CN111783204A - BIM-based steel bar generation method, device, equipment and medium for special-shaped component - Google Patents

Abstract

The invention provides a BIM-based steel bar generation method for a special-shaped component, which comprises the following steps: acquiring a target component model of the special-shaped component built based on the BIM; selecting three homodromous surfaces as virtual surfaces by using a target component model; generating a virtual body by using the three virtual surfaces; selecting another surface of the virtual body different from the virtual surface as a mode surface of the target component model; obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface; and generating corresponding steel bars in the special-shaped component by using the steel bar modeling rule and the mode surface. The invention also provides a device, equipment and medium for generating the steel bar of the special-shaped component based on the BIM. The invention can automatically process the reinforcing steel bar process design of the special-shaped component, reduce the workload of the reinforcing steel bar generation process and improve the working efficiency.

Description

BIM-based steel bar generation method, device, equipment and medium for special-shaped component

Technical Field

The invention belongs to the technical field of assembly type buildings, and particularly relates to a method, a device, equipment and a medium for generating a steel bar of a special-shaped component based on BIM.

Background

During assembly modeling, a large number of steel bars exist in a component, the existing steel bar generation method is basically used for generating the steel bars in the component based on a standard component, some special-shaped components (such as a wall with a bay window plate) still exist in a building, the structure of the special-shaped components is formed by a plurality of shapes, such as an L shape, a T shape, a concave shape, a square-shaped (with a hole in the wall) and the like, if the steel bars are generated according to the steel bar generation method in the standard component, some conditions which do not accord with the rule of the steel bars can be generated, the steel bars of the special-shaped components need to be checked manually, rework conditions exist, the workload is large, and the.

The invention content is as follows:

the invention aims to provide a BIM-based steel bar generation method for a special-shaped component, and aims to solve the technical problems of large workload and low efficiency in the steel bar generation process of the special-shaped component in the prior art.

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

a steel bar generation method of a BIM-based profiled member comprises the following steps:

acquiring a target component model of the special-shaped component built based on the BIM;

selecting three homodromous surfaces as virtual surfaces by using the target component model;

generating a virtual body by using the three virtual surfaces;

selecting another surface of the virtual body different from the virtual surface as a mode surface of the target member model;

obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface;

and generating corresponding steel bars in the special-shaped component by utilizing the steel bar modeling rule and the mode surface.

Optionally, the step of obtaining the steel bar molding rule of the profiled element according to the pattern surface includes:

displaying all steel bar modeling rules corresponding to the mode face on a terminal interface;

receiving a selection instruction of a user;

and obtaining the steel bar modeling rule of the corresponding special-shaped component according to the selection instruction.

Optionally, the step of obtaining the steel bar molding rule of the profiled element according to the pattern surface further includes:

displaying prompt information of the input steel bar modeling rule on a terminal interface according to the mode surface;

and receiving the steel bar modeling rule of the special-shaped component input by the user.

Optionally, the step of generating the corresponding steel bars in the profiled element by using the steel bar modeling rule and the pattern surface comprises:

acquiring the edge of a mode surface, the preset distance of the steel bars in the steel bar modeling rule and the arrangement direction of the steel bars;

generating a first steel bar according to the preset distance and the edge of the pattern surface;

and generating subsequent steel bars according to the arrangement direction and the preset distance.

Optionally, after the step of generating the subsequent steel bars according to the arrangement direction and the preset distance, the method further includes:

obtaining an edge distance between two parallel edges of a mode surface;

and calculating the number of the steel bars according to the edge distance and the preset distance.

Optionally, before the step of obtaining the target component model of the special-shaped component based on BIM, the method further includes:

and presetting a steel bar modeling rule of the special-shaped component corresponding to the mode surface in the terminal.

Optionally, the same-direction surface is a transverse surface or a vertical surface.

The invention also provides a device for generating the steel bar of the special-shaped component based on the BIM, which comprises:

an acquisition module for acquiring a target component model of a profiled component built on the basis of BIM;

the selection module is used for selecting three same-direction surfaces as virtual surfaces by utilizing the target component model;

a first generation module for generating a virtual body using three of the virtual surfaces;

a selection module for selecting, according to the virtual body, another surface different from the virtual surface as a mode surface of the target member model;

the obtaining module is used for obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface;

and the second generation module is used for generating corresponding steel bars in the special-shaped component by utilizing the steel bar modeling rule and the mode surface.

The invention also provides a BIM-based profiled element steel bar generation device, which comprises a processor, a memory and a BIM-based profiled element steel bar generation program stored on the memory and capable of being executed by the processor, wherein when the processor executes the BIM-based profiled element steel bar generation program, the steps of the BIM-based profiled element steel bar generation method are realized.

The invention also provides a medium, wherein the medium stores a BIM-based profiled element steel bar generation program, and when the processor executes the BIM-based profiled element steel bar generation program, the steps of the BIM-based profiled element steel bar generation method are realized.

The technical scheme of the invention at least has the following beneficial effects: according to the method for generating the steel bar of the special-shaped component based on the BIM, the target component model of the special-shaped component based on the BIM is obtained; selecting three homodromous surfaces as virtual surfaces by using a target component model; generating a virtual body by using the three virtual surfaces; selecting another surface of the virtual body different from the virtual surface as a mode surface of the target component model; obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface; and generating corresponding steel bars in the special-shaped component by using the steel bar modeling rule and the mode surface. The method can select the virtual surface to generate the virtual body based on the target component model of the special-shaped component, is convenient to find the steel bar modeling rule corresponding to the mode surface and accords with the virtual body, and automatically generates the corresponding steel bar according to the steel bar modeling rule, namely, the method can automatically process the steel bar process design of the special-shaped component, reduce the workload in the steel bar generating process and improve the working efficiency.

Drawings

Fig. 1 is a flowchart of an embodiment of a method for generating a steel bar based on a BIM profiled element according to the present invention;

FIG. 2 is a flow chart of another embodiment of a method for generating a steel bar based on a BIM profile component according to the present invention;

FIG. 3 is a flow chart of another embodiment of a method for generating a steel bar based on a BIM profile component according to the present invention;

FIG. 4 is a flow chart of another embodiment of a method for generating a steel bar based on a BIM profile component according to the present invention;

FIG. 5 is a flow chart of another embodiment of a method for generating a steel bar based on a BIM profile component according to the present invention;

fig. 6 is a schematic structural diagram of a reinforcing bar generating device based on a BIM profiled element provided by the present invention;

fig. 7 is a schematic diagram of a hardware structure of a reinforcing bar generating device based on a BIM profiled element according to an embodiment of the present invention.

Detailed Description

The flow chart of one specific embodiment of the method for generating the steel bar based on the BIM special-shaped component provided by the invention is shown in FIG. 1, and the method comprises the following steps:

step S101, acquiring a target component model of the special-shaped component built based on BIM; in the embodiment of the invention, a designer designs a member model of the special-shaped member based on a BIM design platform, the member model is stored in the platform, and when the BIM member model needs to be obtained, the designer can directly obtain a target member model of the special-shaped member by adopting the function of the platform, wherein the target member model of the special-shaped member in the embodiment is generally an outer contour model of the special-shaped member.

Step S102, selecting three homodromous surfaces as virtual surfaces by using the target component model;

after the target component model is obtained in step S101, three homodromous surfaces are selected as virtual surfaces, and a homodromous surface may be a horizontal surface or a vertical surface as long as the three surfaces are in the same direction. In a particular embodiment, the profiled member may be a bay window panel, which may be L-shaped, T-shaped, concave, clip-shaped (wall opening), or the like.

Step S103, generating a virtual body by using the three virtual surfaces;

step S104, selecting another surface of the virtual body different from the virtual surface as a mode surface of the target component model;

after three homodromous surfaces are found, a virtual body can be generated by using the three homodromous surfaces, and another surface, different from the three virtual surfaces, in the virtual body is selected as a mode surface of the target component model.

Step S105, obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface;

after the mode surface is selected, the preset steel bar modeling rules of the special-shaped component can be obtained according to the mode surface, specifically, in an embodiment, the steel bar modeling rules can be stored in advance at the terminal, after the mode surface is selected, all the steel bar modeling rules can be exhausted according to the mode surface, and then one of the steel bar modeling rules is selected as the steel bar modeling rule of the special-shaped component. Therefore, before obtaining the target component model of the special-shaped component built based on the BIM, the steel bar modeling rule of the special-shaped component corresponding to the mode surface can be preset in the terminal. In addition, in another embodiment, a rebar shaping rule input by a user can be received as the rebar shaping rule of the profiled element.

And S106, generating corresponding steel bars in the special-shaped component by using the steel bar modeling rule and the mode surface.

After the steel bar modeling rule is selected, the selected steel bar modeling rule and the mode surface can be used for generating the corresponding steel bar in the special-shaped component.

The technical scheme of the invention at least has the following beneficial effects: according to the method for generating the steel bar of the special-shaped component based on the BIM, the target component model of the special-shaped component based on the BIM is obtained; selecting three homodromous surfaces as virtual surfaces by using a target component model; generating a virtual body by using the three virtual surfaces; selecting another surface of the virtual body different from the virtual surface as a mode surface of the target component model; obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface; and generating corresponding steel bars in the special-shaped component by using the steel bar modeling rule and the mode surface. The method can select the virtual surface to generate the virtual body based on the target component model of the special-shaped component, is convenient to find the steel bar modeling rule corresponding to the mode surface and accords with the virtual body, and automatically generates the corresponding steel bar according to the steel bar modeling rule, namely, the method can automatically process the steel bar process design of the special-shaped component, reduce the workload in the steel bar generating process and improve the working efficiency.

As a specific implementation manner, referring to fig. 2, step S105 may specifically include:

s1051, displaying all steel bar modeling rules corresponding to the mode surfaces on a terminal interface;

s1052, receiving a selection instruction of a user;

and S1053, obtaining the steel bar modeling rule of the corresponding special-shaped component according to the selection instruction.

Specifically, after the mode surface is selected, all the steel bar modeling rules corresponding to the mode surface can be displayed on the terminal interface, and after a selection instruction input by a user is received, the steel bar modeling rules of the corresponding special-shaped component are obtained according to the selection instruction.

As a specific implementation manner, referring to fig. 3, step S105 may specifically include:

step S1054, displaying prompt information of the input steel bar modeling rule on a terminal interface according to the mode surface;

and step S1055, receiving the steel bar modeling rule of the special-shaped component input by the user.

In another embodiment, prompt information for inputting the steel bar modeling rule can be displayed on the terminal interface according to the mode surface, a designer inputs the steel bar modeling rule of the special-shaped component according to the prompt information, and the terminal receives the steel bar modeling rule of the special-shaped component input by a user.

As a specific implementation manner, referring to fig. 4, step S106 may specifically include:

step S1061, obtaining the edge of a pattern surface, the preset distance of the steel bars in the steel bar modeling rule and the arrangement direction of the steel bars;

step S1062, generating a first steel bar according to the preset distance and the edge of the pattern surface;

and step S1063, generating subsequent steel bars according to the arrangement direction and the preset distance.

Specifically, the edge of the pattern surface is obtained according to the pattern surface, and then the preset distance between each reinforcing steel bar and the arrangement direction of all the reinforcing steel bars are obtained from the reinforcing steel bar modeling rule. And then, generating a first steel bar according to the preset distance between the steel bars and the edge of the mode surface, wherein the preset distance can be the thickness of the heat-insulating layer in the actual operation process. After the first steel bar is generated, subsequent steel bars can be generated according to the arrangement direction and the preset distance, namely, the first steel bar is arranged along the arrangement direction at intervals of the preset distance until all the subsequent steel bars are arranged.

As a specific embodiment, referring to fig. 4, step S1063 may be followed by:

step S1064, obtaining an edge distance between two parallel edges of the pattern surface;

and step S1065, calculating the number of the steel bars according to the edge distance and the preset distance.

Specifically, the designer can obtain the edge distance between two parallel edges of the pattern surface, and then calculate the number of the reinforcing steel bars according to the edge distance and the preset distance, that is, the number of the reinforcing steel bars is obtained by dividing the edge distance by the preset distance.

Referring to fig. 5, the device for generating a reinforcing bar based on a BIM profiled element provided by the invention comprises the following parts:

an acquisition module 100 for acquiring a target component model of a profiled component built on the basis of BIM;

a selecting module 200, configured to select three homodromous surfaces as virtual surfaces by using the target component model;

a first generating module 300, configured to generate a virtual body using three virtual surfaces;

a selection module 400 for selecting another face of the virtual body different from the virtual face as a mode face of the target component model;

an obtaining module 500, configured to obtain a preset steel bar modeling rule of the special-shaped component according to the pattern surface;

a second generating module 600, configured to generate a corresponding steel bar in the profiled element by using the steel bar modeling rule and the pattern surface.

Optionally, the obtaining module provided by the present invention may further be configured to:

displaying all steel bar modeling rules corresponding to the mode face on a terminal interface;

receiving a selection instruction of a user;

and obtaining the steel bar modeling rule of the corresponding special-shaped component according to the selection instruction.

Optionally, the obtaining module provided by the present invention may further be configured to:

displaying prompt information of the input steel bar modeling rule on a terminal interface according to the mode surface;

and receiving the steel bar modeling rule of the special-shaped component input by the user.

Optionally, the second generating module provided by the present invention may be further configured to:

acquiring the edge of a mode surface, the preset distance of the steel bars in the steel bar modeling rule and the arrangement direction of the steel bars;

generating a first steel bar according to the preset distance and the edge of the pattern surface;

and generating subsequent steel bars according to the arrangement direction and the preset distance.

Optionally, the second generating module provided by the present invention may be further configured to:

obtaining an edge distance between two parallel edges of a mode surface;

and calculating the number of the steel bars according to the edge distance and the preset distance.

Optionally, the device for generating a reinforcing bar based on a BIM profiled element provided by the present invention further includes:

the system comprises a presetting module, wherein the presetting module is used for presetting the steel bar modeling rule of the special-shaped component corresponding to the mode surface in the terminal.

The reinforcing bar generating device of the special-shaped member based on BIM of this embodiment is used for implementing the aforementioned reinforcing bar generating method of the special-shaped member based on BIM, and therefore specific embodiments of the reinforcing bar generating device of the special-shaped member based on BIM can be seen from the foregoing embodiments of the reinforcing bar generating method of the special-shaped member based on BIM, for example, the obtaining module 100, the selecting module 200, the first generating module 300, the selecting module 400, the obtaining module 500, and the second generating module 600 are respectively used for implementing the above steps S101, S102, S103, S104, S105, and S106 of the reinforcing bar generating method of the special-shaped member based on BIM, so specific embodiments thereof can refer to descriptions of corresponding embodiments of each part, and details are not repeated here.

The method for generating the steel bar of the special-shaped member based on the BIM is mainly applied to equipment for generating the steel bar of the special-shaped member based on the BIM, and the equipment can be equipment with display and processing functions, such as a PC (personal computer), a portable computer, a mobile terminal and the like.

Reference is made to fig. 5, which is a schematic diagram of a hardware structure of a reinforcing steel bar generating device based on a BIM profiled element according to an embodiment of the present invention. In the embodiment of the present invention, the reinforcing bar generating apparatus based on the BIM special-shaped member and the reinforcing bar generating method based on the BIM special-shaped member described above may be referred to each other, and include a processor 1001 (for example, a CPU), a communication bus 1002, a user interface 1003, a network interface 1004, and a memory 1005. The communication bus 1002 is used for realizing connection communication among the components; the user interface 1003 may include a Display screen (Display), an input unit such as a Keyboard (Keyboard); the network interface 1004 may optionally include a standard wired interface, a wireless interface (e.g., WI-FI interface); the memory 1005 may be a high-speed RAM memory, or may be a non-volatile memory (e.g., a magnetic disk memory), and optionally, the memory 1005 may be a storage device independent of the processor 1001.

Optionally, the steel bar generation device based on the BIM profiled element provided by the invention can further comprise a camera, a Radio Frequency (RF) circuit, a sensor, an audio circuit, a Wi-Fi module and the like. Such as light sensors, motion sensors, and other sensors. In particular, the light sensor may include an ambient light sensor and a proximity sensor.

The medium according to the embodiment of the present invention stores a program for generating a steel bar of a BIM-based profiled member, where the program for generating a steel bar of a BIM-based profiled member is executed by the processor, so as to implement the steps of the method for generating a steel bar of a BIM-based profiled member in the above-mentioned embodiments.

The details of the present invention are described above. The principles and embodiments of the present invention are explained herein using specific examples, which are presented only to assist in understanding the method and its core concepts. It should be noted that the above embodiments are only used for illustrating the technical solutions of the present application and not for limiting the protection scope thereof, and although the present application is described in detail with reference to the above embodiments, those of ordinary skill in the art should understand that: it will be apparent to those skilled in the art that various changes and modifications can be made without departing from the principles of the invention, and it is intended that such changes and modifications also fall within the scope of the appended claims.

Claims (10)

1. A method for generating a steel bar of a special-shaped component based on BIM is characterized by comprising the following steps:

acquiring a target component model of the special-shaped component built based on the BIM;

selecting three homodromous surfaces as virtual surfaces by using the target component model;

generating a virtual body by using the three virtual surfaces;

selecting another surface of the virtual body different from the virtual surface as a mode surface of the target member model;

obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface;

and generating corresponding steel bars in the special-shaped component by utilizing the steel bar modeling rule and the mode surface.

2. The method of claim 1, wherein the step of obtaining the steel bar forming rule of the profiled member according to the pattern surface comprises:

displaying all steel bar modeling rules corresponding to the mode face on a terminal interface;

receiving a selection instruction of a user;

and obtaining the steel bar modeling rule of the corresponding special-shaped component according to the selection instruction.

3. The method of claim 1, wherein the step of obtaining the steel bar forming rule of the profiled member according to the pattern surface further comprises:

displaying prompt information of the input steel bar modeling rule on a terminal interface according to the mode surface;

and receiving the steel bar modeling rule of the special-shaped component input by the user.

4. A method of forming rebar based on a BIM form element as claimed in any one of claims 1 to 3 wherein the step of forming corresponding rebar within the form element using the rebar shaping rules and the pattern plane comprises:

acquiring the edge of a mode surface, the preset distance of the steel bars in the steel bar modeling rule and the arrangement direction of the steel bars;

generating a first steel bar according to the preset distance and the edge of the pattern surface;

and generating subsequent steel bars according to the arrangement direction and the preset distance.

5. The BIM-based profiled element rebar generation method of claim 4, wherein after the step of generating subsequent rebars according to the arrangement direction and the preset distance, further comprising:

obtaining an edge distance between two parallel edges of a mode surface;

and calculating the number of the steel bars according to the edge distance and the preset distance.

6. A method of generating a reinforcing bar for a BIM-based profiled element as claimed in claim 1, wherein the step of obtaining a target element model of the profiled element based on the BIM is preceded by the steps of:

and presetting a steel bar modeling rule of the special-shaped component corresponding to the mode surface in the terminal.

7. A method of forming rebar based on BIM profiled elements as claimed in any one of claims 1 to 3 wherein the co-directional planes are transverse or vertical planes.

8. A reinforcing bar of dysmorphism component generates device based on BIM, its characterized in that includes:

an acquisition module for acquiring a target component model of a profiled component built on the basis of BIM;

the selection module is used for selecting three same-direction surfaces as virtual surfaces by utilizing the target component model;

a first generation module for generating a virtual body using three of the virtual surfaces;

a selection module for selecting, according to the virtual body, another surface different from the virtual surface as a mode surface of the target member model;

the obtaining module is used for obtaining a preset steel bar modeling rule of the special-shaped component according to the mode surface;

and the second generation module is used for generating corresponding steel bars in the special-shaped component by utilizing the steel bar modeling rule and the mode surface.

9. A BIM-based profiled element rebar generation device comprising a processor, a memory, and a BIM-based profiled element rebar generation program stored on the memory that is executable by the processor, wherein the BIM-based profiled element rebar generation program when executed by the processor implements the steps of the BIM-based profiled element rebar generation method of any of claims 1 to 7.

10. A medium on which a BIM based form part rebar generation program is stored, wherein the BIM based form part rebar generation program when executed by the processor implements the steps of the BIM based form part rebar generation method of any of claims 1 to 7.

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