JPS62208853A - Tool editor for numerically controlled machine tool - Google Patents

Abstract

PURPOSE:To improve the extent of operatability as well as to aim at reduction in a span of set-up time, by performing a program change in a tool magazine based on an NC machining program in the next time automatically, and displaying details on both insufficient and unused tools. CONSTITUTION:A magazine data on tools being actually housed in each pot of a tool magazine and service tool data for a next machining program to be housed in a NC machining program memory 6 are provided in both memories 16 and 17, and such ones not being in common with both sides are stored in memories 19 and 14 as insufficient tools or unused magazine tool data. And, even in case of those being in common, such ones that differ in a pot address are stored are set down to editing tools and a difference in the address is stored in a memory 21, and on the basis of this memory, a central processing unit 1 commands automatic editing of these tools to an automatic tool change controller 8 and a magazine controller 9, and simultaneously details on these insufficient and unused tools are outputted to a cathode-ray tube 4 and a printer 5. Thus, operatability is improved and, what is more, set-up time is reducible.

Description

DETAILED DESCRIPTION OF THE INVENTION [Field of Industrial Application] The present invention relates to a tool editing device for an NC machine tool, and more particularly to a tool editing device for a tool magazine using a fixed address system.

[Conventional technology]

Conventionally, as a method of feeding tools used in NC machine tools, the main shaft 31 of a machining center as shown in Fig. 3 has been used.
, the tool T with the tool number specified by the NC machining program is transferred from each bore (P1 to Pn) of the tool magazine 32 to the ATC.
(Automatic tool changer) 33 is generally used, but in this case, the management system that compares the tool number and the pot address on the tool magazine is such that tools with the same tool number are always given the same designation. A fixed address method that accommodates the address,
There was an address rewriting method in which the tool was stored in an arbitrary pot and the address was rewritten, and each method had its advantages and disadvantages.

[Problem that the invention seeks to solve]

Of the above two methods, the fixed address method usually does not use a unique number for the pot, but instead assigns the tool number used in the NC machining program (for example, TOI to T99) to each pot as the address, and then the NC machining program The corresponding tool is stored in the pot, but the problem is that the tool numbers for each program are not the same. For example, a tool designated as TOI in the program for work A and a tool designated as TOI in the program for work B The specified tools are not necessarily the same tools, and if the two are different, the operator will have to manually reset the tool in the pot when work on A work is completed, and the tool setup will be delayed. Replacement required manpower and machining preparation time, which significantly impeded work efficiency.

The present invention is proposed in view of these problems.
Improve work efficiency by automatically changing tool setupsN
The purpose of this invention is to provide a tool editing device for C machine tools.

[Means for solving problems]

In the present invention, the means for solving the above problems is to edit the tools of the NC machine tool by supplying tools with tool numbers specified in the NC machining program from each pot of the tool magazine to the spindle by an automatic tool changer. In the machine, there is a magazine tool memory that stores the data of each tool stored in the tool magazine for each pot address, and data of the used tool read from the NG machining program is stored in the pot address of the same tool in the magazine tool memory. a used tool memory that stores the edited number or absent code, a missing tool selection means that selects a tool assigned an absent code in the used tool memory; an unused magazine tool extraction means for selecting a tool that has not been used; an editing tool selection means for selecting a tool whose tool number and editing number are different from the used tool memory; and storing the selected editing tool along with the tool number and editing number. An NC machine tool comprising: an editing tool memory for editing, a display means for outputting the stored contents of each memory, and a control means for instructing an automatic tool changer to perform an exchange operation based on the data in the editing tool memory. This is a tool editing device.

[Effect]

The present invention prepares in memory the tool data indicating the tools actually stored in each pot of the tool magazine and the used tool data indicating the tools scheduled to be used in the next NC machining program. Items that are not common are output as missing tool data or unused magazine tool data, and items that are common but have different pot addresses are stored as editing tools with the difference in address. and,
The control means instructs the ATC to automatically edit the tool based on the memory.

〔Example〕

Hereinafter, the present invention will be explained in detail with reference to examples and drawings.

FIG. 1 is a block diagram showing an example of the configuration of a tool editing device for an NC machine tool embodying the present invention.

In FIG. 1, the tool editing device is a central processing unit of the NC machine tool, and includes a CPU which is also a control means for ATC, a tape reader 2 for NG tape, a keyboard 3, a CRT display 4 and a printer which are display means. 5 and
NC that stores the contents read by tape reader 2
Machining program memory 6 and used tool data 7 that stores the tool number and tool type of the tool read from the next NC machining program together with the edit number or absence code described later.
, a tool operation program memory 10 for driving the ATC control device 8 and magazine control device 9, a comparison circuit 11 for comparing the total number of tools used and the maximum number of stored tools in the magazine, and a comparison circuit 11 for comparing the total number of tools used and the maximum number of tools stored in the magazine, and the number of tools considered and the total number of tools used. A matching circuit 12 that detects a match in number, an unused magazine tool extraction circuit 13, an unused magazine tool memory 14, a magazine tool memory update processing circuit 15, and a tool type and number of each tool stored in the tool magazine. a magazine tool memory 16 that stores the edit number indicating the pot address; a same-position tool determination circuit 17 that determines the tool whose edit number matches the tool number in the used tool memory; and an absent code from the used tool memory. a missing tool selection circuit 18 that selects a tool given a missing tool; a missing tool memory 19 that restores the selected tool as a missing tool; and a missing tool memory 19 that restores the selected tool as a missing tool; and a tool that has a different tool number and editing number from the used tool memory 7 and edits it; It consists of a data converter 20 that compares the numbers as old pot number data and tool numbers as new pot number data, and an edit tool memory 21 that stores the selected edit tool along with two pot addresses.

FIG. 2 is a flowchart showing the operating procedure of the above device. In Figure 2, when the device is started, the first
On the CRT display 4 shown in the figure, part of the contents of the used tool memory 7 and the magazine tool memory 14 are displayed as a tool editing screen as shown in FIG. has a writing column for a processing flag, and when an instruction is given to output only the contents of the magazine tool memory 14, the display is displayed as shown in FIG. 5). On the tool edit screen, the used tool edit number (Edit No.
) field is blank, and the operator searches for a tool on the magazine tool side for the same type of tool as the tool being used, and enters the pot address into the edit number field using the keyboard 3 (it is automatically entered using a search program). ). If the same type of tool cannot be found, write an absent code * in the edit number field. The 0th stage of the process is to automatically set the total number of used tools N and the maximum number of stored tools Pm in the magazine according to the above tool editing screen, set the CPU side counter n to 1, and set the flag in the magazine tool memory 16. It is initialized to "0" and the gate circuit 101 of the comparison circuit 11 is opened by a command from the CPUI. In comparison circuit engineer 1, the total number of tools used N and the maximum number of tools stored in the magazine Pm are input, and as the 0th stage of processing, a comparison is made between the two, and if the maximum number of stored tools in the magazine Pm is less than the total number of tools used issues an alarm as it is impossible to continue working in the machining operation, and if the maximum number of magazines stored Pm is large, a signal is sent to the gate circuit 102, and as stage 0, a signal is sent to the judgment circuit 17 to indicate the used tool in the used tool memory 7. Number Tlk and tool editing number (Edit)
N11) is read line by line, and in the 0th stage it is determined whether the two numbers are the same. If both numbers are the same, a signal is sent to the magazine tool memory 16 via the OR gate 103, and as the 0th stage of processing, the flag 1'' is set for the tool at the pot address corresponding to the edit number.
I'm so tired. If the two numbers are not the same, in step (3), the selection circuit 18 determines whether the editing number column of the tool is an absent code *, and the tool with the absent code * is selected as the missing tool. It passes through the AND gate 18a and is stored in the missing tool memory 19 as shown in FIG. 6 at the 0th stage. If the tool under consideration is not one of the above, a signal will be output from the Noah game) 104, and in the 0th stage of processing, the flag is set to the tool at the pot address corresponding to the edit number in the magazine tool memory 16. This signal also opens the gate circuit 105 at the same time, and as the 0th stage of processing, the used tool number T is set.
Na and the used tool & i collection number (Edit 隘) are input to the data converter 20 as an editing tool selection means, and a comparison as shown in FIG. 7 is made in which the editing number is the old pot number data and the tool number is the new pot number data. It is converted into data and stored in the editing tool memory 21 in the [phase] stage. This means that one line of the used tool memory 7 has been examined, and the flow is repeated as the 0th stage until the minus number circuit 12 confirms that all tools have been examined. If all the tools have been considered, a signal is sent to the Antogame 106, and in the first [phase] stage, the extraction circuit 13 extracts all the tool data whose flags in the magazine tool memory 16 remain "0". Data as shown in FIG. 8 is stored in the unused magazine tool memory 14. -The signal from the number circuit 12 is
It is also sent to the CPUI as a tool editing operation command, and in the 0th stage, the tool editing operation by ATC is executed according to the tool operation program 10 based on the data of the &W collection tool memory 21, and as the 0th stage, the magazine tool The memory update processing circuit 15 updates the old number and new number in the magazine tool memory 16 of the tool to be converted from the AND gate 15a.

FIGS. 9(a) to 9(g) are explanatory diagrams showing the above-mentioned tool exchange operation and memory update process. For example, a tool whose new number should be 01 is stored at a pot address indicated by an old number 02. When the tool magazine 32 is
), as shown in Figure (C), extract the tool at address 02 using the twin arms of ATC33, and replace it with the tool at pot address 01, as shown in Figures (d) to (e). Then, as shown in Figures (f) to (g), the tool is stored in pot address 02, and then stored in magazine tool memory 1.
6, the data of pot address 01 is rewritten to the data of pot address 02, and the tool data of pot address 02 is rewritten to the data of pot address 01.

The 0th stage and the [phase] stage of the process are the printer 5 outputs of the missing tool list and the unused magazine tool list, and the operator changes the tool magazine setup based on this list. Output is not limited to the printer 5, for example, CRT4
It doesn't matter at all.

〔Effect of the invention〕

As explained above, according to the present invention, the setup in the tool magazine is automatically changed based on the next NG machining program, and the details of missing tools and unused tools are clearly shown to the operator, thereby reducing manual labor and machining. It is possible to provide an excellent tool editing device for an NC machine tool that saves preparation time and improves machining performance.

[Brief explanation of drawings]

Fig. 1 is a configuration diagram showing an example of a tool editing device embodying the present invention, Fig. 2 is a flowchart showing an example of the operation of the above device, Fig. 3 is a structural diagram of an ATC and a tool magazine, and Figs. FIG. 8 is a sample diagram of the output screen, and FIG. 9 is an explanatory diagram of the exchange operation. 1; CPU (control means), 4; CRT display (display means), 5; Printer (display means), 6; NC machining program memory, 7; Used tool memory, 13; Unused magazine tool extraction circuit, 14; Unused magazine tool memory, 15; Magazine tool memory update processing circuit, 16; Magazine tool memory 17; Same number tool determination circuit, 18; Missing tool selection circuit, 19; Missing tool memory, 20; Data converter (editing tool Selection means), 21: Edit tool memory, N: Total number of used tools, Pm: Maximum number of magazines stored, TNo: Used tool number, Edit: Used tool editing number, *: Absent code.

Claims (1)

[Claims] In the tool editing device of the NC machine tool, the tool with the tool number specified in the NC machining program is supplied from each pot of the tool magazine to the spindle from each pot of the tool magazine to the spindle. A magazine tool memory that stores data for each address; a used tool memory that stores the data of the used tool read out from the NC machining program along with the edit number or absent code that is the pot address of the same tool in the magazine tool memory; missing tool selection means for selecting a tool given an absence code in the tool memory; unused magazine tool extraction means for selecting a tool stored in the magazine tool memory but not stored in the used tool memory; and a tool. An editing tool selection means for selecting a tool whose number and editing number are different from the used tool memory, an editing tool memory for storing the selected editing tool together with the tool number and the editing number, and a display means for outputting the stored contents of each memory. A tool editing device for an NC machine tool, comprising: and a control means for instructing an automatic tool changing device to perform a changing operation based on data in an editing tool memory.