JPH08339215A - Numerical controller - Google Patents

Abstract

PURPOSE: To easily produce and edit a part program by displaying simultaneously a machining simulation screen and a process screen on a display device. CONSTITUTION: A display screen data generation part 2 generates the shape drawing screen data D1 and the process display screen data D2 from the machining program data 1. A process designation means 3 generates the process designation data D4 from the designation data D3 given from a programmer. A screen data conversion part 4 converts the data D1, D2 and D4 into the conversion shape drawing screen data D5 and the conversion process display screen data D6. A display device 5 shows a machining simulation screen 51 and a process screen 52 at a time. In such a screen constitution, the programmer is not required to switch screens and can easily produce and edit a part program.

Description

Detailed Description of the Invention

[0001]

BACKGROUND OF THE INVENTION 1. Field of the Invention The present invention relates to a numerical controller, and more particularly to a numerical controller having an interactive program creating function.

[0002]

2. Description of the Related Art At present, numerical control devices having an interactive program creating function are widely used. In such a numerical control device, on the display screen, the machining process such as rough machining and finishing machining, the tool name corresponding to each process, the tool used,
Data such as feed rate and spindle speed are displayed.

On the other hand, from the part program, etc., the tool path,
Display the machining shape etc. and perform machining simulation,
Contributes to the creation and modification of part programs.

[0004]

However, since the process screen and the machining simulation screen are generally separated, the programmer needs to switch the screens when creating and editing the part program, which is complicated and efficient. There was a problem of low.

The present invention has been made in view of the above circumstances, and an object of the present invention is to provide a numerical control device capable of easily and efficiently creating and editing a part program.

[0006]

According to the present invention, in order to solve the above-mentioned problems, in a numerical controller having an interactive program creating function, shape drawing screen data and process display screen data are created from machining program data including at least a part program. A display screen data generation unit for generating a process, process specifying means for specifying a process, the shape drawing screen data and the process display screen data, the process and the display element of the shape drawing screen corresponding to the process, A numerical value characterized by having a screen data conversion unit for converting into conversion shape drawing screen data and conversion process display screen data associated with the display device, and a display device for displaying the conversion shape drawing screen data and conversion process display screen data. A controller is provided.

[0007]

Operation: The machining program data is the part program,
Includes tool files, cutting condition files, etc. Then, the display screen data generation unit generates shape drawing screen data and process display screen data from the machining program data. The process designation means generates process designation data from the designation data provided by the programmer. The screen data conversion unit converts the shape drawing screen data, the process display screen data, and the process designation data into the converted shape drawing screen data and the conversion process display screen data. The display device displays the conversion shape drawing screen data and the conversion process display screen data respectively in the machining simulation.
The application screen and the process screen are displayed simultaneously on one screen. Therefore, on such a screen, the programmer does not need to switch screens, so creating a part program,
Editing can be done easily and efficiently.

[0008]

An embodiment of the present invention will be described below with reference to the drawings. FIG. 1 is a conceptual diagram of the present invention.

The numerical controller having the interactive program creating function comprises a display screen data generating unit 2, a process designating unit 3, a screen data converting unit 4 and a display unit 5. In the display screen data generation unit 2, the shape drawing screen data generating means 2a obtains information such as a tool locus and a processing shape in accordance with a command from the part program 1a in the processing program data 1 to obtain the shape drawing screen data D1. To generate. In addition, the process display screen data generation means 2b uses the machining program data 1
Process information such as the tool name, tool used, feed rate, and spindle speed is obtained from the tool data file 1b and the cutting condition file 1c in the process display screen data D2.

The process designation means 3 generates process designation data D4 based on the designation data D3 given by the programmer from the software key 53. Screen data conversion unit 4
In the drawing, the shape drawing screen data conversion means 4a associates the process information given by the process display screen data D2 and the process specifying data D4 with the shape drawing screen data D1 to draw the shape corresponding to the process information. The screen data is generated and output as the converted shape drawing screen data D5. Further, the process display screen data converting means 4b corresponds to the processed shape information by associating the processed shape information given by the shape drawing screen data D1 with the process display screen data D2 and the process designation data D4. Process display screen data is generated and output as conversion process display screen data D6.

The display device 5 displays the transformed shape drawing screen data D.
5 as the processing simulation screen 51 and the conversion process display screen data D6 as the process screen 52 are simultaneously displayed on one screen. As a result, the programmer can simultaneously view the machining simulation screen 51 and the process screen 52 which correspond to each other, and can easily and efficiently create and edit the part program.

Next, an example of the program display screen will be described. FIG. 2 is a diagram showing an example of a program display screen of the display device 5. The processing simulation screen 51 is displayed on the left side of the display device 5. In the machining simulation screen 51, coordinate values 51b representing coordinate values of the X-axis, Y-axis and Z-axis, and tool information 51c representing tool name, feed speed (F), tool diameter and spindle rotational speed (S) are displayed. It is displayed. Further, by setting the switch of the software key 53 instructed by the soft key 51a, the shape corresponding to it is drawn. In the figure, three commands of machining shape, tool locus, and tool shape are displayed as the commands of the soft key 51a. As the state of the software key 53, the switch corresponding to the machining shape is ON and the other switches are OFF. Has become. Therefore, work 5 as work shape
1d is drawn. These coordinate values 51b, tool information 5
Both 1c and the work 51d are display elements based on the conversion shape drawing screen data D5.

The process screen 52 is displayed on the right side of the display device 5. In the process screen 52, there are program numbers, machining processes / shapes, tool names, and tool diameters as process information items, and the contents of each are displayed. In addition, commands such as move, copy, delete,
Five commands for changing and inserting are displayed. Then, by setting the switch of the software key 53 corresponding to these commands, programming such as process selection, change, insertion and deletion can be performed within the process screen 52. These process information items are display elements based on the conversion process display screen data D6.

Next, the state at the cursor position on the process screen 52 is simulated on the machining simulation screen 51.
The following shows an example of application. Process screen 52 as shown in FIG.
It is assumed that the cursor 52b is in the position on the program number 002. In the machining simulation screen 51, in response to the command from the soft key 51a, the state of the software key 53 is that the switch corresponding to the machining shape and the switch corresponding to the tool path are ON, and the switch corresponding to the tool shape is OFF. It was set as. Then, in this case, the tool path 5 based on the information of each item of the program number 002 located at the cursor position 52b.
1e is drawn on the processing simulation screen 51.

As the contents of simulation, not only the process specified by the cursor 52b described above, but also before the process specified by the cursor 52b and after the process specified by the cursor 52b, It is possible to specify the range of contents to be simulated, such as.

Further, the cursor 52b and the tool path 51e are displayed in the display device 5 by mutually associated display means such as the same color or the dotted line display so that the programmer can easily see the screen. You can easily check the program.

FIG. 4 is a block diagram of hardware of a numerical controller (CNC) to which the present invention is applied. A processor (CPU) 11 controls the entire numerical control device. A read-only storage device (ROM) 12 stores a system control program. The random access memory (RAM) 13 stores shape drawing screen data D1, process display screen data D2, and the like. A machining program data to be stored in the non-volatile memory 14 even after the power is turned off.
Data 1 is stored. The graphic control circuit 15
The shape drawing screen data D1, the process display screen data D2, and the process designation data D4 are converted into the converted shape drawing screen data D5 and the conversion process display screen data D6. Then, the conversion shape drawing screen data D5 and the conversion process display screen data D6 are displayed on the display device 5. The key board 17 is provided with an operation key used for data input, a function key and the like. The software key 53 changes the meaning of the key according to the operator's screen selection, and the required key is displayed on that screen. The axis control circuit 19 supports the movement command of the axis.
It is output to the vo-amp 20 and controlled. In response to this movement command, the servo amplifier 20 drives the servo motor of the machine tool 21. Programmable machine controller (PM
C) 22 controls the machine tool 21 with a sequence program formed in a ladder format. It should be noted that these components are coupled to each other by a bus 23.

[0018]

As described above, in the present invention, the conversion shape drawing screen data and the conversion process display screen data are displayed on the same screen, and the elements such as the tool trajectory corresponding to the process are displayed in association with each other. Therefore, it is not necessary to switch the screen, and the efficiency of creating and editing a part program is improved.

[Brief description of drawings]

FIG. 1 is a principle block diagram of a numerical controller according to the present invention.

FIG. 2 is a diagram showing an example of a program display screen.

FIG. 3 is a diagram showing an example of a program display screen on which a tool path is displayed.

FIG. 4 is a hardware block diagram of a numerical control device to which the present invention is applied.

[Explanation of symbols]

 1 Machining Program Data 1a Part Program 1b Tool Data File 1c Cutting Condition File 2 Display Screen Data Generation Unit 2a Shape Drawing Screen Data Generation Means 2b Process Display Screen Data Generation Means 3 Process Designation Means 4 Screen Data Conversion Part 4a Shape drawing screen data conversion means 4b Process display screen data conversion means 5 Display device 51 Processing simulation screen 51a Soft key 52 Process screen 52a Soft key 53 Software key

Claims (5)

[Claims] 1. A numerical control device having an interactive program creation function, a display screen data generation unit for generating shape drawing screen data and process display screen data from machining program data including at least a part program, and a process of designating a process. Designating means, the shape drawing screen data and the process display screen data into converted shape drawing screen data and conversion process display screen data in which the process and the display element of the shape drawing screen corresponding to the process are associated with the process. A numerical control device comprising: a screen data conversion unit for conversion; and a display device for displaying the conversion shape drawing screen data and the conversion process display screen data. 2. The display element includes at least one of a tool path, a tool, and a machining shape.
Numerical control device described. 3. The numerical controller according to claim 1, wherein all the processes before the designated process are displayed. 4. The numerical controller according to claim 1, wherein all the steps after the designated step are displayed. 5. The numerical control device according to claim 1, wherein the conversion shape drawing screen data and the conversion process display screen data are displayed on the display device by a display unit that is associated with each other.