CN115879194A - Method for generating curtain wall panel number drawing and keel layout drawing based on BIM one-key - Google Patents

Abstract

The invention discloses a method for generating a curtain wall panel numbering drawing and a keel layout drawing based on BIM (building information modeling) one-key, which comprises the steps of inputting project information, opening general settings on a UG (Unigraphics) software interface, sequentially inputting construction units, project names, sub-project names, specialties and stages, clicking for determination, and storing the input project information; the method comprises the steps of setting an axle net elevation, opening an axle net definition on a UG software interface, determining an original point, designating an X-direction axle net and a Y-direction axle net, inputting the number of layers of the elevation, clicking to determine, storing the set axle net elevation, and automatically marking the building outline dimension, the axis and the elevation dimension, so that a building curtain wall panel number drawing and a keel arrangement drawing can be generated by one key. And the operation is simple, the requirement on the professional ability of a designer is reduced, and the labor cost is reduced.

Description

Method for generating curtain wall panel number drawing and keel layout drawing based on BIM one-key

Technical Field

The invention relates to the technical field of building curtain walls, in particular to a method for generating a curtain wall panel numbering drawing and a keel layout drawing based on a BIM (building information modeling) key.

Background

The Building Informatization Model (BIM) is called building informatiology model in English, is a complete information model, can integrate engineering information, processes and resources of engineering projects at different stages in the whole life cycle into one model, and is conveniently used by all engineering participants. The real information of the building is simulated through the three-dimensional digital technology, and information models which are coordinated with each other and have consistent interior are provided for engineering design and construction, so that the models achieve the integration of design and construction, and all specialties work together, thereby reducing the engineering production cost and ensuring that the engineering is finished on time according to quality.

In the prior art, for example, chinese patent numbers are: the curtain wall standardized design method based on the BIM is characterized in that after a standardized design file of a curtain wall environment is compiled, the standardized design file of the curtain wall environment is loaded into BIM software, a BIM curtain wall standard model can be quickly established, curtain wall drawings are output, and curtain wall data are extracted and counted.

However, in the prior art, the curtain wall construction drawing is designed in two dimensions by adopting CAD basically in the prior art, the existing two-dimensional CAD design has the defects of low efficiency and low accuracy, plane and vertical plane drawings are not corresponding frequently, when the design is changed, the drawing is changed frequently, the leader needs to review the drawings for a long time, and is difficult to conduct on-site construction.

Disclosure of Invention

Aiming at the defects of the prior art, the technical scheme adopted by the invention for solving the technical problems is as follows: a method for generating a curtain wall panel numbering drawing and a keel layout drawing based on a BIM key comprises the following steps:

the method comprises the following steps: inputting project information, opening general settings on a UG software interface, sequentially inputting construction units, project names, sub-project names, specialties and stages, clicking to determine, and storing the input project information;

step two: setting the elevation of a shaft network, opening the definition of the shaft network on a UG software interface, determining an original point, designating the shaft network in the X direction and the shaft network in the Y direction, inputting the number of the layers of the elevation, clicking to determine, and storing the set elevation of the shaft network;

step three: designating a position of a big sample, opening view definition on a UG software interface, sequentially selecting a big sample graph and a big sample sectional view, and determining a coordinate point position of the big sample in the view;

step four: designating a plane and elevation position, a view depth and a node position, opening view definition on a UG software interface, sequentially selecting a plane graph and an elevation graph, and determining coordinate points;

step five: setting a panel layer and a keel layer range, opening a classified map on a UG software interface, checking ALL, selecting a keel and a surface layer at the same time, clicking and inputting the layer range, and adjusting to a required parameter value;

step six: the panel number drawing and the keel arrangement drawing are generated by one key, the drawing proportion is automatically calculated according to the setting conditions through background secondary development, the preset drawing frame is sleeved, the building outline size, the axis and the elevation size are automatically marked, and the building curtain wall panel number drawing and the keel arrangement drawing can be generated by one key.

Preferably, in the first step, the input project information is compatible with Chinese and English characters, arabic numerals and special symbols, the universality is high, a visual panel is generated through secondary development, the drawing step is carried out in a flow mode, drawing conditions such as a plane position, a view depth, a rough sample position, a sectioning position, a layer range and the like are set in sequence according to prompts, drawing proportion is automatically calculated according to the setting conditions through background secondary development, and the device on the market can be compatible.

Preferably, in the second step, the parameterized shaft network design system is developed for the second time to generate the plug-in panel, shaft network generation rules are set in the panel, preset drawing frames are sleeved, and the building outline size, the axis and the elevation size are automatically marked, so that a building curtain wall panel number diagram and a keel layout diagram can be generated by one key, the building shaft network system can be generated by one key and the generated shaft network has parameterized characteristics and can be modified and adjusted at any time.

Preferably, in the third step and the fourth step, a building BIM forward design idea is adopted, UG software is taken as a basic platform, C + + secondary development is combined, from the beginning of building shaft network parameterization design to building BIM model design, BIM forward design is realized, the requirement of a plotting flow on the professional ability of a designer is not high, the operation basically belongs to foolproof operation, the efficiency is improved, the design cost is saved, and the designer only needs to perform simple view setting operation on the BIM model, including view depth, projection direction and sampling position.

Preferably, in the fifth step, the designer defines the ranges of the panel layer and the keel layer in advance, so that the efficiency and accuracy of the designer are greatly improved, the building BIM forward design is promoted, and the digital application is grounded. And the operation is simple, the requirement on the professional ability of a designer is reduced, and the labor cost is reduced.

Preferably, in the sixth step, the background can calculate the drawing proportion according to the setting conditions, set the preset drawing frame, automatically mark the building outline dimension, the axis and the elevation dimension, adopt the building BIM forward design idea, use UG software as a basic platform, combine C + + secondary development, start from the building axis network parameterization design, to building BIM model design, the designer only needs to carry out simple view setting operation on the BIM model, and simultaneously generate a panel number drawing and a keel layout drawing for guiding the site construction according to the panel drawing layer and the keel drawing layer.

Preferably, in the sixth step, a building curtain wall panel numbering drawing and a keel arrangement drawing are generated by one key, wherein the building curtain wall panel numbering drawing and the keel arrangement drawing comprise a plane drawing, an elevation drawing, a large sample drawing, a node drawing and a catalog, the view depth, the projection direction and the large sample position are included, in addition, a designer defines the ranges of a panel drawing layer and a keel drawing layer in advance, a background can calculate the drawing proportion according to the setting conditions, preset drawing frames are sleeved, the building outline size, the axis and the elevation size are automatically marked, and the panel numbering drawing and the keel arrangement drawing for guiding the site construction are simultaneously generated according to the panel drawing layer and the keel drawing layer; if the BIM model is changed, the construction drawing can be updated in real time, two-dimensional and three-dimensional linkage is realized, and the drawing accuracy and the design efficiency of designers are greatly improved.

The invention has the following beneficial effects:

1. the method comprises the steps of secondary development to generate a visual panel, drawing steps are carried out in a flow mode, drawing conditions such as a plane position, a view depth, a large sample position, a sectioning position and a drawing layer range are set in sequence according to prompts, drawing proportion is automatically calculated according to the setting conditions through background secondary development, preset drawing frames are sleeved, and building outline dimensions, axial lines and elevation dimensions are automatically marked, so that a building curtain wall panel numbering drawing and a keel arrangement drawing including a plane drawing, an elevation drawing, a large sample drawing, a node drawing and a catalog can be generated through one key. The BIM forward design is realized, the requirement of the plotting process on the professional ability of a designer is not high, the BIM forward design method is basically foolproof in operation, the efficiency is improved, and the design cost is saved.

2. The efficiency and the accuracy of a designer are greatly improved, the building BIM forward design is promoted, and the digital application is grounded. The operation is simple, the requirement on the professional ability of a designer is reduced, and the labor cost is reduced.

3. The invention adopts the building BIM forward design idea, uses UG software as a basic platform, combines C + + secondary development, starts from building shaft network parameterization design to building BIM model design, and a designer only needs to perform simple view setting operation on the BIM model, including view depth, projection direction and sampling position, and in addition, the designer defines the ranges of a panel layer and a keel layer in advance, a background can calculate drawing proportion according to setting conditions, set preset drawing frames, automatically mark building outline dimensions, axes and elevation dimensions, and simultaneously generate a panel numbering drawing and a keel arrangement drawing for guiding site construction according to the panel layer and the keel layer; if the BIM model is changed, the construction drawing can be updated in real time, two-dimensional and three-dimensional linkage is realized, and the drawing accuracy and the design efficiency of designers are greatly improved.

Drawings

FIG. 1 is a diagram of the method steps of the present invention.

Detailed Description

The present invention will be described in further detail with reference to the accompanying drawings and specific embodiments. The embodiments of the present invention have been presented for purposes of illustration and description, and are not intended to be exhaustive or limited to the invention in the form disclosed. Many modifications and variations will be apparent to those of ordinary skill in the art. The embodiment was chosen and described in order to best explain the principles of the invention and the practical application, and to enable others of ordinary skill in the art to understand the invention for various embodiments with various modifications as are suited to the particular use contemplated.

The first embodiment is as follows:

referring to fig. 1, the present invention provides a technical solution: a method for generating a curtain wall panel number drawing and a keel layout drawing based on a BIM key comprises the following steps:

the method comprises the following steps: inputting project information, opening general settings on a UG software interface, sequentially inputting construction units, project names, sub-project names, specialties and stages, clicking to determine, and storing the input project information;

step two: setting the elevation of a shaft network, opening the definition of the shaft network on a UG software interface, determining an original point, designating the shaft network in the X direction and the shaft network in the Y direction, inputting the number of the layers of the elevation, clicking to determine, and storing the set elevation of the shaft network;

step three: designating a position of a big sample, opening view definition on a UG software interface, sequentially selecting a big sample graph and a big sample sectional view, and determining a coordinate point position of the big sample in the view;

step four: designating a plane and elevation position, a view depth and a node position, opening view definition on a UG software interface, sequentially selecting a plane graph and an elevation graph, and determining coordinate points;

step five: setting a panel layer and a keel layer range, opening a classified map on a UG software interface, checking ALL, selecting a keel and a surface layer at the same time, clicking and inputting the layer range, and adjusting to a required parameter value;

step six: the panel number drawing and the keel arrangement drawing are generated by one key, the drawing proportion is automatically calculated according to the setting conditions through background secondary development, the preset drawing frame is sleeved, the building outline size, the axis and the elevation size are automatically marked, and the building curtain wall panel number drawing and the keel arrangement drawing can be generated by one key.

In the first step, the input item information is compatible with Chinese and English characters, arabic numerals and special symbols, has strong universality and can be compatible with equipment on the market.

In the second step, the shaft network design system is parameterized, a plug-in panel is generated through secondary development, shaft network generation rules are set in the panel, namely, a building shaft network system can be generated through one key, and the generated shaft network has parameterization characteristics and can be modified and adjusted at any time.

In the third step and the fourth step, a building BIM forward design idea is adopted, UG software is taken as a basic platform, C + + secondary development is combined, and from building axis network parameterization design to building BIM model design, a designer only needs to perform simple view setting operation on the BIM model, wherein the view setting operation comprises view depth, projection direction and a large sample position.

And step five, the designer defines the ranges of the panel layer and the keel layer in advance.

And step six, the background can calculate the drawing proportion according to the setting conditions, sleeve a preset drawing frame, automatically mark the outline size, the axis and the elevation size of the building, and simultaneously generate a panel numbering drawing and a keel arrangement drawing for guiding the site construction according to the panel drawing layer and the keel drawing layer.

And in the sixth step, generating a building curtain wall panel numbering drawing and a keel layout drawing by one key, wherein the drawing comprises a plan view, an elevation view, a large sample drawing, a node drawing and a catalog.

When the method is used, a visual panel is generated through secondary development, the drawing steps are carried out in a flow mode, drawing conditions such as a plane position, a view depth, a large sample position, a sectioning position, a layer range and the like are set in sequence according to prompts, through background secondary development, the drawing proportion is automatically calculated according to the setting conditions, preset drawing frames are sleeved, the building outline size, the axis and the elevation size are automatically marked, and the purpose that a building curtain wall panel numbering diagram and a keel arrangement diagram can be generated through one key, wherein the building curtain wall panel numbering diagram comprises a plane diagram, an elevation diagram, a large sample diagram, a node diagram and a catalog. The BIM forward design is realized, the requirement of the plotting process on the professional ability of a designer is not high, the BIM forward design method is basically foolproof in operation, the efficiency is improved, and the design cost is saved. The efficiency and the accuracy of a designer are greatly improved, the building BIM forward design is promoted, and the digital application is grounded. The method comprises the following steps of performing automatic operation, reducing requirements on professional ability of a designer, reducing labor cost, adopting a building BIM forward design idea, taking UG software as a basic platform, combining C + + secondary development, starting from building shaft network parameterization design to building BIM model design, wherein the designer only needs to perform simple view setting operation on the BIM model, including view depth, projection direction and large sample position, and in addition, the designer defines the range of a panel layer and a keel layer in advance, a background can calculate drawing proportion according to setting conditions, set preset drawing frames, automatically mark building outline dimensions, axes and elevation dimensions, and simultaneously generate a panel number drawing and a keel layout drawing for guiding site construction according to the panel layer and the keel layer; if the BIM model is changed, the construction drawing can be updated in real time, two-dimensional and three-dimensional linkage is realized, and the drawing accuracy and the design efficiency of designers are greatly improved.

It is to be understood that the described embodiments are merely a few embodiments of the invention, and not all embodiments. All other embodiments, which can be derived by one of ordinary skill in this and related arts based on the embodiments of the present invention without creative efforts, shall fall within the protection scope of the present invention. Structures, devices, and methods of operation not specifically described or illustrated herein are generally practiced in the art without specific details or limitations.

Claims (7)

1. A method for generating a curtain wall panel number drawing and a keel layout drawing based on a BIM key is characterized by comprising the following steps:

the method comprises the following steps: inputting project information, opening general settings on a UG software interface, sequentially inputting construction units, project names, sub-project names, specialties and stages, clicking to determine, and storing the input project information;

step two: setting the elevation of a shaft network, opening the definition of the shaft network on a UG software interface, determining an original point, designating the shaft network in the X direction and the shaft network in the Y direction, inputting the number of the layers of the elevation, clicking to determine, and storing the set elevation of the shaft network;

step three: the method comprises the steps of designating a position of a big sample, opening view definition on a UG software interface, sequentially selecting a big sample graph and a big sample cross section, and determining a coordinate point position of the big sample in the view;

step four: designating a plane and elevation position, a view depth and a node position, opening view definition on a UG software interface, sequentially selecting a plane graph and an elevation graph, and determining coordinate points;

step five: setting a panel layer and a keel layer range, opening a classified map on a UG software interface, checking ALL, selecting a keel and a surface layer at the same time, clicking and inputting the layer range, and adjusting to a required parameter value;

step six: the method comprises the steps of generating a panel number drawing and a keel layout drawing by one key, automatically calculating drawing proportion according to set conditions through background secondary development, sleeving a preset drawing frame, and automatically marking the building outline dimension, the axis and the elevation dimension, so that the one-key generation of the building curtain wall panel number drawing and the keel layout drawing can be realized.

2. The method for generating the curtain wall panel number drawing and the keel layout drawing based on the BIM key according to claim 1, wherein the method comprises the following steps: in the first step, the input item information is compatible with Chinese and English characters, arabic numerals and special symbols, has strong universality and can be compatible with equipment on the market.

3. The method for generating the curtain wall panel number drawing and the keel layout drawing based on the BIM key according to claim 1, wherein the method comprises the following steps: in the second step, a shaft network design system is parameterized, a plug-in panel is generated through secondary development, shaft network generation rules are set in the panel, namely, a building shaft network system can be generated through one key, and the generated shaft network has parameterized characteristics and can be modified and adjusted at any time.

4. The method for generating the curtain wall panel number drawing and the keel layout drawing based on the BIM key according to claim 1, wherein the method comprises the following steps: in the third step and the fourth step, a building BIM forward design idea is adopted, UG software is used as a basic platform, C + + secondary development is combined, and from building axis network parameterization design to building BIM model design, a designer only needs to perform simple view setting operation on the BIM model, wherein the view setting operation comprises view depth, projection direction and a large sample position.

5. The method for generating the curtain wall panel number drawing and the keel layout drawing based on the BIM key according to claim 1, wherein the method comprises the following steps: in the fifth step, the designer defines the ranges of the panel layer and the keel layer in advance.

6. The method for generating the curtain wall panel number drawing and the keel layout drawing based on the BIM key according to claim 1, wherein the method comprises the following steps: in the sixth step, the background can calculate the drawing proportion according to the setting conditions, set the preset drawing frame, automatically mark the building outline dimension, the axis and the elevation dimension, and simultaneously generate a panel number drawing and a keel layout drawing for guiding the site construction according to the panel drawing layer and the keel drawing layer.

7. The method for generating the curtain wall panel number drawing and the keel layout drawing based on the BIM key according to claim 6, wherein the method comprises the following steps: in the sixth step, a building curtain wall panel numbering drawing and a keel layout drawing are generated by one key, wherein the drawing comprises a plan view, an elevation view, a large sample drawing, a node drawing and a catalog.

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