CN111898180A - Automatic modeling drawing system, method, equipment and storage medium based on AI - Google Patents

Abstract

The invention relates to an automatic modeling drawing system, method, equipment and storage medium based on AI, the drawing system includes: the foreground operation module is used for matching a plurality of links of the actual decoration design and generating a corresponding matching scheme data list after the matching is finished; the background engine module is used for generating a three-dimensional BIM house type by combining relevant software according to the matching scheme data list finally generated by the foreground operation module; and the intercommunication module is used for adaptively loading the three-dimensional BIM house type matching algorithm generated by the background engine module into a BIM model in the Revit environment. The drawing method matched with the system realizes the design process from design to drawing in one go, and compared with the prior art, the invention has the advantages of simply and quickly finishing the indoor hardcover design and the like.

Description

Automatic modeling drawing system, method, equipment and storage medium based on AI

Technical Field

The invention relates to the technical field of engineering drawing, in particular to an automatic modeling drawing system, method, equipment and storage medium based on AI.

Background

With the arrival of 2020, the requirements and standards of delivery of hardcover houses are implemented, developers pay more and more attention to the hardcover market, meanwhile, the high turnover stage is entered along with the premium mode of the real estate field, innovation is brought into harmony in 2017, and after a 'pi plan' hardcover standard system is started to be built, more and more enterprises develop the layout and implementation of hardcover standardization in the real estate industry. With the successful landing of the pi plan, the standard hardcover content plus variable regional differentiation matching has proven its value, while on the other hand, the "three-dimensional integration" model of group + design institute + consulting company has also been recognized by the market. Nowadays, more and more property developers seek the same way, the demand for platform + consultation is continuously promoted, or items are established or concerned, and the exploration of the hardbound standardization is continuously carried out.

With the implementation of the hardback standardization concept, more and more enterprises will build the hardback standardization system in the trend, wherein 30% of innovative concepts are gradually confirmed by the enterprises with 70% of duplication, and the matching platform can realize the 30% of difference visualization. On the basis, more and more enterprises excavate more demands from business demands, wherein the more demands comprise automatic BIM model construction realized by butt joint with BIM and automatic drawing output realized by butt joint with design.

At present, BIM develops over ten years, and is relatively complete in terms of BIM related functions and yield results, and has a mature application and management system. But the source is: the BIM model construction is still in the category of manual labor force, manual modeling is needed, only part of rapid modeling tools can complete some basic model automatic construction, but for the whole model, software capable of completely automatically modeling does not exist in the existing industry.

Disclosure of Invention

The present invention is directed to overcoming the above-mentioned drawbacks of the prior art and providing a system, method, apparatus and storage medium for drawing an automatic modeling drawing based on AI.

The purpose of the invention can be realized by the following technical scheme:

an automatic modeling drawing system based on AI, the drawing system includes foreground operation module, background engine module and intercommunication module, among them:

the foreground operation module is used for matching a plurality of links of actual decoration design and generating a corresponding matching scheme data list after the matching is finished;

the background engine module is used for generating a three-dimensional BIM house type by combining a matching scheme data list finally generated by the foreground operation module with relevant software;

and the intercommunication module is used for adaptively loading the three-dimensional BIM house type matching algorithm generated by the background engine module into a BIM model in the Revit environment.

Further, the foreground operation module further comprises a scheme matching unit, a cost measuring and calculating unit, a scheme examining and approving unit, a data application unit, a hardcover management unit and a hardcover standard library, wherein:

the scheme matching unit is used for providing the existing standard matching scheme or newly-built new matching scheme;

the cost measuring and calculating unit is used for obtaining a corresponding cost measuring and calculating result aiming at the matching scheme determined in the scheme matching unit;

the scheme approval unit is used for the project manager to finally approve and confirm the final matching design scheme;

the data application unit is used for leading in or leading out other auxiliary data information required by a newly-built or existing matching scheme by a designer;

the hardcover management unit is used for importing or exporting hardcover management data information required by a new or existing matching scheme by a designer;

and the hardcover standard library is used for providing relevant information data required by basic matching of multiple links of the foreground operation module.

Further, the scheme matching unit comprises an innovation scheme sub-module and a standard scheme sub-module, wherein:

the innovation scheme submodule is used for creating a new matching scheme;

and the standard scheme submodule is used for providing the existing standard matching scheme.

Further, the cost measuring and calculating unit comprises a cost model submodule and a cost analysis submodule, wherein:

the cost model submodule is used for providing a cost model corresponding to the real-time matching scheme in the foreground operation module;

and the cost analysis submodule is used for carrying out cost calculation analysis corresponding to the real-time matching scheme in the foreground operation module according to the cost model selected by the cost model submodule.

Further, the hardbound standard library comprises a product standard library, a house type library, a hardbound module library, a part component library and a process construction method library, wherein:

the product standard library is used for providing product standard data required in the matching process of the foreground operation module;

the house type library is used for providing the house type data required in the process of the foreground operation module matching;

the hardcover module library is used for providing hardcover module data required in the process of matching the foreground operation module;

the part component library is used for providing part component data required in the matching process of the foreground operation module;

and the process engineering method library is used for providing the process engineering method data required in the matching process of the foreground operation module.

Further, the related software comprises Unity, 3DS MAX, ENSCAPE and v-ray for Revit; the plurality of links comprise a scheme information link, a family type information link, a space configuration link, a part configuration link, a fine installation equipment link and a soft installation link.

The invention also provides a modeling drawing method based on the automatic modeling drawing system based on the AI, which comprises the following steps:

step 1: selecting and matching a plurality of links of actual decoration design by using the foreground operation module in the drawing system, and generating a corresponding selection scheme data list after the selection is finished;

step 2: generating a three-dimensional BIM house type by utilizing the background engine module in the drawing system according to the matching scheme data list finally generated by the foreground operation module and combining with related software;

and step 3: the intercommunication module in the drawing system is used for adaptively loading the three-dimensional BIM house type matching algorithm generated by the background engine module into a BIM model in the Revit environment;

and 4, step 4: and (4) utilizing an automatic plug-in arranged in the Revit environment to get through the Revit related function to automatically generate a construction drawing corresponding to the BIM model and a related output result.

Further, the output results related to the step 4 include a bill of materials, a cost list, a panorama, a VR effect graph and a rendering effect graph.

The invention also provides terminal equipment which comprises a memory, a processor and a computer program which is stored in the memory and can run on the processor, wherein the processor realizes the steps of the modeling drawing method of the automatic modeling drawing system based on the AI when executing the computer program.

The present invention also provides a computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the modeling drawing method of an AI-based automatic modeling drawing system.

Compared with the prior art, the invention has the following advantages:

(1) the system of the invention comprises: the foreground operation module is used for matching a plurality of links of the actual decoration design and generating a corresponding matching scheme data list after the matching is finished; the background engine module is used for generating a three-dimensional BIM house type by combining relevant software according to the matching scheme data list finally generated by the foreground operation module; the intercommunication module is used for adaptively loading a three-dimensional BIM family type matching algorithm generated by the background engine module into a BIM model in a Revit environment, the design and production period can be greatly shortened by means of the functions of the intelligent automatic modeling and drawing system, all the work is finished manually at present, and from design decision, design draft to design production, all the links are finished by investing a large amount of manpower and time.

(2) In order to meet the requirements that marketing personnel or other non-professional personnel can complete the use of the product and the achievement construction of professional designers, the product must keep enough operational logic easy to use, wherein the 'menu type matching' item is most important. In the current hardbound market, most software is similar to the operation principle and the interface of cool family, three-dimensional family, Luban and other software which pursues professional design software, and the operation principle and the interface are the same as those of marketing, decision-making and other personnel that can not be used; the cost measuring and calculating unit is used for obtaining a corresponding cost measuring and calculating result aiming at the matching scheme determined in the scheme matching unit; the scheme approval unit is used for the project manager to finally approve and confirm the final selected design scheme; the data application unit is used for leading in or leading out other auxiliary data information required by a newly-built or existing matching scheme by a designer; the hardcover management unit is used for importing or exporting hardcover management data information required by a new or existing matching scheme by a designer; and the hardcover standard library is used for providing relevant information data required by basic matching of multiple links of the foreground operation module. The design method can meet the requirement that multiple personnel involved in the project participate in the design, match the design elements in a mode of selecting questions, and deliver the design options to a system for scheme construction, so that the indoor hardcover design can be simply and quickly completed.

Drawings

FIG. 1 is an overall architecture diagram of the system of the present invention;

FIG. 2 is a diagram of an application service scenario of the system of the present invention;

FIG. 3 is a schematic diagram of module matching in accordance with an embodiment of the present invention;

FIG. 4 is a schematic diagram of the BIM model automatic output according to an embodiment of the present invention;

FIG. 5 is a schematic diagram of the CAD drawing of the practical embodiment of the system of the present invention.

Detailed Description

The technical solutions in the embodiments of the present invention will be clearly and completely described below with reference to the drawings in the embodiments of the present invention, and it is obvious that the described embodiments are some, not all, embodiments of the present invention. All other embodiments, which can be obtained by a person skilled in the art without any inventive step based on the embodiments of the present invention, shall fall within the scope of protection of the present invention.

Examples

The invention focuses on automatic BIM model construction and automatic associated drawing output application, and in addition, an artificial intelligence technology is hopefully introduced, and based on design standards of enterprises, relevant information such as design requirements, design standardization modules, soft mounting and the like is matched, so that the improvement of an automatic modeling process is facilitated. In view of the above, it is necessary to build an algorithm around the related elements of the hardship standardization and the design standards of the enterprises according to the industrial characteristics.

The design principle of the invention is as follows:

1. integral step-by-step process

In order to meet the requirements of customers in the hardcover market, deep exploration is carried out, and a three-dimensional hardcover intelligent selection platform is developed by combining three-dimensional and related technologies, so that more intelligent automatic modeling, more professional construction drawing output and element matching with smaller granularity are expected to be carried out.

The project implementation plan is divided into three parts:

(1) algorithm based on hardcover specialty

Performing algorithm model construction, designing standard and design module matching algorithm around design standardization and house type related information

(2) Model automation construction based on BIM engine environment

Developing a related data engine, developing a BIM related interface, communicating data and BIM software (Revit), and completing automatic modeling

(3) Construction drawing production based on Revit software and Autodesk CAD software intercommunication technology

Based on Revit software characteristics, automatic plug-in unit for developing drawings is automatically output, and fine adjustment of parameters is allowed

2. Hardcover standardization algorithm

2.1 hardcover standardization Algorithm

A core algorithm is established by depending on a self-research wishdeco engine, a visual interface is established, and design standards can be configured in the background so as to meet the requirements of different enterprises on hardcover design. Building house type wall body self-adaptive rules, designing module self-adaptive rules and electromechanical pipeline self-adaptive rules based on offline data analysis results

2.2 Module alternatives

And under a two-dimensional environment, based on the hardback standardized elements, constructing a menu type alternative function module so as to allow designers to quickly finish the hardback design scheme. In the menu type alternative function module, the space is divided into a space and a ground wall around the hardback standardization, and a user is allowed to carry out the alternative, and after the alternative is finished, the space is quickly presented in a two-dimensional effect diagram mode, so that the user can confirm the design scheme.

2.3 interworking of data Revit

And based on the module replacement result, outputting the module replacement result to a wishdeco engine in a listing mode, outputting the module replacement result to Revit through an intercommunication component, and matching a design module family library on the basis of the result for calling an automatic modeling module.

2.4 BIM automatic modeling

And reading the two-dimensional house type drawing and automatically forming the three-dimensional BIM house type by depending on a self-developed wishdeco plug-in. On the basis, based on the intercommunication module, the interworking module is matched with a hardcover standardization algorithm, the relevant BIM model is loaded in a self-adaptive mode, the BIM model is formed, and the RVT format model is supported and output.

2.5 automatic output of Revit drawings

The method comprises the steps of building an automation plug-in based on Revit software, getting through Revit related functions, and completing drawing output based on a cloud under the condition of supporting automation.

As shown in fig. 1, the overall architecture diagram of the system of the present invention includes a foreground operation module, a background engine module and an interworking module, wherein:

the foreground operation module is used for matching a plurality of links of the actual decoration design and generating a corresponding matching scheme data list after the matching is finished;

the background engine module is used for generating a three-dimensional BIM house type by combining relevant software according to the matching scheme data list finally generated by the foreground operation module;

the relevant software comprises Unity, 3DS MAX, ENSCAPE and v-ray for Revit; the multiple links comprise a scheme information link, a family type information link, a space configuration link, a part configuration link, a hardcover equipment link and a soft assembly device link.

And the intercommunication module is used for adaptively loading the three-dimensional BIM house type matching algorithm generated by the background engine module into a BIM model in the Revit environment.

The foreground operation module also comprises a scheme matching unit, a cost measuring and calculating unit, a scheme examining and approving unit, a data application unit, a hardcover management unit and a hardcover standard library, wherein:

the scheme matching unit is used for providing the existing standard matching scheme or newly-built new matching scheme;

the cost measuring and calculating unit is used for obtaining a corresponding cost measuring and calculating result aiming at the matching scheme determined in the scheme matching unit;

the scheme approval unit is used for the project manager to finally approve and confirm the final selected design scheme;

the data application unit is used for leading in or leading out other auxiliary data information required by a newly-built or existing matching scheme by a designer;

the hardcover management unit is used for importing or exporting hardcover management data information required by a new or existing matching scheme by a designer;

and the hardcover standard library is used for providing relevant information data required by basic matching of multiple links of the foreground operation module.

The scheme matching unit comprises an innovation scheme submodule and a standard scheme submodule, wherein:

the innovation scheme submodule is used for creating a new matching scheme;

and the standard scheme submodule is used for providing the existing standard matching scheme.

The cost measuring and calculating unit comprises a cost model submodule and a cost analysis submodule, wherein:

the cost model submodule is used for providing a cost model corresponding to the real-time matching scheme in the foreground operation module;

and the cost analysis submodule is used for carrying out cost calculation analysis corresponding to the real-time matching scheme in the foreground operation module according to the cost model selected by the cost model submodule.

The hardback standard library comprises a product standard library, a house type library, a hardback module library, a part component library and a process construction method library, wherein:

the product standard library is used for providing product standard data required in the matching process of the foreground operation module;

the house type library is used for providing house type data required in the process of matching the foreground operation module;

the hardcover module library is used for providing hardcover module data required in the process of foreground operation module matching;

the part component library is used for providing part component data required in the matching process of the foreground operation module;

and the process engineering database is used for providing process engineering data required in the matching process of foreground operation modules.

Fig. 2 is a diagram showing an application service scenario of the system of the present invention.

The actual operation process of the system in the invention is as follows:

selecting and matching design modules: the house type is selected in the system, and the space, the parts, the hardcover equipment and the soft package configuration are clicked and replaced. And outputting the matching list to complete the design scheme, as shown in fig. 3.

And (3) automatically outputting the three-dimensional BIM model: as shown in fig. 4, based on the matching list, the wishdeco three-dimensional plug-in is associated, and the BIM model is automatically output and can be directly opened in Revit.

Automatically outputting a CAD drawing: as shown in fig. 5, based on the Revit model, the construction drawing is output by one key and can be directly opened in the CAD.

While the invention has been described with reference to specific embodiments, the invention is not limited thereto, and various equivalent modifications and substitutions can be easily made by those skilled in the art within the technical scope of the invention. Therefore, the protection scope of the present invention shall be subject to the protection scope of the claims.

Claims (10)

1. The automatic modeling drawing system based on AI is characterized by comprising a foreground operation module, a background engine module and an intercommunication module, wherein:

the foreground operation module is used for matching a plurality of links of actual decoration design and generating a corresponding matching scheme data list after the matching is finished;

the background engine module is used for generating a three-dimensional BIM house type by combining a matching scheme data list finally generated by the foreground operation module with relevant software;

and the intercommunication module is used for adaptively loading the three-dimensional BIM house type matching algorithm generated by the background engine module into a BIM model in the Revit environment.

2. The AI-based automatic modeling drawing rendering system of claim 1, wherein said foreground operating module further comprises a project matching unit, a cost calculating unit, a project approving unit, a data application unit, a hardcover management unit and a hardcover standard library, wherein:

the scheme matching unit is used for providing the existing standard matching scheme or newly-built new matching scheme;

the cost measuring and calculating unit is used for obtaining a corresponding cost measuring and calculating result aiming at the matching scheme determined in the scheme matching unit;

the scheme approval unit is used for the project manager to finally approve and confirm the final matching design scheme;

the data application unit is used for leading in or leading out other auxiliary data information required by a newly-built or existing matching scheme by a designer;

the hardcover management unit is used for importing or exporting hardcover management data information required by a new or existing matching scheme by a designer;

and the hardcover standard library is used for providing relevant information data required by basic matching of multiple links of the foreground operation module.

3. The AI-based automatic modeling drawing rendering system of claim 2, wherein said project matching unit includes an innovation project sub-module and a standard project sub-module, wherein:

the innovation scheme submodule is used for creating a new matching scheme;

and the standard scheme submodule is used for providing the existing standard matching scheme.

4. The AI-based automatic modeling drawing rendering system of claim 2, wherein said cost estimation unit includes a cost model submodule and a cost analysis submodule, wherein:

the cost model submodule is used for providing a cost model corresponding to the real-time matching scheme in the foreground operation module;

and the cost analysis submodule is used for carrying out cost calculation analysis corresponding to the real-time matching scheme in the foreground operation module according to the cost model selected by the cost model submodule.

5. The AI-based automatic modeling drawing system of claim 2, wherein the hardbound standard library comprises a product standard library, a house type library, a hardbound module library, a part library and a process engineering library, wherein:

the product standard library is used for providing product standard data required in the matching process of the foreground operation module;

the house type library is used for providing the house type data required in the process of the foreground operation module matching;

the hardcover module library is used for providing hardcover module data required in the process of matching the foreground operation module;

the part component library is used for providing part component data required in the matching process of the foreground operation module;

and the process engineering method library is used for providing the process engineering method data required in the matching process of the foreground operation module.

6. The AI-based automatic modeling drawing system of claim 1, wherein said associated software includes Unity, 3DS MAX, ENSCAPE and v-ray for review; the plurality of links comprise a scheme information link, a family type information link, a space configuration link, a part configuration link, a fine installation equipment link and a soft installation link.

7. A modeling drawing method based on the AI-based automatic modeling drawing system according to any one of claims 1 to 6, characterized by comprising the steps of:

step 1: selecting and matching a plurality of links of actual decoration design by using the foreground operation module in the drawing system, and generating a corresponding selection scheme data list after the selection is finished;

step 2: generating a three-dimensional BIM house type by utilizing the background engine module in the drawing system according to the matching scheme data list finally generated by the foreground operation module and combining with related software;

and step 3: the intercommunication module in the drawing system is used for adaptively loading the three-dimensional BIM house type matching algorithm generated by the background engine module into a BIM model in the Revit environment;

and 4, step 4: and (4) utilizing an automatic plug-in arranged in the Revit environment to get through the Revit related function to automatically generate a construction drawing corresponding to the BIM model and a related output result.

8. The modeling drawing method of an AI-based automatic modeling drawing system of claim 7, wherein the output results of step 4 include a bill of materials, a cost list, a panorama, a VR effect graph and a rendering effect graph.

9. A terminal device comprising a memory, a processor, and a computer program stored in the memory and executable on the processor, wherein the processor implements the steps of the modeling drawing method of an AI-based automatic modeling drawing system according to claim 7 when executing the computer program.

10. A computer-readable storage medium storing a computer program which, when executed by a processor, implements the steps of the modeling drawing method of an AI-based automatic modeling drawing system according to claim 7.

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