JPH04372072A - System for setting soft potential line data - Google Patents

Abstract

PURPOSE:To simply set the soft potential line data for symmetric model. CONSTITUTION:A plurality of soft potential line data is searched as a basis for one symmetric model. The obtained soft potential line data is stored together with an each reference potential line number added. The soft potential line data corresponding to the reference potential line number specified by the inputted soft potential line condition is selected from among the stored soft potential line data. Mirror image data is prepared by analyzing the soft potential line data selected according to the inputted mirror image condition. The potential line number of the mirror image specified by the soft potential line condition is set to the prepared mirror image data.

Description

[Detailed description of the invention]

0001

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a method of setting mirror image data, which is soft potential line data of the other side of a symmetrical model, based on inputted soft potential line data of one side of the symmetrical model.

0002

2. Description of the Related Art A soft potential line is a polygonal line formed by setting arbitrary points on the XY plane and connecting the points, and is used as a limit line. Figure 4
FIG. 2 is a diagram showing an example of a symmetrical model for explaining a conventional method of setting soft potential line data. The symmetrical model is symmetrical about the Y axis, and the model on the left side of the Y axis is called the L model, and the model on the right side of the Y axis is called the R model. Also, the line connecting the white circles indicates the set soft potential line data. The point data of the L model (white circles in the figure) obtained by moving the stylus to any position on the L model is input and set to the digitizing device, and the coordinate data representing the soft potential line data of the L model is printed or displayed. Output to a device etc. Then, the coordinate data X representing the soft potential line data of the output L model is
The signs of the coordinate components are inverted by the operator, and coordinate data representing the soft potential line data of the R model is created and input to the digitizing device. Then, the soft potential line data of the symmetrical model is set from the coordinate data representing the soft potential line data of the L model and the coordinate data representing the soft potential line data of the R model.

0003

[Problem to be Solved by the Invention] When setting soft potential line data of a symmetrical model using the conventional soft potential line data setting method described above, it is necessary to set soft potential line data using one of the symmetrical models. The coordinate data of the other model is calculated based on the coordinate data representing the set soft potential line data. The mirror image data, which is the soft potential line data of the other model, was set by inputting the calculated coordinate data from the keyboard, which caused the problem that inputting the coordinate data was time-consuming and prone to input errors. there were. The present invention was made in view of the above-mentioned circumstances, and an object of the present invention is to provide a method for setting soft potential line data that can easily set soft potential line data of a symmetric model. .

0004

[Means for Solving the Problems] The present invention relates to a method of setting mirror image data, which is soft potential line data of the other symmetrical model, based on soft potential line data of one of the input symmetrical models. The above object of the present invention is to obtain a plurality of reference soft potential line data in one of the symmetrical models, and to store each of the obtained soft potential line data with a reference potential line number attached thereto.
The soft potential line data corresponding to the reference potential line number specified by the input soft potential line condition is selected from the stored soft potential line data, and the selected soft potential line data is selected according to the input mirror image condition. This is achieved by analyzing line data to create mirror image data, and setting the potential line number of the mirror image designated by the soft potential line condition by attaching it to the created mirror image data.

[0005]

[Operation] In the present invention, preset soft potential line data is analyzed according to specified conditions, and soft potential line data that is symmetrical to the soft potential line data set for the prespecified axis is analyzed. Since certain mirror image data can be automatically set, soft potential line data of a symmetrical model can be set accurately and easily.

[0006]

DESCRIPTION OF THE PREFERRED EMBODIMENTS FIG. 1 is a block diagram showing an example of a digitizing apparatus that implements the soft potential line data setting method of the present invention. First, when a mirror image processing command SA is input into the condition input section 3 by an operator's operation of the keyboard 2, a condition setting guide SC is displayed on the display device (CRT) 9. The mirror image condition SB and the soft potential line condition SD are input into the condition input section 3 by the operator's operation of the keyboard 2 in accordance with the condition setting guide SC displayed on the CRT 9. The mirror image condition SB input to the condition input section 3 is stored in the mirror image condition memory 4, and the soft potential line condition SD is stored in the soft potential line condition memory 7.

On the other hand, a plurality of soft potential line data SED serving as a reference for one of the symmetrical models are stored in advance in the soft potential line data memory 8 via the soft potential line data setting section 1, and each has a reference potential. Line numbers are attached. Then, the soft potential line data SE corresponding to the reference potential line number specified in the soft potential line condition SD read from the soft potential line condition memory 7 to the soft potential line data memory 8 is sent to the mirror image processing section 5. be done. The soft potential line data SE read into the mirror image processing section 5 is analyzed according to the mirror image condition SB stored in the mirror image condition memory 4, and mirror image data SF is created and stored in the mirror image data memory 6. . The mirror image data SF stored in the mirror image data memory 6 is based on the soft potential line condition S stored in the soft potential line condition memory 7.
The potential line number of the mirror image designated by D is attached and stored in the soft potential line data memory 8. At that time, if mirror image data with the same mirror image potential line number is stored in the soft potential line data memory 8, the new mirror image data will be added to the soft potential line after the previous mirror image data is erased. The data is stored in the data memory 8.

FIG. 2 is a flowchart showing an example of the operation of a digitizing apparatus that implements the soft potential line data setting method of the present invention. First, the operator scans one of the symmetrical models with the stylus according to the soft potential line data setting guide displayed on the CRT9 to obtain multiple reference soft potential line data, and assigns a reference potential line number to each. and stored in the soft potential line data memory 8 via the soft potential line data setting section 1 (step S1,
S2). Next, the operator follows the condition setting guide displayed on the CRT9, for example as shown in Figure 3, and sets the soft potential line conditions consisting of the reference potential line number, the mirror image potential line number, the axis of symmetry, and the distance from the basic axis. The mirror image conditions are inputted into the condition input section 3 via the keyboard 2 (steps S3 and S4). The condition input unit 3 checks whether the reference potential line number has been input (step S5), and if the reference potential line number has not been input, it is checked in step S4.
Return to and repeat the operations described above.

On the other hand, if the reference potential line number is input, it is checked whether the reference potential line number is the same as the mirror image potential line number (step S6), and the reference potential line number is confirmed. If it is the same as the potential line number of the mirror image, the process returns to step S4 and the above-described operation is repeated. On the other hand, if the reference potential line number is not the same as the mirror image potential line number, the mirror image condition is stored in the mirror image condition memory 4, and the soft potential line condition is stored in the soft potential line condition memory 7 (step S7 ). and,
The mirror image processing section 5 has a soft potential line data memory 8
, the soft potential line data corresponding to the reference potential line number specified in the soft potential line condition stored in the soft potential line condition memory 7 is read, and the soft potential line data corresponding to the reference potential line number specified in the soft potential line condition stored in the soft potential line condition memory 7 is read, and according to the mirror image condition read from the mirror image condition memory 4. Mirror image data is created and stored in the mirror image data memory 6 (step S8). The mirror image data memory 6 appends the mirror image potential line number specified in the soft potential line conditions stored in the soft potential line condition memory 7 to the mirror image data and stores it in the soft potential line data memory 8 ( Step S9), all processing ends.

0010

As described above, according to the soft potential line data setting method of the present invention, soft potential line data that is symmetrical to the soft potential line data set by the operator in advance with respect to the axis specified by the operator can be obtained. Since certain mirror image data can be automatically set, the efficiency of setting soft potential line data can be improved and the number of man-hours can be significantly reduced.

[Brief explanation of drawings]

FIG. 1 is a block diagram showing an example of a digitizing device that implements the soft potential line data setting method of the present invention.

FIG. 2 is a flowchart showing an example of the operation of a digitizing device that implements the soft potential line data setting method of the present invention.

FIG. 3 is a diagram showing an example of a screen display when setting conditions in the method of the present invention.

FIG. 4 is a diagram showing an example of a symmetrical model for explaining a conventional method of setting soft potential line data.

[Explanation of symbols]

1 Soft potential line data setting section 3 Condition input section 4 Mirror image condition memory 5 Mirror image processing section 6 Mirror image data memory 7 Soft potential line condition memory 8 Soft potential line data memory

Claims (1)

[Claims] 1. When setting mirror image data, which is soft potential line data of the other symmetrical model, based on soft potential line data of one of the input symmetrical models,
A plurality of reference soft potential line data is obtained in one of the symmetrical models, and each of the obtained soft potential line data is stored with a reference potential line number specified by the input soft potential line condition. Select soft potential line data corresponding to the reference potential line number from the stored soft potential line data, and create mirror image data by analyzing the selected soft potential line data according to the input mirror image conditions. . A method for setting soft potential line data, characterized in that a potential line number of a mirror image specified by the soft potential line condition is attached to the created mirror image data and set.