KR830002110B1 - Sequence control method of numerical machine tool - Google Patents

Abstract

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Description

Sequence control method of numerical machine tool

1 is a block diagram of an NC machine equipped with a programmable sequence controller (PC) (hereinafter referred to as a PC) according to the present invention.

2 is a configuration diagram of a nonvolatile memory provided in the PC of FIG.

The present invention relates to a sequence control method for a numerically controlled work system having a PC.

By combining a numerical control device (hereinafter referred to as NC) and a PC, various operation control of the machine tool is performed, such as automatic replacement of the machine tool. The control of the machine tool which combined such NC and PC is performed as follows. That is, the numerical control publication recorded on the recording medium such as the punched tape is read out by the NC. Mechanical data required for relative movement control between the workpiece and the tool, such as numerical values and feedrates, are processed by pulse distribution, etc., and then this data is sent from the NC to the machine tool to perform tool change. Information other than the above-described information necessary for relative movement control such as is transmitted to the PC and stored there. When the PC receives signals such as spindle stop signal from the machine tool and recognizes that the tool change condition on the machine tool side has been cleared, the machine tool sends the tool change information from the PC side to the machine tool side. The tool is received and tool change is performed, all of which are performed in accordance with the program loaded in the PC.

Some machine shops with machine tools are not fully equipped with power distribution facilities, and there are also rural environments. Therefore, a machine tool existing in such a factory may encounter an abnormal state when a large change in the power supply voltage is encountered, or when a power failure occurs and the power supply voltage returns to normal after a short time. In the case where a machine tool with a PC and an NC encounters such a short interruption, for example, if a command issued from the PC to the machine tool is not executed or if such a power outage occurs during a run, the machine tool can perform its function during operation. Stop. If the power failure is restored to the normal state of the power supply voltage immediately, the operation of the PC, NC and the machine tool is resumed. When these operations are resumed, the NC and the PC issue a new command to the machine tool as the machine tool has finished all the work ordered before the power failure. However, the machine tool does not perform the operation commanded before the power failure as described above, or if transmission resumes during execution and receives a new command from the PC and NC, the machine tool starts work according to the new command, leaving the work to be performed. This not only destroys the sequence control of the machine tool, but also worsens the workpiece during machining.

Accordingly, it is an object of the present invention to smoothly operate a sequence control of a machine tool in a NC machine equipped with a PC when the machine tool is temporarily stopped by a power failure lamp during operation and then restarted. It is to provide a sequence control method of the NC machine tool to perform.

An object of the present invention is to provide an alarm in a NC machine equipped with a PC, if the sequence control of the machine tool is confused when the machine tool is temporarily stopped by a power failure light during operation and then restarted. It is to provide the sequence control method of NC machine tool.

It is still another object of the present invention to stop a machine tool immediately if the sequence control of the machine tool becomes difficult when the start of operation is started again after a power failure is temporarily interrupted by a blackout or the like in an NC machine tool having a PC. It is to provide a sequence control method of the NC machine tool that can find a means to make.

Hereinafter, the present invention will be described in detail with reference to the accompanying drawings.

1 is a configuration diagram of an NC machine tool exemplifying a first embodiment of the present invention. Example 1 is a machine tool such as a PC, 2 is an NC, and 3 is a control center which will be controlled. A detailed configuration thereof will be described later. . In the PC 1, reference numeral 11 includes a normal read-only memory (ROM) that stores a sequence instruction programmed for controlling the machine tool 3 as a program memory. Reference numeral 12 denotes an operation control unit, 13 an output device for outputting a command signal to a machine tool, 14 an input device for storing an operation signal from the machine tool 3 and a command from the NC in a PC, and 15 a job. Temporarily stores the currently executing sequence data as a memory. Reference numeral 16 denotes a nonvolatile memory, and addresses are divided into groups A and B as illustrated in FIG. Reference numeral 17 is a comparator that compares the data stored in the group A in the memory 16 with the data stored in the group B and outputs a signal when there is a mismatch. 18 is an alarm circuit and 19 is a data bus.

In the NC 2, reference numeral 21 is a data input and display portion having an input key 211 and a display device 212, 22 is a tape tape mounted on a tape reader 22, and NC is a punched tape. The information is punched, and when the machine tool 3 is operated, the information of the perforated tape 23 is read by the tape reader 22 one block at a time.

In the machine tool 3, reference numeral 31 is a table for loading a workpiece, 32 is a base for moving the table 31 in the X, Y, and Z directions, and 33 is a spindle for mounting a tool. The spindle head itself is movable in the Z-axis direction, 34 is the main axis, 35 is a magazine for rotating the plurality of tools 36 while moving up and down along the main axis 34, 37 is a tool ( A gripping member for holding an arbor of 36).

The automatic tool change mechanism described above performs tool change as follows.

(1) The magazine 35 is lowered along the Y axis, and the tool 361 to which the gripping member 37 fits the spindle is gripped.

(2) The spindle head 33 is retracted in the Z-axis direction so that the tool 361 is drawn out of the spindle and the tool 361 is stored in the magazine 35.

(3) The magazine 35 is rotated in the lowered position to stop the magazine 35 at a position where the desired tool coincides with the spindle axis.

(4) The spindle head 33 is advanced in the Z-axis direction so that the selected tool is decompressed to the magazine.

(5) Raise the magazine (35).

Hereinafter, the operation of the present invention will be described.

The spindle is equipped with a sphere tool 361, whose tool number is TO1. In order to exchange the tool 361 with another tool (temporarily called the tool number T14), the following operation command T14M06 ^* is issued from the NC 2 to the PC 1. Here, T14 is the number of the tool to be newly selected, M06 is the assistant function command for changing the tool, and ^* represents the block end. This operation command is stored in the work memory 15 of the PC 1, and at the same time, the number T14 of the tool to be newly selected is stored in a certain address of the group A of the nonvolatile memory 16, for example, the A1 address. As described later, the data 14 stored in the address A1 is transferred to any one of the D groups of the nonvolatile memory 16, for example, the address B1 when the tool change operation is completed, but at this point, the tool 361 Tool number TO1 is stored in address B1. Since the PC 1 executes the above operation command for the machine, the machine 1 operates the machine sequentially in the sequence indicated by (1) to (5). The following arithmetic processing is performed to rotate the magazine 35.

(1) The current address of the magazine 35 is read. It depends on the information from the limit switches LA1 to LA4.

(2) Find the address of the magazine 35 in which the tool 361 mounted on the spindle is to be accommodated. That is, the contents (tool number TO1) of the address B1 are read. In this embodiment, the tool number and the address of the magazine 35 are made to match. That is, for example, the tool of TO1 is received at address 01 of the magazine 35.

(3) Usually, the addresses read out by the above (1) and (2) coincide, and when a match is confirmed, the operation shifts to the magazine 35's descending operation. The completion of the gripping portion of the tool 361 is confirmed by the signal of the limit switch LL acting when the magazine 35 has finished falling.

(4) Next, the spindle head 33 retreats. The completion is confirmed by the signal of the limit switch LR.

(5) Next, in order to select a newly commanded tool (tool number T14), an example number 14 corresponding to the tool number T14 is assigned to a command address, and the magazine 35 read from this command address and the limits LA1 to LA4. The rotation direction of the magazine 35 is determined by the current address, and the magazine 35 is rotated to determine the rotation direction of the magazine 35 at the position where the command address and the current address coincide. At this time, the tool of tool number T14 coincides on the spindle axis.

(6) The spindle head 33 advances, fitting the tool of the tool number T14 and the spindle. This is confirmed by the limit switch LF.

(7) The magazine 35 is raised. When this operation is completed, that is, the magazine is stopped, it is confirmed by the limit switch LH.

(8) When the sequence of (1) to (8) is executed, the contents T14 of the address A1 of the memory 16 are read and the contents are written to the address B1. As a result, the contents of the address B1 change from TO1 to T14, and the contents of the address A1 and the contents of the address B1 are equal to T14.

If the power supply is interrupted at any point in the sequence of (1) to (7) above, the contents of addresses A1 and B1 are read after the power is restarted, and the two are inconsistent when the two are contrasted (the contents of address A1 are T14 and address B1). The contents of TO1 are detected so that an alarm signal can be generated. Even when the machine is restarted after the power is restarted, the tool number of the tool currently mounted on the spindle is stored in the address B1 of the memory 16, and this information is stored in the key 211 of the data input and display unit 21. It can call by operation, and can display as a tool number by the display part 212. When the contents of addresses A1 and B1 are inconsistent with the power resume, the operator

(1) Examine the tool change status and if the commanded tool is mounted on the spindle, the contents of address B1 are correctly rewritten to perform subsequent operations.

(2) If the command of the tool change is examined and the command is not mounted on the spindle, the tool change command is manually input again by the key 211 of the data input unit 21, and the tool change operation is completed to perform the subsequent operation. To do

As described above, in the present invention, the nonvolatile first and second memory portions capable of storing the operation instructions in the PC are stored in the PC and the instruction data are stored in the first memory portion when the machine tool operating instructions are given. When the power is turned on by repeating the operation of storing the command data stored in the first memory unit in the second memory unit at the end of the operation and comparing the data stored in the first and second memory units in the comparison circuit. In this case, it is possible to know that the commanded operation is incomplete when both of them are inconsistent, so that the mismatch between the command from the numerical control device and the operating state of the machine tool is detected before operation when the power is restored after the machine tool is out of power. can do.

Although the present invention has been described in any degree to the adopted forms, it is obvious that numerous modifications and variations are possible within the above teachings. It is, therefore, to be understood that within the scope of the appended claims, the invention may be practiced otherwise than as specifically described.

Claims (1)

In the sequence control method of a numerical control machine tool in which operation is controlled through a PC, a first nonvolatile memory unit provided in the PC for storing command data applied to the machine tool, and a work completion signal according to the command data A second nonvolatile memory unit provided in the PC for double storing the command data stored in the first nonvolatile memory unit when generated from the machine, and the first and second units when the power is supplied to the machine tool; And a comparator provided in the PC for comparing the contents of the nonvolatile memory unit.

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