JPS58165111A - Numerical control working system - Google Patents

Abstract

PURPOSE:To make it easy that the operator checks a working program and monitors the working state, by displaying working information on a display three-dimensionally. CONSTITUTION:First, the case of milling of a material to be worked 10 is displayed, and a cut part 12 is cut along a working locus 102 of rough milling. Next, the picture is updated, and the case where the material to be worked 10 subjected to rough milling is subjected to milling finishing is displayed, and a cut part 14 is cut along a working locus 104 of milling finishing. The picture is updated, and the case where the material to be worked 10 subjected to milling finishing is subjected to drilling is displayed, and holes 16a and 16b are formed in two positions along working loci 100a and 100b of drilling. Further, the picture is updated, and the work with working loci erased is displayed to obtain a desired finishing shape. Thus, working information is displayed three-dimensionally on the display.

Description

[Detailed description of the invention] The numerical control processing method of the present invention (hereinafter referred to as the NC processing method)
This is related to the improvement of.

The NC machining method commands and controls the position of the tool relative to the workpiece using corresponding numerical information, and processes the workpiece.According to the NC machining method, it is possible to easily and easily machine objects with complex shapes. It is possible to machine parts with high precision and further improve productivity. In the NC machining method, machining information such as the current position of the tool, the machining trajectory of the tool, and the finished shape of the workpiece is displayed on the display.
It is necessary to check the cannibal program and monitor the processing status.

However, in the conventional NC machining system, the machining information was displayed two-dimensionally on the display, which meant that the operator was unable to recognize the overall positional relationship.

For example, when processing (rough milling, milling, drilling) the rectangular parallelepiped workpiece 10 shown in FIG. 1 to obtain the processed workpiece 10 shown in FIG. Only one of the large surfaces of the workpiece 10 is displayed.

In FIG. 3, only the front view of the workpiece 10 is displayed on the display), and from FIG. 3, the workpiece 'lit! Only the front view of the finished shape of +10 and the machining trajectories 100a and 100b of the drilling process are recognized, and other surfaces (for example, a plan view) of the finished shape of the workpiece 10 and the machining trajectory of the milling process are not recognized. In addition, in FIG. 3, the cut portion 12Fi is a portion that has been rough processed by milling, and the cut portion 14 is a portion that has been processed by milling finishing.

As mentioned above, in the conventional NC' machining method 2, machining information is displayed two-dimensionally (for example, only the front view), so there is a drawback that the operator cannot recognize the overall positional relationship! Ta.

The present invention has been made in view of the above-mentioned conventional problem.
The object of the present invention is to provide an NC machining method that can three-dimensionally display reeds, their purpose, and machining information.

This numerically controlled machining method includes a display that displays machining information, and is characterized by displaying machining information three-dimensionally on the display.

Hereinafter, preferred embodiments of the present invention will be described based on the drawings.

Figure 4.5.6.7 shows a display on a display according to an embodiment of the invention. Here, Section 4.5.6
．． In Figure 7, similar to Figure 2, milling rough machining,
The state in which milling and drilling are performed is shown.

It can be understood from the above Figures 4.5.6.7 that the machining locus of the tool and the finished shape of the workpiece are displayed three-dimensionally.

That is, in Figures 1 and 4, a case is shown in which rough milling is performed on the workpiece 1o. be done.

Then, the image is updated, and in FIG. 5, a case is shown in which milling is to be performed on the workpiece 1o that has been rough milled, and the cut portion 14 is shown according to the machining locus 104 of the milling finishing. is cut.

Furthermore, the image has been updated, and FIG. 6 shows the case where drilling is performed on 1002 locations on the workpiece that has been finished with milling9, and the machining trajectory 1 of drilling is shown.
00a, 100b, 21 of the workpiece 10! hole 1 in place
6a and 16b are formed.

Furthermore, the image is updated, and FIG. 7 shows a state in which the machining trajectories 100a and 100b have been erased from the workpiece 10 in FIG. 6, and it is understood that the desired finished shape can be obtained. Ru.

As described above, according to the present invention, processing information can be displayed three-dimensionally on a display.

Note that in the present invention, it is possible to use not only a single color display but also a color graphic display as the display. When a color graphic display is used as a display, the color can be changed for each processing information.
4. If the holes 16m and 16b are shown in yellow, blue, and red, respectively, and the machining trajectory of the tool is displayed in different colors,
This has the advantage that the display on the display screen is easy to see.

Also, Example Kj? In un, the machining locus of the tool and the finished shape of the workpiece are selected as the machining information, but the process can also be carried out by selecting other machining information.

Furthermore, since the relative relationship between the workpiece and the viewpoint and the direction of the field of view can be changed, the recognition of machining information is facilitated.For example, in FIG. It can be rotated to

Furthermore, in the embodiment, each time the image is updated, the previous machining trajectory is erased. For example, in FIG. However, it is also possible to prevent the previous machining locus from being erased.

As explained above, according to the NC machining method according to the present invention, machining information can be displayed three-dimensionally on the display. Therefore, the operator can recognize the overall positional relationship, and it becomes easy for the operator to check the cutting program and monitor the processing status. Furthermore, since the present invention can be implemented at low cost, it is particularly effective for NC devices with built-in automatic programming.

[Brief explanation of the drawing]

Figure 1 is a perspective view of the workpiece, Figure 2 is a perspective view of the workpiece after processing, and Figure 3 is an explanatory diagram showing only the front view of the workpiece displayed on the display. , Fig. 4 is an explanatory diagram showing the relationship between the rough milling part and the machining trajectory, Fig. 5 is an explanatory diagram showing the relationship between the milling finishing part and the machining trajectory, and Fig. 6 is an explanatory diagram showing the relationship between the milling part and the machining trajectory. FIG. 7 is an explanatory diagram showing the relationship between the milling rough processing section, the milling section, the chair finishing section, and the drilling section. , mounts The same members in each figure are given the same symbols, 10 is the workpiece,
12.14 is the cutting part, 16Jl, 16b is the hole, 100
a and 100b are the machining locus of drilling machining and the machining locus of rice finishing machining. Agent: Patent attorney Shin Tsutano - (and 1 other person):. '1'・:1゜Figure 1M2Figure 3Figure 4Figure 5Figure 6

Claims (1)

[Scope of Claims] (1) A numerically controlled machining method including a display for displaying machining information, characterized in that the machining information is displayed three-dimensionally on the display. (2. The method described in claim (1) is characterized in that at least one of the current position of the tool, the machining trajectory of the tool, and the finished shape of the workpiece is selected as the machining information. Numerical control processing method. (3) In the method described in claim (1) or (2), a color graphic display is used as a display, and a plurality of processing information is displayed on the color graphic display in different colors. A numerically controlled processing method characterized by displaying the relative positional relationship between the workpiece and the viewpoint and the field of view in the method described in claim (1), (2) or (3). A numerically controlled machining method characterized by being able to change the direction of.