by the designer.

S2, the construction side retrieves the BIM design model from the BIM model cloud platform through the construction side terminal, designs the construction progress plan of each stage of the building engineering according to the BIM design model, and uploads the construction progress plan of each stage to the cloud document platform through the construction side terminal.

And S3, the designer accesses the construction progress plans from the cloud document platform through the designer terminal, and stratifies the BIM design model according to the construction progress plans of each stage to obtain the BIM design stage model.

And S4, the construction side retrieves the BIM design stage model from the BIM model cloud platform through the construction side terminal, and installs the site Internet of things monitoring terminal before each construction stage according to the construction progress plan of each stage. Specifically, step S4 further includes the following steps:

s4.1, the construction side retrieves the BIM design stage model from the BIM model cloud platform through the construction side terminal, determines the installation position of the site Internet of things monitoring terminal in each construction stage according to the construction progress plan of each stage, and uploads the installation position information of the site Internet of things monitoring terminal in each construction stage to the cloud document platform;

s4.2, before each construction stage begins, the construction side retrieves the installation information of the site Internet of things monitoring terminal of the construction stage from the BIM model cloud platform through the construction side terminal, and installs the site Internet of things monitoring terminal at the construction site.

S5, in each construction stage, a constructor newly builds constructor patrol image-text data on a constructor terminal in sequence by taking a time axis as a sequence, and uploads the constructor patrol image-text data to a cloud document platform; the proctoring party creates proctoring party patrol image-text information on the proctoring party terminal in sequence of time axis, and uploads the proctoring party patrol image-text information to the cloud document platform.

And S6, the manager performs acceptance sampling on the current construction project information together with the construction party after the construction plan of each stage is completed according to the construction progress plan of each stage by taking time as a sequence, so that the construction acceptance sampling data of the stage are obtained, and the construction acceptance sampling data of the stage are uploaded to the cloud document platform through the manager terminal.

S7, the designer retrieves the building acceptance sampling data from the cloud document platform through the designer terminal, establishes a BIM construction phase model according to the building acceptance sampling data, compares the BIM construction phase model with the corresponding BIM design phase model one by one, analyzes errors of the BIM construction phase model and the BIM design phase model in a contrasting manner, integrates partial data exceeding the errors, and newly builds a phase rectification data three-dimensional model on the BIM model cloud platform.

And S8, the construction party retrieves the stage rectification data three-dimensional model from the BIM model cloud platform through the construction party terminal, rectifies and rectifies the difference of the actual construction site according to the stage rectification data three-dimensional model, and reports to the supervision party after rectification is completed.

S9, after receiving the report of the construction party, the supervisor conducts acceptance sampling again on the actual construction site at the stage to obtain modified building acceptance sampling data, the three-dimensional model of the stage modification data is retrieved through the supervisor terminal, the modified building acceptance sampling data and the three-dimensional model of the stage modification data are compared one by one, if the error does not meet the design requirement, the steps S6 to S9 are repeated until all the modified building acceptance sampling data meet the design requirement, and the supervisor uploads the modified building acceptance sampling data to the cloud document platform through the supervisor terminal.

And S10, repeating the steps S4 to S9 by taking a time shaft as a sequence until all construction plans are completed.

And S11, the project headquarters retrieves BIM model information and cloud document information through a BIM cloud platform at any stage of the steps S1 to S10 through a headquarters terminal, and acquires video information of a full-stage construction site through a site Internet of things monitoring terminal at any stage of the steps S5 to S10.

It will be evident to those skilled in the art that the invention is not limited to the details of the foregoing illustrative embodiments, and that the present invention may be embodied in other specific forms without departing from the spirit or essential attributes thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the invention being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Claims (9)

1. The utility model provides an integrated BIM's building engineering construction progress monitoring system which characterized in that: the building construction site internet of things monitoring system comprises a headquarter terminal, a design side terminal, a BIM cloud platform, a supervision side terminal, a construction side terminal and a building site internet of things monitoring terminal;

the construction site Internet of things monitoring terminal is in signal connection with the construction side terminal, the supervision side terminal and the headquarter terminal respectively;

the BIM cloud platform comprises a BIM model cloud platform, and the BIM model cloud platform is used for browsing, newly building, modifying and storing a BIM model;

the construction side terminal is used for newly building the data of the patrol graphics and texts of a constructor; the construction side terminal is in signal connection with the BIM cloud platform and used for calling BIM model data and building a construction plan of each stage according to the BIM model data;

the construction side terminal is in signal connection with the supervision side terminal and is used for transmitting the construction plan, the construction site information and the construction side patrol image-text data of each stage to the supervision side terminal;

the supervisor terminal is used for creating supervisor patrol image-text information; the supervision side terminal is in signal connection with the construction side terminal, the site internet of things monitoring terminal and the design side terminal respectively;

the design side terminal is in signal connection with the BIM cloud platform and is used for building and modifying the BIM model through the BIM model cloud platform;

the design side terminal is in signal connection with the supervision side terminal and used for receiving the rectification data and establishing a rectification data three-dimensional model through the BIM cloud platform according to the rectification data so that the construction side terminal can retrieve the rectification data three-dimensional model through the BIM cloud platform.

2. The BIM-integrated construction progress monitoring system according to claim 1, wherein: the BIM cloud platform also comprises a cloud document platform, and the cloud document platform is used for managing and browsing the cloud documents on line.

3. The BIM-integrated construction progress monitoring system according to claim 2, wherein: the construction side terminal can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform, and can upload the construction plan, the site information of the construction site and the construction side patrol image-text data of each stage to the cloud document platform to form new cloud documents.

4. The BIM-integrated construction progress monitoring system according to claim 2 or 3, wherein: the proctor terminal is in signal connection with the BIM cloud platform, can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform, and uploads the proctor patrol image-text information and rectification data to the cloud document platform to form new cloud documents.

5. The BIM-integrated construction progress monitoring system according to claim 4, wherein: the design side terminal can call and browse the existing cloud document on the cloud document platform through the BIM cloud platform.

6. The BIM-integrated construction progress monitoring system according to claim 2, 3 or 5, wherein: the building site internet of things monitoring terminal is in signal connection with the BIM cloud platform, and the cloud document platform of the BIM cloud platform is used for storing and backing up building site information monitored by the building site internet of things monitoring terminal.

7. The BIM-integrated construction progress monitoring system according to claim 6, wherein: the headquarter terminal is in signal connection with the BIM cloud platform, and the headquarter terminal can call and browse the existing cloud documents on the cloud document platform through the BIM cloud platform and can display the existing cloud documents.

8. The use method of the BIM-integrated construction progress monitoring system according to claim 7, comprising the steps of: s1, designing a BIM design model on a BIM model cloud platform through a terminal of a designer according to exploration data and project requirements by the designer;

s2, the construction side calls the BIM design model from the BIM model cloud platform through the construction side terminal, designs a construction progress plan of each stage of the building engineering according to the BIM design model, and uploads the construction progress plan of each stage to the cloud document platform through the construction side terminal;

s3, the designer accesses the construction progress plans from the cloud document platform through the designer terminal, and stratifies the BIM design model according to the construction progress plans of each stage to obtain a BIM design stage model;

s4, the construction side retrieves the BIM design stage model from the BIM model cloud platform through the construction side terminal, and installs a site Internet of things monitoring terminal before each construction stage according to a construction progress plan of each stage;

s5, in each construction stage, a constructor newly builds constructor patrol image-text data on a constructor terminal in sequence by taking a time axis as a sequence, and uploads the constructor patrol image-text data to a cloud document platform; the proctoring party creates proctoring party patrol image-text information on a proctoring party terminal in a sequence of time axis, and uploads the proctoring party patrol image-text information to a cloud document platform;

s6, according to the construction progress plan of each stage, the manager performs acceptance sampling on the current construction project information together with the constructor in a time sequence after the construction plan of each stage is completed, so that construction acceptance sampling data of the stage are obtained, and the construction acceptance sampling data of the stage are uploaded to a cloud document platform through the manager terminal;

s7, the designer retrieves the building acceptance sampling data from the cloud document platform through the designer terminal, establishes a BIM construction phase model according to the building acceptance sampling data, performs error comparison on the BIM construction phase model and a corresponding BIM design phase model, integrates partial data exceeding errors, and newly builds a phase rectification data three-dimensional model on the BIM model cloud platform;

s8, the construction party retrieves the stage rectification data three-dimensional model from the BIM model cloud platform through the construction party terminal, rectifies and rectifies the difference part of the actual construction site according to the stage rectification data three-dimensional model, and reports to the supervision party after rectification and rectification are completed;

s9, after receiving the report of the construction party, the supervisor performs acceptance sampling on the actual construction site at the stage again to obtain rectified building acceptance sampling data, and searches and reads the three-dimensional model of the rectified stage data through the supervisor terminal, compares the rectified building acceptance sampling data with the three-dimensional model of the rectified stage data one by one, if the error does not meet the design requirement, repeats the steps S6-S9 until the rectified building acceptance sampling data all meet the design requirement, and the supervisor uploads the rectified building acceptance sampling data to the cloud document platform through the supervisor terminal;

s10, repeating the steps S4 to S9 by taking a time axis as a sequence until all construction plans are completed;

and S11, the project headquarters retrieves BIM model information and cloud document information through a BIM cloud platform at any stage of the steps S1 to S10 through a headquarters terminal, and acquires video information of a full-stage construction site through a site Internet of things monitoring terminal at any stage of the steps S5 to S10.

9. The use method of the BIM-integrated construction progress monitoring system according to claim 8, wherein the step S4 further comprises the steps of: s4.1, the construction side retrieves the BIM design stage model from the BIM model cloud platform through the construction side terminal, determines the installation position of the site Internet of things monitoring terminal in each construction stage according to the construction progress plan of each stage, and uploads the installation position information of the site Internet of things monitoring terminal in each construction stage to the cloud document platform;

s4.2, before each construction stage begins, the construction side retrieves the installation information of the site Internet of things monitoring terminal of the construction stage from the BIM model cloud platform through the construction side terminal, and installs the site Internet of things monitoring terminal at the construction site.

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