CN108470315B - BIM-based project progress supervision system - Google Patents

Abstract

The invention discloses a BIM-based project progress monitoring system, relates to the field of building information model, and solves the problem that project supervision is not facilitated to know whether each construction part is carried out according to a plan or not in time, and the technical scheme is as follows: the BIM-based engineering progress supervision system can facilitate engineering supervision to acquire each construction part which is not finished according to a plan and corresponding delay time.

Description

BIM-based project progress supervision system

Technical Field

The invention relates to the field of building information model based, in particular to a BIM-based engineering progress supervision system.

Background

The BIM is a building information model, the BIM technology is a data tool applied to engineering design, construction and management, and relevant information of various projects is integrated through a parameter model, so that the digital information model is used as the basis of each building project to do relevant work.

With the development of the field of domestic building design, the BIM is preliminarily applied to the building engineering industry and shows the huge commercial value of the BIM, but the BIM still has great limitation to the current application situation of the BIM. Although BIM shares and transmits in the life cycle process of project planning, operation and maintenance, so that engineering technicians can correctly understand and efficiently respond to various building information, and provide a foundation for cooperative work of design teams and building main bodies including building operation units, and play an important role in providing production efficiency, saving cost and shortening construction period, BIM technology lacks on-site intuitive feeling due to the characteristic of model-based technology in the aspect of project schedule management, is not beneficial to project supervision and timely understanding whether each construction part is carried out according to a plan, and has an improved space.

Disclosure of Invention

The invention aims to provide a BIM-based project progress monitoring system, which can facilitate project supervision to acquire each construction part which is not completed according to a plan and corresponding delay time.

The technical purpose of the invention is realized by the following technical scheme:

a BIM-based engineering progress supervision system comprises a central processing unit, and further comprises a construction completion time database for storing construction parts and time corresponding to the construction completion time, a construction part three-dimensional visualization model database for storing the construction parts and three-dimensional visualization models matched with the construction parts during construction completion, a three-dimensional panoramic data acquisition device for acquiring three-dimensional panoramic data of the construction parts in a construction site, a construction part real-time three-dimensional panoramic data database for storing real-time three-dimensional panoramic data generated by the construction parts and the corresponding construction parts through the three-dimensional panoramic data acquisition device, a conversion device for converting the three-dimensional panoramic data into three-dimensional visualization models, a supervisor mobile phone database for storing the construction parts and corresponding supervisor mobile phone numbers, a supervisor mobile phone database for storing the supervisor mobile phones, A short message prompting device;

the central processing unit calls the time when the construction corresponding to each construction part in the construction completion database is completed, sequentially uses the corresponding construction parts as query objects according to the sequence of the time when the construction is completed, calls a theoretical three-dimensional visual model matched with the construction completion from the three-dimensional visual model database of the construction parts, calls the corresponding real-time three-dimensional panoramic data when the construction is completed from the real-time three-dimensional panoramic database, and converts the called real-time three-dimensional panoramic data through the conversion device to obtain the real-time three-dimensional visual model;

and the central processing unit compares the theoretical three-dimensional visual model of the construction part with the real-time three-dimensional visual model of the corresponding construction part, and if the comparison is inconsistent, the central processing unit calls the matched proctorial mobile phone number from the proctorial mobile phone database by the corresponding construction part and loads the corresponding delayed construction part to the sent prompt information by the corresponding proctorial mobile phone number through the short message prompt device.

By adopting the scheme, the real-time three-dimensional visual model can be compared with the theoretical three-dimensional visual model through the arrangement of the central processing unit, the real-time three-dimensional panoramic database of the construction part and the conversion device, so that the construction part with inconsistent comparison is distinguished, and the construction part is informed to the supervision personnel through the short message prompting device, so that the supervision personnel can conveniently know the construction part which is not completed according to the plan.

Preferably, the BIM-based project progress monitoring system also stores a construction part and a construction delay reason database of construction delay reasons corresponding to the construction part;

the central processing unit calls the construction delay reason matched with the three-dimensional matchable theoretical visual model matched with the real-time three-dimensional visual model in the construction delay reason database for the query object by using the construction part with inconsistent comparison between the three-dimensional matchable theoretical visual model and the real-time three-dimensional visual model when the construction is finished, and loads the construction delay reason matched with the construction delay reason in the prompt information sent by the short message prompt device.

By adopting the scheme, the corresponding construction delay reasons can be synchronously loaded when the construction part with the sound production delay is sent by the short message prompting device through the construction delay reason database and the central processing unit, so that a manager can conveniently know the reason of the delay of the construction part.

Preferably, the BIM-based project progress monitoring system further comprises a sequencing module and a delay reason occurrence frequency database which stores the construction delay reasons and the corresponding construction delay reason occurrence frequency;

the central processing unit calls the occurrence frequency of the corresponding delay reason according to the occurrence frequency of the delay reason, sorts the delay reason frequency from top to bottom through the sorting module according to at least more times, and loads the delay reason frequency into the prompt message sent by the short message prompt device.

By adopting the scheme, the delay reasons occurrence frequency database, the central processing unit and the sequencing module are arranged, so that the corresponding sequencing can be carried out on the delay reasons of each construction part, and the manager can conveniently know the main reason of the delay of the construction part.

Preferably, the BIM-based project progress monitoring system further comprises a construction starting time database for storing the construction part and the construction starting time corresponding to the construction part, and a construction completion time calculation module after delay;

the construction completion time calculation module after the delay calculates the completion time after the delay according to the following formula;

T=[(t₂-t₁)/s]+t₁；

t₂the time when the corresponding construction part is completed;

t₁is the time when the corresponding construction part starts;

s is the ratio of the real-time three-dimensional visualization model to the completion of the theoretical three-dimensional visualization model;

the central processor calls the construction start time t from the construction start time database by the construction part with inconsistent comparison between the three-dimensional matchable visual model and the real-time three-dimensional visual model matched when the construction is finished₁Meanwhile, the construction start time t is called from the construction completion time database₂And simultaneously comparing the acquired real-time three-dimensional visualization model with the theoretical three-dimensional visualization model to acquire a completion ratio s, calculating the completion time after the delay according to the formula, and loading the completion time after the delay into prompt information sent by the short message prompt device.

By adopting the scheme, the possible delay time can be reasonably deduced through the arrangement of the construction starting time database, the construction completion time calculation module after the delay and the central processing unit, and the possible delay time can be timely notified to the supervision personnel through the short message prompting device.

Preferably, the project progress supervision system based on the BIM further comprises a delay time calculation module, and the delay time calculated by the delay time calculation module is obtained according to the following formula: t is t₃=T-t₂；

And the central processing unit loads the delay time calculated by the delay time calculation module into the prompt message sent by the short message prompt device.

By adopting the scheme, the specific delay time can be informed to the supervision personnel through the arrangement of the delay time calculation module and the central processing unit.

Preferably, the BIM-based project progress supervision system further comprises a marking module;

the central processing unit marks the completion time after the delay and the delay time loaded at the short message prompting device through the marking module so as to warn the supervision personnel.

By adopting the scheme, the completion time and the delay time after the delay can be marked by setting the marking module, so that the supervision personnel can pay attention to the information.

Preferably, the BIM-based project progress supervision system further comprises a voice prompt device and a construction part delayed completion time database which stores construction parts in a delayed state and construction parts delayed corresponding to delayed completion time;

the central processing unit calls the delayed construction completion time corresponding to each construction part in the completion time database after the construction part is delayed, the corresponding construction parts are sequentially used as query objects in the front and back sequence of the delayed construction completion time to compare a theoretical three-dimensional visual model matched with the construction completion in the construction part three-dimensional visual model database with the real-time three-dimensional visual model obtained by the three-dimensional panoramic data acquisition device and the conversion device, and if the comparison is inconsistent, the central processing unit calls the matched cell phone number of the supervisor in the cell phone database by the corresponding construction part and sends prompt information to the supervisor by the corresponding cell phone number of the supervisor through the voice prompt device.

By adopting the scheme, the completion time database and the central processing unit can supervise the construction parts with delays after the construction parts are delayed, and supervise the supervision personnel by the voice prompt device when the construction parts with delays are delayed again.

Preferably, the voice prompting device is a voice prompter.

By adopting the scheme, the voice prompt device is the voice prompter, so that the cost can be reduced while the prompt effect is ensured.

In conclusion, the invention has the following beneficial effects: the real-time three-dimensional visual model can be compared with the theoretical three-dimensional visual model through the arrangement of the central processing unit, the real-time three-dimensional panoramic database of the construction part and the conversion device, so that the construction part which is inconsistent in comparison is distinguished, and the construction part which is not finished according to a plan is informed to a manager through the short message prompting device, and the manager can conveniently learn the construction part which is not finished according to the plan.

Drawings

FIG. 1 is a first system block diagram of a BIM-based project progress supervision system;

FIG. 2 is a system block diagram II of a BIM-based project progress supervision system.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings.

As shown in fig. 1, the project progress monitoring system based on BIM disclosed in this embodiment includes a central processing unit, and further includes a construction completion time database storing construction parts and time corresponding to the construction completion time, a construction part three-dimensional visualization model database storing construction parts and three-dimensional visualization models matched with the construction parts when construction is completed, a three-dimensional panoramic data collecting device for collecting three-dimensional panoramic data of the construction parts in a construction site, a construction part real-time three-dimensional panoramic database storing real-time three-dimensional panoramic data generated by the construction parts and corresponding construction parts collected by the three-dimensional panoramic data collecting device, a converting device for converting the three-dimensional panoramic data into a three-dimensional visualization model, and a supervisor mobile phone database storing the construction parts and corresponding supervisor mobile phone numbers, A short message prompting device; the three-dimensional panoramic data acquisition device is a 360-degree panoramic camera, the coverage area can be monitored without blind spots by about 400 square meters, the three-dimensional panoramic data acquisition device is provided with a fisheye lens, the three-dimensional panoramic data acquisition device has 360-degree panoramic views, one 360-degree panoramic camera can replace a plurality of common cameras, seamless monitoring is achieved, the conversion device preferably selects software for automatically drawing a corresponding three-dimensional visual model according to three-dimensional panoramic data information, and the short message prompting device preferably selects a short message prompting device.

The central processing unit calls the time when the construction corresponding to each construction part in the construction completion database is completed, sequentially uses the corresponding construction parts as query objects according to the sequence of the time when the construction is completed, calls the matched theoretical three-dimensional visual model in the construction part three-dimensional visual model database when the construction is completed, calls the corresponding real-time three-dimensional panoramic data in the real-time three-dimensional panoramic database when the construction is completed, and converts the called real-time three-dimensional panoramic data through the conversion device to obtain the real-time three-dimensional visual model.

And the central processing unit compares the theoretical three-dimensional visual model of the construction part with the real-time three-dimensional visual model of the corresponding construction part, and if the comparison is inconsistent, the central processing unit calls the matched proctorial mobile phone number from the proctorial mobile phone database by the corresponding construction part and loads the corresponding delayed construction part to the sent prompt information by the corresponding proctorial mobile phone number through the short message prompt device.

In order to facilitate the supervision personnel to timely know some reason conditions of the construction part with delay, the project progress supervision system based on the BIM also stores a construction part and a construction delay reason database of the construction delay reason corresponding to the construction part; the central processing unit calls the construction delay reason matched with the three-dimensional matchable theoretical visual model matched with the construction part when the construction is finished and the real-time three-dimensional visual model for the query object in the construction delay reason database according to the construction part with inconsistent comparison, and loads the construction delay reason into the prompt information sent by the short message prompt device.

Furthermore, in order to facilitate the supervision personnel to timely know that the reason of the delay caused by the reason to the construction part is serious, the BIM-based engineering progress supervision system further comprises a sequencing module and a delay reason occurrence frequency database which stores the construction delay reason and the construction delay reason occurrence frequency corresponding to the construction delay reason; the central processing unit calls the occurrence frequency of the corresponding delay reason according to the occurrence frequency of the delay reason, sorts the delay reason frequency from top to bottom through the sorting module according to at least more times, and loads the delay reason frequency into the prompt message sent by the short message prompt device.

As shown in fig. 2, in addition, in order to facilitate the supervision personnel to know the time of the construction part after the corresponding delay in time, the project progress supervision system based on the BIM further comprises a construction starting time database storing the construction part and the time of the construction starting time corresponding to the construction part, and a construction completion time calculation module after the delay; the construction completion time calculation module after the delay calculates the completion time after the delay according to the following formula; t = [ (T)₂-t₁)/s]+t₁；t₂The time when the corresponding construction part is completed; t is t₁Is the time when the corresponding construction part starts; and s is the ratio of the real-time three-dimensional visualization model to the completion ratio of the theoretical three-dimensional visualization model.

The central processor calls the construction start time t from the construction start time database by the construction part with inconsistent comparison between the three-dimensional matchable visual model and the real-time three-dimensional visual model matched when the construction is finished₁Meanwhile, the construction start time t is called from the construction completion time database₂And simultaneously comparing the acquired real-time three-dimensional visualization model with the theoretical three-dimensional visualization model to acquire a completion ratio s, calculating the completion time after the delay according to the formula, and loading the completion time after the delay into prompt information sent by the short message prompt device.

Similarly, in order to facilitate the supervision personnel to timely know the delay time corresponding to the specific construction part, the project progress supervision system based on the BIM further comprises a delay time calculation module, and the delay time calculated by the delay time calculation module is obtained according to the following formula: t is t₃=T-t₂(ii) a And the central processing unit loads the delay time calculated by the delay time calculation module into the prompt message sent by the short message prompt device.

In addition, in order to arouse the attention of the supervision personnel to the completion time after the delay and the delay time, the BIM-based engineering progress supervision system also comprises a marking module; the central processing unit marks the completion time after the delay and the delay time loaded at the short message prompting device through the marking module so as to warn the supervision personnel.

In addition, corresponding supervision is also carried out on the construction part after the delay, and the BIM-based project progress supervision system also comprises a voice prompt device and a construction part delayed completion time database which stores the construction part in a delayed state and the construction part delayed completion time corresponding to the delayed completion time; the central processing unit calls the delayed construction completion time corresponding to each construction part in the completion time database after the construction part is delayed, the corresponding construction parts are sequentially used as query objects in the front and back sequence of the delayed construction completion time to compare a theoretical three-dimensional visual model matched with the construction completion in the construction part three-dimensional visual model database with the real-time three-dimensional visual model obtained by the three-dimensional panoramic data acquisition device and the conversion device, if the comparison is inconsistent, the central processing unit calls the matched cell phone number of the supervisor in the cell phone database by the corresponding construction part and sends prompt information to the supervisor by the corresponding cell phone number of the supervisor through the voice prompt device, and the voice prompt device is a voice prompt.

The whole working process is as follows:

the construction method comprises the steps of firstly, acquiring a real-time three-dimensional visual model of a corresponding construction part through a real-time three-dimensional panoramic database of the construction part and a conversion device, and comparing the real-time three-dimensional visual model with a theoretical three-dimensional visual model which is retrieved from a three-dimensional visual model database of the construction part, so that construction parts which do not accord with regulations are acquired one by one, a mobile phone number of a corresponding supervisor can be acquired through a mobile phone library of the supervisor, and corresponding prompt information is sent to the other side through a short message prompt device.

And when the construction part with delay is sent to the supervision personnel through the short message prompting device, the delay reason can be informed to the corresponding supervision personnel in a key manner through the delay reason occurrence frequency database, the construction delay reason database and the sequencing module.

In addition, the construction starting database, the construction completion time database, the delay time calculation module and the construction completion time calculation module after delay can be combined to obtain corresponding delay time and time after delay, and the marking module is used for marking to further remind the other side.

In addition, when the construction part with delay is delayed again, the corresponding supervision personnel can be informed in time, and the time database and the voice prompt can be completed after the delay part is delayed, so that the corresponding supervision personnel can be informed in time when the condition occurs again.

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 (2)

1. A project progress monitoring system based on BIM comprises a central processing unit and is characterized in that: the BIM-based engineering progress supervision system further comprises a construction completion time database for storing construction parts and construction completion time corresponding to the construction parts, a construction part three-dimensional visual model database for storing the construction parts and three-dimensional visual models matched with the construction parts when construction is completed correspondingly, a three-dimensional panoramic data acquisition device for acquiring three-dimensional panoramic data of part of three-dimensional panoramic data of a construction site, a construction part real-time three-dimensional panoramic data database for storing real-time three-dimensional panoramic data generated by the construction parts and the corresponding construction parts through the three-dimensional panoramic data acquisition device, a conversion device for converting the three-dimensional panoramic data into a three-dimensional visual model, a supervisor mobile phone database for storing the construction parts and corresponding supervisor mobile phone numbers, and a short message prompting device;

the central processing unit calls the time when the construction corresponding to each construction part in the construction completion database is completed, sequentially uses the corresponding construction parts as query objects according to the sequence of the time when the construction is completed, calls a theoretical three-dimensional visual model matched with the construction completion from the three-dimensional visual model database of the construction parts, calls the corresponding real-time three-dimensional panoramic data when the construction is completed from the real-time three-dimensional panoramic database, and converts the called real-time three-dimensional panoramic data through the conversion device to obtain the real-time three-dimensional visual model;

the central processing unit compares a theoretical three-dimensional visual model of the construction part with a real-time three-dimensional visual model of the corresponding construction part, if the comparison is inconsistent, the central processing unit calls a matched proctorial mobile phone number from a proctorial mobile phone database by the corresponding construction part and loads a corresponding delayed construction part to the sent prompt information by the corresponding proctorial mobile phone number through a short message prompt device;

the BIM-based project progress monitoring system also comprises a construction starting time database for storing the construction part and the construction starting time corresponding to the construction part, and a construction completion time calculation module after delay;

the construction completion time calculation module after the delay calculates the completion time after the delay according to the following formula;

T=[(t₂-t₁)/s]+t₁；

t₂the time when the corresponding construction part is completed;

t₁is the time when the corresponding construction part starts;

s is the ratio of the real-time three-dimensional visualization model to the completion of the theoretical three-dimensional visualization model;

the central processor calls the construction starting time t from the construction starting time database by the construction part with inconsistent comparison between the three-dimensional matchable visual model matched with the construction part and the real-time three-dimensional visual model when the construction is finished₁Meanwhile, the construction start time t is called from the construction completion time database₂Simultaneously comparing the obtained real-time three-dimensional visualization model with the theoretical three-dimensional visualization model to obtain a completion ratio s, calculating the completion time after the delay according to the formula, and loading the completion time after the delay into prompt information sent by a short message prompt device;

based onThe BIM project progress monitoring system also comprises a delay time calculation module, wherein the delay time calculated by the delay time calculation module is obtained according to the following formula: t is t₃=T-t₂；

The central processing unit loads the delay time calculated by the delay time calculation module into the prompt message sent by the short message prompt device;

the BIM-based project progress monitoring system also stores a construction part and a construction delay reason database of construction delay reasons corresponding to the construction part;

the central processing unit calls a construction delay reason matched with a three-dimensional matchable theoretical visual model matched when construction is completed and a real-time three-dimensional visual model for a query object in a construction delay reason database according to a construction part with inconsistent comparison between the theoretical visual model and the real-time three-dimensional visual model, and loads the construction delay reason into prompt information sent by a short message prompt device;

the BIM-based project progress monitoring system also comprises a sequencing module and a delay reason occurrence frequency database which stores construction delay reasons and construction delay reason occurrence frequencies corresponding to the construction delay reasons;

the central processing unit calls the occurrence frequency of the corresponding delay reason according to the occurrence frequency of the delay reason, sorts the delay reason frequency from top to bottom through the sorting module according to at least more times, and loads the delay reason frequency into the prompt message sent by the short message prompt device;

the BIM-based project progress monitoring system also comprises a marking module;

the central processing unit marks the completion time after the delay and the delay time loaded at the short message prompting device through a marking module so as to warn a supervisor;

the BIM-based project progress monitoring system also comprises a voice prompt device and a construction part delayed completion time database which stores construction parts in a delayed state and corresponding construction part delayed completion time;

the central processing unit calls the delayed construction completion time corresponding to each construction part in the completion time database after the construction part is delayed, the corresponding construction parts are sequentially used as query objects in the front and back sequence of the delayed construction completion time to compare with a theoretical three-dimensional visual model matched with the construction completion in the construction part three-dimensional visual model database, if the comparison is inconsistent, the central processing unit calls the matched supervisor mobile phone number from the supervisor mobile phone database by using the corresponding construction part and sends prompt information to the supervisor by using the corresponding supervisor mobile phone number through a voice prompt device.

2. The BIM-based project progress supervision system according to claim 1, wherein: the voice prompting device is a voice prompter.

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