CN111310329B - Monitoring management system of earthwork residue soil vehicle on construction site of constructional engineering - Google Patents

Abstract

The invention discloses a monitoring and management system of an earthwork muck truck on a construction site of constructional engineering, which comprises a BIM (building information modeling) model on the construction site, a camera group, a gravity sensor, a GPS (global positioning system) positioning device, a 5G data transmission device, a 5G data collection recognizer, a communication module, a map traffic display module, a data statistics module, a BIM model visualization module and a terminal display and storage module.

Description

Monitoring management system of earthwork muck truck on construction site of constructional engineering

Technical Field

The invention relates to the technical field of monitoring and management of constructional engineering, in particular to a monitoring and management system of an earthwork residue soil vehicle on a constructional engineering construction site.

Background

Along with the stricter and stricter urban traffic and environmental protection management, under the more refined management premise of construction management of construction enterprises, the external transportation and internal falling of earthwork muck vehicles in the field of construction engineering still stay in manual field management, the transportation volume of the earthwork muck vehicles of the enterprises cannot be accurately counted, the counting error of manpower according to the rated volume of the vehicles is large, and the problems of overspeed, overload and environmental protection of the society on the road for the external transportation of the earthwork muck vehicles are always a great problem influencing traffic safety and construction period.

Building Information Modeling (Building Information Modeling) technology can integrate engineering Information and resource requirements of construction engineering projects in different stages in a whole life cycle into an Information model, and with the vigorous popularization and application of the Building Information Modeling (BIM) technology in China, more and more construction enterprises begin to utilize the Information means of the BIM technology to promote the fine management of the engineering projects.

Disclosure of Invention

The invention aims to solve the problems that the traditional manual management earthwork muck vehicle in the prior art has large transportation error and the traffic safety and environmental protection measures of the transportation of earthwork are not in place in the operation process, and provides a monitoring and management system of an earthwork muck vehicle on a construction site of building engineering.

In order to achieve the purpose, the invention adopts the following technical scheme:

the utility model provides a monitoring management system of building engineering job site earthwork dregs car, includes job site BIM model, camera group, gravity sensor, GPS location, 5G data transmission device, 5G data collection recognizer, communication module, map traffic display module, data statistics module, the visual module of BIM model, terminal display, storage module, specifically includes following step:

A. building a BIM construction site three-dimensional field, road and earthwork residue soil vehicle model;

B. adding information of each earthwork muck vehicle in the model, wherein camera number information and information of a motorcade, a driver and a vehicle number plate of each earthwork muck vehicle are added in the BIM model, so that data in the BIM model are consistent with actual camera and earthwork muck vehicle information;

C. uploading the BIM model to a central processing unit to realize the visualization of the BIM model on a terminal;

D. the central processing unit is internally provided with a 5G data receiving recognizer module and a 5G data transmission device, and the 5G data receiving recognizer module in the central processing unit is utilized to feed back basic vehicle information and environmental protection measures acquired by a construction site camera to the central processing unit in real time through the 5G data transmission device;

E. feeding back information collected by a gravity sensor and a GPS (global positioning system) locator which are installed in an earthwork residue soil vehicle to a central processing unit in real time through a 5G data transmission device by utilizing a 5G data receiving recognizer module in the central processing unit;

F. all the earthwork muck vehicle data received by the 5G data receiving recognizer module are correspondingly associated with the BIM through the central processing unit, and are displayed at the terminal through the BIM and matched with a camera at a construction site, so that comprehensive monitoring of the earthwork muck vehicle is realized.

Preferably, the precision of the BIM model in the step A is more than or equal to LOD350.

Preferably, in the steps D, E, and F, the earthwork residue vehicle is comprehensively monitored in real time through association with the terminal display BIM model in the field earthwork construction stage, and various information data of the earthwork residue vehicle are counted in the monitoring process, so that the behavior of the earthwork residue vehicle that is not compliant is effectively controlled.

Compared with the prior art, the invention provides a monitoring and management system for an earthwork residue soil vehicle on a construction site of constructional engineering, which has the following beneficial effects:

the earthwork muck vehicles participating in earthwork operation are all provided with a gravity sensor, a 5G data transmission device and a GPS positioner, are associated with a BIM through a 5G data acquisition recognizer in a system, visual operation is carried out in the BIM on a terminal display, the associated data are correspondingly stored, data statistics is carried out in the later period, the operation time period and the traffic volume of each earthwork vehicle can be clearly and accurately counted, the traffic safety and the environmental protection problems during the outside transportation of the earthwork are monitored through a camera on the spot, the earthwork muck vehicles which do not meet the environmental protection requirement are forbidden to go to the field gate, the overspeed behavior of the earthwork muck vehicles which go to the field is monitored, and the later period is used as a basis and section means for management and examination, so that the traffic safety management of the outside transportation of the earthwork vehicles is assisted, and the concentrated and fine management of the earthwork vehicles in the earthwork operation stage is realized.

And the BIM technology is combined, and meanwhile, the fine management and the environmental protection of the transport volume of the earthwork muck vehicle and the auxiliary management of traffic safety are realized.

Drawings

FIG. 1 is a diagram of a real-time monitoring and management system for earthwork muck truck in a construction site of building engineering based on BIM technology.

FIG. 2 is a schematic diagram of a real-time monitoring and management system for earthwork muck truck in a construction site of building engineering based on BIM technology.

Fig. 3 is an execution diagram of the real-time monitoring and management system for the earthwork residue soil vehicle in the construction site of the constructional engineering based on the BIM technology.

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.

In the description of the present invention, it is to be understood that the terms "upper", "lower", "front", "rear", "left", "right", "top", "bottom", "inner", "outer", and the like, are used in the orientations and positional relationships indicated in the drawings, which are based on the orientations and positional relationships indicated in the drawings, and are used for convenience of description and simplicity of description, but do not indicate or imply that the devices or elements referred to must have a particular orientation, be constructed and operated in a particular orientation, and thus, are not to be construed as limiting the present invention.

Example one

Referring to fig. 1-3, a monitoring management system of a construction engineering construction site earthwork residue soil vehicle, which comprises a construction site BIM model, a camera group, a gravity sensor, a GPS positioning, a 5G data transmission device, a 5G data collection identifier, a communication module, a map traffic display module, a data statistics module, a BIM model visualization module, a terminal display module, and a storage module, and specifically comprises the following steps:

A. building a BIM construction site three-dimensional field, road and earthwork muck vehicle model;

B. adding information of each earthwork muck vehicle into the model, wherein camera number information and information of a motorcade, a driver and a vehicle number plate to which each earthwork muck vehicle belongs are added into the BIM so that data in the BIM are consistent with actual camera and earthwork muck vehicle information;

C. uploading the BIM to a central processing unit to realize the visualization of the BIM at a terminal;

D. the central processing unit is internally provided with a 5G data receiving identifier module and a 5G data transmission device, and the 5G data receiving identifier module in the central processing unit is utilized to feed back basic vehicle information and environmental protection measures acquired by a construction site camera to the central processing unit in real time through the 5G data transmission device;

E. feeding back information collected by a gravity sensor and a GPS (global positioning system) locator which are installed in an earthwork residue soil vehicle to a central processing unit in real time through a 5G data transmission device by utilizing a 5G data receiving recognizer module in the central processing unit;

F. all the earthwork residue soil vehicle data received by the 5G data receiving recognizer module are correspondingly associated with the BIM through the central processing unit, and are displayed at the terminal through the BIM and matched with a construction site camera, so that the comprehensive monitoring of the earthwork residue soil vehicle is realized.

On the basis of the first embodiment, the precision of the BIM model in the step A is greater than or equal to the LOD350.

In the steps D, E and F, the earthwork residue soil vehicle is comprehensively monitored in real time through the association with the BIM model displayed by the terminal in the field earthwork construction stage, all information data of the earthwork residue soil vehicle are counted in the monitoring process, and the non-compliant behavior of the earthwork residue soil vehicle is effectively controlled.

The above description is only for the preferred embodiment of the present invention, but the scope of the present invention is not limited thereto, and any person skilled in the art should be considered to be within the technical scope of the present invention, and the technical solutions and the inventive concepts thereof according to the present invention should be equivalent or changed within the scope of the present invention.

Claims (3)

1. The utility model provides a monitoring management system of building engineering job site earthwork dregs car, includes job site BIM model, camera group, gravity sensor, GPS location, 5G data transmission device, 5G data collection recognizer, communication module, map traffic display module, data statistics module, the visual module of BIM model, terminal display, storage module, its characterized in that:

A. building a BIM construction site three-dimensional field, road and earthwork muck vehicle model;

B. adding information of each earthwork muck vehicle in the model, wherein camera number information and information of a motorcade, a driver and a vehicle number plate of each earthwork muck vehicle are added in the BIM model, so that data in the BIM model are consistent with actual camera and earthwork muck vehicle information;

C. uploading the BIM model to a central processing unit to realize the visualization of the BIM model on a terminal;

D. the central processing unit is internally provided with a 5G data receiving recognizer module and a 5G data transmission device, and the 5G data receiving recognizer module in the central processing unit is utilized to feed back basic vehicle information and environmental protection measures acquired by a construction site camera to the central processing unit in real time through the 5G data transmission device;

E. feeding back information collected by a gravity sensor and a GPS (global positioning system) locator which are installed in an earthwork residue soil vehicle to a central processing unit in real time through a 5G data transmission device by utilizing a 5G data receiving recognizer module in the central processing unit;

F. all the earthwork muck vehicle data received by the 5G data receiving recognizer module are correspondingly associated with the BIM through the central processing unit, and are displayed at the terminal through the BIM and matched with a camera at a construction site, so that comprehensive monitoring of the earthwork muck vehicle is realized.

2. The system for monitoring and managing the earthwork muck vehicle at the construction site of the construction project as claimed in claim 1, wherein the precision of the BIM model in the step A is equal to or more than LOD350.

3. The monitoring and management system for the earthwork muck vehicle at the construction site of the constructional engineering as claimed in claim 1, wherein in the steps D, E and F, the earthwork muck vehicle is comprehensively monitored in real time through the association with the BIM model displayed by the terminal at the construction stage of the earthwork, and the information data of the earthwork muck vehicle is counted in the monitoring process, so as to effectively control the non-compliant behavior of the earthwork muck vehicle.

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