KR20210007796A - Two step compatibility method and apparatus performing the same - Google Patents

Abstract

According to the present invention, provided is a structure design integration method, which comprises the steps of: receiving object shape information generated by executing structure analysis modeling based on the architectural drawing; generating compatible object shape information by modifying the object shape information based on the object shape information and building member usage information corresponding to the design status; and generating a design drawing using the compatible object shape information. Therefore, the present invention reflects the building member usage information corresponding to the design status in the object shape information generated by executing structure analysis modeling based on the architectural drawing, so that the information generated through structure analysis modeling can be reused, thereby having the advantage of reducing the design time.

Description

Structural design integration method and design integration automation device that executes it {TWO STEP COMPATIBILITY METHOD AND APPARATUS PERFORMING THE SAME}

The present invention relates to a structural design integration method and a design integration automation device that executes the same, and more particularly, to the object shape information generated by performing structural analysis modeling based on an architectural drawing, information on the use of building members corresponding to the design status is provided. The present invention relates to a structural design integration method for reducing design time by reusing information generated through structural analysis modeling by reflecting it, and a design integration automation device executing the same.

In general, structure and design are divided into tasks. In the structural work, structural analysis modeling is performed based on the architectural drawing to proceed with the structural drawing work, and in the design work, the design drawing work is performed based on the structural drawing created in the structural work.

However, since each work program used in the structure work and design work is not compatible, collaboration between the structure work and design work is not possible, so in the design work, the work already preceding the structure work is repeated the same.

As described above, since it is not possible to collaborate between the structural work and the design work, in the design work, a problem occurs in that the labor force versus time is doubled by repeating the work already preceding in the structure work in the same manner.

For example, in the design work, tasks such as grid layout, object shape information entry, structural analysis modeling, drawing, etc., which have already preceded the structural work, are repeated equally, resulting in a problem of doubling the labor force over time.

For the above reasons, there is a need for a program capable of real-time compatibility with each work program used in the structural work and the design work.

The present invention reflects the building member usage information corresponding to the design status in the object shape information generated by executing the structural analysis modeling based on the architectural drawing, so that the information generated through the structural analysis modeling can be reused, thereby reducing the time required for design. It is an object of the present invention to provide a method for integrating a structural design to enable and an integrated design automation device to execute the method.

In addition, the present invention integrates structural design so that the object shape information generated through structural analysis modeling of the structural procedure is compatible in the design procedure, so that the work already preceding the structural procedure in the design procedure does not have to be repeated equally, thereby reducing labor. An object of the present invention is to provide a method and a design integrated automation device for executing the method.

In addition, the present invention prevents mistakes in advance and reduces error rates by allowing the quantity, size, and spacing to be pre-edited through the list of building members for each building member when modifying the object shape information generated through the structural procedure in the design process. It is an object of the present invention to provide a method for integrating structural design that enables and a design-integrated automation device for executing the method.

In addition, the present invention is a structural design integration method that increases work efficiency by collecting information values that frequently change among the correction tabs when modifying object shape information generated through a structure procedure in a design procedure, and executing the same. It aims to provide a design integrated automation device.

In addition, in the present invention, it is possible to automate the quantity of goods calculated through the object shape information generated through the structure procedure in the design procedure. After the design process, the designer is asked to calculate the quantity, and by providing a device that can automatically calculate the quantity, a structural design integration method that can increase the convenience and time efficiency of work and a design integration automation device that executes it is provided. It aims to do.

The objects of the present invention are not limited to the above-mentioned objects, and other objects and advantages of the present invention that are not mentioned can be understood by the following description, and will be more clearly understood by examples of the present invention. In addition, it will be easily understood that the objects and advantages of the present invention can be realized by the means shown in the claims and combinations thereof.

According to a preferred embodiment of the present invention, the steps of receiving object shape information generated by performing structural analysis modeling based on the architectural drawing; Generating compatible object shape information by modifying the object shape information based on the object shape information and building member usage information corresponding to the design status; And generating a design drawing using the compatible object shape information.

According to another embodiment of the present invention, the step of generating compatible object shape information by modifying the object shape information based on the object shape information and the building member usage information corresponding to the design status includes a list of building members for each building member. Receiving a correction request signal for each of the quantity, size, and interval for each building member through; And generating compatible object shape information by modifying the size and position of the object shape information according to the size and interval corresponding to the correction request signal.

According to another embodiment of the present invention, the step of generating compatible object shape information by modifying the object shape information based on the object shape information and the building member usage information corresponding to the design status is a first among a plurality of building members. 1 When a second building member is created in a building member, a third building member required to use the first building member and the second building member together is automatically generated and reflected in the object shape information based on this. And generating the compatible object shape information.

According to another embodiment of the present invention, the step of generating compatible object shape information by modifying the object shape information based on the object shape information and the building member usage information corresponding to the design status is a first among a plurality of building members. 1 When a second building member for reinforcing the first building member is created in a building member, the number of third building members for combining the first building member and the second building member is automatically calculated based on the wall thickness. And generating the compatible object shape information by reflecting it to the object shape information based on the generated object shape information.

According to another embodiment of the present invention, the step of generating compatible object shape information by modifying the object shape information based on the object shape information and the building member use information corresponding to the design status is a member affected by a direction. And generating the compatible object shape information by reflecting it in the object shape information according to the user's setting value after allowing the direction to be changed in the same direction or according to the design status.

According to another embodiment of the present invention, an object shape information receiver configured to receive object shape information generated by performing structural analysis modeling based on an architectural drawing; A compatible object shape information generator for generating compatible object shape information by modifying the object shape information based on the object shape information and building member usage information corresponding to the design status; It characterized in that it comprises a design drawing generator for generating a design drawing by using the compatible object shape information.

According to another embodiment of the present invention, the compatible object shape information generation unit receives a correction request signal for each quantity, size, and interval for each building member through a list of building members for each building member, and among the object shape information It is characterized in that the compatible object shape information is generated by modifying the size and position according to the size and interval corresponding to the correction request signal.

According to another embodiment of the present invention, the compatible object shape information generation unit, when a second building member is generated in a first building member among a plurality of building members, the first building member and the second building member It is characterized in that the compatible object shape information is generated by automatically generating a third building member necessary for use together and reflecting it to the object shape information based on the generated third building member.

According to another embodiment of the present invention, the compatible object shape information generation unit, when a second building member for reinforcing the first building member is generated in a first building member among a plurality of building members, the wall thickness is Characterized in that the compatible object shape information is generated by automatically generating the number of third building members for combining the first building member and the second building member as a basis, and reflecting it in the object shape information based on this. do.

According to another embodiment of the present invention, the compatible object shape information generation unit allows the direction to be changed in the same direction or according to the design status when a member affected by the direction is generated, and then according to the user's setting value. It is characterized in that the compatible object shape information is generated by reflecting the object shape information.

According to the present invention as described above, information generated through structural analysis modeling can be recycled by reflecting the use information of building members corresponding to the design status to the object shape information generated by executing structural analysis modeling based on the architectural drawing. It has the advantage of reducing design time.

In addition, according to the present invention, there is an advantage that the object shape information generated through structural analysis modeling of the structural procedure is compatible in the design procedure, so that the work already preceding in the structural procedure in the design procedure does not need to be repeated, thereby reducing labor. .

In addition, according to the present invention, when modifying the object shape information generated through the structural procedure in the design procedure, the quantity, size, and interval can be pre-edited through the list of building members for each building member, thereby preventing mistakes and reducing the error rate. It has the advantage of being able to.

In addition, according to the present invention, when modifying object shape information generated through a structure procedure in a design procedure, there is an advantage in that it is possible to increase work efficiency by collecting information values that frequently change among the correction tabs in one tab.

1 is a block diagram illustrating an internal structure of an integrated design automation device according to an embodiment of the present invention.
2 is a flowchart illustrating an embodiment of a method for integrating structural design according to the present invention.
3 is an exemplary diagram for explaining a structural analysis modeling process according to an embodiment of the present invention.
4 is an exemplary diagram for explaining structural shape information according to an embodiment of the present invention.
5 and 6 are exemplary diagrams for describing shape information of a compatible object according to an embodiment of the present invention.
FIG. 7 is an exemplary diagram for explaining a function of automatically calculating a quantity of goods through object shape information generated through a structure procedure in a design procedure according to an embodiment of the present invention.

The above-described objects, features, and advantages will be described later in detail with reference to the accompanying drawings, and accordingly, one of ordinary skill in the art to which the present invention pertains will be able to easily implement the technical idea of the present invention. In describing the present invention, if it is determined that a detailed description of known technologies related to the present invention may unnecessarily obscure the subject matter of the present invention, a detailed description will be omitted. Hereinafter, preferred embodiments of the present invention will be described in detail with reference to the accompanying drawings. In the drawings, the same reference numerals are used to indicate the same or similar elements.

1 is a block diagram illustrating an internal structure of an integrated design automation device according to an embodiment of the present invention.

Referring to FIG. 1, the design integrated automation device 100 includes an object shape information receiving unit 110, a compatible object shape information generating unit 120, and a design drawing generating unit 130.

The object shape information receiving unit 110 receives object shape information generated by performing structural analysis modeling based on an architectural drawing.

In this case, the object shape information may include a structure code, a size, and a location. The present invention generates compatible object shape information by changing object shape information according to the design status so that it can be used in design work after receiving object shape information generated during a structural work.

The compatible object shape information generation unit 120 generates compatible object shape information by modifying the object shape information based on the object shape information received from the object shape information receiving unit 110 and the building member usage information corresponding to the design status. .

In one embodiment, the compatible object shape information generation unit 120, when a correction request signal of a specific member is received based on the object shape information, generates compatible object shape information by reflecting it in object shape information according to the correction request signal. .

For example, when the compatible object shape information generation unit 120 receives a correction request signal for the size and height of columns, girders, brackets, etc. based on the object shape information, it is reflected in the object shape information according to the correction request signal. By doing so, you can generate the compatible object shape information.

In another embodiment, the compatible object shape information generation unit 120 uses the first building member and the second building member together when a second building member is generated in a first building member among a plurality of building members. After automatically generating a third building member necessary for the purpose, the compatible object shape information may be generated by reflecting it in the object shape information based on this.

For example, the compatible object shape information generation unit 120 may generate the compatible object shape information by automatically generating a bracket when creating a girder on a column, and reflecting the bracket to the object shape information based on this.

In another embodiment, when a second building member for reinforcing the first building member is generated in the first building member among a plurality of building members, the compatible object shape information generation unit 120 is based on the wall thickness. After automatically generating the number of third building members for combining the first building member and the second building member, the compatible object shape information may be generated by reflecting it in the object shape information based on this.

In the above embodiment, the compatible object shape information generation unit 120 provides a procedure for adjusting the spacing of each of the third building members so that the engineer can adjust the spacing of each of the third building members.

Thereafter, the compatible object shape information generation unit 120 may generate the compatible object shape information by modifying the location of the object shape information to an interval received through a space adjustment procedure.

For example, the compatible object shape information generation unit 120 automatically generates the number of reinforcing bars per 100 mm of RC wall thickness when creating a slash on a column, and reflects it in the object shape information based on this. Object shape information can be created.

At this time, the compatible object shape information generation unit 120 provides a procedure for adjusting the spacing of each joint reinforcement so that the engineer can adjust the spacing of each of the third building members.

In another embodiment, the compatible object shape information generation unit 120 receives a correction request signal for each of the quantity, size, and interval for each building member through the list of building members for each building member, and the size and location of the object shape information The compatible object shape information may be generated by modifying according to the size and interval corresponding to the modification request signal.

As described above, the present invention reflects the building member usage information corresponding to the design status to the object shape information generated by executing the structural analysis modeling based on the architectural drawing, so that the information generated through the structural analysis modeling can be reused. It has the advantage of reducing the time required.

In another embodiment, the compatible object shape information generation unit 120 allows the direction to be changed in the same direction or according to the design status when a member affected by the direction is generated, and then the object shape according to the user's setting value. The compatible object shape information may be generated by reflecting it in the information.

For example, the compatible object shape information generation unit 120 provides an option setting procedure to generate the same direction when generating inserts and head anchors, and reflects the object shape information according to the option value received through the option setting procedure. Thus, the compatible object shape information can be generated.

For another example, the compatible object shape information generation unit 120 may generate the compatible object shape information by setting a default value so that the direction can be changed according to the bracket when generating the insert and the head anchor, and reflecting it in the object shape information. .

In another embodiment, the compatible object shape information generation unit 120 may generate the compatible object shape information by changing a size so as to be bound to a pre-generated building member when creating a building member and reflecting it in the object shape information. .

For example, the compatible object shape information generation unit 120 generates the compatible object shape information by changing the size to be bound to the left, right and height of the concrete girder floor when generating the column jaw, and reflecting it in the object shape information. can do.

For another example, the compatible object shape information generation unit 120 recognizes the height value of the top surface of the girder when creating a dowel bar on a column, binds it, and writes the reference dimension of the top surface.

In another embodiment, when a building member is generated, the compatible object shape information generation unit 120 may generate the compatible object shape information by reflecting a pre-determined main bar strength according to the reinforcement strength of the building member to the object shape information. .

In another embodiment, when the first building member is generated, the compatible object shape information generation unit 120 is generated in consideration of the covering according to the conditions when the second building member exists at a specific distance from the first building member. The compatible object shape information may be generated by reflecting it in the object shape information.

The design drawing generation unit 130 generates a design drawing by using the compatible object shape information generated by the compatible object shape information generation unit 120.

As described above, the present invention recycles information generated through structural analysis modeling by reflecting the use information of building members corresponding to the design status to object shape information generated by executing structural analysis modeling based on architectural drawings during structural work. Can reduce design time.

Although not shown in FIG. 1, the design integrated automation device 100 further includes a user interface providing unit providing a user interface so that the compatible object shape information generation unit 120 can modify the object shape information to generate compatible object shape information. Include.

The user interface providing unit may provide a list of building members for each building member, and may provide a modification request signal to the compatible object shape information generation unit 120 when receiving a modification request signal for each quantity, size, and interval for each building member.

In addition, the user interface providing unit provides each component through a tab for inputting information on the use of building members corresponding to the design status, and among each component, components frequently used by the user can be collected and provided in one tab. have.

In addition, the user interface providing unit generates and provides a corresponding interface when a user input is required in the process of generating compatible object shape information through the compatible object shape information generating unit 120.

2 is a flowchart illustrating an embodiment of a method for integrating structural design according to the present invention.

Referring to FIG. 2, the design integrated automation device 100 receives object shape information generated by performing structural analysis modeling based on an architectural drawing (step S210).

In this case, the object shape information may include a structure code, a size, and a location.

The present invention generates compatible object shape information by changing object shape information according to the design status so that it can be used in design work after receiving object shape information generated during a structural work.

The integrated design automation device 100 generates compatible object shape information by modifying the object shape information based on the object shape information and the building member usage information corresponding to the design status (step S220).

In one embodiment for step S220, the integrated design automation device 100 receives a correction request signal for each of the quantity, size, and interval for each building member through the list of building members for each building member, and the size and location of the object shape information The compatible object shape information may be generated by modifying according to the size and interval corresponding to the modification request signal.

In another embodiment for step S220, when a second building member is generated in the first building member among the plurality of building members, the design integrated automation device 100 combines the first building member and the second building member together. After automatically generating a third building member necessary for use, the compatible object shape information may be generated by reflecting it in the object shape information based on this.

In yet another embodiment for step S220, the integrated design automation device 100 may determine the wall thickness when a second building member for reinforcing the first building member is generated in the first building member among the plurality of building members. As a reference, the number of third building members for combining the first building member and the second building member may be automatically generated, and then the compatible object shape information may be generated by reflecting it in the object shape information based on this.

In another embodiment of step S220, the design integrated automation device 100 allows the direction to be changed in the same direction or according to the design status when a member affected by the direction is generated, and then according to the user's set value. The compatible object shape information may be generated by reflecting it in the object shape information.

The design integrated automation device 100 includes a step of generating a design drawing using the compatible object shape information (step S230).

As described above, the present invention recycles information generated through structural analysis modeling by reflecting the use information of building members corresponding to the design status to object shape information generated by executing structural analysis modeling based on architectural drawings during structural work. Can reduce design time.

3 is an exemplary diagram for explaining a structural analysis modeling process according to an embodiment of the present invention. 4 is an exemplary diagram for explaining structural shape information according to an embodiment of the present invention. 5 and 6 are exemplary diagrams for describing shape information of a compatible object according to an embodiment of the present invention.

3 to 6, the integrated design automation device 100 receives object shape information generated by performing structural analysis modeling as shown in FIG. 3 based on an architectural drawing.

Such object shape information is as shown in FIG. 4 and may include a structure code, a size, and a location. The present invention generates compatible object shape information by changing object shape information according to the design status so that it can be used in design work after receiving object shape information generated during a structural work.

To this end, the integrated design automation device 100 corrects the object shape information based on the object shape information and the building member usage information corresponding to the design status after linking the object shape information as shown in FIG. 4 as shown in FIG. Compatible object shape information can be created.

That is, in the related art, since the design status differs from site to site, object shape information created during structural work could not be reused, but in the present invention, the object shape information is modified based on the building member usage information corresponding to the design status. Information can be generated, and a design drawing can be generated based on this.

The above-described design integration automation device 100 reflects the object shape information in the object shape information through the process of linking the object shape information as shown in FIG. 4 and then applying the building member usage information corresponding to the design status to the object shape information. The same compatible object shape information can be created.

For example, when the height of the building member “bracket” is adjusted as shown in FIG. 6, the design integrated automation device 100 may reflect the height of the building member “bracket” to the object shape information to generate compatible object shape information.

As described above, although the present invention has been described by the limited embodiments and drawings, the present invention is not limited to the above embodiments, which is various modifications and variations from these descriptions to those of ordinary skill in the field to which the present invention belongs. Transformation is possible. Accordingly, the idea of the present invention should be grasped only by the scope of the claims set forth below, and all equivalent or equivalent modifications thereof will be said to belong to the scope of the idea of the present invention.

100: Design Integration Automation Device
110: object shape information receiving unit
120: compatible object shape information generation unit
130: design drawing generation unit

Claims (7)

Receiving object shape information generated by performing structural analysis modeling based on the architectural drawing;
Generating compatible object shape information by modifying the object shape information based on the object shape information and building member usage information corresponding to the design status; And
And generating a design drawing using the compatible object shape information.
The method of claim 1,
The step of generating compatible object shape information by modifying the object shape information based on the object shape information and the building member usage information corresponding to the design status
When a second building member is created in the first building member among a plurality of building members, a third building member required to use the first building member and the second building member together is automatically generated, and the And generating the compatible object shape information by reflecting it on the object shape information.
The method of claim 1,
The step of generating compatible object shape information by modifying the object shape information based on the object shape information and the building member usage information corresponding to the design status
When a second building member for reinforcing the first building member is generated in the first building member among a plurality of building members, a third for combining the first building member and the second building member based on the wall thickness And generating the compatible object shape information by automatically generating the number of building members and reflecting the number of the building members to the object shape information based on this.
An object shape information receiving unit configured to receive object shape information generated by performing structural analysis modeling based on the architectural drawing;
A compatible object shape information generator for generating compatible object shape information by modifying the object shape information based on the object shape information and building member usage information corresponding to the design status;
And a design drawing generation unit that generates a design drawing using the compatible object shape information.
The method of claim 4,
The compatible object shape information generation unit automatically generates a third building member required to use the first building member and the second building member together when a second building member is generated in the first building member among a plurality of building members. And generating the compatible object shape information by reflecting it to the object shape information based on the generated object shape information.
The method of claim 4,
When a second building member for reinforcing the first building member is generated in a first building member among a plurality of building members, the compatible object shape information generation unit may be configured to generate the first building member and the second building member based on a wall thickness. An integrated design automation device, characterized in that after automatically generating the number of third building members for joining the building members and reflecting the number of the third building members to the object shape information based on this, the compatible object shape information is generated.
The method of claim 4,
When a member affected by a direction is generated, the compatible object shape information generation unit allows the direction to be changed in the same direction or according to the design status, and then reflects it in the object shape information according to the user's setting value, and the compatible object shape information Design integrated automation device, characterized in that to create a.

Images