CN110717736A - Construction progress intelligent tracking method and system for building - Google Patents

Abstract

The invention discloses a construction progress intelligent tracking method and a construction progress intelligent tracking system for a building, which relate to the technical field of construction engineering management and solve the problems that the existing construction building has more construction projects and effective supervision measures are lacked for the progress management of a single construction project, and the technical scheme has the key points that: acquiring real-time image information of a construction building; constructing a BIM model of the construction building according to the real-time image information; inputting construction project application information, and auditing the construction project application information; loading the construction project application information in a BIM to obtain a BIM simulation model; acquiring real-time execution progress information of the construction project after the audit is passed; the real-time execution progress information is loaded on the BIM to obtain the BIM tracking model, the BIM tracking model is compared with the construction progress simulation information to obtain the construction progress tracking information, each processing detail in the construction project is monitored in real time, and the construction progress can keep quality and quantity.

Description

Construction progress intelligent tracking method and system for building

Technical Field

The invention relates to the technical field of building engineering management, in particular to a construction progress intelligent tracking method and system for buildings.

Background

With the development of cities and the progress of society, the management of construction progress becomes more and more necessary. Engineering management today is the popularization of systems, software becomes an important carrier of information exchange, and in the construction industry, a mature project management ecosystem can be constructed through software, so that the whole engineering management system is penetrated, which is not seen in the current construction engineering field.

At present, the supervision to the construction project in the building construction process is mostly in manual supervision, because the construction project of each construction building is more, and progress management to single construction project lacks effectual supervision measure, and the accident of delaying the construction progress is frequent, the lazy scattered of managers, phenomenon ubiquitous such as cheating fake phenomenon easily leads to the construction progress to progress slowly, is difficult to guarantee the quality, the completion construction plan of guarantor, and more serious, easily lead to that construction building cost is higher and be changed into rotten tail building.

Therefore, how to design an intelligent tracking method and system for construction progress for a building is a problem which needs to be solved urgently at present, and infrastructure is provided for normal operation of a construction building.

Disclosure of Invention

The invention aims to provide an intelligent construction progress tracking method for a building, which has the effects of monitoring each processing detail in a construction project in real time, timely processing accidents of delaying construction progress, being idle by managers, cheating and the like, and enabling the construction progress to keep quality and quantity with a construction plan.

The technical purpose of the invention is realized by the following technical scheme: an intelligent tracking method for construction progress for buildings comprises the following steps:

s1: acquiring real-time image information of a construction building, and transmitting the real-time image information to a BIM (building information modeling) module;

s2: constructing a BIM model of the construction building according to the real-time image information;

s3: inputting construction project application information, and auditing the construction project application information;

s4: loading the construction project application information into the BIM to obtain a BIM simulation model, and carrying out simulation operation on the construction progress of the construction building by the BIM simulation model to obtain construction progress simulation information;

s5: acquiring real-time execution progress information of the construction project after the audit is passed, and transmitting the real-time execution progress information to a progress tracking module;

s6: and loading the real-time execution progress information into the BIM to obtain a BIM tracking model, and comparing the BIM tracking model with the construction progress simulation information to obtain construction progress tracking information.

The invention is further configured to: in step S6, the construction progress simulation information and the construction progress tracking information with a large error in the real-time execution progress information are pushed to the user side for inputting the construction project application information.

The invention is further configured to: in step S6, inputting predicted construction progress information and transmitting the predicted construction progress information to the construction drill module; and the construction drilling module loads the predicted construction progress information in the BIM model and then drills the construction strategy for completing the predicted construction progress information to obtain an optimal construction strategy.

The invention is further configured to: the real-time execution progress information acquisition method comprises the following specific steps: the method comprises the steps that an acquisition end is in communication connection with a processing end in a construction project progress flow according to construction project application information, and data of the processing end and positioning information of a user end are acquired in real time; the processing end comprises project auditing, buyer, construction sign-in, financial auditing and other ports.

The invention also aims to provide an intelligent construction progress tracking system for buildings, which has the effects of monitoring each processing detail in a construction project in real time, timely processing accidents of delaying construction progress, being idle by managers, cheating and the like, and keeping the construction progress with quality and quantity.

The technical purpose of the invention is realized by the following technical scheme: an intelligent tracking system for construction progress for buildings comprises an image acquisition module, a BIM modeling module, a construction project application module, a progress simulation module, a data acquisition module and a progress tracking module; wherein the content of the first and second substances,

the image acquisition module is used for acquiring real-time image information of a construction building and transmitting the real-time image information to the BIM modeling module;

the BIM modeling module is used for constructing a BIM model of the construction building according to the real-time image information;

the construction project application module is used for inputting construction project application information and auditing the construction project application information;

the progress simulation module is used for loading the construction project application information into the BIM to obtain a BIM simulation model, and the BIM simulation model carries out simulation operation on the construction progress of the construction building to obtain construction progress simulation information;

the data acquisition module is used for acquiring real-time execution progress information of the construction project after the examination and verification pass and transmitting the real-time execution progress information to the progress tracking module;

and the progress tracking module is used for loading the real-time execution progress information into the BIM model to obtain a BIM tracking model, and comparing the BIM tracking model with the construction progress simulation information to obtain construction progress tracking information.

The invention is further configured to: the progress tracking module is in communication connection with an information pushing module, and the information pushing module is in communication connection with the construction project application module; the information pushing module is used for pushing construction progress tracking information with larger errors in construction progress simulation information and real-time execution progress information to the construction project application module.

The invention is further configured to: the BIM modeling module is in communication connection with a construction drilling module, and the construction drilling module is in communication connection with a predicted information input module;

the estimated construction progress information input module is used for inputting estimated construction progress information and transmitting the estimated construction progress information to the construction drilling module;

and the construction drilling module is used for drilling the construction strategy for completing the predicted construction progress information after the predicted construction progress information is loaded in the BIM, and obtaining the optimal construction strategy.

In conclusion, the invention has the following beneficial effects: the method comprises the steps of collecting real-time image information of a construction building in real time, constructing a BIM (building information modeling) model, and knowing the construction progress of a construction building main body in real time; by comparing the construction progress simulation information with the real-time execution progress information in real time, the environment with errors in the construction progress process can be quickly known, and effective measures can be taken conveniently in time, so that the construction progress can keep up with the construction plan with quality and quantity guarantee; the construction progress tracking information with larger errors is pushed, so that the construction of a construction project can be supervised and corrected in time; the optimal construction strategy is exercised, and the construction progress can be flexibly changed according to requirements.

Drawings

In order to more clearly illustrate the technical solutions in the embodiments of the present invention, the drawings needed to be used in the embodiments or the prior art descriptions will be briefly described 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 to obtain other drawings based on these drawings without inventive exercise.

FIG. 1 is a flowchart in example 1 of the present invention;

fig. 2 is an architecture diagram in embodiment 2 of the present invention.

Detailed Description

In order to make the technical problems, technical solutions and advantageous effects to be solved by the present invention more clearly understood, the present invention is further described in detail below with reference to fig. 1-2 and embodiments 1-2.

Example 1: an intelligent tracking method for construction progress for buildings is shown in fig. 1 and comprises the following steps:

s1: and acquiring real-time image information of the construction building, and transmitting the real-time image information to the BIM through a wireless transmission mode. A360-degree dead-angle-free camera is installed at the design point of a main frame of a construction building to acquire real-time image information such as pictures and videos of the construction building in real time.

S2: and constructing a BIM model of the construction building according to the real-time image information and by adopting standard BIM modeling software.

S3: the construction project application information is input through a user side used by a person in charge of a single construction project, and a manager checks the construction project application information.

S4: and loading the construction project application information into the BIM to obtain a BIM simulation model, and simulating the construction progress of the construction building by the BIM simulation model according to the construction parameters in the construction project application information to obtain construction progress simulation information.

S5: and acquiring real-time execution progress information of the construction project after the audit is passed, and transmitting the real-time execution progress information to a progress tracking module. The specific steps for real-time execution of progress information acquisition are as follows: and the acquisition end is in communication connection with the processing end in the construction project progress flow according to the construction project application information, and the data of the processing end and the positioning information of the user end are acquired in real time. The processing end comprises project auditing, buyer, construction signing, financial approval and other ports.

S6: and loading the real-time execution progress information into the BIM to obtain a BIM tracking model, and comparing the BIM tracking model with the construction progress simulation information to obtain construction progress tracking information.

In step S6, the construction progress simulation information and the construction progress tracking information with a large error in the real-time execution progress information are pushed to the user side for inputting the construction project application information.

In step S6, inputting the predicted construction progress information and transmitting the predicted construction progress information to the construction drill module; and the construction drilling module loads the predicted construction progress information in the BIM model and drills the construction strategy for completing the predicted construction progress information to obtain the optimal construction strategy.

Example 2: an intelligent tracking system for construction progress for buildings is shown in figure 2 and comprises an image acquisition module, a BIM modeling module, a construction project application module, a progress simulation module, a data acquisition module and a progress tracking module. The image acquisition module is used for acquiring real-time image information of a construction building and transmitting the real-time image information to the BIM modeling module. And the BIM modeling module is used for constructing a BIM model of the construction building according to the real-time image information. The construction project application module is used for inputting construction project application information and auditing the construction project application information. The progress simulation module is used for loading the construction project application information on the BIM to obtain a BIM simulation model, and the BIM simulation model carries out simulation operation on the construction progress of the construction building to obtain construction progress simulation information. The data acquisition module is used for acquiring the real-time execution progress information of the construction project after the audit is passed and transmitting the real-time execution progress information to the progress tracking module. The progress tracking module is used for loading the real-time execution progress information on the BIM to obtain a BIM tracking model, and comparing the BIM tracking model with the construction progress simulation information to obtain construction progress tracking information. In this embodiment, the tracking system is configured with a local server and a cloud server, the local server and the cloud server are connected in a wireless communication manner, and the image acquisition module is in communication connection with the local server. The user side, the processing side and the management personnel side are in communication connection with the cloud server. The BIM modeling module, the progress simulation module and the progress tracking module are all arranged in the cloud server.

The progress tracking module is in communication connection with an information pushing module, and the information pushing module is in communication connection with the construction project application module; and the information pushing module is used for pushing construction progress tracking information with larger errors in the construction progress simulation information and the real-time execution progress information to the construction project application module.

The BIM modeling module is in communication connection with a construction drilling module, and the construction drilling module is in communication connection with a prediction information input module. The predicted information input module is used for inputting predicted construction progress information and transmitting the predicted construction progress information to the construction drilling module. And the construction drilling module is used for drilling the construction strategy for completing the predicted construction progress information after the predicted construction progress information is loaded in the BIM, and obtaining the optimal construction strategy.

The working principle is as follows: the method comprises the steps of collecting real-time image information of a construction building in real time, constructing a BIM (building information modeling) model, and knowing the construction progress of a construction building main body in real time; through carrying out real-time contrast to construction progress analog information and real-time execution progress information, can know the environment that has the error among the construction progress process fast, be convenient for in time take effective measure for construction progress can be guaranteed quality, the maintenance follow up construction plan.

The present embodiment is only for explaining the present invention, and it is not limited to the present invention, and those skilled in the art can make modifications of the present embodiment without inventive contribution as needed after reading the present specification, but all of them are protected by patent law within the scope of the claims of the present invention.

Claims (7)

1. An intelligent construction progress tracking method for buildings is characterized by comprising the following steps:

s1: acquiring real-time image information of a construction building, and transmitting the real-time image information to a BIM (building information modeling) module;

s2: constructing a BIM model of the construction building according to the real-time image information;

s3: inputting construction project application information, and auditing the construction project application information;

s4: loading the construction project application information into the BIM to obtain a BIM simulation model, and carrying out simulation operation on the construction progress of the construction building by the BIM simulation model to obtain construction progress simulation information;

s5: acquiring real-time execution progress information of the construction project after the audit is passed, and transmitting the real-time execution progress information to a progress tracking module;

s6: and loading the real-time execution progress information into the BIM to obtain a BIM tracking model, and comparing the BIM tracking model with the construction progress simulation information to obtain construction progress tracking information.

2. The method as claimed in claim 1, wherein in step S6, the construction progress simulation information and the construction progress tracking information with large error in the real-time execution progress information are pushed to the user terminal for inputting the construction project application information.

3. The intelligent tracking method for construction progress of claim 1, wherein in step S6, predicted construction progress information is input and transmitted to the construction drilling module; and the construction drilling module loads the predicted construction progress information in the BIM model and then drills the construction strategy for completing the predicted construction progress information to obtain an optimal construction strategy.

4. The intelligent tracking method for the construction progress of the building as claimed in claim 1, wherein the concrete steps of real-time execution progress information acquisition are as follows: the method comprises the steps that an acquisition end is in communication connection with a processing end in a construction project progress flow according to construction project application information, and data of the processing end and positioning information of a user end are acquired in real time; the processing end comprises project auditing, buyer, construction sign-in, financial auditing and other ports.

5. An intelligent construction progress tracking system for buildings is characterized by comprising an image acquisition module, a BIM modeling module, a construction project application module, a progress simulation module, a data acquisition module and a progress tracking module; wherein the content of the first and second substances,

the image acquisition module is used for acquiring real-time image information of a construction building and transmitting the real-time image information to the BIM modeling module;

the BIM modeling module is used for constructing a BIM model of the construction building according to the real-time image information;

the construction project application module is used for inputting construction project application information and auditing the construction project application information;

the progress simulation module is used for loading the construction project application information into the BIM to obtain a BIM simulation model, and the BIM simulation model carries out simulation operation on the construction progress of the construction building to obtain construction progress simulation information;

the data acquisition module is used for acquiring real-time execution progress information of the construction project after the examination and verification pass and transmitting the real-time execution progress information to the progress tracking module;

and the progress tracking module is used for loading the real-time execution progress information into the BIM model to obtain a BIM tracking model, and comparing the BIM tracking model with the construction progress simulation information to obtain construction progress tracking information.

6. The intelligent tracking system for construction progress of building as claimed in claim 5, wherein the progress tracking module is in communication connection with an information pushing module, and the information pushing module is in communication connection with the construction project application module; the information pushing module is used for pushing construction progress tracking information with larger errors in construction progress simulation information and real-time execution progress information to the construction project application module.

7. The construction progress intelligent tracking system for the building as claimed in claim 5, wherein the BIM modeling module is communicatively connected with a construction drilling module, and the construction drilling module is communicatively connected with a prediction information input module;

the estimated construction progress information input module is used for inputting estimated construction progress information and transmitting the estimated construction progress information to the construction drilling module;

and the construction drilling module is used for drilling the construction strategy for completing the predicted construction progress information after the predicted construction progress information is loaded in the BIM, and obtaining the optimal construction strategy.

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