CN113255040A - 5G network VR equipment-based pipeline material rapid digital tracking method - Google Patents

Abstract

The invention discloses a 5G network VR equipment-based pipeline material rapid digital tracking method, which comprises the following steps: building a pipeline material rapid digital display VR device; creating a special APP at the mobile terminal for exporting and displaying the information exported by the transmission module; carrying out BIM format modeling on different pipeline structures of a construction site, and storing corresponding material information; converting all BIM format models into VR format models, and respectively storing the VR format models in a storage module of VR equipment; the field personnel wear VR equipment to carry out on-site observation, and intercept the static image of the entity structure and import the static image to the information processing module; the information processing module receives a part of live-action pipeline structure static images and automatically rotates the visual angle with the stored VR format model, and the material information corresponding to the VR format model with the highest matching degree is stored in the storage module; the derived material information is transmitted to the APP through the transmission module, and the working efficiency is improved.

Description

5G network VR equipment-based pipeline material rapid digital tracking method

Technical Field

The invention relates to a rapid digital tracking method for a pipeline material, in particular to a rapid digital tracking method for a pipeline material based on 5G network VR equipment.

Background

The ocean equipment industry is the core industry of the manufacturing industry of China, large ocean modules contain a large number of pipeline structures with different specifications and different materials, information needs to be called before assembly or in the using process so as to carry out subsequent engineering implementation, the traditional information calling mode is to carry out manual query on information needing to be retrieved, and the calling efficiency is low.

Chinese patent CN202010828398.3, "a method, an apparatus and a computing device for database query analysis based on pipeline", discloses a database query method, which performs information query by establishing a relevant database and inputting instructions, although this method improves the efficiency of information analysis and data retrieval, there is a certain delay from the input of instructions for manual information retrieval to the transmission of retrieval results.

Disclosure of Invention

The invention aims to overcome the defects of the prior art and provides a 5G network VR equipment-based pipeline material rapid digital tracking method.

The invention discloses a 5G network VR equipment-based pipeline material rapid digital tracking method, which comprises the following steps:

step one, build the quick digital display VR equipment of pipeline material, the quick digital display VR equipment of pipeline material move under 5G network platform environment, the quick digital display VR equipment of pipeline material contain:

the display module is used for enabling field workers to observe the real scene image of the entity;

the point touch module is a hand-wearing Bluetooth handle and is connected with the display module through Bluetooth, the hand-wearing Bluetooth handle can be displayed into the display module in a cursor form and can move the Bluetooth handle to carry out cursor movement in the display module through a hand, a view field structure is intercepted from the display module by pressing a button of the Bluetooth handle and moving the handle, and the view field structure is output to the information processing module in a static image format;

the information processing module is used for receiving the VR visual field structure static images intercepted and output by the point contact module through the communication module, sequentially reading all entity VR storage models stored in the storage module, then sequentially performing automatic visual angle rotation on the VR storage models, matching the VR storage models with the VR visual field structure, taking the model with the highest matching degree as an optimal matching VR storage model, and finally sending material information stored in the optimal matching VR storage model to the storage module for storage in a text format;

the storage module stores VR storage models of all entities which are established in advance, and receives and stores material information corresponding to the VR storage model which is output by the information processing module and is optimally matched;

the transmission module is used for reading the material information corresponding to the VR storage model which is optimally matched and output by the storage module and transmitting the material information to the mobile terminal;

secondly, a special pipeline digital tracking APP is established at the mobile terminal, and the special pipeline digital tracking APP is used for exporting and displaying the information exported by the transmission module;

performing BIM format modeling on pipeline structures of different specifications of a construction site by utilizing AUTODESK software, and setting material information corresponding to each pipeline structure while modeling;

step four, converting all BIM format models established in the step three into VR format models by using 3DVR software, and respectively storing all VR format models into a storage module in VR equipment;

fifthly, field personnel wear VR equipment to observe on the spot, when a plurality of pipelines are observed in the same visual angle, the personnel wearing the equipment move to select a proper observation visual angle, move the hand-wearing Bluetooth handle to move the cursor to a position to be selected in the visual field, continuously press and drag a button of the hand-wearing Bluetooth handle to select part of the live-action pipeline structure and intercept the part of the live-action pipeline structure, and then a point touch module leads static images of the selected intercepted part of the live-action pipeline structure into an information processing module;

step six, the information processing module receives part of the live-action pipeline structure static images, automatically rotates the visual angle of the VR format model stored in the storage module, matches the VR format model with the live-action pipeline structure static images, takes the image with the highest matching degree as an optimally matched VR format model, and stores the material information corresponding to the optimally matched VR format model in the storage module;

and step seven, transmitting the material information derived in the step six to the special pipeline digital tracking APP established in the step two through a transmission module, so that the inquiry personnel can conveniently check the material information.

The invention has the beneficial effects that: can carry out information transfer through sweeping the sign indicating number, guarantee that each pipeline structure's data information can show in real time, reduce because of the time that artifical inquiry information consumes, promote work efficiency.

Detailed Description

The present invention will be described in detail with reference to specific examples.

The invention discloses a 5G network VR equipment-based pipeline material rapid digital tracking method, which comprises the following steps:

step one, build the quick digital display VR equipment of pipeline material, the quick digital display VR equipment of pipeline material move under 5G network platform environment, the quick digital display VR equipment of pipeline material contain:

the display module is used for enabling field workers to observe the real scene image of the entity; the display module can be of a lens structure, for example, a lens focusing design model disclosed in the Chinese patent with the application number of CN202021243502.4 can be adopted, and a solid scene enters the lens through light and is refracted to human eyes, so that field workers can observe a live image;

the point touch module is a hand-wearing Bluetooth handle and is connected with the display module through Bluetooth, the hand-wearing Bluetooth handle can be displayed into the display module in a cursor form and can move the Bluetooth handle to carry out cursor movement in the display module through a hand, a view field structure is intercepted from the display module by pressing a button of the Bluetooth handle and moving the handle, and the view field structure is output to the information processing module in a static image format;

the information processing module is used for receiving the VR visual field structure static images intercepted and output by the point contact module through the communication module, sequentially reading all entity VR storage models stored in the storage module, then sequentially performing automatic visual angle rotation on the VR storage models, matching the VR storage models with the VR visual field structure, taking the model with the highest matching degree as an optimal matching VR storage model, and finally sending material information stored in the optimal matching VR storage model to the storage module for storage in a text format;

the storage module stores VR storage models of all entities which are established in advance, and receives and stores material information corresponding to the VR storage model which is output by the information processing module and is optimally matched;

the transmission module is used for reading the material information corresponding to the VR storage model which is optimally matched and output by the storage module and transmitting the material information to the mobile terminal;

secondly, a special pipeline digital tracking APP is established at the mobile terminal, and the special pipeline digital tracking APP is used for exporting and displaying the information exported by the transmission module;

performing BIM format modeling on pipeline structures of different specifications of a construction site by utilizing AUTODESK software, setting material information corresponding to each pipeline structure while modeling, if the diameter of the end face of the model 1 is 600mm, and the corresponding material is a copper pipe, establishing a model structure when building the model and selecting the material attribute as the copper material;

step four, converting all BIM format models established in the step three into VR format models by using 3DVR software, and respectively storing all VR format models into a storage module in VR equipment;

fifthly, field personnel wear VR equipment to observe on the spot, when a plurality of pipelines are observed in the same visual angle, the personnel wearing the equipment move to select a proper observation visual angle, move the hand-wearing Bluetooth handle to move the cursor to a position to be selected in the visual field, continuously press and drag a button of the hand-wearing Bluetooth handle to select part of the live-action pipeline structure and intercept the part of the live-action pipeline structure, and then a point touch module leads static images of the selected intercepted part of the live-action pipeline structure into an information processing module;

step six, the information processing module receives part of the live-action pipeline structure static images, automatically rotates the visual angle of the VR format model stored in the storage module, matches the VR format model with the live-action pipeline structure static images, takes the image with the highest matching degree as an optimally matched VR format model, and stores the material information corresponding to the optimally matched VR format model in the storage module;

and step seven, transmitting the material information derived in the step six to the special pipeline digital tracking APP established in the step two through a transmission module, so that the inquiry personnel can conveniently check the material information.

According to the invention, the 5G network platform is utilized, information is extracted through the VR system and displayed at the mobile terminal, so that the pipeline information can be quickly called, and the whole information calling efficiency is improved.

Claims (1)

1. A5G network VR equipment-based pipeline material rapid digital tracking method is characterized by comprising the following steps:

step one, build the quick digital display VR equipment of pipeline material, the quick digital display VR equipment of pipeline material move under 5G network platform environment, the quick digital display VR equipment of pipeline material contain:

the display module is used for enabling field workers to observe the real scene image of the entity;

the point touch module is a hand-wearing Bluetooth handle and is connected with the display module through Bluetooth, the hand-wearing Bluetooth handle can be displayed into the display module in a cursor form and can move the Bluetooth handle to carry out cursor movement in the display module through a hand, a view field structure is intercepted from the display module by pressing a button of the Bluetooth handle and moving the handle, and the view field structure is output to the information processing module in a static image format;

the information processing module is used for receiving the VR visual field structure static images intercepted and output by the point contact module through the communication module, sequentially reading all entity VR storage models stored in the storage module, then sequentially performing automatic visual angle rotation on the VR storage models, matching the VR storage models with the VR visual field structure, taking the model with the highest matching degree as an optimal matching VR storage model, and finally sending material information stored in the optimal matching VR storage model to the storage module for storage in a text format;

the storage module stores VR storage models of all entities which are established in advance, and receives and stores material information corresponding to the VR storage model which is output by the information processing module and is optimally matched;

the transmission module is used for reading the material information corresponding to the VR storage model which is optimally matched and output by the storage module and transmitting the material information to the mobile terminal;

secondly, a special pipeline digital tracking APP is established at the mobile terminal, and the special pipeline digital tracking APP is used for exporting and displaying the information exported by the transmission module;

performing BIM format modeling on pipeline structures of different specifications of a construction site by utilizing AUTODESK software, and setting material information corresponding to each pipeline structure while modeling;

step four, converting all BIM format models established in the step three into VR format models by using 3DVR software, and respectively storing all VR format models into a storage module in VR equipment;

fifthly, field personnel wear VR equipment to observe on the spot, when a plurality of pipelines are observed in the same visual angle, the personnel wearing the equipment move to select a proper observation visual angle, move the hand-wearing Bluetooth handle to move the cursor to a position to be selected in the visual field, continuously press and drag a button of the hand-wearing Bluetooth handle to select part of the live-action pipeline structure and intercept the part of the live-action pipeline structure, and then a point touch module leads static images of the selected intercepted part of the live-action pipeline structure into an information processing module;

step six, the information processing module receives part of the live-action pipeline structure static images, automatically rotates the visual angle of the VR format model stored in the storage module, matches the VR format model with the live-action pipeline structure static images, takes the image with the highest matching degree as an optimally matched VR format model, and stores the material information corresponding to the optimally matched VR format model in the storage module;

and step seven, transmitting the material information derived in the step six to the special pipeline digital tracking APP established in the step two through a transmission module, so that the inquiry personnel can conveniently check the material information.