WO2014068712A1 - Procédé et dispositif de modification de réglage - Google Patents

Procédé et dispositif de modification de réglage Download PDF

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Publication number
WO2014068712A1
WO2014068712A1 PCT/JP2012/078207 JP2012078207W WO2014068712A1 WO 2014068712 A1 WO2014068712 A1 WO 2014068712A1 JP 2012078207 W JP2012078207 W JP 2012078207W WO 2014068712 A1 WO2014068712 A1 WO 2014068712A1
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WO
WIPO (PCT)
Prior art keywords
feeder
component
parts
production job
production
Prior art date
Application number
PCT/JP2012/078207
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English (en)
Japanese (ja)
Inventor
安井 義博
Original Assignee
富士機械製造株式会社
Priority date (The priority date is an assumption and is not a legal conclusion. Google has not performed a legal analysis and makes no representation as to the accuracy of the date listed.)
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Publication date
Application filed by 富士機械製造株式会社 filed Critical 富士機械製造株式会社
Priority to PCT/JP2012/078207 priority Critical patent/WO2014068712A1/fr
Priority to JP2014544128A priority patent/JP6267127B2/ja
Publication of WO2014068712A1 publication Critical patent/WO2014068712A1/fr

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K13/00Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
    • H05K13/08Monitoring manufacture of assemblages
    • H05K13/085Production planning, e.g. of allocation of products to machines, of mounting sequences at machine or facility level
    • H05K13/0857Product-specific machine setup; Changeover of machines or assembly lines to new product type

Definitions

  • the present invention relates to a setup change method and a setup change apparatus that can suppress the stoppage of the apparatus due to the setup change of a component feeder accompanying a change in the type of board to be produced.
  • a component supply device that detachably mounts a plurality of tape feeders that supply taped electronic components to a feeder mounting portion is provided.
  • the electronic component supplied to the predetermined position by the component supply device is sucked by the suction nozzle provided in the mounting head, and mounted on the printed board transported to the predetermined position by the substrate transport device.
  • the present invention has been made in view of the above-described conventional problems. During execution of a production job that is currently being produced, a parts feeder that accommodates parts to be used in a production job to be produced next is arranged in the parts supply apparatus. Accordingly, it is an object of the present invention to provide a setup change method and a setup change apparatus that can suppress the stoppage of the apparatus due to setup change.
  • a feature of the invention according to claim 1 is a setup change method used in a component mounter that includes a plurality of component feeders that accommodate components and that can be detachably mounted on a feeder mounting portion of a component supply device.
  • the feeder mounting unit can mount a plurality of component feeders that contain at least the parts used in the (N + 1) th and N + 2 production jobs, and uses the parts feeder that contains the parts used in the (N + 1) th production job.
  • N + 2 replaces the parts feeder that contains the parts used in the Nth production job with a parts feeder that does not share the parts feeder that contains the parts used in the (N + 1) th production job.
  • Used in the (N + 1) th production job among the parts feeders containing the parts used in the first production job Parts feeder which is not common with the component feeders accommodating a part is to be placed in the feeder mounting portion.
  • a feature of the invention according to claim 2 is that in claim 1, when the parts feeder containing the parts used in the (N + 1) th production job is arranged in the feeder attaching part, there is an empty space in the feeder attaching part. In some cases, a part feeder that contains parts used in the (N + 1) th production job out of parts feeders that contain parts used in the (N + 2) th production job is arranged in the feeder mounting portion. is there.
  • a feature of the invention according to claim 3 is that in claim 1, when executing the (N + 1) th production job, the difference between the parts used in the (N + 1) th production job and the parts used in the (N + 2) th production job. And a component feeder that is not common to the component feeder that contains the components used in the (N + 1) th production job among the (N + 2) th production jobs is arranged in the feeder mounting portion.
  • the Nth and N + 1th production jobs are selected based on the production plan, and the two production jobs are selected. Determine the location of the parts feeder that contains the parts to be used, then select the (N + 2) th production job, and use the same as the parts used in the (N + 1) th production job among the parts used in the (N + 2) th production job The arrangement position of the parts feeder that accommodates the parts that are not to be determined is determined, and these are repeated.
  • a feature of the invention according to claim 5 is the invention according to claim 1, wherein a plurality of the component mounters are provided, and after each of the plurality of component mounters is determined to be arranged on the component feeder, The placement position of the component feeder is exchanged between the component mounters so as to balance the cycle times in the component mounters.
  • a change-over apparatus used in a component mounting machine including a plurality of component feeders containing components, wherein the component feeders can be detachably mounted on a feeder mounting portion of a component supply device.
  • a difference calculating means for obtaining a difference between a part used in a production job currently being produced and a part used in a production job to be produced next, and based on the difference obtained by the difference calculating means,
  • a search unit that searches for the component feeder that contains a part that is used only in a production job to be produced, and an arrangement position that determines the arrangement position so that the component feeder searched by the search unit is arranged in the feeder mounting portion And determining means.
  • a feature of the invention according to claim 7 is the invention according to claim 6, wherein a plurality of the component mounters are provided, and the production time in the plurality of component mounters is determined after the placement position of the component feeder is determined by the placement position determination means.
  • Arrangement position changing means for changing the arrangement position of the component feeder between the component mounting machines is provided so as to balance the components.
  • the component feeder containing the parts used in the production job currently being produced out of the parts feeders containing the parts used in the previously produced production job.
  • a feeder mounting unit that replaces a part feeder that contains parts used in a production job to be produced next instead of a part feeder that is not common with a part feeder that contains parts used in a production job that is currently being produced. Because it is possible to suppress the stoppage of the component mounter due to the changeover of the component feeder when the production job is changed, the parts used in the previously produced production job during the current production job It is not necessary to replace a common feeder with the feeder, and the productivity of component mounting can be improved.
  • FIG. 1 shows a component mounter 10, which includes a component supply device 12, a substrate transfer device 13, a substrate holding device 14, and a component transfer device 15.
  • the board conveying device 13 is provided on a base 21 of the component mounting machine 10, and includes a belt conveyor (not shown) that conveys a printed board (hereinafter simply referred to as a board) B along the conveying rail 22. While being carried in on the substrate holding device 14, it is carried out from the substrate holding device 14.
  • the transport direction of the substrate B is the X-axis direction, and the direction orthogonal thereto is the Y-axis direction.
  • the substrate holding device 14 includes a substrate supporting device that supports the substrate B and a clamping device that clamps the substrate B.
  • the component transfer device 15 is composed of an XY robot, and is supported above the base 21 so as to be movable in the Y-axis direction and supported on the Y-axis movable table 23 so as to be movable in the X-axis direction.
  • the X-axis moving table 24 and a mounting head 25 attached on the X-axis moving table 24 are provided.
  • the X-axis moving table 24 and the Y-axis moving table 23 are controlled to move in the X-axis direction and the Y-axis direction by an unillustrated X-axis servo motor and Y-axis servo motor.
  • the mounting head 25 supports the nozzle shaft so that it can move up and down in the vertical direction (Z-axis direction) perpendicular to the X-axis and Y-axis directions and can rotate around the Z-axis line.
  • a suction nozzle that sucks an electronic component (hereinafter simply referred to as a component) is detachably mounted on the nozzle shaft.
  • a substrate imaging device 35 comprising a CCD camera is mounted on the X-axis moving table 24.
  • the substrate imaging device 35 images the reference mark and the substrate ID mark provided on the substrate B positioned on the substrate holding device 14. Then, the substrate position reference information and the substrate ID information are acquired. Then, based on the board position reference information acquired by the board imaging device 35, the mounting head 25 is corrected in position in the XY direction with respect to the board B, and the component mounting operation is controlled based on the board ID information. It has become.
  • a component imaging device 36 composed of a CCD camera that images the component adsorbed by the adsorption nozzle from below.
  • the component imaging device 36 captures an image of the component sucked by the suction nozzle while moving from the component supply device 12 onto the substrate B, detects the misalignment and angular shift of the component with respect to the center of the suction nozzle, and based on these The amount of movement of the mounting head 25 in the X and Y directions is corrected.
  • the component supply device 12 includes a feeder-type component supply device.
  • the component supply device 12 includes a plurality of component feeders 40 that supply taped components, and a plurality of slots 42 (see FIG. 2) provided in the feeder mounting portion 41. And a plurality of component feeders 40 are juxtaposed in the X-axis direction.
  • the component feeder 40 includes a component reel (not shown) wound with a tape that accommodates a large number of components at intervals, and the tape wound around the component reel is built into the component feeder 40.
  • the components housed in the tape can be sequentially supplied to a predetermined component supply position by intermittently sending them out by a sprocket driven by a motor (not shown).
  • a unique ID is assigned to the component feeder 40, and by recognizing this ID, the type of component accommodated in the component feeder 40 can be specified.
  • a communication connector 44 that can be connected to a communication connector 43 provided in the feeder mounting portion 41 is provided at the tip of the component feeder 40.
  • the communication connector 44 of the component feeder 40 is connected to the communication connector 43 on the feeder mounting portion 41 side by positioning the component feeder 40 at a predetermined position along the slot 42 of the feeder mounting portion 41. Accordingly, power is supplied from the feeder mounting unit 41 side, that is, from the main body side of the component mounting machine 10 to the component feeder 40 side, and is necessary between the control unit of the component feeder 40 and the control unit of the feeder mounting unit 41.
  • Management information such as a control signal (component request signal, component supply completion signal, etc.) and ID of the component feeder 40 is transmitted.
  • the component mounter 10 is controlled by the control device 50 shown in FIG.
  • the control device 50 includes a CPU 51 as a central processing unit, a ROM 52 and a RAM 53 as storage devices, and an input / output interface 55.
  • image data picked up by the mounter control unit 56 that controls the component supply device 12, the substrate transfer device 13, the component transfer device 15, and the like, and the substrate image pickup device 35 and the component image pickup device 36 are displayed as images.
  • An image processing device 58 or the like to be processed is connected.
  • the input / output interface 55 is connected to an operation panel 63 including a display device 61 such as an LCD or CRT and an input device 62 for inputting data by operating a keyboard, a mouse, or the like.
  • the display device 61 is configured to display components (component feeder 40) and the like to be arranged in the component supply device 12 at the time of setup change accompanying the change of the substrate type.
  • the ROM 52 stores a program for controlling a sequence operation of the mounting head 25 and the like, including a basic program for mounting components on the board B.
  • the RAM 53 stores component data indicating components and the relationship between the components and the component feeder 40, component arrangement data described later, and the like.
  • FIG. 4 shows arrangement data PD of components (component feeder 40) necessary for producing a plurality of board types.
  • production job N production of a board of the board type to be produced first
  • production job N + 1 production of a board using the parts a, b, c, and d, and in the production of a board of the board type to be produced next
  • production job N + 2 An example in which a board is produced using e, and a board is produced using the parts a, b, and f in the production of a board of the board type to be produced next (hereinafter referred to as production job N + 2). Is shown.
  • a, b, d among the parts to be used are common to the production job N, and only e is a different part. Therefore, the parts feeder 40 containing the part e is set in an empty slot (for example, , 42E).
  • the part feeder 40 that accommodates the part f is arranged in the slot 42C.
  • the arrangement position of the parts feeder 40 in each production job N to N + 2 is determined based on the production plan, and the part arrangement data PD as shown in FIG. 4 is created.
  • the controller 50 instructs to place the part feeder 40 containing the parts used in the next production job during the execution of the production job currently being produced.
  • the person mounts the specified component feeder 40 at the determined slot position.
  • FIG. 5 shows a flowchart executed by the CPU 51 for creating the component arrangement data PD described above. This flowchart is processed prior to executing the first production job N based on the production plan.
  • the RAM 53 of the control device 50 stores mounting position data indicating which slot 42 of the component supply device 12 is mounted with which type of component feeder 40 is mounted. The component feeder 40 is removed from the slot 42 or rewritten whenever the component feeder 40 is mounted in the slot 42.
  • step 100 based on the part data stored in the ROM 52 of the control device 50, the difference between the part used in the production job N currently being produced and the part used in the production job N + 1 to be produced next is obtained. Then, a part (part e in FIG. 4) used only in the production job N + 1 to be produced next is calculated.
  • step 102 the parts feeder 40 that contains parts used only in the production job N + 1 to be produced next is searched.
  • step 104 it is determined whether or not there is an empty slot in which the parts feeder 40 that accommodates parts used in the production job N can be placed.
  • the determination result in step 104 is YES, and the parts a to d used in the production job N in the next step 106. Is determined to be placed in the empty slots 42A to 42D of the part feeder 40 (part feeder 40 retrieved in step 102).
  • step 100 since 1 is added to the production job N, in step 100, the difference between the parts used in the next production job N + 1 and the parts used in the next production job N + 2 is obtained.
  • the parts used only in the production job N + 2 (part e in FIG. 4) are calculated, and in step 102, the parts feeder 40 containing the parts used only in the next production job N + 2 is searched.
  • step 104 it is determined whether or not there is an empty slot in which the part feeder 40 that accommodates the part e used in the production job N + 1 can be placed.
  • the determination result in step 104 is YES, and in the next step 106, the parts feeder 40 containing the part e used in the production job N + 1 is placed in the empty slot 42E. Decide to do.
  • step 104 when determining the arrangement of the component feeder 40 containing the component f used in the production job N + 2, there is no empty slot.
  • the result of determination in step 104 is NO, and the routine proceeds to step 110.
  • step 110 when the parts feeder 40 used in the production job (N + 1) is left and the parts feeder 40 containing the unused parts is removed, the parts feeder 40 used in the production job N + 2 can be arranged. If the determination result is YES, the process proceeds to step 112. If the determination result is NO, the process proceeds to step 114.
  • step 112 is performed. Then, it is determined that the parts feeder 40 that is not used in the production job N + 1 is removed from the slot 42C and replaced with the parts feeder 40 that is used in the production job N + 2.
  • the parts feeder 40 that contains the parts used in the production job N the parts feeder 40 that is not common to the parts feeder 40 that contains the parts used in the production job N + 1 is replaced with the parts used in the production job N + 2.
  • a component feeder 40 that is not common to the component feeder 40 that accommodates components used in the production job N + 1 is arranged in the feeder mounting portion 41.
  • step 114 it is determined that only the component feeders 40 that can be arranged are arranged among the component feeders 40 used in the production job N + 2, and then the process proceeds to step 108. To do. Of the component feeders 40 used in the production job N + 2, the component feeders 40 that could not be arranged are unavoidably arranged after the completion of the production job N + 1.
  • Step 100 described above constitutes a difference calculation means for obtaining the difference between the part used in the production job (N) currently being produced and the part used in the production job (N + 1) to be produced next.
  • a search means for searching for a part feeder 40 that contains parts used only in the next production job (N + 1) to be produced based on the difference obtained by the difference calculation means 100 is constructed.
  • An arrangement position determining means for determining an arrangement position so as to arrange the component feeder 40 retrieved by the means 102 in the slot 42 of the component supply apparatus 12 is configured.
  • the arrangement position of the component feeder 40 between the component mounting machines 10A to 10C so as to balance the production time in the plurality of component mounting machines 10A to 10C.
  • the arrangement position exchanging means for exchanging is configured.
  • component arrangement data PD on how to arrange the components (component feeder 40) in each production job N, N + 1, N + 2 is created and stored in the RAM 53 of the control device 50. Is done. Based on the part placement data PD, the worker is instructed to place the part feeder 40 when the production job is executed, and the part feeder 40 is replaced.
  • the parts feeders 40 containing the parts a to d used in the production job N are respectively inserted into the slots 42A to 42D of the parts supply device 12 as shown in FIG. An operator is instructed to display them by displaying them on the display device 61. Then, during the execution of the first production job N, as shown in FIG. 6B, the component feeder 40 that accommodates the component e used in the production job N + 1 is arranged in the slot 42E of the component supply device 12. Instruct workers. Similarly, during the execution of the next production job N + 1, the part feeder 40 that accommodates the part f used in the production job N + 2 is arranged in the slot 42C of the part supply apparatus 12 as shown in FIG. 6C. Instruct the worker.
  • the part feeder 40 used in the next production job N + 1 can be replaced while the production job N currently being produced is being executed.
  • it is not necessary to change the component feeder 40 when switching the production job and the production job can be switched only by changing the mounting program, etc., and the component mounter 10 can be stopped by changing the setting. Can be minimized.
  • the component feeder 40 containing the components to be used in the next production job (N + 1) is arranged in the slot 42 of the component supply device 12 and there is still an empty slot, the following is further performed. You may make it arrange
  • the component feeder 40 that is not common to the feeder is arranged in the feeder mounting portion 41, it is possible to suppress the stop of the component mounting machine 10 due to the changeover of the component feeder 40 when the production job is changed, and to execute the production job currently being produced It is no longer necessary to replace the common part feeder 40 with the part feeder 40 used in the previously produced production job. It is possible to improve the productivity of the component mounting.
  • the parts feeder 40 that contains the parts to be used in the production job N + 1 to be produced next is arranged in the parts supply device 12.
  • the arrangement of the component feeders 40 in which the cycle times in the plurality of component mounters are balanced can be realized.
  • a plurality of component mounters 10A, 10B, and 10C each provided with the same component supply device 12 as described in the first embodiment are provided.
  • a substrate transfer device 13 for transferring the substrate B is disposed between the mounting machines 10A, 10B, and 10C.
  • the component feeders 40 are sequentially arranged in the plurality of slots 42 of the component supply apparatuses 12 of the plurality of component mounting machines 10A, 10B, and 10C based on the production plan.
  • the production time between 10B and 10C is considered to be optimum (minimum).
  • FIG. 8A shows the component placement data PD1
  • the production jobs N, N + 1 are respectively inserted into the five slots 42A to 42E of the three component mounting machines 10A, 10B, and 10C.
  • FIG. 8A shows an example in which component feeders 40 that accommodate components A to M used in N + 2 are sequentially arranged. That is, in the same manner as described in the first embodiment, the component feeder 40 that accommodates the components A, D, G, and J used in the first production job N is replaced with the slots 42A to 42A of the first component mounting machine 10A. It is decided to arrange in 42D.
  • the component feeder 40 that accommodates the components B, E, and H and the components C, F, and I used in the first production job N is provided in each slot. It is decided to arrange in 42A to 42C.
  • the part feeder 40 accommodating the part M different from the above is disposed in the slots 42E and 42D of the first and third part mounting machines 10A and 10C.
  • the part feeder 40 containing the part K is to be placed in the slot 42D of the second component mounting machine 10B.
  • the production time of each of the component mounting machines 10A to 10C necessary for executing the production jobs N to N + 2 is subsequently determined. That is, the production times TA, TB, and TC obtained by multiplying the cycle time per substrate by the number of substrates produced are calculated for each production job N to N + 2. Of these production times TA, TB, and TC, the longest production times T1, T2, and T3 are obtained for each production job N to N + 2, and the longest production times T1, T2, and T3 are controlled. It is stored in the RAM 53 of the device 50.
  • the production time of the second component mounter 10B among the first to third component mounters 10A to 10C is the longest in executing the production job N (N + 1, N + 2)
  • the production time of the second component mounter 10B is stored as the longest production time T1 (T2, T3). Then, a process for optimizing (minimizing) the longest production times T1, T2, and T3 is executed.
  • FIG. 9 is a flowchart showing a process for optimizing the longest production times T1, T2, and T3. This process is executed following step 108 of the flowchart described above. Steps 100 to 114 are the same as those in the previous embodiment, and will be omitted.
  • step 200 the production times TA to TC in all the component mounting machines 10A to 10C are calculated for each of the production jobs N to N + 2, and the longest production times T1 to T3 are calculated as the production jobs N to N, respectively. It is calculated every N + 2 and stored in the RAM 53 of the control device 50.
  • step 204 two component mounters (for example, 10A and 10B) are selected from the plurality of component mounters 10A to 10C, and these two component mounters are selected.
  • One slot for example, 42A and 42A
  • step 206 the longest production times T1a and T2a when the two component feeders 40 determined to be arranged in the two slots are replaced as shown in FIG. Judge whether or not to improve.
  • the improvement of the production time means that the longest production time is shortened and the production times of the plurality of component mounting machines 10A to 10C are balanced.
  • step 208 the component arrangement data PD1 is rewritten to the component arrangement data PD2 as shown in FIG. 8B. However, if it does not decrease (if the determination result is NO), the process returns to step 202 without rewriting the component arrangement data PD1, and in step 204, the combination of the two slots is sequentially changed (for example, 42A and 42B, 42A and 42C...), And the above steps are repeated.
  • step 202 when it is determined in step 202 that all combinations have been completed, the process proceeds to step 210, and the component placement data PD2 at that time balances the production times of the plurality of component mounters 10A to 10C. For this purpose, it is stored in the RAM 53 of the control device 50 as the best component arrangement data.
  • the operator is instructed to place the component feeder 40 containing the component feeders 12 in the component supply apparatuses 12 of the plurality of component mounters 10A to 10C.
  • the feeder mounting unit 41 can mount a plurality of component feeders 40 containing components used in at least the (N + 1) th and N + 2th production jobs, and the components used in the (N + 1) th production job.
  • the parts feeder that contains the parts used in the (N + 1) th production job among the parts feeders 40 that contain the parts used in the Nth production job The part feeder 40 that is not common to the part feeder 40 that contains parts used in the (N + 1) th production job is replaced with the part feeder 40 that contains parts used in the (N + 2) th production job instead of the parts feeder 40 that is not common to 40. Since it is arranged in the feeder mounting part 41, the parts fee when the production job is changed It is possible to suppress the stopping of the component mounting apparatus 10 according to a tooling change of 40, it is possible to improve the productivity of the component mounting.
  • the production job it is possible to collectively perform the setup change of the parts feeder 40 at the time of switching.
  • the difference between the parts used in the (N + 1) th production job and the parts used in the (N + 2) th production job is obtained and the (N + 2) th production job is obtained. Since the part feeder 40 that is not common to the part feeder 40 that contains the parts used in the (N + 1) th production job among the jobs is arranged in the feeder mounting portion 41, even when the common parts are used in each production job.
  • the component feeder 40 can be arranged with the component supply device 12 having a small number of slots 42.
  • the Nth and N + 1th production jobs are selected based on the production plan, and the arrangement position of the parts feeder 40 that contains the parts used in these two production jobs is determined.
  • the (N + 2) th production job is selected, and among the parts used in the (N + 2) th production job, the arrangement positions of the parts feeders 40 that contain parts not common to the parts used in the (N + 1) th production job are determined.
  • a plurality of component mounting machines are provided, and after determining the arrangement position of the component feeder 40 to each feeder mounting portion 41 of the plurality of component mounting machines 10A, 10B, and 10C, Since the placement positions of the component feeders are interchanged between the component mounting machines so as to balance the cycle times in the mounting machines 10A, 10B, and 10C, the component mounting is performed by changing the component feeder 40 when the production job is switched as described above. Not only can the stoppage of the machine 10 be significantly shortened, but also the productivity of production jobs can be improved and the production time required to execute all production jobs can be shortened.
  • the difference calculation unit 100 that obtains a difference between the part used in the production job currently being produced and the part used in the production job to be produced next is obtained by the difference calculation unit 100.
  • a search unit 102 that searches for a component feeder 40 that contains a part that is used only in a production job to be produced next, and a component feeder 40 that is searched by the search unit 102 is arranged in the feeder mounting unit 41. Since the arrangement position determining means 106 for determining the arrangement position is provided, it is possible to realize the component mounter 10 capable of suppressing the loss time due to the changeover of the component feeder 40 when the production job is switched.
  • each component mounting machine is configured so that the production time in the plurality of component mounting machines 10A, 10B, and 10C is balanced after the arrangement position of the component feeder is determined by the arrangement position determining means 106. Since the arrangement position changing means 210 for changing the arrangement position of the parts feeder 40 between them is provided, the productivity of each production job can be improved, and the production time required to execute all the production jobs can be shortened.
  • the parts feeder 40 is sequentially placed in the three production jobs N, N + 1, N + 2 and the five slots 42A to 42E.
  • N, N + 1, N + 2 and the five slots 42A to 42E Although an example of arrangement has been described, it can be performed in the same manner even when the number of production jobs and the number of slots increase, and the number of component mounting machines 10 is not limited at all.
  • the production job N is described as production of the substrate of the substrate type to be produced first, but the Nth production job literally means a production job in an arbitrary order.
  • the present invention is not limited to the configurations described in the embodiments, and various forms can be adopted without departing from the gist of the present invention described in the claims. is there.
  • the changeover method and changeover apparatus according to the present invention are suitable for use in changing the component feeder arranged in the component supply device in accordance with the change in the type of board to be produced.

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  • Engineering & Computer Science (AREA)
  • Operations Research (AREA)
  • Manufacturing & Machinery (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Supply And Installment Of Electrical Components (AREA)

Abstract

 Procédé et dispositif de modification de réglage qui peuvent empêcher un dispositif de s'arrêter en raison d'une modification de réglage. Une unité de montage (41) de dispositifs d'alimentation permet le montage d'une pluralité de dispositifs d'alimentation (40) logeant au moins des composants utilisés dans une énième tâche de production + 1 et dans une énième tâche de production + 2 et, lors de l'exécution de la énième tâche de production + 1 à l'aide du dispositif d'alimentation logeant les composants utilisés pour la énième tâche de production + 1, dispose, sur l'unité de montage de dispositifs d'alimentation, un dispositif d'alimentation qui ne fait pas partie des dispositifs d'alimentation logeant les composants utilisés pour la énième tâche de production + 1, parmi les dispositifs d'alimentation logeant les composants utilisés dans la énième tâche de production + 2, à la place d'un dispositif d'alimentation qui ne fait pas partie des dispositifs d'alimentation logeant les composants utilisés pour la énième tâche de production + 1, parmi les dispositifs d'alimentation logeant les composants utilisés dans la énième tâche de production.
PCT/JP2012/078207 2012-10-31 2012-10-31 Procédé et dispositif de modification de réglage WO2014068712A1 (fr)

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PCT/JP2012/078207 WO2014068712A1 (fr) 2012-10-31 2012-10-31 Procédé et dispositif de modification de réglage
JP2014544128A JP6267127B2 (ja) 2012-10-31 2012-10-31 段取り替え方法および段取り替え装置

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PCT/JP2012/078207 WO2014068712A1 (fr) 2012-10-31 2012-10-31 Procédé et dispositif de modification de réglage

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Cited By (21)

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WO2020012573A1 (fr) * 2018-07-11 2020-01-16 株式会社Fuji Procédé de traitement de tâche et système de montage de composants
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JP2021048221A (ja) * 2019-09-18 2021-03-25 ヤマハ発動機株式会社 実装機及び実装方法
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