TWI652559B - Design method for drilling processing of steel building materials - Google Patents

Abstract

A drilling processing design method for steel construction materials includes: displaying a workpiece preview area, a parameter input area, and a drilling position graphic preview area on a work interface; selecting a range to be processed on the workpiece in the workpiece preview area; ; Input the parameters for drilling processing in the parameter input area, where the parameters are generated by drilling in an array; the graphical preview area of the drilling position graphically displays the arrangement of each drilling on the workpiece; The hole position graphic preview area selects zero or more of the drilling patterns and deletes them; the drilling patterns that have not been deleted are converted into the coordinate parameters of the drilling position on the workpiece.

Description

Design method for drilling processing of steel building materials

The present invention relates to a method for designing steel building materials, and more particularly to a method for easily and quickly designing using a graphical interface.

According to the plan, the specifications and quantities of steel construction materials required will be designed and counted during the preparation process of the building to facilitate the control of costs and the smooth progress of the project. Recently, based on the development of computer technology, the design of steel construction materials can be completed by writing a program, and then the processing machine performs the required processing actions according to the program. For example, when designing the drilling processing of steel construction materials, the design software provides several different parameter input interfaces, including the driller used to generate an array arrangement as shown in Figure 5, and the 6th The figure shows a driller used to generate two parallel rows of drill holes, so that users can quickly create multiple regular drill holes by simply entering parameters. However, in some cases where special design is required, the drilling positions are irregularly arranged, which cannot be generated using the aforementioned interface. Therefore, the conventional design software provides a parameter input interface as shown in FIG. 7 which is used to create The location of a single drill hole allows users to enter the parameters of each drill hole one by one to complete the overall design planning.

However, the foregoing method needs to write parameters one by one for each drilling position, and the steps are too complicated, so it takes a lot of time. On the other hand, the aforementioned parameter input interface is a full-text interface. In addition to prone to input errors, the part that has been written is presented in text and does not have legibility that can be understood at a glance. It is extremely inconvenient to review the correctness of the programming.

In view of this, how to improve the above problems is the primary problem to be solved by the present invention.

The main object of the present invention is to provide a method for designing drilling processing of steel construction materials, which displays the drilling position arrangement through a graphical interface, and can directly click and delete the drilling pattern to customize a customized position arrangement. The effect of simple operation and improved design efficiency.

In order to achieve the foregoing object, the present invention provides a method for designing drilling processing of steel construction materials, which includes: (1) displaying a workpiece preview area, a parameter input area, and a drilling position graphic preview area on a work interface; The preview area selects the range to be processed on the workpiece; 输入 enter the parameters for drilling processing in the parameter input area, where the parameters generate drill holes arranged in an array; 图形 graphically display each drill in the drill position graphic preview area The arrangement of holes on the workpiece; 选取 Select zero or more of the drilling patterns in the drilling position graphic preview area and delete them; Convert the drilling patterns that have not been deleted to the coordinate parameters of the drilling position on the workpiece.

In one embodiment, the borehole position graphic preview area can be used to change the arrangement position of each borehole in the vertical or horizontal direction.

The above-mentioned objects and advantages of the present invention can be easily understood from the detailed description and accompanying drawings of selected embodiments below.

Please refer to FIG. 1, which shows a method for designing drilling processing of a steel construction material provided by the present invention, which includes: (1) Displaying a workpiece preview area, a parameter input area and a drilling position graphic preview on a work interface ； Select the range to be processed on the workpiece in the workpiece preview area; 输入 Enter the parameters for drilling processing in the parameter input area, where the parameters are used to generate drill holes arranged in an array; Display the arrangement of each hole on the workpiece; 零 Select zero or more of the drilling patterns in the drilling position graphic preview area and delete them; In the drilling position graphic preview area, you can perform the arrangement of each drilling position Longitudinal or horizontal mirror changes; 转换 Conversion of the drilling patterns that have not been deleted into the coordinate parameters of the drilling position on the workpiece.

The design method of the present invention can be presented by a software program. The software program can present a working interface as shown in FIG. 2, which has a plurality of functional areas, including a workpiece preview area 1, a parameter input area 2 and a drilling position graphic preview area 3, among which the workpiece preview area 1 It is used to display the preview of the steel construction material to be designed. The parameter input area 2 is used to input the parameters of drilling processing to control the production pattern of the drilling, and the graphic preview area 3 of the drilling position is displayed graphically by the above parameters. The location of the resulting borehole.

The parameters entered in the parameter input area 2 as shown in FIG. 3 may include the number of holes, the distance between the holes, and the starting hole coordinates, etc. After the parameters are input, the generated drillings can be arranged in an array. The generated drilling pattern is displayed in the preview area 3 of the drilling position graph. In this example, after entering the starting hole coordinates (6080, 110) in the parameter input area 2, set 4 rows of holes in the X axis, and the spacing between each row is 60, 120, 60, and 4 rows in the Z axis. Holes, the spacing of each row of holes is 60 respectively, and the patterned array of drilling positions can be displayed in the preview position 3 of the drilling position.

Based on the arrayed drilling positions, if the actual design is different from that of the drilling positions in only some of them, you can directly set the drilling position on the preview preview area 3 of the drilling position. A Select a drilling pattern and delete it. The drilling position pattern preview area 3 can immediately display the modified drilling arrangement situation as shown in Figure 4, so that users can identify and interpret it.

Furthermore, in the drilling position graphic preview area 3, longitudinal or horizontal mirroring changes can be made to the arrangement position of each drilling hole to achieve rapid and convenient modification.

Then, after the drilling position is arranged, the unremoved drilling patterns on the drilling position graphic preview area 3 are converted into the coordinate parameters of the drilling position on the workpiece by the computing power of the software program, such as In this example, the existing coordinates of each borehole are converted to the X-axis (0.00 60.00 180.00 240.00 0.00 60.00 180.00 60.00 240.00 0.00 60.00 180.00), and the Ｙ-axis (4 * -90.00 3 *), using point B as the origin. -30.00 2 * 30.00 3 * 90.00), which means the bottom row: X axis is (0.00 60.00 180.00 240.00), Ｙ axis is (-90.00 -90.00 -90.00 -90.00) Second row: X axis For (0.00 60.00 180.00), the Ｙ-axis is (-30.00 -30.00 -30.00) The third row: the X-axis is (60.00 240.00), the Ｙ-axis is (30.00 30.00) The fourth row: the X-axis is (0.00 60.00 180.00), the sagittal axis is (90.00 90.00 90.00). According to this, the processing machine can execute the processing action according to the aforementioned coordinates, and then generate a drill hole at a desired position.

The advantage of the present invention is that the drilling layout during the design process is displayed through a graphical interface, and the unnecessary hole positions can be directly clicked to delete. It has an intuitive operation mode, and the drilling position can be easily and quickly performed. design. On the other hand, the user directly browses the graphical interface in the graphic preview area 3 of the drilling position, which is very easy to understand and can easily review the correctness of the hole layout to avoid errors.

However, the disclosure of the above embodiments is only used to illustrate the present invention and is not intended to limit the present invention. Therefore, the replacement of equivalent components should still belong to the scope of the present invention.

In summary, those skilled in the art can understand that the present invention can indeed achieve the aforementioned purpose, and it has indeed complied with the provisions of the Patent Law, and filed an application in accordance with the law.

‧‧‧Workpiece preview area

‧‧‧Parameter input area

‧‧‧Drilling position graphic preview area

Figure 1 is a flowchart of the present invention; Figure 2 is a schematic diagram of the working interface of the present invention; Figures 3 and 4 are schematic diagrams of the use status of some areas of the working interface of the present invention; Figures 5, 6, and 7 are conventional design methods Parameter input interface diagram.

Claims (2)

A design method for drilling processing of steel construction materials includes: displaying a workpiece preview area, a parameter input area, and a drilling position graphic preview area on a work interface; and selecting a workpiece preview area to be processed on the workpiece. Range; input parameters for drilling processing in the parameter input area, where the parameters are generated in an array of drill holes; in the drill position graphic preview area, the arrangement of each drill hole on the workpiece is displayed graphically; Drilling position graphics preview area selects more than one of the drilling patterns and deletes them; converts the drilling patterns that have not been deleted into the coordinate parameters of the drilling position on the workpiece. A design method for drilling processing of steel construction materials includes: displaying a workpiece preview area, a parameter input area, and a drilling position graphic preview area on a work interface; and selecting a workpiece preview area to be processed on the workpiece. Range; input parameters for drilling processing in the parameter input area, where the parameters are generated in an array of drill holes; in the drill position graphic preview area, the arrangement of each drill hole on the workpiece is displayed graphically; Drilling position graphic preview area selects zero or more drilling patterns and deletes them; in the drilling position graphic preview area, vertical or horizontal mirror changes can be made to the arrangement position of each drill hole; Each drilling pattern is converted into the coordinate parameters of the drilling position on the workpiece.