JPH03220604A - Device and method for plotting tool locus in numerical controller - Google Patents

Abstract

PURPOSE:To visually identify the classification of the tool of a tool route locus being plotted at present by specifying a tool name or a working classification in accordance with a tool number by a tool file and specifying a plotting color in accordance with the tool name or the working classification by a color table file to draw the tool route locus. CONSTITUTION:Tool names and correction data are registered in a tool file 4 correspondingly to tool numbers. Prescribed drawing colors are preliminarily registered in a color table file 5 correspondingly to tool names or working classifications respectively. When an NC program is started, the tool number of the tool on a main shaft is read and the tool name (classification) of this tool is specified by the tool file 4. The plotting color of the tool name is specified by the color table file 5, and the plotting color of the tool route locus is specified based on tool route locus data analyzed and calculated by an NC program analyzing means 6. Thus, the name (classification) of the tool of the tool route locus being plotted at present is visually identified to easily check an NC program miss.

Description

[Detailed Description of the Invention] [Industrial Field of Application] The present invention provides a graphic graphics function that calculates the movement path locus of a tool from an NC program and draws this tool path locus on a display means of a numerical control device. The present invention relates to a tool trajectory drawing device for a numerical control device having a tool path drawing device and a method thereof.

[Conventional technology]

A numerically controlled machine tool (hereinafter referred to as an NC machine tool) moves a workpiece and a tool relative to each other based on an NC program created in advance by a numerical control device (hereinafter referred to as an NC device). Perform processing. That is, the NC device reads and analyzes the commands of the NC program. If the analyzed command is a movement command, it is output as a movement amount to a servo motor or the like for each axis, and the machine tool is operated to perform machining.

Furthermore, in synchronization with the operation of the NC machine tool, the analyzed tool movement path is calculated as a tool path locus by the graphic tracing function of the NC device, and this tool path trajectory is used as the tool path trajectory of the NC device. Some devices have a function of drawing on a graph ink display device (referred to as synchronous drawing) as a display means. Alternatively, some machines have a function of drawing the tool path locus on a graph ink display device (referred to as check drawing) in order to check the created NC program without actually performing machining.

In addition, conventionally, there was a function that changed the drawing color according to a predetermined order of drawing colors each time a tool was exchanged, and a drawing of the tool currently being processed was displayed separately on the screen, in addition to drawing the tool path locus. There is also an NC device that has the function of displaying the type of tool of the currently drawn trajectory.

[Problem to be solved by the invention]

However, although the method of predetermining drawing colors in order and changing the drawing color each time a tool change is performed is effective for recognizing tool changes, Since the types of tools (end drills, drills, taps, etc.) are not compatible, it is not possible to recognize on the action screen which name (type) of tool is currently selected for machining. Can not. In addition, while drawing a tool path locus, the method of displaying the type of tool by drawing a diagram of the tool at a different position can be used for thread cutting with a pilot hole drill and tap, rough machining of surface cutting, finishing machining, etc. When the tool path locus on the drawing screen becomes dense as in the case of , there is a problem that it becomes impossible to distinguish between the previous tool path locus and the current tool path locus.

The present invention was devised to solve the above-mentioned problems, and its purpose is to visually identify the name (type) of the tool on the currently drawn (i.e., currently processed) tool path trajectory. It is an object of the present invention to provide a tool path drawing device and method for an NC device that can easily check for NC program errors.

[Means to solve the problem]

In order to solve the above problems, the tool path drawing device according to the present invention has a graphic tracing function that calculates a tool movement path trajectory by analyzing an NC program and draws the tool path trajectory on a display means. In the numerical control device, a tool file is created in which the tool number of the tool used in the NC program is registered in association with data on the tool name or machining type, and the data on the tool name or machining type is specified. and a display means control circuit unit that controls the display means to display the drawing color specified by the color table file.

Further, the tool trajectory drawing method calculates a tool movement path trajectory by analyzing an NC program, and draws the tool path trajectory on a display means in a numerical control device having a graphic 1-race function. a step of reading the tool number using the tool number; a step of identifying the tool name or the type of machining from the tool number using a tool file in which the tool name or machining type data and the tool number are registered in correspondence; identifying a drawing color based on the tool name or machining type using a color table file in which data on the tool name or machining type is registered in association with a specific display color; When drawing a trajectory, there is a step of drawing in the drawing color, and a step of drawing in the NC program when there is a tool change command in the NC program.
It consists of a step of reading the tool number from the program and a step of returning.

(Operation) With the above configuration, if there is a tool change command in the NC program, the processor uses the tool file to determine the tool name (or machining type) from the tool number in the tool command, and then, Using the color table file, a drawing color corresponding to the tool name (or type of machining) is specified. From then on, until the next tool exchange command is issued, the tool movement path locus is drawn using the drawing color.

This not only makes it easy to distinguish between the trajectory drawn by the tool currently being processed and the trajectory drawn by a previously processed tool of a different type, but also allows the type of tool to be identified.

〔Example〕

DESCRIPTION OF THE PREFERRED EMBODIMENTS An embodiment of a tool trajectory drawing apparatus and method according to the present invention will be described below with reference to the drawings.

FIG. 1 is a block diagram of an NC device showing an embodiment of the device of the present invention.

1 is a processor (CPU), 2 is a ROM that stores control programs, etc., 3 is a RAM that stores parameters, etc., 4
is a tool file that stores various data of tools necessary for machining, 5 is a color table file that stores the relationship between tool name (type) and drawing color, 6 is an NC program analysis means,
8 is a graphic display device (CRT) which is a display means for drawing NC programs and tool path loci, 7
Reference numeral 8 indicates a display means control circuit unit for controlling the drawing colors of the CRT 8, 9 a keyboard, and 10 an NC program memory for storing an NC program.

The color table file 5 is a correspondence table between tool names (or machining types) and drawing colors, as shown in FIG. are registered in advance in correspondence with each other. For example, the tool name ``Tap'' is red, the tool name ``Drill'' is orange, the tool name ``Face-Guru'' is green, the tool name ``End Mill'' is blue, the tool name ``Boring Bar'' is purple, etc. are registered in association with predetermined drawing colors.

As shown in Figure 3(a), the tool file 4 contains the tool name and correction data (tool length correction amount, tool diameter correction amount, etc.) of the tool in correspondence with the tool number (compensation number). Registered.

The NC program analysis means 6 calculates the tool path locus by analyzing the NC program registered in the NC program memory 10 and selected for machining the current workpiece.

In the graphic display device (CRT) 8,
The tool path locus calculated by the NC program analysis means 6 is drawn on the screen of the CRT 8 via the display means control circuit section 7 using a graphic tracing function.

Next, details of the processing of the tool trajectory drawing method according to the present invention will be explained according to the flowchart shown in FIG.

The processor 1 sequentially reads each block of the NC program selected for the work to be machined from the NC program memory 10 and executes the block. Then, at the start of the NC program, the tool number (T
code command) is read (step 511).

In step S12, the tool name (species@) of the tool is specified from the tool file 4. However, the tool number and the correction number of that tool are the same.

Next, the drawing color of the tool name is specified from the color table file 5, and the drawing color of the tool path trajectory based on the tool path trajectory data analyzed and calculated by the NC program analysis means 6 is specified (step 513). ).

Then, the drawing color of the CRT 8 is controlled via the display means control circuit section 7 and analyzed by the NC program analysis means 6.
Draw the calculated tool path locus data (step 5)
14).

In step S15, it is determined whether or not there is a tool exchange command (for example, MO6) in the sequentially executed NC programs.

If there is no tool exchange command, proceed to step S16,
The NC program receives a program end command (for example, M2
O, MO2, etc.), that is, whether or not machining is still to be continued.

If it is still being processed, return to step S15 and perform the NC
Repeats determination of the presence or absence of a tool change command in the program.

If it is determined in step S16 that the processing has ended, the flowchart of the drawing method of the present invention ends.

If it is determined in step S15 that there is a tool exchange command, the process returns to step Sll and repeats the steps of reading the tool number mounted on the spindle, identifying the tool name and the drawing color of the tool name.

For example, when machining is performed using the NC program according to the tool file 4 and color table file 5 registered as shown in Figures 3(a) and 3(b), "TOOL MO6°"
.

If the block is read, the tool name is specified as "end mill" and its drawing color is specified as "blue". The tool path trajectory analyzed by the NC program analysis means 6 is drawn on the CRT 8 via the display means control circuit section 7 in blue drawing color.

Similarly, if there is a tool change command that causes the rTOO3J (tap) tool to be mounted on the spindle, the tool trajectory is displayed in red.

Then, a drawing screen as shown in FIG. 4 will be displayed on the CRT 8.

In this way, the tool path for tapping machining is displayed in red, and the tool path for pilot hole machining using a drill, which is performed in the previous process, is displayed in orange.The NC program It is possible to check mistakes in movement commands.

Also, if the tool attached to the spindle is an end mill, but it is drawn in purple on the CRTB, there is a mismatch between the commanded tool name in the NC program and the tool name attached to the tool pot during preparation work. It can be discovered as a setup error or an NC program error.

In this way, the name of the tool currently being drawn (that is, currently being processed) can be visually recognized by the color drawn on the CRT8, making it easy to discover NC program errors. becomes.

〔Effect of the invention〕

As described above, the present invention includes a tool file in which data such as tool names and machining types are registered in correspondence with tool numbers, and a color table file in which predetermined display colors are associated with the tool names or machining types. When drawing the movement path locus of the tool, the tool file is used to identify the tool name or machining type from the tool number in the machine program, and the color table file is used to identify the tool name or machining type. Since the drawing color is specified and drawn according to the type, the type of tool of the currently drawn (that is, currently processed) tool path locus can be visually identified.

Furthermore, according to the present invention, the name (type) of each tool or the tool type divided into rough machining and finishing machining can be identified by the drawing color by registering each of the files, so it is easy to identify setup errors in the NC program. can.

[Brief explanation of drawings]

Fig. 1 is a block diagram of an NC device showing an embodiment of the device of the present invention, Fig. 2 is a flowchart showing processing of the method of this invention, Fig. 3(a) is an explanatory diagram of a tool file, Fig. 3 (b) is an explanatory diagram of the color table file, and FIG. 4 is an explanatory diagram of tool path locus drawing by the NC program. 1... Processor (CPU), 1 2... ROM, 3... RAM. 4... Tool file, 5... Color table file, 6... NC program analysis means, 7... Display means control circuit section, 8... Graphic display device 9... Keyboard, 0. ...NC program memory. (CRT), Figure 3(a) 4

Claims (2)

[Claims] (1) In a numerical control device having a graphic tracing function that calculates a tool movement path trajectory by analyzing an NC program and draws the tool path trajectory on a display means, a tool used in the NC program. a tool file that registers the tool number and data of the tool name or machining type in correspondence with each other; a color table file that registers the tool name or machining type data in correspondence with a predetermined display color; Tool trajectory drawing in a numerical control device, characterized in that the tool path trajectory is drawn in a numerical control device, comprising: a display means control circuit unit that controls the display means to display the drawing color in a drawing color specified in a color table file; Device. (2) In a numerical control device having a graphic tracing function that calculates a tool movement path trajectory by analyzing an NC program and draws the tool path trajectory on a display means, the step of reading the tool number from the NC program; , using a tool file in which tool name or machining type data and tool numbers are registered in correspondence, identifying the tool name or machining type from the tool number; and the tool name or machining type. a step of specifying a drawing color from the tool name or type of machining using a color table file in which data of the above is registered in correspondence with a specific display color; a step of drawing in the drawing color; and a step of drawing with the drawing color;
A method for drawing a tool trajectory in a numerical control device, comprising a step of reading a tool number from a program and a step of returning the tool number.