KR101232658B1 - 3-dimensional modeling method of steel structure and computer readable medium for recording a program for executing the said method - Google Patents

Abstract

PURPOSE: A 3D steel frame modeling method and a computer-readable medium including a program for the method are provided to improve user convenience and prevent errors by storing connection unit data corresponding to a base material in a database and automatically forming a member and a bolt according to the connection unit data. CONSTITUTION: The automation formation of a member of a steel frame to be modeled is determined. The storage of a database of a received base material is determined(S30). If the base material is stored in the database, the member extracts connection unit data corresponding to the base material from the database to automatically form the data(S40). A search range is set to sense interference generated during the formation of the member. The generation of the interference is confirmed in the search range. If the interference is generated, an interference member is automatically changed. [Reference numerals] (AA) Start; (BB,DD,FF) No; (CC,EE,GG) Yes; (HH) End; (S10) Forming a member automatically?; (S20) Inputting a base material; (S30) Storing the input base material in a DB?; (S32) Displaying an error; (S34) Inputting attachment part data corresponding to the base material and storing the base material and attachment part data in the DB; (S40) Detecting the attachment part data corresponding to the base material from the DB and forming a member; (S50) Changing the base material?; (S60) Detecting attachment part data corresponding to a changed base material from the DB and forming a member

Description

3-DIMENSIONAL MODELING METHOD OF STEEL STRUCTURE AND COMPUTER READABLE MEDIUM FOR RECORDING A PROGRAM FOR EXECUTING THE SAID METHOD}

The present invention relates to a three-dimensional steel modeling method and a computer-readable medium that records a program for performing the same. More specifically, in the three-dimensional steel modeling, the member and bolt are automatically formed according to the joint data corresponding to the base material. The present invention relates to a steel three-dimensional modeling method for automatically changing an interference member by checking interference of a modeling result and a computer-readable medium recording a program for performing the same.

The steel structure, which is composed of a number of steel members connected, has relatively homogeneous material properties and excellent rigidity, so that the cross-section of the main structural material can be reduced compared to the concrete structure, and thus the available space can be secured. This unnecessary and quick assembly construction is possible to shorten the air and has various advantages.

In general, the design of steel structures proceeds to the stages of planning, analysis model construction, structural analysis, construction drawings, and construction drawings of members. Recently, due to the development of computational processing techniques, most structural analysis is carried out through computer programs. Drawings and drafting drawings are also carried out through a computer program.

In addition, various commercial 3D structure graphic programs have been developed to implement the finished state of construction steel structures and shapes for each construction stage in 3D graphics, enabling efficient communication and decision-making among related actors such as designers, field workers, orderers, and owners. Was done. In other words, by checking the shape of the steel structure in three-dimensional graphics before entering the actual construction, it is possible to save the cost and time required in the construction stage.

However, in the related art, the user manually inputs a value at the time of steel 3D modeling to form a joint. As a result, there was a problem that a modeling error and a loss of working time are caused by a user's input mistake.

In addition, the user must directly find the interference generated between the member constituting the joint and the member due to the positional change of the base material or the size change of the base material, and an error occurs when the interference is not found.

Prior art related to the present invention is Republic of Korea Patent Publication No. 10-2004-0019437 (2004.03.06. Publication, the name of the invention: steel frame drawing generation system using structure data and autocad).

The present invention was devised to improve the above-mentioned problem, and automatically forms a member and a bolt according to the joint data corresponding to the base material at the time of three-dimensional modeling of steel, and automatically changes the interference member by checking the interference of the modeling result. It is an object of the present invention to provide a computer-readable medium recording a steel three-dimensional modeling method and a program for performing the same.

Steel three-dimensional modeling method according to an aspect of the present invention comprises the steps of determining whether to automatically form a member of the steel to be modeled; Receiving a base material; Determining whether the input base material is stored in a DB; A first forming step of automatically forming a member by detecting junction data corresponding to the base material from the DB if the base material is stored in the DB; Setting a search range to detect interference generated when the member is formed; Confirming whether interference occurs within the search range; And automatically changing the interference member when the interference occurs.

The present invention is characterized in that the correspondence of the base material and the joint data corresponding to the base material can be added to the DB by user selection or automatically.

The present invention comprises the steps of displaying an error if the base material is not stored in the DB; And receiving the junction data corresponding to the base material and storing the base material and the received junction data in the DB.

According to the present invention, after forming the member according to the first forming step, determining whether the base material is changed; And forming a member according to the joint data corresponding to the changed base material when the base material is changed.

delete

delete

In the present invention, the step of automatically changing the interference member when the interference occurs, determining the interference member to be changed within the search range; Measuring a distance between the interference member to be changed and the remaining member; And automatically changing the interference member according to the distance.

In the present invention, the determining of the interference member to be changed within the search range may include determining whether the interference member to be changed is determined by determining whether the structure in which the interference has occurred is a base material or a member.

In the present invention, when interference between a plurality of members occurs in the step of determining an interference member to be changed within the search range, the interference member to be changed may be determined by determining a priority between the members.

In the present invention, the step of automatically changing the interference member according to the distance is characterized in that the interference member is automatically changed while maintaining the existing welding length when the member connected by welding is determined as the interference member to be changed. .

A computer-readable medium having a program recorded thereon according to another aspect of the present invention includes determining whether to automatically form a member of a steel frame to be modeled; Receiving a base material; Determining whether the input base material is stored in a DB; A first forming step of automatically forming a member by detecting junction data corresponding to the base material from the DB if the base material is stored in the DB; Setting a search range to detect interference generated when the member is formed; Confirming whether interference occurs within the search range; And automatically changing the interference member when the interference occurs.

The present invention may further include displaying an error if the base material is not stored in the DB, receiving the junction data corresponding to the base material, and storing the base material and the junction data in the DB. do.

In the present invention, the step of automatically forming the member according to the joint data corresponding to the input base material, determining whether the base material is changed; And a second forming step of forming a member according to the joint data corresponding to the changed base material value when the base material is changed.

delete

delete

According to the present invention, by storing the connection data corresponding to the base material in the DB and automatically forming the member and the bolt in accordance with the connection data corresponding to the base material, to prevent errors that can occur when directly entering the connection data and the user's Improve convenience

In addition, the present invention checks the interference between the structures generated after the modeling and by changing the interference member, to solve the interference between the structures that can occur during modeling.

1 is a flowchart illustrating an implementation process of a steel three-dimensional modeling method according to an embodiment of the present invention.
2 is a view showing a member formed automatically according to the steel frame three-dimensional modeling method according to an embodiment of the present invention.
3 is a view showing a member formed automatically changed in accordance with the base material change of the steel frame three-dimensional modeling method according to an embodiment of the present invention.
4 is a flowchart illustrating a process of changing an interference member of a steel 3D modeling method according to an exemplary embodiment of the present invention.
5 is a view showing a change in the interference member when the interference between the members of the steel frame three-dimensional modeling method according to an embodiment of the present invention.
6 is a view showing a change in the interference member when the interference between the member and the bolt of the steel three-dimensional modeling method according to an embodiment of the present invention.
7 is a view showing a change in the welding length of the interference member during the interference during welding of the member of the steel three-dimensional modeling method according to an embodiment of the present invention.

Hereinafter, with reference to the accompanying drawings, a steel-readable three-dimensional modeling method and a computer-readable medium recording a program for performing the same according to an embodiment of the present invention. In this process, the thicknesses of the lines and the sizes of the components shown in the drawings may be exaggerated for clarity and convenience of explanation. In addition, terms to be described below are terms defined in consideration of functions in the present invention, which may vary according to the intention or convention of a user or an operator. Therefore, definitions of these terms should be made based on the contents throughout the specification.

1 is a flowchart illustrating an implementation process of a steel three-dimensional modeling method according to an embodiment of the present invention.

2 is a view showing a member formed automatically according to the steel frame three-dimensional modeling method according to an embodiment of the present invention.

3 is a view showing a member formed automatically changed in accordance with the base material change of the steel frame three-dimensional modeling method according to an embodiment of the present invention.

Looking at the steel three-dimensional modeling method according to an embodiment of the present invention with reference to Figures 1 to 3, first determine whether to automatically form the member of the steel to be modeled (S10). That is, when the base material 10 is input according to the user's selection, the member may be automatically formed according to the joint data corresponding to the base material 10, and the user directly inputs the joint data to create the member according to the input joint data. It is also possible to form.

In the present embodiment, it is described that the member is formed according to the joint data, but the forming does not mean only the member but includes the bolt 30 and the like necessary for joining the member to the base material 10.

If the member is selected to automatically form the base material 10 is received (S20), it is determined whether the received base material 10 is stored in the DB (S30). According to the present embodiment, since the joint part data corresponding to the input base material 10 is detected from the DB to form a member, the input base material 10 should be stored in the DB. Therefore, the base material 10 and the joint data corresponding to the base material 10 are stored in pairs in the DB in advance.

If the input base material 10 is stored in the DB, the connection part data corresponding to the base material 10 is detected from the DB to form a member (S40), which corresponds to the first forming step. At this time, the member formed automatically by detecting the junction data corresponding to the base material 10 from the DB according to this embodiment is as shown in FIG.

That is, when the user selects the member to be automatically formed and inputs the base material 10, the size of the plate member 20 corresponding to the base material 10 and the quantity of the bolts 30 are automatically determined. Steel is modeled as well.

However, if the input base material 10 is not stored in the DB, the user needs to directly enter the junction data so that an error is displayed to inform the user of the error (S32).

At this time, the display of the error may be confirmed through a separate warning window that the base material 10 is not stored in the DB, the user by the naked eye by forming a member with the joint data that does not correspond to the base material 10 It is also possible to check for errors.

Next, the joint data corresponding to the base material 10 is received, and the base material 10 and the received joint data are stored in the DB (S34). Of course, if the error occurred because the input base material 10 is not stored in the DB simply because the user incorrectly inputs the base material 10, the user enters the correct base material 10 again, and the joint corresponding to the base material 10 The member may be formed according to the data.

Then, the joint part data corresponding to the newly stored base material 10 is detected from the DB to form a member (S40).

In the present embodiment, as well as automatically forming the base material 10 and the member according to the above process, and after that determines whether the base material 10 is changed (S50), when the base material 10 is changed (base material changed from the DB ( Detecting the junction data corresponding to 10) to form a member (S60), which corresponds to the second forming step.

The member formed by changing the base material 10 and detecting the junction data corresponding to the changed base material 10 from the DB is as shown in FIG. 3. That is, when the user changes the base material 10 in a state where the base material 10 and the member are formed, the member is automatically changed and formed according to the joint data corresponding to the changed base material 10 (S60). As shown in FIG. 3, as the base material 10 is changed, the size of the plate member 20 corresponding to the base material 10 and the quantity of the bolts 30 are automatically changed in the form shown in FIG. 2. Can be.

In the above process, when the input base material 10 is not stored in the DB and receives the junction data corresponding to the base material 10 and stores the junction data in the DB, the base material 10 and the base material are exemplified. It is natural that the correspondence relation to the junction data corresponding to (10) can be added to the DB at any time so as to automatically form a member.

Therefore, the user can update the corresponding relationship for the new base material 10 and the joint data corresponding to the base material 10 at any time in the DB.

According to the present exemplary embodiment, an error that may occur when the joint data corresponding to the base material 10 is stored in the DB and the member is automatically formed according to the joint data corresponding to the base material 10 to directly input the joint data. Prevents and improves user convenience.

4 is a flowchart illustrating a process of changing an interference member of a steel 3D modeling method according to an exemplary embodiment of the present invention.

5 is a view showing a change in the interference member when the interference between the members of the steel frame three-dimensional modeling method according to an embodiment of the present invention.

6 is a view showing a change in the interference member when the interference between the member and the bolt of the steel three-dimensional modeling method according to an embodiment of the present invention.

7 is a view showing a change in the welding length of the interference member during the interference during welding of the member of the steel three-dimensional modeling method according to an embodiment of the present invention.

Looking at the process of changing the interference member of the steel three-dimensional modeling method according to an embodiment of the present invention with reference to Figures 4 to 7 to form a member by the first forming step (S40) or the second forming step (S60) In order to detect the interference generated when the member is formed, a search range is set (S70).

That is, according to the present embodiment, after the member is formed (S40) through the corresponding relationship about the base material 10 stored in the DB and the joint data corresponding to the base material 10, the interference between the formed members is automatically checked. The interference is solved by changing the interference member.

In addition, when the base material 10 is changed, even after forming the member according to the joint data corresponding to the changed base material 10 (S60), it is possible to solve the interference by automatically changing the interference member by checking whether the interference is formed between the formed members. It is possible.

After setting the search range (S70), it is checked whether interference has occurred within the search range (S80), and if interference occurs, the interference member to be changed is determined (S90).

When the interference occurs, the step of determining the interference member to be changed (S90) determines whether the interference member is the base material 10 or the member (S92), and determines the priority between the members when there are a plurality of members that have the interference (S94). do.

The determination as to whether the base material 10 or the member is to determine a member having less importance than the base material as the interference member to be changed (S92), and the interference between the base material 10 such as the H beam and the member such as the plate member 20. If this occurs, the plate member 20 is determined as the interference member to be changed.

However, interference may occur not only between the base material 10 and the member but also between a plurality of members. Therefore, when interference occurs between a plurality of members, the priority of the members is determined (S94).

That is, when the interference occurs between the base material 10 and the member, the interference member to be changed may be determined without determining the priority between the members, and thus the process of determining the priority between the members (S94) may be omitted.

The priority between the members occurring between the plurality of members can be set by the user in advance, and in this embodiment, the priority between the splice plate member 20b, the gusset plate 20a and the stiffener plate is set. It is set as a standard.

Priority is set based on the importance of the plate member 20, ease of change, and the like. The priority of the splice plate 20b is the highest, and the priority is set in the order of the gusset plate 20a and the reinforcement plate. . Therefore, when interference occurs between the splice plate 20b and the gusset plate 20a, the gusset plate 20a is determined as the interference member to be changed.

These priorities are described by way of example, and it is natural that the setting of the priorities can be freely added depending on the importance of the plate member 20 and the ease of change.

In addition, in this embodiment, in order to determine the interference member to be changed, it is determined whether the interference member is the base material 10 or the member (S92), and determining the priority among the plurality of members where the interference has occurred (S94). Steps for determining the member can be freely added by the user.

When the interference member to be changed is determined through the above-described process, the distance between the interference member to be changed and the adjacent base material 10 and the member is measured (S100), and the interference member is changed according to the measured distance to automatically solve the interference ( S110).

In the case of the interference that may occur in the above-described steel three-dimensional modeling, there are interference between the base material 10 or the member and the member, the interference between the member and the bolt 30, and the interference during welding of the member.

Looking at the process of resolving interference according to this embodiment when each interference occurs,

First, the interference between the base material 10 or the member and the member is as shown in Fig. 5A. That is, the members are formed according to the base material 10, but the interference occurs as shown in FIG. 5A because the distances between the separate members associated with the separate base material 10 are formed without considering the distances.

As shown in (A) of FIG. 5, the structure may be stable until a portion of the plate member 20 shown below the H beam, which is the base material 10, may be stable, but the distance between the base material 10 and the plate member 20 may be increased. As it is formed without consideration, in fact, a part of the plate member 20 shown at the lower portion of the base material 10 cannot be formed, which causes a problem in stability.

Therefore, in the present embodiment, the search range is set based on the junction (S70), and since interference has occurred as shown in FIG. 5A (S80), the interference member to be changed is determined (S90). As described above, since the H beam is the base material 10 and the plate member 20 corresponds to the member, the H beam is determined as the interference member to be changed by the plate member 20 according to the importance of the steel structure (S92).

In this case, since the base material 10 and the member are clearly distinguished and there are not a plurality of members, the step (S94) of determining the priority between the members is omitted.

Next, the distance between the plate member 20 and the H beam of the base material 10 is measured (S100), and the length and shape of the plate member 20 as the interference member as shown in FIG. 5B according to the measured distance. It is formed by changing (S110).

Secondly, the interference between the member and the bolt 30 is as shown in Fig. 6A. That is, the plate member 20 is formed according to the base material, and the size, quantity, etc. of the bolts 30 of the plate member 20 are automatically determined. As shown in FIG. 6A, interference may occur.

In this embodiment, since the search range is set based on the junction (S80), and interference occurs as shown in FIG. 6A (S80), the interference member to be changed is determined (S90). Since the position of the bolt 30 is determined for stable coupling between the base material 10 and the base material 10 or the member, the bolt 30 is set not to be changed. Determined by absence.

The distance between the plate member 20, which is a member, and the bolt 30 is measured (S100), and the length and shape of the plate member 20, which is an interference member, are changed according to the measured distance as shown in FIG. (S110).

Third, the interference during welding of the member is as shown in Fig. 7A. That is, between the gusset plate member 20a and the splice plate member 20b welded to the base material 10 to join the base material 10 and the base material 10, and the gusset plate. It can be seen that interference has occurred between the bolt 20 coupled to the member 20a and the splice plate member 20b.

In this embodiment, since the search range is set based on the junction (S70), and interference occurs as shown in FIG. 7A (S80), the interference member to be changed is determined (S90). Since both the gusset plate member 20a and the splice plate member 20b correspond to members, the priority of each member must be determined. As described above, the splice plate member 20b has priority over the gusset plate member 20a. Since the rank is high, the gusset plate member 20a is determined to be the interference member to be changed.

In addition, as shown in FIG. 7A, it can be seen that interference has occurred between the bolt 30 coupled to the splice plate member 20b and the gusset plate member 20a, and the position of the bolt 30 is The gusset plate member 20a is determined to be the interference member to be changed without changing since it is determined for the stable coupling.

Therefore, the distance between the gusset plate member 20a and the bolt 30 and the splice plate member 20b is measured (S100), and the gusset plate member 20a which is an interference member as shown in FIG. ) Is formed by changing the length and shape (S110).

In addition, when the gusset plate member 20a is changed as shown in FIG. 7B, the welding length is maintained for stable connection between the H beam, which is the base material 10, and the gusset plate member 20a. If the length of the gusset plate member 20a is reduced by the portion where interference with the splice plate member 20b is formed, the welding length between the gusset plate member 20a and the H beam is shortened and the connection state becomes unstable.

Therefore, the welding length is maintained by increasing the length of the opposite gusset plate member 20a which does not interfere with the splice plate member 20b.

That is, in the present embodiment, when interference occurs during welding of the member and the member connected by welding is determined as the interference member to be changed, the interference member is changed while maintaining the welding length necessary for the existing stable connection. The welding length is set differently depending on the type and size of the steel structure to be connected as a length necessary for a stable connection.

As such, the present embodiment solves interference between structures that may occur during modeling by checking the interference between the structures generated after the modeling and changing the interference members.

While the present invention has been particularly shown and described with reference to exemplary embodiments thereof, it is clearly understood that the same is by way of illustration and example only and is not to be taken by way of limitation, I will understand. Therefore, the true technical protection scope of the present invention will be defined by the claims below.

10: base material 20: plate member
20a: gusset plate member 20b: splice plate member
30: Bolt

Claims (15)

Determining whether to automatically form a member of the steel frame to be modeled;
Receiving a base material;
Determining whether the input base material is stored in a DB;
A first forming step of automatically forming a member by detecting junction data corresponding to the base material from the DB if the base material is stored in the DB;
Setting a search range to detect interference generated when the member is formed;
Confirming whether interference occurs within the search range; And
Automatically changing the interference member when the interference occurs
Steel three-dimensional modeling method comprising a.
The method of claim 1,
Correspondence relationship between the base material and the joint data corresponding to the base material can be added to the DB by user selection or automatically.
The method of claim 1,
Displaying an error if the base material is not stored in the DB; And
Receiving the junction data corresponding to the base material and storing the base material and the received junction data in the DB;
Steel three-dimensional modeling method characterized in that it further comprises.
The method of claim 1,
After forming the member according to the first forming step,
Determining whether the base material is changed; And
A second forming step of forming a member according to the joint data corresponding to the changed base material when the base material is changed
Steel three-dimensional modeling method characterized in that it further comprises.
delete delete The method of claim 1,
Automatically changing the interference member when the interference occurs,
Determining an interference member to be changed within the search range;
Measuring a distance between the interference member to be changed and the remaining member; And
Automatically changing the interference member according to the distance
Steel three-dimensional modeling method comprising a.
8. The method of claim 7,
The determining of the interference member to be changed within the search range may include determining the interference member to be changed by determining whether the interference generated structure is a base material or a member.
The method of claim 8,
When the interference occurs between a plurality of members in the step of determining the interference member to be changed within the search range, the steel member three-dimensional modeling method characterized in that for determining the interference member to be changed by determining the priority between the members.
8. The method of claim 7,
In the step of automatically changing the interference member according to the distance, when the member connected by welding is determined as the interference member to be changed, the steel frame is characterized in that automatically changing the interference member while maintaining the existing welding length Modeling method.
Determining whether to automatically form a member of the steel frame to be modeled;
Receiving a base material;
Determining whether the input base material is stored in a DB;
A first forming step of automatically forming a member by detecting junction data corresponding to the base material from the DB if the base material is stored in the DB;
Setting a search range to detect interference generated when the member is formed;
Confirming whether interference occurs within the search range; And
Automatically changing the interference member when the interference occurs
A computer readable medium having recorded a program for executing the program.
12. The method of claim 11,
And displaying an error if the base material is not stored in the DB, receiving the joint data corresponding to the base material, and storing the base material and the joint data in the DB. Recorded computer-readable media.
12. The method of claim 11,
After forming the member according to the first forming step,
Determining whether the base material is changed; And
A second forming step of forming a member according to the joint data corresponding to the changed base material when the base material is changed
And a computer readable medium having recorded thereon a program.
delete delete

Images