CN117272493B - Automatic updating method and system for building function and structural load - Google Patents
Automatic updating method and system for building function and structural load Download PDFInfo
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- G06F30/00—Computer-aided design [CAD]
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- G06F30/13—Architectural design, e.g. computer-aided architectural design [CAAD] related to design of buildings, bridges, landscapes, production plants or roads
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Abstract
The invention discloses a method and a system for automatically updating building functions and structural loads, wherein building function load databases are established according to building structure specifications, corresponding relations between building functions and structural loads are carded according to the building structure specifications, a rule engine algorithm of a BIM model and the building function load databases is established, when a designer adjusts the building functions in the BIM model, the rule engine algorithm automatically matches corresponding structural loads according to the adjusted building functions, the matched structural loads are updated into a structural calculation model for calculation, structural analysis results are obtained, and finally the structural analysis results are fed back to the BIM model for display, so that the automatic updating of the building functions and the structural loads is realized.
Description
Technical Field
The invention relates to the technical field of building models, in particular to a method and a system for automatically updating building functions and structural loads.
Background
In recent years, the rapid development of emerging technologies such as big data, artificial intelligence, internet of things and blockchain has promoted digital economic explosion, digital transformation has become an important development direction, however, the digital transformation in the building industry is still in a difficult stage, the digital transformation in the building industry is mainly in popularization and application of BIM technology, in order to greatly popularize BIM technology, a plurality of leading policy files are continuously sent out, BIM technology has been developed, but a plurality of problems to be solved still exist, for example, in engineering design, building functions can be adjusted at any time, so that structural designers need to adjust structural loads in a structural calculation model according to changes of the building functions, and the design mode often causes problems such as data errors and information loss.
Disclosure of Invention
In view of this, the present invention provides a method and a system for automatically updating building functions and structural loads, which can solve the defect that a structural designer needs to adjust structural loads in a structural calculation model according to changes of building functions in the prior art.
The technical scheme of the invention is realized as follows:
the automatic updating method for building functions and structural loads specifically comprises the following steps:
acquiring building structure specifications, and carding the corresponding relation between building functions and structural loads according to the building structure specifications;
building a building function load database according to the corresponding relation between building functions and structural loads;
constructing a rule engine algorithm of a BIM model and a building function load database;
acquiring the building functions after the change in the BIM;
according to the changed building functions and the rule engine algorithm, matching corresponding structural loads from a building function load database;
updating the matched structural load into a structural calculation model for calculation to obtain a structural analysis result;
and feeding back the structure analysis result to the BIM model for display, so that the automatic update of building functions and structural loads is realized.
As a further alternative of the method for automatically updating building functions and structural loads, the building function load database is built according to the corresponding relationship between building functions and structural loads, and specifically includes:
creating a corresponding relation data table, and storing building function information and structural load information;
allocating a unique identification ID for each building function, and establishing association between the unique identification ID and the structural load in a corresponding relation data table;
and constructing an interface of the corresponding relation data table and the BIM model, thereby realizing the establishment of the building function load database.
As a further alternative of the method for automatically updating building functions and structural loads, the rule engine algorithm for constructing the BIM model and the building function load database specifically includes:
defining a rule engine corresponding to each type of building function in the BIM;
and establishing an execution mode of the rule engine and the building function load database, thereby constructing a rule engine algorithm of the BIM model and the building function load database.
As a further alternative to the method for automatically updating building functions and structural loads, the BIM model is connected to the structural computing model using a Revit API interface.
An automatic building function and structural load update system comprising:
the first acquisition module is used for acquiring building structure specifications and carding the corresponding relation between building functions and structural loads according to the building structure specifications;
the first building module is used for building a building function load database according to the corresponding relation between the building function and the structural load;
the building module is used for building a rule engine algorithm of the BIM model and the building function load database;
the second acquisition module is used for acquiring the building functions after the change in the BIM;
the matching module is used for matching corresponding structural loads from the building function load database according to the changed building functions and the rule engine algorithm;
the updating module is used for updating the matched structural load to the structural calculation model for calculation to obtain a structural analysis result;
and the display module is used for feeding back the structure analysis result to the BIM model for display, thereby realizing automatic updating of building functions and structure loads.
As a further alternative of the building function and structural load automatic update system, the first building module includes:
the building module is used for building a corresponding relation data table and storing building function information and structural load information;
the distribution module is used for distributing unique identification ID for each building function and establishing association between the unique identification ID and the structural load in the corresponding relation data table;
the setting module is used for constructing an interface of the corresponding relation data table and the BIM model, so that building of the building function load database is realized.
As a further alternative to the building function and structural load automatic update system, the matching module includes:
the definition module is used for defining rule engines corresponding to each type of building functions in the BIM;
and the second building module is used for building the execution mode of the rule engine and the building function load database so as to build a rule engine algorithm of the BIM model and the building function load database.
As a further alternative to the building function and structural load automatic update system, the BIM model is connected to the structural computing model using a Revit API interface.
A computing device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of any one of the building functions and the automatic update method of structural loads described above when the computer program is executed.
A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of any one of the building functions and the method for automatically updating structural loads described above.
The beneficial effects of the invention are as follows: by acquiring building structure specifications, carding corresponding relation between building functions and structural loads according to the building structure specifications, building a building function load database according to the corresponding relation between building functions and structural loads, building a rule engine algorithm of a BIM model and the building function load database, when a designer adjusts the building functions in the BIM model, automatically matching the corresponding structural loads according to the adjusted building functions, updating the matched structural loads into a structural calculation model to calculate, obtaining a structural analysis result, and finally feeding the structural analysis result back into the BIM model to display, thereby realizing automatic update of the building functions and the structural loads, effectively avoiding the problems that the structural calculation model is not timely modified or is not modified in place after the building functions of the BIM model are adjusted, causing structural safety and the like, improving modeling efficiency, and avoiding the problems of structural safety and the like caused by calculation errors and information loss.
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 flow chart of a method for automatically updating building functions and structural loads according to the present invention;
fig. 2 is a schematic diagram of the construction function and structural load automatic updating system according to the present invention.
Detailed Description
The following description of the technical solutions in the embodiments of the present invention will be clear and complete, and it is obvious that the described embodiments are only some embodiments of the present invention, but 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. 1-2, a method for automatically updating building functions and structural loads specifically includes:
acquiring building structure specifications, and carding the corresponding relation between building functions and structural loads according to the building structure specifications;
building a building function load database according to the corresponding relation between building functions and structural loads;
constructing a rule engine algorithm of a BIM model and a building function load database;
acquiring the building functions after the change in the BIM;
according to the changed building functions and the rule engine algorithm, matching corresponding structural loads from a building function load database;
updating the matched structural load into a structural calculation model for calculation to obtain a structural analysis result;
and feeding back the structure analysis result to the BIM model for display, so that the automatic update of building functions and structural loads is realized.
In this embodiment, by acquiring building structure specifications, carding the corresponding relationship between building functions and structural loads according to the building structure specifications, building a building function load database according to the corresponding relationship between building functions and structural loads, and building a rule engine algorithm of a BIM model and the building function load database, when a designer adjusts building functions in the BIM model, the rule engine algorithm automatically matches corresponding structural loads according to the adjusted building functions, updates the matched structural loads into a structural calculation model to calculate, and finally feeds back the structural analysis result to the BIM model to display, thereby realizing automatic update of building functions and structural loads, effectively avoiding the problems of incorrect or incomplete modification of structural loads after the building functions of the BIM model are adjusted, causing structural safety and the like, improving modeling efficiency, and avoiding the problems of structural safety and the like caused by calculation errors due to data errors and information loss.
It should be noted that, obtaining building structure specifications, and carding the corresponding relationship between building functions and structural loads according to the building structure specifications specifically comprises: and according to building structure load standard and building function attribute, carding the relation between the building function and the structure load, and ensuring the accuracy and the comprehensiveness of the building function and the structure load data.
Preferably, the building function load database is built according to the corresponding relation between building functions and structural loads, and specifically includes:
creating a corresponding relation data table, and storing building function information and structural load information;
allocating a unique identification ID for each building function, and establishing association between the unique identification ID and the structural load in a corresponding relation data table;
and constructing an interface of the corresponding relation data table and the BIM model, thereby realizing the establishment of the building function load database.
In this embodiment, a building function load database is designed, a corresponding relation data table is created in the database, building function information and structure load information are stored, relevant fields such as function types, load types, standard values, combined value coefficients, frequent value coefficients, quasi-permanent value coefficients and the like are added, relevant information is stored, a corresponding relation between building functions and structure loads is created in the database, unique identification IDs are allocated to each building function, association is created in the corresponding relation data table by using the unique identification IDs, building functions and structure load data are initialized, and the tidied building functions and load data are imported into corresponding tables of the database, so that consistency and accuracy of the data are ensured.
Preferably, the rule engine algorithm for constructing the BIM model and the building function load database specifically comprises the following steps:
defining a rule engine corresponding to each type of building function in the BIM;
and establishing an execution mode of the rule engine and the building function load database, thereby constructing a rule engine algorithm of the BIM model and the building function load database.
In this embodiment, a rules engine is defined: according to the corresponding relation between the building functions and the structural load data, defining the association relation between each type of building functions and the corresponding structural load;
loading a rule engine: creating an instance of a rule engine using a rule engine library (NRules), loading the rules defined in the previous step in the rule engine;
definition data: defining building function data in a program for rule matching;
executing a rule engine: providing the defined data to a rules engine for execution;
rule matching: the rule engine finds structural load data corresponding to the building function according to the input data and rule definition;
processing a matching result: according to the matching result of the rule engine, associating the structural load data with the building function;
automatic association: when the building function changes, the rule engine algorithm automatically matches the building function with the structural load data.
Preferably, the BIM model is connected with the structural calculation model by adopting a Revit API interface.
In this embodiment, a connection is established between the Revit API interface and the structural calculation software YJK, so that data in the BIM model is ensured to be converted into a format required by the structural calculation software, and in addition, serialization, transmission and analysis of the data are completed through the Revit API interface, so that one-key update of the data between the BIM model and the structural calculation model is realized; when a designer adjusts a building function in a BIM model, a one-key updating function is automatically triggered, the BIM model automatically acquires corresponding structural load data according to the changed function and transmits the corresponding structural load data to a structural calculation model YJK, structural analysis and calculation are performed in the structural calculation model YJK according to the transmitted structural load information, the structural calculation software YJK comprises stress, deformation and the like of a component, after the structural calculation software YJK completes analysis and calculation, a calculation result is transmitted back to the BIM model to be displayed by calling a Revit API interface, in the BIM model, the matched structural load information is automatically related to a corresponding component or partition according to the special room range of the BIM model building, and in the BIM model, the calculation result is visually displayed, so that the designer can visually check the structural analysis result in the BIM environment.
An automatic building function and structural load update system comprising:
the first acquisition module is used for acquiring building structure specifications and carding the corresponding relation between building functions and structural loads according to the building structure specifications;
the first building module is used for building a building function load database according to the corresponding relation between the building function and the structural load;
the building module is used for building a rule engine algorithm of the BIM model and the building function load database;
the second acquisition module is used for acquiring the building functions after the change in the BIM;
the matching module is used for matching corresponding structural loads from the building function load database according to the changed building functions and the rule engine algorithm;
the updating module is used for updating the matched structural load to the structural calculation model for calculation to obtain a structural analysis result;
and the display module is used for feeding back the structure analysis result to the BIM model for display, thereby realizing automatic updating of building functions and structure loads.
In this embodiment, by acquiring building structure specifications, carding the corresponding relationship between building functions and structural loads according to the building structure specifications, building a building function load database according to the corresponding relationship between building functions and structural loads, and building a rule engine algorithm of a BIM model and the building function load database, when a designer adjusts building functions in the BIM model, the rule engine algorithm automatically matches corresponding structural loads according to the adjusted building functions, updates the matched structural loads into a structural calculation model for calculation, obtains a structural analysis result, and finally feeds back the structural analysis result to the BIM model for display, thereby realizing automatic update of the building functions and the structural loads and effectively avoiding the occurrence of data errors and information loss.
It should be noted that, obtaining building structure specifications, and carding the corresponding relationship between building functions and structural loads according to the building structure specifications specifically comprises: and according to building structure load standard and building function attribute, carding the relation between the building function and the structure load, and ensuring the accuracy and the comprehensiveness of the building function and the structure load data.
Preferably, the first establishing module includes:
the building module is used for building a corresponding relation data table and storing building function information and structural load information;
the distribution module is used for distributing unique identification ID for each building function and establishing association between the unique identification ID and the structural load in the corresponding relation data table;
the setting module is used for constructing an interface of the corresponding relation data table and the BIM model, so that building of the building function load database is realized.
In this embodiment, a building function load database is designed, a corresponding relation data table is created in the database, building function information and structure load information are stored, relevant fields such as function types, load types, standard values, combined value coefficients, frequent value coefficients, quasi-permanent value coefficients and the like are added, relevant information is stored, a corresponding relation between building functions and structure loads is created in the database, unique identification IDs are allocated to each building function, association is created in the corresponding relation data table by using the unique identification IDs, building functions and structure load data are initialized, and the tidied building functions and load data are imported into corresponding tables of the database, so that consistency and accuracy of the data are ensured.
Preferably, the matching module includes:
the definition module is used for defining rule engines corresponding to each type of building functions in the BIM;
and the second building module is used for building the execution mode of the rule engine and the building function load database so as to build a rule engine algorithm of the BIM model and the building function load database.
In this embodiment, a rules engine is defined: according to the corresponding relation between the building functions and the structural load data, defining the association relation between each type of building functions and the corresponding structural load;
loading a rule engine: creating an instance of a rule engine using a rule engine library (NRules), loading the rules defined in the previous step in the rule engine;
definition data: defining building function data in a program for rule matching;
executing a rule engine: providing the defined data to a rules engine for execution;
rule matching: the rule engine finds structural load data corresponding to the building function according to the input data and rule definition;
processing a matching result: according to the matching result of the rule engine, associating the structural load data with the building function;
automatic association: when the building function changes, the rule engine algorithm automatically matches the building function with the structural load data.
Preferably, the BIM model is connected with the structural calculation model by adopting a Revit API interface.
In this embodiment, a connection is established between the Revit API interface and the structural calculation software YJK, so that data in the BIM model is ensured to be converted into a format required by the structural calculation software, and in addition, serialization, transmission and analysis of the data are completed through the Revit API interface, so that one-key update of the data between the BIM model and the structural calculation model is realized; when a designer adjusts a building function in a BIM model, a one-key updating function is automatically triggered, the BIM model automatically acquires corresponding structural load data according to the changed function and transmits the corresponding structural load data to a structural calculation model YJK, structural analysis and calculation are performed in the structural calculation model YJK according to the transmitted structural load information, the structural calculation software YJK comprises stress, deformation and the like of a component, after the structural calculation software YJK completes analysis and calculation, a calculation result is transmitted back to the BIM model to be displayed by calling a Revit API interface, in the BIM model, the matched structural load information is automatically related to a corresponding component or partition according to the special room range of the BIM model building, and in the BIM model, the calculation result is visually displayed, so that the designer can visually check the structural analysis result in the BIM environment.
A computing device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of any one of the building functions and the automatic update method of structural loads described above when the computer program is executed.
A computer readable storage medium having stored thereon a computer program which when executed by a processor performs the steps of any one of the building functions and the method for automatically updating structural loads described above.
The foregoing description of the preferred embodiments of the invention is not intended to be limiting, but rather is intended to cover all modifications, equivalents, alternatives, and improvements that fall within the spirit and scope of the invention.
Claims (10)
1. The automatic updating method for building functions and structural loads is characterized by comprising the following steps:
acquiring building structure specifications, and carding the corresponding relation between building functions and structural loads according to the building structure specifications;
building a building function load database according to the corresponding relation between building functions and structural loads;
constructing a rule engine algorithm of a BIM model and a building function load database;
acquiring the building functions after the change in the BIM;
according to the changed building functions and the rule engine algorithm, matching corresponding structural loads from a building function load database;
updating the matched structural load into a structural calculation model for calculation to obtain a structural analysis result;
and feeding back the structure analysis result to the BIM model for display, so that the automatic update of building functions and structural loads is realized.
2. The method for automatically updating building functions and structural loads according to claim 1, wherein building a building function load database according to the corresponding relation between building functions and structural loads comprises the following steps:
creating a corresponding relation data table, and storing building function information and structural load information;
allocating a unique identification ID for each building function, and establishing association between the unique identification ID and the structural load in a corresponding relation data table;
and constructing an interface of the corresponding relation data table and the BIM model, thereby realizing the establishment of the building function load database.
3. The method for automatically updating building functions and structural loads according to claim 2, wherein the rule engine algorithm for constructing the BIM model and building functions load database specifically comprises:
defining a rule engine corresponding to each type of building function in the BIM;
and establishing an execution mode of the rule engine and the building function load database, thereby constructing a rule engine algorithm of the BIM model and the building function load database.
4. A method for automatically updating building functions and structural loads according to claim 3, wherein said BIM model is connected to said structural calculation model using a Revit API interface.
5. An automatic building function and structural load update system, comprising:
the first acquisition module is used for acquiring building structure specifications and carding the corresponding relation between building functions and structural loads according to the building structure specifications;
the first building module is used for building a building function load database according to the corresponding relation between the building function and the structural load;
the building module is used for building a rule engine algorithm of the BIM model and the building function load database;
the second acquisition module is used for acquiring the building functions after the change in the BIM;
the matching module is used for matching corresponding structural loads from the building function load database according to the changed building functions and the rule engine algorithm;
the updating module is used for updating the matched structural load to the structural calculation model for calculation to obtain a structural analysis result;
and the display module is used for feeding back the structure analysis result to the BIM model for display, thereby realizing automatic updating of building functions and structure loads.
6. The system for automatically updating building functions and structural loads according to claim 5, wherein said first building module comprises:
the building module is used for building a corresponding relation data table and storing building function information and structural load information;
the distribution module is used for distributing unique identification ID for each building function and establishing association between the unique identification ID and the structural load in the corresponding relation data table;
the setting module is used for constructing an interface of the corresponding relation data table and the BIM model, so that building of the building function load database is realized.
7. The system for automatically updating building functions and structural loads according to claim 6, wherein said matching module comprises:
the definition module is used for defining rule engines corresponding to each type of building functions in the BIM;
and the second building module is used for building the execution mode of the rule engine and the building function load database so as to build a rule engine algorithm of the BIM model and the building function load database.
8. The system of claim 7, wherein the BIM model is connected to the structural computing model using a Revit API interface.
9. A computing device comprising a memory, a processor and a computer program stored in the memory and executable on the processor, the processor implementing the steps of the building function and structural load automatic update method of any one of claims 1-4 when the computer program is executed.
10. A computer readable storage medium, characterized in that the storage medium has stored thereon a computer program which, when executed by a processor, implements the steps of the building function and structure load automatic updating method according to any of claims 1-4.
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CN104484494A (en) * | 2014-11-05 | 2015-04-01 | 福建省建筑设计研究院 | Structure computerizing automatic load transmission method based on building information model (BIM) |
CN110807215A (en) * | 2019-09-25 | 2020-02-18 | 北京凯盛建材工程有限公司 | Method and system for rapidly determining building model based on BIM |
CN115293751A (en) * | 2022-10-08 | 2022-11-04 | 深圳市地铁集团有限公司 | Method, system and equipment for processing BIM model data of rail transit |
CN115427990A (en) * | 2020-04-30 | 2022-12-02 | 赫克斯冈技术中心 | System for mapping models, costs and schedules of large-scale infrastructure projects |
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US20100070241A1 (en) * | 2006-07-07 | 2010-03-18 | Selvaag Bluethink As | Computer-based method for automated modelling and design of buildings |
US20230297911A1 (en) * | 2022-03-15 | 2023-09-21 | Lemos, Llc | Automated construction materials management platform |
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CN104484494A (en) * | 2014-11-05 | 2015-04-01 | 福建省建筑设计研究院 | Structure computerizing automatic load transmission method based on building information model (BIM) |
CN110807215A (en) * | 2019-09-25 | 2020-02-18 | 北京凯盛建材工程有限公司 | Method and system for rapidly determining building model based on BIM |
CN115427990A (en) * | 2020-04-30 | 2022-12-02 | 赫克斯冈技术中心 | System for mapping models, costs and schedules of large-scale infrastructure projects |
CN115293751A (en) * | 2022-10-08 | 2022-11-04 | 深圳市地铁集团有限公司 | Method, system and equipment for processing BIM model data of rail transit |
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