JPH0421209B2 - - Google Patents

Description

[Detailed Description of the Invention] [Industrial Application Field] The present invention relates to an improvement in a method for monitoring machining information of a numerically controlled machining machine (hereinafter referred to as an NC machining machine).

[Prior art] NC processing machines control the positions of tools relative to the workpiece using numerical information corresponding to the commands and process the workpiece. can be processed easily and with high precision, and productivity can be further improved. And in NC processing machines,
It is necessary to display machining information such as tool shape on a display to check the machining program and monitor the machining status.

[Problems to be Solved by the Invention] However, in the conventional machining information monitoring system, a display with a single color and the same brightness was used, so it was difficult to check for interference in machining information, such as checking for tool collision, on the display. The problem was that it was difficult to do so.

The present invention has been made in view of the above-mentioned conventional problems, and an object of the present invention is to provide a method for monitoring machining information of an NC machining machine that allows easy checking of interference in machining information on a display.

[Means for Solving the Problems] In order to achieve the above object, the present invention stores a plurality of pieces of tool shape information with different color information, and simultaneously colors the tool shape information with these individual color information. This is displayed on a graphic display, and when the tools interfere with each other, this is displayed in mixed colors on the screen.

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

FIG. 1 shows a block circuit of an embodiment of a monitoring device to which the processing information monitoring method according to the present invention is applied. In the present invention, since a color graphic display is used as a display, multiple Different tool shape information can be displayed in different predetermined colors. In the example, a lathe with a double turret is used as the NC processing machine, and the tool shape information includes the shape of the turret I (turret I) on the cutting tool side, the shape of the turret (turret), and the shape of the workpiece side. The chuck shape and tail shape are selected, and the workpiece shape is also displayed on the screen.

In Fig. 1, a CPU (not shown) that processes tool shape information from an NC processing machine (not shown) has three types of color memories 10R, 10B,
10G is connected. Color memory 10R,
10B and 10G are color memories that separately store a plurality of different tool shape information 100 with different color information, and the CPU sets only the color memory of the designated color to "1" or "0", No writing or erasing is performed on other color memories. In the embodiment, color memory 10R
is a red color memory that stores chuck shape, tail shape, and workpiece shape as red information, and color memory 10B and color memory 10G.
are a blue color memory that stores the shape of the turret as blue information, and a green color memory that stores the turret shape as green information, respectively. Note that the keyboard 11 has color memories 10R, 1
0B and 10G, and the setting information 101 is stored in the color memories 10R and 10 using the keyboard 11.
B, 10G is supplied.

The color information 102R, 102B, 102G from the color memories 10R, 10B, 10G are supplied to the color combination detection circuit 14 via the parallel-to-serial conversion circuits 12R, 12B, 12G, respectively, and the color information 10
2R, 102B, 102G are color composition detection circuit 1
4 and is constantly synthesized and used for the alarm function described later. In addition, parallel to serial conversion circuits 12R, 12B, 12G
The image signal 104 from the
00 is displayed on the color graphic display 16 in different colors.

Therefore, according to the present invention, the tool shape information 100 having individual color information as described above is simultaneously displayed on the color graphic display 16.

The parallel-to-serial conversion circuits 12R, 12B, and 12G each have a color memory 1 corresponding to different color information.
An image signal conversion circuit is formed that generates an image signal (so-called video signal) that sequentially outputs pixel information for graphic display stored in 0R, 10B, and 10G in accordance with the scanning of the color graphic display 16.

And color graphic display 16
In the above, when a plurality of pieces of tool shape information 100 are superimposed, a mixed color is obtained. For example, when blue information and green information are superimposed, a mixed color cyan is obtained. Therefore, according to the present invention, when a plurality of pieces of tool shape information 100 interfere with each other, since the plurality of pieces of tool shape information 100 are superimposed to form a mixed color,
Interference in the tool shape information 100 can be easily checked.

Therefore, according to the present invention, when the tools used, that is, the turrets that move according to the machining information, interfere with each other or with the chuck or tail on the workpiece side, this is displayed on the screen of the color graphic display 16. It can display mixed colors when checking machining information or during actual machining, and immediately displays these interferences to issue an alarm when checking, or to easily generate an alarm during machining and stop machining. It becomes possible to do so.

Furthermore, in the embodiment, the color combination detection circuit 14
An alarm generation circuit 20 is connected to the
When a plurality of pieces of tool shape information 100 are superimposed on the color graphic display 16 to form a mixed color, the alarm generation circuit 20 outputs an alarm signal 110 based on the mixed color signal 108 from the color combination detection circuit 14. . Since the alarm signal 110 issues an alarm, the operator can check the tool shape information for interference.

In FIG. 2, the color combination detection circuit 14 is shown. The color combination detection circuit 14 includes a mixed color signal generation section 24 that outputs a mixed color signal 108 when tool shape information interferes.
are AND gates 26-1, 26-2, 26-3
and ORGATE 28. Therefore, color information 10
When the color information of any two of 2R, 102B, and 102G becomes "H", the mixed color signal 10
It is understood that 8 becomes "H".

FIG. 3 shows the state of the color graphic display 16 on the screen. Note that an interference check area 30 is set on the color graphic display 16, and the tool shape information is displayed only in the interference check area 30. Therefore, desired information such as the tool name can be displayed in other areas on the screen. ,
It is possible to display the tool rotation speed, etc. Then, in the interference check area 30, the check 3
2. The shapes of the tail 34 and workpiece 36 are displayed in red, and the shape of the turret I38 is displayed in blue.
The shape of the turret 40 is displayed in green.
Therefore, at any location on the screen, the chuck 32, tail 34, work 36, and turret I
38, the turrets 40 are not overlapped, so there is no mixed color, and the chucks 32, tails 34,
It is understood that none of the work 36, turret I 38, and turret 40 collide.

Figure 4 shows turret I38 and turret 40.
The situation on the screen when there is a collision is shown. In the figure, turret I38 and turret 4
0, and at points P ₁ and P ₂ , the turret I38
The blue color of the turret 40 and the green color of the turret 40 are superimposed to form a mixed color, that is, a dian. Therefore, from the state on the screen in FIG. 4, the points P ₁ and P ₂ are of a mixed color (cyan), allowing the operator to check for collision between the turrets 38 and 40. Furthermore, in the embodiment, when the turret I38 and the turret 40 are superimposed to form a mixed color (cyan),
The alarm generation circuit 20 outputs the alarm signal 110, and the alarm signal 110 generates an alarm.
The operator can easily check tool shape information for interference.

As described above, according to the present invention, when a tool interferes, a plurality of pieces of tool shape information are superimposed on the color graphic display to form a mixed color, so that interference in tool shape information can be checked, and the color graph It is possible to easily check the interference of tool shape information on the drive display.

FIG. 5 shows the state on the screen where the clearance shape is displayed in addition to the machining information. In the figure, each tool shape, namely chuck 32,
Clearance shapes 32a and 34 are provided outside the shapes drawn by the tail 34, turret I38, and turret 40.
a, 38a, and 40a are displayed with dashed lines in the same color as their corresponding tool shape information, clearance shapes 32a and 34a are displayed in red, clearance shape 38a is displayed in blue, and clearance shape 40a is displayed in green. has been done. Since the clearance shapes 32a, 34a, 38a, and 40a are superimposed to form a mixed color, it is possible to check for interference between the clearance shapes, and interference during processing can be prevented. Note that FIG. 6 shows a state in which the shapes of the chuck 32, tail 34, turret I 38, and turret 40 have been deleted from the state on the screen in FIG. 5, and the clearance shapes 32a, 34a, 38a,
It is understood that the tool shape information is checked for interference by 40a.

In the embodiment, the alarm generation circuit 20 outputs the alarm signal 110 only when a predetermined mixed color appears on the color graphic display 16.
It is possible to output. For example, on the color graphic display 16, the turret I3
8 and the turret 40 collide, resulting in a mixed color (cyan), the alarm generation circuit 20
outputs an alarm signal 110, which makes it possible to check only for collisions between turrets I38 and turrets 40, and not for other collisions.

Further, in the embodiments, a lathe with a multi-blade turret was used as the NC processing machine, but the present invention can also be applied to other NC processing machines.

[Effects of the Invention] As explained above, according to the present invention, it is possible to check tool shape information for interference on a color graphic display, and therefore it is easy to check machining programs and monitor machining status. can be done.

In the present invention, a color graphic display is used as the display, but the interference check of processing information can also be performed using a single color display. That is, by changing the brightness of the tool shape information and the brightness of the interference portion, it is possible to check the interference in the machining information.

[Brief explanation of drawings]

FIG. 1 is a circuit diagram of an embodiment of the processing information monitoring method according to the present invention, FIG. 2 is a circuit diagram of a color composition detection circuit,
3 to 6 are explanatory diagrams showing the state on the screen of the color graphic display. Identical members in each figure are given the same reference numerals, 10R,
10B and 10G are color memories, 14 is a color composition detection circuit, 16 is a color graphic display, 20 is an alarm generation circuit, 30 is an interference check area, 100 is tool shape information, 102R, 10
2B, 102G are color information, 104 is a display signal, 1
08 is a mixed color signal, and 110 is an alarm signal.

Claims (1)

[Claims] 1. A plurality of pieces of tool shape information are stored in different color information, and these tool shape information having individual color information are simultaneously displayed on a color graphic display, so that when the tools interfere with each other, A method for monitoring machining information for a numerically controlled machining machine, which is characterized by displaying mixed colors on a screen. 2. Processing by a numerically controlled processing machine according to the method according to claim 1, characterized in that the tool shape information having the individual color information is synthesized and an alarm signal is output when color synthesis is performed. Information monitoring method. 3. A numerically controlled machining method according to claim 1 or 2, characterized in that an interference check area is set on a color graphic display, and tool shape information is displayed only in the interference check area. How to monitor machine processing information. 4. In the method according to any one of claims 1, 2, and 3, the clearance shape is displayed outside the shape drawn by each piece of tool shape information in the same color as the corresponding tool shape information on a color graphic display. A method for monitoring machining information for a numerically controlled machining machine, characterized in that the clearance shapes are displayed in a mixed color in which they are superimposed, thereby indicating that the tools have interfered with each other.