CN115423929B - BIM model equipment coding auditing method based on intelligent building operation system - Google Patents

Abstract

The invention discloses a BIM model equipment coding auditing method based on an intelligent building operation system, which comprises the following steps: creating a device large-class full-quantity table in an intelligent building operation system; creating a device code for each class of device class of the device class full scale; establishing naming rules of a plurality of equipment models in a BIM model of an intelligent building operation system based on the equipment large-class total quantity table to obtain equipment model names; formulating ArcPointCode coding rules of a plurality of equipment models to obtain ArcPointCode codes of the equipment models; creating a technical type parameter table of the equipment specification for each equipment class based on the equipment class total table; creating an equipment list for each equipment model in the BIM based on the equipment specification technical parameter table; and creating a BIM model equipment coding auditing plug-in the intelligent building operation system, and auditing the BIM model. The invention reduces the auditing threshold, improves auditing efficiency and reduces the data maintenance work of the model end.

Description

BIM model equipment coding auditing method based on intelligent building operation system

Technical Field

The invention relates to the field of building information model auditors, in particular to a BIM model equipment coding auditing method based on an intelligent building operation system.

Background

The building information model (Building Information Modeling, BIM) technology is used as an important tool for digital transformation in the engineering construction industry, and data of the whole life cycle of engineering projects are comprehensively integrated. The data related to the engineering project has the characteristics of huge volume, complex type, long data maintenance period and the like, and in the practical application process, how to simplify the data maintenance management work of the project process and improve the value of the data are all the problems.

Disclosure of Invention

According to the embodiment of the invention, a BIM model equipment coding auditing method based on an intelligent building operation system is provided, which is characterized by comprising the following steps:

creating a device large-class full-quantity table in an intelligent building operation system;

creating a device code for each class of device class of the device class full scale;

establishing naming rules of a plurality of equipment models in a BIM model of an intelligent building operation system based on the equipment large-class total quantity table to obtain equipment model names;

formulating ArcPointCode coding rules of a plurality of equipment models to obtain ArcPointCode codes of the equipment models;

creating a technical type parameter table of the equipment specification for each equipment class based on the equipment class total table;

creating an equipment list for each equipment model in the BIM based on the equipment specification technical parameter table;

and creating a BIM model equipment coding auditing plug-in the intelligent building operation system, and auditing the BIM model.

Further, the equipment large-class total table is sequentially summarized according to the hierarchical relation from 'professional' to 'equipment/pipeline system/tail end' to 'specific large-class equipment', and the equipment type supplement is supported according to the project condition.

Further, naming rules for a number of device models include:

the content of the device model name comprises the name of the device major class and the name of the device minor class;

the equipment model name adopts a combination mode of combining Chinese or English with characters and symbols.

Further, arcPointCode encoding rules for several device models include:

the equipment model ArcPointCode code consists of equipment codes, floor numbers and floor specification serial numbers;

the ArcPointCode coding of the equipment model adopts a combination mode of combining numbers, english and symbols.

Further, the contents of the device specification technical type parameter table include, but are not limited to: equipment coding information, power information, refrigerating capacity information, heating capacity information, working pressure information, lift information, flow information, water inlet temperature information, water outlet temperature information, heat transfer capacity information and noise information.

Further, the content of the device album includes: a device specification technical type parameter table, a device specification non-technical type parameter, and a device model ArcPointCode code corresponding to the device model.

Further, the content of the equipment specification non-technical parameters includes, but is not limited to: design number information, point number information, system information, associated point number information, associated device number information, monitoring area information, device alias information, device brand information, production/time of production information, installation unit information, installation date information, detection date information, vendor information, contact information, and contact phone information.

Further, the BIM model equipment coding auditing plug-in takes equipment large-class full scale, naming rules of a plurality of equipment models, equipment coding and ArcPointCode coding rules of a plurality of equipment models as checking standards.

Further, a BIM model device code auditing plug-in is established in the intelligent building operation system, and the BIM model is audited, comprising the following sub-steps:

the BIM model equipment code auditing plug-in analyzes and audits ArcPointCode codes in the equipment album, and judges the accuracy of the coding format;

BIM model equipment codes and examines basic information of the plug-in reading equipment model;

the BIM model equipment coding auditing plug-in checks the formats of the equipment model name, the ArcPointCode coding in the equipment album and the ArcPointCode coding of the equipment model based on the basic information of the equipment model;

the BIM model equipment code auditing plug-in checks the matching property of the first field of the equipment model name and the equipment code based on the basic information of the equipment model;

the BIM model equipment coding auditing plug-in checks the matching property of the equipment model ArcPointCode coding and the ArcPointCode coding in the equipment album based on the basic information of the equipment model;

and outputting an auditing result.

Further, the basic information of the device model includes: device model name, device model ArcPointCode code, and component ID of the device model.

According to the BIM model equipment coding auditing method based on the intelligent building operation system, provided by the embodiment of the invention, the auditing content of an auditing tool is simplified, clarified and embodied on the basis of the model delivery standard of the intelligent building operation system by taking digital-analog separation as a principle. On one hand, the automatic auditing of the plug-in is realized, the auditing efficiency is improved, and the auditing threshold is reduced; on the other hand, the data maintenance work of the model end is relieved by maintaining huge full life cycle data of engineering projects in a form of a table.

It is to be understood that both the foregoing general description and the following detailed description are exemplary and are intended to provide further explanation of the technology claimed.

Drawings

FIG. 1 is a flow chart of steps of a BIM model device code auditing method based on a smart building operating system according to an embodiment of the present invention;

fig. 2 is a flowchart of a sub-step of step S7 in fig. 1.

Detailed Description

The preferred embodiments of the present invention will be described in detail below with reference to the attached drawings, which further illustrate the present invention.

Firstly, a BIM model equipment coding auditing method based on an intelligent building operation system according to an embodiment of the invention is described with reference to fig. 1-2, and is used for coding auditing of a BIM model, and the application scene is wide.

As shown in fig. 1-2, the method for auditing the encoding of the BIM model device based on the intelligent building operation system according to the embodiment of the present invention includes the following steps:

in S1, as shown in fig. 1, a device-class full-quantity table is created in the intelligent building operation system, and the device-class full-quantity table includes all relevant devices and terminals such as heating, water supply, water drainage, strong and weak electricity, fire protection and the like.

Further, the equipment large-class total table is sequentially summarized according to the hierarchical relation from 'professional' to 'equipment/pipeline system/tail end' to 'specific large-class equipment', and the equipment type supplement is supported according to the project condition.

In S2, as shown in FIG. 1, a device code is created for each device class of the device class full scale, the device code adopts a combination form of numbers and symbols, the device code consists of a table code, a large class code and a medium class code, and individual devices are required to be refined into small class codes, and the reconstruction is further optimized on the basis of the classification mode of building information model classification and coding standard. The device code supports the supplementation of one type of device code without modifying the original integral device code when one type of device is supplemented.

In S3, as shown in fig. 1, naming rules of a plurality of device models in the BIM model of the intelligent building operating system are formulated based on the device large-class full-scale table, and device model names are obtained.

Further, naming rules for a number of device models include: the content of the device model name comprises the name of the device major class and the name of the device minor class; the device model name adopts a combination mode of combining Chinese or English with characters and symbols, such as: the cold water machine set-screw type and the heat exchanger-plate type are named in a mode of equipment category-equipment classification, and the mode is convenient for distinguishing the family files by the Revit components.

In S4, as shown in fig. 1, arcPointCode encoding rules of several device models are formulated to obtain ArcPointCode encoding of the device models.

Further, arcPointCode encoding rules for several device models include: the equipment model ArcPointCode code consists of equipment codes, floor numbers and floor specification serial numbers; the ArcPointCode coding of the equipment model adopts a combination mode of combining numbers, english and symbols, so that the uniqueness of the ArcPointCode coding of all model components in the BIM model is ensured, if 5 fan coils are shared by 2F in the engineering project model, the 5 equipment codes are as follows: 30-44.35.00.2F.001.001, 30-44.35.00.2F.001.002, 30-44.35.00.2F.001.003, 30-44.35.00.2F.001.004, 30-44.35.00.2F.001.005.

In S5, as shown in fig. 1, a device specification technical type parameter table is created for each class of device based on the device class full table.

Further, the device specification technical parameter table is different according to different parameter types of the device major category, and the content of the device specification technical parameter table includes but is not limited to: parameters such as equipment coding information, power information, refrigerating capacity information, heating capacity information, working pressure information, lift information, flow information, water inlet temperature information, water outlet temperature information, heat transfer capacity information, noise information and the like.

In S6, as shown in fig. 1, a device album is created for each device model within the BIM model based on the device specification technical parameter table.

Further, the content of the device album includes: the binding of the BIM equipment model and the equipment album is realized through the ArcPointCode coding of the equipment model, and the full life cycle data maintenance management can be realized through maintaining the equipment album in the BIM data maintenance stage.

Further, the content of the equipment specification non-technical parameters includes, but is not limited to: design number information, point number information, system information, associated point number information, associated device number information, monitoring area information, device alias information, device brand information, production/time of production information, installation unit information, installation date information, detection date information, vendor information, contact information, and contact phone information.

In S7, as shown in FIG. 1, in the intelligent building operation system, a BIM model equipment code auditing plug-in is created based on the C# language to audit the BIM model, and the code of the BIM model equipment code auditing plug-in takes the equipment code of each major class of the equipment major class full-quantity table and the naming rule of the equipment model as the bottom basis of the verification.

Further, a BIM model device code auditing plug-in is created in the intelligent building operation system to audit the BIM model, and the method comprises the following substeps.

In S71, as shown in fig. 2, the BIM model device code auditing plug-in parses and audits the ArcPointCode in the device album, and determines the accuracy of the coding format.

In S72, as shown in fig. 2, the BIM model device encodes basic information of the audit plug-in reading device model.

In S73, as shown in fig. 2, the BIM model device code auditing plug-in checks the device model name, the ArcPointCode code in the device album, and the format of the device model ArcPointCode based on the basic information of the device model.

In S74, as shown in fig. 2, the BIM model device code auditing plug-in checks, based on the basic information of the device model, the matching between the first field of the device model name and the device code, and the result type checked and output by the first field of the device model name and the corresponding device code includes, but is not limited to: the naming format is not satisfactory, the first field name is not matched with the equipment code, the equipment model name does not correspond to the equipment code, for example, the equipment code of a fresh air handling unit is 30-44.60.00, in the model, the ArcPointCode code of the equipment code is 30-43.30.00.3F.001.002, wherein 30-43.30.00 is not the new air handling unit code, the coding is wrong, in the same way, the model code of the equipment code is named as 'fresh air handling unit-vertical', the ArcPointCode code of the equipment code is 30-44.60.00.3F.001.001, and the equipment name mapped by 30-44.60.00 is consistent with the first field of the 'fresh air handling unit-vertical', and the coding is correct.

In S75, as shown in fig. 2, the BIM model device code auditing plug-in checks the matching of the device model ArcPointCode and the ArcPointCode in the device album based on the basic information of the device model, and the result types of the output of the matching check of the device model ArcPointCode and the ArcPointCode in the device album include, but are not limited to: format mismatch, character content mismatch, multiple items, and leakage.

In S76, as shown in fig. 2, an audit result is output, the audit result including: the coding format is incorrect, the equipment coding part in the ArcPointCode coding is not matched with the equipment name head field, and the audit plug-in unit can output txt.

Further, the basic information of the device model includes: device model name, device model ArcPointCode code, and component ID of the device model.

Furthermore, the BIM model device code auditing plug-in takes a device large-class full-scale table, naming rules of a plurality of device models, device codes and ArcPointCode coding rules of a plurality of device models as checking standards, and in the embodiment, the device large-class full-scale table, the device model naming rules, the device codes and the ArcPointCode coding rules of the device models are summarized into a BIM model delivery standard based on an intelligent building operation system, so that modeling basis is provided for building the BIM models.

Further, if the individual device is not found in the device large-class full-scale table, the device large-class full-scale table needs to be supplemented, new and unique device codes are given to the newly added device, and data updating iteration is performed at the background of the BIM model device code auditing plug-in.

In the above, the BIM model equipment coding auditing method based on the intelligent building operation system according to the embodiment of the invention is described with reference to fig. 1-2, and the auditing content of the auditing tool is simplified, clarified and embodied based on the model delivery standard of the intelligent building operation system on the principle of digital-analog separation. On one hand, the automatic auditing of the plug-in is realized, the auditing efficiency is improved, and the auditing threshold is reduced; on the other hand, the data maintenance work of the model end is relieved by maintaining huge full life cycle data of engineering projects in a form of a table.

It should be noted that in this specification the terms "comprises," "comprising," or any other variation thereof, are intended to cover a non-exclusive inclusion, such that a process, method, article, or apparatus that comprises a list of elements does not include only those elements but may include other elements not expressly listed or inherent to such process, method, article, or apparatus. Without further limitation, an element defined by the phrase "comprising … …" does not exclude the presence of other like elements in a process, method, article or apparatus that comprises the element.

While the present invention has been described in detail through the foregoing description of the preferred embodiment, it should be understood that the foregoing description is not to be considered as limiting the invention. Many modifications and substitutions of the present invention will become apparent to those of ordinary skill in the art upon reading the foregoing. Accordingly, the scope of the invention should be limited only by the attached claims.

Claims (9)

1. A BIM model equipment coding auditing method based on an intelligent building operation system is characterized by comprising the following steps:

creating a device large-class full-quantity table in an intelligent building operation system;

creating a device code for each class of device of the device class full scale;

establishing naming rules of a plurality of equipment models in a BIM model of the intelligent building operation system based on the equipment large-class total quantity table to obtain equipment model names;

establishing ArcPointCode coding rules of the plurality of equipment models to obtain ArcPointCode codes of the equipment models;

creating a technical parameter table of equipment specification for each equipment class based on the equipment class total table;

creating an equipment album for each equipment model in the BIM based on the equipment specification technical parameter table;

creating a BIM model equipment coding auditing plug-in an intelligent building operation system, and auditing the BIM model;

the BIM model equipment coding auditing plug-in is established in the intelligent building operation system, and the BIM model is audited, and the method comprises the following substeps:

the BIM model equipment code auditing plug-in analyzes and audits the ArcPointCode codes in the equipment album and judges the accuracy of the coding format;

the BIM model equipment coding auditing plug-in reads basic information of the equipment model;

the BIM model equipment coding auditing plug-in checks the equipment model name, the ArcPointCode coding in the equipment album and the format of the equipment model ArcPointCode coding based on the basic information of the equipment model;

the BIM model equipment code auditing plug-in checks the matching property of the first field of the equipment model name and the equipment code based on the basic information of the equipment model;

the BIM model equipment code auditing plug-in checks the matching property of the equipment model ArcPointCode code and the ArcPointCode code in the equipment album based on the basic information of the equipment model;

and outputting an auditing result.

2. The BIM model equipment coding auditing method based on the intelligent building operation system according to claim 1, wherein the equipment large-class full-quantity table is sequentially summarized according to the hierarchical relation from 'professional' to 'equipment/pipeline system/tail end' to 'specific large-class equipment', and the supplementation of equipment types according to project conditions is supported.

3. The smart building operating system-based BIM model device code auditing method of claim 1, in which naming rules of the plurality of device models include:

the content of the equipment model name comprises the name of the equipment major class and the name of the equipment minor class;

the equipment model name adopts a combination mode of combining Chinese or English with characters and symbols.

4. The BIM model equipment coding auditing method based on the intelligent building operation system according to claim 1, wherein the ArcPointCode coding rules of the plurality of equipment models comprise:

the equipment model ArcPointCode code consists of the equipment code, a floor number, a building number and a floor specification serial number;

the ArcPointCode coding of the equipment model adopts a combination mode of combining numbers, english and symbols.

5. The method for auditing the BIM model equipment codes based on the intelligent building operation system according to claim 1, wherein the content of the equipment specification technical parameter table comprises but is not limited to: equipment coding information, power information, refrigerating capacity information, heating capacity information, working pressure information, lift information, flow information, water inlet temperature information, water outlet temperature information, heat transfer capacity information and noise information.

6. The method for auditing the encoding of a BIM model device based on an intelligent building operating system according to claim 1, wherein the content of the device album comprises: the equipment specification technical type parameter table, the equipment specification non-technical type parameters and the equipment model ArcPointCode codes corresponding to the equipment model.

7. The method for auditing the BIM model equipment codes based on the intelligent building operation system according to claim 6, wherein the content of the equipment specification non-technical parameters comprises but is not limited to: design number information, point number information, system information, associated point number information, associated device number information, monitoring area information, device alias information, device brand information, production/time of production information, installation unit information, installation date information, detection date information, vendor information, contact information, and contact phone information.

8. The method for checking and encoding BIM model equipment based on intelligent building operation system according to claim 1, wherein the BIM model equipment code checking plug-in takes the equipment large-class total table, naming rules of the plurality of equipment models, arcPointCode encoding rules of the equipment codes and the plurality of equipment models as checking standards.

9. The smart building operating system-based BIM model equipment code auditing method as claimed in claim 1, wherein the basic information of the equipment model comprises: the device model name, the device model ArcPointCode code, and the component ID of the device model.