CN109344506B - Method and equipment for automatically generating deepened drawing of BIM three-dimensional model and storage medium - Google Patents

Abstract

The invention discloses a method, equipment and a storage medium for automatically generating a deepened drawing of a BIM three-dimensional model, wherein the method comprises the steps of importing a pre-designed BIM three-dimensional model drawing and automatically generating a size parameter statistical table; then, importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table; and finally, generating a two-dimensional or three-dimensional deepening drawing with the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table. According to the invention, the dimension parameter statistical table is directly generated by utilizing the BIM, and then the dimension parameter statistical table adopted in the design can be obtained by importing the embedded part information and the reinforcement information in the dimension parameter statistical table, so that the input BIM is further directly integrated to generate views with different marked visual angles, and the work of material statistics, dimension checking, drawing verification, cost calculation and the like can be conveniently carried out by a user.

Description

Method and equipment for automatically generating deepened drawing of BIM three-dimensional model and storage medium

Technical Field

The invention relates to the field of buildings, in particular to a method, equipment and a storage medium for automatically generating a deepened drawing of a BIM three-dimensional model.

Background

When the three-dimensional model is drawn, in order to facilitate subsequent works such as drawing verification, engineering cost statistics and the like, model data of the three-dimensional model needs to be counted and checked, but because the three-dimensional model is a three-dimensional view, data information and other material information of a component cannot be directly marked in the three-dimensional model, and even if the data information and other material information of the component are marked on the three-dimensional model, an unclear feeling is marked for a worker, so that the worker is inconvenient to perform the works such as drawing verification, dimension correction, cost calculation and the like, and therefore the three-dimensional model generally needs to be converted into a two-dimensional view and then various information is added, namely relevant works are performed after a deepened drawing of the three-dimensional model.

At present, a size marking method is generally that a designer draws a two-dimensional view according to a three-dimensional model, and then manually marks relevant data information into the two-dimensional view, or directly places a data information table beside the three-dimensional model or the two-dimensional view to enable a user to check the data information by himself.

In addition, an application method of a steel structure BIM information platform is disclosed in the patent with the application number of 201611124589.1, wherein a data information table is firstly manufactured, and then the data information table is imported into a BIM three-dimensional model, so as to generate a deepened drawing of the three-dimensional model, although the data information and other material information can be conveniently checked, a large amount of data statistics and auditing are required in the process of generating the data information table, if a designer is careless, the condition of data errors is easy to occur, so that the data in the deepened drawing generated subsequently is wrong, and the work of material statistics, size and pairing, drawing auditing, cost calculation and the like of a user is not facilitated.

The prior art thus remains to be improved and enhanced.

Disclosure of Invention

In view of the defects of the prior art, the invention aims to provide a method, equipment and storage medium for automatically generating a deepened drawing of a BIM three-dimensional model, which can directly integrate the input BIM three-dimensional model to generate views with different marked visual angles, and facilitate the work of material statistics, size verification, drawing verification, cost calculation and the like of a user.

In order to achieve the purpose, the invention adopts the following technical scheme:

a method for automatically generating a deepening map of a BIM three-dimensional model comprises the following steps:

importing a pre-designed BIM three-dimensional model diagram and automatically generating a size parameter statistical table;

importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table;

and generating a two-dimensional or three-dimensional deepening drawing with the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table.

In the automatic generation method of the deepening map of the BIM three-dimensional model, the two-dimensional or three-dimensional deepening map of the three-dimensional model at least comprises an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model.

In the method for automatically generating the deepened drawing of the BIM three-dimensional model, the step of importing the pre-designed BIM three-dimensional model drawing and automatically generating the size parameter statistical table comprises the following steps:

introducing a pre-designed BIM three-dimensional model diagram, and drawing the BIM three-dimensional model diagram according to the actual design size;

extracting model overall dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

and integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table.

In the method for automatically generating the deepened drawing of the BIM three-dimensional model, the step of importing the concrete information, the embedded part information and the reinforcement information input by a user and generating a new size parameter statistical table comprises the following steps:

importing concrete information input by a user;

judging whether the default embedded part information and the reinforcement information are modified, and if so, importing the modified embedded part information and the reinforcement information;

and generating a new parameter statistical table according to the information modified by the user.

In the method for automatically generating the deepening drawing of the BIM three-dimensional model, the step of generating the two-dimensional or three-dimensional deepening drawing of the three-dimensional model with the marked size and the model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table comprises the following steps:

generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

integrating the generated dimension information of the new dimension parameter statistical table, and automatically marking the dimension information into each view of the three-dimensional model;

and automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model and generating a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information and generating an embedded part table.

An automatic deep drawing generation device for a BIM three-dimensional model, comprising a processor and a memory connected with the processor, wherein the memory stores a computer program, and the computer program realizes the following steps when being executed by the processor:

importing a pre-designed BIM three-dimensional model diagram and automatically generating a size parameter statistical table;

importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table;

and generating a two-dimensional or three-dimensional deepening drawing of the three-dimensional model and a model data statistical table according to the BIM three-dimensional model, the generated size parameter statistical table and information input by a user.

In the automatic deep drawing generation device for the BIM three-dimensional model, when the computer program is executed by the processor, the following steps are also realized:

introducing a pre-designed BIM three-dimensional model diagram, and drawing the BIM three-dimensional model diagram according to the actual design size;

extracting model overall dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

and integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table.

In the automatic deep drawing generation device for the BIM three-dimensional model, when the computer program is executed by the processor, the following steps are also realized:

importing concrete information input by a user;

judging whether the default embedded part information and the reinforcement information are modified, and if so, importing the modified embedded part information and the reinforcement information;

and generating a new parameter statistical table according to the information modified by the user.

In the automatic deep drawing generation device for the BIM three-dimensional model, when the computer program is executed by the processor, the following steps are also realized:

generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

integrating the generated dimension information of the new dimension parameter statistical table, and automatically marking the dimension information into each view of the three-dimensional model;

and automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model and generating a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information and generating an embedded part table.

A computer-readable storage medium, wherein a computer program is stored in the computer-readable storage medium, and when being executed by a processor, the computer program implements the steps in the automatic generation method of the deepening map of the BIM three-dimensional model.

Compared with the prior art, the method, the equipment and the storage medium for automatically generating the deepened drawing of the BIM three-dimensional model provided by the invention comprise the steps of importing a pre-designed BIM three-dimensional model drawing and automatically generating a size parameter statistical table; then, importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table; and finally, generating a two-dimensional or three-dimensional deepening drawing with the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table. According to the invention, the dimension parameter statistical table is directly generated by utilizing the BIM, and then the dimension parameter statistical table adopted in the design can be obtained by importing the embedded part information and the reinforcement information in the dimension parameter statistical table, so that the input BIM is further directly integrated to generate views with different marked visual angles, and the work of material statistics, dimension checking, drawing verification, cost calculation and the like can be conveniently carried out by a user.

Drawings

FIG. 1 is a flowchart of a method for automatically generating a deepening map of a BIM three-dimensional model according to the present invention.

Fig. 2 is a flowchart of the step S100 in the method for automatically generating a deepening map of a BIM three-dimensional model provided by the present invention.

Fig. 3 is a flowchart of the step S200 in the method for automatically generating a deepening map of a BIM three-dimensional model according to the present invention.

Fig. 4 is a flowchart of the step S300 in the method for automatically generating a deepening map of a BIM three-dimensional model according to the present invention.

FIG. 5 is a block diagram of the apparatus for automatically generating a deep drawing of a BIM three-dimensional model according to the present invention.

Detailed Description

The invention provides a method, equipment and a storage medium for automatically generating a deepened drawing of a BIM three-dimensional model, and in order to make the purpose, technical scheme and effect of the invention clearer and clearer, the invention is further described in detail below by referring to the attached drawings and embodiments. It should be understood that the specific embodiments described herein are merely illustrative of the invention and are not intended to limit the invention.

Referring to fig. 1, the method for automatically generating a deepening map of a BIM three-dimensional model provided by the present invention includes the following steps:

s100, importing a pre-designed BIM three-dimensional model diagram and automatically generating a size parameter statistical table.

Specifically, before the generation of the deepening map of the BIM three-dimensional model, the building of the BIM three-dimensional model is required, the BIM three-dimensional model is built according to the actual design size of the component, a designer needs to build the model according to the actual design size when designing the model, so that the specific design size of the component can be obtained according to the BIM three-dimensional model, the embedded part and the reinforcing bars are arranged in the BIM three-dimensional model, engineering personnel can calculate the engineering quantity according to the BIM three-dimensional model, after the BIM three-dimensional model is generated, a user can directly import the three-dimensional software (for example, revit) to generate the deepening map, in other words, the implementation software of the method for automatically generating the deepening map of the BIM three-dimensional model provided by the present invention can be directly arranged in the three-dimensional software in the form of a plug-in, or of course, can be used as a platform alone to generate the deepening map, which is not limited by the present invention.

Further, the step S100 further includes, before the step S:

and establishing a BIM three-dimensional model according to a pre-designed drawing rule, and checking and auditing the BIM three-dimensional model.

Specifically, before the generation of the deepened drawing of the BIM three-dimensional model, the BIM three-dimensional model needs to be established, the establishment of the BIM three-dimensional model can be carried out according to actual design requirements, and after the establishment is successful, the BIM three-dimensional model needs to be corrected and checked during the design so as to ensure the accuracy of the component layout drawing.

Please refer to fig. 2, which is a flowchart of the step S100, including the following steps:

s101, importing a pre-designed BIM three-dimensional model drawing, wherein the BIM three-dimensional model drawing is drawn according to an actual design size;

s102, extracting model outline dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

s103, integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table.

In this embodiment, the model overall dimension information refers to external dimensions of the model, such as height, width, length, and the like of the model, in the three-dimensional model with the concave-convex structure, the model overall dimension information further includes depth of the groove or the protrusion, length of the groove, distance from the edge of the groove to the edge of the member, and the like, for example, a bay window, which has the concave-convex structure, so its overall dimension includes multiple dimensions, the embedment position information includes a specific position dimension of the embedment in the member, which can determine the position of the embedment, the reinforcement position information includes reinforcement position dimensions of the member, such as distance between adjacent reinforcements, and the like, and a user can obtain all reinforcement positions of the member according to the reinforcement position dimensions. After the user imports the BIM three-dimensional model, the background program can directly analyze the BIM three-dimensional model to acquire various size information of the BIM three-dimensional model, so that the size information of the BIM three-dimensional model can be digitalized, and the background program can visualize and present the size information of the BIM three-dimensional model to the user.

S200, importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table.

Specifically, because the generated size parameter table cannot generate concrete information of a member, the concrete information of the member needs to be imported for engineering quantity calculation, a pop-up window of the system is used for a user to fill in the concrete information on an operation interface, in addition, in order to reduce the workload of the user, default information is generated before the embedded part information and the reinforcement information are input, the user can modify or not modify the information, during design, the user can modify the required embedded part information and the reinforcement information according to the requirement, and after modification, the system can automatically generate a new size parameter statistical table according to the modified information. The flowchart of step S200 is shown in fig. 3.

Please refer to fig. 3, which is a flowchart of the step S200, including the following steps:

s201, importing concrete information input by a user;

s202, judging whether default embedded part information and reinforcement information are modified, and if so, importing the modified embedded part information and reinforcement information;

and S203, generating a new parameter statistical table according to the information modified by the user.

Specifically, the concrete information includes concrete models, such as C30, etc., and needs to be imported into the system by a user after being manually input by a window, the embedded part information includes the type and size of the embedded part, such as the length of an embedded screw, etc., the reinforcement information includes the type and size of a reinforcement, such as the length and diameter of the reinforcement, etc., in an operation interface, the system pops up a window for the user to fill in information, the window has the name of each embedded part and default embedded part information thereof, and the name of the reinforcement and default reinforcement information thereof, the user can directly modify the embedded part information and the reinforcement information in the window, and after the modification is completed, the information is imported into the system in the window, and the system integrates the information and a previously generated size parameter statistical table, thereby generating a new size parameter statistical table.

S300, generating a two-dimensional or three-dimensional deepening drawing with the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table.

Specifically, after a new size parameter statistical table is generated, the system can integrate new size parameter information into the BIM three-dimensional model, since the dimensioning in the BIM three-dimensional model results in unclear labeling, and makes part of the labeled dimension impossible to be represented in a plan view, therefore, the present invention needs to convert the BIM three-dimensional model into a two-dimensional or three-dimensional deepened image and then perform size marking, in order to present each size of the BIM three-dimensional model, therefore, the present invention needs to derive views of various viewing angles of the BIM three-dimensional model and sectional views thereof capable of representing the dimensions of relevant positions, such as the positions of the reinforcing bars, the positions of embedded parts and the like, after each view map and the related sectional view are derived, the system imports a new size parameter statistical table into each view, thereby generating a two-dimensional or three-dimensional deepened map with labeled sizes. The flowchart of step S300 is shown in fig. 4.

Please refer to fig. 4, which is a flowchart of the step S300, including the following steps:

s301, generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

s302, integrating the size information of the generated new size parameter statistical table, and automatically marking the size information into each view of the three-dimensional model;

s303, automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model to generate a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information to generate an embedded part table.

Specifically, the two-dimensional or three-dimensional deepening drawing of the three-dimensional model at least comprises an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement arrangement drawing and a required cross section of the three-dimensional model, each view can reflect various size information of the BIM three-dimensional model, after each view is generated, a system integrates a newly generated size parameter statistical table, and marks the size information into each view of the three-dimensional model, so that the deepening drawing with marking information is generated, meanwhile, the system also automatically counts the types and the number of the reinforcement arrangements in the three-dimensional model, generates a reinforcement arrangement lofting statistical table, automatically counts the types and the number of embedded parts, and generates an embedded part table, thereby facilitating construction and engineering calculation.

Based on the method for automatically generating the deepening map of the BIM three-dimensional model, the invention further provides an apparatus for automatically generating the deepening map of the BIM three-dimensional model, please refer to fig. 5, which includes a processor 1 and a memory 2 connected to the processor 1, wherein the memory stores a computer program, and when the computer program is executed by the processor, the following steps are implemented:

importing a pre-designed BIM three-dimensional model diagram and automatically generating a size parameter statistical table;

importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table;

and generating a two-dimensional or three-dimensional deepening drawing of the three-dimensional model and a model data statistical table according to the BIM three-dimensional model, the generated size parameter statistical table and information input by a user.

Specifically, the two-dimensional or three-dimensional deepened drawing of the three-dimensional model at least comprises an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement diagram and a required sectional view of the three-dimensional model.

Further, the computer program, when executed by the processor 1, further implements the steps of:

introducing a pre-designed BIM three-dimensional model diagram, and drawing the BIM three-dimensional model diagram according to the actual design size;

extracting model overall dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

and integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table.

Further, the computer program, when executed by the processor, further implements the steps of:

importing concrete information input by a user;

judging whether the default embedded part information and the reinforcement information are modified, and if so, importing the modified embedded part information and the reinforcement information;

and generating a new parameter statistical table according to the information modified by the user.

Further, the computer program, when executed by the processor, further implements the steps of:

generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

integrating the generated dimension information of the new dimension parameter statistical table, and automatically marking the dimension information into each view of the three-dimensional model;

and automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model and generating a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information and generating an embedded part table.

The present invention also provides a computer-readable storage medium storing one or more programs, which are executable by one or more processors (in this embodiment, the processor 1) to implement the steps in the method for automatically generating the depth map of the component according to the present invention.

In summary, the method, the device and the storage medium for automatically generating the deepened drawing of the BIM three-dimensional model provided by the invention comprise the steps of importing a pre-designed BIM three-dimensional model drawing and automatically generating a size parameter statistical table; then, importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table; and finally, generating a two-dimensional or three-dimensional deepening drawing with the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table. According to the invention, the dimension parameter statistical table is directly generated by utilizing the BIM, and then the dimension parameter statistical table adopted in the design can be obtained by importing the embedded part information and the reinforcement information in the dimension parameter statistical table, so that the input BIM is further directly integrated to generate views with different marked visual angles, and the work of material statistics, dimension checking, drawing verification, cost calculation and the like can be conveniently carried out by a user.

Of course, it will be understood by those skilled in the art that all or part of the processes of the methods of the above embodiments may be implemented by a computer program instructing relevant hardware (such as a processor, a controller, etc.), and the program may be stored in a computer readable storage medium, and when executed, the program may include the processes of the above method embodiments. The storage medium may be a memory, a magnetic disk, an optical disk, etc.

It should be understood that equivalents and modifications of the technical solution and inventive concept thereof may occur to those skilled in the art, and all such modifications and alterations should fall within the scope of the appended claims.

Claims (8)

1. A method for automatically generating a deepening map of a BIM three-dimensional model is characterized by comprising the following steps:

importing a pre-designed BIM three-dimensional model diagram and automatically generating a size parameter statistical table; the step of importing the pre-designed BIM three-dimensional model diagram and automatically generating the size parameter statistical table comprises the following steps:

introducing a pre-designed BIM three-dimensional model diagram, and drawing the BIM three-dimensional model diagram according to the actual design size;

extracting model overall dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table;

importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table;

generating a two-dimensional or three-dimensional deepening drawing with the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table;

the step of generating a two-dimensional or three-dimensional deepening drawing of the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table comprises the following steps:

generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

integrating the generated dimension information of the new dimension parameter statistical table, and automatically marking the dimension information into each view of the three-dimensional model;

and automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model and generating a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information and generating an embedded part table.

2. The method of claim 1, wherein the two-dimensional or three-dimensional deepening map of the BIM three-dimensional model comprises at least an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a desired sectional view of the three-dimensional model.

3. The method for automatically generating the deepening map of the BIM three-dimensional model according to claim 2, wherein the step of importing the concrete information, the embedded part information and the reinforcement information input by a user and generating a new dimension parameter statistical table comprises the following steps:

importing concrete information input by a user;

judging whether the default embedded part information and the reinforcement information are modified, and if so, importing the modified embedded part information and the reinforcement information;

and generating a new parameter statistical table according to the information modified by the user.

4. An automatic deep drawing generation device for a BIM three-dimensional model, which is characterized by comprising a processor and a memory connected with the processor, wherein the memory stores a computer program, and the computer program realizes the following steps when being executed by the processor:

importing a pre-designed BIM three-dimensional model diagram and automatically generating a size parameter statistical table;

the step of importing the pre-designed BIM three-dimensional model diagram and automatically generating the size parameter statistical table comprises the following steps:

introducing a pre-designed BIM three-dimensional model diagram, and drawing the BIM three-dimensional model diagram according to the actual design size;

extracting model overall dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table;

importing concrete information, embedded part information and reinforcement information input by a user and generating a new size parameter statistical table;

generating a two-dimensional or three-dimensional deepening drawing of the three-dimensional model and a model data statistical table according to the BIM three-dimensional model, the generated size parameter statistical table and information input by a user;

the step of generating a two-dimensional or three-dimensional deepening drawing of the three-dimensional model with the marked size and a model data statistical table according to the BIM three-dimensional model and the generated new size parameter statistical table comprises the following steps:

generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

integrating the generated dimension information of the new dimension parameter statistical table, and automatically marking the dimension information into each view of the three-dimensional model;

and automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model and generating a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information and generating an embedded part table.

5. The apparatus according to claim 4, wherein the computer program, when executed by the processor, further implements the steps of:

introducing a pre-designed BIM three-dimensional model diagram, and drawing the BIM three-dimensional model diagram according to the actual design size;

extracting model overall dimension information, embedded part position information and reinforcement position information in a BIM three-dimensional model diagram;

and integrating the model outline dimension information, the embedded part position information and the reinforcement position information to generate a dimension parameter statistical table.

6. The apparatus according to claim 5, wherein the computer program, when executed by the processor, further implements the steps of:

importing concrete information input by a user;

judging whether the default embedded part information and the reinforcement information are modified, and if so, importing the modified embedded part information and the reinforcement information;

and generating a new parameter statistical table according to the information modified by the user.

7. The apparatus according to claim 6, wherein the computer program, when executed by the processor, further implements the steps of:

generating an external view, a left view, a right view, a top view, a bottom view, an internal view, a reinforcement map and a required sectional view of the three-dimensional model according to the BIM three-dimensional model;

integrating the generated dimension information of the new dimension parameter statistical table, and automatically marking the dimension information into each view of the three-dimensional model;

and automatically counting the types and the number of the reinforcing bars in the reinforcing bar information in the three-dimensional model and generating a reinforcing bar lofting statistical table, and automatically counting the types and the number of the embedded parts in the embedded part information and generating an embedded part table.

8. A computer-readable storage medium, in which a computer program is stored, and when the computer program is executed by a processor, the computer program implements the steps in the method for automatically generating the deepening map of the BIM three-dimensional model according to any one of claims 1 to 3.

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