JPH0276005A - Arbitrary shape outline input system - Google Patents

Abstract

PURPOSE:To easily change an outline shape by storing input shape data, which are inputted to designate the outline of an arbitrary shape, in the same form. CONSTITUTION:The input shape data, which are inputted to designate the outline of the arbitrary shape, are stored in the same form and the outline shape data are computed from the input shape data. When change input shape data are newly inputted, the input shape data are changed and the new outline shape data are computed from the input shape data after the change. When the change input shape data are inputted to change the outline shape, at first, the input shape data are changed and further, the outline shape data are computed. Then, the new outline shape data are prepared. Accordingly, it is enough for a programmer to input only the input shape data of a part to be changed.

Description

Detailed Description of the Invention [Field of Industrial Application] The present invention relates to an arbitrary shape contour input method for inputting an arbitrary shape contour in an interactive numerical control device, and in particular to an arbitrary shape contour input method in which the contour shape can be easily changed. Regarding input methods.

[Conventional technology]

The interactive numerical control device specifies the shape of the workpiece as a shape element, such as a straight line or arc, and displays it on the screen.
Numerical data necessary for this is input, and this input shape data is calculated within the numerical control device to obtain final contour shape data of the workpiece, and the workpiece is machined using the contour shape data.

Here, the contour shape data is stored in the form of an incremental movement amount of each axis, absolute coordinate values, or an arbitrary program format.

[Problem to be solved by the invention]

However, when attempting to change a part of these contour shapes, since the contour shape data are stored as final coordinate values, etc., it is necessary to input all of the input shape data of the subsequent portion. That is, since the changed portion is affected by the changed portion, it is necessary to change even the portion where the contour shape does not need to be directly changed. For example, if a dimension in the middle is changed, the following coordinate values naturally need to be moved along the changed line.

The present invention has been made in view of these points, and it is an object of the present invention to provide an arbitrary-shape contour input method in which the contour shape can be easily changed.

[Means to solve the problem]

In order to solve the above problems, the present invention uses an arbitrary shape contour input method for inputting an arbitrary shape contour in an interactive numerical control device. form, calculates contour shape data from the input shape data, and when new input shape data is input, changes the input shape data, and calculates new contour shape data from the changed input shape data. An arbitrary shape contour input method is provided, which is characterized by calculating the following.

[Operation] When change input shape data for changing the contour shape is input, first, the input shape data is changed, and then the contour shape data is calculated to create new contour shape data.

Therefore, a programmer or the like only needs to input the input shape data of the portion to be changed, and can easily change the contour shape.

(Example) Hereinafter, one embodiment of the present invention will be described based on the drawings.

FIG. 1 shows a block diagram of the arbitrary shape contour input method of the present invention. The programmer uses the CRT/MDI unit 10 to input input geometry data.

That is, the operation key 12 or the software key 13
Use to input shape elements such as straight lines or arcs.

These shape elements are displayed on the screen above the software keys 13, such as a horizontal straight line, a vertical straight line, a straight line going upward to the right, a straight line going downward to the right, a clockwise circular arc, a counterclockwise circular arc, corner processing, grooving, etc. The input is made by pressing the appropriate key among the software keys 13.

When this shape element is input, the shape element is displayed on the display device 11, and further, a request is made to input the dimensions of the shape element, such as the length of the straight line, the angle of the straight line upward to the right, and the radius of the circular arc. A message will be displayed.

The programmer inputs the necessary numerical values etc. according to the message. As a result, the input shape data 2 including the input shape data 21 of the first shape, the input shape data 22 of the second shape, the input shape data 23 of the third shape, etc.
0 is stored in memory.

In the numerical control device, from this input shape data 20, contour shape data 31 of the first shape and contour shape data 32 of the second shape are obtained.
, calculates contour shape data 30 including contour shape data 33 of the third shape. This contour shape data is in the form of coordinate values of each point or an NC command program. Actual processing can be performed using this contour shape data 30.

The contour shape data 30 created in this manner may have a part of the contour incorrectly as a result of processing, or it may be desired to change a part of it. In this way, when it is desired to change part of the contour shape, the input shape data to be changed is input using the operation keys 12 or the software keys 13. In this case, it is only necessary to insert, delete, and change the input shape data of only the part to be changed. The numerical control device uses the partially changed new input shape data to perform calculations and create new contour shape data. Therefore, only the portions of the input shape data that are changed need to be changed, and the portions that are affected by the changes are automatically calculated by the numerical control device.

〔Effect of the invention〕

As explained above, in the present invention, the input shape data is saved as is, so when you want to change part of the contour shape, you only need to input the input shape data of the changed part, making it easy to change the contour shape. become.

[Brief explanation of the drawing]

FIG. 1 is a block diagram of an arbitrary shape contour input method according to the present invention. 10-----CRT/MD! unit 1
1--...----Display device 12---Operation keys 13----111------Software keys 2
0-------1 input shape data 30--...
・−・−・Contour shape data patent applicant FANUC CORPORATION

Claims (1)

[Claims] (1) In an arbitrary shape contour input method for inputting an arbitrary shape contour in an interactive numerical control device, input shape data input to specify an arbitrary shape contour is stored in the same format, and the input shape Calculates contour shape data from the data, and when new input shape data is input, changes the input shape data, and calculates new contour shape data from the changed input shape data. Arbitrary shape contour input method.