CN115035249A - A visual real-time monitoring system that wisdom building site construction progress that is used for - Google Patents

Abstract

The invention relates to the technical field of construction management, and discloses a visual real-time monitoring system for construction progress of an intelligent construction site. This a visual real-time monitoring system that wisdom building site construction progress for, through the cooperation of construction modeling subsystem, monitoring facilities subsystem, site management subsystem, emulation construction subsystem, video monitoring subsystem, unusual warning subsystem and data communication subsystem, use this system to monitor the engineering construction from a plurality of aspects, make things convenient for the full flow to control, improve the security and the quality of engineering.

Description

A visual real-time monitoring system that wisdom building site construction progress for

Technical Field

The invention relates to the technical field of construction management, in particular to a visual real-time monitoring system for construction progress of an intelligent construction site.

Background

With the rapid development of economy, the construction industry is changing day by day, and the construction safety is very important. Generally, the construction administrative departments at all levels supervise the construction site by adopting a management mode of field inspection and telephone interview. However, the method has too much manpower and material resources, and cannot effectively monitor the safety of the construction site in real time. Therefore, at present, a video monitoring mode is adopted for a construction site, monitoring is only limited to video pictures, whether safety problems occur in the construction site can be generally monitored, the construction site environment, vehicles and personnel cannot be monitored in multiple aspects, and the monitoring personnel cannot be warned before problems occur.

The existing building engineering construction period monitoring is mainly manual monitoring, namely, monitoring personnel patrol each monitoring point in a fixed period, collect monitoring point data on site and process the measuring point data in a manual input mode.

Therefore, a visual real-time monitoring system for the construction progress of the intelligent construction site is provided.

Disclosure of Invention

In order to make up for the defects of the prior art, the invention provides the following technical scheme: a visual real-time monitoring system for intelligent construction progress of a construction site comprises a construction modeling subsystem, a monitoring device subsystem, a site management subsystem, a simulation construction subsystem, a video monitoring subsystem, an abnormity alarm subsystem and a data communication subsystem, wherein the construction modeling subsystem, the monitoring device subsystem, the site management subsystem, the simulation construction subsystem, the video monitoring subsystem and the abnormity alarm subsystem are used for carrying out real-time data transmission through the data communication subsystem.

The construction modeling subsystem carries out 3D modeling and synchronous simulation by utilizing construction design data and various data sources in construction to obtain a real-time 3D model of construction progress.

The monitoring equipment subsystem carries out real-time monitoring on the project progress based on various real-time monitoring equipment arranged on a construction site and transmits monitoring data through the data communication subsystem.

The field management subsystem carries out real-time positioning and accurate management on personnel and vehicles on a construction field by utilizing various means and equipment.

The video monitoring subsystem carries out real-time video monitoring on the construction range and the periphery through the panoramic camera, the real-time video monitoring and the unmanned aerial vehicle.

And the abnormity warning subsystem compares data based on real-time data, and timely reminds and records adverse factors and dangerous information which may influence the construction progress.

Preferably, the construction modeling subsystem comprises a 3D modeling module, a geographic coordinate labeling module and an information acquisition module, the 3D modeling module constructs a construction progress model, the geographic coordinate labeling module performs coordinate labeling on each construction unit in the construction progress model, coordinates are labeled in the construction progress model according to the actual coordinates of the monitoring equipment subsystem, the information acquisition module performs acquisition and classification processing on data obtained by real-time monitoring of the monitoring equipment subsystem, the field management subsystem, the video monitoring subsystem and the abnormity alarm subsystem through the data communication subsystem, the data are compared with early-stage data, and then the 3D modeling module is matched with the geographic coordinate labeling module to perform real-time 3D modeling.

Preferably, the monitoring equipment subsystem comprises a construction environment detection module, a weather monitoring module and a terrain detection module, the construction environment detection module and the weather monitoring module are used for monitoring the site environment and the weather of the construction site in real time, the terrain detection module is used for sensing the foundation pit stress and peripheral terrain settlement data of the construction site and displaying the sensed data and corresponding geographic coordinates in the construction progress model.

Preferably, the field management subsystem includes personnel management module, location monitoring module, vehicle management module and information registration module, information registration module registers and stores all staff and the information of vehicle that participate in the construction process, personnel management module and vehicle management module carry out management and control, allotment and visual overall management line to the corresponding field staff of construction project and vehicle based on location monitoring module.

Preferably, the abnormity warning subsystem comprises a field acousto-optic warning module, a remote real-time warning module and an abnormity information recording module, the field acousto-optic warning module and the remote real-time warning module are connected with the monitoring equipment subsystem, when monitoring data are abnormal, acousto-optic warning equipment is started, meanwhile, remote warning is carried out through the data communication subsystem, and abnormal coordinates are highlighted in the construction progress model.

Preferably, the construction environment detection module includes, but is not limited to, dust, PM2.5, PM10, noise, temperature and humidity detection devices.

Preferably, the terrain detection module comprises a differential pressure type settlement gauge, a crack measuring instrument, a laser convergence gauge, a vibrating wire type sensor and a non-contact static level gauge, wherein the differential pressure type settlement gauge is used for monitoring settlement, displacement, cracks, deformation, terrain inclination angles, stress and vertical displacement.

Preferably, the data communication subsystem comprises an optical fiber communication cable and 5G wireless communication equipment, the optical fiber communication cable and the 5G wireless communication equipment form a three-dimensional network, and the three-dimensional network is connected with the construction modeling subsystem, the monitoring equipment subsystem, the field management subsystem, the simulation construction subsystem, the video monitoring subsystem and the abnormity alarm subsystem.

Preferably, the simulation construction subsystem performs entity parameterization simulation on construction and visualizes a simulation result by using a whole-process simulation clock method by using construction drawings, a project schedule, construction tasks and construction period of each stage and other engineering design data.

Preferably, the personnel management module is installed on each telescopic door and a switch blade of a construction site, and comprises a face recognition system for the workers to scan faces and register and record login data.

Advantageous effects

Compared with the prior art, the invention provides a visual real-time monitoring system for the construction progress of the intelligent construction site, which has the following beneficial effects:

1. this a visual real-time monitoring system that wisdom building site construction progress for, through the synchronous analog simulation of construction modeling subsystem system, obtain the construction progress model, utilize the monitoring facilities subsystem to associate the controller of all kinds of automation equipment of job site, the information of perception field device carries out equipment monitoring, utilize topography detection module response job site and peripheral topography to subside data, carry out topography monitoring, carry out the real-time management of on-the-spot constructor and engineering vehicle through the field management subsystem, use this system to monitor engineering construction from a plurality of aspects, make things convenient for the full flow to control, the security and the quality of improvement engineering.

2. This a visual real-time monitoring system that wisdom building site construction progress that is used for carrying out the visual of simulation modeling, simulation calculation process and simulation result with construction organization design data through simulation construction subsystem, and the construction result simulation is carried out and is compared with the construction progress model of true through the construction organization design data that construction unit provided, and the real-time progress of engineering construction has been known in time, and then carries out optimization and adjustment.

3. This a visual real-time monitoring system that wisdom building site construction progress that is used for through the operation normal data of predetermineeing all kinds of automation equipment at unusual alarm subsystem to and the data normal value of construction site and peripheral topography, when monitoring data is unusual, send acousto-optic warning through on-the-spot acousto-optic warning module, and highlight shows unusual coordinates in construction progress model, be favorable to maintainer to get rid of unusually according to the coordinate fast, guarantee that the construction normally goes on.

Drawings

FIG. 1 is a schematic diagram of the system of the present invention;

FIG. 2 is a schematic structural diagram of a construction modeling subsystem of the present invention;

FIG. 3 is a schematic view of a monitoring device subsystem according to the present invention;

FIG. 4 is a schematic diagram of the field management subsystem of the present invention;

FIG. 5 is a schematic diagram of an anomaly alarm subsystem according to the present invention;

FIG. 6 is a flow chart of the simulation construction of the present invention.

In the figure: 1. a construction modeling subsystem; 11. a 3D modeling module; 12. a geographic coordinate labeling module; 13. an information acquisition module; 2. monitoring the equipment subsystem; 21. a construction environment detection module; 22. a weather monitoring module; 23. a terrain detection module; 3. a field management subsystem; 31. a personnel management module; 32. positioning a monitoring module; 33. a vehicle management module; 34. an information registration module; 4. a simulation construction subsystem; 5. a video monitoring subsystem; 6. an anomaly alarm subsystem; 61. a field acousto-optic alarm module; 62. a remote real-time alarm module; 63. an abnormal information recording module; 7. a data communications subsystem.

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 derived by a person skilled in the art from the embodiments given herein without making any creative effort, shall fall within the protection scope of the present invention.

Referring to fig. 1-6, a visual real-time monitoring system for intelligent construction site construction progress comprises a construction modeling subsystem 1, a monitoring equipment subsystem 2, a field management subsystem 3, a simulation construction subsystem 4, a video monitoring subsystem 5, an abnormality alarming subsystem 6 and a data communication subsystem 7, wherein the construction modeling subsystem 1, the monitoring equipment subsystem 2, the field management subsystem 3, the simulation construction subsystem 4, the video monitoring subsystem 5 and the abnormality alarming subsystem 6 perform real-time data transmission through the data communication subsystem 7.

The construction modeling subsystem 1 utilizes the construction design data and various data sources in construction to carry out 3D modeling and synchronous simulation, and obtains a real-time 3D model of construction progress.

The monitoring equipment subsystem 2 carries out real-time monitoring on the project progress based on various real-time monitoring equipment arranged on a construction site and transmits monitoring data through the data communication subsystem 7.

The site management subsystem 3 utilizes various means and equipment to carry out real-time positioning and accurate management on personnel and vehicles on a construction site.

The video monitoring subsystem 5 carries out real-time video monitoring on the construction range and the periphery through the panoramic camera, the real-time video monitoring and the unmanned aerial vehicle.

And the abnormity alarm subsystem 6 compares data based on real-time data, and timely reminds and records adverse factors and dangerous information which may influence the construction progress.

As an implementation mode of the invention, the construction modeling subsystem 1 comprises a 3D modeling module 11, a geographic coordinate marking module 12 and an information acquisition module 13, the 3D modeling module 11 constructs a construction progress model, the geographic coordinate marking module 12 marks coordinates of each construction unit in the construction progress model, and marks coordinates in the construction progress model according to actual coordinates of the monitoring equipment subsystem 2, the information acquisition module 13 acquires, classifies and processes data obtained by real-time monitoring of the monitoring equipment subsystem 2, the field management subsystem 3, the video monitoring subsystem 5 and the abnormity alarm subsystem 6 through the data communication subsystem 7, compares the data with previous data, and then carries out real-time 3D modeling by matching the 3D modeling module 11 with the geographic coordinate marking module 12.

As an embodiment of the present invention, the monitoring device subsystem 2 includes a construction environment detection module 21, a weather monitoring module 22, and a terrain detection module 23, the construction environment detection module 21 and the weather monitoring module 22 perform real-time monitoring on the site environment and weather of the construction site, the terrain detection module 23 senses the foundation pit stress and surrounding terrain settlement data of the construction site, and displays the sensed data and corresponding geographic coordinates in the construction progress model.

As an embodiment of the present invention, the field management subsystem 3 includes a staff management module 31, a positioning monitoring module 32, a vehicle management module 33, and an information registration module 34, where the information registration module 34 registers and stores information of all staff and vehicles participating in the construction process, and the staff management module 31 and the vehicle management module 33 perform overall management of managing, deploying, and visualizing on-site staff and vehicles corresponding to the construction project based on the positioning monitoring module 32.

As an implementation mode of the invention, the abnormity warning subsystem 6 comprises a site acousto-optic warning module 61, a remote real-time warning module 62 and an abnormity information recording module 63, the site acousto-optic warning module 61 and the remote real-time warning module 62 are connected with the monitoring equipment subsystem 2, when monitoring data is abnormal, the acousto-optic warning device is started, meanwhile, remote warning is carried out through the data communication subsystem 7, and abnormal coordinates are highlighted in the construction progress model.

As an embodiment of the present invention, the construction environment detection module 21 includes, but is not limited to, dust, PM2.5, PM10, noise, temperature and humidity detection devices.

As an embodiment of the present invention, the terrain detection module 23 includes a differential pressure type settlement gauge, a crack gauge, a laser convergence gauge, a vibrating wire sensor, and a non-contact static level gauge for monitoring settlement, displacement, cracks, deformation, terrain inclination, stress, and vertical displacement.

As an implementation mode of the invention, the data communication subsystem 7 comprises an optical fiber communication cable and 5G wireless communication equipment, the optical fiber communication cable and the 5G wireless communication equipment form a three-dimensional network, and the three-dimensional network is connected with the construction modeling subsystem 1, the monitoring equipment subsystem 2, the field management subsystem 3, the simulation construction subsystem 4, the video monitoring subsystem 5 and the abnormity alarm subsystem 6.

As an implementation mode of the invention, the simulation construction subsystem 4 utilizes the construction drawing, the engineering schedule, the construction tasks and the construction period of each stage and other engineering design data, applies a full-process simulation clock method to carry out entity parameterization simulation on the construction, and visualizes the simulation result.

In an embodiment of the present invention, the staff management module 31 is installed on each retractable door and blade in a construction site, and the staff management module 31 includes a face recognition system for scanning and registering a face of a constructor on and off the work and recording login data.

It should be noted that, when in use, the construction progress model is obtained through the synchronous simulation of the construction modeling subsystem 1 system, the monitoring equipment subsystem 2 is used for being associated with the controllers of various automatic equipment on the construction site, the information of the field equipment is sensed for carrying out equipment monitoring, the terrain detection module 23 is used for sensing the settlement data of the construction site and the surrounding terrain for carrying out terrain monitoring, the field management subsystem 3 is used for carrying out real-time management on field constructors and engineering vehicles, the simulation construction subsystem 4 is used for carrying out simulation modeling, simulation calculation process and visualization of simulation results on the construction organization design data, the construction results are simulated through the construction organization design data provided by a construction unit and are compared with the true construction progress model, the real-time progress of the engineering construction is known in time, further optimization adjustment is carried out, the operation data of various automatic equipment is preset in the abnormality alarming subsystem 6, and the normal data values of the construction site and surrounding terrains, when the monitoring data are abnormal, the on-site acousto-optic alarm module 61 gives out an acousto-optic alarm, and abnormal coordinates are highlighted in the construction progress model, so that maintenance personnel can quickly eliminate the abnormal coordinates according to the coordinates, and the normal construction is ensured.

It is noted that, herein, relational terms such as first and second, and the like may be used solely to distinguish one entity or action from another entity or action without necessarily requiring or implying any actual such relationship or order between such entities or actions. Also, the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus.

Although embodiments of the present invention have been shown and described, it will be appreciated by those skilled in the art that changes, modifications, substitutions and alterations can be made in these embodiments without departing from the principles and spirit of the invention, the scope of which is defined in the appended claims and their equivalents.

Claims (10)

1. The utility model provides a visual real-time monitoring system that wisdom building site construction progress that is used for, includes construction modeling subsystem (1), monitoring facilities subsystem (2), field management subsystem (3), emulation construction subsystem (4), video monitoring subsystem (5), unusual alarm subsystem (6) and data communication subsystem (7), its characterized in that: the construction modeling subsystem (1), the monitoring equipment subsystem (2), the field management subsystem (3), the simulation construction subsystem (4), the video monitoring subsystem (5) and the abnormity warning subsystem (6) carry out real-time data transmission through the data communication subsystem (7);

the construction modeling subsystem (1) utilizes building construction design data and various data sources in construction to carry out 3D modeling and synchronous simulation to obtain a real-time 3D model of construction progress;

the monitoring equipment subsystem (2) carries out real-time monitoring on the project progress based on various real-time monitoring equipment arranged on a construction site and transmits monitoring data through the data communication subsystem (7);

the field management subsystem (3) carries out real-time positioning and accurate management on personnel and vehicles on a construction field by utilizing various means and equipment;

the video monitoring subsystem (5) carries out real-time video monitoring on the construction range and the periphery through a panoramic camera, real-time video monitoring and an unmanned aerial vehicle;

and the abnormity warning subsystem (6) compares data based on real-time data, and timely reminds and records adverse factors and dangerous information which may influence the construction progress.

2. The system of claim 1, wherein the system is configured to monitor progress of construction at a construction site, and comprises: the construction modeling subsystem (1) comprises a 3D modeling module (11), a geographic coordinate marking module (12) and an information acquisition module (13), the 3D modeling module (11) constructs a construction progress model, the geographic coordinate marking module (12) marks coordinates of each construction unit in the construction progress model, meanwhile, coordinate marking is carried out in the construction progress model according to the actual coordinate of the monitoring equipment subsystem (2), the information acquisition module (13) acquires and classifies data obtained by real-time monitoring of the monitoring equipment subsystem (2), the field management subsystem (3), the video monitoring subsystem (5) and the abnormity alarm subsystem (6) through the data communication subsystem (7), and compared with the earlier-stage data, and then the 3D modeling module (11) is matched with the geographic coordinate marking module (12) to perform real-time 3D modeling.

3. The system of claim 1, wherein the system is configured to monitor progress of construction at a construction site, and comprises: monitoring facilities subsystem (2) are including construction environment detection module (21), weather monitoring module (22) and topography detection module (23), construction environment detection module (21) and weather monitoring module (22) carry out real-time supervision to construction site's site environment and weather, topography detection module (23) response construction site foundation ditch stress and peripheral topography settlement data to show the data and the corresponding geographical coordinate of response in construction progress model.

4. The system of claim 1, wherein the system is configured to monitor progress of construction at a construction site, and comprises: the field management subsystem (3) comprises a personnel management module (31), a positioning monitoring module (32), a vehicle management module (33) and an information registration module (34), the information registration module (34) registers and stores all the information of the workers and the vehicles participating in the construction process, and the personnel management module (31) and the vehicle management module (33) manage and control, allocate and visually manage and control the corresponding field personnel and vehicles of the construction project based on the positioning monitoring module (32).

5. The visual real-time monitoring system for construction progress of an intelligent construction site according to claim 1, characterized in that: the abnormity warning subsystem (6) comprises a field acousto-optic warning module (61), a remote real-time warning module (62) and an abnormity information recording module (63), the field acousto-optic warning module (61) and the remote real-time warning module (62) are connected with the monitoring equipment subsystem (2), when monitoring data are abnormal, acousto-optic warning equipment is started, remote warning is conducted through the data communication subsystem (7), and abnormal coordinates are displayed in the construction progress model in a highlighting mode.

6. The visual real-time monitoring system for construction progress of an intelligent construction site according to claim 3, characterized in that: the construction environment detection module (21) comprises but is not limited to dust, PM2.5, PM10, noise, temperature and humidity detection equipment.

7. The visual real-time monitoring system for intelligent worksite construction progress of claim 3, characterized in that: the terrain detection module (23) comprises a differential pressure type settlement gauge, a crack measuring instrument, a laser convergence gauge, a vibrating string type sensor and a non-contact static level gauge, wherein the differential pressure type settlement gauge is used for monitoring settlement, displacement, cracks, deformation, terrain inclination angles, stress and vertical displacement.

8. The system of claim 1, wherein the system is configured to monitor progress of construction at a construction site, and comprises: the data communication subsystem (7) comprises an optical fiber communication cable and 5G wireless communication equipment, the optical fiber communication cable and the 5G wireless communication equipment form a three-dimensional network, and the three-dimensional network is connected with the construction modeling subsystem (1), the monitoring equipment subsystem (2), the field management subsystem (3), the simulation construction subsystem (4), the video monitoring subsystem (5) and the abnormity alarm subsystem (6).

9. The system of claim 1, wherein the system is configured to monitor progress of construction at a construction site, and comprises: the simulation construction subsystem (4) utilizes construction drawings, a project schedule, construction tasks and construction period of each stage and other engineering design data, applies a whole-process simulation clock method to carry out entity parameterization simulation on construction, and visualizes a simulation result.

10. The system of claim 4, wherein the system comprises: the personnel management module (31) is installed on each retractable door and a switch blade of a construction site, and the personnel management module (31) comprises a face recognition system and is used for the workers to scan and register on and off duty and record login data.

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