JP2001028014A - Analyzing method for building structure using general cad program and computer-readable recording medium where program making computer analyze building structure by using general cad program is recorded - Google Patents

Abstract

PROBLEM TO BE SOLVED: To analyze a building structure by linking a general CAD program and a calculation program for the building structure together. SOLUTION: A building structure is designed by the general CAD program (step S1), the record number of a member shape reference file and the border condition of a structure plan reference file are arranged at a figure on a frame layer of the designed building structure, and the record number of a load shape reference file is arranged at a figure on a load case layer of the building structure (step S2). The structure calculation program reads the data of the figures on the frame layer and load case layer, the record numbers arranged at the figures, etc., to generate a node coordinate data file and a member arrangement file (step S3), and also calculates the building structure by using the structure plan reference file, member shape reference file, load shape reference file, node coordinate data file, and member arrangement file (step S4).

Description

DETAILED DESCRIPTION OF THE INVENTION

[0001]

BACKGROUND OF THE INVENTION The present invention relates to a general-purpose CAD program linked to a general-purpose CAD program used for designing a building structure and a structural calculation program for the building structure.
General-purpose C designed to analyze building structures using graphic data of building structures designed by AD programs
The present invention relates to a method for analyzing a building structure using an AD program, and a computer-readable recording medium storing a program for causing a computer to execute the analysis of a building structure using a general-purpose CAD program.

[0002]

2. Description of the Related Art Conventionally, the following method has been used as an example of a method for calculating the structure of a building structure. First, a designer designs a building structure using a general-purpose CAD program. For example, it performs design design of building structures, creation of application drawings, facility design, creation of construction drawings, and the like. When the design of the building structure is completed, the structural calculation of the building structure is performed. Here, for example, structural calculations are performed in accordance with the Japanese Structural Regulations and the Japanese Society of Japan standards, and the calculation results are evaluated
It confirms that the building structure is safe. Here, when performing a structural calculation, the operator reads data of a graphic designed by a general-purpose CAD program and inputs the data as data to the structural calculation program.

[0003]

However, in the above-mentioned prior art, the design of a building structure using a general-purpose CAD program and the structural calculation of the building structure are performed separately. For this reason, all of the graphic data required for the calculation must be manually read from the general-purpose CAD program and input to the structural calculation program, which has a problem that the operation is extremely complicated. Here, a structure calculation program with a CAD program is known. Since such a program must be a simple CAD program, it cannot cope with a wide range of designs, and the design constraints are large and insufficient.

Therefore, the problem to be solved by the present invention is to link a general-purpose CAD program with a calculation program for a building structure, thereby transferring graphic data designed by the general-purpose CAD program to the structure calculation program on a computer. Thus, the purpose of the present invention is to perform simple and accurate structural calculations and analyze building structures.

[0005]

According to a first aspect of the present invention, a general-purpose CAD program used for designing a building structure is linked with a structural calculation program for the building structure. Is a method of analyzing a building structure using graphic data of a building structure designed by a general-purpose CAD program, wherein a member shape is added to a figure on a frame layer of the building structure designed by the general-purpose CAD program. The record number for specifying the member shape is arranged by referring to the member shape reference file in which the data for specifying is classified, and the structure plan reference file in which the data for specifying the structural plan is classified is referred to. In addition to arranging the boundary conditions, the load on the figure on the load case layer of the building structure is classified into data for specifying the load shape. A record number for specifying a load shape with reference to a shape reference file is arranged, and the structure calculation program executes data of figures on the frame layer and the load case layer, and the member shapes arranged on these figures. The record number of the reference file, the boundary condition of the structural plan reference file, and the record number of the load shape reference file are read, and the node coordinate data file in which the data for specifying the node coordinates is classified, and the member arrangement is specified. And a member arrangement file that classifies data for the building structure, and using the structure plan reference file, the member shape reference file, the load shape reference file, the node coordinate data file, and the member arrangement file, Is performed, and the result is output.

According to a second aspect of the present invention, in the method for analyzing a building structure using the general-purpose CAD program according to the first aspect, the structure plan reference file includes a type of a structure type,
It has classification factors of ground coefficient, boundary condition, load case and edit case by region, and the member shape reference file is
It has classification items for parts, material data, cross-sectional shape, additional data for stress calculation, base plan, and arrangement of reinforcing bars, and the load shape reference file has classification items for nodal loads and member floor loads. According to a third aspect of the present invention, in the method for analyzing a building structure using the general-purpose CAD program according to the first or second aspect, the node coordinates of the graphic on the frame layer are grouped, and each group has a frame. It is characterized in that a number is given and a layer number is given to each layer in the frame number.

According to a fourth aspect of the present invention, in the method for analyzing a building structure using the general-purpose CAD program according to the third aspect, the node coordinate data file includes the frame number, the layer number, a seismic wave input base layer, Boundary conditions, node numbers,
It has three-dimensional coordinates and classification items of load case node load arrangement, and the member arrangement file has record items, member numbers, and load case member load arrangement classification items of the member shape reference file.

According to a fifth aspect of the present invention, by linking with a general-purpose CAD program used for designing a building structure, the analysis of the building structure is performed using graphic data of the building structure designed by the general-purpose CAD program. A computer-readable recording medium recording a program to be executed, a stress calculation formula of a building structure,
Eigenvalue calculation formula, linear response calculation formula, section test formula, and calculation formulas for performing static elasto-plastic analysis and dynamic elasto-plastic analysis are recorded, and the frame layer of the building structure designed by the general-purpose CAD program is recorded. Classify the data of the figure on the load case layer, the record number of the member shape reference file that classifies the data for specifying the member shape arranged on the figure on the frame layer, and the data for specifying the structural plan A reading process of reading the boundary condition of the obtained structural plan reference file and a record number of the load shape reference file in which data for specifying the load shape arranged in the figure on the load case layer is read; Nodal coordinate data file that classifies data for identifying nodal coordinates from data File creation processing for creating a member arrangement file in which data for classification is created, and the node coordinate data file and the member arrangement file created in the file creation processing, and the structural plan reference file, the member shape reference file, and Substituting necessary data in the load shape reference file into the predetermined calculation formula, and performing a structure calculation process of performing a structure calculation of the building structure, and outputting a result obtained in the structure calculation process to a predetermined output device And a program for causing a computer to execute the output process.

[0009]

According to the present invention, when a building structure is designed by a general-purpose CAD program, a record number for specifying a member shape and a boundary condition for specifying a structural plan for a figure on a frame layer. Are arranged, and a record number for specifying the load shape is arranged for the figure on the load case layer. By reading these record numbers and the like, the structure calculation program specifies the member shape, boundary conditions, and load shape of the figure. In addition, the structural calculation program receives the designed graphic data, reads the nodal data, etc., and classifies the data for specifying the nodal coordinates required for the structural calculation based on these data, and the like. And a member arrangement file in which data for specifying the member arrangement is classified. Then, necessary data is substituted into the calculation formula from these two data files and the three reference files, and the structure calculation is performed. As described above, by linking the general-purpose CAD program and the structural calculation program of the building structure, the general-purpose CAD program is linked.
An analysis of a building structure can be performed using graphic data of the building structure designed by the AD program.

[0010]

DESCRIPTION OF THE PREFERRED EMBODIMENTS One embodiment of the present invention will be described below. The present invention provides a general-purpose CAD (Computer Aided Design) program used for designing a building structure,
By linking with a structural calculation program of a building structure, the building structure is analyzed using graphic data of the building structure designed by a general-purpose CAD program. For the structural calculation, a computer-readable recording medium (CD-ROM) in which a program for causing a computer to execute analysis of a building structure is recorded is used.

A general-purpose CAD program gives attributes to graphic data for a database. When a building structure is designed by the general-purpose CAD program, the attribute data of the graphic data (node data, etc.) necessary for the structural calculation of the graphic data of the general-purpose CAD program is passed to the structural calculation program on the computer. The structural calculation program executes the structural calculation of the building structure using the data.

In the general-purpose CAD program, layers, class names, group names, and records are as follows. (1) Layer A layer is such that many tracing papers are layered on a drawing in a hierarchical manner. The various drawing elements of the figure are drawn on separate layers, and these layers are arranged in an overlapping manner. In this way, the entire view is assembled by freely setting according to the stage and type of work. (2) Class name The class name refers to a name given to a figure (a line, a closed surface, a single solid, a symbol, a reference point, etc.) which is an element of the figure.

(3) Group Name The group name is a name given to a plurality of family sets of figures (lines, closed surfaces, solids, symbols, reference points, etc.). (4) Record A record corresponds to a spreadsheet and has fields as elements. That is, a set of fields is a record, and this set of records becomes a file.

When the structural calculation of a building structure is executed by a computer, it is replaced with members of beams, columns, and walls, calculated in accordance with Japanese structural rules, standards and guidelines of the Japanese Society of Japan, and the calculation results are used in Japan. Evaluate according to the structural regulations, standards and guidelines of the Japanese Society of Japan, and confirm that it is safe. FIG. 1 is a perspective view showing the outline of the structure of the skip floor. FIG.
, The intersection coordinates of the members are called nodes, and are indicated by 3D reference points. The beams and columns of the members are indicated by a two-node wire, and the walls are indicated by a four-node surface.

Structural calculations require geometric data. Geometric data required for stress calculation include three-dimensional coordinates of nodes, boundary conditions of nodes (refer to node boundary conditions such as points in contact with the ground and points that are displaced when a force is applied), members between nodes , Floor loading weight, wind pressure and other loads. In addition, there is a position of the center of gravity of the floor required for the Japanese structural regulations. This is because when the characteristics of a structure are evaluated based on the above-mentioned Japanese structural rules, the horizontal force at the time of the earthquake is calculated based on the numerical values collected at the position of the center of gravity of the floor. The characteristic evaluation includes a rigidity (horizontal displacement of the building) and an eccentricity (torsion of the floor of the building).

In the present invention, three reference files and two data files are used in analyzing a building structure using graphic data of the building structure designed by a general-purpose CAD program. The reference file includes a structure plan reference file, a member shape reference file, and a load shape reference file. The data file includes a node coordinate data file and a member arrangement file.

The structure plan reference file classifies data for specifying the structure plan, is divided into the following items, and each item includes the following elements. (1) Types of structure types Three-dimensional arbitrary-shaped structure, two-dimensional arbitrary-shaped structure, planar lattice structure. (2) Ground coefficient according to region The natural period of the building in two directions, regional coefficient, ground natural period, damping coefficient, and standard seismic intensity coefficient. (3) Boundary conditions Inclined coordinates, seismic isolation device, ground spring coefficient, node constraint. (4) Load case Vertical load, snow load, seismic load, wind pressure load, impact load,
Other additional loads. (5) Edit case Overlap of the load case by the factor.

The member shape reference file classifies data for specifying a member shape, and is divided into the following items, and each item includes the following elements. (1) Parts Pillars, beams, underground beams, diagonal materials, small beams, piles, miscellaneous walls, sleeve walls, hanging walls, waist walls, load-bearing walls. (2) Material data Concrete type, concrete strength, steel frame type, steel frame strength, steel bar type, steel bar strength. (3) Cross-sectional shape H-shaped, square pipe, round pipe, quadrangular cross section. (4) Additional data for stress calculation (5) Base plan (6) Arrangement of reinforcing bars FIG. 2 shows a list of the elements of the cross-sectional shape of the above (3) classified into 50 elements. Further, the member shape reference file is divided into records for specifying the member shape, and a record number is assigned to each record.

The load shape reference file classifies data for specifying a load shape, and is divided into the following items. Similarly to the above-mentioned member shape reference file, the load shape reference file is divided into records for specifying the load shape, and a record number is assigned to each record. (1) Nodal load (2) Member floor load (3) Additional load of other members (4) Member wind pressure load

FIG. 3 is a flowchart showing an outline of a flow of structural calculation of a building structure from the design of the building structure using the general-purpose CAD program according to the present invention. First, in step S1, an operator designs a building structure using a general-purpose CAD program. At the time of this design, the operator creates a frame layer and a load case layer in different layers. The frame layer is of one type. Of the graphic data designed using a general-purpose CAD program,
The figure data necessary for the structural calculation is arranged in layers. The load case layer is a layer created for each required item of the load case in the above-described structural plan reference file.

Furthermore, in each layer, a class name is assigned to a figure line (column, beam, etc.) and a figure surface (bearing wall, sleeve wall, etc.). The boundary condition assigns a class name to the reference point of the figure. In step S2, the operator arranges a record number for specifying the member shape on the figure on the frame layer by referring to the member shape reference file, and refers to the structure plan reference file to execute the structure planning. Place boundary conditions for identification. Furthermore, a record number for specifying the load shape is arranged in the figure on the load case layer with reference to the load shape reference file. The record number of the load shape reference file is
Assign to the load case layer by its field name.
As a result, member shape data, boundary conditions, and load shape data are arranged in association with predetermined graphic data designed by the general-purpose CAD program.

In addition, a worker uses a general-purpose CAD program to group node coordinates with respect to figures on a frame layer, assign a frame number to this group, and further assign a layer (floor) to each layer within the frame number. Give a number. FIG.
It is a figure explaining the example of a frame number and a layer number. 4A shows a skip floor, FIG. 4B shows a twin tower, and FIG. 4C shows a road bridge. As the frame number and the floor number, for example, a building number such as “building 1”, “building 2”,..., A tower number such as “tower 1”, “tower 2”,. , "Pier 2", and so on. These building numbers, tower numbers, bridge pier numbers, and other frame numbers and layer numbers are assigned to frame layers using this field name. Grouping is performed in this way by aggregating the calculation results at the center of gravity of the layer,
This is to perform calculations that conform to the Japanese structural rules. At present, there is no concept of such a frame number.

When the above input is completed, preparation for structural calculation can be started. Before performing the structural calculation, it is necessary to store the above three reference files in a storage device such as a hard disk. The operator creates three reference files using the structural calculation program. The data of each reference file is input by an operator. Note that these 3
One reference file can be created before or after structural calculation, regardless of before or after the design of a building structure by a general-purpose CAD program.

The structural calculation program includes a stress calculation formula for a building structure, an eigenvalue calculation formula, a linear response calculation formula, a sectional test formula,
In addition, a calculation formula for performing the static elasto-plastic analysis and the dynamic elasto-plastic analysis is recorded, and a program for performing the following processing is recorded. Structural calculation program consists of figure data on frame layer and load case layer of building structure designed by general CAD program,
And read the record numbers placed with reference to the member shape reference files placed in these figures, the boundary conditions placed with reference to the structural plan reference file, and the record numbers placed with reference to the load shape reference files. processing). From these data, step S in FIG.
In 3, a node coordinate data file in which data for specifying node coordinates is classified and a member arrangement file in which data for specifying member arrangement are classified are created (file creation processing). That is, since the record numbers and the like are arranged for the figures on the frame layer and the load case layer as described above, when the record numbers and the like are read, the member shape data, boundary conditions, and load shapes of the figures are read. Data can be specified.

The node coordinate data file created here is divided into the following items. (1) Frame number (2) Layer number (3) Seismic wave input base layer (4) Boundary condition (5) Node number (6) Three-dimensional (X, Y, Z) coordinates (7) Load case node load arrangement The above-mentioned (1) frame number and (2) layer number are numbers assigned when the above-described nodal coordinates are grouped, and the nodal coordinate data is divided for each number.

The member arrangement file is divided into the following items. (1) Record number of member shape reference file (2) Member number (3) Load case member load arrangement

Next, in step S4, the necessary data in the five files of these two node coordinate data files and the member arrangement file and the three reference files are substituted into the calculation formula to obtain the building structure. The structure of the object is calculated (structure calculation processing). Then, the result is output to a predetermined output device (output processing).

FIG. 5 is a plan view showing columns, girders and small beams. Conventionally, in structural calculations, floor load processing has been performed by the following method. Conventionally, if the beam spanned between columns is a girder, and the beam spanned between girders is a small beam, structural calculations for only the major members of the girders, columns, and walls, excluding the small beams from the entire structural frame, were conventionally performed. . However, when the entire frame is structurally calculated in consideration of the small beams, the load pattern is simplified, and safe and accurate integration becomes possible. Therefore, in the present invention, the processing of the load including the small beam is performed.

Next, an outline of a specific structure calculation will be described. The structural calculation program includes stress calculation, section verification,
Perform static elasto-plastic analysis and dynamic elasto-plastic analysis by the incremental method.
A cross-section test is performed for each increment or for each time step.
_{a, f} u, at _{q u,} do the following discrimination. (1) Elastic range: f _a <1.0 (2) Elastic-plastic range: f _a ≧ 1.0 and f _u <1.0 (3) Plastic range: f _u ≧ 1.0 (4) Shear fracture : Q _u ≧ 1.0 Stress obtained for each axis σ _nx (x-axis direction stress), σ
_{From my} (bending stress around y axis), σ _mz (bending stress around z axis), τ _z (shear stress in z axis direction), and τ _y (shear stress in y axis direction), a flexibility matrix [f (6 × 6) ] Is derived and converted into a member rigidity matrix [k (12 × 12)].

The margin due to the allowable stress is calculated by the following equation. (1) Principal stress f _a = σ _nx + √ ((σ _my ) ² + (σ _mz )
^2): RC, if the _{SRC f a = σ nx + σ} my + σ mz: For Steel (2) shear stress _{q u = k√ ((τ z} ) 2 + (τ y) 2)

When the following data is prepared, the arbitrarily shaped frame structure analysis program can be applied to the elasto-plastic analysis of the building structure. (1) The coefficient for calculating horizontal seismic intensity shall be determined in accordance with the Japanese structural regulations. (2) A frame number and a layer number are given to the frame shape. (3) Consider the boundary conditions at the vertical load and the horizontal load. (4) Create a member shape file for section verification. (5) Create a load shape file including the floor load and the width of finding small beams and large beams. (6) Define a long-term vertical load LOAD case. (7) Define a vertical load LOAD case during an earthquake.

By the above (4), the axial force of the member, the principal stress of biaxial bending, the allowable strength of biaxial shear, and the ultimate strength can be obtained.
The stiffness matrix corresponding to the elastic region, the elasto-plastic region, and the plastic region is calculated from the MMN proof stress curve. In addition, the cross section of the small beam is verified according to the above (5). Furthermore, (6),
In the LOAD case of (7), the Ai distribution and the vibration analysis mass mi are calculated. Further, the analysis is performed in the check mode, and the preparation calculations of (1) to (7) are confirmed by a graphic.

In the static elasto-plastic analysis, two directions perpendicular to WE and SN or four directions including EW and NS are designated, and (6)
The incremental analysis is performed using the LOAD case of (7) as an initial condition. In the dynamic elasto-plastic analysis, elasto-plastic vibration analysis based on instantaneous rigidity is performed with the LOAD case of (6) as an initial condition. The member calculates a stiffness matrix by a hysteresis loop according to the allowable strength curve and the ultimate strength curve. The calculation results are the values obtained by summing the maximum values of acceleration, displacement, shearing force, etc. in the four directions of WE, SN, EW, NS at the position of the center of gravity of the layer, and the member end forces at the time when the maximum main stress occurs. And the margins are confirmed graphically.

[0034]

According to the present invention, a general-purpose CAD program is linked with a structural calculation program for a building structure,
Structural calculations are performed by passing graphic data designed with a general-purpose CAD program to a structural calculation program on a computer, so that structural calculations can be performed efficiently using graphic data of building structures designed with a general-purpose CAD program. Can be. In addition, since a general-purpose CAD program can be used and a special CAD program is not used, a wide range of designs can be performed without being restricted by the design of a building structure, and various building structures can be used. Structural analysis of objects can be performed.

[Brief description of the drawings]

FIG. 1 is a perspective view showing an outline of a structure of a skip floor.

FIG. 2 shows a list of classified sectional shape elements.

FIG. 3 is a flowchart showing an outline of a flow of structural calculation of a building structure from the design of the building structure using a general-purpose CAD program according to the present invention.

FIG. 4 is a diagram illustrating an example of a frame number and a layer number;
(A) shows a skip floor, (b) shows a twin tower, and (c) shows a road bridge.

FIG. 5 is a plan view showing columns, large beams, and small beams.

 ──────────────────────────────────────────────────続 き Continuation of front page (71) Applicant 500132270 Ing Co., Ltd. 3-23-9, Yawata, Ichikawa-shi, Chiba (72) Inventor Hironori Nagai 31-16-215, Honcho, Wako-shi, Saitama F-term (reference) 5B046 AA03 JA08 KA05 (54) [Title of the Invention] An analysis method of a building structure using a general-purpose CAD program, and a computer-readable recording storing a program for causing a computer to execute the analysis of the building structure using a general-purpose CAD program Medium

Claims (5)

[Claims] 1. A general-purpose CA used for designing a building structure
A method of analyzing a building structure using graphic data of a building structure designed by a general-purpose CAD program by linking a D program and a structural calculation program of the building structure. The general-purpose CAD program In the figure on the frame layer of the designed building structure, record numbers for specifying the member shape are placed by referring to the member shape reference file that classifies the data for specifying the member shape, and The boundary conditions are arranged with reference to the structural plan reference file in which the data for specifying is classified, and the load shape reference in which the data for specifying the load shape is classified in the graphic on the load case layer of the building structure is referred to. A record number for specifying the load shape is arranged with reference to the file, and the structural calculation program And the data of the figures on the load case layer, the record number of the member shape reference file arranged in these figures, the boundary condition of the structural plan reference file, and the record number of the load shape reference file, A node coordinate data file that classifies the data for specifying the node coordinates, and a member arrangement file that classifies the data for specifying the member arrangement are created, and the structure plan reference file, the member shape reference file, A method of analyzing a building structure using a general-purpose CAD program, wherein a structural calculation of the building structure is performed using the load shape reference file, the node coordinate data file, and the member arrangement file, and the result is output. . 2. The method for analyzing a building structure using a general-purpose CAD program according to claim 1, wherein the structural plan reference file includes a type of a structure type, a ground coefficient according to a region, a boundary condition, a load case, and an edit case. The member shape reference file has classification items of parts, material data, cross-sectional shape, stress calculation additional data, base plan and reinforcing bar arrangement, and the load shape reference file has nodal loads and A method of analyzing a building structure using a general-purpose CAD program, comprising a classification item of a member floor load. 3. The general-purpose CA according to claim 1 or 2,
In the method for analyzing a building structure using a D program, a method of grouping node coordinates of a figure on the frame layer, giving a frame number to each group, and giving a layer number to each layer in the frame number, Of building structures using a general-purpose CAD program. 4. The analysis method for a building structure using a general-purpose CAD program according to claim 3, wherein the node coordinate data file includes the frame number, the layer number, a seismic wave input base layer, a boundary condition, and a node number. And three-dimensional coordinates, classification items of load case node load arrangement, and the member arrangement file has record items, member numbers, and classification items of load case member load arrangement of the member shape reference file. An analysis method of a building structure using a general-purpose CAD program. 5. A general-purpose CA used for designing a building structure.
A computer-readable recording medium which records a program for causing a computer to execute an analysis of a building structure using graphic data of the building structure designed by a general-purpose CAD program by linking with the D program. The stress calculation formula, eigenvalue calculation formula, linear response calculation formula, section test formula, and calculation formula for static elasto-plastic analysis and dynamic elasto-plastic analysis of the object are recorded and designed by a general-purpose CAD program. Identify the record data of the member shape reference file that classifies the data of the figure on the frame layer and the load case layer of the building structure, the data for specifying the member shape arranged on the figure on the frame layer, and the structure plan Boundary condition of the structural plan reference file that classifies the data for A reading process of reading a record number of a load shape reference file in which data for specifying a load shape arranged on a figure is read, and nodes that classify data for specifying node coordinates from the data read in the reading process. File creation processing for creating a coordinate data file and a member arrangement file in which data for specifying the member arrangement is classified; the node coordinate data file and the member arrangement file created in the file creation processing; and the structure plan Substituting necessary data in a reference file, the member shape reference file and the load shape reference file into a predetermined calculation formula, and performing a structure calculation process of performing a structure calculation of a building structure; And output processing for outputting the result to a predetermined output device. A computer-readable recording medium recording a program for causing a computer to analyze a building structure using a general-purpose CAD program characterized by being recorded.