CN115203511A - Construction data processing system and method based on virtual reality - Google Patents

Abstract

The utility model provides a construction data processing system and method based on virtual reality, the system comprises a mobile terminal and a background server, the background server comprises a database server, a website server and an application server, the database server, the website server and the application server are communicated with each other; the construction data and design data in the database server and the model data in the website server are used as input and transmitted to the application server; the mobile terminal is communicated with the application server, and the mobile terminal calls application data from the application server, processes the application data and then outputs new application data; the new application data is transmitted to the application server. Based on the system, the method is centered on virtual and real combination, the corresponding model is loaded based on the background server, corresponding operation is carried out on the intelligent mobile terminal according to the corresponding model, construction completion is assisted, and the method has the advantage of convenience and rapidness in operation.

Description

Construction data processing system and method based on virtual reality

Technical Field

The present disclosure relates to the field of digital data processing, and in particular, to a construction data processing system and method based on virtual reality.

Background

Digital data generally comprises data that can be measured and counted. The rapid processing of parameterized modeling, actual construction data, visual data and the like in the rail transit construction based on the virtual reality can smoothly display the three-dimensional informatization and the three-dimensional visualization of the model, and is convenient for construction, design and supervision personnel to simultaneously check and renovate various data at different terminals.

How to process the design digital data of the designer, the construction digital data and the raw material digital data of the constructor, the monitoring management digital data of the supervisor and the like into visual model data to be displayed on the mobile terminal becomes a difficult problem to be solved urgently by the technical staff in the field.

Disclosure of Invention

The embodiment of the invention provides a construction data processing system and method based on virtual reality, which combine virtual and reality as a center, load a corresponding model based on a background server, perform corresponding operation on an intelligent mobile terminal according to the corresponding model, assist construction completion and have the advantage of convenient operation.

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

on one hand, the construction data processing system based on the virtual reality comprises a mobile terminal and a background server, wherein the background server comprises a database server, a website server and an application server, and the database server, the website server and the application server are communicated with each other;

the database server stores construction data and design data, and the website server stores model data; the application server stores application data;

the construction data and design data in the database server and the model data in the website server are used as input to be transmitted to the application server;

the mobile terminal is communicated with the application server, and the mobile terminal calls application data from the application server, processes the application data and outputs new application data;

new application data is transmitted to the application server.

The design data provided by a design unit is stored in a database server, the real-time construction data provided by a construction unit is also stored in the database server, an operator constructs a model according to the design data and the real-time construction data and stores the model data of the corresponding model in a website server, the application server calls the respective data of the database server and the website server and generates application data, the mobile terminal displays the application data and modifies the application data according to the situation, and the modified application data are stored in the application server.

In actual use, when difficulties are encountered in rail transit engineering construction, constructors, designers and supervision personnel display application data on respective mobile terminals, respectively modify the application data on the mobile terminals aiming at the difficult problem personnel, and store new application data into an application server. And the maintenance is convenient for construction, design and supervision personnel to check.

In some embodiments, the website server obtains new application data and corresponding adjusted model data from the application server, the website server storing the new model data, the new model data being transmitted as input to the application server for use by the mobile terminal.

In some embodiments, the construction data includes environmental data, material data, construction progress data, project data, construction process data; the design data comprises design drawing data, design model data, design proportioning data and design progress data; the model data comprises a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model; the application data comprises a construction scene dynamic simulation application, a construction scene roaming application and an immersion monitoring application.

In some embodiments, it is preferable that the mobile terminal includes an intelligent mobile terminal, a PC design terminal, and a drawing digitization terminal, and the intelligent mobile terminal, the PC design terminal, and the drawing digitization terminal are all in communication with the database server, the website server, and the application server;

the design data of the design unit are collected by the drawing digital terminal and uploaded to the database server, the model data and the application data are designed by the PC design terminal, the model data are uploaded to the website server by the PC design terminal, and the application data are uploaded to the application server by the PC design terminal.

In some embodiments, the mobile terminal experiences construction scene dynamic simulation, construction scene roaming and immersion monitoring real-time construction in a man-machine interaction manner through the application server.

The man-machine interaction mode refers to that the application server is provided with a construction end facing constructors, and the constructors can check and adjust actual construction data at the construction end; the design end is arranged for the designer, and the designer can check and adjust the design data at the design end; the supervision personnel face to have the supervision end, and the supervision personnel look over and adjust the supervision data at the supervision end. The adjusted actual construction data, design data and supervision data are stored in the application server. In addition, the application server stores the adjusted actual construction data, design data and supervision data in the application server, the website server obtains new application data from the application server and adjusts model data correspondingly, the website server stores the new model data, and the new model data are transmitted to the application server as input for the mobile terminal to use.

The dynamic simulation of the construction scene refers to restoring the construction site animation by the application server, and performing omnibearing demonstration by using the direct white construction simulation operation, so that designers, constructors and supervision personnel can visually check the construction site animation and adjust actual construction data, design data and supervision data.

The construction scene roaming in the invention means that the application server observes a scene of the rail traffic engineering to be built from any angle, distance and fineness, and designers, constructors and supervision personnel visually experience the rail traffic engineering scene to be built, so that the designers, the constructors and the supervision personnel can visually check construction site animations and adjust actual construction data, design data and supervision data.

The immersed monitoring real-time construction refers to the fact that video images collected by a plurality of cameras on a construction site are combined into a three-dimensional scene, and designers, constructors and supervisors virtually patrol the whole monitoring area of the construction site through the mobile terminal, so that the designers, the constructors and the supervisors can adjust actual construction data, design data and supervisors in real time.

In some embodiments, the construction data includes environmental data, material data, construction progress data, project data, construction process data;

the environmental data are collected by an environmental collector on the construction site and uploaded to the database server;

the material data are uploaded to the database server through a mobile end of a construction party in the intelligent mobile end;

and uploading the project data and the construction process data to the database server through the mobile end of the construction party.

In some embodiments, the design data includes design drawing data, design model data, design proportioning data, and design schedule data;

design drawing data and design model data are uploaded to the database server after being subjected to vectorization operation processing by the drawing digital terminal

The vectorization operation processing includes:

carrying out data vectorization processing on construction project data, carrying out operation processing on vector data obtained through the data vectorization processing, and transmitting the vector data to the database server, calling the vector data and point location data in the data server by the application server and carrying out operation to generate three-dimensional model data, creating a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model in the website server according to the three-dimensional model data, and calling the three-dimensional model data by the application server;

preprocessing model data and application data according to a data vectorization operation formula, wherein a construction scene roaming animation is constructed based on a data vectorization operation result, design drawing data and design model data, a plurality of construction frames are extracted from the construction scene roaming animation, and original construction progress data is established according to the construction frames;

calling vectorized data and design data in the database server and calling three-dimensional model data in the website database through the application server, extracting a real-time construction frame from a real-time construction image collected by a mobile terminal of a construction party, fusing the three-dimensional model data and the real-time construction frame, constructing a current construction scene dynamic simulation based on construction progress data, and performing three-dimensional model curve fitting on a current construction dynamic model dynamically simulated by the current construction scene and the design model;

and performing dynamic simulation application and scene roaming application on the fitted three-dimensional model curve according to the running route of the dynamic simulation of the construction scene in the application server.

In some embodiments, the application server includes a real virtual scene comparison unit, and the mobile terminal and the background server cooperate with each other through virtual-real correspondence of the real virtual scene comparison unit and solve a construction problem.

In another aspect, a construction data processing method based on virtual reality is provided, including:

processing various data collected by the data collection unit and storing the data in a background server;

extracting various data stored in the background server, performing operation processing on the various data, and displaying the various data on a terminal;

the construction party, the design party and the supervision party check and renovate various data at respective terminals;

wherein, each item data that the processing data acquisition unit gathered and save background server includes:

the data acquisition unit comprises an intelligent mobile terminal, a PC design terminal and a drawing digitization terminal, the drawing digitization terminal acquires design data of the design unit and uploads the design data to the database server, the PC design terminal designs model data and application data, the PC design terminal uploads the model data to the website server, and the PC design terminal uploads the application data to the application server;

the extracting of each item of data stored by the background server, the operation processing of each item of data and the display of the processed data on the terminal comprise:

the background server comprises a database server, a website server and an application server, and the database server, the website server and the application server are communicated with each other;

the database server stores construction data and design data, and the website server stores model data; the application server stores application data;

the construction data and design data in the database server and the model data in the website server are used as input to be transmitted to the application server;

the mobile terminal is communicated with the application server, and the mobile terminal calls application data from the application server, processes the application data and outputs new application data;

new application data is transmitted to the application server.

In some embodiments, the processing each item of data collected by the data collection unit and storing the item of data in the background server further includes:

the intelligent mobile terminal comprises a construction side mobile terminal, a supervision side mobile terminal and an owner side mobile terminal; the construction mobile terminal is communicated with the website server and the application server, the construction mobile terminal obtains a station subgrade model, a construction dynamic model, a housing unit model, an outdoor pipeline model and/or a station track model from the database server through the website server, and the construction mobile terminal experiences construction scene dynamic simulation and construction scene roaming through the application server in a man-machine interaction mode;

the prisoner mobile terminal is communicated with the application server, and experiences dynamic simulation of a construction scene and immersive monitoring real-time construction through the application server in a man-machine interaction mode;

the owner removes the end with the database server website server with application server all communicates, the owner removes the end and passes through the database server transfers design data, the owner removes the end and passes through the website server is followed the database server transfers station roadbed model, construction dynamic model, room building monomer model, outdoor pipeline model and/or station track model, the owner removes the end and passes through application server adopts the man-machine interaction mode to experience construction scene dynamic simulation, construction scene roaming and immersion monitoring real-time construction.

In some embodiments, the extracting, performing operation on each item of data stored in the backend server, and displaying the data on the terminal further includes:

the environmental data are collected by an environmental collector on the construction site and uploaded to the database server;

the material data and the design progress data are uploaded to the database server through a mobile end of a construction party in the intelligent mobile end;

design proportion data is uploaded to the database server through a mobile end of a designer in the intelligent mobile end;

the project data and the construction process data are uploaded to the database server through the PC design terminal and a construction side mobile terminal of the intelligent mobile terminal;

and uploading the construction progress data, the design drawing data and the design model data to the database server after vectorization operation processing of the drawing digital terminal.

In some embodiments, the vectorization operation processing includes:

carrying out data vectorization processing on construction project data collected by the intelligent mobile terminal, transmitting vector data obtained through the data vectorization processing to the database server after operation processing, calling the vector data and point location data in the data server by the application server, operating to generate three-dimensional model data, creating a station roadbed model, a construction dynamic model, a housing construction unit model, an outdoor pipeline model and a station track model in the website server according to the three-dimensional model data, and calling the three-dimensional model data by the application server;

preprocessing model data and application data designed by the PC design terminal according to a data vectorization operation formula, constructing a construction scene roaming animation based on a data vectorization operation result, design drawing data and design model data, extracting a plurality of construction frames from the construction scene roaming animation, and establishing original construction progress data according to the construction frames;

calling vectorized data and design data in the database server and calling three-dimensional model data in the website database through the application server, extracting a real-time construction frame according to a real-time construction image collected by a construction mobile terminal in an intelligent mobile terminal, fusing the three-dimensional model data and the real-time construction frame, constructing a current construction scene dynamic simulation based on the construction progress data, and performing three-dimensional model curve fitting on a current construction dynamic model and a design model of the current construction scene dynamic simulation;

and performing dynamic simulation application and scene roaming application on the fitted three-dimensional model curve according to the running route of the dynamic simulation of the construction scene in the application server.

In the present disclosure, at least the following technical effects or advantages are provided:

the embodiment of the invention combines the virtual and the reality as a center, loads the corresponding model based on the background server, and performs corresponding operation on the intelligent mobile terminal according to the corresponding model to assist the completion of construction.

Drawings

In order to more clearly illustrate the embodiments of the present invention or the technical solutions in the prior art, the drawings used in the embodiments of the present invention or the description in the prior art will be briefly described below, and it is obvious that the drawings in the following description are some embodiments of the present invention, and other drawings can be obtained by those skilled in the art without creative efforts.

Fig. 1 is a schematic block diagram of a virtual reality-based construction data processing system provided in accordance with some embodiments of the present disclosure;

FIG. 2 is a schematic block diagram of a virtual reality-based construction data processing system provided in accordance with some embodiments of the present disclosure;

FIG. 3 is a functional block diagram of a virtual reality-based construction data processing system provided in accordance with some embodiments of the present disclosure;

fig. 4 is a flowchart of data operation processing between the intelligent mobile terminal and the backend server according to some embodiments of the present disclosure;

FIG. 5 is a flow diagram of background server internal construction data processing provided in accordance with some embodiments of the present disclosure;

fig. 6 is a flow diagram of a background server internal vectorization arithmetic processing provided in accordance with some embodiments of the present disclosure;

fig. 7 is a flowchart of a virtual reality-based construction data processing method according to some embodiments of the present disclosure;

fig. 8 is a schematic block diagram of a virtual reality-based construction data processing system according to some embodiments of the present disclosure.

Detailed Description

The present disclosure is described in detail with reference to various embodiments shown in the drawings, but it should be understood that these embodiments do not limit the present disclosure, and that functional, methodological, or structural equivalents thereof, which are equivalent or substituted by those of ordinary skill in the art, are within the scope of the present disclosure.

The embodiment of the invention provides a construction data processing system based on virtual reality, and the construction data processing system based on virtual reality please refer to fig. 2, and comprises a mobile terminal and a background server, wherein the mobile terminal comprises an intelligent mobile terminal, a PC design terminal and a drawing digitization terminal, the background server comprises a database server, a website server and an application server, the intelligent mobile terminal, the PC design terminal and the drawing digitization terminal are all communicated with the database server, the website server and the application server, and the database server, the website server and the application server are communicated with each other.

Referring to fig. 1, 2 and 3, a drawing digitization terminal collects design data of a design unit and uploads the design data to a database server, a PC design terminal designs model data and application data, the PC design terminal uploads the model data to a website server, and the PC design terminal uploads the application data to an application server.

Referring to fig. 1, 2 and 3, the database server stores construction data and design data, and the construction data includes environment data, material data, construction progress data, project data and construction process data; the design data comprises design drawing data, design model data, design proportioning data and design progress data; a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model are stored in the website server; the application server stores a construction scene dynamic simulation application, a construction scene roaming application and an immersion monitoring application.

The embodiment of the invention combines the virtual and the reality as a center, loads the corresponding model based on the background server, and performs corresponding operation on the intelligent mobile terminal according to the corresponding model to assist the completion of construction.

Referring to fig. 4, the intelligent mobile terminal according to the embodiment of the present invention includes a constructor mobile terminal, a supervisor mobile terminal, and an owner mobile terminal;

the construction side mobile terminal is communicated with the website server and the application server, the construction side mobile terminal calls a station yard roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and/or a station yard track model from the database server through the website server, and experiences construction scene dynamic simulation and construction scene roaming through the application server in a man-machine interaction mode;

the prisoner mobile terminal is communicated with the application server, and experiences dynamic simulation of a construction scene and immersion monitoring real-time construction in a man-machine interaction mode through the application server;

the method comprises the steps that an owner mobile terminal is communicated with a database server, a website server and an application server, the owner mobile terminal retrieves design data through the database server, the owner mobile terminal retrieves a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and/or a station track model from the database server through the website server, and the owner mobile terminal experiences construction scene dynamic simulation, construction scene roaming and immersion monitoring real-time construction through the application server in a man-machine interaction mode.

Referring to fig. 5, in the embodiment of the present invention, environmental data is collected by an environment collector on a construction site and uploaded to a database server;

the material data and the design progress data are uploaded to a database server through a construction side mobile terminal in the intelligent mobile terminal;

the design ratio data is uploaded to a database server through a mobile terminal of a designer in the intelligent mobile terminal;

the project data and the construction process data are uploaded to a database server through a PC design terminal and a construction side mobile terminal of an intelligent mobile terminal;

and uploading the construction progress data, the design drawing data and the design model data to a database server after vectorization operation processing of a drawing digital terminal.

Referring to fig. 6, the vectorization operation processing according to the embodiment of the present invention includes:

carrying out data vectorization processing on construction project data collected by an intelligent mobile terminal, transmitting vector data obtained through the data vectorization processing to a database server after operation processing, calling the vector data and point location data in the data server by an application server, carrying out operation to generate three-dimensional model data, creating a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model in a website server according to the three-dimensional model data, and calling the three-dimensional model data by the application server;

preprocessing model data and application data designed by a PC design terminal according to a data vectorization operation formula, constructing a construction scene roaming animation based on a data vectorization operation result, design drawing data and design model data, extracting a plurality of construction frames from the construction scene roaming animation, and establishing original construction progress data according to the construction frames;

the method comprises the steps that vectorized data and design data in a database server and three-dimensional model data in a website database are called through an application server, a real-time construction frame is extracted according to a real-time construction image collected by a construction mobile terminal in an intelligent mobile terminal, the three-dimensional model data and the real-time construction frame are fused, a current construction scene dynamic simulation is built based on construction progress data, and a current construction dynamic model and a design model of the current construction scene dynamic simulation are subjected to three-dimensional model curve fitting;

and performing dynamic simulation application and scene roaming application on the fitted three-dimensional model curve according to the running route of the dynamic simulation of the construction scene in the application server.

On one hand, a real virtual scene comparison unit is preferably operated in the application server, and the mobile terminal and the background server work cooperatively and solve the construction problem through the virtual-real correspondence of the real virtual scene comparison unit.

Referring to fig. 7, an embodiment of the present invention provides a construction data processing method based on virtual reality, including:

processing various data acquired by the data acquisition unit and storing the data in a background server;

extracting various data stored in the background server, performing operation processing on the various data, and displaying the various data on the terminal;

the construction party, the design party and the supervision party check and renovate various data at respective terminals;

referring to fig. 8, processing various data collected by the data collection unit and storing the data in the background server includes:

the data acquisition unit comprises an intelligent mobile terminal, a PC design terminal and a drawing digitization terminal, the drawing digitization terminal acquires design data of the design unit and uploads the design data to the database server, the PC design terminal designs model data and application data, the PC design terminal uploads the model data to the website server, and the PC design terminal uploads the application data to the application server;

the method comprises the following steps of extracting various data stored by a background server, carrying out operation processing on the various data and displaying the data on a terminal, and comprises the following steps:

the background server comprises a database server, a website server and an application server, the intelligent mobile terminal, the PC design terminal and the drawing digitization terminal are all communicated with the database server, the website server and the application server, and the database server, the website server and the application server are communicated with each other; the database server stores construction data and design data, wherein the construction data comprises environment data, material data, construction progress data, project data and construction process data; the design data comprises design drawing data, design model data, design proportioning data and design progress data; a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model are stored in the website server; the application server stores a construction scene dynamic simulation application, a construction scene roaming application and an immersion monitoring application;

the construction party, the design party and the supervision party view and renovate various data at respective terminals, and the data comprise the following steps:

a real virtual scene comparison unit runs in the application server, and the mobile terminal and the background server correspondingly and cooperatively work through the reality and the virtuality of the real virtual scene comparison unit and solve the construction problem.

Processing each item of data collected by the data collection unit and storing the data in the background server, referring to fig. 3, further including:

the intelligent mobile terminal comprises a construction side mobile terminal, a supervision side mobile terminal and an owner side mobile terminal; the construction side mobile terminal is communicated with the website server and the application server, the construction side mobile terminal calls a station yard roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and/or a station yard track model from the database server through the website server, and experiences construction scene dynamic simulation and construction scene roaming through the application server in a man-machine interaction mode;

the prisoner mobile terminal is communicated with the application server, and experiences dynamic simulation of a construction scene and immersion monitoring real-time construction in a man-machine interaction mode through the application server;

the method comprises the steps that an owner mobile terminal is communicated with a database server, a website server and an application server, the owner mobile terminal retrieves design data through the database server, the owner mobile terminal retrieves a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and/or a station track model from the database server through the website server, and the owner mobile terminal experiences construction scene dynamic simulation, construction scene roaming and immersion monitoring real-time construction through the application server in a man-machine interaction mode.

On the other hand, it is preferable to extract each item of data stored in the backend server, perform operation on each item of data, and then display the data on the terminal, referring to fig. 5, further including:

the environmental data is collected by an environmental collector on the construction site and uploaded to a database server;

the material data and the design progress data are uploaded to a database server through a construction side mobile terminal in the intelligent mobile terminal;

the design proportion data is uploaded to a database server through a mobile end of a design party in the intelligent mobile end;

the project data and the construction process data are uploaded to a database server through a PC design terminal and a construction side mobile terminal of an intelligent mobile terminal;

and uploading the construction progress data, the design drawing data and the design model data to a database server after vectorization operation processing of a drawing digital terminal.

Referring to fig. 6, the vectorization operation process includes:

carrying out data vectorization processing on construction project data collected by an intelligent mobile terminal, carrying out operation processing on vector data obtained by the data vectorization processing, and transmitting the vector data to a database server, calling the vector data and point location data in the data server by an application server and carrying out operation to generate three-dimensional model data, creating a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model in a website server according to the three-dimensional model data, and calling the three-dimensional model data by the application server;

preprocessing model data and application data designed by a PC design terminal according to a data vectorization operation formula, constructing a construction scene roaming animation based on a data vectorization operation result, design drawing data and design model data, extracting a plurality of construction frames from the construction scene roaming animation, and establishing original construction progress data according to the construction frames;

the method comprises the steps that vectorization data and design data in a database server and three-dimensional model data in a website database are called through an application server, a real-time construction frame is extracted according to a real-time construction image collected by a construction party moving end in an intelligent moving end, the three-dimensional model data and the real-time construction frame are fused, a current construction scene dynamic simulation is built based on construction progress data, and a current construction dynamic model of the current construction scene dynamic simulation is subjected to three-dimensional model curve fitting with a design model;

and performing dynamic simulation application and scene roaming application on the fitted three-dimensional model curve according to the running route of the dynamic simulation of the construction scene in the application server.

It should be noted that the environmental data in the embodiment of the present invention is composed of a natural environment model and a geological environment model, the natural environment model includes a terrain, a landform, a hydrological condition and a climatic condition, and the geological environment model includes a soil structure and a soil texture. And basic material data used in construction data, wherein the basic material data comprises basic raw materials. The base itemized construction data comprise station subgrade construction data, building monomer construction data, outdoor comprehensive pipeline construction data, station track construction data and auxiliary building and outdoor environment construction data. The station subgrade construction data comprises foundation treatment construction data, embankment treatment construction data, foundation bed treatment construction data and cutting treatment construction data which are sequentially processed. The single building construction data comprises foundation construction data, building main structure construction data, building decoration construction data, roof construction data, building water supply, drainage and heating construction data, building electrical construction data, ventilation and air conditioning construction data and elevator construction data which are processed in sequence. The outdoor comprehensive pipeline construction data comprises water supply pipeline construction data, drainage pipeline construction data, cable tunnel construction data, cable trench construction data, cable groove construction data, compressed air pipeline construction data and outdoor electrical construction data which are processed in sequence. The station track construction data comprises integral ballast bed track construction data and common track construction data which are processed in sequence. The auxiliary building and outdoor environment construction data comprises roadbed construction data, pavement construction data, auxiliary building construction data, auxiliary square construction data and auxiliary sidewalk construction data which are processed in sequence. Basic raw materials corresponding to basic material data of the station subgrade construction data comprise earthwork, reinforcing steel bars and concrete; the basic raw materials corresponding to the basic material data of the station track construction data comprise steel rails, broken stones, concrete, turnouts, fasteners, signal marks and warning marks; the basic raw materials corresponding to the basic material data of the auxiliary building and outdoor environment construction data comprise earthwork, broken stone, kerb, steel bars, concrete, metal wires, cables, cable bridges, lamps, grounding devices, pipelines, sanitary wares, air pipes and fans. The prefabricated modules comprise prefabricated wall modules, prefabricated floor modules, prefabricated roof modules and prefabricated support modules; the prefabricated modules corresponding to the modular assembly material database of the outdoor comprehensive pipeline construction data comprise prefabricated pipe section modules and prefabricated pipeline system modules.

The background server of the embodiment of the invention takes an editing rendering function and an AR interactive operation function as a core on the basis of hardware, integrates a modeling subsystem, a model making subsystem and a lightweight processing subsystem, and the hardware comprises a database server, a website server and an application server.

The embodiment of the invention combines virtual and reality as a center, loads the corresponding model based on the background server, performs corresponding operation on the intelligent mobile terminal according to the corresponding model, assists construction completion, and has the advantage of convenient operation. In addition, the combination of the virtual and the real of the embodiment of the invention provides a more three-dimensional visual feeling for the user, and the user experience is completed.

The above-listed detailed description is merely a specific description of possible embodiments of the present disclosure, and is not intended to limit the scope of the disclosure, which is intended to include within its scope equivalent embodiments or modifications that do not depart from the technical spirit of the present disclosure.

It will be evident to those skilled in the art that the disclosure is not limited to the details of the foregoing illustrative embodiments, and that the present disclosure may be embodied in other specific forms without departing from the spirit or essential characteristics thereof. The present embodiments are therefore to be considered in all respects as illustrative and not restrictive, the scope of the disclosure being indicated by the appended claims rather than by the foregoing description, and all changes which come within the meaning and range of equivalency of the claims are therefore intended to be embraced therein. Any reference sign in a claim should not be construed as limiting the claim concerned.

Furthermore, it should be understood that although the present description refers to embodiments, not every embodiment may contain only a single embodiment, and such description is for clarity only, and those skilled in the art should integrate the description, and the embodiments may be combined as appropriate to form other embodiments understood by those skilled in the art.

Claims (9)

1. A construction data processing system based on virtual reality is characterized by comprising a mobile terminal and a background server, wherein the background server comprises a database server, a website server and an application server, and the database server, the website server and the application server are communicated with one another;

the database server stores construction data and design data, and the website server stores model data; the application server stores application data;

the construction data and design data in the database server and the model data in the website server are used as input to be transmitted to the application server;

the mobile terminal is communicated with the application server, and the mobile terminal calls application data from the application server, processes the application data and outputs new application data;

new application data is transmitted to the application server.

2. The construction data processing system according to claim 1, wherein the mobile terminal experiences construction scene dynamic simulation, construction scene roaming and immersion monitoring real-time construction through the application server in a man-machine interaction manner.

3. The construction data processing system of claim 1, wherein the construction data includes environmental data, material data, construction progress data, project data, construction process data;

the environmental data are collected by an environmental collector on the construction site and uploaded to the database server;

the material data are uploaded to the database server through a mobile end of a construction party in the intelligent mobile end;

and uploading the project data and the construction process data to the database server through the mobile end of the construction party.

4. The construction data processing system according to claim 1 or 3, wherein the design data includes design drawing data, design model data, design proportion data, and design progress data;

design drawing data and design model data are uploaded to the database server after being subjected to vectorization operation processing by the drawing digital terminal

The vectorization operation processing includes:

carrying out data vectorization processing on construction project data, carrying out operation processing on vector data obtained through the data vectorization processing, and transmitting the vector data to the database server, calling the vector data and point location data in the data server by the application server and carrying out operation to generate three-dimensional model data, creating a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model in the website server according to the three-dimensional model data, and calling the three-dimensional model data by the application server;

preprocessing model data and application data according to a data vectorization operation formula, wherein a construction scene roaming animation is constructed based on a data vectorization operation result, design drawing data and design model data, a plurality of construction frames are extracted from the construction scene roaming animation, and original construction progress data is established according to the construction frames;

calling vectorized data and design data in the database server and calling three-dimensional model data in the website database through the application server, extracting a real-time construction frame from a real-time construction image collected by a mobile end of a construction party, fusing the three-dimensional model data and the real-time construction frame, constructing dynamic simulation of a current construction scene based on construction progress data, and performing three-dimensional model curve fitting on a current construction dynamic model and a design model of the dynamic simulation of the current construction scene;

and performing dynamic simulation application and scene roaming application on the fitted three-dimensional model curve according to the running route of the dynamic simulation of the construction scene in the application server.

5. The construction data processing system according to claim 1, wherein the application server includes a real virtual scene comparison unit therein, and the mobile terminal and the background server cooperate to solve the construction problem through virtual-real correspondence of the real virtual scene comparison unit.

6. A construction data processing method based on virtual reality is characterized by comprising the following steps:

processing various data collected by the data collection unit and storing the data in a background server;

extracting various data stored in the background server, performing operation processing on the various data and displaying the data on a terminal;

the construction party, the design party and the supervision party check and renovate various data at respective terminals;

wherein, each item data that the processing data acquisition unit gathered and save background server includes:

the data acquisition unit comprises an intelligent mobile terminal, a PC design terminal and a drawing digitization terminal, the drawing digitization terminal acquires design data of the design unit and uploads the design data to the database server, the PC design terminal designs model data and application data, the PC design terminal uploads the model data to the website server, and the PC design terminal uploads the application data to the application server;

the extracting of each item of data stored by the background server, the operation processing of each item of data and the display of the processed data on the terminal comprise:

the background server comprises a database server, a website server and an application server, and the database server, the website server and the application server are communicated with each other;

the database server stores construction data and design data, and the website server stores model data; the application server stores application data;

the construction data and design data in the database server and the model data in the website server are used as input to be transmitted to the application server;

the mobile terminal is communicated with the application server, and the mobile terminal calls application data from the application server, processes the application data and outputs new application data;

new application data is transmitted to the application server.

7. The construction data processing method based on virtual reality according to claim 6, wherein the processing of various data collected by the data collection unit and the storage in the background server further comprises:

the intelligent mobile terminal comprises a construction side mobile terminal, a supervision side mobile terminal and an owner side mobile terminal; the construction side mobile terminal is communicated with the website server and the application server, the construction side mobile terminal obtains a station yard roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and/or a station yard track model from the database server through the website server, and experiences construction scene dynamic simulation and construction scene roaming through the application server in a man-machine interaction mode;

the prisoner mobile terminal is communicated with the application server, and experiences dynamic simulation of a construction scene and immersion monitoring real-time construction in a man-machine interaction mode through the application server;

the owner removes the end with the database server website server with application server all communicates, the owner removes the end and passes through the database server transfers design data, the owner removes the end and passes through the website server is followed the database server transfers station roadbed model, construction dynamic model, room building monomer model, outdoor pipeline model and/or station track model, the owner removes the end and passes through application server adopts the man-machine interaction mode to experience construction scene dynamic simulation, construction scene roaming and immersion monitoring real-time construction.

8. The construction data processing method based on virtual reality according to claim 6, wherein the extracting and the arithmetic processing of each item of data stored in the background server are performed and then displayed on a terminal, further comprising:

the environmental data are collected by an environmental collector on the construction site and uploaded to the database server;

the material data and the design progress data are uploaded to the database server through a mobile end of a construction party in the intelligent mobile end;

design proportioning data is uploaded to the database server through a mobile end of a designer in the intelligent mobile end;

the project data and the construction process data are uploaded to the database server through the PC design terminal and the construction side mobile terminal of the intelligent mobile terminal;

and uploading the construction progress data, the design drawing data and the design model data to the database server after vectorization operation processing of the drawing digital terminal.

9. The virtual reality-based construction data processing method according to claim 8, wherein the vectorization arithmetic processing includes:

carrying out data vectorization processing on construction project data collected by the intelligent mobile terminal, carrying out operation processing on vector data obtained by the data vectorization processing, and transmitting the vector data to the database server, calling the vector data and point location data in the data server by the application server and carrying out operation to generate three-dimensional model data, creating a station roadbed model, a construction dynamic model, a building unit model, an outdoor pipeline model and a station track model in the website server according to the three-dimensional model data, and calling the three-dimensional model data by the application server;

preprocessing model data and application data designed by the PC design terminal according to a data vectorization operation formula, constructing a construction scene roaming animation based on a data vectorization operation result, design drawing data and design model data, extracting a plurality of construction frames from the construction scene roaming animation, and establishing original construction progress data according to the construction frames;

calling vectorized data and design data in the database server and calling three-dimensional model data in the website database through the application server, extracting a real-time construction frame according to a real-time construction image collected by a construction party mobile terminal in an intelligent mobile terminal, fusing the three-dimensional model data and the real-time construction frame, constructing a current construction scene dynamic simulation based on construction progress data, and performing three-dimensional model curve fitting on a current construction dynamic model dynamically simulated by the current construction scene and the design model;

and performing dynamic simulation application and scene roaming application on the fitted three-dimensional model curve according to the running route of the dynamic simulation of the construction scene in the application server.

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