A method, device and equipment for generating a column section information table and a storage medium

CN116150848BActive Publication Date: 2026-06-09CHINA ENERGY ENG GRP GUANGDONG ELECTRIC POWER DESIGN INST CO LTD

Patent Information

Authority / Receiving Office
CN · China
Patent Type
Patents(China)
Current Assignee / Owner
CHINA ENERGY ENG GRP GUANGDONG ELECTRIC POWER DESIGN INST CO LTD
Filing Date
2023-02-10
Publication Date
2026-06-09

AI Technical Summary

Technical Problem

In existing technologies, the description of reinforcement details for columns in industrial plants is cumbersome and prone to errors. In particular, in civil buildings, the cross-section and reinforcement information of the same type of column needs to be manually looked up in tables, which is labor-intensive and prone to errors.

Method used

By using a generation method, device, and storage medium, the three-dimensional coordinates of columns of the same type are determined using column numbers and grid coordinates. The column top elevation data, section numbers, and stirrup numbers are sorted, and an information table is created on the overall column positioning diagram. This data is automatically filled in to generate a column model information table.

Benefits of technology

It enables the automatic description of all cross-sections and reinforcement information of columns of the same type on a single overall column positioning drawing, reducing human error and improving work efficiency.

✦ Generated by Eureka AI based on patent content.

Smart Images

  • Figure CN116150848B_ABST
    Figure CN116150848B_ABST
Patent Text Reader

Abstract

The application discloses a column section information table generation method, which comprises the following steps: after obtaining column numbers and axial network coordinates, determining a plurality of first column models, obtaining column top elevation data of each first column model, and generating first sorting data after sorting in floor sequence; obtaining section numbers and distribution numbers of each first column model, respectively sorting in the order of elevation data to generate second sorting data and third sorting data; establishing a blank preset information table on an overall column positioning map, filling the column numbers, axial network coordinates, first sorting data, second sorting data and third sorting data into the blank preset information table, generating a column model information table and displaying; through the application, the description of all sections and reinforcement information of the same type of column can be completed on an overall column positioning map according to the generated column model information table.
Need to check novelty before this filing date? Find Prior Art

Description

Technical Field

[0001] This invention relates to the field of frame structure columns in industrial plants, and more particularly to a method for generating a column cross-section information table. Background Technology

[0002] In existing technologies, the description of column reinforcement in industrial plants is based on several requirements of building codes, including: column cross-sectional dimensions, column height, longitudinal reinforcement, transverse reinforcement, and the range of stirrup reinforcement zones. In civil buildings, each floor level is fixed, and most columns have their base and top located on a specific floor. Therefore, the column height and cross-sectional shape in civil buildings are relatively uniform. Firstly, after the design is completed, the designer needs to manually group the columns together, grouping those identical from bottom to top into one category and filling it in a column table. This grouping work is extensive, cumbersome, and prone to errors. For columns of the same type, it is also necessary to consult tables one by one, which is also very time-consuming and error-prone. Therefore, how to describe all cross-sectional and reinforcement information of the same type of column on a single overall column location drawing is a problem that urgently needs to be solved. Summary of the Invention

[0003] This invention provides a method, apparatus, device, and storage medium for generating column cross-section information tables, which can describe the cross-sections and reinforcement information of all columns of the same type on a single overall column positioning diagram.

[0004] This invention provides a method for generating a column section information table, comprising: determining several first column models with the same column number and grid coordinates based on the column number and grid coordinates of the column model;

[0005] For each first column model, obtain the preset three-dimensional coordinates of the two top ends of the first column model; based on the three-dimensional coordinates, generate column top elevation data representing the highest point of the first column model;

[0006] Sort the column top elevation data of each of the first column models according to the order of their respective floors to generate the first sorted data;

[0007] Obtain the section number corresponding to each of the first column models, and sort the section numbers of each of the first column models according to the arrangement order of the column top elevation information in the first sorting data to generate the second sorting data;

[0008] Obtain the stirrup number corresponding to each of the column models, and sort the stirrup numbers of each of the first column models according to the column top elevation information in the first sorting data to generate the third sorting data;

[0009] Create a blank preset information table on the overall column positioning diagram, and fill the preset blank information table with the column number, axis coordinates, first sorting data, second sorting data and third sorting data to generate the column model information table and display it.

[0010] Furthermore, the column top elevation data of each of the first column models are sorted from smallest to largest.

[0011] Furthermore, if the stirrup spacing information in the reinforced zone and the non-reinforced zone of the column model are different, then the stirrup number is composed of the stirrup diameter information, the stirrup spacing information in the reinforced zone, and the stirrup spacing information in the non-reinforced zone in sequence.

[0012] If the stirrup spacing information in the reinforced zone and the non-reinforced zone of the column model are the same, then the stirrup number is composed of the stirrup diameter information and the stirrup spacing information in the reinforced zone in sequence.

[0013] Furthermore, a blank preset information table is created on the overall column positioning diagram; the preset information table includes: a first column, a second column, and a third column;

[0014] Fill the first column with the column top elevation data in the first sorted data in the reverse order of sorting the first sorted data;

[0015] Fill the second column with the section number data in the second sorted data in the reverse order of sorting the first sorted data;

[0016] Fill the third column with the stirrup numbers from the second sorted data in the reverse order of the first sorted data.

[0017] Fill the column numbers and grid coordinates below the first, second, or third column;

[0018] Use the filled preset information table as the column model information table.

[0019] Based on the above method embodiments, the present invention provides corresponding apparatus embodiments;

[0020] This invention provides a device for generating a column cross-section information table, comprising: a column model confirmation module, an elevation data generation module, an elevation data sorting module, a cross-section numbering module, a stirrup numbering module, and an information table generation module;

[0021] The column model confirmation module is used to determine several first column models with the same column number and grid coordinates based on the column number and grid coordinates of the column model.

[0022] The elevation data generation module is used to obtain the preset three-dimensional coordinates of the two top ends of each first column model; and generate column top elevation data representing the highest point of the first column model based on the three-dimensional coordinates.

[0023] The elevation data sorting module is used to sort the column top elevation data of each of the first column models according to the order of the floors to generate first sorted data.

[0024] The section numbering module is used to obtain the section number corresponding to each of the first column models, and sort the section numbers of each of the first column models according to the arrangement order of the column top elevation information in the first sorting data to generate the second sorting data.

[0025] The stirrup numbering module is used to obtain the stirrup number corresponding to each of the column models, and sort the stirrup numbers of each of the first column models according to the column top elevation information in the first sorting data to generate the third sorting data.

[0026] The information table generation module is used to create a blank preset information table on the overall column positioning diagram, fill the preset blank information table with the column number, axis coordinates, first sorting data, second sorting data and third sorting data, generate the column model information table and display it.

[0027] Furthermore, the column top elevation data of each of the first column models are sorted from smallest to largest.

[0028] Furthermore, if the stirrup spacing information in the encrypted zone and the stirrup spacing information in the non-encrypted zone of the column model are different, then the stirrup number is composed of the stirrup diameter information, the stirrup spacing information in the encrypted zone and the stirrup spacing information in the non-encrypted zone in sequence.

[0029] If the stirrup spacing information in the reinforced zone and the non-reinforced zone of the column model are the same, then the stirrup number is composed of the stirrup diameter information and the stirrup spacing information in the reinforced zone in sequence.

[0030] Furthermore, a blank preset information table is created on the overall column positioning diagram; the preset information table includes: a first column, a second column, and a third column;

[0031] Fill the first column with the column top elevation data in the first sorted data in the reverse order of sorting the first sorted data;

[0032] Fill the second column with the section number data in the second sorted data in the reverse order of sorting the first sorted data;

[0033] Fill the third column with the stirrup numbers from the second sorted data in the reverse order of the first sorted data.

[0034] Fill the column numbers and grid coordinates below the first, second, or third column;

[0035] Use the filled preset information table as the column model information table.

[0036] Based on the above method embodiments, the present invention provides a corresponding device embodiment;

[0037] The present invention provides an apparatus comprising a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor, wherein the processor, when executing the computer program, implements the method for generating a column cross-section information table as described in any one of the present invention.

[0038] Based on the above method embodiments, the present invention provides a corresponding storage medium embodiment;

[0039] The present invention provides a storage medium comprising a stored computer program, wherein, when the computer program is executed, it controls the device where the storage medium is located to execute any of the column cross-section information table generation methods described above.

[0040] The embodiments of the present invention have the following beneficial effects:

[0041] This invention provides a method for generating a column cross-section information table. The method involves obtaining the column number and grid coordinates, determining several first column models, and for each first column model, determining the column top elevation data using two preset three-dimensional coordinates at its top. The elevation data is then sorted by floor level to generate first sorted data. Next, the cross-section numbers of each first column model are obtained and sorted according to the elevation data order to generate second sorted data. Finally, the stirrup numbers of each first column model are obtained and sorted according to the elevation data order to generate third sorted data. A blank preset information table is created on the overall column positioning diagram, and the column number, grid coordinates, first sorted data, second sorted data, and third sorted data are filled into the blank preset information table to generate and display the column model information table. By implementing this invention, the description of all cross-sections and reinforcement information of the same type of column can be completed on a single overall column positioning diagram based on the generated column model information table. Attached Figure Description

[0042] Figure 1 This is a schematic flowchart of a method for generating a column cross-section information table according to an embodiment of the present invention;

[0043] Figure 2This is a schematic representation of a column model and column model information provided in an embodiment of the present invention;

[0044] Figure 3 This is a schematic diagram of a column model information table and its structure provided in an embodiment of the present invention;

[0045] Figure 4 This is a schematic diagram of a device for generating a column cross-section information table according to an embodiment of the present invention. Detailed Implementation

[0046] The technical solutions of this invention will now be clearly and completely described with reference to the accompanying drawings. Obviously, the described embodiments are only a part of the embodiments of this invention, and not all of them. All other embodiments obtained by those skilled in the art based on the embodiments of this invention without creative effort are within the scope of protection of this invention.

[0047] like Figure 1 As shown in the figure, one embodiment provides a method for generating a column cross-section information table, including:

[0048] Step S1: Based on the column number and grid coordinates of the column model, determine several first column models with the same column number and grid coordinates;

[0049] Step S2: For each first column model, obtain the preset three-dimensional coordinates of the two top ends of the first column model; based on the three-dimensional coordinates, generate column top elevation data representing the highest point of the first column model;

[0050] Step S3: Sort the column top elevation data of each of the first column models according to the order of their respective floors to generate the first sorted data;

[0051] Step S4: Obtain the section number corresponding to each of the first column models, and sort the section numbers of each of the first column models according to the arrangement order of the column top elevation information in the first sorting data to generate the second sorting data;

[0052] Step S5: Obtain the stirrup number corresponding to each of the column models, and sort the stirrup numbers of each of the first column models according to the column top elevation information in the first sorting data to generate the third sorting data;

[0053] Step S6: Create a blank preset information table on the overall column positioning diagram, fill the column number, axis coordinates, first sorting data, second sorting data and third sorting data into the preset blank information table, generate the column model information table and display it.

[0054] It should be noted that the column models mentioned in this application all refer to vertical column models;

[0055] For step S1, illustratively, as follows: Figure 2 As shown, if the column number of the column model is "KG" and the grid coordinate is "G9", where "G" represents the horizontal line passing through the column in the figure and "9" represents the vertical line passing through the column in the figure, and "G" and "9" are perpendicular and intersect exactly at the column model in the figure, forming the column model coordinate "G9", then in this case, only among the column models with column number "KG" is the column model with grid coordinate "G9" found, and it is used as the first column model; this means that on the positioning diagram, only one column model needs to be displayed to represent multiple first column models.

[0056] For step S2, after determining several first column models, the node information at both ends of each first column model is determined, that is, the three-dimensional coordinates. Through the three-dimensional coordinate information of the main sub-model, the column top elevation data of the column model can be determined, that is, the height of the highest point of the column. For example, the three-dimensional coordinates at both ends of a column model are (x1, y1, z1) and (x2, y2, z2) respectively. Since the axis coordinates are consistent, it is only necessary to compare z1 and z2 and take the larger value as the column top elevation data.

[0057] For step S3, in an optional embodiment, the column top elevation data of each of the first column models are sorted from smallest to largest;

[0058] Specifically, after determining the elevation data of each first column model, the height order of each column can be reflected based on the magnitude of the column top elevation data. Given the same grid coordinates, this also reflects the floor order of each column. The sorted column top elevation data is then used as the first sorting data; (Illustrative example follows). Figure 3 As shown, the column top elevation of the first-floor column model is 3.97m, which means that the highest point of the column model is 3.97m above the reference surface. The column top elevation of the second-floor column model is 6.47m, which means that the highest point of the column model is 6.47m above the reference surface. Therefore, without knowing the floor to which the column belongs, we only need to sort according to the size of the elevation data. The first sorted data can reflect the floor order of each column.

[0059] For step S4, after determining multiple first column models, the information of the section numbers inherent in these column models is obtained, which can be found in [reference needed]. Figure 3C06x09-102 and C06x09-104 are column section numbers, which can reflect the column section and reinforcement information. Arranging each section number according to the arrangement order of each column top elevation information in the first sorting data can generate the second sorting data.

[0060] For step S5, in an optional embodiment, if the stirrup spacing information of the reinforced zone and the stirrup spacing information of the unreinforced zone of the column model are different, then the stirrup number is composed of the stirrup diameter information, the stirrup spacing information of the reinforced zone and the stirrup spacing information of the unreinforced zone in sequence.

[0061] If the stirrup spacing information of the reinforced zone and the non-reinforced zone of the column model are the same, then the stirrup number is composed of the stirrup diameter information and the stirrup spacing information of the reinforced zone in sequence.

[0062] Specifically, after determining multiple first column models, the stirrup numbering information inherent in the column models is obtained. This numbering information is then sorted according to the column top elevation information in the first sorting data. (See [reference needed]). Figure 3 The stirrups of the first layer of columns are numbered Φ10@100 / 200, and the stirrups of the second layer of columns are numbered Φ10@100. Here, Φ10 indicates that the stirrups of the columns are Φ10, 100 indicates the stirrup spacing information of the reinforced area of ​​the column model, and 200 indicates the stirrup spacing information of the unreinforced area of ​​the column model.

[0063] When the stirrup spacing information of the column model in the reinforced zone is 100 and the stirrup spacing information of the unreinforced zone is 200, that is, when the stirrup spacing information of the reinforced zone and the unreinforced zone are different, the stirrup number of the column can be represented as Φ10@100 / 200. When the stirrup spacing information of the column model in the reinforced zone and the unreinforced zone are the same and both are 100, the stirrup number of the column model can be represented as Φ10@100.

[0064] For step S6, in an optional embodiment, a blank preset information table is created on the overall column positioning diagram; the preset information table includes: a first column, a second column, and a third column;

[0065] Fill the first column with the column top elevation data in the first sorted data in the reverse order of sorting the first sorted data;

[0066] Fill the second column with the section number data in the second sorted data in the reverse order of sorting the first sorted data;

[0067] Fill the third column with the stirrup numbers from the second sorted data in the reverse order of the first sorted data.

[0068] Fill the column numbers and grid coordinates below the first, second, or third column;

[0069] Use the filled preset information table as the column model information table;

[0070] Specifically, first, create a blank pre-defined information table on the overall column positioning diagram. The information table is located next to the column model, as illustrated below. Figure 2 As shown, the information table is roughly divided into three columns. The first, second, and third columns consist of several stirrup number squares. First, the column numbers and grid coordinates of several column models are arranged side by side, and then filled into any square below the first, second, or third column. For example, if the column number is "KZ" and the grid information is "G9", then the expression after arranging them is "KZ-G9". Since the first sorting data has already sorted the column top elevation data, when filling the first sorting data into the first column, it is only necessary to fill it into the first column squares from top to bottom in the reverse order (from largest to smallest). Since the sorting order of the second sorting data corresponds to that of the first sorting data, it is only necessary to fill it in the same way as the first sorting data. The method involves filling the second sorting data into the second column of squares so that each section number corresponds to each column top elevation data. Similarly, since the sorting of the third sorting data corresponds to the sorting of the first sorting data, the third sorting data only needs to be filled into the third column of squares in the same way as the first sorting data to make each stirrup number correspond to each column top elevation data and each section number data. The preset information table after filling is used as the column model information table and displayed on the side of the column model in the overall column positioning diagram. In the generated column model information table, except for the first row of data which represents the column number and grid coordinates of each column model of the same type, each other row of data represents a first column model and the floor to which the column model belongs.

[0071] It should be noted that the original three-dimensional coordinate information, section number information, and stirrup number information of the column model were all pre-stored in the database.

[0072] By implementing the above embodiments of the present invention, the following effects are achieved:

[0073] A blank preset information table is created on the overall column positioning drawing. The column number, grid coordinates, column top elevation, section number, and stirrup number of the same type of column model are filled into this blank preset information table. This generates a column table that expresses the column top elevation, section number, and stirrup number information for each column model of the same type, and displays it. The generated column model information table can be directly displayed on the overall column positioning drawing, eliminating the need for staff to look up separate tables based on column type. By implementing this invention, based on the generated column model information table, the description of all sections and reinforcement information of the same type of column can be completed on a single overall column positioning drawing.

[0074] Based on the above method embodiments, the present invention provides corresponding apparatus embodiments.

[0075] like Figure 4 As shown, an embodiment of the present invention provides a device for generating a column section information table, including: a column model confirmation module, an elevation data generation module, an elevation data sorting module, a section numbering module, a stirrup numbering module, and an information table generation module;

[0076] The column model confirmation module is used to determine several first column models with the same column number and grid coordinates based on the column number and grid coordinates of the column model.

[0077] The elevation data generation module is used to obtain the preset three-dimensional coordinates of the two top ends of each first column model; and generate column top elevation data representing the highest point of the first column model based on the three-dimensional coordinates.

[0078] The elevation data sorting module is used to sort the column top elevation data of each of the first column models according to the order of the floors to generate first sorted data.

[0079] The section numbering module is used to obtain the section number corresponding to each of the first column models, and sort the section numbers of each of the first column models according to the arrangement order of the column top elevation information in the first sorting data to generate the second sorting data.

[0080] The stirrup numbering module is used to obtain the stirrup number corresponding to each of the column models, and sort the stirrup numbers of each of the first column models according to the column top elevation information in the first sorting data to generate the third sorting data.

[0081] The information table generation module is used to create a blank preset information table on the overall column positioning diagram, fill the preset blank information table with the column number, axis coordinates, first sorting data, second sorting data and third sorting data, generate the column model information table and display it.

[0082] In a preferred embodiment, the column section information table generation device, specifically the elevation data sorting module, is used to sort the column top elevation data of each of the first column models according to the floor order to generate first sorted data, including:

[0083] Sort the column top elevation data of each of the first column models from smallest to largest;

[0084] In a preferred embodiment, the column section information table generation device, if the stirrup spacing information of the reinforced zone and the stirrup spacing information of the unreinforced zone of the column model are different, then the stirrup number is composed of the stirrup diameter information, the stirrup spacing information of the reinforced zone and the stirrup spacing information of the unreinforced zone in sequence;

[0085] If the stirrup spacing information in the reinforced zone and the non-reinforced zone of the column model are the same, then the stirrup number is composed of the stirrup diameter information and the stirrup spacing information in the reinforced zone in sequence.

[0086] In a preferred embodiment, the column section information table generation device includes an information table generation module that is used to create a blank preset information table on the overall column positioning diagram, fill the preset blank information table with the column number, grid coordinates, first sorting data, second sorting data, and third sorting data, generate and display the column model information table, specifically including:

[0087] Create a blank preset information table on the overall column positioning diagram; the preset information table includes: a first column, a second column, and a third column;

[0088] Fill the first column with the column top elevation data in the first sorted data in the reverse order of sorting the first sorted data;

[0089] Fill the second column with the section number data in the second sorted data in the reverse order of sorting the first sorted data;

[0090] Fill the third column with the stirrup numbers from the second sorted data in the reverse order of the first sorted data.

[0091] Fill the column numbers and grid coordinates below the first, second, or third column;

[0092] Use the filled preset information table as the column model information table.

[0093] Based on the above method embodiments, the present invention provides corresponding device embodiments.

[0094] Another embodiment of the present invention provides an apparatus including a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor; when the processor executes the computer program, it implements a method for generating a column cross-section information table according to any embodiment of the present invention.

[0095] For example, in this embodiment, the computer program can be divided into one or more modules, which are stored in the memory and executed by the processor to complete the present invention. The one or more modules may be a series of computer program instruction segments capable of performing a specific function, which describe the execution process of the computer program in the device.

[0096] The device may be a desktop computer, laptop, handheld computer, or cloud server, etc. The device may include, but is not limited to, a processor and memory.

[0097] The processor can be a Central Processing Unit (CPU), or other general-purpose processors, digital signal processors (DSPs), application-specific integrated circuits (ASICs), field-programmable gate arrays (FPGAs), or other programmable logic devices, discrete gate or transistor logic devices, discrete hardware components, etc. A general-purpose processor can be a microprocessor or any conventional processor. The processor is the control center of the device, connecting various parts of the device via various interfaces and lines.

[0098] The memory can be used to store the computer programs and / or modules. The processor implements various functions of the device by running or executing the computer programs and / or modules stored in the memory and by calling data stored in the memory. The memory may mainly include a program storage area and a data storage area. The program storage area may store the operating system, at least one application program required for a function, etc. In addition, the memory may include high-speed random access memory and non-volatile memory, such as hard disk, RAM, plug-in hard disk, smart media card (SMC), secure digital (SD) card, flash card, at least one disk storage device, flash memory device, or other volatile solid-state storage device.

[0099] Based on the above method embodiments, the present invention provides corresponding storage medium embodiments.

[0100] Another embodiment of the present invention provides a storage medium including a stored computer program, wherein, when the computer program is executed, it controls the device where the storage medium is located to execute the method for generating a column cross-section information table according to any embodiment of the present invention.

[0101] In this embodiment, the storage medium is a computer-readable storage medium, and the computer program includes computer program code, which can be in the form of source code, object code, executable file, or some intermediate form. The computer-readable medium can include any entity or device capable of carrying the computer program code, recording media, USB flash drive, portable hard drive, magnetic disk, optical disk, computer memory, read-only memory (ROM), random access memory (RAM), electrical carrier signals, telecommunication signals, and software distribution media, etc. It should be noted that the content included in the computer-readable medium can be appropriately added or removed according to the requirements of legislation and patent practice in the jurisdiction. For example, in some jurisdictions, according to legislation and patent practice, computer-readable media do not include electrical carrier signals and telecommunication signals.

[0102] By implementing the above embodiments of the present invention, it is possible to describe all cross-sections and reinforcement information of columns of the same type on a single overall column positioning diagram based on the generated column model information table.

[0103] The above description represents the preferred embodiment of the present invention. It should be noted that those skilled in the art can make various improvements and modifications without departing from the principle of the present invention, and these improvements and modifications are also considered to be protected by the present invention.

Claims

1. A method for generating a column cross-section information table, characterized in that, include: Based on the column number and grid coordinates of the column model, determine several first column models with the same column number and grid coordinates; For each first column model, obtain the preset three-dimensional coordinates of the two top ends of the first column model; based on the three-dimensional coordinates, generate column top elevation data representing the highest point of the first column model; The column top elevation data of each of the first column models are sorted according to the floor order to generate the first sorted data; Obtain the section number corresponding to each of the first column models, and sort the section numbers of each of the first column models according to the arrangement order of the column top elevation information in the first sorting data to generate the second sorting data; Obtain the stirrup number corresponding to each of the first column models, and sort the stirrup numbers of each of the first column models according to the column top elevation information in the first sorting data to generate the third sorting data; Create a blank preset information table on the overall column positioning diagram, fill the blank preset information table with the column number, axis coordinates, first sorting data, second sorting data and third sorting data, generate the column model information table and display it; The step of sorting the column top elevation data of each of the first column models according to the floor order to generate first sorted data includes: Sort the column top elevation data of each of the first column models from smallest to largest.

2. The method for generating a column cross-section information table as described in claim 1, characterized in that, If the stirrup spacing information of the reinforced zone and the non-reinforced zone of the column model are different, then the stirrup number is composed of the stirrup diameter information, the stirrup spacing information of the reinforced zone, and the stirrup spacing information of the non-reinforced zone in sequence. If the stirrup spacing information in the reinforced zone and the non-reinforced zone of the column model are the same, then the stirrup number is composed of the stirrup diameter information and the stirrup spacing information in the reinforced zone in sequence.

3. The method for generating a column cross-section information table as described in claim 1, characterized in that, The process involves creating a blank preset information table on the overall column positioning diagram, filling the blank preset information table with the column number, grid coordinates, first sorting data, second sorting data, and third sorting data, generating and displaying the column model information table, including: A blank preset information table is created on the overall column positioning diagram; the preset information table includes: a first column, a second column, and a third column; Fill the first column with the column top elevation data in the first sorted data in the reverse order of sorting the first sorted data; Fill the second column with the section number data in the second sorted data in the reverse order of sorting the first sorted data; Fill the third column with the stirrup numbers from the second sorted data in the reverse order of the first sorted data. Fill the column numbers and grid coordinates below the first, second, or third column; The pre-defined information table after being filled in is used as the column model information table.

4. A device for generating a column cross-section information table, characterized in that, include: Column model confirmation module, elevation data generation module, elevation data sorting module, section numbering module, stirrup numbering module, information table generation module; The column model confirmation module is used to determine several first column models with the same column number and grid coordinates based on the column number and grid coordinates of the column model. The elevation data generation module is used to obtain the preset three-dimensional coordinates of the two top ends of each first column model; and generate column top elevation data representing the highest point of the first column model based on the three-dimensional coordinates. The elevation data sorting module is used to sort the column top elevation data of each of the first column models according to the order of the floors to generate first sorted data. The section numbering module is used to obtain the section number corresponding to each of the first column models, and sort the section numbers of each of the first column models according to the arrangement order of the column top elevation information in the first sorting data to generate the second sorting data. The stirrup numbering module is used to obtain the stirrup number corresponding to each of the first column models, and sort the stirrup numbers of each of the first column models according to the column top elevation information in the first sorting data to generate the third sorting data. The information table generation module is used to create a blank preset information table on the overall column positioning diagram, fill the blank preset information table with the column number, axis coordinates, first sorting data, second sorting data and third sorting data, generate the column model information table and display it. The elevation data sorting module is used to sort the column top elevation data of each of the first column models according to the floor order to generate first sorted data, specifically including: Sort the column top elevation data of each of the first column models from smallest to largest.

5. The apparatus for generating a column cross-section information table as described in claim 4, characterized in that, If the stirrup spacing information of the reinforced zone and the non-reinforced zone of the column model are different, then the stirrup number is composed of the stirrup diameter information, the stirrup spacing information of the reinforced zone and the stirrup spacing information of the non-reinforced zone in sequence. If the stirrup spacing information in the reinforced zone and the non-reinforced zone of the column model are the same, then the stirrup number is composed of the stirrup diameter information and the stirrup spacing information in the reinforced zone in sequence.

6. The apparatus for generating a column cross-section information table as described in claim 4, characterized in that, The information table generation module is used to create a blank preset information table on the overall column positioning diagram, fill the blank preset information table with the column number, axis coordinates, first sorting data, second sorting data, and third sorting data, generate a column model information table, and display it, specifically including: A blank preset information table is created on the overall column positioning diagram; the preset information table includes: a first column, a second column, and a third column; Fill the first column with the column top elevation data in the first sorted data in the reverse order of sorting the first sorted data; Fill the second column with the section number data in the second sorted data in the reverse order of sorting the first sorted data; Fill the third column with the stirrup numbers from the second sorted data in the reverse order of the first sorted data. Fill the column numbers and grid coordinates below the first, second, or third column; The pre-defined information table after being filled in is used as the column model information table.

7. A device, characterized in that, The system includes a processor, a memory, and a computer program stored in the memory and configured to be executed by the processor, wherein the processor, when executing the computer program, implements the method for generating a column cross-section information table as described in any one of claims 1 to 3.

8. A storage medium, characterized in that, The storage medium includes a stored computer program, wherein, when the computer program is executed, it controls the device where the storage medium is located to perform the method for generating a column cross-section information table as described in any one of claims 1 to 3.