JPH0229464B2 - - Google Patents

Description

DETAILED DESCRIPTION OF THE INVENTION (a) Technical Field of the Invention The present invention relates to a numerical control device suitable for application to a numerically controlled machine tool that uses a plurality of tools, such as a numerically controlled lathe.

(b) Technical background Normally, in this type of numerically controlled machine tool,
In order to perform proper machining, tool dimension data such as the cutting edge angle and blade width of the tool are registered in the memory of the numerical control device, and the most suitable tool for machining can be found by searching the tool dimension data described above. Selected.

(c) Prior art and problems Conventionally, tool dimension data of tools used for machining was registered in a numerical control device by an operator inputting data from a keyboard according to characters displayed on a display. I was doing it. In other words, for each tool, characters such as "cutting edge angle" and "cutting angle" are displayed on the display, and the corresponding dimensional data is entered at the position on the display corresponding to each display. Ta.

However, for example, dimensions corresponding to names such as entering angle and blade width may have different measurement positions depending on the tool, and unless the operator is familiar with the measurement positions for each tool, it is difficult to register tool dimension data. Not only does it take a lot of time and effort, but there is also the risk that the dimensions of an incorrect location may be registered, making it impossible to select an appropriate tool and therefore make it impossible to perform the process during actual machining.

(d) Purpose of the Invention In order to solve the above-mentioned drawbacks, the present invention eliminates the need for the operator to be familiar with the measuring position of each tool to be registered, and also allows the registration of tool dimension data in a short time and easily. The purpose of this invention is to provide a numerical control device that can perform operations reliably.

(e) Structure of the Invention That is, the present invention provides a tool pattern memory storing a symbol pattern consisting of a shape pattern indicating the shape of a tool in which tool dimension data is to be registered and a measurement display pattern indicating the measurement position of the tool dimension data; A display requesting means for requesting display of the symbol pattern on the display is provided, and the symbol pattern can be displayed on the display when registering the tool dimension data.

(f) Examples of the invention Examples of the invention will be described below based on the drawings.

FIG. 1 is a control block diagram showing one embodiment of a numerical control device according to the present invention, and FIG. 2 is a diagram showing an example of a display mode of the numerical control device of FIG. 1 on a display.

As shown in FIG. 1, the numerical control device 1 has a main control section 2, and the main control section 2 includes a tool selection control section 3, a drive control section 5, a display 6, a keyboard 7, and a machining program. Memory 9 etc. is bus line 1
Connected via 0. A tool data memory 11 and a tool pattern memory 12 are connected to the tool selection control section 3 .

Since the numerical control device 1 has the above configuration, when registering tool dimension data DATA, a dimension data input request is sent via the keyboard 7.
Outputs DDI to main control unit 2, and main control unit 2 requests
The tool selection control section 3 is driven based on the DDI. The tool selection control section 3 reads out the tool symbol pattern SPT from the tool pattern memory 12 and displays it on the display 6. Tool pattern memory 12
As shown in FIG. 2, the tools (bits and drills in this embodiment) used in the machine tool (in this embodiment, a lathe) to which the numerical control device 1 is installed are It is stored in a patterned form in the symbol pattern SPT, and the symbol pattern
SPT is a shape pattern PAT that shows the general shape of the tool
and indicates the measurement position of the necessary tool dimension data DATA to be registered. It consists of a measurement display pattern MPA consisting of dimension lines, dimension extension lines, and identification symbols ID. Furthermore, each symbol pattern SPT is stored in the memory 12 in a form categorized by the machining content performed by the tool corresponding to the symbol pattern SPT. ), groove machining (displayed as "GRV"), thread machining (displayed as "THR"), and drilling (displayed as "DRL"). , for outer diameter machining (shown as "1.OUT" in Figure 2),
It is stored with a predetermined flag attached to each machining location, such as internal diameter machining (displayed as "2.IN") and end face machining (displayed as "3.EDG"). .

Therefore, on the display 6, as shown in FIG. 2, each symbol pattern SPT is displayed with a usage display UPT and a processing part display CAP attached for each application and processing area. Also,
At the same time, the tool number assigned to each tool to be registered
TNB will be displayed and the corresponding symbol pattern
SPT display UPT by application and display CAP by processing area
is displayed in reverse video (indicated by hatching in FIG. 2), allowing the operator to recognize the tool to be registered.

The operator recognizes the specific tool to be registered from the highlighted display UPT on the display 6, the symbol pattern SPT corresponding to CAP, and the tool number TNB, and according to the measurement display pattern MPA of the symbol pattern SPT, Each tool dimension data DATA is input from the keyboard 7. The input dimension data DATA is displayed at a corresponding display position 6a on the display 6, and is also stored in the tool data memory 11 via the tool selection control section 3.

In this way, when the registration of tool dimension data DATA for one tool is completed, the tool number TNB of the next tool to be registered is displayed on the display 6, and the corresponding symbol pattern SPT is displayed by usage UPT and machining part. Since the display CAP is displayed in reverse video, the operator inputs the tool dimension data DATA of the corresponding tool via the keyboard 7 in the same manner as described above.

When the tool dimension data DATA of all tools is stored in the tool data memory 11, the operator issues a machining start command MSD from the keyboard 7 to the main control unit 2.
The main control section 2 instructs the tool selection control section 3 and drive control section 5 to perform machining based on the machining program PRO stored in the machining program memory 9. The tool selection control unit 3 reads the machining program PRO from the machining program memory 9, and selects the optimum tool to be actually used for machining based on the machining program PRO from the tool dimension data DATA of each tool in the tool data memory 11. is determined by searching, and is notified to the drive control section 5. The drive control unit 5 drives a tool post (not shown) on which the notified tool is mounted, and performs a predetermined process.

Note that in the above embodiment, the symbol pattern
Although a case has been described in which a plurality of types of SPT are displayed at once on the display 6, it is also possible to display one type of symbol pattern SPT for each tool to be registered. It goes without saying that the measurement display pattern MPA may also be displayed by increasing or decreasing the number of display locations for each tool as necessary. Furthermore, tool dimension data DATA can be registered for one or more tools for each display pattern SPT, and tools corresponding to the same display pattern SPT can be registered using tool numbers.
(In other words, in the tool data memory 11, each tool dimension data DATA is
The tools are stored with a unique tool number TNB attached. ).

(g) Effects of the Invention As explained above, according to the present invention, the tool dimension data DATA is combined with the shape pattern PAT indicating the shape of the tool to be registered and the tool dimension data to be registered.
Measurement display pattern MPA showing the measurement position of DATA
Since the tool pattern memory 12 storing the symbol pattern SPT consisting of the symbol pattern SPT and display requesting means such as the keyboard 7 for requesting display of the symbol pattern SPT on the display 6 are provided, when registering the tool dimension data DATA, the operator can Just by looking at the symbol pattern SPT displayed on the display 6, the measuring position of the dimension to be registered can be immediately recognized accurately, and the operator can be familiar with the measuring position of each tool to be registered. Therefore dimensional data does not need to be
Not only can DATA registration work be performed easily in a short time, but the possibility of registering the dimensions of an incorrect location can be greatly reduced.

[Brief explanation of drawings]

FIG. 1 is a control block diagram showing one embodiment of a numerical control device according to the present invention, and FIG. 2 is a diagram showing an example of a display mode of the numerical control device of FIG. 1 on a display. 1... Numerical control device, 6... Display, 7
... Display request means (keyboard), 11 ... Tool data memory, 12 ... Tool pattern memory,
DATA...Tool dimension data, PAT...Shape pattern, MPA...Measuring display pattern, SPT...Symbol pattern.

Claims (1)

[Claims] 1. In a numerical control device having a tool data memory and display that stores tool dimension data of tools used for machining of a machine tool, a shape pattern indicating the shape of the tool in which the tool dimension data is to be registered and the measurement position of the tool dimension data A tool pattern memory storing a symbol pattern consisting of a measurement display pattern indicating A numerical control device configured so that it can be displayed above.