JP5190856B2 - Graphic drawing device for electrical discharge machining equipment - Google Patents

Description

  The present invention relates to a graphic drawing apparatus of an electric discharge machining apparatus. In particular, the present invention relates to a graphic drawing apparatus capable of drawing by switching to a single step at a specific location.

  The numerically controlled electric discharge machining apparatus includes a graphic drawing device that reads and decodes an NC program and draws a machining shape on a display device based on the decoded data. This type of electric discharge machining apparatus can display the NC program separately from the drawn machining shape.

  Therefore, when the drawn machining shape is incorrect, the operator can confirm that the NC program is an erroneous NC program. For example, if an unintentional machining shape is formed by the NC program or an interference avoidance function, the operator sees the machining shape displayed on the screen and there is an incorrect machining shape. I understand that

  However, since the graphic device draws the machining shape at a high speed, even if the operator can confirm that the machining shape is wrong, it can easily identify which program block is the machining shape is wrong. Can not. In addition, when there are many machining shapes such as multi-piece machining, it may be difficult to confirm a program block corresponding to an incorrect machining shape.

  Therefore, if the machining shape is drawn in a so-called single step by displaying each program block in turn and checking one program block at a time, the operator checks which program block has the wrong machining shape. be able to.

  However, if the NC program is long, the number of program blocks is enormous, so that it takes a considerable amount of time to confirm the NC program corresponding to the wrong machining shape in the single step. For this reason, it is considered to draw a machining shape in a single step at an arbitrary position (Patent Document 1).

JP 61-1111849 A

  However, since the graphic device draws a processed shape at a high speed, it is difficult to switch to single step by interrupting continuous drawing at a specific place where it is desired to draw in a single step.

  In view of the above problems, an object of the present invention is to provide a graphic drawing apparatus of an electric discharge machining apparatus capable of drawing by switching to a single step at a specific location.

  The graphic drawing apparatus of the electrical discharge machining apparatus according to the present invention continuously includes a means for selecting a desired program block, a means for adding a flag to the selected program block and storing it, and a program block having the stored flag. Means for drawing the machining shape corresponding to each program block on the display device, means for drawing the machining shape corresponding to the program block from the stored program block with the flag on the display device for each program block, and each program block And a means for canceling the drawing of the processed shape on the display device.

  Further, the graphic drawing apparatus of the electric discharge machining apparatus according to the present invention stores a flag in a program block corresponding to the selected machining shape and a means for selecting a specific portion among the machining shapes displayed on the display device. Means for causing the display device to continuously draw the machining shape up to the machining shape immediately before the machining shape corresponding to the program block having the stored flag, and the machining shape corresponding to the program block having the stored flag And means for causing the display device to draw the machining shape for each program block, and means for canceling the drawing of the machining shape to the display device for each program block.

  In the present invention, a selected program block is flagged and stored, and the selected program block is continuously displayed until it is released from the selected program block. Since the machining shape is displayed on the display device, even if the graphic device draws the machining shape at a high speed, it is easy to interrupt the continuous drawing at a specific location and switch to single step. be able to. Therefore, the machining shape and the NC program can be confirmed more easily, and the working efficiency is improved.

  FIG. 1 shows a graphic drawing apparatus of an electric discharge machining apparatus according to the present invention. FIG. 2 is a flowchart showing the operation of the graphic display device. 3 and 4 are diagrams showing an input screen.

  The graphic drawing apparatus is included in the NC apparatus of the electric discharge machining apparatus. The graphic drawing device includes a selection device 1, a flag assignment device 2, a storage device 3, a drawing device 4, a release device 5, and a display device 6. The NC device of the electric discharge machining apparatus includes a program input device 7 and a program analysis device 8.

  The NC program is input from the program input device 7 and stored in the storage device 3. The NC program stored in the storage device 3 is decoded by the program analysis device 8 and output to the drawing device 4.

  The selection device 1 selects a desired program block, or selects a specific part in the machining shape displayed on the display device 6. The operator selects a specific program block by operating a keyboard, mouse, or touch panel from the displayed program blocks. A mark is displayed in the program block displayed on the display device 6 in the selected program block. Alternatively, the operator selects a specific location from the machining shape displayed on the display device 6. The selected specific portion is displayed on the display device 6 while changing the line type and color of the processed shape.

  The flag assigning device 2 adds a flag to the program block selected by the selecting device 1 or the program block corresponding to the selected machining shape and stores the flag in the storage device 3. When the specific portion of the machining shape selected by the selection device 1 is an area as shown in FIG. 4, the flag assigning apparatus 2 sets a flag on the first program block in the program block corresponding to the area. In addition, it is stored in the storage device 3. The storage device 3 stores a flag in association with a specific program block.

  The drawing device 4 generates drawing data from the NC data of the NC program decoded by the program analysis device 8 and outputs the drawing data to the display device 6. The drawing device 4 includes a continuous drawing unit 10 and a single drawing unit 20. The drawing device 4 simultaneously displays each program block of the NC program corresponding to the machined shape being drawn on the same screen.

  The continuous drawing unit 10 continuously draws the machining shape corresponding to each program block on the display device 6 until immediately before the program block with the flag stored in the storage device 3. The continuous drawing unit 10 causes the display device to continuously draw the machining shape up to the machining shape immediately before the machining shape corresponding to the program block having the flag stored in the storage device 3.

  The single drawing unit 20 causes the display device 6 to draw the machining shape corresponding to the program block from the program block having the flag stored in the storage device 3 for each program block.

  The canceling device 5 cancels drawing of the machining shape on the display device for each program block. Specifically, the operator operates a keyboard or mouse to select a release button displayed on the screen. Alternatively, a release button displayed on the screen is touched with a finger on the touch panel.

  When it is desired to know in detail the machining shape of a specific program block, the operator first selects a specific program block by operating the screen of the desired program block with the selection device 1 as shown in FIG. 3 (S1). ). The selected program block can be selected by adding an identification code or inverting the character. The selected program block is flagged and stored in the storage device (S2).

  In addition, when the processing shape of the problem is known and the user wants to know which program block corresponds, the operator operates the screen by the selection device 1 as shown by the dotted line in FIG. A desired program block can be selected by selecting a specific location in the shape. The selected machining shape is displayed on the display device 6 with the line type and color changed. Further, a desired program block can be selected by operating the screen and selecting an area in the machining shape. When a machining shape is selected in an area, a flag is attached to the first program block among the program blocks corresponding to the machining shape in the area and stored in the storage device.

When the operator operates the screen and presses a drawing start button, drawing data is generated based on NC data analyzed by the program analysis device 8 and the machining shape is continuously drawn on the display device 6 in the continuous drawing unit 10 ( S3).
As long as the program does not end (S4), when the flag comes to a specific location (S5), the machining shape is drawn on the display device 6 for each program block in the single drawing unit 20 (S6). When the operator operates the screen and presses the confirmation button (S7), a machining shape corresponding to the next program block is drawn (S6). When the operator operates the screen and presses the release button (S8), the machining shape is continuously drawn on the display device 6 at the continuous drawing unit 10 again at a high speed (S3). When the program ends, the drawing is completed (S4).

  The present invention is applied to a graphic apparatus of an electric discharge machining apparatus. According to the electric discharge machining apparatus of the present invention, it is possible to more easily check machining shapes and NC program errors, improve work efficiency, and contribute to the development of electric discharge machining.

It is a block diagram which shows the graphic apparatus of the electric discharge machining apparatus of this invention. It is a flowchart which shows operation | movement of the graphic apparatus of the electric discharge machining apparatus of this invention. It is a figure which shows the input screen of the electric discharge machining apparatus of this invention. It is a figure which shows the input screen of the electric discharge machining apparatus of this invention.

Explanation of symbols

DESCRIPTION OF SYMBOLS 1 Selection apparatus 2 Flag provision apparatus 3 Storage apparatus 4 Drawing apparatus 5 Release apparatus 6 Display apparatus 7 Program input apparatus 8 Program analysis apparatus 10 Continuous drawing part 20 Single drawing part

Claims (2)

Means for selecting a desired program block, means for storing the selected program block with a flag, and a display device for displaying a machining shape corresponding to each program block continuously immediately before the program block having the stored flag To cancel the drawing of the machining shape on the display device for each program block, and the means for drawing the machining shape corresponding to the program block on the display device for each program block from the program block with the stored flag A graphic drawing device of an electric discharge machining apparatus. Corresponding to a means for selecting a specific location in the machining shape displayed on the display device, a means for adding a flag to a program block corresponding to the selected machining shape, and a program block having a stored flag Means for continuously drawing the machining shape on the display device up to the machining shape immediately before the machining shape to be performed, and means for drawing the machining shape for each program block from the machining shape corresponding to the stored program block with the flag And a graphic drawing device of the electric discharge machining device, which cancels the drawing of the machining shape on the display device for each program block.

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