JP3748975B2 - Transfer line having tool change method and tool changer in transfer line - Google Patents

Description

[0001]
BACKGROUND OF THE INVENTION
The present invention relates to a tool change method and a tool in a transfer line comprising machine tools arranged at a plurality of machining stations for machining a workpiece and a transfer device for sequentially conveying the workpieces to the plurality of machining stations. The present invention relates to a transfer line provided with an exchange device.
[0002]
[Prior art]
The transfer line is configured such that machine tools for processing a workpiece are arranged in series as a processing station, and the workpiece is transferred between the processing stations by a transfer device.
Conventionally, in such a transfer line, when the life of a tool used in a machine tool approaches, a sequence controller connected to each machine tool instructs the operator to change the tool.
[0003]
The operator prepares a tool for changing the tool of each machine tool (hereinafter referred to as a new change tool) based on the tool change instruction of the sequence controller, and sequentially performs tool change work on the machine tool for which the tool change instruction has been issued. The first machined work piece after changing to a new exchange tool is the first work piece, and the machining state of the part machined with the new work tool of the first work piece is checked (this is called quality check) Thus, it is possible to prevent the occurrence of defective products in subsequent machining with a new replacement tool.
[0004]
[Problems to be solved by the invention]
However, since this quality check is performed by stopping the operation of the transfer line, when a tool change instruction is generated in a plurality of machine tools, the operator performs the work by changing the tool of one machine tool, After the transfer line is stopped and quality is checked, the tool change of the next machine tool is performed to stop the transfer line and repeat the quality check. The operation of the transfer line has to be stopped, and the stop time of the transfer line is increased and the mobility is lowered.
[0005]
In addition, if the tool is changed at the same time and the quality check is performed, the stop time can be shortened. To that end, it is necessary to increase the number of workers and the number of measuring instruments for the quality check is also increased. It will be.
Therefore, the main object of the present invention is to reduce the time during which the transfer line is stopped for the quality check from the prior art even when at least one worker performs the quality check in the transfer line described above. The purpose is to improve the operability of the line.
[0006]
[Means for Solving the Problems]
The problems and objects related to the conventional transfer line described above are solved by the following means according to the present invention. That is, the invention described in claim 1 For each tool that is used in excess of the preset tool change forecast value among the tools used in the machine tool. Prepare a new replacement tool to replace the tool, In a plurality of machine tools among the machine tools, instructing the simultaneous tool replacement for the new replacement tool at the stage where the new replacement tool is prepared, according to the instruction of the simultaneous tool replacement, The new replacement tool But Preparation Is The The conveyance direction of the workpiece among the plurality of machine tools The most advanced machine tool Used above the tool change forecast value Tool Said Change to a new replacement tool, With the new replacement tool Work on the workpiece At the same time, this processed workpiece First product And the other tool other than the most upstream machine tool among the plurality of machine tools prepared with the new replacement tool. Machine Tools And processed by the new exchange tool on the most upstream machine tool. The first workpiece is transported to the machine tool by the transfer device. At the stage where the tool has been used, the tool used exceeding the predicted tool change value Replace with the new tool , The new replacement tool Since machining is performed, the number of first workpieces to be checked for quality can be reduced to one, and the time required for stopping the transfer line can be shortened by the quality check.
[0007]
The invention according to claim 2 Each machine tool was used in excess of the preset tool change forecast value among the control device that controls the machine tool and the tools used in the machine tool. An automatic tool changer for automatically changing a tool and a new change tool in place of the tool; With , Each control device has been used beyond the tool change forecast value Replacement tool instruction means for indicating a tool, and a new replacement tool in place of the tool instructed by the replacement tool instruction means But Prepare at new replacement tool preparation position Is New replacement tool preparation setting means to set Including , Main sequence controller on multiple machine tools New tool change preparation setting means New replacement tool Set Instructing the simultaneous tool change for the new change tool at the stage, The new replacement tool But Preparation Is The The conveyance direction of the workpiece among the plurality of machine tools The most advanced machine tools The control device has been used beyond the predicted tool change value for the automatic tool changer in accordance with the simultaneous tool change instruction. tool When The new replacement tool With Exchange And instructing the machine tool to process the workpiece with the new replacement tool, the main sequence controller First machining with the new replacement tool Is Memorize the workpiece as the first workpiece The control means of the machine tool other than the most upstream in the workpiece transfer direction among the plurality of machine tools for which the new change tool has been prepared is the tool for the automatic tool changer against the simultaneous tool change instruction. Hold the replacement instruction between the new replacement tool and the tool used exceeding the replacement forecast value, The first product workpiece is transferred by the transfer device. The processing station Was transported to A tool that has been used in excess of the predicted tool change With the new replacement tool of Exchange Direct The Is what .
[0008]
The invention according to claim 3 is directed to the configuration of the invention according to claim 2. , A quality check station for checking the quality of the first workpiece, and By all machine tools Processing Complete When the finished workpiece is the first workpiece The first workpiece is the quality check station. A tool changer comprising: a first workpiece workpiece conveying means for conveying; and a quality check instruction means for instructing a quality check of the first workpiece workpiece conveyed to the quality check station by the first workpiece workpiece conveying means. Is provided.
[0009]
Further, a preferred configuration of the quality check instruction means of the invention described in claim 3 is as described in claim 4, The first workpiece Machining with new replacement tools Is Quality check location display means for displaying the detected location.
[0010]
DETAILED DESCRIPTION OF THE INVENTION
Embodiments of the present invention will be described below with reference to the drawings.
FIG. 1 is a block diagram showing the configuration of a transfer line in an embodiment of the present invention.
In FIG. 1, reference numeral 10 denotes a transfer device that conveys a workpiece W. The transfer device 10 includes a loading station 11 for loading the workpiece W, a first station ST1 to a fourth station ST4 in which machine tools M1 to M4 are installed, and a loading station ST5 for unloading the workpiece W. Has been placed.
[0011]
The transfer device 10 sequentially conveys the workpiece W attached at the carry-in station 11 to the first station ST1 to the fourth station ST4 and the carry-out station ST5.
Also, the unloading station ST5 pays out the workpiece W to be checked among the transferred workpieces W to the quality check table CT, and unloads other workpieces W to be checked from the transfer line.
[0012]
The first station ST1 is configured as shown in FIG.
The configuration of the second station ST2 to the fourth station ST4 is the same as that of the first station ST1, and the description thereof is omitted.
In FIG. 2, reference numeral 12 denotes a transfer bar of the transfer device 10, and a transfer jig 13 for attaching the workpiece W at a predetermined interval is disposed on the transfer bar 12.
[0013]
A processing jig 14 is installed on the outer periphery of the transfer bar 12 in the first station ST1, and the workpiece W conveyed to the first station ST1 along the transfer device 10 is processed by the machine tool M1. The bar 12 is fastened to the processing jig 14 from above the conveying jig 13.
A machine tool M1 is arranged at a position facing the processing jig 14. The machine tool M1 mainly includes a bed 15, a column 16, a spindle head 17, a tool magazine 18, and a numerical control device (not shown).
[0014]
The bed 15 is fixed to the ground, and a moving table 19 is provided on the bed 15 so as to be movable in the Z direction parallel to the transfer bar 12, and the column 16 moves forward and backward with respect to the workpiece W on the moving table 19. It is provided so as to be movable in the X direction.
A spindle head 17 is attached to the column 16. The spindle head 17 is movable along a guide rail (not shown) in the Y direction moving up and down in the column 16, and the column 16, the spindle head 17 and the moving table 19 are moved by a motor and a ball screw (not shown). Are moved in the X, Y and Z directions, respectively.
[0015]
A spindle 20 is rotatably supported on the inner periphery of the spindle head 17, and a motor 21 for rotating the spindle 20 is attached to the rear end of the spindle head 17. A tool T is detachably attached to the front surface of the spindle 20. Is inserted. On the other hand, a tool magazine 18 is rotatably mounted on the fixed member 27 above the column 16. The fixing member 27 is Do 15 is supported by a column 28 extending from the column 15.
[0016]
The tool magazine 18 detachably holds a tool pod 22 capable of holding a plurality of tools T. When the tool magazine 18 is rotated, the tool magazine 18 is divided into a spindle tool change preparation position P1 and a new tool change preparation position P2. Is issued. A new tool transfer device 24 is provided at the new tool change preparation position P2. The new tool transporting device 24 is a device for exchanging the tool T having reached the tool life with a new tool (hereinafter referred to as a new replacement tool T ′). The tool conveying path 24a connecting the position P2 and a turning table 24b provided in the middle of the tool conveying path 24a.
[0017]
The turning table 24b can exchange the tool T and the new exchange tool T ′ conveyed at both ends thereof by turning the table. A tool transfer device 23 for moving the tool pod 22 from the tool magazine 18 to the tool change position P0 is provided at the tool change preparation position P1. Further, an ATC arm 25 for exchanging the spindle T and the tool T carried to the tool changing position P0 is provided above the spindle head 17. The tool change by the ATC arm 25 is performed by moving the column 16 to the retracted end and moving the spindle head 17 to the upper end as shown in FIG. 2 This is done by turning 5.
[0018]
The machine tool M1 having the above-described configuration is controlled by a numerical control device (not shown). The following operation is performed in response to a command from a first sequence controller PC1 (hereinafter referred to as a first sequencer PC1). I do.
A tool T to be inserted into the spindle 20 is selected according to the type of workpiece W being conveyed, and the selected tool T is rotated to the tool magazine 18 to be assigned to the spindle tool change preparation position P1. Further, the tool T indexed to the spindle tool change preparation position P1 is carried to the tool change position P0 by the tool conveying device 23 and then inserted into the spindle 20 by the turning operation of the ATC arm 25.
[0019]
When the tool T is inserted into the spindle 20, the spindle 20 is rotated, and the tool T is attached to the machining jig 14 by the movement of the column 16, spindle head 17, and moving table 19 in the X, Y, and Z directions. The object W is processed.
The tool T that has reached the end of its life is removed from the tool magazine 18 by the new tool conveying device 24 and replaced with a new replacement tool T ′ that has been prepared and inserted in advance by the operator at the new tool replacement position P3.
[0020]
On the other hand, a first sequencer PC1 for controlling this is provided behind the machine tool M1. As shown in FIG. 1, the first sequencer PC1 includes a second sequence controller PC2 to a fourth sequence controller PC4 (hereinafter referred to as a second sequencer PC2, a third sequencer PC3, a fourth sequencer) that respectively control the machine tool M2 to the machine tool M4. (Referred to as a sequencer PC4), a fifth sequencer PC5 for controlling the carry-out station ST5, and the transfer device 10 of A link line 26 is connected to a main sequence controller MPC (hereinafter referred to as a main sequencer MPC) that controls the operation and controls the entire transfer line.
[Configuration of First Sequencer PC1 to Fourth Sequencer PC4] The first sequencer PC1 shown in FIG. 3 includes a sequencer body 30, a link circuit 31, and an operation panel 32. The sequencer body 30 includes an input circuit section 33 and an output circuit. A unit 34, an arithmetic control unit 35, a program memory 36, and a data memory 37.
[0021]
The input circuit unit 33 is connected to the operation panel 32, the operation confirmation limit switch LS disposed in each part of the machine tool M1, and a numerical controller (not shown) for numerically controlling the machine tool M1. The operating states of the input signals SW and LS to be input are sequentially selected by a command from the calculation control unit 35 and input to the calculation control unit 35.
[0022]
On the other hand, the output circuit unit 34 is connected to the operation panel 32, a solenoid SOL for instructing start / stop of various actuators arranged in each part of the machine tool M1, and a numerical controller (not shown) for numerically controlling the machine tool M1. In response to a command from the arithmetic control unit 35, the output signal LP is output to the numerical controller and the operation panel 32, and the solenoid SOL is energized or de-energized.
[0023]
The arithmetic control unit 35 is operated in accordance with a sequence program stored in the program memory 36 and instructs the input circuit unit 33 to take in the operating states of the input signals SW and LS. The output signal LP is output to the numerical controller and the operation panel 32 based on the above, and a command for energizing or deactivating the solenoid SOL is given to the output circuit unit 34.
[0024]
The data memory 37 includes an operation state of input signals SW and LS from the numerical control device and operation panel 32 input from the input circuit 33, an output signal LP and a solenoid output from the output circuit 34 to the numerical control device and operation panel 32. A command for energizing or deactivating the SOL is stored.
Specifically, as shown in FIG. 4, it is composed of a unique data area that can be used only by the first sequencer PC1 and a link data area for linking (sharing) data between the main sequencer MPC.
[0025]
The unique data area includes a tool change forecast value area, a tool change stop value area, a tool change current value area, a new tool set completion area, and a new tool change command link relay.
The tool change forecast value area is an area for storing the number of times the tool is used to start the tool change instruction, and the tool change stop value area is an area for storing the number of times the tool is used indicating the tool use limit. The area is an area for storing the number of times the tool is used.
[0026]
These tool change forecast value area, tool change stop value area, and tool change current value area are, for example, as shown in FIG. 4 for each tool number (T1 to T6) stored in the tool magazine 18 of the machine tool M1. In the case of the tool T1, areas for storing a tool change forecast value, a tool change stop value, and a tool change current value are provided at memory addresses D001, D010, and D020, respectively.
[0027]
The new tool set completion area is an area for storing the numbers of the tools T1 to T6 corresponding to the pressed tool set button A114 when the tool set button A114 displayed on the operation panel 32 described later is pressed.
The new tool change command link relay stores a 1/0 signal (command / not command) for commanding the replacement of the new tool T ′ prepared and inserted at the new tool change position P3 with the tool T of the tool magazine 18. It is an area to do.
[0028]
Also, the link data area is the first use tool number storage area, used tool number storage area, workpiece removal notification link relay, tool standby release notification link relay, machining start notification link relay, machining completion notification link relay, new tool set notification link It consists of a relay.
The first use tool number storage area is the first time that machining is performed with a tool whose number of tool uses indicated by the current tool change value area has changed from “0” to “1”, that is, a new change tool T ′ (hereinafter used at this time). This tool is an area in which the tool number is stored.
[0029]
The used tool number storage area is an area for storing the tool number used in the current machining.
The workpiece removal notification link relay is a 1/0 signal that notifies the main sequencer MPC that the workpiece W has been removed before all machining has been completed due to tool breakage or machining failure. Is an area for storing.
[0030]
The tool standby release notification link relay permits 1/0 to exchange the new exchange tool T ′ prepared and inserted at the new tool exchange position P3 given from the main sequencer MPC to the first sequencer PC1 and the tool T of the tool magazine 18. This is an area for storing a signal (exchange permission / waiting for exchange).
The machining start notification link relay is an area for storing a machining start signal given from the main sequencer MPC to the first sequencer PC1, and the machining completion notification link relay stores a machining completion signal notified from the first sequencer PC1 to the main sequencer MPC. It is an area to do.
[0031]
The new tool set notification link relay is an area for storing the tool number set at the new tool replacement position P3 notified from the first scene sequencer PC1 to the main sequencer MPC.
On the other hand, the operation panel 32 is constituted by a touch screen, and displays the screen based on the output signal LP output from the output circuit unit 34, and the input circuit unit when the operator touches a button displayed on the screen. An input signal SW is output to 33.
[0032]
The screen displayed on the operation panel 32 includes a tool change screen A1 shown in FIG. 5. The tool change screen A1 includes a use count display section A11 for displaying the use count of the tools T1 to T6 and a new change tool T ′. The operation button part A12 for instructing the tool change is mainly configured.
The usage count display unit A11 is configured to display numerical values stored in the tool change forecast value area, tool change stop value area, and tool change current value area of the data memory 37, for example, the memory address D001 of the tool change forecast value area. The data “50” is displayed as a predicted value of the T1 tool.
[0033]
Although the detailed operation principle is not described here, when the current value exceeds the tool forecast value data, the display of the current value changes (for example, the background color changes from white to red). Yes.
The operation button portion A12 is a tool set button A114 for notifying the first sequencer PC1 that the operator has inserted the new replacement tool T ′ at the new tool replacement position P3 instead of the tools T1 to T6 currently in use. A tool change standby button A115 for waiting for the replacement of the prepared new change tool T ′ at the new tool change position P3 to be pressed following the tool set button A114, and a defective work piece when a defective work piece is generated due to a broken tool or the like. It consists of a workpiece extraction completion button A116 for notifying that it has been extracted, and a menu switching button group A117 for switching to another screen (not shown).
[0034]
Since the first sequencer PC1 is configured as described above, and the second sequencer PC2 to the fourth sequencer PC4 have the same configuration, detailed description thereof is omitted. However, the memory address of the data memory 37 of the first sequencer PC1 to the fourth sequencer PC4 is the same memory address in the unique data area of each sequencer. The Different memory addresses that do not interfere with each other are assigned.
[Configuration of Fifth Sequencer PC5] The configuration of the fifth sequencer PC5 that controls the carry-out station ST5 is basically the same as that of the first sequencer PC, and the only difference is the data stored in the data memory 37. .
[0035]
The link data area of the data memory 37 of the fifth sequencer PC5 is composed of a quality check notification link relay and a machining start notification link relay. The quality check notification link relay transports the workpiece W requiring quality check to the unloading station ST5. This is an area for storing a signal given from the main sequencer MPC to the fifth sequencer PC5.
[0036]
The unloading start notification link relay is an area for storing a signal for instructing unloading the work W conveyed from the main sequencer MPC to the unloading station ST5 given to the fifth sequencer PC5 outside the quality check table CT or the transfer line, The main sequencer MPC gives a signal instructing the machining start stored in the machining start notification link relay to be given to the first sequencer PC1 to the fourth sequencer PC4 to the carry-out start notification link relay.
[Configuration of main sequencer MPC]
Next, the configuration of the main sequencer MPC will be described only for the data memory 37a and the operation panel 32a that are different from the configuration of the first sequencer PC.
[0037]
The data memory 37a of the main sequencer MPC basically links data between a unique data area that can be used only by the main sequencer MPC as in the first sequencer PC, and the first sequencer PC1 to the fifth sequencer PC5 ( And a link data area to be shared).
As shown in FIG. 6, the unique data area of the main sequencer MPC includes an initial product stop tool number shift area, an used tool number shift area, an extracted workpiece storage area, and an initial product data post-process output area.
[0038]
The first product stop tool number shift area is used when a work piece in the first station ST1 to the unloading station ST5 is machined by a new tool at any of the first station ST1 to the fourth station ST4. This is an area for storing the tool number of the tool used.
The stored tool number of the new tool is shifted in the vertical direction in the area where the workpiece W is moved in the first station ST1 to the fourth station ST4, that is, the workpiece W is moved. The
[0039]
For example, as shown in FIG. 6, when the workpiece W is machined with the new tool 2T2 (2T2 indicates the tool T2 of the second station ST2) in the second station ST2, the tool number “ 2T2 "is stored, and then the tool number" 2T2 "sequentially moves through the addresses D211 to D214 as the workpiece W moves.
[0040]
The vertical data in the first product stop tool number shift area indicates the tool number history of the new tool used at the station, and the horizontal data indicates the new data used for each workpiece W at each station. The tool number history of the tool used is shown.
The used tool number shift area is an area for storing the tool number of the tool used for machining the workpiece W in the first station ST1 to the unloading station ST5.
[0041]
Then, the tool number shift area used is shifted in the vertical direction as the stored tool number is processed at the first station ST1 to the fourth station ST4 of the workpiece W in the same manner as the initial product stop tool number shift area. Is done.
The vertical data in the used tool number shift area indicates the tool number history of the tool used in the station, and the horizontal data indicates the tool number history of the tool used for each workpiece W in each station. ing.
[0042]
The extracted workpiece storage area is an area for storing the usage status of the new tool for the workpiece W notified to the extraction notification link relay from the first sequencer PC1 to the fourth sequencer PC4.
In this extracted workpiece storage area, when any of the first sequencer PC1 to the fourth sequencer PC4 is notified to the extraction notification link relay, the data of the first product stop tool number shift area of the station where the notified sequencer is installed is stored. This is an area to be stored in association with the station number.
[0043]
For example, when there is an extraction notification from the second sequencer PC2 to the extraction notification link relay of the main sequencer PC, the main sequencer MPC extracts the data “000” of the address D111 in the initial product stop tool number shift area in FIG. The data “2T2” of the address D211 in the first product stop tool number shift area is extracted and stored in the area of the address D251 in the workpiece storage area.
[0044]
The initial product data post-process output area is an area for storing data for determining whether or not the initial product check is necessary for the workpiece W conveyed to the unloading station ST5.
When the main sequencer MPC transports the workpiece W to the unloading station ST5, the data related to the workpiece W transported to the transport station ST5 in the first article stop tool number shift area (addresses D114, D214, D314, D414 in FIG. 6). Data) are moved to the initial product data post-process output areas (addresses D140, D240, D340, and D440), respectively.
[0045]
The operation panel 32a is a touch screen like the operation panel 32. The screens displayed on the operation panel 32a include a simultaneous tool change screen B1 shown in FIG. 7 and an initial product check screen B2 shown in FIG.
The simultaneous tool change screen B1 includes a simultaneous tool change button part B11 for instructing simultaneous tool change, and a menu switching button group B12 for switching the screen display of the simultaneous tool change screen B1 and the initial product check screen B2.
[0046]
When the operator touches the simultaneous tool change button B11, an input signal LS for notifying the simultaneous tool change instruction to the input circuit 33 of the main sequencer MPC is input.
The initial product check screen B2 includes an initial product check instruction section B21 and an initial product check complete button B22, and a menu switching button group B23 for switching the screen display of the simultaneous tool change screen B1 and the initial product check screen B2. .
[0047]
The first product check instruction section B21 is a screen for displaying a portion of the workpiece W that has been processed with the newly used tool, and is processed with the newly used tool from among the tools used in the first station ST1 to the fourth station ST4. The part that has been displayed is displayed.
The display of the initial product check instruction section B21 is displayed based on the data in the initial product data post-process output area of the data memory 37a of the main sequencer MPC.
[0048]
The initial product check complete button B22 is a button for notifying the main sequencer MPC that the operator has completed the initial product check. The overall operation of the transfer line configured as described above will be briefly described with reference to FIG. In FIG. 9A, the loading station 11, the first station ST1 to the fourth station ST4, and the unloading station. The It is assumed that different types of workpieces W6, W5.
[0049]
Here, the tool 2T2 at the second station ST2 (meaning the tool T2 at the second station ST2) is a tool used for machining the workpiece W5, and the tool 4T1 at the fourth station ST4 (meaning the tool T1 at the fourth station ST4). ) Is used for machining the workpieces W5 and W3, and the tool 2T2 and the tool 4T1 are replaced, and a tool change instruction to the new exchange tool T ′ is installed in the second station ST2 and the fourth station ST4, respectively. Figure of the operating panel 32 5 The tool change screen A1 shown in FIG.
[0050]
Then, the operator places the tool 2T2 and the new change tool 2T2 ′, 4T1 ′ of the tool 4T1 and the tool 4T1 which are instructed to be changed at the machine tool M2 of the second station ST2 and the fourth station ST4 and the new change tool position P3 of the machine tool M4, respectively. Then, the main sequencer MPC is notified that the new change tools 2T2 ′ and 4T1 ′ have been inserted by operating the tool set button A114 and the tool change standby button A115 on the tool change screen A1 of the operation panel 32.
[0051]
When the operator presses the simultaneous tool change button B11 of the simultaneous tool change screen B1 shown in FIG. 7 on the operation panel 32a of the main sequencer MPC, the main sequencer MPC is replaced with the new change tools 2T2 ′ and 4T1 ′. Of the instructed tool 2T2 and tool 4T1, change the tool used in the most upstream machine tool, that is, the tool 2T2 of the second station ST2 to the second sequencer PC2 so as to replace the tool with the new replacement tool 2T2 ′. Allow.
[0052]
As a result, as shown in FIG. 9B, the tool 2T2 at the second station ST2 is replaced with the new replacement tool 2T2 ', and the new replacement tool 4T1' at the fourth station ST4 is not replaced and is waiting at the new replacement tool position P3. It becomes a state.
Further, as shown in FIG. 9 (c), the workpiece W6 of the loading station 11 is transported to the first station ST1 by the transfer device 10, and the workpiece W5 of the first station ST1 is transported to the second station ST2. Similarly, when the workpieces W4, W3, and W2 are respectively transferred to the third station ST3, the fourth station ST4, and the unloading station ST5, the workpiece W5 is processed by the new change tool 2T2 ′ that is replaced at the second station ST2. Is done.
[0053]
Thereby, the workpiece W5 machined with the new exchange tool 2T2 ′ in the second station ST2 is set as the first workpiece.
And the workpiece W3 conveyed to 4th station ST4 is processed with the tool 4T1.
Next, as shown in FIG. 9 (d), when the work progresses and the workpiece W5 is conveyed to the fourth station ST4, the main sequencer MPC assumes that the first workpiece has been conveyed to the fourth station ST4. The fourth sequencer PC4 is permitted to change the tool of the new exchange tool 4T1 ′ and the tool 4T1 at the fourth station in standby.
[0054]
When the tool change is permitted from the main sequencer MPC, the fourth sequencer PC4 changes the new change tool 4T1 ′ and the tool 4T1 to process the workpiece W5.
As a result, the workpiece W5 is processed by the new replacement tool 2T2′4T1 ′, and the processing by the new replacement tool 2T2′4T1 ′ is concentrated on the workpiece W5.
[0055]
Further, when machining progresses and the workpiece W5 is conveyed to the unloading station ST5, the main sequencer MPC notifies the fifth sequencer PC5 that the workpiece W5 requiring quality check has been conveyed to the unloading station ST5. A quality check instruction screen B2 shown in FIG. 8 is displayed on the board 32a.
When the fifth sequencer PC5 is notified that the workpiece W5 requiring quality check has been transported to the unloading station ST5, the sequencer PC5 transports the workpiece W5 to the quality check table CT as shown in FIG. 9 (e). To do.
[0056]
Thereafter, the operator checks the parts machined by the new replacement tools 2T2 ′ and 4T1 ′ instructed on the quality check instruction screen B2 of the workpiece W5.
As a result, the first workpiece processed for the first time with the new replacement tools 2T2 'and 4T1' is only the workpiece W5. Therefore, the workpiece is processed by replacing the tool that has reached the end of its life, and the quality is improved each time. Since the number of workpieces to be quality-checked can be reduced compared to checking, it is possible to save the labor of the operator and to shorten the time for stopping the transfer line for the quality check.
[0057]
In addition, when the workpiece W5 has finished machining with the new replacement tool 2T2 ′ of the second station ST2, and becomes a defective workpiece due to tool breakage or the like during the machining of the third station ST3, the main sequencer MPC is shown in FIG. After the workpiece W5 shown in e), the workpiece W5 ′ to be processed using the new change tool 2T2 ′ is changed to the first workpiece in the same manner as the workpiece W5.
[0058]
As a result, even if the first workpiece W5 becomes defective and the workpiece W5 'is taken out of the transfer line in the middle of machining, the operator should check the workpiece W5' as the first workpiece without any special processing. Can do.
Hereinafter, the operations of the main sequencer MPC and the first sequencer for realizing the above-described transfer line operations will be described with reference to the flowcharts of FIGS.
[0059]
[Operation of main sequencer MPC]
FIG. 10 is a flowchart showing the operation of the main sequencer MPC. When the power is turned on, the operations of Step 100 to Step 110 and the operations of Step 120 to Step 136 are executed in parallel.
Hereinafter, the operations of Step 100 to Step 110 and the operations of Step 120 to Step 136 will be described in order.
[0060]
In step 100, a transfer command for the workpiece W is issued to the transfer device 10. As a result, the transfer apparatus 10 transports the workpiece W by one stroke from the transport station 11 to the first station ST1 and from the first station to the second station ST2.
In step 102, the process waits until the transfer by the transfer apparatus 10 is completed. When the transfer by the transfer apparatus 10 is completed, the process proceeds to step 104.
[0061]
In step 104, the first sequencer PC1 to the fourth sequencer PC4 of the first station ST1 to the fourth station ST4 in order to cause the machine tool M1 to the machine tool M4 of the first station ST1 to the fourth station ST4 to process the workpiece W. A machining start command is issued. Processing commands to the first sequencer PC1 to the fourth sequencer PC4 are shown in FIG. 4 This is performed by setting “1” to the machining start link relay in the data memory 37a of the main sequencer MPC shown in FIG.
[0062]
When a machining start command is issued in step 104, the process proceeds to step 106 and waits until a machining completion is notified.
This processing completion is determined to be processing completion when “1” is set in each of the data areas of the first sequencer PC1 to the fourth sequencer PC4 of the processing completion notification link relay provided in the data memory 37 of the main sequencer MPC. To step 108.
[0063]
In step 108, it is determined whether or not “1” is set in the quality check notification link relay in the data memory 37 of the main sequencer MPC. If “1” is set, the process proceeds to step 110, and “1” is set. If not, return to Step 100.
In step 110, when the quality check by the operator of the workpiece W is completed in the quality check table CT, the initial product check complete button B22 on the initial product check instruction screen B2 shown in FIG. When “1” stands, the process returns to step 100.
[0064]
By executing the operation steps from Step 100 to Step 110 as described above, the workpiece W is sequentially moved by the transfer device 10, and a command for machining the moved workpiece by the machine tool M1 to the machine tool M4 is output. When there is a workpiece W whose quality is to be checked in the quality check table CT, the operation of waiting is repeated until the quality check is completed and the first product check complete button B22 is pressed.
[0065]
The main sequencer MPC executes the operations of Step 120 to Step 136 in parallel with the repeated execution of the operations of Step 100 to Step 110.
In step 120, it is determined whether the transfer of the workpiece W by the transfer device 10 is completed. If the transfer of the workpiece W is completed, the process proceeds to step 122, and the transfer of the workpiece W is not completed. Jumps to step 128.
[0066]
In step 122, data shift processing is performed. This data shift process shifts each data of the tool number shift area and the tool number shift area of the first product in the data memory 37 of the main sequencer MPC as the workpiece W is transferred. For example, the first station ST1 in FIG. In the first sequencer PC1 of the first product stop tool number shift area data, the address D114 has the data “000” at the address D113, the address D113 has the data “000” at the address D112, and the address D112 has the address The data “000” of D111 is shifted, and the data “000” of address D110 is shifted to address D111.
[0067]
Further, the data of the first use tool number storage area of each station ST1 to ST4 is stored in the first data addresses D110, D211, D312 and D413 of the machining history of each station ST1 to ST4.
Similarly, if the data is in the used tool number shift area of the first sequencer PC1 of the first station ST1, the data “1T3” of the address D123 is stored in the address D124, and the data “1T4” of the address D122 is stored in the address D123. The data “1T6” of the address D121 is shifted to D122, and the data “1T6” of the address D120 is shifted to the address D121, respectively. Data in the used tool number storage area of each station ST1 to ST4 is stored.
[0068]
In step 124, a tool change standby release process is performed. As will be described in detail with reference to FIG. 11, the tool change standby release process is performed when the workpiece W processed using the new tool is transferred to at least one of the first station ST1 to the fourth station ST4. If a new change tool T ′ to be changed is waiting at the station where the workpiece W is conveyed, a process for canceling the tool change standby state of the new change tool T ′ is performed and a quality check is performed. Processing for determining whether or not the workpiece W to be transported has been transported to the unloading station ST5 is performed.
[0069]
Hereinafter, the tool change standby release processing in step 124 will be described with reference to the flowchart of FIG.
In the flowchart of FIG. 11, in step 150, data relating to the first station ST <b> 1 (data at address D <b> 110 in FIG. 6) in the first product stop tool number shift area of the data memory of the main sequencer MPC is retrieved.
[0070]
In step 152, it is determined whether or not data other than “0”, that is, the tool number of the newly used tool is detected in the retrieved data.
If data other than “0” is detected in the retrieved data, the process proceeds to step 154. If not retrieved, the process jumps to step 156.
In step 154, the release state of the tool change is indicated to the tool release notification link relay corresponding to the first station ST1 of the main sequencer MPC in order to release the wait state of the new change tool T ′ of the first station ST1. Set "1" and go to step 156.
[0071]
In step 156, data relating to the second station ST2 (data at addresses D111 and D211 in FIG. 6) in the first product stop tool number shift area in the data memory of the main sequencer MPC is searched.
In step 158, it is determined whether or not data other than “0”, that is, the tool number of the newly used tool is detected in the retrieved data.
[0072]
If data other than “0” is detected in the retrieved data, the process proceeds to step 160. If not retrieved, step 160 is not executed, and the process jumps to step 162 and subsequent steps.
In step 160, "1" indicating release is set in the tool release notification link relay corresponding to the second station ST2 of the main sequencer MPC in order to release the tool change standby state of the new change tool T 'of the second station ST2.
[0073]
Similarly, for the third station ST3 and the fourth station ST4, those in the first product stop tool number shift area. This Data relating to each station (in FIG. 6, the data is at the memory addresses D112, D212 and D312 for the third station ST3, and the data at the memory addresses D113, D213, D313 and D413 for the fourth station ST4. ), And when data other than “0” is detected in the retrieved data, that is, the tool number of the new replacement tool T ′ is detected, the tool release notification link relay corresponding to each station of the main sequencer MPC. A process of setting “1” indicating release to is performed, and the process proceeds to step 162.
[0074]
In step 162, the data of the initial product data post-process output area in the data memory of the main sequencer MPC is searched. This first product data post-process output area data uses a new tool for the workpiece W transported to the unloading station ST5. Or In step 164, if all data is “0”, the process returns to step 126. If data other than “0” is detected, a new use is made to the carry-out station ST5. In step 166, “1” is set to the initial product check notification relay so that the workpiece W in which the tool is used, that is, the initial product workpiece has been transferred, is transferred to the quality check table.
[0075]
Then, the process proceeds to step 168 to display the quality check instruction screen B2 shown in FIG. 8 on the operation panel 32a, and waits until it is confirmed in step 170 that the initial product check complete button B22 is pressed. When the complete button B22 is pressed, the process proceeds to step 126 in FIG.
In step 126, when a new tool has been used for the workpiece W that has been extracted before all the machining with the machine tools M1 to M4 is completed due to broken tools or machining defects, the workpiece that has been removed is extracted. This is a step of performing processing for handling a workpiece machined using the same tool as W as a first workpiece.
[0076]
As shown in detail in FIG. 12, this step 126 retrieves the data of the first station ST1 in the extracted workpiece storage area in step 180, and in step 181 other than “0”, that is, the workpiece extracted in the first station ST1. If there is an extracted workpiece, the process proceeds to step 182. If there is no extracted workpiece, the process jumps to step 188.
[0077]
In step 182, the tool number data (address D120) in use at the first station ST1 in the used tool area is compared. If it is the same in step 183, the process proceeds to step 184. If not, the process proceeds to step 188. Jump. In step 184, the data of the first station ST1 in the extracted workpiece storage area is moved to the area (address D110) for storing the data of the first station ST1 in the initial article stop tool number area. In step 186, the data in the extracted workpiece storage area is stored. The data of the first station ST1 is cleared.
[0078]
In the following steps 188 to 190, operations similar to those in steps 180 to 186 are performed for the second station ST2 to the fourth station ST4 in the extracted workpiece storage area, and the process returns to step 128.
In step 128, it is determined whether one of the first sequencer PC1 to the fourth sequencer PC4 is notified that the workpiece has been extracted based on whether “1” is set in the workpiece extraction link relay.
[0079]
If “1” is not set in the workpiece extraction link relay, the routine jumps to step 132. “1” stands on the workpiece extraction link relay Place In the case, the process proceeds to step 130 and the data of the first product stop tool number shift area of the station controlled by the notified sequencer (data of memory addresses D112, D212, D312 in the case of the third station ST3 in FIG. 6) Is extracted and stored in the data area of the station controlled by the sequencer notified by the workpiece storage area, and the data in the first product stop tool number shift area of the station controlled by the notified sequencer is cleared, and the process proceeds to step 132. To do.
[0080]
In step 132, it is determined that the simultaneous tool change button B11 of the simultaneous tool change screen B1 shown in FIG. 7 has been operated. If not, the process returns to step 120. If it is determined that the simultaneous tool change button B11 is operated, the process proceeds to step 134, and the most upstream station where the new change tool T ′ is set is searched with reference to the new tool set notification link relay area. .
[0081]
In step 136, “1” is set in the tool standby release notification link relay of the corresponding uppermost station searched in step 134.
The main sequencer MPC repeats the processing from step 120 to step 136.
[Description of operation of first sequencer PC1]
Next, operations of the first sequencer PC1 to the fourth sequencer PC4 will be described by taking the first sequencer PC1 as an example.
[0082]
The first sequencer PC1 executes the operations from Step 200 to Step 228 and the operations from Step 250 to Step 266 shown in FIG.
Hereinafter, the operation from Step 200 to Step 228 and the operation from Step 250 to Step 266 will be described with reference to FIGS. 13 and 14.
[0083]
First, in step 200 of FIG. 13, it is determined whether or not a machining start command is output from the main sequencer MPC based on whether or not “1” is set in the machining start notification link relay. When the machining start command is output, the process proceeds to step 202, and when the machining start command is not output, the process jumps to step 208.
In step 202, the workpiece removal notification area is cleared. In step 204 and step 206, the initial use tool number storage area and the use tool number storage area are cleared.
[0084]
In step 208, a process for monitoring the change of the tool change state performed by the machine tool M1 for processing the workpiece W, that is, the value of the tool change current value area is performed.
In this step 208, the processing of step 230 to step 236 as described in detail in FIG. 14 is executed. In step 230, whether or not there is a tool whose value in the tool replacement current value area has changed from “0” to “1”. If there is a tool that has changed from “0” to “1”, the process proceeds to step 232, and if there is no tool that has changed from “0” to “1”, the process jumps to step 234.
[0085]
In step 232, the tool number of the tool whose value in the tool replacement current value area has changed from “0” to “1” is stored in the first use tool number storage area.
In step 234, it is determined whether there is a tool whose value in the tool replacement current value area has changed. If there is a tool that has changed, it is stored in the used tool number storage area in step 236, and the process returns to step 210 in FIG. .
[0086]
In step 210, it is determined whether the new tool set button A114 on the tool change screen A1 of the operation panel 32 shown in FIG. 5 is pressed. If the new tool set complete button A114 is pressed, the new tool set complete area is determined in step 212. The tool number of the set tool is stored. If the new tool set complete button A114 is not pressed, the routine jumps to step 214.
[0087]
In step 214, it is determined whether the tool change standby button A115 has been pressed. If the tool change standby button A115 has been pressed, the tool number of the tool stored in the new tool set completion area in step 216 is notified of the new tool set notification. Moved to link relay. If the tool change standby button A115 has not been pressed, the process jumps to step 218.
[0088]
In step 218, it is determined whether “1” is set in the tool standby release link relay. If “1” is set in the tool standby release link relay, the process proceeds to step 220, and tool change is performed on the machine tool M 1. Set "1" to the new tool change link relay to allow. If “1” is not set in the tool standby release link relay, the routine jumps to step 222.
[0089]
In step 220, it is determined whether or not the workpiece extraction completion button A116 on the tool change screen A1 of the operation panel 32 has been pressed. If the workpiece extraction completion button A116 has been pressed, “1” is set in the workpiece extraction notification area. In step 226 and step 228, the data of the initial use tool number storage area and the use tool number storage area are cleared. If the workpiece extraction completion button A116 is not pressed in step 220, the process returns to step 200, and the operations from step 200 to step 224 are executed again.
[0090]
The first sequencer PC executes the operations from step 250 to step 266 in parallel with the operations from step 200 to step 224.
In step 250, it is determined whether or not a machining operation start command has been issued based on whether or not “1” is set in the machining start notification link relay. If “1” is set in the processing start notification link relay, the process proceeds to step 252 and “1”. If it is not “0”, it is determined that it is not the timing for starting machining, and the process waits until “1” is set in the machining start notification link relay.
[0091]
In step 252, it is determined whether “1” is set on the new tool change link relay.
If the new tool change link relay is set to “1”, it is permitted to exchange the tool in the tool magazine 18 with the new change tool T ′, and the new change tool T ′ is changed in step 254. After changing to the new change tool T ′, the new tool change link relay is cleared in step 256.
[0092]
When the tool T to be replaced with the new replacement tool T ′ is inserted into the spindle 20 at the time of tool replacement in step 254, the tool T is returned from the spindle 20 to the tool magazine 18 and replaced with the new tool. It will be.
In step 252, if “1” is not set in the new tool change link relay, the process jumps to step 258 to take out the tool T from the tool magazine 18 and insert it into the spindle 20, and the tool T taken out in step 260. In step 262, the machine tool M1 is instructed to start machining by “+1” the value in the tool replacement current value area corresponding to the tool number.
[0093]
Then, it is monitored in step 264 that the machining of the machine tool M1 is completed, and when the machining is completed, in step 266, a machining completion notification is sent to the main sequencer MPC by setting “1” in the machining completion notification link relay.
[0094]
【The invention's effect】
As described above, the present invention Prepare a new replacement tool to replace the used tool that exceeded the tool change forecast value, and use the tool that exceeded the tool change forecast value on the most upstream machine tool for which the new tool was prepared. Change to a new replacement tool, process the workpiece with the new replacement tool, store the processed workpiece as the first workpiece, and create the newest replacement tool. Replace the used tool that exceeds the tool change forecast value with the new replacement tool at the stage when the workpiece processed by the new replacement tool is transported by the machine tool other than the machine at the most upstream machine tool. I did so Compared with the prior art, it is possible to reduce the stop time of the transfer line for performing the quality check, and it is possible to improve the transfer line moving rate.
[0095]
In addition, a quality check station that checks the quality of the first workpiece, By all machine tools Processing Complete Work piece Is the first When working with goods The first product is a quality check station By providing the first workpiece transport means for transporting and the quality check instruction means for instructing the quality check, the operator knows when to perform the quality check. Therefore, the transfer line is monitored until the quality check is performed. This eliminates the need for the operator and reduces the load on the operator.
[0096]
In addition, as a quality check instruction means First product Machining with new replacement tools Is If the quality check location display means for displaying the location is provided, the location where the quality check is performed is immediately known, so that the burden on the operator can be further reduced and the time spent for quality check can be reduced.
[Brief description of the drawings]
FIG. 1 is a block diagram showing a configuration of a transfer line according to the present invention.
FIG. 2 is a side view showing a configuration of a machine tool installed at first to fourth stations of a transfer line according to the present invention.
FIG. 3 is a block diagram showing a configuration of a sequence controller installed at each station of the transfer line according to the present invention.
FIG. 4 is a diagram showing a memory map of a data memory of a sequence controller.
FIG. 5 is a diagram showing a tool change screen displayed on the operation panel of the first to fourth sequence controllers.
FIG. 6 is a memory map of a link data area of the main sequence controller.
FIG. 7 is a diagram showing a simultaneous tool change screen displayed on the operation panel of the main sequence controller.
FIG. 8 is a diagram showing an initial product check instruction screen displayed on the operation panel of the main sequence controller.
FIG. 9 is an operation explanatory diagram of a transfer line according to the present invention.
FIG. 10 is a flowchart showing the operation of the main sequence controller.
FIG. 11 is a flowchart showing an operation of a tool standby release process of the main sequence controller.
FIG. 12 is a flowchart showing an operation of a workpiece extraction handling process of the main sequence controller.
FIG. 13 is a flowchart showing the operation of the first sequence controller.
FIG. 14 is a flowchart showing an operation of a current value counter change check process of the first sequence controller.
[Explanation of symbols]
10 Transfer device
11 Loading station
16 columns
17 Spindle head
18 Tool magazine
24 New tool conveyor
25 ATC arm
30 Sequencer body
32 Operation panel
ST1 to ST4 1st station to 4th station (processing station)
ST5 Unloading station
M1-M4 machine tools
MPC main sequencer
PC1 to PC5 1st sequencer to 5th sequencer
CT quality check table (quality check table)

Claims (4)

In a transfer line comprising machine tools arranged at a plurality of processing stations for processing a workpiece, and a transfer device for sequentially conveying the workpiece to the plurality of machine tools,
In each of the machine tools, preparing a new replacement tool in place of the tool for a tool used in excess of a preset tool replacement forecast value among the tools used in the machine tool ;
Instructing simultaneous tool replacement for the new replacement tool at the stage where the new replacement tool is prepared in a plurality of machine tools of the machine tools;
In response to the instruction of simultaneous tool change, the at conveying direction most upstream of the machine tool of the new replacement tool workpiece out of the prepared plurality of machine tools were used beyond the tool change predictor tool was replaced with the new replacement tool, a step of storing the processing of the workpiece by the new exchange tool line Utotomoni, the processed workpiece as the first article workpiece,
Of the plurality of machine tools prepared with the new change tool, the first product workpiece processed by the new change tool in the machine tool other than the most upstream machine tool is used. A step of exchanging a tool used exceeding the predicted tool change value with the new change tool at the stage of being transferred to the machine tool by the transfer device , and processing a workpiece with the new change tool ;
Tool changing method in a transfer line, characterized in that it comprises a. Machine tools arranged at a plurality of processing stations for processing a workpiece, a transfer device that sequentially conveys the workpiece to the plurality of machine tools, and a main sequence controller that controls each of the machine tools and the transfer device In the transfer line with
Each of the machine tools includes a control device that controls the machine tool, a tool that is used in excess of a preset tool change forecast value among tools used in the machine tool, and a new change tool that replaces the tool. and an automatic tool changer for automatically changing the,
Wherein each control unit includes a holder tool instruction means for instructing a tool that is used in excess of the tool change predictor, new replacement tool to replace the tool that has been instructed by the exchange tool indicating means to the new exchange tool ready position and a new exchange tool preparation setting means for setting that it has been prepared,
The main sequence controller instructs simultaneous tool change for the new change tool at the stage where the new change tool is set by the new tool change preparation setting means in a plurality of machine tools,
The new replacement tool and the control device in the conveying direction most upstream of the machine tool of the workpiece among the plurality of machine tools has been prepared, the tool changer forecast value for the automatic tool changer in accordance with the simultaneous tool change instruction It instructs the exchange of the new replacement tool and the tool that is used in excess of, instructs the processing of the workpiece with the new replacement tool is exchanged against the machine tool,
The main sequence controller stores a workpiece first machined by the new replacement tool as a first workpiece ,
The control means of the machine tool other than the most upstream in the workpiece transfer direction among the plurality of machine tools for which the new change tool has been prepared, the tool change forecast for the automatic tool changer against the simultaneous tool change instruction. The replacement instruction between the tool used exceeding the value and the new replacement tool is suspended, and the replacement instruction suspension is canceled when the first workpiece is transported to the processing station by the transfer device. It instructs the exchange of the new exchange tool and the tool exchange forecast value beyond the tool that was used
Transfer line with a tool exchange device according to claim and this. In the transfer line provided with the tool changer according to claim 2,
A quality check station for checking the quality of the first workpiece,
A first article workpiece conveying means for conveying the first product workpiece to the quality check station when the workpiece processing by the all of the machine tool has completed the first article workpiece,
A transfer line equipped with a tool changer, comprising quality check instruction means for instructing a quality check of a first workpiece conveyed to a quality check station by the first workpiece conveying means. In the transfer line provided with the tool changer according to claim 3,
The transfer line provided with a tool changer characterized in that the quality check instruction means comprises quality check location display means for displaying a location of the first workpiece processed with the new change tool.

Images