CN113191731A

CN113191731A - Intelligent building engineering management system based on BIM platform

Info

Publication number: CN113191731A
Application number: CN202110479637.3A
Authority: CN
Inventors: 焦谋
Original assignee: Chongqing Tianzhihuiqi Technology Co ltd
Current assignee: Chongqing Tianzhihuiqi Technology Co ltd
Priority date: 2021-04-30
Filing date: 2021-04-30
Publication date: 2021-07-30

Abstract

The invention belongs to the technical field of building construction, and particularly relates to an intelligent building engineering management system based on a BIM platform, which comprises a design end, an acquisition end, a background end and a management end; the design end is used for constructing a BIM model of the building project and adding an attribute label and a position label to a member of the BIM model; the back end is used for storing the BIM model added with the attribute tag and the position tag; the acquisition end is used for acquiring the completed construction data and inputting the characteristic attributes corresponding to the construction data, and the characteristic attributes comprise position attributes; the acquisition end is also used for sending the construction data and the corresponding characteristic attributes to the background end; the back end is also used for generating a building model according to the received construction data and matching a BIM model component corresponding to the position label according to the position attribute; and the back end is also used for carrying out comparative analysis on the matched BIM model component and the building model. The system can ensure the accuracy and timeliness of construction supervision.

Description

Intelligent building engineering management system based on BIM platform

Technical Field

The invention belongs to the technical field of building construction, and particularly relates to an intelligent building engineering management system based on a BIM platform.

Background

BIM (building information model technology) is another technological revolution that has appeared in the engineering construction industry following the CAD technological revolution. The method ensures that the engineering personnel no longer bear the trouble of how to express the three-dimensional complex form of the space by using the traditional two-dimensional construction drawing, and greatly expands the expression capability, the understanding capability and the implementation capability of the engineering personnel on the building form.

The current BIM system is basically used as a building information display platform to display a three-dimensional model of a building project and various attribute information of the three-dimensional model, and the three-dimensional model is favorable for viewing due to high information integration level, so that the construction is greatly convenient. However, the construction needs to be judged and supervised by a supervisor according to the construction data and the project data.

However, when the supervision personnel supervise, a judgment error may occur, if the construction has a deviation but is not judged, the deviation will be continuously increased when the construction is continued, and the scale to be changed is large when the construction is changed at the time of subsequent discovery, which may affect the construction period of the project. When the quantity of projects is large, a plurality of regions which need to be charged by a supervisor are provided, and when the workload is too large, the situation of judgment errors is increased.

Therefore, an intelligent building engineering management system based on a BIM platform is needed, the accuracy and timeliness of construction supervision can be guaranteed, and the problem that project construction period is affected due to supervision is avoided.

Disclosure of Invention

The invention aims to provide an intelligent building engineering management system based on a BIM platform, which can ensure the accuracy and timeliness of construction supervision and avoid the influence on project construction period due to supervision problems.

The basic scheme provided by the invention is as follows:

an intelligent building engineering management system based on a BIM platform comprises a design end, an acquisition end, a background end and a management end;

the design end is used for constructing a BIM model of the building project and adding an attribute label and a position label to a member of the BIM model; the back end is used for storing the BIM model added with the attribute tag and the position tag;

the acquisition end is used for acquiring the completed construction data and inputting the characteristic attributes corresponding to the construction data, and the characteristic attributes comprise position attributes; the acquisition end is also used for sending the construction data and the corresponding characteristic attributes to the background end; the back end is also used for generating a building model according to the received construction data and matching a BIM model component corresponding to the position label according to the position attribute; the back end is also used for comparing and analyzing the matched BIM model component and the building model, and is also used for sending an abnormal signal to the management end when the comparison result is abnormal.

Basic scheme theory of operation and beneficial effect:

by using the system, a designer can add an attribute label and a position label to a member of the BIM after designing the BIM of the member building project at the end according to related project data and specification requirements, and then, the BIM is stored at the back end.

The supervision personnel can acquire the completed construction data through the acquisition end and input the corresponding characteristic attributes. And then, the supervision personnel can send the construction data and the corresponding characteristic attributes to the background end. And the back end generates a building model according to the received construction data, and matches a BIM model component corresponding to the position label according to the position attribute. Through the position attribute and the position label, the background end can match the needed BIM model component quickly and accurately. And then, the background end compares and analyzes the matched BIM model component and the building model, and sends an abnormal signal to the management end when the comparison result is that the abnormal component exists. When the management end of the supervisor receives the abnormal signal, the fact that the collected part is completed is indicated to be problematic. Processing is required.

Compared with the existing supervision method, the system can accurately and stably identify the place needing to be corrected in the construction process, so that the supervision personnel can know the relevant conditions in time and modify the place needing to be modified in time, and the condition that follow-up large-scale modification is caused by the fact that the problem is not identified in the early stage is avoided.

In conclusion, the system can guarantee the accuracy and timeliness of construction supervision, and avoids the influence on the project construction period due to the supervision problem.

Further, the exception signal includes exception content and corresponding location attributes; the management end is also used for generating a to-be-processed item after receiving the abnormal signal, and the to-be-processed item comprises a re-acquisition position; the management end is also used for filling the reacquisition time in the to-be-processed items and is also used for sending out a prompt when the processing items reach the preset duration and the reacquisition time is not filled yet.

By the arrangement, a supervisor can make a subsequent plan for a place needing to be collected again in time.

Furthermore, the management end is also used for creating an acquisition schedule, and items of the acquisition schedule comprise acquisition time and acquisition position; the management end is also used for judging whether the conflict exists according to the acquisition time in the acquisition schedule when the re-acquisition time is filled, and sending a prompt when the conflict exists; the management end is also used for adding the backlog into the acquisition schedule after the backlog is filled into the reacquisition time.

The arrangement of collecting work can be reasonably carried out by the supervisory personnel.

Further, the management terminal is also used for sending the latest acquisition schedule to the acquisition terminal when the acquisition schedule is created or updated; the acquisition end is also used for acquiring the current positioning and acceleration of the acquisition end; the acquisition end is also used for judging whether the current positioning is in the corresponding acquisition position or not according to the current positioning when acquiring the acquisition time in the schedule; if not, the acquisition end is also used for judging whether the distance between the acquisition end and the acquisition position is within a preset range according to the current positioning; if the current positioning and acceleration is within the preset range, the acquisition end is further used for judging whether the current positioning and acceleration moves towards the acquisition position or not, and if not, an acquisition reminding signal is sent out;

the acquisition end is also used for acquiring current weather information and analyzing whether the acquisition is suitable for acquiring construction data or not when the distance between the acquisition end and the acquisition position is judged not to be within a preset range according to the current positioning, and if the analysis result is not suitable, the acquisition end sends an acquisition change signal to the management end; if the analysis result is suitable, the acquisition end sends out an idling warning and sends an idling signal to the management end.

Has the advantages that:

after the acquisition end receives the acquisition schedule, judging whether an acquisition worker is at an acquisition position according to the current positioning when acquiring the acquisition time in the acquisition schedule, and if so, indicating that the acquisition worker is acquiring the construction data according to the schedule; if not, the acquisition end judges whether the distance between the acquisition end and the acquisition position is within a preset range according to the current positioning, if so, the acquisition end indicates that the acquisition personnel can arrive and finish the acquisition work, and therefore, the acquisition end judges whether the acquisition end moves towards the acquisition position according to the current positioning and the acceleration; if the mobile terminal moves towards the collection position, the mobile terminal indicates that the mobile terminal is on the way to the collection position; if not moving towards the collection position, then explain that it can catch up to the collection position but its not know the condition at present, consequently, gather the end and send and gather the reminder signal, let the collection personnel know the condition, be convenient for in time accomplish the collection work.

If the distance between the current positioning judgment and the acquisition position is not within the preset range, the acquisition personnel can not arrive at the acquisition position to complete the acquisition work, and therefore the acquisition end acquires the current weather information and analyzes whether the acquisition is suitable for acquiring construction data. If the analysis result is not suitable (such as rainy and foggy days), the acquisition personnel do not intentionally execute the acquisition work, but the current weather is not suitable, so that the acquisition end sends an acquisition change signal to the management end to inform the management end of changing the corresponding acquisition plan; if the analysis result is proper, it indicates that the acquisition personnel is the subjective reason of the personnel and does not execute the acquisition work, and the acquisition work is an important part of supervision and needs to be aware of the severity of the problem, so the acquisition end sends out an idling warning, and simultaneously the acquisition end sends an idling signal to the management end to enable the supervision personnel to know the situation, and the acquisition personnel can be reasonably punished subsequently, and meanwhile, the supervision personnel can timely modify the corresponding acquisition plan.

And further, the background end is also used for adding an rectification label on the corresponding BIM model component when the comparison result is that the abnormality exists.

By adding the rectification tag, the anomaly can be accurately recorded.

Further, when the back end compares and analyzes the BIM model component and the building model, if the BIM model component has the rectification label and the comparison result is that no abnormity exists, the back end is also used for deleting the rectification label.

During comparison and analysis, the BIM model component has the rectification label and the comparison result is that no abnormity exists, which indicates that rectification is completed, so the background end deletes the rectification label.

Further, when the background end compares and analyzes the BIM model component and the building model, if the BIM model component has the rectification label and the comparison result shows that the BIM model component still has the abnormity, the background end is also used for adding a serious label to the BIM model component; the background end is also used for sending an updating reminding signal to the management end when the existing time of the modifying label of a certain BIM model component exceeds the preset modifying time and the BIM model component does not have a serious label.

If the existing time of the modification label of a certain BIM model component exceeds the preset modification time length and the BIM model component does not have a serious label, the BIM model component is not matched again for comparative analysis after the modification label is added, and construction data after the modification of the construction part corresponding to the BIM model component is not uploaded all the time. Therefore, an updating reminding signal is sent to the management end, and a supervisor can acquire the updated construction data in time so as to know whether the construction data is rectified and whether the rectification is qualified.

Drawings

Fig. 1 is a logic block diagram of a first embodiment of the invention.

Detailed Description

The following is further detailed by the specific embodiments:

example one

As shown in fig. 1, an intelligent building engineering management system based on a BIM platform includes a design end, a collection end, a background end and a management end. In this embodiment, the design end is the PC of loading corresponding software, and the back end is the server, and the collection end is including loading smart mobile phone and the three-dimensional scanning device of corresponding APP, and the management end is including loading the smart mobile phone of corresponding APP and loading the PC of corresponding software.

The design end is used for constructing a BIM model of the building project and adding an attribute label and a position label to a member of the BIM model; and the back stage end is used for storing the BIM model added with the attribute tag and the position tag.

Wherein the exception signal includes exception content and a corresponding location attribute; the management end is also used for generating a to-be-processed item after receiving the abnormal signal, and the to-be-processed item comprises a re-acquisition position; the management end is also used for filling the reacquisition time in the to-be-processed items and is also used for sending out a prompt when the processing items reach the preset duration and the reacquisition time is not filled yet.

The management terminal is also used for creating an acquisition schedule, and items of the acquisition schedule comprise acquisition time and acquisition position; the management end is also used for judging whether the conflict exists according to the acquisition time in the acquisition schedule when the re-acquisition time is filled, and sending a prompt when the conflict exists; the management end is also used for adding the backlog into the acquisition schedule after the backlog is filled into the reacquisition time. The management terminal is also used for sending the latest acquisition schedule to the acquisition terminal when the acquisition schedule is created or updated.

The acquisition end is also used for acquiring the current positioning and acceleration of the acquisition end; the acquisition end is also used for judging whether the current positioning is in the corresponding acquisition position or not according to the current positioning when acquiring the acquisition time in the schedule; if not, the acquisition end is also used for judging whether the distance between the acquisition end and the acquisition position is within a preset range according to the current positioning; if the current positioning and acceleration is within the preset range, the acquisition end is further used for judging whether the current positioning and acceleration moves towards the acquisition position or not, and if not, an acquisition reminding signal is sent out.

Compared with the existing supervision method, the system can accurately and stably identify the places needing to be corrected in the construction process, so that the supervisors can timely know the relevant conditions and timely modify the places needing to be modified, and the condition that follow-up large-scale modification is caused by the fact that the problems are not identified in the early stage is avoided.

Example two

Different from the first embodiment, in the present embodiment, the backend is further configured to add an amendment tag to the corresponding BIM model component when the comparison result indicates that there is an anomaly. And when the back end carries out comparison analysis on the BIM model component and the building model, if the BIM model component has the rectification label and the comparison result shows that no abnormity exists, the back end is also used for deleting the rectification label.

When the back end carries out comparison analysis on the BIM model component and the building model, if the BIM model component has the rectification label and the comparison result shows that the BIM model component still has the abnormity, the back end is also used for adding a serious label to the BIM model component; the background end is also used for sending an updating reminding signal to the management end when the existing time of the modifying label of a certain BIM model component exceeds the preset modifying time and the BIM model component does not have a serious label.

The foregoing is merely an example of the present invention, and common general knowledge in the field of known specific structures and characteristics is not described herein in any greater extent than that known in the art at the filing date or prior to the priority date of the application, so that those skilled in the art can now appreciate that all of the above-described techniques in this field and have the ability to apply routine experimentation before this date can be combined with one or more of the present teachings to complete and implement the present invention, and that certain typical known structures or known methods do not pose any impediments to the implementation of the present invention by those skilled in the art. It should be noted that, for those skilled in the art, without departing from the structure of the present invention, several changes and modifications can be made, which should also be regarded as the protection scope of the present invention, and these will not affect the effect of the implementation of the present invention and the practicability of the patent. The scope of the claims of the present application shall be determined by the contents of the claims, and the description of the embodiments and the like in the specification shall be used to explain the contents of the claims.

Claims

1. The utility model provides an wisdom building engineering management system based on BIM platform which characterized in that: the system comprises a design end, an acquisition end, a background end and a management end;

2. The intelligent BIM platform-based construction engineering management system of claim 1, wherein: the exception signal includes exception content and a corresponding location attribute; the management end is also used for generating a to-be-processed item after receiving the abnormal signal, and the to-be-processed item comprises a re-acquisition position; the management end is also used for filling the reacquisition time in the to-be-processed items and is also used for sending out a prompt when the processing items reach the preset duration and the reacquisition time is not filled yet.

3. The intelligent BIM platform-based construction engineering management system of claim 2, wherein: the management terminal is also used for creating an acquisition schedule, and items of the acquisition schedule comprise acquisition time and acquisition position; the management end is also used for judging whether the conflict exists according to the acquisition time in the acquisition schedule when the re-acquisition time is filled, and sending a prompt when the conflict exists; the management end is also used for adding the backlog into the acquisition schedule after the backlog is filled into the reacquisition time.

4. The intelligent BIM platform-based construction engineering management system of claim 3, wherein: the management terminal is also used for sending the latest acquisition schedule to the acquisition terminal when the acquisition schedule is created or updated; the acquisition end is also used for acquiring the current positioning and acceleration of the acquisition end; the acquisition end is also used for judging whether the current positioning is in the corresponding acquisition position or not according to the current positioning when acquiring the acquisition time in the schedule; if not, the acquisition end is also used for judging whether the distance between the acquisition end and the acquisition position is within a preset range according to the current positioning; if the current positioning and acceleration is within the preset range, the acquisition end is further used for judging whether the current positioning and acceleration moves towards the acquisition position or not, and if not, an acquisition reminding signal is sent out;

5. The intelligent BIM platform-based construction engineering management system of claim 1, wherein: and the background end is also used for adding a rectification label on the corresponding BIM model component when the comparison result shows that the abnormality exists.

6. The intelligent BIM platform-based construction engineering management system of claim 5, wherein: and when the back end carries out comparison analysis on the BIM model component and the building model, if the BIM model component has the rectification label and the comparison result shows that no abnormity exists, the back end is also used for deleting the rectification label.

7. The intelligent BIM platform-based construction engineering management system of claim 6, wherein: when the back end carries out comparison analysis on the BIM model component and the building model, if the BIM model component has the rectification label and the comparison result shows that the BIM model component still has the abnormity, the back end is also used for adding a serious label to the BIM model component; the background end is also used for sending an updating reminding signal to the management end when the existing time of the modifying label of a certain BIM model component exceeds the preset modifying time and the BIM model component does not have a serious label.