CN110543530A - Method for realizing rapid coding of pumped storage power station model component by utilizing Dynamo - Google Patents

Abstract

The invention relates to a method for realizing rapid coding of a pumped storage power station model component by utilizing Dynamo, which is characterized in that the power station model component is split by adopting a surface division method; establishing a coding rule according to a design party, a construction party and an operation and maintenance party; establishing an excel model component rapid coding database; compiling Dynamo program code; and creating a running file based on Revit, and running the Dynamo file to realize automatic coding of the component. The invention can be repeatedly used for many times on the basis of once establishing the coding database, and meanwhile, automatic component coding is realized by utilizing Dynamo, thereby improving the coding efficiency.

Description

Method for realizing rapid coding of pumped storage power station model component by utilizing Dynamo

Technical Field

The invention relates to the technical field of pumped storage power station information models, in particular to a method for realizing rapid coding of pumped storage power station model components by utilizing Dynamo.

Background

with the rapid popularization of Building Information Model (BIM) technology in the field of pumped storage power station construction, the application of the BIM technology also gradually deepens from a planning and designing stage to an operation and maintenance management stage. At present, the largest problem in the combination of the building information model and informatization and intellectualization is the coding problem of the BIM model component. The existing Revit coding system is lack of a coding system which is oriented to the characteristics of pumped storage power stations and considers the information and intelligent application of the whole life cycle. Meanwhile, an automatic coding tool for rapidly coding information model components of the pumped storage power station is lacked, a large amount of repeated work is caused, and the accuracy and the uniqueness of the coding are difficult to ensure.

disclosure of Invention

The invention aims to solve the defects and shortcomings in the prior art, and provides a method for realizing rapid coding of model components of a pumped storage power station by utilizing Dynamo, which aims at the characteristics of the pumped storage power station, considers the full life cycle informatization and intelligent application of the pumped storage power station, realizes an automatic component rapid coding tool based on Revit by utilizing the Dynamo based on the coding system, meets the national and industrial standards, repeatedly considers the coding of the pumped storage power station and the combination of informatization and intelligent application, simplifies the rapid coding process of the model components, and improves the coding efficiency.

The technical scheme adopted by the invention is as follows: a method for realizing rapid coding of pumped storage power station model components by utilizing Dynamo comprises the following steps:

The method comprises the following steps: the coding system of the face division method pumped storage power station comprises the following steps:

Splitting the model component of the pumped storage power station according to a surface division method, and constructing a classification coding table;

Step two: establishing an integrated coding principle oriented to engineering project design, construction and operation and maintenance:

Establishing a one-to-one corresponding coding principle according to the requirements of digital and informatization application of the digital intelligent power station project in the whole life cycle;

Step three: building a component quick coding database:

Establishing an excel model component fast coding database according to a coding system;

Step four: dynamo programming code:

And calling a coding system database, reading data in a corresponding table through a data interface of Dynamo and Excel, analyzing and processing the data, and establishing a mapping relation between the standard keywords and the coding database. Creating project parameters, writing the keyword attributes into the project parameters, and establishing the quick component coding according to the coding rule.

Step five: creating a running file based on Revit:

And selecting a Dynamo file corresponding to the encoding rule, selecting a component needing encoding in the Revit project, and operating Dynamo nodes to realize rapid encoding of the component.

Preferably, in the step one, according to the characteristics of the pumped storage power station, the life cycle of the pumped storage power station project is established, the pumped storage power station project is suitable for design, construction, equipment manufacturing and intelligent operation of the built, under construction and newly built pumped storage power station project, and the method comprises the steps of dividing buildings according to functions, dividing buildings according to forms, dividing building spaces according to functions, dividing building spaces according to forms, elements, work results, behaviors, professional fields, organizational roles, tools, information, materials, properties, engineering characteristics of the pumped storage power station, engineering systems of the pumped storage power station, electromechanical systems of the pumped storage power station, engineering documents of the pumped storage power station, engineering stages of the pumped storage power station, engineering components of the pumped storage power station, surveying and geology, engineering roles of the pumped storage power station, engineering products of the pumped storage power station, construction equipment of the pumped storage power, The method comprises the following steps of pumped storage power station name coding, pumped storage power station project division, pumped storage power station entity ID, pumped storage power station equipment coding, pumped storage power station project coding, pumped storage power station WBS coding, pumped storage power station material coding and pumped storage power station asset coding, wherein 31 dimensions are used for establishing a coding system according to a surface division method.

Preferably, in the second step, a coding rule based on a face-to-face coding system is established according to the pumped storage power station project full life cycle digitization and informatization construction requirements and application scenes, and a design side combines a civil engineering project component code according to project name coding, professional field coding, engineering stage coding, building function coding, building form coding, engineering document classification coding, component quick coding, personnel role coding, personnel coding, system date identification code, component elevation identification code and component flow code to form a design side civil engineering project component code. The electromechanical major of a designer sets coding rules according to project name coding, field coding, project stage coding, project system classification and coding, electromechanical system classification and coding, building space classification and coding, project document classification coding, KKS coding, personnel role coding, personnel coding, system date identification codes, component elevation identification codes and component flow codes, and the constructor sets coding rules according to project name, field, project stage, building function space, project system classification, project item classification, construction equipment, component speed, personnel role, personnel, system date identification codes and component flow codes; the operation and maintenance party can set the coding rules according to project names, professional fields, engineering stages, building functions, building spaces, engineering document classification, component rapidness, personnel roles, personnel, system dates, real-time data and component pipelining.

Preferably, in step three, in order to ensure the uniqueness of the quick coding of the building block, the building block is introduced to create an artificial special mark field.

Preferably, in the fourth step, a mapping relation from Excel coding keywords to component quick codes is established through Dynamo nodes, and codes corresponding to shutdown words are extracted; in order to ensure the code uniqueness of the quick code of the component in different Revit project files, a creator, a system date and a system running code are introduced, wherein the system running code is an expansion mark field; and combining the extracted codes in sequence according to the coding principle in the step two and writing the combined codes into the component item parameters.

Preferably, in step five, a component function of screening by category is provided, so that the coding is convenient and fast.

The invention has the following advantages: 1. aiming at the characteristics of pumped storage power station project design, construction, operation and maintenance full life cycle, and combining informatization and intelligent application requirements, a coding system is established by a surface division method; 2. establishing a coding rule aiming at the characteristics of three stages of design, construction and operation and maintenance, and ensuring the compliance, uniqueness and effectiveness of quick coding of the component; 3. an Excel coding database is established, and the method is simple to adjust and beneficial to popularization, application and expansion; 4. a Revit component attribute identification field is added to ensure the accuracy of a coding system; 5. by attribute field coding, the standardized collection of building information model information and retrieval statistics of an information system are facilitated; 6. an automatic coding program is established through Dynamo, so that the coding efficiency and accuracy are improved; 7. based on Revit software coding, quick coding of different software platform components is realized through IFC.

Drawings

FIG. 1 is a schematic flow diagram of the present invention;

FIG. 2 is a diagram of the coding architecture of the present invention;

fig. 3-6 are Dynamo node framework diagrams of the present invention;

fig. 7-12 are diagrams of application examples of the present invention.

Detailed Description

the present invention will be described in further detail with reference to the following drawings and examples, but the scope of the present invention is not limited thereto.

As shown in fig. 1, a method for implementing rapid coding of model components of a pumped storage power station by using Dynamo includes the following steps:

the method comprises the following steps: the coding system of the face division method pumped storage power station comprises the following steps:

Splitting the model component of the pumped storage power station according to a surface division method, and constructing a classification coding table;

step two: establishing an integrated coding principle oriented to engineering project design, construction and operation and maintenance:

Establishing a one-to-one corresponding coding principle according to the requirements of digital and informatization application of the digital intelligent power station project in the whole life cycle;

step three: building a component quick coding database:

Establishing an excel model component fast coding database according to a coding system;

Step four: dynamo programming code:

And calling a coding system database, reading data in a corresponding table through a data interface of Dynamo and Excel, analyzing and processing the data, and establishing a mapping relation between the standard keywords and the coding database. Creating project parameters, writing the keyword attributes into the project parameters, and establishing the quick component coding according to the coding rule.

Step five: creating a running file based on Revit:

And selecting a Dynamo file corresponding to the encoding rule, selecting a component needing encoding in the Revit project, and operating Dynamo nodes to realize rapid encoding of the component.

in the first step, according to the characteristics of the pumped storage power station, establishing a life cycle of the pumped storage power station project, and being suitable for the design, construction, equipment manufacturing and intelligent operation of the built, under-construction and newly-built pumped storage power station projects, wherein the project is divided into buildings according to functions, buildings according to forms, building spaces according to functions, building spaces according to forms, elements, work results, behaviors, professional fields, organization roles, tools, information, materials, properties, engineering characteristics of the pumped storage power station, engineering systems of the pumped storage power station, electromechanical systems of the pumped storage power station, engineering documents of the pumped storage power station, engineering projects of the pumped storage power station, engineering stages of the pumped storage power station, engineering components of the pumped storage power station, surveying and geology, engineering roles of the pumped storage power station, engineering products of the pumped storage power station, construction equipment of the pumped, The method comprises the following steps of pumped storage power station name coding, pumped storage power station project division, pumped storage power station object ID, pumped storage power station equipment coding, pumped storage power station project coding, pumped storage power station WBS coding, pumped storage power station material coding and pumped storage power station asset coding, wherein 31 dimensions create a coding system according to a surface division method (as shown in figure 2). The method is characterized in that a surface division method is adopted by referring to GB/T51269, classification and coding of a digital model are taken as a core, and a coding system of a physical asset unified identity code (hereinafter referred to as a physical ID), an item code, a WBS code, a material code, an equipment code, an asset and the like related to a pumped storage power station, which are already available in a national power grid company and a national grid new source control and stock limited company, is directly cited on the basis to be synthesized (as shown in the following table).

And in the second step, a coding rule based on a face-to-face coding system is established according to the pumped storage power station project full life cycle digitization and informatization construction requirements and application scenes, and a design side forms a design side civil construction project component code according to civil engineering major code, project field code, project stage code, building function code, building form code, project document classification code, component quick code, personnel role code, personnel code, system date identification code, component elevation identification code and component flow code combination. The electromechanical major of a designer sets coding rules according to project name coding, field coding, project stage coding, project system classification and coding, electromechanical system classification and coding, building space classification and coding, project document classification coding, KKS coding, personnel role coding, personnel coding, system date identification codes, component elevation identification codes and component flow codes, and the constructor sets coding rules according to project name, field, project stage, building function space, project system classification, project item classification, construction equipment, component speed, personnel role, personnel, system date identification codes and component flow codes; the operation and maintenance party can set the coding rules according to project names, professional fields, engineering stages, building functions, building spaces, engineering document classification, component rapidness, personnel roles, personnel, system dates, real-time data and component pipelining. The coding principle is as follows:

Design space civil coding principle

0

1

2

3

4

5

6

7

8

9

10

11

/

D

J

A

B

H

K

M

/

/

/

/

Reading

Fixing

Fixing

Fixing

Fixing

fixing

Fixing

Fixing

Reading

Reading

Reading

Reading

0: project name code (project department input)

1: professional field coding (refer to appendix D)

2: engineering stage coding (refer to appendix J)

3: building function code (quote appendix A)

4: building shape code (quote appendix B)

5: engineering document classification coding (quote appendix H)

6: quick coding of component (quotation appendix K)

7: personnel role coding (refer to appendix M)

8: personnel code (entry of project department)

9: system date identification code (program self-identification)

10: component elevation identification code (program self-identification)

11: component flow code (program self-recognition)

Electromechanical coding principle of design side

0

1

2

3

4

5

6

7

8

9

10

11

/

D

J

F

G

H

/

M

/

/

/

/

Reading

fixing

Fixing

Fixing

Fixing

Fixing

Fixing

Fixing

Reading

Reading

reading

Reading

0: project name code (project department input)

1: professional field coding (refer to appendix D)

2: engineering stage coding (refer to appendix J)

3: engineering system classification and coding (quote appendix F)

4: electromechanical systems classification and coding (reference appendix G)

5: building space classification and coding (quote appendix C)

5: engineering document classification coding (quote appendix H)

6: KKS coding (record)

7: personnel role coding (refer to appendix M)

8: personnel code (entry of project department)

9: system date identification code (program self-identification)

10: component elevation identification code (program self-identification)

11: component flow code (program self-recognition)

Coding principle of construction method

0: project name code (project department input)

1: professional field coding (refer to appendix D)

2: engineering stage coding (refer to appendix J)

3: building function code (quote appendix A)

4: construction function space coding (quote appendix C)

5: engineering system classification coding (quotation appendix F)

6: project classification code (quote appendix I)

7: construction equipment coding (quote appendix O)

8: quick coding of component (quotation appendix K)

9: personnel role coding (refer to appendix M)

10: personnel code (entry of project department)

11: system date identification code (program self-identification)

12: component flow code (program self-recognition)

operation and maintenance coding principle

0: project name code (project department input)

1: professional field coding (refer to appendix D)

2: engineering stage coding (refer to appendix J)

3: building function code (quote appendix A)

4: building space coding (quote appendix C)

5: engineering document classification coding (quote appendix H)

6: quick coding of component (quotation appendix K)

7: personnel role coding (refer to appendix M)

8: personnel code (entry of project department)

9: system date identification code (program self-identification)

10: real-time data identification code (entry of project department)

11: component flow code (program self-recognition)

in step three, in order to ensure the uniqueness of the quick coding of the building block, the building block is introduced to create an artificial special mark field.

In the fourth step, a mapping relation from Excel coding keywords to component quick codes is established through Dynamo nodes (as shown in figures 3-6), and codes corresponding to shutdown words are extracted; in order to ensure the code uniqueness of the quick code of the component in different Revit project files, a creator, a system date and a system running code are introduced, wherein the system running code is an expansion mark field; and combining the extracted codes in sequence according to the coding principle in the step two and writing the combined codes into the component item parameters.

In the fifth step, a component screening function according to categories is provided, and the components are conveniently and quickly encoded.

The invention is not limited to the examples, and any equivalent changes to the technical solution of the invention by a person skilled in the art after reading the description of the invention are covered by the claims of the invention.

Claims (6)

1. A method for realizing rapid coding of a pumped storage power station model component by utilizing Dynamo is characterized by comprising the following steps: which comprises the following steps:

The method comprises the following steps: the coding system of the face division method pumped storage power station comprises the following steps:

Splitting the model component of the pumped storage power station according to a surface division method, and constructing a classification coding table;

Step two: establishing an integrated coding principle oriented to engineering project design, construction and operation and maintenance:

Establishing a one-to-one corresponding coding principle according to the requirements of digital and informatization application of the digital intelligent power station project in the whole life cycle;

Step three: building a component quick coding database:

establishing an excel model component fast coding database according to a coding system;

step four: dynamo programming code:

Calling a coding system database, reading data in a corresponding table through a data interface of Dynamo and Excel, analyzing and processing the data, establishing a mapping relation between standard keywords and a coding database, creating project parameters, writing keyword attributes into the project parameters, and establishing component quick coding according to coding rules;

Step five: creating a running file based on Revit:

and selecting a Dynamo file corresponding to the encoding rule, selecting a component needing encoding in the Revit project, and operating Dynamo nodes to realize rapid encoding of the component.

2. The method for achieving rapid coding of pumped storage power station model components using Dynamo as claimed in claim 1 wherein:

in the first step, according to the characteristics of the pumped storage power station, establishing a life cycle of the pumped storage power station project, and being suitable for the design, construction, equipment manufacturing and intelligent operation of the built, under-construction and newly-built pumped storage power station projects, wherein the project is divided into buildings according to functions, buildings according to forms, building spaces according to functions, building spaces according to forms, elements, work results, behaviors, professional fields, organization roles, tools, information, materials, properties, engineering characteristics of the pumped storage power station, engineering systems of the pumped storage power station, electromechanical systems of the pumped storage power station, engineering documents of the pumped storage power station, engineering projects of the pumped storage power station, engineering stages of the pumped storage power station, engineering components of the pumped storage power station, surveying and geology, engineering roles of the pumped storage power station, engineering products of the pumped storage power station, construction equipment of the pumped, The method comprises the following steps of pumped storage power station name coding, pumped storage power station project division, pumped storage power station entity ID, pumped storage power station equipment coding, pumped storage power station project coding, pumped storage power station WBS coding, pumped storage power station material coding and pumped storage power station asset coding, wherein 31 dimensions are used for establishing a coding system according to a surface division method.

3. the method for achieving rapid coding of pumped storage power station model components using Dynamo as claimed in claim 1 wherein:

In the second step, a coding rule based on a surface-division coding system is established according to the pumped storage power station project full life cycle digitization and informatization construction requirements and application scenes, and a design side combines a civil engineering component code of the design side according to the civil engineering specialty according to the project name coding, the professional field coding, the engineering stage coding, the building function coding, the building form coding, the engineering document classification coding, the component quick coding, the personnel role coding, the personnel coding, the system date identification code, the component elevation identification code and the component flow code;

The electromechanical major of a designer sets coding rules according to project name coding, field coding, project stage coding, project system classification and coding, electromechanical system classification and coding, building space classification and coding, project document classification coding, KKS coding, personnel role coding, personnel coding, system date identification codes, component elevation identification codes and component flow codes, and the constructor sets coding rules according to project name, field, project stage, building function space, project system classification, project item classification, construction equipment, component speed, personnel role, personnel, system date identification codes and component flow codes; the operation and maintenance party can set the coding rules according to project names, professional fields, engineering stages, building functions, building spaces, engineering document classification, component rapidness, personnel roles, personnel, system dates, real-time data and component pipelining.

4. The method for achieving rapid coding of pumped storage power station model components using Dynamo as claimed in claim 1 wherein:

In step three, in order to ensure the uniqueness of the quick coding of the building block, the building block is introduced to create an artificial special mark field.

5. the method for achieving rapid coding of pumped storage power station model components using Dynamo as claimed in claim 1 wherein:

In the fourth step, a mapping relation from Excel coding keywords to component quick codes is established through Dynamo nodes, and codes corresponding to shutdown words are extracted; in order to ensure the code uniqueness of the quick code of the component in different Revit project files, a creator, a system date and a system running code are introduced, wherein the system running code is an expansion mark field; and combining the extracted codes in sequence according to the coding principle in the step two and writing the combined codes into the component item parameters.

6. The method for achieving rapid coding of pumped storage power station model components using Dynamo as claimed in claim 1 wherein:

In the fifth step, a component screening function according to categories is provided, and the components are conveniently and quickly encoded.