CN111914325B

CN111914325B - BIM technology-based blast furnace body frame structure model information interaction method

Info

Publication number: CN111914325B
Application number: CN202010639342.3A
Authority: CN
Inventors: 韩啸; 陶继都; 李钦晓; 朱嘉熙; 刘卫健
Original assignee: Shanghai Baoye Group Corp Ltd; Shanghai Baoye Metallurgy Engineering Co Ltd
Current assignee: Shanghai Baoye Group Corp Ltd; Shanghai Baoye Metallurgy Engineering Co Ltd
Priority date: 2020-07-06
Filing date: 2020-07-06
Publication date: 2022-04-22
Anticipated expiration: 2040-07-06
Also published as: CN111914325A

Abstract

The invention provides a BIM technology-based method for information interaction of a blast furnace body frame structure model, which comprises the following steps: establishing a blast furnace steel structure frame model; opening a revit blast furnace template file, linking IFC files of a blast furnace steel structure frame model in a three-dimensional view, and binding and linking the blast furnace steel structure frame model; newly building and setting shared parameters of a blast furnace steel structure frame model, establishing a parameter detail table template, exporting the detail table template through a BIMono plug-in unit, and acquiring data actually generated by a corresponding component in the construction process; and (3) exporting a material table of the blast furnace steel structure frame model in tekla software, filling the parameter information of the component and the data actually generated by the corresponding component in the construction process into a detail table template, importing the component parameter information and the data into a revit model through a BIMone plug-in, and establishing an information interaction detail table. The invention does not need to establish a BIM information platform, thereby saving a large amount of cost; and the operation is simple and convenient, and a large amount of personnel investment is saved.

Description

BIM technology-based blast furnace body frame structure model information interaction method

Technical Field

The invention relates to the technical field of BIM (building information modeling) models of blast furnaces, in particular to a BIM technology-based method for information interaction of a frame structure model of a furnace body of a blast furnace.

Background

BIM is a short for Building Information Modeling, and the technology is popular in North America since 2002. The appearance of the technology changes the traditional two-dimensional CAD drawing era, the technology subversively integrates all relevant information of a building project into a three-dimensional visual model, and each participant of the project carries out interactive management and perfection on the model on a specific platform at each stage of the project, thereby realizing seamless handover of each link and real-time information sharing of each participant. The BIM technology can improve the efficiency, reduce repeated and ineffective labor, improve the refinement degree and reduce the energy consumption.

The Chinese publication number is: CN104573999A discloses a research and development and application method of a steel structure BIM informatization platform, and the application method comprises the following steps: the first step is as follows: the deepening department automatically numbers TEKLA model components according to specified coding rules, then guides the TEKLA model into BIM three-dimensional model software NAVSISWORKS, and then puts the BIM three-dimensional model into a BIM information platform; the second step is that: integrally importing component information in TEKLA software into a BIM information platform in a data stream mode, and mapping the data information of the components to model components in the BIM information platform one by one, and waiting for nine steps; the invention can inquire the real-time progress model of the three-dimensional building of the project and the real-time state of any steel member at any time and place, thereby carrying out the next decision analysis and control on the project.

The research, development and application method of the steel structure BIM information platform provided by the technical scheme requires enterprises to invest large capital to create the BIM cooperation platform and the Internet of things platform, which is a huge burden for some small and medium-sized enterprises in an epidemic situation. In addition, enterprises need to invest a large amount of labor and energy to update the information of the two-dimensional code, and the site conditions of the comprehensive construction enterprises are not suitable for the actual projects.

Disclosure of Invention

In view of the above, the invention provides a method for information interaction of a blast furnace body frame structure model based on a BIM technology, and aims to solve the problems that the existing BIM informatization platform is high in cost and needs to invest a large amount of manpower.

The invention provides a BIM technology-based method for information interaction of a blast furnace body frame structure model, which comprises the following steps: a model building step, namely building a blast furnace steel structure frame model and exporting the model in an IFC format; a linking step, namely opening a revit blast furnace template file, linking the IFC file of the blast furnace steel structure frame model in a three-dimensional view, and binding and linking the blast furnace steel structure frame model; a parameter setting step, namely newly building and setting shared parameters of the blast furnace steel structure frame model, establishing a parameter detail table template, exporting the detail table template through a BIMono plug-in unit to distribute to each participant of a project, and acquiring data actually generated by a corresponding component in the construction process; and an interactive detail table establishing step, namely exporting a material table of the blast furnace steel structure frame model in tekla software to obtain component parameter information, filling the component parameter information and data actually generated by the corresponding component in the construction process into a detail table template, and then importing the component parameter information and the data into a revit model through a BIMone plug-in to establish an information interactive detail table, so that the component parameter information, the data actually generated by the corresponding component in the construction process and the corresponding component in the blast furnace steel structure frame model are associated to realize information interaction of component states.

Further, in the above method for information interaction of a blast furnace body frame structure model based on the BIM technology, in the linking step, after linking the IFC file of the blast furnace steel structure frame model, the method further includes: closing the revit software to enable the revit software to automatically generate a revit project file with a suffix of the IFC in a folder with the same IFC file of the blast furnace steel structure frame model; and finding and opening a revit project file with the name suffix of.

Further, according to the method for information interaction of the blast furnace body frame structure model based on the BIM technology, after the revit project file is opened again, the phase filter is changed to be absent in the three-dimensional view, so that the whole blast furnace frame structure model is displayed in the three-dimensional mode.

Further, according to the method for interacting the structural model information of the blast furnace body framework based on the BIM technology, after the revit software is closed and before the revit project file is opened, the revit project file with the suffix of the ifc is renamed.

Further, the method for information interaction of the blast furnace body frame structure model based on the BIM technology further includes, between the linking step and the parameter setting step: and a model adjusting step, namely changing a view display mode into coloring in the three-dimensional view, after the display edge is selected, framing all steel structure models, keeping a normal-scale type in a selection filter, selecting special equipment, structural columns and structural frames, deleting overlapped models, and storing project files.

Further, in the method for interacting the model information of the blast furnace body frame structure based on the BIM technology, the shared parameters include: the method comprises the following steps of (1) component name, component main section, volume, weight, bottom elevation, top elevation, manufacturing time, delivery time, arrival time and installation time; the manufacturing time, the leaving time, the arriving time and the installing time belong to data actually generated by the corresponding component in the construction process, and the component name, the component main section, the volume, the weight, the bottom elevation and the top elevation belong to component parameter information.

Further, the method for information interaction of the blast furnace body frame structure model based on the BIM technology further includes, after the step of establishing the interaction schedule: and a visualization setting step, in the three-dimensional view, setting a filter according to the newly-built and set sharing parameters, and distinguishing the components in different states by using different colors so as to realize the three-dimensional visualization of the component states.

Further, according to the BIM technology-based blast furnace body frame structure model information interaction method, before the blast furnace steel structure frame model is derived in the model building step, derivation setting is carried out, and a shaft network and components are selected.

Further, in the method for information interaction of the blast furnace body frame structure model based on the BIM technology, in the model establishing step, tekla software is used for establishing and exporting the blast furnace steel structure frame model.

Further, in the method for information interaction of the blast furnace body frame structure model based on the BIM technology, the revit blast furnace template file is a blast furnace template file established based on the revit software.

The invention provides a BIM technology-based blast furnace body frame structure model information interaction method, which comprises the steps of establishing a blast furnace frame structure model, converting the established model into revit software in an IFC format, and setting an information interaction template through parameter setting of the revit software; and interacting the project information and the model through a BIMon plug-in to realize the dynamic management of the project. The method does not need to establish a BIM information platform, so that a large amount of cost is saved; and the operation is simple and convenient, and a large amount of personnel investment is saved.

Drawings

Various other advantages and benefits will become apparent to those of ordinary skill in the art upon reading the following detailed description of the preferred embodiments. The drawings are only for purposes of illustrating the preferred embodiments and are not to be construed as limiting the invention. Also, like reference numerals are used to refer to like parts throughout the drawings. In the drawings:

fig. 1 is a flow chart of a method for interacting information of a furnace body frame structure model of a blast furnace based on a BIM technique according to an embodiment of the present invention.

Detailed Description

Exemplary embodiments of the present disclosure will be described in more detail below with reference to the accompanying drawings. While exemplary embodiments of the present disclosure are shown in the drawings, it should be understood that the present disclosure may be embodied in various forms and should not be limited to the embodiments set forth herein. Rather, these embodiments are provided so that this disclosure will be thorough and complete, and will fully convey the scope of the disclosure to those skilled in the art. It should be noted that the embodiments and features of the embodiments may be combined with each other without conflict. The present invention will be described in detail below with reference to the embodiments with reference to the attached drawings.

Referring to fig. 1, it is a schematic flow chart of a method for interacting information of a furnace body frame structure model of a blast furnace based on a BIM technique according to an embodiment of the present invention. As shown, the method comprises the following steps:

and a model establishing step S1, wherein a blast furnace steel structure frame model is established and is derived in an IFC format.

Specifically, firstly, establishing a blast furnace steel structure frame model by using tekla software; the created tekla model is then derived in IFC format. In order to facilitate the display of the subsequent model, preferably, before the blast furnace steel structure frame model is exported, export setting is carried out, a shaft net and components are selected, and the other options can be selected more as required to display the shaft net and the components. The blast furnace steel structure frame model utilizes tekla software to establish a blast furnace frame structure model, and the established tekla model is exported in an IFC format to be converted into revit software.

And a linking step S2, opening the revit blast furnace template file, linking the IFC file of the blast furnace steel structure frame model in the three-dimensional view, and binding and linking the blast furnace steel structure frame model.

Specifically, firstly, a revit blast furnace template file is opened by utilizing revit software, an IFC file of the blast furnace steel structure frame model exported in the step S1 is linked in a three-dimensional view, and binding and linking are carried out on the blast furnace steel structure frame model; the actual linking can be realized in two ways, one of which is: the IFC files are bound by clicking the link, but the time consumed in the step is long, the process time of binding the link is increased in a geometric number along with the size of the project file, the method is not suggested to be adopted, and meanwhile, after the binding in the mode, the blast furnace steel structure frame model needs to be clicked to disassemble the blast furnace steel structure frame model; the other implementation mode is as follows: closing the revit software to enable the revit software to automatically generate a suffix of the revit project file of the IFC in a folder with the same IFC file of the blast furnace steel structure frame model, wherein the file is the bound IFC model file, and finding the revit project file of the IFC with the name suffix of the revit project file and opening the revit project file of the IFC in the folder with the same IFC file of the blast furnace steel structure frame model; in order to improve the display effect of the steel structure frame model of the blast furnace, preferably, after the revit project file is opened again, the stage filter is changed to be absent in the three-dimensional view so as to display the frame structure model of the whole blast furnace in the three-dimensional mode.

A model adjustment step S3, in which, after the view display mode is changed to coloring and the display edges are selected in the three-dimensional view, all steel structure models are framed, the normal-scale model is retained in the selection filter, the dedicated device, the structural column, and the structural frame are selected, the superimposed model is deleted, and the project file is saved.

Specifically, first, in the three-dimensional view, the view display mode is changed to coloring, and the display edge is checked out. Then, all steel structure models are selected, a normal-scale model is retained in the selection filter, and the dedicated equipment, the structural column, and the structural frame are selected, and the superimposed models are deleted, and the project file is saved.

And a parameter setting step S4, wherein, the blast furnace steel structure frame model is newly built and set with shared parameters, parameter detail table templates are built, and the detail table templates are exported through a BIMone plug-in unit to be distributed to each participant of the project, so as to obtain the data actually generated by the corresponding components in the construction process.

Specifically, firstly, newly building shared parameters of a blast furnace steel structure frame model by using revit software, wherein the shared parameters comprise parameters such as component names, component main sections, volume, weight, bottom elevation, top elevation, manufacturing time, delivery time, arrival time, installation time and the like, and the shared parameters can be divided into two types, namely data and component parameter information which are actually generated in the construction process of corresponding components; the manufacturing time, the leaving time, the arriving time and the installation time belong to data actually generated by the corresponding components in the construction process and can be changed in the project proceeding process; the name of the component, the main section bar of the component, the volume, the weight, the bottom elevation and the top elevation belong to component parameter information, and the component name, the main section bar of the component, the volume, the weight, the bottom elevation and the top elevation belong to fixed values in the process of project implementation; then, after setting the required shared parameters, establishing a corresponding parameter detail table template, exporting the detail table template through a BIMone plug-in, taking the detail table as an excel template, setting an information interaction template, and distributing the template to each participant of the project so as to obtain the data actually generated by the corresponding component in the construction process.

And an interaction detail table establishing step S5, wherein a material table of the blast furnace steel structure frame model is exported in tekla software to obtain component parameter information, the component parameter information and data actually generated by corresponding components in the construction process are filled in a detail table template, and then the component parameter information and the data are imported into a revit model through a BIMono plug-in unit to establish an information interaction detail table, so that the component parameter information, the data actually generated by the corresponding components in the construction process and the corresponding components in the blast furnace steel structure frame model are associated, and the information interaction of the component states is realized.

Specifically, firstly, using tekla software to derive a material table of a blast furnace steel structure frame model so as to obtain component parameter information; and then, filling the component parameter information and data actually generated by the corresponding component in the construction process into a detail table template, importing the data into a revit model through a BIMono plug-in, storing a project file, establishing an information interaction detail table, associating the component parameter information, the data actually generated by the corresponding component in the construction process and the corresponding component in the blast furnace steel structure frame model, storing the project file, and realizing the information interaction of the component state and the dynamic management of the project. In this step, since the data actually generated by the corresponding component during the construction process may vary, it is preferable that the collected data actually generated by the corresponding component during the construction process is repeatedly filled into the detail table template every fixed time as the project progresses, and the correlation of the data is repeatedly performed by importing the data into the revit model through the bimore plug-in. The component parameter information and the data actually generated by the corresponding component in the construction process can be synchronously filled in the detail table template so as to be synchronously led into the revit model through the BIMono plug-in, and can also be led in twice, namely, the component parameter information is led into the revit model through the BIMono plug-in after being filled in the detail table template once, and the data actually generated by the corresponding component in the construction process is led into the revit model through the BIMono plug-in after being filled in the detail table template once.

And a visualization setting step S6, in the three-dimensional view, setting a filter according to the newly-built and set sharing parameters, and distinguishing the components in different states by using different colors so as to realize the three-dimensional visualization of the component states.

Specifically, in the three-dimensional view, the filter is set according to the shared parameter added in the parameter setting step S4, and the members in different states are distinguished by different colors, thereby realizing three-dimensional visualization of the states of the members.

In summary, in the method for interacting model information of a blast furnace body frame structure based on the BIM technology provided in this embodiment, the IFC file is linked in the revit, the model file is newly created and set with shared parameters, the statement template is exported through the bimene plug-in and is used as the template, the template is in butt joint with each participant of the project, the project information is filled in the statement template and is imported into the revit model, and the bimene plug-in imports component parameters in the material sheet of the blast furnace steel structure frame model into the revit model to establish the information interaction statement, and the component parameter information, data actually generated by the corresponding component in the construction process and the corresponding component in the blast furnace steel structure frame model are associated, so that information interaction of the component state and dynamic management of the project are realized. The method does not need to establish a BIM information platform, so that a large amount of cost is saved; and the operation is simple and convenient, and a large amount of personnel investment is saved.

It should be noted that in the description of the present invention, the terms of direction or positional relationship indicated by the terms "upper", "lower", "left", "right", "inner", "outer", etc. are based on the directions or positional relationships shown in the drawings, which are only for convenience of description, and do not indicate or imply that the device or element must have a specific orientation, be constructed in a specific orientation, and be operated, and thus, should not be construed as limiting the present invention.

Furthermore, it should be noted that, in the description of the present invention, unless otherwise explicitly specified or limited, the terms "mounted," "connected," and "connected" are to be construed broadly, and may be, for example, fixedly connected, detachably connected, or integrally connected; they may be connected directly or indirectly through intervening media, or they may be interconnected between two elements. The specific meanings of the above terms in the present invention can be understood by those skilled in the art according to specific situations.

It will be apparent to those skilled in the art that various changes and modifications may be made in the present invention without departing from the spirit and scope of the invention. Thus, if such modifications and variations of the present invention fall within the scope of the claims of the present invention and their equivalents, the present invention is also intended to include such modifications and variations.

Claims

1. A method for information interaction of a blast furnace body frame structure model based on a BIM technology is characterized by comprising the following steps:

a model building step, namely building a blast furnace steel structure frame model and exporting the model in an IFC format;

a linking step, namely opening a revit blast furnace template file, linking the IFC file of the blast furnace steel structure frame model in a three-dimensional view, and binding and linking the blast furnace steel structure frame model;

a parameter setting step, namely newly building and setting shared parameters of the blast furnace steel structure frame model, establishing a parameter detail table template, exporting the detail table template through a BIMono plug-in unit to distribute to each participant of a project, and acquiring data actually generated by a corresponding component in the construction process;

and an interactive detail table establishing step, namely exporting a material table of the blast furnace steel structure frame model in tekla software to obtain component parameter information, filling the component parameter information and data actually generated by the corresponding component in the construction process into a detail table template, and then importing the component parameter information and the data into a revit model through a BIMone plug-in to establish an information interactive detail table, so that the component parameter information, the data actually generated by the corresponding component in the construction process and the corresponding component in the blast furnace steel structure frame model are associated to realize information interaction of component states.

2. The BIM technology-based blast furnace body frame structure model information interaction method according to claim 1,

in the linking step, after the IFC file of the blast furnace steel structural frame model is linked, the method further includes:

closing the revit software to enable the revit software to automatically generate a revit project file with a suffix of the IFC in a folder with the same IFC file of the blast furnace steel structure frame model;

and finding and opening a revit project file with the name suffix of.

3. The BIM technology-based blast furnace body frame structure model information interaction method according to claim 2,

after the revit project file is opened again, the phase filter is changed to none in the three-dimensional view to display the frame structure model of the entire blast furnace in the three-dimensional mode.

4. The BIM technology-based blast furnace body frame structure model information interaction method according to claim 2,

the revit project file suffixed with the ifc is renamed after the revit software is closed and before the revit project file is opened.

5. The BIM technology-based blast furnace body frame structure model information interaction method according to any one of claims 1 to 4, further comprising, between the linking step and the parameter setting step:

and a model adjusting step, namely changing a view display mode into coloring in the three-dimensional view, after the display edge is selected, framing all steel structure models, keeping a normal-scale type in a selection filter, selecting special equipment, structural columns and structural frames, deleting overlapped models, and storing project files.

6. The BIM technology-based blast furnace body frame structure model information interaction method according to any one of claims 1 to 4,

the sharing parameters include: the method comprises the following steps of (1) component name, component main section, volume, weight, bottom elevation, top elevation, manufacturing time, delivery time, arrival time and installation time; the manufacturing time, the leaving time, the arriving time and the installing time belong to data actually generated by the corresponding component in the construction process, and the component name, the component main section, the volume, the weight, the bottom elevation and the top elevation belong to component parameter information.

7. The BIM technology-based blast furnace body frame structure model information interaction method according to any one of claims 1 to 4, further comprising, after the interaction schedule establishing step:

and a visualization setting step, in the three-dimensional view, setting a filter according to the newly-built and set sharing parameters, and distinguishing the components in different states by using different colors so as to realize the three-dimensional visualization of the component states.

8. The BIM technology-based blast furnace body frame structure model information interaction method according to any one of claims 1 to 4,

and leading out and setting, and selecting a shaft network and a component before leading out the blast furnace steel structure frame model in the model establishing step.

9. The BIM technology-based blast furnace body frame structure model information interaction method according to any one of claims 1 to 4,

in the model establishing step, tekla software is used for establishing and exporting the blast furnace steel structure frame model.

10. The BIM technology-based blast furnace body frame structure model information interaction method according to any one of claims 1 to 4,

the revit blast furnace template file is a blast furnace template file established based on revit software.