CN115719198A - Space collision detection system between electric transmission and transformation engineering specialty of accurate classification and location - Google Patents

Abstract

The invention provides a space collision detection system between electric transmission and transformation project specialties with accurate classification and positioning.A DGrid speciality collaborative system is interconnected with a project management system, and file information of different professional component models is synchronously updated to the project management system through a DGrid collaborative function; each professional designer submits each professional assembly model through the project management platform, and synchronizes the professional assembly model to a volume task or a financing task; other professional designers receive the resource receiving task through the project management platform, introduce the resource receiving model into the current project model and store the resource receiving model in the project comprehensive file storage; and detecting the collision between different professional component models in the project model through the project management system. The invention is based on DGrid software collaborative design function, and combines with project management system to realize three-dimensional design verification flow transfer and verification suggestion addition; mutual investment improvement among the major is realized, and unified storage, version management and the like of the model are realized.

Description

Space collision detection system between electric transmission and transformation engineering specialty of accurate classification and location

Technical Field

The invention relates to the technical field of power transmission and transformation engineering, in particular to a space collision detection system for power transmission and transformation engineering specialties, which is capable of accurately classifying and positioning.

Background

The transmission and transformation project is a general name of transmission line construction and transformer installation project. In order to improve the construction efficiency and quality of the power transmission and transformation project, the power transmission and transformation project is divided according to different design majors, then designers of all the majors create a single professional component model according to design requirements, and when the component models among different majors are loaded into a project model, certain mutual constraint conditions need to be met among different components. Because the component modeling is independently completed in the virtual environment, in order to meet the design requirements, the component models among different specialties need to be subjected to space collision detection through software, so that the smooth implementation of the actual construction of the power transmission and transformation project is ensured, and meanwhile, the working efficiency can be greatly improved.

Revit is used as mainstream Building Information Modeling (BIM) software and is more and more widely used in the building industry, collision check is the oldest of BIM application, collision check is an important mark for turning a two-dimensional era to a three-dimensional era, and a large number of problems hidden in design can be found in the process through comprehensive three-dimensional checking. Before the actual construction, various collisions can be theoretically eliminated by 100 percent, the rework is reduced, the construction period is shortened, and the cost is saved. However, the existing Revit software function cannot be directly interfaced with a golden song project management system, and is inconvenient for checking streaming and sharing project comprehensive files.

Disclosure of Invention

The technical problem to be solved by the invention is as follows: in order to overcome the defects in the prior art, the invention provides a space collision detection system for a power transmission and transformation project professional room, which is accurately classified and positioned.

The technical scheme adopted by the invention for solving the technical problem is as follows: a space collision detection system between power transmission and transformation project specialties with accurate classification and positioning comprises component modeling modules of different design specialties, a DGrid speciality interprofessional cooperation system, a project management system and an interprofessional space collision detection module, wherein,

the component modeling modules of different design specialties are used for each professional designer to perform component modeling on the professional component;

the DGrid inter-professional cooperation system is interconnected with the project management system through a network, and synchronously updates the file information of different professional component models to the project management system through the cooperation function of the DGrid inter-professional cooperation system;

the project management system comprises a project management platform and a project comprehensive file memory, wherein each professional designer carries out user identity verification through the project management platform, submits each professional component model and synchronizes the professional component model to a volume task or a funding task; other professional designers receive the collecting task through the project management platform, introduce the collecting model into the current project model, and store the file in the rvt format on the project comprehensive file memory; auditing personnel audit component models of different specialties through a project management system, and design verification flow transfer and verification suggestion addition of the three-dimensional model are realized;

the inter-professional space collision detection module is used for calling the inter-professional space collision detection module through the project management system based on the cooperative function of the DGrid inter-professional cooperative system, detecting the collision between different professional component models in the project model, automatically finding out collision points in the model and outputting a collision detection result, a professional designer rechecks and finds drawings of related component models according to the collision detection result, writes a collision detection report according to the collision detection process, uploads the collision detection report to the project management system through the project management platform, and synchronizes the collision detection report with the DGrid inter-professional cooperative system.

Specifically, the design specialties of the power transmission and transformation project include, but are not limited to, one or more of general diagram specialties, building specialties, structural specialties, electrical specialties, water supply and drainage specialties and technical specialties.

Preferably, the accurate classification and positioning of the power transmission and transformation project adopt an IV-level system, and the IV-level system is realized according to a power grid project IV-level system in 'State grid company of department [2018] 996'.

The I-level system comprises a transformer substation project, an overhead line project and a cable line project, and the II-level system of each I-level system comprises an electrical project and a civil engineering project; the III-level system of the transformer substation engineering comprises primary electric equipment, secondary electric equipment, an intelligent auxiliary control system, cables, accessories, buildings, structures, heating, ventilating, air conditioning, water supply and drainage and fire fighting; the III-level system of the overhead line engineering comprises a ground wire engineering, an insulator hardware fitting engineering, a foundation engineering and a tower engineering; the III-level system of the cable line engineering comprises cable engineering, cable connection engineering, cable accessory engineering, calandria engineering, cable trench engineering, electric power tunnel engineering and work well engineering. The IV-level system of the transformer substation engineering comprises primary equipment, lightning grounding prevention, power lighting, relay protection and safety automatic devices, intelligent equipment, an integrated monitoring system, a power supply system, an electric energy metering and collecting system, system communication, video monitoring, safety guards, fire alarm, environment monitoring, light control, water cooling control, power cables and accessories, cables, buildings and outdoor facilities, structures and general diagrams, outdoor frameworks, a ventilation system and a cooling system, an air conditioning system and a smoke exhaust system, a water supply system and a fire fighting system, a drainage system and a reclaimed water system, an indoor fire hydrant system, an outdoor fire hydrant system, a water spray system and a water mist system, a pre-action system and a fire extinguisher system and a gas fire fighting system.

Further, the DGrid inter-specialty cooperation system comprises an engineering information module, a volume information module, a model classification module, a model extraction module, a model investment module, a model income module, a model inquiry module and an income file difference comparison module;

the project management system comprises an engineering information synchronization module, a volume task allocation module, a design task module, a checking and approving flow module, a resource promotion task module, a project resource receiving module, a model version management module and a project form automatic generation module;

the project information module and the volume information module of the DGrid inter-professional collaboration system and the project information synchronization module and the volume task allocation module of the project management system can realize synchronous downloading;

the model classification module, the model extraction module, the model resource promotion module, the model resource collection module, the model query module and the resource collection file difference comparison module of the DGrid inter-specialty collaboration system can realize synchronous updating of file information with the design task module, the checking and approval process module, the resource promotion task module, the project resource collection module, the model version management module and the project form automatic generation module of the project management system.

And further, the system also comprises an engineering fund raising module based on the DGrid cooperation function, wherein the engineering fund raising module comprises the functions of engineering information setting, volume template setting, model fund raising, model fund collection and help.

Specifically, the project funding module automatically extracts a volume-related three-dimensional model based on volume codes. And reminding a user of the associated model of the volume by a green font in an interface of the project management platform, selecting the associated model by default, and clicking to determine the input version number to realize the model extraction.

And further, the special punching module based on the DGrid cooperation function is further included, and the special punching module comprises functions of rectangular punching, circular punching, punching capital improvement, punching capital collection, punching symbol placement and punching symbol deletion. After the size of the opening is selected, the opening can be formed when the position to be formed is placed, the opening can be provided with materials, and the opening model can be extracted.

And further, the system also comprises a project management platform interface based on the DGrid cooperation function, wherein the project management platform interface comprises functions of user login, project information setting, design task, resource improvement and resource collection. Selecting a design task, selecting a funding model and uploading the funding model to a golden song project management system; selecting a funding task, selecting a funding model and uploading the funding model to a golden song project management system; selecting the funding task, selecting the funding detail, selecting the rvt project file to be funded, and directly opening the file by clicking to fund.

The project management platform further comprises a contribution file and a three-dimensional design result filing module, and the functions of the contribution file and the three-dimensional design result filing module are realized on the basis of the DGrid cooperation function.

Further, the project management platform also comprises the functions of task allocation, reminding of financing and collecting, storage and backup.

The invention has the beneficial effects that: the space collision detection system between the power transmission and transformation project specialties with accurate classification and positioning, provided by the invention, is based on the DGrid software collaborative design function, and combines a golden song project management system to realize three-dimensional design verification flow transfer and verification suggestion addition; mutual investment improvement among the major is realized, and unified storage, version management and the like of the model are realized.

Drawings

The invention is further illustrated by the following examples in conjunction with the drawings.

Fig. 1 is a schematic diagram of a project management platform based on DGrid collaboration.

FIG. 2 is a system block diagram of the inter-professional space collision detection system for power transmission and transformation engineering with accurate classification and positioning according to the present invention.

Detailed Description

The present invention will now be described in detail with reference to the accompanying drawings. This figure is a simplified schematic diagram, and merely illustrates the basic structure of the present invention in a schematic manner, and therefore it shows only the constitution related to the present invention.

As shown in fig. 1 and fig. 2, the system for detecting spatial collision between power transmission and transformation project specialties with accurate classification and positioning according to the present invention includes a component modeling module for different design specialties, a DGrid speciality collaboration system, a project management system, and a speciality spatial collision detection module, wherein,

the component modeling modules of different design specialties are used for each professional designer to perform component modeling on the professional component;

the DGrid inter-professional cooperation system is interconnected with the project management system through a network, and synchronously updates the file information of different professional component models to the project management system through the cooperation function of the DGrid inter-professional cooperation system;

the project management system comprises a project management platform and a project comprehensive file memory, wherein each professional designer carries out user identity verification through the project management platform, submits each professional component model and synchronizes the professional component model to a volume task or a funding task; other professional designers receive the fund collection task through the project management platform, import the fund collection model into the current project model, and store the fund collection model in a rvt format file on a project comprehensive file storage; auditors audit component models of different majors through the project management system, and design, verification and audit flow and verification and audit suggestion addition of the three-dimensional model are achieved; the project management system in this embodiment is a golden song project management system.

The inter-professional space collision detection module is used for calling the inter-professional space collision detection module through the project management system based on the cooperative function of the DGrid inter-professional cooperative system, detecting the collision between different professional component models in the project model, automatically finding out collision points in the model and outputting a collision detection result, a professional designer rechecks and finds drawings of related component models according to the collision detection result, writes a collision detection report according to the collision detection process, uploads the collision detection report to the project management system through the project management platform, and synchronizes the collision detection report with the DGrid inter-professional cooperative system. The professional collision module can perform collision detection on models among different professionals and output collision detection results.

Specifically, the design specialties of the power transmission and transformation project include, but are not limited to, one or more of general diagram specialties, building specialties, structural specialties, electrical specialties, water supply and drainage specialties and technical specialties.

Preferably, the accurate classification and positioning of the power transmission and transformation project adopt an IV-level system, and are more detailed than the traditional professional classification. The IV-level system is realized according to the power grid engineering IV-level system in ' State grid on-grid electric company ' No. 2018]996 '. The I-level system comprises a transformer substation project, an overhead line project and a cable line project, and the II-level system of each I-level system comprises an electrical project and a civil engineering project; the III-level system of the transformer substation engineering comprises primary electric equipment, secondary electric equipment, an intelligent auxiliary control system, cables and accessories, buildings and structures, heating, ventilation and air conditioning, water supply and drainage and fire fighting; the III-level system of the overhead line engineering comprises a ground wire engineering, an insulator hardware fitting engineering, a foundation engineering and a tower engineering; the III-level system of the cable line engineering comprises cable engineering, cable connection engineering, cable accessory engineering, calandria engineering, cable trench engineering, electric power tunnel engineering and work well engineering. The IV-level system of the transformer substation engineering comprises primary equipment, lightning grounding prevention, power lighting, relay protection and safety automatic devices, intelligent equipment, an integrated monitoring system, a power supply system, an electric energy metering and collecting system, system communication, video monitoring, safety guards, fire alarm, environment monitoring, light control, water cooling control, power cables and accessories, cables, buildings and outdoor facilities, structures and general diagrams, outdoor frameworks, a ventilation system and a cooling system, an air conditioning system and a smoke exhaust system, a water supply system and a fire fighting system, a drainage system and a reclaimed water system, an indoor fire hydrant system, an outdoor fire hydrant system, a water spray system and a water mist system, a pre-action system and a fire extinguisher system and a gas fire fighting system.

The DGrid inter-specialty collaboration system comprises an engineering information module, a volume information module, a model classification module, a model extraction module, a model funding module, a model query module and a funding file difference comparison module; the difference comparison module of the investment files can automatically compare the differences of the investment models.

The project management system comprises an engineering information synchronization module, a volume task distribution module, a design task module, a checking and approving flow module, a funding task module, a project funding module, a model version management module and a project form automatic generation module;

the project information module and the volume information module of the DGrid inter-professional collaboration system and the project information synchronization module and the volume task allocation module of the project management system can realize synchronous downloading;

the model classification module, the model extraction module, the model resource promotion module, the model resource collection module, the model query module and the resource collection file difference comparison module of the DGrid inter-specialty collaboration system can realize synchronous updating of file information with the design task module, the checking and approval process module, the resource promotion task module, the project resource collection module, the model version management module and the project form automatic generation module of the project management system.

The system also comprises an engineering fund raising module based on the DGrid cooperative function, wherein the engineering fund raising module comprises the functions of engineering information setting, volume template setting, model fund raising, model fund collection and help. The module realizes the functions of editing engineering information, importing and exporting the engineering information, configuring volume books and the like. The engineering information is imported and exported, the exported configuration file can be imported into the engineering information, and the engineering information can also be exported completely; volume configuration refers to the configuration of the relationship between the IV-level system and volume coding indexes, the storage of engineering information to the current project (DPR. Rfa model), the storage of the relationship between the four-level system and volume coding indexes, the addition of related volume information, and the modification of related volume information; the volume information may be deleted.

And the project model financing function is used for extracting the model to the financing file according to the selected volume information.

And the project model collecting function is used for selecting the resource providing file and importing the model in the resource providing file into the project.

Specifically, the project funding module automatically extracts a volume-related three-dimensional model based on volume codes. And reminding a user of the associated model of the volume by a green font in an interface of the project management platform, selecting the associated model by default, and clicking to determine the input version number to realize the model extraction.

The system also comprises a professional opening module based on the DGrid cooperation function, wherein the professional opening module comprises functions of rectangular opening, circular opening, opening capital improvement, opening capital collection, opening symbol placement and opening symbol deletion. After the size of the opening is selected, the opening can be formed when the position to be formed is placed, the opening can be provided with materials, and the opening model can be extracted.

Wherein, the rectangle is perforated, and a rectangle opening is perforated on the object. And clicking the rectangular opening, inputting the opening size parameter, and placing the rectangular opening to the position to be opened to open the hole. Description of the parameters: width of the hole: the width of the opening; the height of the hole is as follows: the height of the opening; depth of the hole: the thickness of the opening; additional depth: the object is provided with a hole, and 1/2 additional depth (mainly preventing the outer layer of the wall from having attachments) is added on the depth of the hole; offsetting: the up-down offset is positive up-down and negative down based on the current elevation.

The round hole is formed, and a round hole is formed in the object. And clicking the circular hole, inputting the size parameter of the hole, and then placing the hole at the position to be punched to form the hole. Description of the parameters: the diameter of the hole: the diameter of the circular hole; depth of the hole: the thickness of the opening; additional depth: the object is provided with a hole, and 1/2 additional depth (mainly preventing the outer layer of the wall from having attachments) is added on the depth of the hole; offsetting: the up-down offset is positive up-down and negative down based on the current elevation.

The array is provided with holes, and a plurality of holes are formed on the object at one time according to the array. And clicking the array to open the holes, inputting the size parameters of the holes, and placing the holes at the positions to be opened.

Opening holes to extract data, and extracting holes in the project into a rvt file. And providing a file naming rule TZ + a system number + a version number.

Opening a hole to collect capital, and receiving the hole in the rvt file for project capital into the current project. Click to collect and select the correct rvt file (the opening file for the project).

The system also comprises a project management platform interface based on the DGrid cooperation function, wherein the project management platform interface comprises functions of user login, project information setting, design task, resource improvement and resource collection. Selecting a design task, selecting a funding model and uploading the funding model to a golden song project management system; selecting a funding task, and selecting a funding model to upload to a golden song project management system; selecting the funding task, selecting the funding detail, selecting the rvt project file to be funded, and directly opening the file by clicking to fund. In this embodiment, the project management platform interface is a jinqu interface, which can implement intelligent collaborative design with a jinqu project management platform, and the installed jinqu project management platform can implement task arrangement, collaborative design, checking operation, and funding operation through relevant functions of the jinqu interface. The golden song-free project management platform can directly use functions of fund raising and fund collection to realize collaborative design.

The project management platform further comprises a contribution file and a three-dimensional design result filing module, and the functions of the contribution file and the three-dimensional design result filing module are realized on the project management platform based on the DGrid cooperation function. Besides, the system also comprises the functions of task allocation, reminding of funding and collecting, storage and backup.

In light of the foregoing description of preferred embodiments in accordance with the invention, it is intended that the appended claims be interpreted as including all such alterations and modifications as fall within the true spirit and scope of the invention. The technical scope of the present invention is not limited to the contents of the specification, and must be determined according to the scope of the claims.

Claims (10)

1. The utility model provides a space collision detecting system between electric transmission and transformation engineering specialty of accurate classification and location which characterized in that: comprises component modeling modules of different design specialties, a DGrid speciality interprofessional cooperation system, a project management system and an interprofessional space collision detection module, wherein,

the component modeling modules of different design specialties are used for each professional designer to perform component modeling on the professional component;

the DGrid inter-professional collaboration system is interconnected with the project management system through a network, and synchronously updates the file information of different professional component models to the project management system through the collaboration function of the DGrid inter-professional collaboration system;

the project management system comprises a project management platform and a project comprehensive file memory, wherein each professional designer submits each professional assembly model through the project management platform and synchronizes the professional assembly model to a volume task or a financing task; other professional designers receive the fund collection task through the project management platform, import the fund collection model into the current project model, and store the fund collection model in a rvt format file on a project comprehensive file storage; auditing personnel audit component models of different specialties through a project management system, and design verification flow transfer and verification suggestion addition of the three-dimensional model are realized;

the inter-professional space collision detection module is based on the cooperative function of the DGrid inter-professional cooperative system, the inter-professional space collision detection module is called through the project management system, collision among different professional component models in the project model is detected, collision points in the models are automatically found out, collision detection results are output, professional designers review and find drawings of related component models according to the collision detection results, collision detection reports are written according to the collision detection processes, the collision detection reports are uploaded to the project management system through the project management platform, and the collision detection reports are synchronized with the DGrid inter-professional cooperative system.

2. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 1, characterized in that: the design specialty comprises one or more of a general diagram specialty, a building specialty, a structure specialty, an electrical specialty, a water supply and drainage specialty.

3. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 2, characterized in that: and the classification and positioning of the power transmission and transformation project adopt an IV-level system.

4. The precision categorised and positioned electric transmission and transformation engineering specialized room space collision detection system of claim 1, wherein: the DGrid inter-specialty collaboration system comprises an engineering information module, a volume information module, a model classification module, a model extraction module, a model funding module, a model query module and a funding file difference comparison module;

the project management system comprises an engineering information synchronization module, a volume task allocation module, a design task module, a checking and approving flow module, a resource promotion task module, a project resource receiving module, a model version management module and a project form automatic generation module;

the project information module and the volume information module of the DGrid inter-professional collaboration system and the project information synchronization module and the volume task allocation module of the project management system can realize synchronous downloading;

the model classification module, the model extraction module, the model resource promotion module, the model resource collection module, the model query module and the resource collection file difference comparison module of the DGrid inter-professional collaboration system can realize synchronous update of file information with the design task module, the checking and approving flow module, the resource promotion task module, the project resource collection module, the model version management module and the project form automatic generation module of the project management system.

5. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 1, characterized in that: the system further comprises an engineering fund raising module based on the DGrid cooperation function, wherein the engineering fund raising module comprises the functions of engineering information setting, volume template setting, model fund raising, model fund collection and help.

6. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 5, characterized by: and the project fund raising module automatically extracts the three-dimensional model related to the volume based on the volume code.

7. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 1, characterized in that: still include based on DGrid cooperation function's professional trompil module, professional trompil module includes rectangle trompil, circular trompil, trompil and carries capital, trompil receipts capital, places the function of trompil symbol and delete the trompil symbol.

8. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 1, characterized in that: the project management platform interface comprises functions of user login, project information setting, design task, fund raising and fund collection.

9. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 1, characterized in that: the three-dimensional design result filing system further comprises a contribution file and a three-dimensional design result filing module, and the functions of the contribution file and the three-dimensional design result filing module are realized on the project management platform based on the DGrid cooperation function.

10. The precision classified and located space collision detection system between electric transmission and transformation project specialties of claim 1, characterized in that: the project management platform also comprises the functions of task allocation, reminding of improving capital and collecting resources, storage and backup.

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