CN116228163A - Four-electrical engineering intelligent handover method based on BIM platform - Google Patents

Abstract

The invention discloses a four-electrical engineering intelligent handover method based on a BIM (building information modeling) platform, relates to the technical field of four-electrical engineering, and solves the technical problems of strong specialization and strong limitation of the platform in the prior art and poor applicability in different areas and different types of engineering projects; the four-electric engineering BIM platform comprises an integrated equipment family cloud component module, an integrated cloud template module, an integrated information module and an intelligent checking module; the invention can be widely applied in the aspect of asset transfer in the technical field of four-electrical engineering; the whole method has strong applicability, and the asset transfer on different projects in different areas is suitable for use; the invention establishes a four-electricity engineering BIM platform, and all equipment information, family and project templates collected in the platform can be used by authorized users, thereby not only perfecting four-electricity professional equipment information, but also providing a foundation for rapid modeling of users. The invention simplifies the complex implementation process and liberates manpower, so that the whole process is faster and more accurate.

Description

Four-electrical engineering intelligent handover method based on BIM platform

Technical Field

The invention belongs to the field of four-electrical engineering, relates to a four-electrical engineering intelligent transfer technology, and in particular relates to a four-electrical engineering intelligent transfer method based on a BIM platform.

Background

In the engineering construction ending stage of the railway four-electric engineering technical field, a construction management unit can transfer equipment asset ownership and use rights to an operation management unit. And the equipment asset and authority transfer links of the national enterprises are extremely important, and the asset transfer links are also important links for judging whether the national assets are and as completion decision basis. The management rights related to the transfer of the four-electric engineering asset are complex, and especially for the transfer of equipment materials, the four-electric engineering asset transfer device has the characteristics of huge quantity, different professional characteristics and non-uniform standards. The traditional handover method has the problems of high handover error rate, complicated data statistics, troublesome site counting, long handover period and the like.

Related methods and BIM management platforms for subway asset handover appear in the market at present, and the platforms have strong professional and limitation and cannot be simultaneously applied to the railway four-electric engineering field, and the application process is affected by regions and cannot be completely applied to engineering projects in different regions and different types. Most of these platforms are aimed at higher level project management, and the development of the platforms basically only stays on the surface of the project management, so that the key problems are not solved from the key point of view.

In order to make the asset transfer work, the above problems are further solved, and an intelligent transfer method which has strong professional applicability, wide regional applicability, convenience, accuracy and rapidness must be provided.

Disclosure of Invention

The present invention aims to solve at least one of the technical problems existing in the prior art; therefore, the invention provides a four-electrical engineering intelligent handover method based on a BIM (building information modeling) platform, which is used for solving the technical problems of strong specialization and strong limitation of the platform in the prior art and poor applicability in different areas and different types of engineering projects.

In order to achieve the above objective, a first aspect of the present invention provides a four-electrical engineering intelligent handover method based on a BIM platform, which operates based on the four-electrical engineering BIM platform, wherein the four-electrical engineering BIM platform includes an integrated equipment family cloud component module, an integrated cloud template module, an integrated information module and an intelligent checking module; the method comprises the following steps:

collecting a BIM family of the four-electrical engineering equipment, and storing the BIM family of the four-electrical engineering equipment in an integrated equipment cloud component module; building BIM project templates based on Revit, and uploading to an integrated cloud template module after joint review; the four-electrical engineering equipment BIM group comprises equipment names and specification models;

after the new project is marked, establishing a corresponding project file in the integrated information module; after adding project information to the project file, adding all equipment families and user asset requirements required by the new project to the project file;

after the new project is completed, a manager issues information through a four-electric engineering BIM platform, and informs equipment suppliers of information hanging based on project files on respective supply equipment;

selecting a project template suitable for a target project from the integrated cloud template module, and establishing a project model; generating a primary completion model from the checked project model, and uploading the primary completion model to a four-electric engineering BIM platform;

the method comprises the steps of carrying out light format conversion on a primary completion model through a four-electric engineering BIM platform, and sending the primary completion model to an intelligent checking module; the manager performs on-site checking records according to the intelligent checking module, and modifies the initial completion model to generate an asset model;

a manager establishes an asset transfer template on a four-electric engineering BIM platform, and performs intelligent matching with an asset model to acquire an asset transfer table; and completing the asset transfer procedure based on the business perfection, and completing the asset transfer work.

Preferably, the cloud component module of the integrated equipment is used for building a BIM family of the four-electrical engineering equipment based on a management method, and is used for recording after being checked and confirmed by an administrator; and device information in the four-electrical engineering device BIM family is provided for a user to retrieve.

Preferably, the integrated cloud template module comprises Revit project templates of different four-electric engineering projects in different regions; the user selects the appropriate project template from the integrated cloud template module at project modeling.

Preferably, the integrated information module completes information hooking based on the project file, and includes:

the construction unit establishes project files in the integrated information module and configures equipment requirements and project information;

the device vendor makes detailed device information hooking for the respective provisioning devices.

Preferably, the project model is checked after it is built; the checking content comprises pattern consistency checking, collision detection, model early-stage perfection and field consistency modification.

Preferably, the intelligent counting module is built in an intelligent terminal; the intelligent terminal comprises a mobile phone or a computer; and

and the intelligent checking module downloads a corresponding format initial completion model through the four-electric engineering BIM platform.

Compared with the prior art, the invention has the beneficial effects that: the invention can be widely applied in the aspect of asset transfer in the technical field of four-electrical engineering; the whole method has strong applicability, and is suitable for the asset transfer in different projects in different areas. The invention establishes a four-electricity engineering BIM platform, and all equipment information, family and project templates collected in the platform can be used by authorized users, thereby not only perfecting four-electricity professional equipment information, but also providing a foundation for rapid modeling of users. The invention simplifies the complex implementation process and liberates manpower, so that the whole process is faster and more accurate.

Drawings

In order to more clearly illustrate the embodiments of the invention or the technical solutions in the prior art, the drawings that are required in the embodiments or the description of the prior art will be briefly described, it being obvious that the drawings in the following description are only some embodiments of the invention, and that other drawings may be obtained according to these drawings without inventive effort for a person skilled in the art.

FIG. 1 is a schematic diagram of the working steps of the present invention.

Detailed Description

The technical solutions of the present invention will be clearly and completely described in connection with the embodiments, and it is obvious that the described embodiments are only some embodiments of the present invention, not all embodiments. All other embodiments, which can be made by those skilled in the art based on the embodiments of the invention without making any inventive effort, are intended to be within the scope of the invention.

Referring to fig. 1, an embodiment of the first aspect of the present invention provides a four-electrical engineering intelligent handover method based on a BIM platform, which operates based on the four-electrical engineering BIM platform, wherein the four-electrical engineering BIM platform includes an integrated equipment family cloud component module, an integrated cloud template module, an integrated information module and an intelligent checking module; the method comprises the following steps:

collecting a BIM family of the four-electrical engineering equipment, and storing the BIM family of the four-electrical engineering equipment in an integrated equipment cloud component module; building BIM project templates based on Revit, and uploading to an integrated cloud template module after joint review; the four-electrical engineering equipment BIM group comprises equipment names and specification models;

after the new project is marked, establishing a corresponding project file in the integrated information module; after adding project information to the project file, adding all equipment families and user asset requirements required by the new project to the project file;

after the new project is completed, a manager issues information through a four-electric engineering BIM platform, and informs equipment suppliers of information hanging based on project files on respective supply equipment;

selecting a project template suitable for a target project from the integrated cloud template module, and establishing a project model; generating a primary completion model from the checked project model, and uploading the primary completion model to a four-electric engineering BIM platform;

the method comprises the steps of carrying out light format conversion on a primary completion model through a four-electric engineering BIM platform, and sending the primary completion model to an intelligent checking module; the manager performs on-site checking records according to the intelligent checking module, and modifies the initial completion model to generate an asset model;

a manager establishes an asset transfer template on a four-electric engineering BIM platform, and performs intelligent matching with an asset model to acquire an asset transfer table; and completing the asset transfer procedure based on the business perfection, and completing the asset transfer work.

The cloud component module of the integrated equipment establishes a BIM family of the four-electrical engineering equipment based on a management method, and is used for recording after being checked and confirmed by an administrator; and device information in the four-electrical engineering device BIM family is provided for a user to retrieve.

In detail, the cloud component module of the integrated equipment family establishes a strict family component management method, the establishment of all four-electric professional equipment families is required to be carried out according to the management method, the cloud component module of the integrated equipment family also has a strict auditing program, and all newly uploaded equipment families are required to be confirmed by an administrator and then can be recorded. Each device family contains the most basic device information for retrieval by the user. The integrated equipment family cloud component module also constrains the classification condition of components, so that the whole four-electrical engineering equipment family library is more organized. The equipment family members originate from the existing equipment suppliers, so that the whole four-electric engineering equipment family library is richer and more specialized.

The integrated cloud template module comprises Revit project templates of different four-electricity engineering projects in different areas; the user selects the appropriate project template from the integrated cloud template module at project modeling.

In detail, the integrated cloud template module contains the Revit project templates of different four-electrical project programs in different regions, and a user selects a proper project template from the integrated cloud template module during project modeling, so that the whole modeling process is more organized and simpler. The Revit project templates in the integrated cloud template module are all recorded through strict evaluation, and the whole template quality is high and has more professionality.

The integrated information module in the invention completes information hanging based on project files, and comprises: the construction unit establishes project files in the integrated information module and configures equipment requirements and project information; the device vendor makes detailed device information hooking for the respective provisioning devices.

In detail, the function of the integrated information module is mainly to complete the establishment of a new project and complete the information hanging of the equipment family requirement information in the project. Different from the traditional information hanging method, the construction unit is an equipment information demand establishment sending unit, and the equipment manufacturer is an actual information hanging unit. The construction unit establishes a new project in the integrated information module and attaches information requirements and basic project information, and the equipment suppliers carry out detailed equipment information hanging on the self-contained equipment, so that the whole hanging process is faster, more accurate and more specialized.

The intelligent counting module is arranged in the intelligent terminal; the intelligent terminal comprises a mobile phone or a computer; and the intelligent checking module downloads the initial completion model with the corresponding format through the four-electric engineering BIM platform.

In detail, the intelligent checking module is specifically a professional tool for checking the mobile phone terminal model to check the on-site assets and check the consistency of the on-site assets and the model, and reducing the workload of checking the assets. The whole on-site checking work is more detailed and accurate. In the checking process, the problems are found out, remarks are marked in time, a problem list can be finally derived, and the whole process is more convenient according to further modification of the problem list to the model.

In a preferred embodiment, the working steps of the invention are as follows:

s11: the BIM family of four-electrical engineering equipment is collected, and the collection path is divided into equipment manufacturer supply and company internal autonomous creation. The collected four-electrical engineering equipment BIM group has the most basic equipment information such as equipment name, specification model, manufacturer, brand, equipment description and the like. The BIM family of the four-electrical engineering equipment collected in the integrated equipment cloud component module is permanently stored in a Yun Goujian library, and is updated and maintained regularly to serve as a reserve family for intelligent handover of follow-up project assets.

S12: and all the four-electricity engineering projects are built into BIM project templates suitable for local projects in the local area through Revit, and the BIM project templates are uploaded into an integrated cloud template module after being reviewed together by the projects of the same type in the same area in a company, and are uniformly recorded after being reviewed by an administrator. The periodic maintenance and periodic update of the project template provide a necessary condition for rapid modeling of the project.

S13: after the new project is marked, the project department should first determine the equipment vendor to mat the asset information hook. And the manager logs in the four-electric engineering BIM platform, establishes a new project file in the integrated information module and performs authority setting encryption. The manager adds all device family searches required for the new project to the file and adds user asset requirements and basic project information thereto. The project department is docked with the construction units in advance to determine related information such as asset information, asset classification, asset requirements and the like, and user asset requirements are formulated through docking content.

S14: after the new project is established, the manager issues information through the BIM platform and informs corresponding equipment suppliers to carry out information hanging based on project basic files on the self-supplied equipment. The hooking information should include supply channels, asset ratings, unit prices, date of purchase, age, warranty description, place of production, factory numbers, etc. The supplier downloads the four-electrical engineering equipment BIM family from the four-electrical engineering BIM platform, adds information through Revit, uploads the project file again after the addition is finished, and replaces the original equipment family in the file after the addition passes the audit, so as to form a final project equipment family library.

S15: and selecting a project template suitable for the project from the integrated cloud template module to establish a project model, wherein the family in the model is selected from the integrated information system project file. If the project provides a BIM model for a BIM forward design or design entity, the project department need only provide the family of devices or replace the family of devices in the model. And after project modeling is completed, performing pattern consistency check, collision detection, model early-stage perfection, construction process model modification, completion stage model and site consistency modification, and finally forming a primary completion model.

S16: and uploading the initial model to a four-electric engineering BIM platform, and performing light weight processing on the model to form a format required by an intelligent terminal (intelligent checking module).

S17: and downloading the light-weight processed model from the four-electric engineering BIM platform, and transferring the light-weight processed model to an intelligent checking module. And carrying the on-site checking equipment of the intelligent terminal by the manager, and carrying out on-site consistency check on the model. And (3) recording the inconsistent places in a mobile phone terminal system, summarizing and analyzing all records to finally derive a model modification list, and modifying the initial completion model by a manager through the problem list to finally form an asset model.

S18: the manager logs in to the four-electric engineering BIM platform to establish the asset transfer template required by the owner. And uploading the asset model to a four-electric engineering BIM platform, performing intelligent one-key matching on click information to complete matching of related asset information, and finally, deriving an asset transfer table.

S19: and perfecting the asset transfer procedure according to the requirements of the owners, and finally completing the asset transfer work.

The working principle of the invention is as follows:

collecting a BIM family of the four-electrical engineering equipment, and storing the BIM family of the four-electrical engineering equipment in an integrated equipment cloud component module; and creating a BIM project template based on the Revit, and uploading the BIM project template to the integrated cloud template module after co-review.

After the new project is marked, establishing a corresponding project file in the integrated information module; after adding project information to the project file, all equipment families and user asset requirements required for the new project are added to the project file.

After the new project is completed, the manager issues information through the four-electric engineering BIM platform, and informs equipment suppliers of information hanging based on project files on the respective supply equipment.

Selecting a project template suitable for a target project from the integrated cloud template module, and establishing a project model; and generating a primary completion model from the checked project model, and uploading the primary completion model to a four-electric engineering BIM platform.

The method comprises the steps of carrying out light format conversion on a primary completion model through a four-electric engineering BIM platform, and sending the primary completion model to an intelligent checking module; and the manager performs on-site checking records according to the intelligent checking module, and modifies the initial completion model to generate an asset model.

A manager establishes an asset transfer template on a four-electric engineering BIM platform, and performs intelligent matching with an asset model to acquire an asset transfer table; and completing the asset transfer procedure based on the business perfection, and completing the asset transfer work.

The above embodiments are only for illustrating the technical method of the present invention and not for limiting the same, and it should be understood by those skilled in the art that the technical method of the present invention may be modified or substituted without departing from the spirit and scope of the technical method of the present invention.

Claims (6)

1. A four-electric engineering intelligent handover method based on a BIM platform is based on the operation of the four-electric engineering BIM platform, wherein the four-electric engineering BIM platform comprises an integrated equipment family cloud component module, an integrated cloud template module, an integrated information module and an intelligent checking module; characterized in that the method comprises the following steps:

collecting a BIM family of the four-electrical engineering equipment, and storing the BIM family of the four-electrical engineering equipment in an integrated equipment cloud component module; building BIM project templates based on Revit, and uploading to an integrated cloud template module after joint review; the four-electrical engineering equipment BIM group comprises equipment names and specification models;

after the new project is marked, establishing a corresponding project file in the integrated information module; after adding project information to the project file, adding all equipment families and user asset requirements required by the new project to the project file;

after the new project is completed, a manager issues information through a four-electric engineering BIM platform, and informs equipment suppliers of information hanging based on project files on respective supply equipment;

selecting a project template suitable for a target project from the integrated cloud template module, and establishing a project model; generating a primary completion model from the checked project model, and uploading the primary completion model to a four-electric engineering BIM platform;

the method comprises the steps of carrying out light format conversion on a primary completion model through a four-electric engineering BIM platform, and sending the primary completion model to an intelligent checking module; the manager performs on-site checking records according to the intelligent checking module, and modifies the initial completion model to generate an asset model;

a manager establishes an asset transfer template on a four-electric engineering BIM platform, and performs intelligent matching with an asset model to acquire an asset transfer table; and completing the asset transfer procedure based on the business perfection, and completing the asset transfer work.

2. The intelligent handover method of four-electrical engineering based on BIM platform according to claim 1, wherein the cloud component module of the integrated equipment is used for building BIM family of four-electrical engineering equipment based on management method, and is used for recording after checking and administrator confirmation; and device information in the four-electrical engineering device BIM family is provided for a user to retrieve.

3. The BIM platform-based four-electrical engineering intelligent handoff method of claim 1, wherein the integrated cloud template module comprises Revit item templates of different four-electrical engineering items in different regions; the user selects the appropriate project template from the integrated cloud template module at project modeling.

4. The four-electrical engineering intelligent handover method based on the BIM platform according to claim 1, wherein the integrated information module completes information hooking based on project files, and includes:

the construction unit establishes project files in the integrated information module and configures equipment requirements and project information;

the device vendor makes detailed device information hooking for the respective provisioning devices.

5. The BIM platform based four-way engineering intelligent handoff method according to claim 1, wherein the project model is checked after being constructed; the checking content comprises pattern consistency checking, collision detection, model early-stage perfection and field consistency modification.

6. The four-electrical engineering intelligent handover method based on the BIM platform according to claim 1, wherein the intelligent counting module is built in an intelligent terminal; the intelligent terminal comprises a mobile phone or a computer; and

and the intelligent checking module downloads a corresponding format initial completion model through the four-electric engineering BIM platform.

Images