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WO2023166622A1 - Component exchange system and component mounting system - Google Patents

Component exchange system and component mounting system Download PDF

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Publication number
WO2023166622A1
WO2023166622A1 PCT/JP2022/008928 JP2022008928W WO2023166622A1 WO 2023166622 A1 WO2023166622 A1 WO 2023166622A1 JP 2022008928 W JP2022008928 W JP 2022008928W WO 2023166622 A1 WO2023166622 A1 WO 2023166622A1
Authority
WO
WIPO (PCT)
Prior art keywords
component supply
component
unit
support
storage
Prior art date
Application number
PCT/JP2022/008928
Other languages
French (fr)
Japanese (ja)
Inventor
祐介 小林
尚也 藤井
真 天内
義徳 岡本
勉 柳田
Original Assignee
ヤマハ発動機株式会社
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.)
Filing date
Publication date
Application filed by ヤマハ発動機株式会社 filed Critical ヤマハ発動機株式会社
Priority to PCT/JP2022/008928 priority Critical patent/WO2023166622A1/en
Priority to JP2024504097A priority patent/JPWO2023166622A1/ja
Publication of WO2023166622A1 publication Critical patent/WO2023166622A1/en

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Classifications

    • 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
    • H05K13/02Feeding of components

Definitions

  • the present invention relates to a parts replacement system that collects and replenishes parts supply tools in a parts supply unit, and a parts mounting system equipped with the same.
  • the component mounting system is equipped with a component mounter that mounts components on a board such as a printed circuit board.
  • a component mounter includes a component supply unit in which a plurality of component supply tools such as feeders for supplying components are arranged, and a head unit for mounting the components supplied by the component supply tools on a board.
  • a component supply tool that has run out of components or the like is recovered from the component supply unit, and a new component supply tool is supplied to the component supply unit according to the recovery.
  • Patent Literature 1 discloses a replenishing device that replenishes a component supply tool to a component mounter in response to collection of the component supply tool from the component mounter.
  • the replenishing device includes a traveling body that travels between the component storage and the component mounting machine, a moving base that is movably provided on the traveling body, and a replenishment unit that is mounted on the moving base.
  • the supply device is arranged so as to face the parts storage by running of the traveling body, the operator transfers the parts supply tool from the parts storage to the supply unit.
  • a plurality of component supply tools with different component types are arranged in the replenishment unit.
  • the replenishing device is arranged so as to face the component supply unit of the component mounter by running of the traveling body, the component supply tool is moved between the component supply unit and the replenishment unit while the carriage moves. be exchanged.
  • the supply device disclosed in Patent Document 1 does not consider the arrangement of a plurality of component supply tools in the supply unit when the component supply tools are transferred from the parts storage to the supply unit. Therefore, in a state in which a plurality of component supply tools are arranged in the supply unit, when the component supply tools are exchanged between the supply units, the amount of movement of the carriage increases. Sometimes. In this case, there is a possibility that the replacement efficiency of the replacement of the component supply tool in the component supply unit is lowered.
  • An object of the present invention is to provide a parts replacement system capable of enhancing the efficiency of replacement of parts supply tools in a parts supply unit, and a parts mounting system equipped with the system.
  • a component replacement system collects a component supply tool from a component supply unit in which a plurality of supply support units supporting the component supply tool for supplying components to be mounted on a board are arranged in a predetermined direction.
  • the system replenishes the component supply tool to the component supply unit according to the operation.
  • This parts exchange system includes a storage unit in which a plurality of storage support parts for supporting and storing a plurality of parts supply tools of different types are arranged in a predetermined direction, a supply support part, and a storage support.
  • a plurality of exchange supporting parts for supporting the component supply tool exchanged between the parts and the parts are arranged in a predetermined direction; and a gripper for moving the component supply tool by moving with respect to the moving table; and a control unit for controlling the operation unit.
  • the control unit moves and replaces the component supply tool between the plurality of supply support portions and the plurality of replacement support portions in a state in which the operation unit is arranged to face the component supply unit. Exchange processing is performed to move the moving table and the gripper as shown in FIG.
  • the control unit performs preprocessing for the replacement processing, such that the plurality of types of the component supply tools supported by the plurality of storage support portions are displaced.
  • An arrangement process is performed to move the moving table and the gripper so that the arrangement shown by .
  • a component mounting system includes a component supply unit in which a plurality of supply support parts that support component supply tools that supply components are arranged in a predetermined direction; a head unit that mounts a component supplied by a supply tool onto a substrate; and the component replacement described above, wherein the component supply tool is supplied to the component supply unit in response to recovering the component supply tool from the component supply unit.
  • FIG. 1 is a block diagram showing the configuration of a component mounting system to which a component replacement system according to an embodiment of the invention is applied;
  • FIG. 3 is a cross-sectional view showing the configuration of a component mounter provided in a production system in the component mounting system;
  • 1 is a diagram schematically showing a storage device and a storage management device provided in a parts exchange system;
  • FIG. 1 is a diagram schematically showing a parts exchange device and a replacement management device provided in a parts exchange system;
  • FIG. 10 is a diagram for explaining first array movement processing and second array movement processing included in the array processing performed by the control unit;
  • FIG. 10 is a diagram for explaining first array movement processing and second array movement processing included in the array processing performed by the control unit;
  • FIG. 10 is a diagram for explaining first array movement processing and second array movement processing included in the array processing performed by the control unit; It is a figure explaining the scene where a control unit outputs an error command signal. It is a figure explaining the collection
  • FIG. 5 is a diagram for explaining replenishment processing included in replacement processing performed by the control unit;
  • a component mounting system 1 shown in FIG. 1 is a system for producing component-mounted boards in which components such as electronic components are mounted on boards such as printed boards.
  • a component mounting system 1 includes a production system 2 and a component replacement system 3 .
  • the production system 2 includes a production management device 2A and at least one mounter 2B.
  • a production management device 2A and a component mounting machine 2B are connected so as to be able to communicate with each other.
  • the parts exchange system 3 includes a storage management device 4A, at least one storage device 4, a replacement management device 5A, and at least one parts exchange device 5.
  • the component mounting system 1 also includes an integrated management device 1A that is connected to each of the production management device 2A, the storage management device 4A, and the replacement management device 5A so as to be able to communicate with each other.
  • the integrated management device 1A, the production management device 2A, the storage management device 4A, and the exchange management device 5A are composed of, for example, microcomputers.
  • the production plan data D1 is transmitted from the integrated control device 1A to the production control device 2A.
  • the production control device 2A receives the production planning data D1
  • the component mounter 2B produces component-mounted boards according to the production planning data D1.
  • the production management device 2A manages production of component-mounted boards by the component mounter 2B.
  • the production management device 2A transmits production status data D2 indicating the production status of component-mounted boards in the component mounter 2B to the integrated management device 1A.
  • the integrated management device 1A Based on the production status data D2 transmitted from the production management device 2A, the integrated management device 1A recognizes the estimated time of component shortage associated with the production of component-mounted boards in the component mounter 2B, the type of component for which the component is out of stock, and the like. . Then, based on the recognition result, the integrated management device 1A generates replenishment plan data D3 indicating a component replenishment plan for the component mounter 2B. The integrated management device 1A transmits the generated replenishment plan data D3 to each of the storage management device 4A and the exchange management device 5A.
  • the storage management device 4A When the storage management device 4A receives the replenishment plan data D3, the worker prepares the component supply tool for component supply used in the component mounter 2B based on the replenishment plan data D3. The operator replenishes the storage device 4 with the prepared component supply tools.
  • the storage device 4 stores a plurality of component supply tools of different component types arranged in a predetermined direction.
  • the storage management device 4 ⁇ /b>A manages the storage status of the component supply tool in the storage device 4 .
  • the replacement management device 5A When the replacement management device 5A receives the replenishment plan data D3, the component replacement device 5 retrieves the component supply tool from the storage device 4 and exchanges the component supply tool with the component mounter 2B.
  • the replacement management device 5A manages the operation of the parts replacement device 5.
  • the component mounters 2B produce component-mounted boards according to the production planning data D1.
  • This component mounter 2B will be described with reference to FIG. It should be noted that the directional relationship will be described below using the XYZ orthogonal coordinate axes.
  • the X-axis direction and the Y-axis direction are orthogonal to each other on the horizontal plane, and the Z-axis direction is a direction extending in a vertical direction orthogonal to both the X-axis direction and the Y-axis direction.
  • the component mounter 2B is a device that mounts components on boards to produce component-mounted boards. A solder paste pattern is printed on the board before the components are mounted by the component mounter 2B.
  • the component mounter 2B includes a mounter body 21, a transport conveyor 22, a component supply unit 23, and a head unit .
  • the mounting machine main body 21 is a housing having an internal space in which each part constituting the component mounting machine 2B is arranged.
  • the transport conveyor 22 extends in the Y-axis direction and is arranged in a substantially central area inside the mounter main body 21 .
  • the transport conveyor 22 transports the substrate in the Y-axis direction.
  • the head unit 26 mounts components on the board conveyed by the conveyer 22 .
  • the head unit 26 takes out components from the feeder 25 arranged in the component supply unit 23 and mounts the taken components on the substrate.
  • a plurality of suction nozzles 261 are attached to the head unit 26 .
  • the suction nozzle 261 is a holder that can hold a component by suction.
  • the suction nozzle 261 can communicate with any one of a negative pressure generator, a positive pressure generator, and the atmosphere via an electric switching valve. In other words, when negative pressure is supplied to the suction nozzle 261, the component can be sucked and held by the suction nozzle 261, and then, when the positive pressure is supplied, the component is released from being sucked and held.
  • the component supply unit 23 is arranged in the end region of the mounter main body 21 in the X-axis direction.
  • the component supply unit 23 has an upper frame 231, a lower frame 232, and a back frame 233 for forming a plurality of supply support portions 24 that removably support the feeder 25 that supplies components.
  • the upper frame 231 is a plate-shaped frame extending in the X-axis direction and the Y-axis direction.
  • the upper frame 231 is arranged so that the area portion on one end side in the X-axis direction is exposed to the outside from the mounter main body 21 and the area portion on the other end side in the X-axis direction is accommodated inside the mounter main body 21 .
  • the lower frame 232 is a plate-shaped frame that extends in the X-axis direction and the Y-axis direction, and is arranged below the upper frame 231 in the Z-axis direction so as to face the upper frame 231 .
  • the lower frame 232 has a protruding portion 2321 protruding upward in the Z-axis direction in a region portion on the other end side in the X-axis direction that is accommodated inside the mounter main body 21 .
  • the far side frame 233 is a plate-like frame that extends in the Y-axis direction and the Z-axis direction, and is located inside the mounter body 21 at the center of the mounter body 21 relative to the other ends of the upper frame 231 and the lower frame 232 in the X-axis direction. placed in a closer position.
  • Each of the plurality of supply support parts 24 removably supports the feeder 25 in the component supply unit 23 .
  • a plurality of supply supports 24 are arranged in the Y-axis direction.
  • a plurality of feeders 25 are arranged side by side in the Y-axis direction by inserting the feeders 25 into the respective supply support portions 24 .
  • the feeder 25 is a component supply tool that supplies components. As long as the feeder 25 is configured to be able to supply components, its component supply method is not particularly limited. Examples of the feeder 25 include a tape feeder that supplies components using a tape as a carrier, a tray feeder that supplies components by moving a tray on which components are placed, and components stored in a cylindrical stick. It is possible to adopt a stick feeder or the like that feeds while pushing out from the stick. Also, a bulk feeder in which a bulk cassette containing a plurality of parts in a bulk state is detachably attached may be employed as the feeder 25 .
  • the feeder 25 supplies components by feeding a component storage tape PT that can store a plurality of components.
  • the component storage tape PT includes a carrier tape PT1 provided with a plurality of storage portions for storing components, and a cover tape PT2 joined to the carrier tape PT1 so as to cover the storage portions.
  • the feeder 25 includes a feeder body 251 , a reel support section 252 , a tape delivery section 254 and a collection section 255 .
  • a tape delivery path 253 is formed in the feeder body 251 .
  • the tape delivery path 253 is a path through which the component storage tape PT is delivered, and has a component pick-up portion 2531 between the upstream end and the downstream end in the delivery direction of the component storage tape PT.
  • the reel support portion 252 is arranged on the upstream end side of the tape delivery path 253 in the feeder body 251 .
  • the reel support portion 252 supports a reel around which the component storage tape PT is wound.
  • the tape delivery section 254 is composed of, for example, a sprocket, and is arranged near the component extraction section 2531 of the tape delivery path 253 .
  • the tape delivery section 254 delivers the component storage tape PT from the reel supported by the reel support section 252 and delivers the delivered component storage tape PT along the tape delivery path 253 .
  • the operation of the tape delivery section 254 is controlled by a control circuit mounted on the control board 259 .
  • the cover tape PT2 is separated from the carrier tape PT1 on the upstream side of the component extraction portion 2531.
  • FIG. As a result, the component is exposed on the carrier tape PT1 at the component pick-up portion 2531 .
  • the parts exposed on the carrier tape PT1 can be taken out by the head unit 26.
  • the cover tape PT2 separated from the carrier tape PT1 on the upstream side of the component picking section 2531 is collected by the collecting section 255.
  • the collection unit 255 is composed of, for example, a pair of rollers in contact with each other. In this case, the collecting unit 255 collects the cover tape PT2 according to the rotation of the roller pair.
  • the cover tape PT2 recovered by the recovery section 255 is accommodated in the recovery box 2551 .
  • the carrier tape PT1 after the components have been taken out by the head unit 26 is delivered outward from the feeder 25 through the downstream end of the tape delivery path 253 by the delivery operation of the tape delivery section 254 .
  • the carrier tape PT1 fed outward from the feeder 25 is cut to a predetermined length by a tape cutter 23A arranged near the projecting portion 2321 of the lower frame 232 in the component supply unit 23.
  • the feeder 25 has an upper positioning pin 256, a lower positioning pin 257, and a feeder-side connector 258.
  • the upper positioning pin 256 and the lower positioning pin 257 are pins that protrude from one end of the feeder body 251 in the X-axis direction.
  • the upper positioning pin 256 and the lower positioning pin 257 are arranged at one end of the feeder main body 251 in the X-axis direction with a space therebetween in the Z-axis direction. ing.
  • One end of the feeder body 251 in the X-axis direction has a stepped portion recessed on the other side in the X-axis direction with respect to the portion where the upper positioning pin 256 and the lower positioning pin 257 are provided.
  • a feeder-side connector 258 is provided at a stepped portion at one end of the feeder main body 251 in the X-axis direction.
  • the feeder-side connector 258 is a connector electrically connected to the control board 259 .
  • a plurality of supply support portions 24 for detachably supporting the feeder 25 are formed in the upper frame 231 , lower frame 232 and inner frame 233 of the component supply unit 23 .
  • Each supply support portion 24 includes an upper holding rail 241 , a lower holding rail 242 , an upper pin insertion hole 243 , a lower pin insertion hole 244 and a unit side connector 245 .
  • a plurality of upper holding rails 241 are arranged in the Y-axis direction so as to extend in the X-axis direction on the lower surface of the upper frame 231 .
  • the upper holding rail 241 is a rail member that guides the upper end of the feeder 25 when the feeder 25 is moved to and from the supply support portion 24 .
  • a plurality of lower holding rails 242 are formed on the upper surface of the lower frame 232 so as to extend in the X-axis direction and are aligned in the Y-axis direction.
  • the lower holding rail 242 is a rail member that guides the lower end of the feeder 25 when the feeder 25 is moved to and from the supply support portion 24 .
  • the upper pin insertion hole 243 is a plurality of holes formed side by side in the Y-axis direction at the upper end of the inner frame 233 .
  • the upper pin insertion hole 243 allows the insertion of the upper positioning pin 256 of the feeder 25 when the feeder 25 is inserted into the supply support portion 24 .
  • the insertion of the upper positioning pin 256 into the upper pin insertion hole 243 is released.
  • a plurality of lower pin insertion holes 244 are formed in the lower end portion of the inner frame 233 so as to be aligned in the Y-axis direction.
  • the lower pin insertion hole 244 allows insertion of the lower positioning pin 257 of the feeder 25 when the feeder 25 is inserted into the supply support portion 24 .
  • the insertion of the lower positioning pin 257 into the lower pin insertion hole 244 is released.
  • the feeder 25 is positioned with respect to the supply support portion 24 by inserting the upper positioning pin 256 through the upper pin insertion hole 243 and inserting the lower positioning pin 257 through the lower pin insertion hole 244 .
  • a plurality of unit-side connectors 245 are arranged side by side in the Y-axis direction on the projecting portion 2321 of the lower frame 232, and are connectors electrically connected to the control unit of the component mounter 2B.
  • the unit-side connector 245 is connected to the feeder-side connector 258 of the feeder 25 when the feeder 25 is inserted into the supply support portion 24 .
  • a plurality of feeders 25 of different component types are arranged in the Y-axis direction while being supported by the supply support section 24 .
  • the plurality of feeders 25 are supported by the supply support portions 24 in the component supply unit 23 so as to have an optimized arrangement based on the mounting efficiency of the components on the substrate by the head unit 26 .
  • the arrangement of the plurality of feeders 25 in the component supply unit 23 is set so that the amount of movement of the head unit 26 is minimized when components are mounted on the substrate.
  • the replenishment plan data D3 is data indicating a replenishment plan of the feeder 25 for the component supply unit 23 of the component mounter 2B.
  • the replenishment plan data D3 is data in which part type information D31, supply support portion position information D32, and replenishment completion time information D33 are associated with each other.
  • the part type information D31 indicates the number of parts contained in the feeder 25 to be collected that is expected to require collection due to running out of parts among the plurality of feeders 25 supported by the supply support portions 24 of the part supply unit 23. This is information indicating the type.
  • the supply support portion position information D32 is information indicating the position of the supply support portion 24 of the collection source that supports the feeder 25 to be collected among the plurality of supply support portions 24 in the component supply unit 23 .
  • the replenishment completion time information D33 is information indicating a target time for recovering the feeder 25 to be recovered from the supply support portion 24 of the recovery source and completing the replenishment of the feeder 25 to be replenished to the supply support portion 24 of the recovery source. be.
  • the target time indicated by the replenishment completion time information D33 is set, for example, to the time one hour before the predicted time at which the feeder 25 to be collected will run out of parts.
  • the storage management device 4A is connected to the storage device 4 so that data communication is possible.
  • the storage device 4 is arranged at a position away from the component mounter 2B in the X-axis direction, and is a device that stores the feeder 25 for supplying the component mounter 2B.
  • the storage device 4 includes a storage device body 41 and a storage unit 42 .
  • the storage device main body 41 is a housing having an internal space in which the storage unit 42 is arranged.
  • the storage unit 42 has a plurality of storage supports 421 arranged inside the storage device main body 41 .
  • a plurality of storage supports 421 are configured by rails extending in the X-axis direction and arranged side by side in the Y-axis direction.
  • a plurality of storage support portions 421 support a plurality of feeders 25 of different component types in an insertable and removable manner.
  • a plurality of feeders 25 are arranged side by side in the Y-axis direction by inserting the feeders 25 into the respective storage support portions 421 .
  • seven storage support parts 421a to 421g are arranged in order from one end to the other end of the storage unit 42 in the Y-axis direction. Insertion of the feeder 25 into each of the storage supports 421a to 421g in the storage unit 42 is performed by an operator.
  • five storage support sections 421a to 421e support the feeders 25 of different component types, respectively, and store them in a specific area 422 on the other end side in the Y-axis direction.
  • the support portions 421f and 421g are support portions that do not support the feeder 25 .
  • the storage management device 4A generates storage management data D4 shown in FIG. 3 based on the replenishment plan data D3 transmitted from the integrated management device 1A.
  • the storage management data D4 is data for managing the storage status of the feeder 25 in the storage unit 42 of the storage device 4.
  • the storage management data D4 is data in which work completion time information D41 and storage arrangement data D42 are associated.
  • the work completion time information D41 is information indicating the target time for the worker to complete the work of inserting the supply feeders 25 into the storage support portions 421a to 421g of the storage unit .
  • the target time indicated by the work completion time information D41 is set, for example, to the time one hour before the target time indicated by the replenishment completion time information D33 included in the replenishment plan data D3.
  • the storage arrangement data D42 is data indicating the arrangement of the supply feeders 25 that are stored in the storage unit 42 while being supported by the storage support portions 421a to 421g.
  • the storage arrangement data D42 is data in which component type information D421, feeder identification information D422, and storage support portion position information D423 are associated with each other.
  • the component type information D421 is information indicating the types of components stored in the feeder 25 for replenishment.
  • the part type indicated by the part type information D421 included in the storage arrangement data D42 matches the part type indicated by the part type information D31 included in the replenishment plan data D3.
  • the feeder identification information D422 is information for identifying the supply feeders 25 supported by the storage support portions 421a to 421g.
  • the storage support portion position information D423 is information indicating the positions in the storage unit 42 of the storage support portions 421a to 421g that support the feeder 25 for supply.
  • the worker stores the parts of the part type indicated by the part type information D421 and prepares the feeder 25 identified by the feeder identification information D422.
  • the worker prepares the storage support 421 at the position indicated by the storage support position information D423 among the plurality of storage supports 421a to 421g.
  • the work of inserting the feeder 25 is performed.
  • the operator may insert the prepared feeder 25 into the storage support portion 421 at an arbitrary position in the storage unit 42 . In this case, when the operator inserts the feeder 25 into each of the storage supports 421a to 421g, the storage support position information D423 is registered in the storage arrangement data D42.
  • the storage support 421a supports the feeder 25C
  • the storage support 421b supports the feeder 25A
  • the storage support 421c supports the feeder 25B
  • the storage support 421d supports the feeder 25B
  • storage support 421e supports feeder 25E.
  • the storage support portions 421 f and 421 g in the specific area 422 on the other end side of the storage unit 42 in the Y-axis direction do not support the feeder 25 .
  • the storage management device 4A may be incorporated in the storage device 4 . That is, the storage device 4 may include a storage unit 42 arranged within the storage device body 41 and a storage management device 4A.
  • the replacement management device 5A is connected to the parts replacement device 5 for data communication.
  • the component replacement device 5 is a working robot that can travel within the area between the storage device 4 and the component mounter 2B.
  • the component replacement device 5, which is arranged at a position facing the storage device 4, extracts the supply feeders 25 from the storage support portions 421a to 421g of the storage unit 42 and takes them inside. Further, the component replacement device 5 extracts the feeder 25 from the supply support portion 24 of the collection source that supports the feeder 25 to be collected in the component supply unit 23 in a state of being arranged at a position facing the component mounter 2B, and At the same time, the work of inserting the feeder 25 to be replenished into the supply support portion 24 of the collection source and replenishing is performed.
  • the parts replacement device 5 includes a replacement device main body 51 and an operation unit 52 .
  • the exchange device main body 51 is a housing having an internal space in which the operation unit 52 is arranged.
  • the motion unit 52 includes a mobile base 53 , an arm section 54 and a hand section 55 .
  • the operation unit 52 includes a moving mechanism such as a ball screw mechanism for moving the moving table 53, the arm portion 54, and the hand portion 55, a driving motor serving as a driving source for the moving mechanism, and driving the driving motor. and a control board for controlling.
  • the moving table 53 has a plate-like shape extending in the X-axis direction and the Y-axis direction, and has a plurality of replacement support parts 531 provided on its upper surface.
  • a plurality of exchange support portions 531 are configured by rails extending in the X-axis direction, and are arranged on the moving table 53 so as to be aligned in the Y-axis direction.
  • the plurality of replacement support portions 531 detachably support the feeder 25 to be replaced with the supply support portion 24 of the component supply unit 23 and with the storage support portion 421 of the storage unit 42 .
  • a plurality of feeders 25 are arranged side by side in the Y-axis direction by inserting the feeders 25 into the respective replacement support portions 531.
  • FIG. 4 As shown in FIG. In the example shown in FIG. 4, six replacement support parts 531a to 531f are arranged in order from one end to the other end of the moving table 53 in the Y-axis direction.
  • the movable table 53 is movable within a predetermined allowable movement range 532 in the Y-axis direction, which is the arrangement direction of the plurality of exchange support portions 531a to 531f, within the exchange device main body 51.
  • the arm part 54 can move in the space above the moving table 53 in the exchange device main body 51 in the Y-axis direction, which is the arrangement direction of the plurality of exchange support parts 531a to 531f.
  • the hand section 55 is a gripping body that is movably attached to the arm section 54 and capable of gripping the feeder 25 .
  • the hand portion 55 is movable with respect to the arm portion 54 in the X-axis direction along which the plurality of exchange support portions 531a to 531f extend.
  • the hand unit 55 moves in the Y-axis direction with the movement of the arm unit 54 and moves in the X-axis direction with respect to the arm unit 54 in the space above the carriage 53 in the exchange device main body 51 .
  • the hand unit 55 moves in the X-axis direction with respect to the arm unit 54 while gripping the feeder 25 so that the feeder 25 is inserted into and removed from each of the replacement support units 531a to 531f on the moving table 53. , to move the feeder 25 .
  • the transfer table 53 can move from the storage unit 42 to the transfer table 53 .
  • a predetermined allowable movement range is set so that the exchange support portion 531 of the transfer destination, which is the transfer destination of the feeder 25 to be transferred, faces the storage support portion 421 of the transfer source that supports the feeder 25 to be transferred. It moves in the Y-axis direction within the range of 532.
  • the arm portion 54 moves in the Y-axis direction so that the hand portion 55 is positioned above the exchange support portion 531 of the transfer destination.
  • the hand unit 55 moves from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25 to be transferred.
  • the feeder 25 to be transferred is extracted from the transfer source storage support portion 421 in the storage unit 42 and is moved and inserted into the transfer destination exchange support portion 531 on the moving platform 53 .
  • a plurality of types of feeders 25 to be replenished with different component types are arranged side by side on the moving table 53 in the Y-axis direction.
  • the moving table 53 is moved from the component supplying unit 23 to the moving table.
  • a predetermined allowable movement range 532 is set so that the replacement support portion 531 of the recovery destination, which is the recovery destination of the feeder 25 to be recovered, faces the supply support portion 24 of the recovery source that supports the feeder 25 to be recovered to 53 .
  • the arm portion 54 moves in the Y-axis direction so that the hand portion 55 is positioned above the replacement support portion 531 of the recovery destination.
  • the hand unit 55 moves from the component mounter 2B side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25 to be collected.
  • the feeder 25 to be collected is extracted from the supply support portion 24 of the collection source in the component supply unit 23 , moved to and inserted into the exchange support portion 531 of the collection destination on the moving table 53 .
  • the feeder 25 to be collected in the component supply unit 23 is collected onto the moving table 53 .
  • the moving table 53 has a supply source replacement support section 531 supporting the feeder 25 to be supplied from the moving table 53 to the recovery source supply support section 24 in the component supply unit 23 . They move in the Y-axis direction within a predetermined allowable movement range 532 so as to face each other.
  • the arm portion 54 moves in the Y-axis direction so that the hand portion 55 is positioned above the replacement support portion 531 of the supply source. Then, the hand unit 55 moves from the component replacing device 5 side to the component mounter 2B side along the X-axis direction while gripping the feeder 25 to be replenished.
  • the feeder 25 to be replenished is pulled out from the replenishment source replacement support portion 531 on the moving table 53 , moved to and inserted into the recovery source supply support portion 24 in the component supply unit 23 .
  • the component supply unit 23 is replenished so that the feeder 25 to be replenished on the moving table 53 is replaced with the feeder 25 to be collected.
  • the parts replacement device 5 further includes a detection unit 56 and a notification unit 57.
  • the detection unit 56 is a unit that detects the feeder 25 inserted into each of the replacement support portions 531a to 531f on the moving table 53 as the hand portion 55 moves.
  • a detection unit 56 detects feeder identification information for identifying the feeder 25 .
  • the notification unit 57 is attached to the outer surface of the exchange device main body 51 and is a unit that notifies various types of information.
  • the replacement management device 5A is a device that manages the operation of the parts replacement device 5.
  • the exchange management device 5A includes a control unit 5A1 and a storage unit 5A2.
  • the control unit 5A1 generates replacement management data D5 shown in FIG. 4 based on the replenishment plan data D3 transmitted from the integrated management device 1A.
  • the exchange management data D5 generated by the control unit 5A1 is stored in the storage unit 5A2.
  • the replacement management data D5 is data for managing the operation of the operation unit 52 of the parts replacement device 5.
  • the replacement management data D5 is data in which replacement completion time information D51, supply support portion position information D52, and moving table arrangement data D53 are associated with each other.
  • the replacement completion time information D51 arranges a plurality of feeders 25 to be replenished on the carriage 53, collects the feeders 25 to be collected from the parts supply unit 23 onto the carriage 53, and supplies the feeders 25 to be replenished on the carriage 53. This is information indicating the target time for completing the operation of the operation unit 52 to replenish the component supply unit 23 with the feeder 25 of .
  • the target time indicated by the replacement completion time information D51 is set to a time within a predetermined allowable range around the target time indicated by the replenishment completion time information D33 included in the replenishment plan data D3.
  • the supply support portion position information D52 is information indicating the position of the supply support portion 24 of the collection source that supports the feeder 25 to be collected in the component supply unit 23 .
  • the position indicated by the supply support portion position information D52 matches the position indicated by the supply support portion position information D32 included in the replenishment plan data D3.
  • the carriage arrangement data D53 is data indicating the arrangement of the feeders 25 to be replenished of multiple types on the carriage 53 .
  • the carriage arrangement data D53 is data in which component type information D531, feeder identification information D532, and replacement support portion position information D533 are associated with each other.
  • the component type information D531 indicates the feeder 25 to be transferred from the storage unit 42 onto the moving table 53, and the feeder to be replenished to the component supply unit 23 after being transferred onto the moving table 53.
  • 25 is information indicating the types of parts accommodated in 25.
  • FIG. The part type indicated by the part type information D531 included in the carriage arrangement data D53 matches the part type indicated by the part type information D31 included in the replenishment plan data D3.
  • the feeder identification information D532 is the feeder 25 to be transferred from the storage unit 42 onto the carriage 53 and the feeder to be replenished to the component supply unit 23 after being transferred onto the carriage 53. This is information for identifying V.25.
  • the replacement support portion position information D533 is the feeder 25 to be transferred from the storage unit 42 onto the moving table 53, and the supply target to be supplied to the component supply unit 23 after being transferred onto the moving table 53. This is information indicating the position on the moving table 53 of the replacement support portion 531 of the replenishment source that supports the feeder 25 of the replenishment source.
  • the control unit 5A1 arranges the feeders 25 to be replenished on the carriage 53 while considering that the target time indicated by the replacement completion time information D51 falls within the allowable range with respect to the time indicated by the replenishment completion time information D33. is optimized based on the exchange efficiency of the feeders 25 between the carriage 53 and the component supply unit 23, the carriage arrangement data D53 is generated.
  • the arrangement of the feeders 25 to be replenished indicated by the carriage arrangement data D53 is such that the target time indicated by the replacement completion time information D51 falls within the allowable range, and the feeders 25 between the carriage 53 and the component supply unit 23 are arranged.
  • the arrangement is such that the amount of movement of the carriage 53 when exchanging 25 falls within a predetermined target range and becomes as small as possible.
  • the control unit 5A1 generates moving table arrangement data D53, for example, according to the following procedure.
  • the control unit 5A1 confirms the arrangement of the feeders 25 in the storage unit 42 based on the storage management data D4, and also confirms the arrangement of the feeders 25 on the carriage 53 based on the detection result of the detection unit 56.
  • FIG. Further, the control unit 5A1 confirms the type and number of parts of the feeder 25 to be collected in the parts supply unit 23 based on the replenishment plan data D3. Thereby, the control unit 5A1 identifies the component type information D531 and the feeder identification information D532 corresponding to the feeder 25 to be replenished.
  • the control unit 5A1 confirms the position of the supply support part 24 of the collection source that supports the feeder 25 to be collected in the component supply unit 23. Then, the control unit 5A1 considers that the target time indicated by the replacement completion time information D51 is within the allowable range with respect to the time indicated by the replenishment completion time information D33, and the amount of movement of the carriage 53 is within the target range.
  • the replenishment order is set when replenishing by exchanging a plurality of feeders 25 to be replenished with feeders 25 to be collected so as to be as small as possible. In this case, the replenishment order of the plurality of replenishment target feeders 25 does not necessarily match the earliest target time indicated by the replenishment completion time information D33. In other words, the supply order of the plurality of feeders 25 to be replenished does not necessarily coincide with the earliest predicted time at which the feeders 25 to be collected will run out of parts or the like.
  • the third feeder 25 is arranged between the first feeder 25 and the second feeder 25 in descending order of predicted time when components will run out. .
  • the supply order of the feeders 25 to be replenished is set in the order of the predicted time when parts will run out, etc.
  • the second feeder 25 is replenished after the supply corresponding to the first feeder 25
  • the carriage 53 passes the position of the third feeder 25 and moves to the position of the second feeder 25 . Therefore, the amount of movement of the moving table 53 becomes large. Therefore, the control unit 5A1 sets the replenishment order of the feeders 25 to be replenished in the order of the first feeder 25, the third feeder 25, and the second feeder 25 so that the amount of movement of the carriage 53 becomes small. .
  • control unit 5A1 controls the plurality of exchange support portions 531a to 531f on the moving table 53 to select the exchange support portion 531 as a recovery destination for recovering the feeder 25 to be recovered without supporting the feeder 25 to be replenished. , and a supply source replacement support portion 531 that supports the feeder 25 to be supplied. At this time, the control unit 5A1 replaces the recovery destination and the supply source depending on whether or not the number of feeders 25 to be recovered is less than half the number of the replacement support portions 531a to 531f on the moving table 53. The position of the support portion 531 is set.
  • the control unit 5A1 moves Y on the moving table 53 as shown in the first example of FIG.
  • the exchange support portion 531a on the farthest one side in the axial direction is set as the support portion of the recovery destination, and the exchange support portions 531b to 531f arranged on the other side in the Y-axis direction with respect to the exchange support portion 531a are used as the feeder 25A to be replenished. It is set as the support part of the replenishment source that supports ⁇ 25E.
  • the control unit 5A1 supports replacement of the supply source corresponding to each of the feeders 25A to 25E to be supplied so that the plurality of feeders 25A to 25E to be supplied are arranged in order of supply from one side to the other in the Y-axis direction.
  • the positions of the portions 531b to 531f are set.
  • the control unit 5A1 obtains the exchange support portion position information D533 indicating the position of the exchange support portion 531a of the recovery destination and the positions of the exchange support portions 531b to 531f of the replenishment source that support the feeders 25A to 25E to be replenished. identify.
  • the control unit 5A1 operates on the moving table 53, as shown in the second example of FIG. , the replacement support portions 531a, 531c, and 531e of the collection destinations and the replacement support portions 531b, 531d, and 531f of the replenishment sources that support the feeders 25A to 25C to be replenished are arranged alternately in the Y-axis direction. .
  • the control unit 5A1 supports replacement of the supply source corresponding to each of the feeders 25A to 25C to be supplied so that the plurality of feeders 25A to 25C to be supplied are arranged in order of supply from one side to the other in the Y-axis direction.
  • the positions of the portions 531b, 531d and 531f are set.
  • the control unit 5A1 indicates the positions of the exchange support portions 531a, 531c, and 531e of the collection destinations and the positions of the exchange support portions 531b, 531d, and 531f of the supply sources that support the feeders 25A to 25C to be supplied. Identify the replacement support portion position information D533.
  • the control unit 5A1 Based on the component type information D531, the feeder identification information D532, and the replacement support portion position information D533 specified as described above, the control unit 5A1 generates carriage arrangement data indicating the arrangement of the feeders 25 to be replenished on the carriage 53. D53 can be generated.
  • the replacement management device 5A including the control unit 5A1 may be incorporated in the parts replacement device 5. That is, the parts replacement device 5 may include an operation unit 52, a detection unit 56, a notification unit 57, and a replacement management device 5A, which are arranged in the replacement device main body 51.
  • FIG. 1 the parts replacement device 5 may include an operation unit 52, a detection unit 56, a notification unit 57, and a replacement management device 5A, which are arranged in the replacement device main body 51.
  • the control unit 5A1 controls the operation of the operation unit 52 of the parts exchange apparatus 5 based on the storage arrangement data D42 included in the storage management data D4 and the exchange management data D5 including the moving table arrangement data D53.
  • the control unit 5A1 moves the carriage 53, the arm section 54 and the hand section 55 of the operation unit 52 by sending control signals based on the storage arrangement data D42 and the exchange management data D5 to the control board of the operation unit 52.
  • FIG. 5 to 9 is processing based on the carriage arrangement data D53 such that the arrangement of the feeders 25 to be replenished on the carriage 53 becomes the arrangement shown in the first example of FIG. be.
  • the control unit 5A1 Based on the storage arrangement data D42, the control unit 5A1 confirms the positions of the transfer source storage support parts 421a to 421e that support the transfer target feeders 25A to 25E in the storage unit . Further, the control unit 5A1 confirms the positions of the transfer-destination replacement support portions 531b to 531f on the transfer table 53 corresponding to the respective transfer target feeders 25A to 25E, based on the transfer table arrangement data D53. Then, the control unit 5A1 causes the transfer target feeders 25A to 25E supported by the transfer source storage support portions 421a to 421e in the storage unit 42 to be transferred to the transfer destination exchange support portions 531b to 531f on the moving table 53. The moving table 53, the arm section 54, and the hand section 55 are moved so that the arrangement of the feeders 25A to 25E on the moving table 53 becomes the arrangement indicated by the moving table arrangement data D53.
  • the control unit 5A1 determines whether or not there is a feeder 25 targeted for the specific feeder movement process shown in FIG.
  • the feeder 25C to be transferred supported by the storage support portion 421a in the storage unit 42 is the feeder 25 to be processed in the specific feeder movement process.
  • the exchange support section of the transfer destination on the movable table 53 is attached to the storage support section 421a of the transfer source that supported the feeder 25C to be transferred in the storage unit 42.
  • 531d does not face, the control unit 5A1 performs specific feeder movement processing.
  • the control unit 5A1 moves the feeder 25C to be transferred from the transfer source storage support 421a to the storage support 421f in the specific area 422 via the replacement support 531a.
  • the moving table 53, the arm portion 54 and the hand portion 55 are moved.
  • the control unit 5A1 makes it impossible to move the transfer table 53 so that the exchange support section 531d of the transfer destination is opposed to the storage support section 421a of the transfer source due to the restriction on the movement range of the transfer table 53. If possible, the transfer target feeder 25C is moved from the transfer source storage support 421a to the storage support 421f in the specific area 422 via the replacement support 531a.
  • control unit 5A1 moves the moving table 53 within the allowable movement range 532 so that the exchange support portion 531a faces the transfer source storage support portion 421a that supports the transfer target feeder 25C. Move in the Y-axis direction.
  • the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531a.
  • the control unit 5A1 moves the hand portion 55 from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25C to be transferred.
  • the feeder 25C to be transferred is extracted from the transfer source storage support portion 421a in the storage unit 42, moved to the exchange support portion 531a on the moving table 53, and inserted.
  • control unit 5A1 moves the moving table 53 by Y within the allowable movement range 532 so that the replacement support 531a supporting the feeder 25C to be transferred faces the storage support 421f in the specific area 422. Move axially.
  • the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531a moved to the position facing the storage support section 421f.
  • the control unit 5A1 moves the hand portion 55 from the part replacement device 5 side to the storage device 4 side along the X-axis direction while gripping the feeder 25C to be transferred.
  • the feeder 25C to be transferred is extracted from the replacement support portion 531a on the moving table 53, moved to the storage support portion 421f in the specific area 422 of the storage unit 42, and inserted.
  • control unit 5A1 moves the first array movement shown in FIGS. The process and the second array movement process are repeated.
  • the control unit 5A1 adjusts the allowable movement range 532 so that the exchange support section 531b of the transfer destination faces the storage support section 421b of the transfer source that supported the feeder 25A to be transferred.
  • the moving table 53 is moved in the Y-axis direction.
  • the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the exchange support section 531b of the transfer destination.
  • the control unit 5A1 moves the hand portion 55 from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25A to be transferred.
  • the feeder 25A to be transferred is extracted from the transfer source storage support portion 421b in the storage unit 42, and is moved and inserted into the transfer destination replacement support portion 531b on the moving table 53. .
  • the control unit 5A1 also performs the first arrangement movement process and the second arrangement movement process for the feeder 25B to be transferred in the same manner as the feeder 25A described above.
  • the feeder 25B to be transferred is extracted from the transfer source storage support portion 421c in the storage unit 42, and is moved and inserted into the transfer destination exchange support portion 531c on the carriage 53. .
  • the control unit 5A1 performs the following first arrangement movement processing and second arrangement movement processing for the transfer target feeder 25C that has been moved to the storage support portion 421f in the specific area 422 of the storage unit 42.
  • the control unit 5A1 adjusts the allowable movement range 532 so that the transfer destination exchange support section 531d faces the storage support section 421f in the specific area 422 supporting the transfer target feeder 25C.
  • the moving table 53 is moved in the Y-axis direction within the range.
  • the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the exchange support section 531d of the transfer destination.
  • control unit 5A1 moves the hand portion 55 from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25C to be transferred.
  • the feeder 25C to be transferred is extracted from the storage support portion 421f in the specific area 422 of the storage unit 42, and is moved and inserted into the transfer destination exchange support portion 531d on the moving table 53. .
  • the control unit 5A1 also performs the first array movement process and the second array movement process for the feeders 25D and 25E to be transferred in the same manner as the feeders 25A and 25B described above.
  • the feeders 25D and 25E to be transferred are extracted from the transfer source storage support portions 421d and 421e in the storage unit 42, and transferred to the transfer destination exchange support portions 531e and 531f on the carriage 53. Moved and inserted.
  • the feeders 25A to 25E to be transferred are extracted from the storage support portions 421a to 421e of the transfer source of the storage unit 42 by the first arrangement movement processing and the second arrangement movement processing of the control unit 5A1, and the transfer table 53 It is moved and inserted into the replacement support portions 531b to 531f of the upper transfer destination.
  • the first arrangement movement process and the second arrangement movement process by the control unit 5A1 are repeatedly performed corresponding to each of the plurality of feeders 25A to 25E to be transferred, thereby arranging the feeders 25A to 25E on the moving table 53. can be the arrangement indicated by the moving table arrangement data D53.
  • the control unit 5A1 moves the feeders 25 from the storage support portion 421 of the storage unit 42 to the replacement support portion 531 of the moving table 53 and arranges them on the moving table 53.
  • the carriage 53, the arm section 54, and the hand section 55 are moved so that the arrangement of the feeders 25 becomes the arrangement indicated by the carriage arrangement data D53.
  • the movement table arrangement data D53 is such that the amount of movement of the movement table 53 when exchanging the feeders 25 between the supply support section 24 of the component supply unit 23 and the exchange support section 531 of the movement table 53 is within the target range as much as possible. This data indicates the arrangement of the feeders 25 on the moving table 53, which is set to be small.
  • the moving table 53 when a plurality of feeders 25 are arranged on the moving table 53 according to the moving table arrangement data D53, when the feeders 25 are exchanged between the component supply unit 23 and the moving table 53, the moving table 53 The amount of movement can be kept within the target range. This makes it possible to improve the exchange efficiency of the feeder 25 exchange between the component supply unit 23 and the moving table 53 .
  • the detection unit 56 is transferred to the exchange support portion 531f of the transfer destination on the moving table 53. Detect feeder 25X.
  • the control unit 5A1 determines whether or not the feeder 25X detected by the detection unit 56 matches the feeder 25E to be arranged on the exchange support portion 531f of the transfer destination based on the moving table arrangement data D53. If they do not match, the control unit 5A1 outputs an error command signal S1 to the notification unit 57 to command notification of the error information SS1.
  • the notification unit 57 can notify the error information SS1 based on the error command signal S1 output from the control unit 5A1.
  • the feeder 25X corresponding to the error command signal S1 moves from the replacement support portion 531f on the moving table 53 to the transfer source storage support portion 421e in the storage unit 42.
  • the hand part 55 is moved so as to move.
  • the feeder 25X corresponding to the error command signal S1 is returned from the moving table 53 to the storage unit . Accordingly, it is possible to prevent the arrangement of the feeders 25 on the carriage 53 from being different from the arrangement of the carriage arrangement data D53.
  • the control unit 5A1 when the control unit 5A1 outputs the error command signal S1, the control unit 5A1 replaces the feeder 25X corresponding to the error command signal S1 with an exchange described later, in which the feeder 25 is exchanged between the component supply unit 23 and the carriage 53. Exclude from the processing target of processing. Specifically, the control unit 5A1 deletes the part type information D531 and the feeder identification information D532 regarding the feeder 25X corresponding to the error command signal S1 from the replacement management data D5. In this case, the feeder 25X corresponding to the error command signal S1 is excluded from the processing target of the exchange process in which the feeder 25 is exchanged between the component supply unit 23 and the moving table 53. FIG. As a result, it is possible to prevent the feeder 25X corresponding to the error command signal S1 from being supplied to the component supply unit 23. FIG.
  • control unit 5A1 when the control unit 5A1 outputs the error command signal S1, it outputs a replacement preparation request signal S2 requesting preparation of the feeder 25E to replace the feeder 25X corresponding to the error command signal S1.
  • the alternative preparation request signal S2 output from the control unit 5A1 is input to the integrated management device 1A.
  • the integrated management device 1A updates the replenishment plan data D3 in response to the input of the alternative preparation request signal S2, and transmits the alternative preparation command signal S3 to the storage management device 4A.
  • the alternate preparation command signal S3 is a signal that commands preparation of the alternate feeder 25E indicated by the alternate preparation request signal S2.
  • the storage management device 4A receives the substitute preparation command signal S3, it notifies, for example, information indicating that preparation of the substitute feeder 25E is necessary. As a result, for example, the operator can prepare the feeder 25E to replace the feeder 25X corresponding to the error command signal S1, and replenish the storage unit 42 with the prepared feeder 25E.
  • control unit 5A1 does not have to output the alternative preparation request signal S2.
  • the operator prepares the feeder 25E to replace the feeder 25X corresponding to the error command signal S1 based on the error information SS1 notified by the notification unit 57, and stores the prepared feeder 25E in the storage unit. 42 can be supplemented.
  • the control unit 5A1 performs the replacement process in a state in which the operation unit 52 is arranged to face the component supply unit 23 by arranging the component replacement device 5 at a position facing the component mounter 2B.
  • the control unit 5A1 moves the feeder 25 between the component supply unit 23 and the transfer table 53 for replacement.
  • the part 55 is moved.
  • the control unit 5A1 replaces the component supply unit 23 with the component supply unit 23 according to the arrangement order of the feeders 25 to be replenished on the carriage 53 indicated by the carriage arrangement data D53 included in the replacement management data D5, that is, according to the replenishment order.
  • the moving table 53 , the arm portion 54 and the hand portion 55 are moved so that the feeder 25 is exchanged with the moving table 53 .
  • This exchange process will be described with reference to FIGS. 10 and 11.
  • FIG. 10 and 11 the feeder 25A to be collected from the component supply unit 23 to the moving table 53 is hatched.
  • the control unit 5A1 confirms the position of the recovery source supply support part 24b that supports the recovery target feeder 25A in the component supply unit 23 based on the supply support part position information D52 included in the replacement management data D5. Further, the control unit 5A1 confirms the position of the exchange support portion 531b of the replenishment source on the carriage 53 of the feeder 25A to be replenished according to the recovery of the feeder 25A to be replenished, based on the carriage arrangement data D53. do. In the replacement process, the control unit 5A1 repeatedly performs the recovery process shown in FIG. 10 and the replenishment process shown in FIG.
  • the control unit 5A1 performs a first recovery movement process and a second recovery movement process in the collection process.
  • the control unit 5A1 moves within the allowable movement range 532 so that the replacement support portion 531a of the recovery destination faces the supply support portion 24b of the recovery source that supports the feeder 25A to be recovered.
  • the platform 53 is moved in the Y-axis direction.
  • the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531a of the recovery destination.
  • control unit 5A1 moves the hand portion 55 from the component mounter 2B side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25A to be collected.
  • the feeder 25A to be collected is extracted from the supply support portion 24b of the collection source in the component supply unit 23, moved to the exchange support portion 531a of the collection destination on the moving table 53, and collected.
  • the control unit 5A1 performs a first replenishment movement process and a second replenishment movement process in the replenishment process.
  • the control unit 5A1 adjusts the allowable movement range 532 so that the replenishment source replacement support portion 531b that supports the replenishment target feeder 25A faces the recovery source supply support portion 24b that is the replenishment destination.
  • the moving table 53 is moved in the Y-axis direction within the range.
  • the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531b of the replenishment source.
  • control unit 5A1 moves the hand portion 55 from the component replacing device 5 side to the component mounter 2B side along the X-axis direction while gripping the feeder 25A to be replenished.
  • the feeder 25A to be replenished is extracted from the replenishment source exchange support portion 531b on the moving table 53, moved to the recovery source supply support portion 24b in the component supply unit 23, and replenished.
  • the replacement efficiency of the feeder 25 exchange between the component supply unit 23 and the moving table 53 is enhanced by the component replacement system 3.
  • the feeder 25A to be collected that has run out of components or the like is efficiently collected from the component supply unit 23, and the feeder 25A to be replenished is efficiently replenished to the component supply unit 23 according to the collection.
  • a component replacement system collects a component supply tool from a component supply unit in which a plurality of supply support units supporting the component supply tool for supplying components to be mounted on a board are arranged in a predetermined direction.
  • the system replenishes the component supply tool to the component supply unit according to the operation.
  • This parts exchange system includes a storage unit in which a plurality of storage support parts for supporting and storing a plurality of parts supply tools of different types are arranged in a predetermined direction, a supply support part, and a storage support.
  • a plurality of exchange supporting parts for supporting the component supply tool exchanged between the parts and the parts are arranged in a predetermined direction; and a gripper for moving the component supply tool by moving with respect to the moving table; and a control unit for controlling the operation unit.
  • the control unit moves and replaces the component supply tool between the plurality of supply support portions and the plurality of replacement support portions in a state in which the operation unit is arranged to face the component supply unit. Exchange processing is performed to move the moving table and the gripper as shown in FIG.
  • the control unit performs preprocessing for the replacement processing, such that the plurality of types of the component supply tools supported by the plurality of storage support portions are displaced.
  • An arrangement process is performed to move the moving table and the gripper so that the arrangement shown by .
  • the control unit moves the component supply tools from the storage support section of the storage unit to the replacement support section of the transfer table and arranges them on the transfer table.
  • the movable table and the gripper are moved so that the arrangement of the tools becomes the arrangement indicated by the arrangement data.
  • the arrangement data is set such that the moving amount of the moving table in the replacement process for exchanging the component supply tools between the supply support section of the component supply unit and the replacement support section of the moving table falls within a target range. It is the data which shows the arrangement
  • the control unit in the arranging process, is arranged in the transfer source support section that supports the component supply tool to be transferred from the storage unit to the moving table, among the plurality of storage support sections.
  • a second movement process may be performed to move the gripper so that the component supply tool to be transferred moves from the transfer source support section to the transfer destination support section.
  • the component supply tool to be transferred is extracted from the storage support portion of the transfer source of the storage unit and moved to the transfer destination on the carriage. is moved to and inserted into the replacement support part of the
  • a support section within a specific area among the plurality of storage support sections is a support section that does not support the component supply tool
  • the moving base includes the plurality of storage support sections. It is movable within a predetermined allowable range of movement in the arrangement direction of the replacement support part. If the transfer destination support section does not face the transfer source support section when the movable table is moved within the allowable movement range, the control unit moves the component supply tool to be transferred. moves from the transfer source support section to the support section in the specific area via the exchange support section.
  • the component supply tool to be transferred is moved from the transfer source storage support section to the storage support section in the specific area via the replacement support section.
  • the control unit when the transfer target component supply tool is moved to the support section within the specific area, the control unit causes the transfer destination support section to move to the specific area in the first movement process.
  • the moving table is moved so as to face the support section in the area, and in the second movement process, the component supply tool to be transferred supported by the support section in the specific area moves to the transfer destination support section. You may move the said holding body so that it may move to.
  • the component supply tool to be transferred that has been moved to the storage support section within the specific area of the storage unit is removed from the storage support section within the specific area by the first movement processing and the second movement processing of the control unit. It is pulled out, moved to and inserted into the transfer-destination exchange support section on the carriage.
  • the component replacement system further includes a detection unit that detects the component supply tool to be transferred that has been transferred to the transfer destination support section in the second movement process, and a notification unit that notifies various information. You may prepare.
  • the control unit determines whether or not the component supply tool detected by the detection unit matches the component supply tool to be placed on the transfer destination support section based on the arrangement data. outputs an error command signal for commanding notification of error information to the notification unit.
  • the control unit can report the error information based on the error command signal output from the .
  • control unit causes the gripper to move the part supply tool to be transferred corresponding to the error command signal from the transfer destination support section to the transfer source support section. can be moved.
  • the component supply tool corresponding to the error command signal is returned from the moving table to the storage unit. Accordingly, it is possible to prevent the arrangement of the component supply tools on the moving table from being different from the arrangement data.
  • control unit may exclude the transfer target parts supply tool corresponding to the error command signal from the replacement process.
  • the component supply tool corresponding to the error command signal is excluded from the processing target of the exchange process in which the component supply tool is exchanged between the component supply unit and the moving table. As a result, it is possible to prevent the component supply unit from being supplied with the component supply tool corresponding to the error command signal.
  • control unit may output a replacement preparation request signal requesting preparation of a parts supply tool to replace the parts supply tool to be transferred corresponding to the error command signal.
  • the alternative preparation request signal is output from the control unit.
  • the operator can prepare a component supply tool to replace the component supply tool corresponding to the error command signal, and replenish the storage unit with the prepared component supply tool.
  • a component mounting system includes a component supply unit in which a plurality of supply support parts that support component supply tools that supply components are arranged in a predetermined direction; a head unit that mounts a component supplied by a supply tool onto a substrate; and the component replacement described above, wherein the component supply tool is supplied to the component supply unit in response to recovering the component supply tool from the component supply unit.
  • the component exchange system increases the efficiency of exchanging component supply tools between the component supply unit and the moving table.
  • the component supply tool to be collected that has run out of components or the like is efficiently collected from the component supply unit, and the component supply tool to be replenished is efficiently replenished to the component supply unit according to the collection.

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  • Manufacturing & Machinery (AREA)
  • Microelectronics & Electronic Packaging (AREA)
  • Supply And Installment Of Electrical Components (AREA)

Abstract

This component exchange system comprises: a storage unit in which are arranged a plurality of storage supports for supporting component supply tools for replenishing supply supports of a component supply unit; an operation unit including a movable carriage in which are arranged a plurality of exchange supports for supporting component supply tools to be exchanged between the supply supports and the storage supports; and a control unit for controlling the operation unit. When the operation unit is located so as to face the storage unit, the control unit performs an arrangement process for moving the movable carriage, such that component supply tools supported by the storage supports are moved to the exchange supports and arranged on the movable carriage. When the operation unit is located so as to face the component supply unit, the control unit performs an exchange process for moving the movable carriage, such that component supply tools are moved and exchanged between the supply supports and the exchange supports. In the arrangement process, the control unit moves the movable carriage such that the arrangement of the component supply tools on the movable carriage becomes as indicated in arrangement data that is set in advance.

Description

部品交換システム及び部品実装システムParts exchange system and parts mounting system
 本発明は、部品供給ユニットにおける部品供給具の回収及び補給を行う部品交換システム、及びそれを備えた部品実装システムに関する。 The present invention relates to a parts replacement system that collects and replenishes parts supply tools in a parts supply unit, and a parts mounting system equipped with the same.
 部品実装システムは、プリント基板等の基板上に部品を搭載する部品実装機を備える。部品実装機は、部品を供給するフィーダー等の複数の部品供給具が配列された部品供給ユニットと、部品供給具により供給された部品を基板に搭載するヘッドユニットと、を備える。部品実装機では、部品切れ等の生じた部品供給具が部品供給ユニットから回収されるとともに、当該回収に応じて新たな部品供給具が部品供給ユニットに補給される。 The component mounting system is equipped with a component mounter that mounts components on a board such as a printed circuit board. A component mounter includes a component supply unit in which a plurality of component supply tools such as feeders for supplying components are arranged, and a head unit for mounting the components supplied by the component supply tools on a board. In the component mounter, a component supply tool that has run out of components or the like is recovered from the component supply unit, and a new component supply tool is supplied to the component supply unit according to the recovery.
 特許文献1には、部品実装機からの部品供給具の回収に応じて、部品実装機に部品供給具を補給する補給装置が開示されている。補給装置は、部品保管庫と部品実装機との間で走行する走行体と、走行体上に移動可能に設けられた移動台と、移動台に搭載された補給ユニットと、を備える。走行体の走行によって部品保管庫に対向するように補給装置が配置されると、オペレータによって部品保管庫から補給ユニットに部品供給具が移載される。これにより、部品種の異なる複数の部品供給具が補給ユニット内に配列される。この状態で、走行体の走行によって部品実装機の部品供給ユニットに対向するように補給装置が配置されると、移動台が移動しながら、部品供給ユニットと補給ユニットとの間で部品供給具が交換される。 Patent Literature 1 discloses a replenishing device that replenishes a component supply tool to a component mounter in response to collection of the component supply tool from the component mounter. The replenishing device includes a traveling body that travels between the component storage and the component mounting machine, a moving base that is movably provided on the traveling body, and a replenishment unit that is mounted on the moving base. When the supply device is arranged so as to face the parts storage by running of the traveling body, the operator transfers the parts supply tool from the parts storage to the supply unit. As a result, a plurality of component supply tools with different component types are arranged in the replenishment unit. In this state, when the replenishing device is arranged so as to face the component supply unit of the component mounter by running of the traveling body, the component supply tool is moved between the component supply unit and the replenishment unit while the carriage moves. be exchanged.
 特許文献1に開示される補給装置では、部品保管庫から補給ユニットに部品供給具が移載されるときに、補給ユニット内における複数の部品供給具の配列については考慮されていない。このため、補給ユニット内に複数の部品供給具が配列された状態において、部品供給ユニットと補給ユニットとの間で部品供給具の交換が行われる際に、移動台の移動量が増大してしまうことがある。この場合、部品供給ユニットにおける部品供給具の交換の交換効率が低下する虞がある。 The supply device disclosed in Patent Document 1 does not consider the arrangement of a plurality of component supply tools in the supply unit when the component supply tools are transferred from the parts storage to the supply unit. Therefore, in a state in which a plurality of component supply tools are arranged in the supply unit, when the component supply tools are exchanged between the supply units, the amount of movement of the carriage increases. Sometimes. In this case, there is a possibility that the replacement efficiency of the replacement of the component supply tool in the component supply unit is lowered.
特許第6074425号公報Japanese Patent No. 6074425
 本発明の目的は、部品供給ユニットにおける部品供給具の交換の交換効率を高めることが可能な部品交換システム、及びそれを備えた部品実装システムを提供することにある。 An object of the present invention is to provide a parts replacement system capable of enhancing the efficiency of replacement of parts supply tools in a parts supply unit, and a parts mounting system equipped with the system.
 本発明の一の局面に係る部品交換システムは、基板に搭載される部品を供給する部品供給具を支持する複数の供給支持部が所定方向に配列された部品供給ユニットから前記部品供給具を回収することに応じて、前記部品供給ユニットに前記部品供給具を補給するシステムである。この部品交換システムは、部品種の異なる複数の前記部品供給具を支持して保管する複数の保管支持部が所定方向に配列された保管ユニットと、前記供給支持部との間、及び前記保管支持部との間で交換される前記部品供給具を支持する複数の交換支持部が所定方向に配列され、前記複数の交換支持部の配列方向に移動可能な移動台と、前記部品供給具を把持するとともに前記移動台に対して移動することにより前記部品供給具を移動させる把持体と、を含む動作ユニットと、前記動作ユニットを制御する制御ユニットと、を備える。前記制御ユニットは、前記動作ユニットが前記部品供給ユニットに対して対向配置された状態では、前記複数の供給支持部と前記複数の交換支持部との間で前記部品供給具が移動して交換されるように、前記移動台及び前記把持体を移動させる交換処理を行う。また、前記制御ユニットは、前記動作ユニットが前記保管ユニットに対して対向配置された状態では、前記交換処理の前処理として、前記複数の保管支持部に支持された複数種の前記部品供給具が前記複数の交換支持部に移動し、前記移動台上での複数種の前記部品供給具の配列が、前記交換処理における前記移動台の移動量を目標範囲に収めるために予め設定された配列データで示される配列となるように、前記移動台及び前記把持体を移動させる配列処理を行う。 A component replacement system according to one aspect of the present invention collects a component supply tool from a component supply unit in which a plurality of supply support units supporting the component supply tool for supplying components to be mounted on a board are arranged in a predetermined direction. The system replenishes the component supply tool to the component supply unit according to the operation. This parts exchange system includes a storage unit in which a plurality of storage support parts for supporting and storing a plurality of parts supply tools of different types are arranged in a predetermined direction, a supply support part, and a storage support. a plurality of exchange supporting parts for supporting the component supply tool exchanged between the parts and the parts are arranged in a predetermined direction; and a gripper for moving the component supply tool by moving with respect to the moving table; and a control unit for controlling the operation unit. The control unit moves and replaces the component supply tool between the plurality of supply support portions and the plurality of replacement support portions in a state in which the operation unit is arranged to face the component supply unit. Exchange processing is performed to move the moving table and the gripper as shown in FIG. In addition, in a state in which the operation unit is arranged to face the storage unit, the control unit performs preprocessing for the replacement processing, such that the plurality of types of the component supply tools supported by the plurality of storage support portions are displaced. Arrangement data set in advance for arranging the plurality of types of component supply tools on the moving table so that the amount of movement of the moving table in the replacing process is within a target range. An arrangement process is performed to move the moving table and the gripper so that the arrangement shown by .
 本発明の他の局面に係る部品実装システムは、部品を供給する部品供給具を支持する複数の供給支持部が所定方向に配列された部品供給ユニットと、前記供給支持部に支持された前記部品供給具により供給された部品を基板に搭載するヘッドユニットと、前記部品供給ユニットから前記部品供給具を回収することに応じて、前記部品供給ユニットに前記部品供給具を補給する、上記の部品交換システムと、を備える。 A component mounting system according to another aspect of the present invention includes a component supply unit in which a plurality of supply support parts that support component supply tools that supply components are arranged in a predetermined direction; a head unit that mounts a component supplied by a supply tool onto a substrate; and the component replacement described above, wherein the component supply tool is supplied to the component supply unit in response to recovering the component supply tool from the component supply unit. a system;
 本発明の目的、特徴及び利点は、以下の詳細な説明と添付図面とによって、より明白となる。 The objects, features and advantages of the present invention will become more apparent with the following detailed description and accompanying drawings.
本発明の実施形態に係る部品交換システムが適用された部品実装システムの構成を示すブロック図である。1 is a block diagram showing the configuration of a component mounting system to which a component replacement system according to an embodiment of the invention is applied; FIG. 部品実装システムにおける生産システムに備えられる部品実装機の構成を示す断面図である。FIG. 3 is a cross-sectional view showing the configuration of a component mounter provided in a production system in the component mounting system; 部品交換システムに備えられる保管装置及び保管管理装置を概略的に示す図である。1 is a diagram schematically showing a storage device and a storage management device provided in a parts exchange system; FIG. 部品交換システムに備えられる部品交換装置及び交換管理装置を概略的に示す図である。1 is a diagram schematically showing a parts exchange device and a replacement management device provided in a parts exchange system; FIG. 制御ユニットが行う配列処理に含まれる特定フィーダー移動処理を説明する図である。It is a figure explaining the specific feeder movement process included in the arrangement|sequence process which a control unit performs. 制御ユニットが行う配列処理に含まれる第1配列移動処理及び第2配列移動処理を説明する図である。FIG. 10 is a diagram for explaining first array movement processing and second array movement processing included in the array processing performed by the control unit; 制御ユニットが行う配列処理に含まれる第1配列移動処理及び第2配列移動処理を説明する図である。FIG. 10 is a diagram for explaining first array movement processing and second array movement processing included in the array processing performed by the control unit; 制御ユニットが行う配列処理に含まれる第1配列移動処理及び第2配列移動処理を説明する図である。FIG. 10 is a diagram for explaining first array movement processing and second array movement processing included in the array processing performed by the control unit; 制御ユニットがエラー指令信号を出力する場面を説明する図である。It is a figure explaining the scene where a control unit outputs an error command signal. 制御ユニットが行う交換処理に含まれる回収処理を説明する図である。It is a figure explaining the collection|recovery process included in the exchange process which a control unit performs. 制御ユニットが行う交換処理に含まれる補給処理を説明する図である。FIG. 5 is a diagram for explaining replenishment processing included in replacement processing performed by the control unit;
 以下、本発明の実施形態に係る部品交換システム及び部品実装システムについて図面に基づいて説明する。 A component replacement system and a component mounting system according to embodiments of the present invention will be described below with reference to the drawings.
 [部品実装システムの全体構成]
 図1に示される部品実装システム1は、プリント基板等の基板上に電子部品等の部品が搭載された部品搭載基板を生産するシステムである。部品実装システム1は、生産システム2と、部品交換システム3とを備える。生産システム2は、生産管理装置2Aと、少なくとも1台の部品実装機2Bとを含む。生産システム2では、生産管理装置2Aと部品実装機2Bとがデータ通信可能に接続されている。部品交換システム3は、保管管理装置4Aと、少なくとも1台の保管装置4と、交換管理装置5Aと、少なくとも1台の部品交換装置5と、を含む。部品交換システム3では、保管管理装置4Aと保管装置4とがデータ通信可能に接続されるとともに、交換管理装置5Aと部品交換装置5とがデータ通信可能に接続されている。また、部品実装システム1は、生産管理装置2A、保管管理装置4A及び交換管理装置5Aの各々とデータ通信可能に接続される統合管理装置1Aを備える。なお、統合管理装置1A、生産管理装置2A、保管管理装置4A、及び交換管理装置5Aは、例えばマイクロコンピュータによって構成される。
[Overall Configuration of Component Mounting System]
A component mounting system 1 shown in FIG. 1 is a system for producing component-mounted boards in which components such as electronic components are mounted on boards such as printed boards. A component mounting system 1 includes a production system 2 and a component replacement system 3 . The production system 2 includes a production management device 2A and at least one mounter 2B. In the production system 2, a production management device 2A and a component mounting machine 2B are connected so as to be able to communicate with each other. The parts exchange system 3 includes a storage management device 4A, at least one storage device 4, a replacement management device 5A, and at least one parts exchange device 5. In the parts exchange system 3, the storage management device 4A and the storage device 4 are connected for data communication, and the exchange management device 5A and the parts exchange device 5 are connected for data communication. The component mounting system 1 also includes an integrated management device 1A that is connected to each of the production management device 2A, the storage management device 4A, and the replacement management device 5A so as to be able to communicate with each other. The integrated management device 1A, the production management device 2A, the storage management device 4A, and the exchange management device 5A are composed of, for example, microcomputers.
 部品実装システム1では、統合管理装置1Aから生産管理装置2Aへ生産計画データD1が送信される。生産管理装置2Aが生産計画データD1を受信すると、部品実装機2Bは、生産計画データD1に従って部品搭載基板を生産する。生産管理装置2Aは、部品実装機2Bによる部品搭載基板の生産を管理する。生産管理装置2Aは、部品実装機2Bにおける部品搭載基板の生産の状況を示す生産状況データD2を統合管理装置1Aに送信する。 In the component mounting system 1, the production plan data D1 is transmitted from the integrated control device 1A to the production control device 2A. When the production control device 2A receives the production planning data D1, the component mounter 2B produces component-mounted boards according to the production planning data D1. The production management device 2A manages production of component-mounted boards by the component mounter 2B. The production management device 2A transmits production status data D2 indicating the production status of component-mounted boards in the component mounter 2B to the integrated management device 1A.
 統合管理装置1Aは、生産管理装置2Aから送信された生産状況データD2に基づいて、部品実装機2Bにおける部品搭載基板の生産に伴う部品切れの予想時刻、部品切れの部品の種類などを認識する。そして、統合管理装置1Aは、認識結果に基づいて、部品実装機2Bに対する部品の補給計画を示す補給計画データD3を生成する。統合管理装置1Aは、生成した補給計画データD3を保管管理装置4A及び交換管理装置5Aのそれぞれに送信する。 Based on the production status data D2 transmitted from the production management device 2A, the integrated management device 1A recognizes the estimated time of component shortage associated with the production of component-mounted boards in the component mounter 2B, the type of component for which the component is out of stock, and the like. . Then, based on the recognition result, the integrated management device 1A generates replenishment plan data D3 indicating a component replenishment plan for the component mounter 2B. The integrated management device 1A transmits the generated replenishment plan data D3 to each of the storage management device 4A and the exchange management device 5A.
 保管管理装置4Aが補給計画データD3を受信すると、作業者は、補給計画データD3に基づいて、部品実装機2Bにおいて用いられる部品供給用の部品供給具を準備する。作業者は、準備した部品供給具を保管装置4に補充する。保管装置4は、部品種の異なる複数の部品供給具を、所定方向に配列された状態で保管する。保管管理装置4Aは、保管装置4における部品供給具の保管状況を管理する。 When the storage management device 4A receives the replenishment plan data D3, the worker prepares the component supply tool for component supply used in the component mounter 2B based on the replenishment plan data D3. The operator replenishes the storage device 4 with the prepared component supply tools. The storage device 4 stores a plurality of component supply tools of different component types arranged in a predetermined direction. The storage management device 4</b>A manages the storage status of the component supply tool in the storage device 4 .
 交換管理装置5Aが補給計画データD3を受信すると、部品交換装置5は、保管装置4から部品供給具を取り込むとともに、部品実装機2Bとの間で部品供給具を交換する。交換管理装置5Aは、部品交換装置5の動作を管理する。 When the replacement management device 5A receives the replenishment plan data D3, the component replacement device 5 retrieves the component supply tool from the storage device 4 and exchanges the component supply tool with the component mounter 2B. The replacement management device 5A manages the operation of the parts replacement device 5. FIG.
 [生産システムの詳細構成]
 既述の通り、生産システム2では、統合管理装置1Aから送信された生産計画データD1を生産管理装置2Aが受信すると、部品実装機2Bは、生産計画データD1に従って部品搭載基板を生産する。この部品実装機2Bについて、図2を参照しながら説明する。なお、以下では、方向関係についてはXYZ直交座標軸を用いて説明する。X軸方向及びY軸方向は水平面上において互いに直交し、Z軸方向がX軸方向及びY軸方向の両方向と直交する鉛直方向に延びる方向である。
[Detailed configuration of production system]
As described above, in the production system 2, when the production management device 2A receives the production planning data D1 transmitted from the integrated management device 1A, the component mounters 2B produce component-mounted boards according to the production planning data D1. This component mounter 2B will be described with reference to FIG. It should be noted that the directional relationship will be described below using the XYZ orthogonal coordinate axes. The X-axis direction and the Y-axis direction are orthogonal to each other on the horizontal plane, and the Z-axis direction is a direction extending in a vertical direction orthogonal to both the X-axis direction and the Y-axis direction.
 部品実装機2Bは、基板に部品を搭載して部品搭載基板を生産する装置である。部品実装機2Bによる部品の搭載前において基板には、半田ペーストのパターンが印刷されている。部品実装機2Bは、実装機本体21と、搬送コンベア22と、部品供給ユニット23と、ヘッドユニット26とを備える。 The component mounter 2B is a device that mounts components on boards to produce component-mounted boards. A solder paste pattern is printed on the board before the components are mounted by the component mounter 2B. The component mounter 2B includes a mounter body 21, a transport conveyor 22, a component supply unit 23, and a head unit .
 実装機本体21は、部品実装機2Bを構成する各部が配置される内部空間を有する筐体である。搬送コンベア22は、Y軸方向に延び、実装機本体21の内部における略中央領域に配置される。搬送コンベア22は、基板をY軸方向に搬送する。ヘッドユニット26は、搬送コンベア22により搬送された基板に部品を搭載する。ヘッドユニット26は、部品供給ユニット23に配置されるフィーダー25から部品を取出すとともに、その取出した部品を基板に搭載する。ヘッドユニット26には、複数の吸着ノズル261が装着されている。吸着ノズル261は、部品を吸着して保持可能な保持具である。吸着ノズル261は、電動切替弁を介して負圧発生装置、正圧発生装置及び大気の何れかに連通可能とされている。つまり、吸着ノズル261に負圧が供給されることで当該吸着ノズル261による部品の吸着保持が可能となり、その後、正圧が供給されることで当該部品の吸着保持が解除される。 The mounting machine main body 21 is a housing having an internal space in which each part constituting the component mounting machine 2B is arranged. The transport conveyor 22 extends in the Y-axis direction and is arranged in a substantially central area inside the mounter main body 21 . The transport conveyor 22 transports the substrate in the Y-axis direction. The head unit 26 mounts components on the board conveyed by the conveyer 22 . The head unit 26 takes out components from the feeder 25 arranged in the component supply unit 23 and mounts the taken components on the substrate. A plurality of suction nozzles 261 are attached to the head unit 26 . The suction nozzle 261 is a holder that can hold a component by suction. The suction nozzle 261 can communicate with any one of a negative pressure generator, a positive pressure generator, and the atmosphere via an electric switching valve. In other words, when negative pressure is supplied to the suction nozzle 261, the component can be sucked and held by the suction nozzle 261, and then, when the positive pressure is supplied, the component is released from being sucked and held.
 部品供給ユニット23は、実装機本体21におけるX軸方向の端部領域に配置される。部品供給ユニット23は、部品を供給するフィーダー25を挿抜可能に支持する複数の供給支持部24を形成するための上フレーム231、下フレーム232、及び奥側フレーム233を有している。上フレーム231は、X軸方向及びY軸方向に広がる板状のフレームである。上フレーム231は、そのX軸方向の一端側の領域部分が実装機本体21から外方に露出するとともに、X軸方向の他端側の領域部分が実装機本体21の内部に収容されるように、実装機本体21におけるX軸方向の一端部に配置される。下フレーム232は、X軸方向及びY軸方向に広がる板状のフレームであり、上フレーム231に対してZ軸方向の下方側に当該上フレーム231と対向するように配置される。下フレーム232は、実装機本体21の内部に収容されるX軸方向の他端側の領域部分に、Z軸方向の上方側に突出する突出部2321を有している。奥側フレーム233は、Y軸方向及びZ軸方向に広がる板状のフレームであり、実装機本体21の内部において上フレーム231及び下フレーム232のX軸方向他端よりも実装機本体21の中央寄りの位置に配置される。 The component supply unit 23 is arranged in the end region of the mounter main body 21 in the X-axis direction. The component supply unit 23 has an upper frame 231, a lower frame 232, and a back frame 233 for forming a plurality of supply support portions 24 that removably support the feeder 25 that supplies components. The upper frame 231 is a plate-shaped frame extending in the X-axis direction and the Y-axis direction. The upper frame 231 is arranged so that the area portion on one end side in the X-axis direction is exposed to the outside from the mounter main body 21 and the area portion on the other end side in the X-axis direction is accommodated inside the mounter main body 21 . In addition, it is arranged at one end of the mounter main body 21 in the X-axis direction. The lower frame 232 is a plate-shaped frame that extends in the X-axis direction and the Y-axis direction, and is arranged below the upper frame 231 in the Z-axis direction so as to face the upper frame 231 . The lower frame 232 has a protruding portion 2321 protruding upward in the Z-axis direction in a region portion on the other end side in the X-axis direction that is accommodated inside the mounter main body 21 . The far side frame 233 is a plate-like frame that extends in the Y-axis direction and the Z-axis direction, and is located inside the mounter body 21 at the center of the mounter body 21 relative to the other ends of the upper frame 231 and the lower frame 232 in the X-axis direction. placed in a closer position.
 複数の供給支持部24の各々は、部品供給ユニット23においてフィーダー25を挿抜可能に支持する。部品供給ユニット23においては、複数の供給支持部24がY軸方向に並ぶように配列される。このような各供給支持部24にフィーダー25が挿入されることにより、複数のフィーダー25がY軸方向に並んで配置される。 Each of the plurality of supply support parts 24 removably supports the feeder 25 in the component supply unit 23 . In the component supply unit 23, a plurality of supply supports 24 are arranged in the Y-axis direction. A plurality of feeders 25 are arranged side by side in the Y-axis direction by inserting the feeders 25 into the respective supply support portions 24 .
 フィーダー25は、部品を供給する部品供給具である。フィーダー25は、部品を供給可能に構成されていれば、その部品供給方式は特に限定されない。フィーダー25としては、例えば、テープを担体として部品を供給する方式のテープフィーダー、部品が載置されたトレイを移動させることにより部品を供給する方式のトレイフィーダー、筒状のスティックに収納された部品を当該スティックから押し出しながら供給する方式のスティックフィーダーなどを採用することができる。また、複数の部品が集合したバルク状態の部品を収容したバルクカセットが着脱自在に装着されたバルクフィーダーを、フィーダー25として採用しても構わない。 The feeder 25 is a component supply tool that supplies components. As long as the feeder 25 is configured to be able to supply components, its component supply method is not particularly limited. Examples of the feeder 25 include a tape feeder that supplies components using a tape as a carrier, a tray feeder that supplies components by moving a tray on which components are placed, and components stored in a cylindrical stick. It is possible to adopt a stick feeder or the like that feeds while pushing out from the stick. Also, a bulk feeder in which a bulk cassette containing a plurality of parts in a bulk state is detachably attached may be employed as the feeder 25 .
 以下では、フィーダー25としてテープフィーダーを採用した場合について説明する。フィーダー25は、複数の部品を収納可能な部品収納テープPTを送出することにより部品を供給する。部品収納テープPTは、部品を収納する収納部が複数設けられたキャリアテープPT1と、前記収納部を覆うようにキャリアテープPT1に接合されるカバーテープPT2とからなる。フィーダー25は、フィーダー本体251と、リール支持部252と、テープ送出部254と、回収部255とを含む。 A case where a tape feeder is adopted as the feeder 25 will be described below. The feeder 25 supplies components by feeding a component storage tape PT that can store a plurality of components. The component storage tape PT includes a carrier tape PT1 provided with a plurality of storage portions for storing components, and a cover tape PT2 joined to the carrier tape PT1 so as to cover the storage portions. The feeder 25 includes a feeder body 251 , a reel support section 252 , a tape delivery section 254 and a collection section 255 .
 フィーダー本体251には、テープ送出路253が形成されている。テープ送出路253は、部品収納テープPTが送出される経路であり、部品収納テープPTの送出方向の上流端と下流端との間に部品取出し部2531を有している。リール支持部252は、フィーダー本体251においてテープ送出路253の上流端側に配置される。リール支持部252は、部品収納テープPTが巻回されたリールを支持する。 A tape delivery path 253 is formed in the feeder body 251 . The tape delivery path 253 is a path through which the component storage tape PT is delivered, and has a component pick-up portion 2531 between the upstream end and the downstream end in the delivery direction of the component storage tape PT. The reel support portion 252 is arranged on the upstream end side of the tape delivery path 253 in the feeder body 251 . The reel support portion 252 supports a reel around which the component storage tape PT is wound.
 テープ送出部254は、例えばスプロケットから構成されており、テープ送出路253の部品取出し部2531の近傍に配置される。テープ送出部254は、リール支持部252により支持されたリールから部品収納テープPTを繰り出すとともに、その繰り出した部品収納テープPTをテープ送出路253に沿って送出する。テープ送出部254の動作は、制御基板259に搭載された制御回路によって制御される。テープ送出路253に沿って送出される部品収納テープPTでは、部品取出し部2531よりも上流側においてカバーテープPT2がキャリアテープPT1から剥離される。これにより、部品取出し部2531においてキャリアテープPT1上で部品が露出される。キャリアテープPT1上で露出された部品は、ヘッドユニット26による取出しが可能である。つまり、ヘッドユニット26は、フィーダー25によって供給される部品を、部品取出し部2531から取出す。 The tape delivery section 254 is composed of, for example, a sprocket, and is arranged near the component extraction section 2531 of the tape delivery path 253 . The tape delivery section 254 delivers the component storage tape PT from the reel supported by the reel support section 252 and delivers the delivered component storage tape PT along the tape delivery path 253 . The operation of the tape delivery section 254 is controlled by a control circuit mounted on the control board 259 . In the component storage tape PT delivered along the tape delivery path 253, the cover tape PT2 is separated from the carrier tape PT1 on the upstream side of the component extraction portion 2531. FIG. As a result, the component is exposed on the carrier tape PT1 at the component pick-up portion 2531 . The parts exposed on the carrier tape PT1 can be taken out by the head unit 26. FIG. That is, the head unit 26 takes out the component supplied by the feeder 25 from the component take-out section 2531 .
 部品取出し部2531よりも上流側においてキャリアテープPT1から剥離されたカバーテープPT2は、回収部255によって回収される。回収部255は、例えば、互いに当接するローラー対から構成されている。この場合、回収部255は、ローラー対の回転に応じてカバーテープPT2を回収する。回収部255により回収されたカバーテープPT2は、回収ボックス2551内に収容される。 The cover tape PT2 separated from the carrier tape PT1 on the upstream side of the component picking section 2531 is collected by the collecting section 255. The collection unit 255 is composed of, for example, a pair of rollers in contact with each other. In this case, the collecting unit 255 collects the cover tape PT2 according to the rotation of the roller pair. The cover tape PT2 recovered by the recovery section 255 is accommodated in the recovery box 2551 .
 ヘッドユニット26により部品が取出された後のキャリアテープPT1は、テープ送出部254の送出動作によってテープ送出路253の下流端を介してフィーダー25から外方に送出される。フィーダー25から外方に送出されたキャリアテープPT1は、部品供給ユニット23における下フレーム232の突出部2321の近傍に配置されたテープカッター23Aにより所定の長さに切断される。 The carrier tape PT1 after the components have been taken out by the head unit 26 is delivered outward from the feeder 25 through the downstream end of the tape delivery path 253 by the delivery operation of the tape delivery section 254 . The carrier tape PT1 fed outward from the feeder 25 is cut to a predetermined length by a tape cutter 23A arranged near the projecting portion 2321 of the lower frame 232 in the component supply unit 23. FIG.
 また、図2に示されるように、フィーダー25は、上位置決めピン256と、下位置決めピン257と、フィーダー側コネクタ258とを有している。上位置決めピン256及び下位置決めピン257は、フィーダー本体251のX軸方向の一端部から突出するように設けられたピンである。上位置決めピン256と下位置決めピン257とは、フィーダー本体251のX軸方向一端部においてZ軸方向に互いに間隔を隔てて配置され、上位置決めピン256が下位置決めピン257よりも上方側に位置している。フィーダー本体251のX軸方向一端部は、上位置決めピン256及び下位置決めピン257が設けられた部分に対してX軸方向他方側に窪んだ段差部を有している。このフィーダー本体251のX軸方向一端部における段差部に、フィーダー側コネクタ258が設けられている。フィーダー側コネクタ258は、制御基板259と電気的に接続されるコネクタである。 Further, as shown in FIG. 2, the feeder 25 has an upper positioning pin 256, a lower positioning pin 257, and a feeder-side connector 258. The upper positioning pin 256 and the lower positioning pin 257 are pins that protrude from one end of the feeder body 251 in the X-axis direction. The upper positioning pin 256 and the lower positioning pin 257 are arranged at one end of the feeder main body 251 in the X-axis direction with a space therebetween in the Z-axis direction. ing. One end of the feeder body 251 in the X-axis direction has a stepped portion recessed on the other side in the X-axis direction with respect to the portion where the upper positioning pin 256 and the lower positioning pin 257 are provided. A feeder-side connector 258 is provided at a stepped portion at one end of the feeder main body 251 in the X-axis direction. The feeder-side connector 258 is a connector electrically connected to the control board 259 .
 フィーダー25を挿抜可能に支持するための複数の供給支持部24は、部品供給ユニット23における上フレーム231、下フレーム232、及び奥側フレーム233に形成されている。各供給支持部24は、上保持レール241と、下保持レール242と、上ピン挿通孔243と、下ピン挿通孔244と、ユニット側コネクタ245とを含む。 A plurality of supply support portions 24 for detachably supporting the feeder 25 are formed in the upper frame 231 , lower frame 232 and inner frame 233 of the component supply unit 23 . Each supply support portion 24 includes an upper holding rail 241 , a lower holding rail 242 , an upper pin insertion hole 243 , a lower pin insertion hole 244 and a unit side connector 245 .
 上保持レール241は、上フレーム231の下面においてX軸方向に延びるようにY軸方向に並んで複数形成されている。上保持レール241は、フィーダー25の供給支持部24に対する挿抜時の移動の際にフィーダー25の上端をガイドするレール部材である。下保持レール242は、下フレーム232の上面においてX軸方向に延びるようにY軸方向に並んで複数形成されている。下保持レール242は、フィーダー25の供給支持部24に対する挿抜時の移動の際にフィーダー25の下端をガイドするレール部材である。 A plurality of upper holding rails 241 are arranged in the Y-axis direction so as to extend in the X-axis direction on the lower surface of the upper frame 231 . The upper holding rail 241 is a rail member that guides the upper end of the feeder 25 when the feeder 25 is moved to and from the supply support portion 24 . A plurality of lower holding rails 242 are formed on the upper surface of the lower frame 232 so as to extend in the X-axis direction and are aligned in the Y-axis direction. The lower holding rail 242 is a rail member that guides the lower end of the feeder 25 when the feeder 25 is moved to and from the supply support portion 24 .
 上ピン挿通孔243は、奥側フレーム233の上端部においてY軸方向に並んで複数形成される孔である。上ピン挿通孔243は、フィーダー25が供給支持部24に挿入されるときにフィーダー25の上位置決めピン256の挿通を許容する。一方、フィーダー25が供給支持部24から抜出されるときには、上位置決めピン256の上ピン挿通孔243に対する挿通が解除される。下ピン挿通孔244は、奥側フレーム233の下端部においてY軸方向に並んで複数形成される孔である。下ピン挿通孔244は、フィーダー25が供給支持部24に挿入されるときにフィーダー25の下位置決めピン257の挿通を許容する。一方、フィーダー25が供給支持部24から抜出されるときには、下位置決めピン257の下ピン挿通孔244に対する挿通が解除される。フィーダー25は、上位置決めピン256が上ピン挿通孔243に挿通されるとともに、下位置決めピン257が下ピン挿通孔244に挿通されることにより、供給支持部24に対して位置決めされる。 The upper pin insertion hole 243 is a plurality of holes formed side by side in the Y-axis direction at the upper end of the inner frame 233 . The upper pin insertion hole 243 allows the insertion of the upper positioning pin 256 of the feeder 25 when the feeder 25 is inserted into the supply support portion 24 . On the other hand, when the feeder 25 is extracted from the supply support portion 24, the insertion of the upper positioning pin 256 into the upper pin insertion hole 243 is released. A plurality of lower pin insertion holes 244 are formed in the lower end portion of the inner frame 233 so as to be aligned in the Y-axis direction. The lower pin insertion hole 244 allows insertion of the lower positioning pin 257 of the feeder 25 when the feeder 25 is inserted into the supply support portion 24 . On the other hand, when the feeder 25 is extracted from the supply support portion 24, the insertion of the lower positioning pin 257 into the lower pin insertion hole 244 is released. The feeder 25 is positioned with respect to the supply support portion 24 by inserting the upper positioning pin 256 through the upper pin insertion hole 243 and inserting the lower positioning pin 257 through the lower pin insertion hole 244 .
 ユニット側コネクタ245は、下フレーム232の突出部2321においてY軸方向に並んで複数設けられ、部品実装機2Bの制御部と電気的に接続されるコネクタである。ユニット側コネクタ245は、フィーダー25が供給支持部24に挿入されるときにフィーダー25のフィーダー側コネクタ258と接続される。 A plurality of unit-side connectors 245 are arranged side by side in the Y-axis direction on the projecting portion 2321 of the lower frame 232, and are connectors electrically connected to the control unit of the component mounter 2B. The unit-side connector 245 is connected to the feeder-side connector 258 of the feeder 25 when the feeder 25 is inserted into the supply support portion 24 .
 部品実装機2Bにおける部品搭載基板の生産時においては、1枚の基板当たりに複数種の部品が搭載される。更に、基板の種類ごとに搭載される部品の種類が異なる。このため、部品供給ユニット23内には、部品種の異なる複数のフィーダー25が、供給支持部24に支持された状態でY軸方向に配列される。この場合、複数のフィーダー25は、ヘッドユニット26による基板に対する部品の搭載効率に基づいて最適化された配列となるように、部品供給ユニット23内において各供給支持部24に支持される。具体的には、部品供給ユニット23内における複数のフィーダー25の配列は、基板に対する部品の搭載時にヘッドユニット26の移動量がなるべく小さくなるように設定される。 When producing component-mounted boards in the component mounter 2B, multiple types of components are mounted on each board. Furthermore, the types of components to be mounted are different for each type of board. Therefore, in the component supply unit 23 , a plurality of feeders 25 of different component types are arranged in the Y-axis direction while being supported by the supply support section 24 . In this case, the plurality of feeders 25 are supported by the supply support portions 24 in the component supply unit 23 so as to have an optimized arrangement based on the mounting efficiency of the components on the substrate by the head unit 26 . Specifically, the arrangement of the plurality of feeders 25 in the component supply unit 23 is set so that the amount of movement of the head unit 26 is minimized when components are mounted on the substrate.
 [部品交換システムの詳細構成]
 既述の通り、部品交換システム3では、統合管理装置1Aから送信された補給計画データD3を保管管理装置4A及び交換管理装置5Aが受信する。補給計画データD3は、部品実装機2Bの部品供給ユニット23に対するフィーダー25の補給計画を示すデータである。図1に示されるように、補給計画データD3は、部品種情報D31と、供給支持部位置情報D32と、補給完了時刻情報D33とが関連付けられたデータである。部品種情報D31は、部品供給ユニット23の各供給支持部24に支持された複数のフィーダー25のうち、部品切れ等により回収が必要になると予測される回収対象のフィーダー25に収容される部品の種類を示す情報である。供給支持部位置情報D32は、部品供給ユニット23内の複数の供給支持部24のうち、回収対象のフィーダー25を支持する回収元の供給支持部24の位置を示す情報である。補給完了時刻情報D33は、回収元の供給支持部24から回収対象のフィーダー25を回収するとともに、当該回収元の供給支持部24に対する補給対象のフィーダー25の補給を完了する目標時刻を示す情報である。補給完了時刻情報D33で示される目標時刻は、例えば、回収対象のフィーダー25に部品切れ等が生じる予測時刻の1時間前の時刻に設定される。
[Detailed configuration of parts replacement system]
As described above, in the parts replacement system 3, the storage management device 4A and the replacement management device 5A receive the replenishment plan data D3 transmitted from the integrated management device 1A. The replenishment plan data D3 is data indicating a replenishment plan of the feeder 25 for the component supply unit 23 of the component mounter 2B. As shown in FIG. 1, the replenishment plan data D3 is data in which part type information D31, supply support portion position information D32, and replenishment completion time information D33 are associated with each other. The part type information D31 indicates the number of parts contained in the feeder 25 to be collected that is expected to require collection due to running out of parts among the plurality of feeders 25 supported by the supply support portions 24 of the part supply unit 23. This is information indicating the type. The supply support portion position information D32 is information indicating the position of the supply support portion 24 of the collection source that supports the feeder 25 to be collected among the plurality of supply support portions 24 in the component supply unit 23 . The replenishment completion time information D33 is information indicating a target time for recovering the feeder 25 to be recovered from the supply support portion 24 of the recovery source and completing the replenishment of the feeder 25 to be replenished to the supply support portion 24 of the recovery source. be. The target time indicated by the replenishment completion time information D33 is set, for example, to the time one hour before the predicted time at which the feeder 25 to be collected will run out of parts.
 図3に示されるように、保管管理装置4Aは、保管装置4とデータ通信可能に接続される。保管装置4は、部品実装機2BからX軸方向に離れた位置に配置され、部品実装機2Bに対する補給用のフィーダー25を保管する装置である。保管装置4は、保管装置本体41と、保管ユニット42と、を備える。保管装置本体41は、保管ユニット42が配置される内部空間を有する筐体である。保管ユニット42は、保管装置本体41内に配置される複数の保管支持部421を有する。複数の保管支持部421は、X軸方向に延びるレールによって構成され、Y軸方向に並ぶように配列される。複数の保管支持部421は、部品種の異なる複数のフィーダー25を挿抜可能に支持する。保管ユニット42では、各保管支持部421にフィーダー25が挿入されることにより、複数のフィーダー25がY軸方向に並んで配置される。 As shown in FIG. 3, the storage management device 4A is connected to the storage device 4 so that data communication is possible. The storage device 4 is arranged at a position away from the component mounter 2B in the X-axis direction, and is a device that stores the feeder 25 for supplying the component mounter 2B. The storage device 4 includes a storage device body 41 and a storage unit 42 . The storage device main body 41 is a housing having an internal space in which the storage unit 42 is arranged. The storage unit 42 has a plurality of storage supports 421 arranged inside the storage device main body 41 . A plurality of storage supports 421 are configured by rails extending in the X-axis direction and arranged side by side in the Y-axis direction. A plurality of storage support portions 421 support a plurality of feeders 25 of different component types in an insertable and removable manner. In the storage unit 42 , a plurality of feeders 25 are arranged side by side in the Y-axis direction by inserting the feeders 25 into the respective storage support portions 421 .
 図3に示される例では、7つの保管支持部421a~421gが、保管ユニット42におけるY軸方向の一端から他端に向かって順番に並んで配列されている。保管ユニット42における各保管支持部421a~421gへのフィーダー25の挿入は、作業者によって行われる。保管ユニット42では、7つの保管支持部421a~421gのうち、5つの保管支持部421a~421eが部品種の異なるフィーダー25をそれぞれ支持し、Y軸方向の他端側の特定領域422内の保管支持部421f,421gがフィーダー25を支持していない支持部である。 In the example shown in FIG. 3, seven storage support parts 421a to 421g are arranged in order from one end to the other end of the storage unit 42 in the Y-axis direction. Insertion of the feeder 25 into each of the storage supports 421a to 421g in the storage unit 42 is performed by an operator. In the storage unit 42, of the seven storage support sections 421a to 421g, five storage support sections 421a to 421e support the feeders 25 of different component types, respectively, and store them in a specific area 422 on the other end side in the Y-axis direction. The support portions 421f and 421g are support portions that do not support the feeder 25 .
 保管管理装置4Aは、統合管理装置1Aから送信された補給計画データD3に基づいて、図3に示される保管管理データD4を生成する。保管管理データD4は、保管装置4の保管ユニット42内におけるフィーダー25の保管状況を管理するためのデータである。保管管理データD4は、作業完了時刻情報D41と、保管配列データD42とが関連付けられたデータである。作業完了時刻情報D41は、保管ユニット42の各保管支持部421a~421gに補給用のフィーダー25を挿入するという、作業者による作業を完了する目標時刻を示す情報である。作業完了時刻情報D41で示される目標時刻は、例えば、補給計画データD3に含まれる補給完了時刻情報D33で示される目標時刻の1時間前の時刻に設定される。 The storage management device 4A generates storage management data D4 shown in FIG. 3 based on the replenishment plan data D3 transmitted from the integrated management device 1A. The storage management data D4 is data for managing the storage status of the feeder 25 in the storage unit 42 of the storage device 4. FIG. The storage management data D4 is data in which work completion time information D41 and storage arrangement data D42 are associated. The work completion time information D41 is information indicating the target time for the worker to complete the work of inserting the supply feeders 25 into the storage support portions 421a to 421g of the storage unit . The target time indicated by the work completion time information D41 is set, for example, to the time one hour before the target time indicated by the replenishment completion time information D33 included in the replenishment plan data D3.
 保管配列データD42は、保管ユニット42内において各保管支持部421a~421gに支持されて保管される補給用のフィーダー25の配列を示すデータである。保管配列データD42は、部品種情報D421と、フィーダー識別情報D422と、保管支持部位置情報D423とが関連付けられたデータである。部品種情報D421は、補給用のフィーダー25に収容される部品の種類を示す情報である。保管配列データD42に含まれる部品種情報D421で示される部品種は、補給計画データD3に含まれる部品種情報D31で示される部品種と一致している。フィーダー識別情報D422は、各保管支持部421a~421gに支持される補給用のフィーダー25を識別するための情報である。保管支持部位置情報D423は、補給用のフィーダー25を支持する保管支持部421a~421gの保管ユニット42内における位置を示す情報である。 The storage arrangement data D42 is data indicating the arrangement of the supply feeders 25 that are stored in the storage unit 42 while being supported by the storage support portions 421a to 421g. The storage arrangement data D42 is data in which component type information D421, feeder identification information D422, and storage support portion position information D423 are associated with each other. The component type information D421 is information indicating the types of components stored in the feeder 25 for replenishment. The part type indicated by the part type information D421 included in the storage arrangement data D42 matches the part type indicated by the part type information D31 included in the replenishment plan data D3. The feeder identification information D422 is information for identifying the supply feeders 25 supported by the storage support portions 421a to 421g. The storage support portion position information D423 is information indicating the positions in the storage unit 42 of the storage support portions 421a to 421g that support the feeder 25 for supply.
 保管管理装置4Aにより保管管理データD4が生成されると、作業者は、部品種情報D421で示される部品種の部品を収容し、フィーダー識別情報D422で識別されるフィーダー25を準備する。そして、作業者は、作業完了時刻情報D41で示される目標時刻に間に合うように、複数の保管支持部421a~421gのうちの保管支持部位置情報D423で示される位置の保管支持部421に、準備したフィーダー25を挿入する作業を行う。なお、作業者は、準備したフィーダー25を、保管ユニット42内の任意の位置の保管支持部421に挿入する作業を行ってもよい。この場合、作業者によって各保管支持部421a~421gにフィーダー25が挿入されると、保管支持部位置情報D423が保管配列データD42に登録される。 When the storage management data D4 is generated by the storage management device 4A, the worker stores the parts of the part type indicated by the part type information D421 and prepares the feeder 25 identified by the feeder identification information D422. In order to meet the target time indicated by the work completion time information D41, the worker prepares the storage support 421 at the position indicated by the storage support position information D423 among the plurality of storage supports 421a to 421g. Then, the work of inserting the feeder 25 is performed. The operator may insert the prepared feeder 25 into the storage support portion 421 at an arbitrary position in the storage unit 42 . In this case, when the operator inserts the feeder 25 into each of the storage supports 421a to 421g, the storage support position information D423 is registered in the storage arrangement data D42.
 図3に示される例では、保管ユニット42において、保管支持部421aがフィーダー25Cを支持し、保管支持部421bがフィーダー25Aを支持し、保管支持部421cがフィーダー25Bを支持し、保管支持部421dがフィーダー25Dを支持し、保管支持部421eがフィーダー25Eを支持している。そして、保管ユニット42におけるY軸方向の他端側の特定領域422内の保管支持部421f,421gは、フィーダー25を支持していない。 In the example shown in FIG. 3, in the storage unit 42, the storage support 421a supports the feeder 25C, the storage support 421b supports the feeder 25A, the storage support 421c supports the feeder 25B, and the storage support 421d supports the feeder 25B. supports feeder 25D, and storage support 421e supports feeder 25E. The storage support portions 421 f and 421 g in the specific area 422 on the other end side of the storage unit 42 in the Y-axis direction do not support the feeder 25 .
 なお、部品交換システム3においては、保管管理装置4Aが保管装置4に組み込まれていてもよい。すなわち、保管装置4は、保管装置本体41内に配置される保管ユニット42と、保管管理装置4Aと、を備えていてもよい。 Note that in the parts replacement system 3 , the storage management device 4A may be incorporated in the storage device 4 . That is, the storage device 4 may include a storage unit 42 arranged within the storage device body 41 and a storage management device 4A.
 図4に示されるように、交換管理装置5Aは、部品交換装置5とデータ通信可能に接続される。部品交換装置5は、保管装置4と部品実装機2Bとの間の領域内を走行可能な作業ロボットである。部品交換装置5は、保管装置4に対向する位置に配置された状態で、保管ユニット42の各保管支持部421a~421gから補給用のフィーダー25を抜出して内部に取り込む作業を行う。また、部品交換装置5は、部品実装機2Bに対向する位置に配置された状態で、部品供給ユニット23において回収対象のフィーダー25を支持する回収元の供給支持部24からフィーダー25を抜出して内部に回収する作業を行うとともに、回収元の供給支持部24に補給対象のフィーダー25を挿入して補給する作業を行う。 As shown in FIG. 4, the replacement management device 5A is connected to the parts replacement device 5 for data communication. The component replacement device 5 is a working robot that can travel within the area between the storage device 4 and the component mounter 2B. The component replacement device 5, which is arranged at a position facing the storage device 4, extracts the supply feeders 25 from the storage support portions 421a to 421g of the storage unit 42 and takes them inside. Further, the component replacement device 5 extracts the feeder 25 from the supply support portion 24 of the collection source that supports the feeder 25 to be collected in the component supply unit 23 in a state of being arranged at a position facing the component mounter 2B, and At the same time, the work of inserting the feeder 25 to be replenished into the supply support portion 24 of the collection source and replenishing is performed.
 部品交換装置5は、交換装置本体51と、動作ユニット52と、を備える。交換装置本体51は、動作ユニット52が配置される内部空間を有する筐体である。動作ユニット52は、移動台53と、アーム部54と、ハンド部55と、を含む。なお、動作ユニット52は、移動台53、アーム部54及びハンド部55を移動させるためのボールねじ機構などの移動機構と、当該移動機構の駆動源となる駆動モータと、当該駆動モータの駆動を制御する制御基板と、を含むユニットである。 The parts replacement device 5 includes a replacement device main body 51 and an operation unit 52 . The exchange device main body 51 is a housing having an internal space in which the operation unit 52 is arranged. The motion unit 52 includes a mobile base 53 , an arm section 54 and a hand section 55 . The operation unit 52 includes a moving mechanism such as a ball screw mechanism for moving the moving table 53, the arm portion 54, and the hand portion 55, a driving motor serving as a driving source for the moving mechanism, and driving the driving motor. and a control board for controlling.
 移動台53は、X軸方向及びY軸方向に広がる板状の形状を有し、その上面に複数の交換支持部531が設けられている。複数の交換支持部531は、X軸方向に延びるレールによって構成され、Y軸方向に並ぶように移動台53上に配列される。複数の交換支持部531は、部品供給ユニット23の供給支持部24との間、及び、保管ユニット42の保管支持部421との間で交換されるフィーダー25を挿抜可能に支持する。移動台53では、各交換支持部531にフィーダー25が挿入されることにより、複数のフィーダー25がY軸方向に並んで配置される。図4に示される例では、6つの交換支持部531a~531fが、移動台53におけるY軸方向の一端から他端に向かって順番に並んで配列されている。移動台53は、交換装置本体51内において、複数の交換支持部531a~531fの配列方向となるY軸方向に、所定の許容移動範囲532の範囲内で移動可能である。 The moving table 53 has a plate-like shape extending in the X-axis direction and the Y-axis direction, and has a plurality of replacement support parts 531 provided on its upper surface. A plurality of exchange support portions 531 are configured by rails extending in the X-axis direction, and are arranged on the moving table 53 so as to be aligned in the Y-axis direction. The plurality of replacement support portions 531 detachably support the feeder 25 to be replaced with the supply support portion 24 of the component supply unit 23 and with the storage support portion 421 of the storage unit 42 . In the moving table 53, a plurality of feeders 25 are arranged side by side in the Y-axis direction by inserting the feeders 25 into the respective replacement support portions 531. As shown in FIG. In the example shown in FIG. 4, six replacement support parts 531a to 531f are arranged in order from one end to the other end of the moving table 53 in the Y-axis direction. The movable table 53 is movable within a predetermined allowable movement range 532 in the Y-axis direction, which is the arrangement direction of the plurality of exchange support portions 531a to 531f, within the exchange device main body 51. FIG.
 アーム部54は、交換装置本体51内における移動台53の上方の空間を、複数の交換支持部531a~531fの配列方向となるY軸方向に移動可能である。ハンド部55は、アーム部54に移動可能に取り付けられ、フィーダー25を把持することが可能な把持体である。ハンド部55は、アーム部54に対して、複数の交換支持部531a~531fが延びるX軸方向に移動可能である。ハンド部55は、交換装置本体51内における移動台53の上方の空間を、アーム部54の移動に伴ってY軸方向に移動するとともに、アーム部54に対してX軸方向に移動する。ハンド部55は、フィーダー25を把持した状態でアーム部54に対してX軸方向に移動することにより、移動台53上の各交換支持部531a~531fに対してフィーダー25が挿抜されるように、フィーダー25を移動させる。 The arm part 54 can move in the space above the moving table 53 in the exchange device main body 51 in the Y-axis direction, which is the arrangement direction of the plurality of exchange support parts 531a to 531f. The hand section 55 is a gripping body that is movably attached to the arm section 54 and capable of gripping the feeder 25 . The hand portion 55 is movable with respect to the arm portion 54 in the X-axis direction along which the plurality of exchange support portions 531a to 531f extend. The hand unit 55 moves in the Y-axis direction with the movement of the arm unit 54 and moves in the X-axis direction with respect to the arm unit 54 in the space above the carriage 53 in the exchange device main body 51 . The hand unit 55 moves in the X-axis direction with respect to the arm unit 54 while gripping the feeder 25 so that the feeder 25 is inserted into and removed from each of the replacement support units 531a to 531f on the moving table 53. , to move the feeder 25 .
 部品交換装置5が保管装置4に対向する位置に配置されることにより、動作ユニット52が保管ユニット42に対して対向配置された状態では、移動台53は、保管ユニット42から移動台53への移載対象のフィーダー25を支持した移載元の保管支持部421に、移載対象のフィーダー25の移載先となる移載先の交換支持部531が対向するように、所定の許容移動範囲532の範囲内でY軸方向に移動する。アーム部54は、移載先の交換支持部531の上方にハンド部55が位置するように、Y軸方向に移動する。そして、ハンド部55は、移載対象のフィーダー25を把持した状態でX軸方向に沿って保管装置4側から部品交換装置5側へ移動する。この場合、移載対象のフィーダー25は、保管ユニット42内の移載元の保管支持部421から抜出されて、移動台53上の移載先の交換支持部531に移動して挿入される。移動台53、アーム部54及びハンド部55の移動が順次繰り返されることにより、部品種の異なる複数種の補給対象のフィーダー25が、移動台53上にY軸方向に並んで配列される。 By arranging the parts replacement device 5 at a position facing the storage device 4 , in a state in which the operation unit 52 is arranged to face the storage unit 42 , the transfer table 53 can move from the storage unit 42 to the transfer table 53 . A predetermined allowable movement range is set so that the exchange support portion 531 of the transfer destination, which is the transfer destination of the feeder 25 to be transferred, faces the storage support portion 421 of the transfer source that supports the feeder 25 to be transferred. It moves in the Y-axis direction within the range of 532. The arm portion 54 moves in the Y-axis direction so that the hand portion 55 is positioned above the exchange support portion 531 of the transfer destination. Then, the hand unit 55 moves from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25 to be transferred. In this case, the feeder 25 to be transferred is extracted from the transfer source storage support portion 421 in the storage unit 42 and is moved and inserted into the transfer destination exchange support portion 531 on the moving platform 53 . . By sequentially repeating the movement of the moving table 53 , the arm portion 54 and the hand portion 55 , a plurality of types of feeders 25 to be replenished with different component types are arranged side by side on the moving table 53 in the Y-axis direction.
 部品交換装置5が部品実装機2Bに対向する位置に配置されることにより、動作ユニット52が部品供給ユニット23に対して対向配置された状態では、移動台53は、部品供給ユニット23から移動台53への回収対象のフィーダー25を支持した回収元の供給支持部24に、回収対象のフィーダー25の回収先となる回収先の交換支持部531が対向するように、所定の許容移動範囲532の範囲内でY軸方向に移動する。アーム部54は、回収先の交換支持部531の上方にハンド部55が位置するように、Y軸方向に移動する。そして、ハンド部55は、回収対象のフィーダー25を把持した状態でX軸方向に沿って部品実装機2B側から部品交換装置5側へ移動する。この場合、回収対象のフィーダー25は、部品供給ユニット23内の回収元の供給支持部24から抜出されて、移動台53上の回収先の交換支持部531に移動して挿入される。これにより、部品供給ユニット23内の回収対象のフィーダー25が、移動台53上に回収される。 When the operation unit 52 is arranged to face the component supply unit 23 by arranging the component replacement device 5 at a position facing the component mounter 2B, the moving table 53 is moved from the component supplying unit 23 to the moving table. A predetermined allowable movement range 532 is set so that the replacement support portion 531 of the recovery destination, which is the recovery destination of the feeder 25 to be recovered, faces the supply support portion 24 of the recovery source that supports the feeder 25 to be recovered to 53 . Moves in the Y-axis direction within range. The arm portion 54 moves in the Y-axis direction so that the hand portion 55 is positioned above the replacement support portion 531 of the recovery destination. Then, the hand unit 55 moves from the component mounter 2B side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25 to be collected. In this case, the feeder 25 to be collected is extracted from the supply support portion 24 of the collection source in the component supply unit 23 , moved to and inserted into the exchange support portion 531 of the collection destination on the moving table 53 . As a result, the feeder 25 to be collected in the component supply unit 23 is collected onto the moving table 53 .
 また、移動台53は、移動台53から部品供給ユニット23内の回収元の供給支持部24への補給対象のフィーダー25を支持した補給元の交換支持部531が回収元の供給支持部24に対向するように、所定の許容移動範囲532の範囲内でY軸方向に移動する。アーム部54は、補給元の交換支持部531の上方にハンド部55が位置するように、Y軸方向に移動する。そして、ハンド部55は、補給対象のフィーダー25を把持した状態でX軸方向に沿って部品交換装置5側から部品実装機2B側へ移動する。この場合、補給対象のフィーダー25は、移動台53上の補給元の交換支持部531から抜出されて、部品供給ユニット23内の回収元の供給支持部24に移動して挿入される。これにより、移動台53上の補給対象のフィーダー25が、回収対象のフィーダー25と交換されるように、部品供給ユニット23内に補給される。 In addition, the moving table 53 has a supply source replacement support section 531 supporting the feeder 25 to be supplied from the moving table 53 to the recovery source supply support section 24 in the component supply unit 23 . They move in the Y-axis direction within a predetermined allowable movement range 532 so as to face each other. The arm portion 54 moves in the Y-axis direction so that the hand portion 55 is positioned above the replacement support portion 531 of the supply source. Then, the hand unit 55 moves from the component replacing device 5 side to the component mounter 2B side along the X-axis direction while gripping the feeder 25 to be replenished. In this case, the feeder 25 to be replenished is pulled out from the replenishment source replacement support portion 531 on the moving table 53 , moved to and inserted into the recovery source supply support portion 24 in the component supply unit 23 . As a result, the component supply unit 23 is replenished so that the feeder 25 to be replenished on the moving table 53 is replaced with the feeder 25 to be collected.
 図4に示されるように、部品交換装置5は、検出ユニット56と、報知ユニット57とを更に備える。検出ユニット56は、ハンド部55の移動に応じて移動台53上の各交換支持部531a~531fに挿入されたフィーダー25を検出するユニットである。検出ユニット56は、フィーダー25を識別するためのフィーダー識別情報を検出する。報知ユニット57は、交換装置本体51の外面に取り付けられ、各種情報を報知するユニットである。 As shown in FIG. 4, the parts replacement device 5 further includes a detection unit 56 and a notification unit 57. The detection unit 56 is a unit that detects the feeder 25 inserted into each of the replacement support portions 531a to 531f on the moving table 53 as the hand portion 55 moves. A detection unit 56 detects feeder identification information for identifying the feeder 25 . The notification unit 57 is attached to the outer surface of the exchange device main body 51 and is a unit that notifies various types of information.
 交換管理装置5Aは、部品交換装置5の動作を管理する装置である。交換管理装置5Aは、制御ユニット5A1と、記憶ユニット5A2とを含む。制御ユニット5A1は、統合管理装置1Aから送信された補給計画データD3に基づいて、図4に示される交換管理データD5を生成する。制御ユニット5A1により生成された交換管理データD5は、記憶ユニット5A2に記憶される。 The replacement management device 5A is a device that manages the operation of the parts replacement device 5. The exchange management device 5A includes a control unit 5A1 and a storage unit 5A2. The control unit 5A1 generates replacement management data D5 shown in FIG. 4 based on the replenishment plan data D3 transmitted from the integrated management device 1A. The exchange management data D5 generated by the control unit 5A1 is stored in the storage unit 5A2.
 交換管理データD5は、部品交換装置5の動作ユニット52の動作を管理するためのデータである。交換管理データD5は、交換完了時刻情報D51と、供給支持部位置情報D52と、移動台配列データD53とが関連付けられたデータである。 The replacement management data D5 is data for managing the operation of the operation unit 52 of the parts replacement device 5. The replacement management data D5 is data in which replacement completion time information D51, supply support portion position information D52, and moving table arrangement data D53 are associated with each other.
 交換完了時刻情報D51は、複数の補給対象のフィーダー25を移動台53上に配列させるとともに、部品供給ユニット23から回収対象のフィーダー25を移動台53上に回収し、移動台53上の補給対象のフィーダー25を部品供給ユニット23に補給するという、動作ユニット52の動作を完了する目標時刻を示す情報である。交換完了時刻情報D51で示される目標時刻は、補給計画データD3に含まれる補給完了時刻情報D33で示される目標時刻を中心とした所定の許容範囲内に収まる時刻に設定される。 The replacement completion time information D51 arranges a plurality of feeders 25 to be replenished on the carriage 53, collects the feeders 25 to be collected from the parts supply unit 23 onto the carriage 53, and supplies the feeders 25 to be replenished on the carriage 53. This is information indicating the target time for completing the operation of the operation unit 52 to replenish the component supply unit 23 with the feeder 25 of . The target time indicated by the replacement completion time information D51 is set to a time within a predetermined allowable range around the target time indicated by the replenishment completion time information D33 included in the replenishment plan data D3.
 供給支持部位置情報D52は、部品供給ユニット23における回収対象のフィーダー25を支持する回収元の供給支持部24の位置を示す情報である。供給支持部位置情報D52で示される位置は、補給計画データD3に含まれる供給支持部位置情報D32で示される位置と一致している。 The supply support portion position information D52 is information indicating the position of the supply support portion 24 of the collection source that supports the feeder 25 to be collected in the component supply unit 23 . The position indicated by the supply support portion position information D52 matches the position indicated by the supply support portion position information D32 included in the replenishment plan data D3.
 移動台配列データD53は、移動台53上における複数種の補給対象のフィーダー25の配列を示すデータである。移動台配列データD53は、部品種情報D531と、フィーダー識別情報D532と、交換支持部位置情報D533とが関連付けられたデータである。部品種情報D531は、保管ユニット42から移動台53上に移載される移載対象のフィーダー25であって、移動台53上への移載後に部品供給ユニット23に補給される補給対象のフィーダー25に収容される部品の種類を示す情報である。移動台配列データD53に含まれる部品種情報D531で示される部品種は、補給計画データD3に含まれる部品種情報D31で示される部品種と一致している。フィーダー識別情報D532は、保管ユニット42から移動台53上に移載される移載対象のフィーダー25であって、移動台53上への移載後に部品供給ユニット23に補給される補給対象のフィーダー25を識別するための情報である。交換支持部位置情報D533は、保管ユニット42から移動台53上に移載される移載対象のフィーダー25であって、移動台53上への移載後に部品供給ユニット23に補給される補給対象のフィーダー25を支持する補給元の交換支持部531の、移動台53上における位置を示す情報である。 The carriage arrangement data D53 is data indicating the arrangement of the feeders 25 to be replenished of multiple types on the carriage 53 . The carriage arrangement data D53 is data in which component type information D531, feeder identification information D532, and replacement support portion position information D533 are associated with each other. The component type information D531 indicates the feeder 25 to be transferred from the storage unit 42 onto the moving table 53, and the feeder to be replenished to the component supply unit 23 after being transferred onto the moving table 53. 25 is information indicating the types of parts accommodated in 25. FIG. The part type indicated by the part type information D531 included in the carriage arrangement data D53 matches the part type indicated by the part type information D31 included in the replenishment plan data D3. The feeder identification information D532 is the feeder 25 to be transferred from the storage unit 42 onto the carriage 53 and the feeder to be replenished to the component supply unit 23 after being transferred onto the carriage 53. This is information for identifying V.25. The replacement support portion position information D533 is the feeder 25 to be transferred from the storage unit 42 onto the moving table 53, and the supply target to be supplied to the component supply unit 23 after being transferred onto the moving table 53. This is information indicating the position on the moving table 53 of the replacement support portion 531 of the replenishment source that supports the feeder 25 of the replenishment source.
 制御ユニット5A1は、交換完了時刻情報D51で示す目標時刻が補給完了時刻情報D33で示される時刻に対して許容範囲内に収まることを考慮しながら、移動台53上における補給対象のフィーダー25の配列が、移動台53と部品供給ユニット23との間でのフィーダー25の交換効率に基づいて最適化された配列となるように、移動台配列データD53を生成する。この場合、移動台配列データD53で示される補給対象のフィーダー25の配列は、交換完了時刻情報D51で示す目標時刻が許容範囲内に収まるとともに、移動台53と部品供給ユニット23との間でフィーダー25の交換を行う際の移動台53の移動量が、所定の目標範囲に収まってなるべく小さくなるような配列となる。 The control unit 5A1 arranges the feeders 25 to be replenished on the carriage 53 while considering that the target time indicated by the replacement completion time information D51 falls within the allowable range with respect to the time indicated by the replenishment completion time information D33. is optimized based on the exchange efficiency of the feeders 25 between the carriage 53 and the component supply unit 23, the carriage arrangement data D53 is generated. In this case, the arrangement of the feeders 25 to be replenished indicated by the carriage arrangement data D53 is such that the target time indicated by the replacement completion time information D51 falls within the allowable range, and the feeders 25 between the carriage 53 and the component supply unit 23 are arranged. The arrangement is such that the amount of movement of the carriage 53 when exchanging 25 falls within a predetermined target range and becomes as small as possible.
 制御ユニット5A1は、例えば、以下の手順に従って移動台配列データD53を生成する。まず、制御ユニット5A1は、保管管理データD4に基づいて保管ユニット42におけるフィーダー25の配列を確認するとともに、検出ユニット56の検出結果に基づいて移動台53上におけるフィーダー25の配列を確認する。また、制御ユニット5A1は、補給計画データD3に基づいて、部品供給ユニット23における回収対象のフィーダー25の部品種及び数を確認する。これにより、制御ユニット5A1は、補給対象のフィーダー25に対応する部品種情報D531及びフィーダー識別情報D532を特定する。 The control unit 5A1 generates moving table arrangement data D53, for example, according to the following procedure. First, the control unit 5A1 confirms the arrangement of the feeders 25 in the storage unit 42 based on the storage management data D4, and also confirms the arrangement of the feeders 25 on the carriage 53 based on the detection result of the detection unit 56. FIG. Further, the control unit 5A1 confirms the type and number of parts of the feeder 25 to be collected in the parts supply unit 23 based on the replenishment plan data D3. Thereby, the control unit 5A1 identifies the component type information D531 and the feeder identification information D532 corresponding to the feeder 25 to be replenished.
 次に、制御ユニット5A1は、補給計画データD3に基づいて、部品供給ユニット23において回収対象のフィーダー25を支持する回収元の供給支持部24の位置を確認する。そして、制御ユニット5A1は、交換完了時刻情報D51で示す目標時刻が補給完了時刻情報D33で示される時刻に対して許容範囲内に収まることを考慮しながら、移動台53の移動量が目標範囲内に収まってなるべく小さくなるように、複数の補給対象のフィーダー25を回収対象のフィーダー25と交換して補給するときの補給順を設定する。この場合、複数の補給対象のフィーダー25の補給順は、補給完了時刻情報D33で示される目標時刻の早い順と、必ずしも一致しない。つまり、複数の補給対象のフィーダー25の補給順は、回収対象のフィーダー25に部品切れ等が生じる予測時刻の早い順と、必ずしも一致しない。 Next, based on the supply plan data D3, the control unit 5A1 confirms the position of the supply support part 24 of the collection source that supports the feeder 25 to be collected in the component supply unit 23. Then, the control unit 5A1 considers that the target time indicated by the replacement completion time information D51 is within the allowable range with respect to the time indicated by the replenishment completion time information D33, and the amount of movement of the carriage 53 is within the target range. The replenishment order is set when replenishing by exchanging a plurality of feeders 25 to be replenished with feeders 25 to be collected so as to be as small as possible. In this case, the replenishment order of the plurality of replenishment target feeders 25 does not necessarily match the earliest target time indicated by the replenishment completion time information D33. In other words, the supply order of the plurality of feeders 25 to be replenished does not necessarily coincide with the earliest predicted time at which the feeders 25 to be collected will run out of parts or the like.
 例えば、部品供給ユニット23において、部品切れ等が生じる予測時刻の早い順の順位が1番目のフィーダー25と2番目のフィーダー25との間に3番目のフィーダー25が配置されている場合を想定する。この場合、補給対象のフィーダー25の補給順を、部品切れ等が生じる予測時刻の早い順に設定すると、1番目のフィーダー25に対応した補給の後に2番目のフィーダー25に対応して補給するときには、移動台53は、3番目のフィーダー25の位置を通り過ぎて2番目のフィーダー25の位置に移動することになる。このため、移動台53の移動量が大きくなってしまう。そこで、制御ユニット5A1は、移動台53の移動量が小さくなるように、補給対象のフィーダー25の補給順を、1番目のフィーダー25、3番目のフィーダー25、2番目のフィーダー25の順に設定する。 For example, in the component supply unit 23, it is assumed that the third feeder 25 is arranged between the first feeder 25 and the second feeder 25 in descending order of predicted time when components will run out. . In this case, if the supply order of the feeders 25 to be replenished is set in the order of the predicted time when parts will run out, etc., when the second feeder 25 is replenished after the supply corresponding to the first feeder 25, The carriage 53 passes the position of the third feeder 25 and moves to the position of the second feeder 25 . Therefore, the amount of movement of the moving table 53 becomes large. Therefore, the control unit 5A1 sets the replenishment order of the feeders 25 to be replenished in the order of the first feeder 25, the third feeder 25, and the second feeder 25 so that the amount of movement of the carriage 53 becomes small. .
 次に、制御ユニット5A1は、移動台53上の複数の交換支持部531a~531fについて、補給対象のフィーダー25を支持せずに回収対象のフィーダー25を回収するための回収先の交換支持部531と、補給対象のフィーダー25を支持する補給元の交換支持部531と、を設定する。この際、制御ユニット5A1は、回収対象のフィーダー25の数が移動台53上の交換支持部531a~531fの数の半分以下であるか否かに応じて、回収先及び補給元の各々の交換支持部531の位置を設定する。 Next, the control unit 5A1 controls the plurality of exchange support portions 531a to 531f on the moving table 53 to select the exchange support portion 531 as a recovery destination for recovering the feeder 25 to be recovered without supporting the feeder 25 to be replenished. , and a supply source replacement support portion 531 that supports the feeder 25 to be supplied. At this time, the control unit 5A1 replaces the recovery destination and the supply source depending on whether or not the number of feeders 25 to be recovered is less than half the number of the replacement support portions 531a to 531f on the moving table 53. The position of the support portion 531 is set.
 回収対象のフィーダー25の数が移動台53上の交換支持部531a~531fの数の半分を超える場合、図4の第1例に示されるように、制御ユニット5A1は、移動台53上においてY軸方向で最も一方側の交換支持部531aを回収先の支持部として設定し、交換支持部531aに対してY軸方向の他方側に配置された交換支持部531b~531fを補給対象のフィーダー25A~25Eを支持する補給元の支持部として設定する。この際、制御ユニット5A1は、複数の補給対象のフィーダー25A~25EがY軸方向の一方から他方に向かって補給順に並ぶように、各補給対象のフィーダー25A~25Eに対応した補給元の交換支持部531b~531fの位置を設定する。これにより、制御ユニット5A1は、回収先の交換支持部531aの位置と、補給対象のフィーダー25A~25Eを支持する補給元の交換支持部531b~531fの位置と、を示す交換支持部位置情報D533を特定する。 When the number of feeders 25 to be collected exceeds half the number of replacement support portions 531a to 531f on the moving table 53, the control unit 5A1 moves Y on the moving table 53 as shown in the first example of FIG. The exchange support portion 531a on the farthest one side in the axial direction is set as the support portion of the recovery destination, and the exchange support portions 531b to 531f arranged on the other side in the Y-axis direction with respect to the exchange support portion 531a are used as the feeder 25A to be replenished. It is set as the support part of the replenishment source that supports ∼25E. At this time, the control unit 5A1 supports replacement of the supply source corresponding to each of the feeders 25A to 25E to be supplied so that the plurality of feeders 25A to 25E to be supplied are arranged in order of supply from one side to the other in the Y-axis direction. The positions of the portions 531b to 531f are set. As a result, the control unit 5A1 obtains the exchange support portion position information D533 indicating the position of the exchange support portion 531a of the recovery destination and the positions of the exchange support portions 531b to 531f of the replenishment source that support the feeders 25A to 25E to be replenished. identify.
 一方、回収対象のフィーダー25の数が移動台53上の交換支持部531a~531fの数の半分以下の場合、図4の第2例に示されるように、制御ユニット5A1は、移動台53上において、回収先の交換支持部531a,531c,531eと、補給対象のフィーダー25A~25Cを支持する補給元の交換支持部531b,531d,531fとが、Y軸方向に交互に並ぶように設定する。この際、制御ユニット5A1は、複数の補給対象のフィーダー25A~25CがY軸方向の一方から他方に向かって補給順に並ぶように、各補給対象のフィーダー25A~25Cに対応した補給元の交換支持部531b,531d,531fの位置を設定する。これにより、制御ユニット5A1は、回収先の交換支持部531a,531c,531eの位置と、補給対象のフィーダー25A~25Cを支持する補給元の交換支持部531b,531d,531fの位置と、を示す交換支持部位置情報D533を特定する。 On the other hand, when the number of feeders 25 to be collected is half or less than the number of exchange support portions 531a to 531f on the moving table 53, the control unit 5A1 operates on the moving table 53, as shown in the second example of FIG. , the replacement support portions 531a, 531c, and 531e of the collection destinations and the replacement support portions 531b, 531d, and 531f of the replenishment sources that support the feeders 25A to 25C to be replenished are arranged alternately in the Y-axis direction. . At this time, the control unit 5A1 supports replacement of the supply source corresponding to each of the feeders 25A to 25C to be supplied so that the plurality of feeders 25A to 25C to be supplied are arranged in order of supply from one side to the other in the Y-axis direction. The positions of the portions 531b, 531d and 531f are set. As a result, the control unit 5A1 indicates the positions of the exchange support portions 531a, 531c, and 531e of the collection destinations and the positions of the exchange support portions 531b, 531d, and 531f of the supply sources that support the feeders 25A to 25C to be supplied. Identify the replacement support portion position information D533.
 制御ユニット5A1は、上記のように特定した部品種情報D531、フィーダー識別情報D532、及び交換支持部位置情報D533に基づいて、移動台53上における補給対象のフィーダー25の配列を示す移動台配列データD53を生成することができる。 Based on the component type information D531, the feeder identification information D532, and the replacement support portion position information D533 specified as described above, the control unit 5A1 generates carriage arrangement data indicating the arrangement of the feeders 25 to be replenished on the carriage 53. D53 can be generated.
 なお、部品交換システム3においては、制御ユニット5A1を含む交換管理装置5Aが部品交換装置5に組み込まれていてもよい。すなわち、部品交換装置5は、交換装置本体51内に配置される動作ユニット52と、検出ユニット56と、報知ユニット57と、交換管理装置5Aと、を備えていてもよい。 In the parts replacement system 3, the replacement management device 5A including the control unit 5A1 may be incorporated in the parts replacement device 5. That is, the parts replacement device 5 may include an operation unit 52, a detection unit 56, a notification unit 57, and a replacement management device 5A, which are arranged in the replacement device main body 51. FIG.
 [制御ユニットによる動作ユニットの制御について]
 制御ユニット5A1は、保管管理データD4に含まれる保管配列データD42と、移動台配列データD53を含む交換管理データD5とに基づいて、部品交換装置5の動作ユニット52の動作を制御する。制御ユニット5A1は、保管配列データD42及び交換管理データD5に基づく制御信号を動作ユニット52の制御基板に送ることにより、動作ユニット52の移動台53、アーム部54及びハンド部55を移動させる。
[Regarding the control of the operation unit by the control unit]
The control unit 5A1 controls the operation of the operation unit 52 of the parts exchange apparatus 5 based on the storage arrangement data D42 included in the storage management data D4 and the exchange management data D5 including the moving table arrangement data D53. The control unit 5A1 moves the carriage 53, the arm section 54 and the hand section 55 of the operation unit 52 by sending control signals based on the storage arrangement data D42 and the exchange management data D5 to the control board of the operation unit 52. FIG.
 (配列処理)
 部品交換装置5が保管装置4に対向する位置に配置されることにより、動作ユニット52が保管ユニット42に対して対向配置された状態では、制御ユニット5A1は、保管ユニット42内の移載対象のフィーダー25を移動台53上に移動させて、移動台53上に補給対象のフィーダー25を配列させる配列処理を行う。この配列処理について、図5~図9を参照しながら説明する。なお、図5~図9に示される配列処理は、移動台53上の補給対象のフィーダー25の配列が図4の第1例に示される配列となるような移動台配列データD53に基づく処理である。
(array processing)
When the operation unit 52 is arranged to face the storage unit 42 by arranging the parts replacement device 5 at a position facing the storage device 4, the control unit 5A1 can control the object to be transferred in the storage unit 42. The feeder 25 is moved onto the moving table 53, and an arrangement process of arranging the feeders 25 to be replenished on the moving table 53 is performed. This arrangement processing will be described with reference to FIGS. 5 to 9. FIG. The arrangement processing shown in FIGS. 5 to 9 is processing based on the carriage arrangement data D53 such that the arrangement of the feeders 25 to be replenished on the carriage 53 becomes the arrangement shown in the first example of FIG. be.
 制御ユニット5A1は、保管配列データD42に基づいて、保管ユニット42における移載対象のフィーダー25A~25Eを支持する移載元の保管支持部421a~421eの位置を確認する。また、制御ユニット5A1は、移動台配列データD53に基づいて、各移載対象のフィーダー25A~25Eに対応した移動台53上における移載先の交換支持部531b~531fの位置を確認する。そして、制御ユニット5A1は、保管ユニット42における移載元の保管支持部421a~421eに支持された移載対象のフィーダー25A~25Eが移動台53上における移載先の交換支持部531b~531fに移動し、移動台53上におけるフィーダー25A~25Eの配列が移動台配列データD53で示される配列となるように、移動台53、アーム部54及びハンド部55を移動させる。 Based on the storage arrangement data D42, the control unit 5A1 confirms the positions of the transfer source storage support parts 421a to 421e that support the transfer target feeders 25A to 25E in the storage unit . Further, the control unit 5A1 confirms the positions of the transfer-destination replacement support portions 531b to 531f on the transfer table 53 corresponding to the respective transfer target feeders 25A to 25E, based on the transfer table arrangement data D53. Then, the control unit 5A1 causes the transfer target feeders 25A to 25E supported by the transfer source storage support portions 421a to 421e in the storage unit 42 to be transferred to the transfer destination exchange support portions 531b to 531f on the moving table 53. The moving table 53, the arm section 54, and the hand section 55 are moved so that the arrangement of the feeders 25A to 25E on the moving table 53 becomes the arrangement indicated by the moving table arrangement data D53.
 この際、制御ユニット5A1は、保管ユニット42内の移載対象のフィーダー25A~25Eのうち、図5に示される特定フィーダー移動処理の処理対象のフィーダー25が存在するか否かを判断する。図5の例では、保管ユニット42内の保管支持部421aに支持された移載対象のフィーダー25Cが、特定フィーダー移動処理の処理対象のフィーダー25である。移動台53を許容移動範囲532内で移動させたときに、保管ユニット42における移載対象のフィーダー25Cを支持した移載元の保管支持部421aに移動台53上の移載先の交換支持部531dが対向しない場合、制御ユニット5A1は、特定フィーダー移動処理を行う。特定フィーダー移動処理において、制御ユニット5A1は、移載対象のフィーダー25Cが移載元の保管支持部421aから交換支持部531aを経由して特定領域422内の保管支持部421fに移動するように、移動台53、アーム部54及びハンド部55を移動させる。制御ユニット5A1は、移動台53の移動範囲に制限が設けられていることに起因して移載先の交換支持部531dを移載元の保管支持部421aに対向させる移動台53の移動が不可能である場合に、移載対象のフィーダー25Cを、移載元の保管支持部421aから交換支持部531aを経由して特定領域422内の保管支持部421fに移動させる。 At this time, the control unit 5A1 determines whether or not there is a feeder 25 targeted for the specific feeder movement process shown in FIG. In the example of FIG. 5, the feeder 25C to be transferred supported by the storage support portion 421a in the storage unit 42 is the feeder 25 to be processed in the specific feeder movement process. When the movable table 53 is moved within the allowable movement range 532, the exchange support section of the transfer destination on the movable table 53 is attached to the storage support section 421a of the transfer source that supported the feeder 25C to be transferred in the storage unit 42. When 531d does not face, the control unit 5A1 performs specific feeder movement processing. In the specific feeder movement process, the control unit 5A1 moves the feeder 25C to be transferred from the transfer source storage support 421a to the storage support 421f in the specific area 422 via the replacement support 531a. The moving table 53, the arm portion 54 and the hand portion 55 are moved. The control unit 5A1 makes it impossible to move the transfer table 53 so that the exchange support section 531d of the transfer destination is opposed to the storage support section 421a of the transfer source due to the restriction on the movement range of the transfer table 53. If possible, the transfer target feeder 25C is moved from the transfer source storage support 421a to the storage support 421f in the specific area 422 via the replacement support 531a.
 具体的には、制御ユニット5A1は、移載対象のフィーダー25Cを支持した移載元の保管支持部421aに交換支持部531aが対向するように、許容移動範囲532の範囲内で移動台53をY軸方向に移動させる。次に、制御ユニット5A1は、交換支持部531aの上方にハンド部55が位置するように、アーム部54をY軸方向に移動させる。そして、制御ユニット5A1は、ハンド部55を、移載対象のフィーダー25Cを把持した状態でX軸方向に沿って保管装置4側から部品交換装置5側へ移動させる。これにより、移載対象のフィーダー25Cは、保管ユニット42内の移載元の保管支持部421aから抜出されて、移動台53上の交換支持部531aに移動して挿入される。 Specifically, the control unit 5A1 moves the moving table 53 within the allowable movement range 532 so that the exchange support portion 531a faces the transfer source storage support portion 421a that supports the transfer target feeder 25C. Move in the Y-axis direction. Next, the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531a. Then, the control unit 5A1 moves the hand portion 55 from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25C to be transferred. As a result, the feeder 25C to be transferred is extracted from the transfer source storage support portion 421a in the storage unit 42, moved to the exchange support portion 531a on the moving table 53, and inserted.
 次に、制御ユニット5A1は、移載対象のフィーダー25Cを支持した交換支持部531aが特定領域422内の保管支持部421fに対向するように、許容移動範囲532の範囲内で移動台53をY軸方向に移動させる。次に、制御ユニット5A1は、保管支持部421fに対向する位置に移動された交換支持部531aの上方にハンド部55が位置するように、アーム部54をY軸方向に移動させる。そして、制御ユニット5A1は、ハンド部55を、移載対象のフィーダー25Cを把持した状態でX軸方向に沿って部品交換装置5側から保管装置4側へ移動させる。これにより、移載対象のフィーダー25Cは、移動台53上の交換支持部531aから抜出されて、保管ユニット42の特定領域422内の保管支持部421fに移動して挿入される。 Next, the control unit 5A1 moves the moving table 53 by Y within the allowable movement range 532 so that the replacement support 531a supporting the feeder 25C to be transferred faces the storage support 421f in the specific area 422. Move axially. Next, the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531a moved to the position facing the storage support section 421f. Then, the control unit 5A1 moves the hand portion 55 from the part replacement device 5 side to the storage device 4 side along the X-axis direction while gripping the feeder 25C to be transferred. As a result, the feeder 25C to be transferred is extracted from the replacement support portion 531a on the moving table 53, moved to the storage support portion 421f in the specific area 422 of the storage unit 42, and inserted.
 特定フィーダー移動処理が完了すると、制御ユニット5A1は、移動台53上におけるフィーダー25A~25Eの配列が移動台配列データD53で示される配列となるまで、図6~図8に示される第1配列移動処理と第2配列移動処理とを繰り返す。 When the specific feeder movement processing is completed, the control unit 5A1 moves the first array movement shown in FIGS. The process and the second array movement process are repeated.
 制御ユニット5A1は、第1配列移動処理において、移載対象のフィーダー25Aを支持した移載元の保管支持部421bに移載先の交換支持部531bが対向するように、許容移動範囲532の範囲内で移動台53をY軸方向に移動させる。次に、制御ユニット5A1は、第2配列移動処理において、移載先の交換支持部531bの上方にハンド部55が位置するように、アーム部54をY軸方向に移動させる。そして、制御ユニット5A1は、ハンド部55を、移載対象のフィーダー25Aを把持した状態でX軸方向に沿って保管装置4側から部品交換装置5側へ移動させる。これにより、移載対象のフィーダー25Aは、保管ユニット42内の移載元の保管支持部421bから抜出されて、移動台53上の移載先の交換支持部531bに移動して挿入される。 In the first arrangement movement process, the control unit 5A1 adjusts the allowable movement range 532 so that the exchange support section 531b of the transfer destination faces the storage support section 421b of the transfer source that supported the feeder 25A to be transferred. Inside, the moving table 53 is moved in the Y-axis direction. Next, in the second arrangement movement process, the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the exchange support section 531b of the transfer destination. Then, the control unit 5A1 moves the hand portion 55 from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25A to be transferred. As a result, the feeder 25A to be transferred is extracted from the transfer source storage support portion 421b in the storage unit 42, and is moved and inserted into the transfer destination replacement support portion 531b on the moving table 53. .
 制御ユニット5A1は、移載対象のフィーダー25Bについても上記のフィーダー25Aの場合と同様に、第1配列移動処理と第2配列移動処理とを行う。これにより、移載対象のフィーダー25Bは、保管ユニット42内の移載元の保管支持部421cから抜出されて、移動台53上の移載先の交換支持部531cに移動して挿入される。 The control unit 5A1 also performs the first arrangement movement process and the second arrangement movement process for the feeder 25B to be transferred in the same manner as the feeder 25A described above. As a result, the feeder 25B to be transferred is extracted from the transfer source storage support portion 421c in the storage unit 42, and is moved and inserted into the transfer destination exchange support portion 531c on the carriage 53. .
 制御ユニット5A1は、保管ユニット42の特定領域422内の保管支持部421fに移動された移載対象のフィーダー25Cについては、以下に示す第1配列移動処理と第2配列移動処理とを行う。制御ユニット5A1は、第1配列移動処理において、移載対象のフィーダー25Cを支持した特定領域422内の保管支持部421fに移載先の交換支持部531dが対向するように、許容移動範囲532の範囲内で移動台53をY軸方向に移動させる。次に、制御ユニット5A1は、第2配列移動処理において、移載先の交換支持部531dの上方にハンド部55が位置するように、アーム部54をY軸方向に移動させる。そして、制御ユニット5A1は、ハンド部55を、移載対象のフィーダー25Cを把持した状態でX軸方向に沿って保管装置4側から部品交換装置5側へ移動させる。これにより、移載対象のフィーダー25Cは、保管ユニット42の特定領域422内の保管支持部421fから抜出されて、移動台53上の移載先の交換支持部531dに移動して挿入される。 The control unit 5A1 performs the following first arrangement movement processing and second arrangement movement processing for the transfer target feeder 25C that has been moved to the storage support portion 421f in the specific area 422 of the storage unit 42. In the first array movement process, the control unit 5A1 adjusts the allowable movement range 532 so that the transfer destination exchange support section 531d faces the storage support section 421f in the specific area 422 supporting the transfer target feeder 25C. The moving table 53 is moved in the Y-axis direction within the range. Next, in the second arrangement movement process, the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the exchange support section 531d of the transfer destination. Then, the control unit 5A1 moves the hand portion 55 from the storage device 4 side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25C to be transferred. As a result, the feeder 25C to be transferred is extracted from the storage support portion 421f in the specific area 422 of the storage unit 42, and is moved and inserted into the transfer destination exchange support portion 531d on the moving table 53. .
 制御ユニット5A1は、移載対象のフィーダー25D,25Eについても上記のフィーダー25A,25Bの場合と同様に、第1配列移動処理と第2配列移動処理とを行う。これにより、移載対象のフィーダー25D,25Eは、保管ユニット42内の移載元の保管支持部421d,421eから抜出されて、移動台53上の移載先の交換支持部531e,531fに移動して挿入される。 The control unit 5A1 also performs the first array movement process and the second array movement process for the feeders 25D and 25E to be transferred in the same manner as the feeders 25A and 25B described above. As a result, the feeders 25D and 25E to be transferred are extracted from the transfer source storage support portions 421d and 421e in the storage unit 42, and transferred to the transfer destination exchange support portions 531e and 531f on the carriage 53. Moved and inserted.
 制御ユニット5A1の第1配列移動処理及び第2配列移動処理によって、移載対象のフィーダー25A~25Eは、保管ユニット42の移載元の保管支持部421a~421eから抜出されて、移動台53上の移載先の交換支持部531b~531fに移動して挿入される。制御ユニット5A1による第1配列移動処理及び第2配列移動処理が、複数の移載対象のフィーダー25A~25Eのそれぞれに対応して繰り返し行われることにより、移動台53上におけるフィーダー25A~25Eの配列を移動台配列データD53で示される配列とすることができる。 The feeders 25A to 25E to be transferred are extracted from the storage support portions 421a to 421e of the transfer source of the storage unit 42 by the first arrangement movement processing and the second arrangement movement processing of the control unit 5A1, and the transfer table 53 It is moved and inserted into the replacement support portions 531b to 531f of the upper transfer destination. The first arrangement movement process and the second arrangement movement process by the control unit 5A1 are repeatedly performed corresponding to each of the plurality of feeders 25A to 25E to be transferred, thereby arranging the feeders 25A to 25E on the moving table 53. can be the arrangement indicated by the moving table arrangement data D53.
 以上説明した通り、制御ユニット5A1は、保管ユニット42の保管支持部421から移動台53の交換支持部531へフィーダー25を移動させて移動台53上に配列させる配列処理において、移動台53上におけるフィーダー25の配列が移動台配列データD53で示される配列となるように、移動台53、アーム部54及びハンド部55を移動させる。移動台配列データD53は、部品供給ユニット23の供給支持部24と移動台53の交換支持部531との間でフィーダー25を交換させる際の移動台53の移動量が、目標範囲に収まってなるべく小さくなるように設定された、移動台53上のフィーダー25の配列を示すデータである。このため、移動台配列データD53に従って複数のフィーダー25が移動台53上に配列された状態において、部品供給ユニット23と移動台53との間でフィーダー25の交換が行われるときには、移動台53の移動量を目標範囲に収めることができる。これにより、部品供給ユニット23と移動台53との間におけるフィーダー25の交換の交換効率を高めることが可能となる。 As described above, the control unit 5A1 moves the feeders 25 from the storage support portion 421 of the storage unit 42 to the replacement support portion 531 of the moving table 53 and arranges them on the moving table 53. The carriage 53, the arm section 54, and the hand section 55 are moved so that the arrangement of the feeders 25 becomes the arrangement indicated by the carriage arrangement data D53. The movement table arrangement data D53 is such that the amount of movement of the movement table 53 when exchanging the feeders 25 between the supply support section 24 of the component supply unit 23 and the exchange support section 531 of the movement table 53 is within the target range as much as possible. This data indicates the arrangement of the feeders 25 on the moving table 53, which is set to be small. Therefore, when a plurality of feeders 25 are arranged on the moving table 53 according to the moving table arrangement data D53, when the feeders 25 are exchanged between the component supply unit 23 and the moving table 53, the moving table 53 The amount of movement can be kept within the target range. This makes it possible to improve the exchange efficiency of the feeder 25 exchange between the component supply unit 23 and the moving table 53 .
 また、図9に示されるように、制御ユニット5A1の第2配列移動処理が行われているときに、検出ユニット56は、移動台53上の移載先の交換支持部531fに移載されたフィーダー25Xを検出する。この場合、制御ユニット5A1は、検出ユニット56により検出されたフィーダー25Xが移動台配列データD53に基づく移載先の交換支持部531fに配置すべきフィーダー25Eと一致するか否かを判断する。一致しない場合、制御ユニット5A1は、エラー情報SS1の報知を指令するエラー指令信号S1を報知ユニット57に出力する。報知ユニット57は、制御ユニット5A1から出力されるエラー指令信号S1に基づいて、エラー情報SS1を報知することができる。 Further, as shown in FIG. 9, while the control unit 5A1 is performing the second arrangement movement process, the detection unit 56 is transferred to the exchange support portion 531f of the transfer destination on the moving table 53. Detect feeder 25X. In this case, the control unit 5A1 determines whether or not the feeder 25X detected by the detection unit 56 matches the feeder 25E to be arranged on the exchange support portion 531f of the transfer destination based on the moving table arrangement data D53. If they do not match, the control unit 5A1 outputs an error command signal S1 to the notification unit 57 to command notification of the error information SS1. The notification unit 57 can notify the error information SS1 based on the error command signal S1 output from the control unit 5A1.
 制御ユニット5A1は、エラー指令信号S1を出力した場合、当該エラー指令信号S1に対応したフィーダー25Xが移動台53上の交換支持部531fから保管ユニット42内の移載元の保管支持部421eに移動するように、ハンド部55を移動させる。この場合、エラー指令信号S1に対応したフィーダー25Xが移動台53から保管ユニット42に戻される。これにより、移動台53上におけるフィーダー25の配列が、移動台配列データD53とは異なる配列になることを抑制できる。 When the control unit 5A1 outputs the error command signal S1, the feeder 25X corresponding to the error command signal S1 moves from the replacement support portion 531f on the moving table 53 to the transfer source storage support portion 421e in the storage unit 42. The hand part 55 is moved so as to move. In this case, the feeder 25X corresponding to the error command signal S1 is returned from the moving table 53 to the storage unit . Accordingly, it is possible to prevent the arrangement of the feeders 25 on the carriage 53 from being different from the arrangement of the carriage arrangement data D53.
 また、制御ユニット5A1は、エラー指令信号S1を出力した場合、当該エラー指令信号S1に対応したフィーダー25Xを、部品供給ユニット23と移動台53との間でフィーダー25の交換が行われる後述の交換処理の処理対象から除外する。具体的には、制御ユニット5A1は、交換管理データD5において、エラー指令信号S1に対応したフィーダー25Xに関する部品種情報D531及びフィーダー識別情報D532を削除する。この場合、エラー指令信号S1に対応したフィーダー25Xが、部品供給ユニット23と移動台53との間でフィーダー25の交換が行われる交換処理の処理対象から除外される。これにより、エラー指令信号S1に対応したフィーダー25Xが、部品供給ユニット23に補給されることを抑制できる。 In addition, when the control unit 5A1 outputs the error command signal S1, the control unit 5A1 replaces the feeder 25X corresponding to the error command signal S1 with an exchange described later, in which the feeder 25 is exchanged between the component supply unit 23 and the carriage 53. Exclude from the processing target of processing. Specifically, the control unit 5A1 deletes the part type information D531 and the feeder identification information D532 regarding the feeder 25X corresponding to the error command signal S1 from the replacement management data D5. In this case, the feeder 25X corresponding to the error command signal S1 is excluded from the processing target of the exchange process in which the feeder 25 is exchanged between the component supply unit 23 and the moving table 53. FIG. As a result, it is possible to prevent the feeder 25X corresponding to the error command signal S1 from being supplied to the component supply unit 23. FIG.
 また、制御ユニット5A1は、エラー指令信号S1を出力した場合、当該エラー指令信号S1に対応したフィーダー25Xに代わるフィーダー25Eの準備を要求する代替準備要求信号S2を出力する。制御ユニット5A1から出力された代替準備要求信号S2は、統合管理装置1Aに入力される。統合管理装置1Aは、代替準備要求信号S2の入力に応じて、補給計画データD3を更新するとともに、代替準備指令信号S3を保管管理装置4Aに送信する。代替準備指令信号S3は、代替準備要求信号S2で示される代替のフィーダー25Eの準備を指令する信号である。保管管理装置4Aは、代替準備指令信号S3を受信すると、例えば、代替のフィーダー25Eの準備が必要であることを示す情報を報知する。これにより、例えば、作業者は、エラー指令信号S1に対応したフィーダー25Xに代わるフィーダー25Eを準備し、その準備したフィーダー25Eを保管ユニット42に補充することができる。 Also, when the control unit 5A1 outputs the error command signal S1, it outputs a replacement preparation request signal S2 requesting preparation of the feeder 25E to replace the feeder 25X corresponding to the error command signal S1. The alternative preparation request signal S2 output from the control unit 5A1 is input to the integrated management device 1A. The integrated management device 1A updates the replenishment plan data D3 in response to the input of the alternative preparation request signal S2, and transmits the alternative preparation command signal S3 to the storage management device 4A. The alternate preparation command signal S3 is a signal that commands preparation of the alternate feeder 25E indicated by the alternate preparation request signal S2. When the storage management device 4A receives the substitute preparation command signal S3, it notifies, for example, information indicating that preparation of the substitute feeder 25E is necessary. As a result, for example, the operator can prepare the feeder 25E to replace the feeder 25X corresponding to the error command signal S1, and replenish the storage unit 42 with the prepared feeder 25E.
 なお、制御ユニット5A1は、代替準備要求信号S2を出力しなくてもよい。この場合には、例えば、作業者は、報知ユニット57により報知されるエラー情報SS1に基づいて、エラー指令信号S1に対応したフィーダー25Xに代わるフィーダー25Eを準備し、その準備したフィーダー25Eを保管ユニット42に補充することができる。 It should be noted that the control unit 5A1 does not have to output the alternative preparation request signal S2. In this case, for example, the operator prepares the feeder 25E to replace the feeder 25X corresponding to the error command signal S1 based on the error information SS1 notified by the notification unit 57, and stores the prepared feeder 25E in the storage unit. 42 can be supplemented.
 (交換処理)
 部品交換装置5が部品実装機2Bに対向する位置に配置されることにより、動作ユニット52が部品供給ユニット23に対して対向配置された状態では、制御ユニット5A1は、交換処理を行う。交換処理において、制御ユニット5A1は、交換管理データD5に基づいて、部品供給ユニット23と移動台53との間でフィーダー25が移動して交換されるように、移動台53、アーム部54及びハンド部55を移動させる。交換処理において、制御ユニット5A1は、交換管理データD5に含まれる移動台配列データD53で示される移動台53上の補給対象のフィーダー25の配列の順、すなわち、補給順に従って、部品供給ユニット23と移動台53との間でフィーダー25が交換されるように、移動台53、アーム部54及びハンド部55を移動させる。この交換処理について、図10及び図11を参照しながら説明する。なお、図10及び図11では、部品供給ユニット23から移動台53への回収対象のフィーダー25Aを、ハッチングを付して示している。
(exchange process)
The control unit 5A1 performs the replacement process in a state in which the operation unit 52 is arranged to face the component supply unit 23 by arranging the component replacement device 5 at a position facing the component mounter 2B. In the replacement process, based on the replacement management data D5, the control unit 5A1 moves the feeder 25 between the component supply unit 23 and the transfer table 53 for replacement. The part 55 is moved. In the replacement process, the control unit 5A1 replaces the component supply unit 23 with the component supply unit 23 according to the arrangement order of the feeders 25 to be replenished on the carriage 53 indicated by the carriage arrangement data D53 included in the replacement management data D5, that is, according to the replenishment order. The moving table 53 , the arm portion 54 and the hand portion 55 are moved so that the feeder 25 is exchanged with the moving table 53 . This exchange process will be described with reference to FIGS. 10 and 11. FIG. 10 and 11, the feeder 25A to be collected from the component supply unit 23 to the moving table 53 is hatched.
 制御ユニット5A1は、交換管理データD5に含まれる供給支持部位置情報D52に基づいて、部品供給ユニット23における回収対象のフィーダー25Aを支持する回収元の供給支持部24bの位置を確認する。また、制御ユニット5A1は、移動台配列データD53に基づいて、回収対象のフィーダー25Aの回収に応じて補給する補給対象のフィーダー25Aの移動台53上における補給元の交換支持部531bの位置を確認する。制御ユニット5A1は、交換処理において、図10に示される回収処理と、図11に示される補給処理とを繰り返し行う。 The control unit 5A1 confirms the position of the recovery source supply support part 24b that supports the recovery target feeder 25A in the component supply unit 23 based on the supply support part position information D52 included in the replacement management data D5. Further, the control unit 5A1 confirms the position of the exchange support portion 531b of the replenishment source on the carriage 53 of the feeder 25A to be replenished according to the recovery of the feeder 25A to be replenished, based on the carriage arrangement data D53. do. In the replacement process, the control unit 5A1 repeatedly performs the recovery process shown in FIG. 10 and the replenishment process shown in FIG.
 制御ユニット5A1は、回収処理において、第1回収移動処理と第2回収移動処理とを行う。制御ユニット5A1は、第1回収移動処理において、回収対象のフィーダー25Aを支持した回収元の供給支持部24bに回収先の交換支持部531aが対向するように、許容移動範囲532の範囲内で移動台53をY軸方向に移動させる。次に、制御ユニット5A1は、第2回収移動処理において、回収先の交換支持部531aの上方にハンド部55が位置するように、アーム部54をY軸方向に移動させる。そして、制御ユニット5A1は、ハンド部55を、回収対象のフィーダー25Aを把持した状態でX軸方向に沿って部品実装機2B側から部品交換装置5側へ移動させる。これにより、回収対象のフィーダー25Aは、部品供給ユニット23内の回収元の供給支持部24bから抜出されて、移動台53上の回収先の交換支持部531aに移動して回収される。 The control unit 5A1 performs a first recovery movement process and a second recovery movement process in the collection process. In the first recovery movement process, the control unit 5A1 moves within the allowable movement range 532 so that the replacement support portion 531a of the recovery destination faces the supply support portion 24b of the recovery source that supports the feeder 25A to be recovered. The platform 53 is moved in the Y-axis direction. Next, in the second recovery movement process, the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531a of the recovery destination. Then, the control unit 5A1 moves the hand portion 55 from the component mounter 2B side to the component replacement device 5 side along the X-axis direction while gripping the feeder 25A to be collected. As a result, the feeder 25A to be collected is extracted from the supply support portion 24b of the collection source in the component supply unit 23, moved to the exchange support portion 531a of the collection destination on the moving table 53, and collected.
 制御ユニット5A1は、補給処理において、第1補給移動処理と第2補給移動処理とを行う。制御ユニット5A1は、第1補給移動処理において、補給対象のフィーダー25Aを支持した補給元の交換支持部531bが補給先となる回収元の供給支持部24bに対向するように、許容移動範囲532の範囲内で移動台53をY軸方向に移動させる。次に、制御ユニット5A1は、第2補給移動処理において、補給元の交換支持部531bの上方にハンド部55が位置するように、アーム部54をY軸方向に移動させる。そして、制御ユニット5A1は、ハンド部55を、補給対象のフィーダー25Aを把持した状態でX軸方向に沿って部品交換装置5側から部品実装機2B側へ移動させる。これにより、補給対象のフィーダー25Aは、移動台53上の補給元の交換支持部531bから抜出されて、部品供給ユニット23内の回収元の供給支持部24bに移動して補給される。 The control unit 5A1 performs a first replenishment movement process and a second replenishment movement process in the replenishment process. In the first replenishment movement process, the control unit 5A1 adjusts the allowable movement range 532 so that the replenishment source replacement support portion 531b that supports the replenishment target feeder 25A faces the recovery source supply support portion 24b that is the replenishment destination. The moving table 53 is moved in the Y-axis direction within the range. Next, in the second replenishment movement process, the control unit 5A1 moves the arm section 54 in the Y-axis direction so that the hand section 55 is positioned above the replacement support section 531b of the replenishment source. Then, the control unit 5A1 moves the hand portion 55 from the component replacing device 5 side to the component mounter 2B side along the X-axis direction while gripping the feeder 25A to be replenished. As a result, the feeder 25A to be replenished is extracted from the replenishment source exchange support portion 531b on the moving table 53, moved to the recovery source supply support portion 24b in the component supply unit 23, and replenished.
 部品実装システム1では、部品交換システム3によって部品供給ユニット23と移動台53との間におけるフィーダー25の交換の交換効率が高められる。この場合、部品切れ等の生じた回収対象のフィーダー25Aが部品供給ユニット23から効率よく回収されるとともに、当該回収に応じて補給対象のフィーダー25Aが部品供給ユニット23に効率よく補給される。 In the component mounting system 1, the replacement efficiency of the feeder 25 exchange between the component supply unit 23 and the moving table 53 is enhanced by the component replacement system 3. In this case, the feeder 25A to be collected that has run out of components or the like is efficiently collected from the component supply unit 23, and the feeder 25A to be replenished is efficiently replenished to the component supply unit 23 according to the collection.
 なお、上述した具体的実施形態には以下の構成を有する発明が主に含まれている。 It should be noted that the above-described specific embodiments mainly include inventions having the following configurations.
 本発明の一の局面に係る部品交換システムは、基板に搭載される部品を供給する部品供給具を支持する複数の供給支持部が所定方向に配列された部品供給ユニットから前記部品供給具を回収することに応じて、前記部品供給ユニットに前記部品供給具を補給するシステムである。この部品交換システムは、部品種の異なる複数の前記部品供給具を支持して保管する複数の保管支持部が所定方向に配列された保管ユニットと、前記供給支持部との間、及び前記保管支持部との間で交換される前記部品供給具を支持する複数の交換支持部が所定方向に配列され、前記複数の交換支持部の配列方向に移動可能な移動台と、前記部品供給具を把持するとともに前記移動台に対して移動することにより前記部品供給具を移動させる把持体と、を含む動作ユニットと、前記動作ユニットを制御する制御ユニットと、を備える。前記制御ユニットは、前記動作ユニットが前記部品供給ユニットに対して対向配置された状態では、前記複数の供給支持部と前記複数の交換支持部との間で前記部品供給具が移動して交換されるように、前記移動台及び前記把持体を移動させる交換処理を行う。また、前記制御ユニットは、前記動作ユニットが前記保管ユニットに対して対向配置された状態では、前記交換処理の前処理として、前記複数の保管支持部に支持された複数種の前記部品供給具が前記複数の交換支持部に移動し、前記移動台上での複数種の前記部品供給具の配列が、前記交換処理における前記移動台の移動量を目標範囲に収めるために予め設定された配列データで示される配列となるように、前記移動台及び前記把持体を移動させる配列処理を行う。 A component replacement system according to one aspect of the present invention collects a component supply tool from a component supply unit in which a plurality of supply support units supporting the component supply tool for supplying components to be mounted on a board are arranged in a predetermined direction. The system replenishes the component supply tool to the component supply unit according to the operation. This parts exchange system includes a storage unit in which a plurality of storage support parts for supporting and storing a plurality of parts supply tools of different types are arranged in a predetermined direction, a supply support part, and a storage support. a plurality of exchange supporting parts for supporting the component supply tool exchanged between the parts and the parts are arranged in a predetermined direction; and a gripper for moving the component supply tool by moving with respect to the moving table; and a control unit for controlling the operation unit. The control unit moves and replaces the component supply tool between the plurality of supply support portions and the plurality of replacement support portions in a state in which the operation unit is arranged to face the component supply unit. Exchange processing is performed to move the moving table and the gripper as shown in FIG. In addition, in a state in which the operation unit is arranged to face the storage unit, the control unit performs preprocessing for the replacement processing, such that the plurality of types of the component supply tools supported by the plurality of storage support portions are displaced. Arrangement data set in advance for arranging the plurality of types of component supply tools on the moving table so that the amount of movement of the moving table in the replacing process is within a target range. An arrangement process is performed to move the moving table and the gripper so that the arrangement shown by .
 上記の部品交換システムによれば、制御ユニットは、保管ユニットの保管支持部から移動台の交換支持部へ部品供給具を移動させて移動台上に配列させる配列処理において、移動台上における部品供給具の配列が配列データで示される配列となるように、移動台及び把持体を移動させる。配列データは、部品供給ユニットの供給支持部と移動台の交換支持部との間で部品供給具を交換させる交換処理における移動台の移動量が、目標範囲に収まるように設定された、移動台上の部品供給具の配列を示すデータである。このため、配列データに従って複数の部品供給具が移動台上に配列された状態において、部品供給ユニットと移動台との間で部品供給具の交換が行われるときには、移動台の移動量を目標範囲に収めることができる。これにより、部品供給ユニットと移動台との間における部品供給具の交換の交換効率を高めることが可能となる。 According to the above-described parts replacement system, the control unit moves the component supply tools from the storage support section of the storage unit to the replacement support section of the transfer table and arranges them on the transfer table. The movable table and the gripper are moved so that the arrangement of the tools becomes the arrangement indicated by the arrangement data. The arrangement data is set such that the moving amount of the moving table in the replacement process for exchanging the component supply tools between the supply support section of the component supply unit and the replacement support section of the moving table falls within a target range. It is the data which shows the arrangement|sequence of the upper parts supply tool. Therefore, in a state in which a plurality of component supply tools are arranged on the carriage according to the arrangement data, when the component supply tools are exchanged between the component supply unit and the carriage, the amount of movement of the carriage is set within the target range. can fit in. As a result, it is possible to increase the efficiency of exchanging the component supply tool between the component supply unit and the moving table.
 上記の部品交換システムでは、前記配列処理において、前記制御ユニットは、前記複数の保管支持部のうち前記保管ユニットから前記移動台への移載対象の部品供給具を支持した移載元支持部に、前記複数の交換支持部のうち前記移載対象の部品供給具の移載先となる移載先支持部が対向するように、前記移動台を移動させる第1移動処理と、前記第1移動処理後において、前記移載対象の部品供給具が前記移載元支持部から前記移載先支持部に移動するように、前記把持体を移動させる第2移動処理と、を行ってもよい。 In the above parts replacement system, in the arranging process, the control unit is arranged in the transfer source support section that supports the component supply tool to be transferred from the storage unit to the moving table, among the plurality of storage support sections. a first movement process of moving the movable table so that a transfer destination support section, which is a transfer destination of the component supply tool to be transferred, of the plurality of replacement support sections faces each other; After the process, a second movement process may be performed to move the gripper so that the component supply tool to be transferred moves from the transfer source support section to the transfer destination support section.
 この態様では、制御ユニットの第1移動処理及び第2移動処理によって、移載対象の部品供給具は、保管ユニットの移載元の保管支持部から抜出されて、移動台上の移載先の交換支持部に移動して挿入される。制御ユニットによる第1移動処理及び第2移動処理が、複数の移載対象の部品供給具のそれぞれに対応して繰り返し行われることにより、移動台上における部品供給具の配列を配列データで示される配列とすることができる。 In this aspect, by the first movement processing and the second movement processing of the control unit, the component supply tool to be transferred is extracted from the storage support portion of the transfer source of the storage unit and moved to the transfer destination on the carriage. is moved to and inserted into the replacement support part of the By repeatedly performing the first movement processing and the second movement processing by the control unit corresponding to each of the plurality of component supply tools to be transferred, the arrangement of the component supply tools on the moving table is indicated by the arrangement data. Can be an array.
 上記の部品交換システムにおいて、前記保管ユニットでは、前記複数の保管支持部のうち特定領域内の支持部が、前記部品供給具を支持していない支持部であり、前記移動台は、前記複数の交換支持部の配列方向に所定の許容移動範囲内で移動可能である。そして、前記制御ユニットは、前記移動台を前記許容移動範囲内で移動させたときに前記移載先支持部が前記移載元支持部に対向しない場合には、前記移載対象の部品供給具が前記移載元支持部から前記交換支持部を経由して前記特定領域内の支持部に移動するように、前記移動台及び前記把持体を移動させる。 In the above-described parts replacement system, in the storage unit, a support section within a specific area among the plurality of storage support sections is a support section that does not support the component supply tool, and the moving base includes the plurality of storage support sections. It is movable within a predetermined allowable range of movement in the arrangement direction of the replacement support part. If the transfer destination support section does not face the transfer source support section when the movable table is moved within the allowable movement range, the control unit moves the component supply tool to be transferred. moves from the transfer source support section to the support section in the specific area via the exchange support section.
 この態様では、移動台の移動範囲に制限が設けられていることに起因して移載先の交換支持部を移載元の保管支持部に対向させる移動台の移動が不可能である場合に、移載対象の部品供給具を、移載元の保管支持部から交換支持部を経由して特定領域内の保管支持部に移動させる。 In this aspect, when it is impossible to move the moving table so that the exchange support section of the transfer destination is opposed to the storage support section of the transfer source due to the restriction on the moving range of the moving table. , the component supply tool to be transferred is moved from the transfer source storage support section to the storage support section in the specific area via the replacement support section.
 上記の部品交換システムにおいて、前記移載対象の部品供給具が前記特定領域内の支持部に移動された場合、前記制御ユニットは、前記第1移動処理において、前記移載先支持部が前記特定領域内の支持部に対向するように前記移動台を移動させ、前記第2移動処理において、前記特定領域内の支持部に支持された前記移載対象の部品供給具が前記移載先支持部に移動するように前記把持体を移動させてもよい。 In the above-described parts replacement system, when the transfer target component supply tool is moved to the support section within the specific area, the control unit causes the transfer destination support section to move to the specific area in the first movement process. The moving table is moved so as to face the support section in the area, and in the second movement process, the component supply tool to be transferred supported by the support section in the specific area moves to the transfer destination support section. You may move the said holding body so that it may move to.
 この態様では、保管ユニットの特定領域内の保管支持部に移動された移載対象の部品供給具は、制御ユニットの第1移動処理及び第2移動処理によって、特定領域内の保管支持部から抜出されて、移動台上の移載先の交換支持部に移動して挿入される。 In this aspect, the component supply tool to be transferred that has been moved to the storage support section within the specific area of the storage unit is removed from the storage support section within the specific area by the first movement processing and the second movement processing of the control unit. It is pulled out, moved to and inserted into the transfer-destination exchange support section on the carriage.
 上記の部品交換システムは、前記第2移動処理において前記移載先支持部に移載された前記移載対象の部品供給具を検出する検出ユニットと、各種情報を報知する報知ユニットと、を更に備えてもよい。この場合、前記制御ユニットは、前記検出ユニットにより検出された部品供給具が前記配列データに基づく前記移載先支持部に配置すべき部品供給具と一致するか否かを判断し、一致しない場合にはエラー情報の報知を指令するエラー指令信号を前記報知ユニットに出力する。 The component replacement system further includes a detection unit that detects the component supply tool to be transferred that has been transferred to the transfer destination support section in the second movement process, and a notification unit that notifies various information. You may prepare. In this case, the control unit determines whether or not the component supply tool detected by the detection unit matches the component supply tool to be placed on the transfer destination support section based on the arrangement data. outputs an error command signal for commanding notification of error information to the notification unit.
 この態様では、移動台上の移載先の交換支持部に移載された部品供給具が、配列データに基づく移載先の支持部に配置すべき部品供給具と一致しない場合に、制御ユニットから出力されるエラー指令信号に基づいて、報知ユニットはエラー情報を報知することができる。 In this aspect, when the component supply tool transferred to the transfer-destination replacement support section on the moving table does not match the component supply tool to be arranged on the transfer-destination support section based on the arrangement data, the control unit The reporting unit can report the error information based on the error command signal output from the .
 上記の部品交換システムにおいて、前記制御ユニットは、前記エラー指令信号に対応した前記移載対象の部品供給具が前記移載先支持部から前記移載元支持部に移動するように、前記把持体を移動させてもよい。 In the above-described parts replacement system, the control unit causes the gripper to move the part supply tool to be transferred corresponding to the error command signal from the transfer destination support section to the transfer source support section. can be moved.
 この態様では、エラー指令信号に対応した部品供給具が移動台から保管ユニットに戻される。これにより、移動台上における部品供給具の配列が、配列データとは異なる配列になることを抑制できる。 In this aspect, the component supply tool corresponding to the error command signal is returned from the moving table to the storage unit. Accordingly, it is possible to prevent the arrangement of the component supply tools on the moving table from being different from the arrangement data.
 上記の部品交換システムにおいて、前記制御ユニットは、前記エラー指令信号に対応した前記移載対象の部品供給具を前記交換処理の処理対象から除外してもよい。 In the above parts replacement system, the control unit may exclude the transfer target parts supply tool corresponding to the error command signal from the replacement process.
 この態様では、エラー指令信号に対応した部品供給具が、部品供給ユニットと移動台との間で部品供給具の交換が行われる交換処理の処理対象から除外される。これにより、エラー指令信号に対応した部品供給具が、部品供給ユニットに補給されることを抑制できる。 In this aspect, the component supply tool corresponding to the error command signal is excluded from the processing target of the exchange process in which the component supply tool is exchanged between the component supply unit and the moving table. As a result, it is possible to prevent the component supply unit from being supplied with the component supply tool corresponding to the error command signal.
 上記の部品交換システムにおいて、前記制御ユニットは、前記エラー指令信号に対応した前記移載対象の部品供給具に代わる部品供給具の準備を要求する代替準備要求信号を出力してもよい。 In the above parts replacement system, the control unit may output a replacement preparation request signal requesting preparation of a parts supply tool to replace the parts supply tool to be transferred corresponding to the error command signal.
 この態様では、制御ユニットから代替準備要求信号が出力される。この場合、例えば、作業者は、エラー指令信号に対応した部品供給具に代わる部品供給具を準備し、その準備した部品供給具を保管ユニットに補充することができる。 In this aspect, the alternative preparation request signal is output from the control unit. In this case, for example, the operator can prepare a component supply tool to replace the component supply tool corresponding to the error command signal, and replenish the storage unit with the prepared component supply tool.
 本発明の他の局面に係る部品実装システムは、部品を供給する部品供給具を支持する複数の供給支持部が所定方向に配列された部品供給ユニットと、前記供給支持部に支持された前記部品供給具により供給された部品を基板に搭載するヘッドユニットと、前記部品供給ユニットから前記部品供給具を回収することに応じて、前記部品供給ユニットに前記部品供給具を補給する、上記の部品交換システムと、を備える。 A component mounting system according to another aspect of the present invention includes a component supply unit in which a plurality of supply support parts that support component supply tools that supply components are arranged in a predetermined direction; a head unit that mounts a component supplied by a supply tool onto a substrate; and the component replacement described above, wherein the component supply tool is supplied to the component supply unit in response to recovering the component supply tool from the component supply unit. a system;
 この部品実装システムによれば、部品交換システムによって部品供給ユニットと移動台との間における部品供給具の交換の交換効率が高められる。この場合、部品切れ等の生じた回収対象の部品供給具が部品供給ユニットから効率よく回収されるとともに、当該回収に応じて補給対象の部品供給具が部品供給ユニットに効率よく補給される。 According to this component mounting system, the component exchange system increases the efficiency of exchanging component supply tools between the component supply unit and the moving table. In this case, the component supply tool to be collected that has run out of components or the like is efficiently collected from the component supply unit, and the component supply tool to be replenished is efficiently replenished to the component supply unit according to the collection.
 以上説明した通り、本発明によれば、部品供給ユニットにおける部品供給具の交換の交換効率を高めることが可能な部品交換システム、及びそれを備えた部品実装システムを提供することができる。

 
INDUSTRIAL APPLICABILITY As described above, according to the present invention, it is possible to provide a component replacement system capable of enhancing the replacement efficiency of component supply tool replacement in a component supply unit, and a component mounting system including the same.

Claims (9)

  1.  基板に搭載される部品を供給する部品供給具を支持する複数の供給支持部が所定方向に配列された部品供給ユニットから前記部品供給具を回収することに応じて、前記部品供給ユニットに前記部品供給具を補給する部品交換システムであって、
     部品種の異なる複数の前記部品供給具を支持して保管する複数の保管支持部が所定方向に配列された保管ユニットと、
     前記供給支持部との間、及び前記保管支持部との間で交換される前記部品供給具を支持する複数の交換支持部が所定方向に配列され、前記複数の交換支持部の配列方向に移動可能な移動台と、前記部品供給具を把持するとともに前記移動台に対して移動することにより前記部品供給具を移動させる把持体と、を含む動作ユニットと、
     前記動作ユニットを制御する制御ユニットと、を備え、
     前記制御ユニットは、
      前記動作ユニットが前記部品供給ユニットに対して対向配置された状態では、前記複数の供給支持部と前記複数の交換支持部との間で前記部品供給具が移動して交換されるように、前記移動台及び前記把持体を移動させる交換処理を行い、
      前記動作ユニットが前記保管ユニットに対して対向配置された状態では、前記交換処理の前処理として、前記複数の保管支持部に支持された複数種の前記部品供給具が前記複数の交換支持部に移動し、前記移動台上での複数種の前記部品供給具の配列が、前記交換処理における前記移動台の移動量を目標範囲に収めるために予め設定された配列データで示される配列となるように、前記移動台及び前記把持体を移動させる配列処理を行う、部品交換システム。
    In response to collecting the component supply tool from a component supply unit in which a plurality of supply support parts for supporting the component supply tool for supplying components to be mounted on a board are arranged in a predetermined direction, the component supply unit receives the component. A parts replacement system for replenishing supply tools,
    a storage unit in which a plurality of storage support parts for supporting and storing a plurality of component supply tools of different component types are arranged in a predetermined direction;
    A plurality of exchange support parts that support the component supply tool to be exchanged between the supply support part and the storage support part are arranged in a predetermined direction and move in the arrangement direction of the plurality of exchange support parts. an operation unit including a movable platform, and a gripper that grips the component supplier and moves the component supplier by moving with respect to the mobile platform;
    a control unit that controls the operating unit;
    The control unit is
    In a state in which the operation unit is arranged to face the component supply unit, the component supply tool is moved and exchanged between the plurality of supply support portions and the plurality of replacement support portions. Performing a replacement process for moving the moving table and the gripping body,
    In a state in which the operation unit is arranged to face the storage unit, the plurality of types of component supply tools supported by the plurality of storage supports are transferred to the plurality of exchange supports as preprocessing for the replacement processing. so that the arrangement of the plurality of types of component supply tools on the moving table becomes the arrangement indicated by the arrangement data set in advance so as to keep the amount of movement of the moving table in the replacement process within a target range. (2) a part replacement system that performs an arrangement process for moving the moving table and the gripper;
  2.  前記配列処理において、前記制御ユニットは、
      前記複数の保管支持部のうち前記保管ユニットから前記移動台への移載対象の部品供給具を支持した移載元支持部に、前記複数の交換支持部のうち前記移載対象の部品供給具の移載先となる移載先支持部が対向するように、前記移動台を移動させる第1移動処理と、
      前記第1移動処理後において、前記移載対象の部品供給具が前記移載元支持部から前記移載先支持部に移動するように、前記把持体を移動させる第2移動処理と、を行う、請求項1に記載の部品交換システム。
    In the arrangement process, the control unit
    A transfer source support section that supports a component supply tool to be transferred from the storage unit to the moving table among the plurality of storage support sections, and a component supply tool to be transferred among the plurality of replacement support sections. a first movement process for moving the moving table so that the transfer destination support portion to be the transfer destination of the
    After the first movement process, perform a second movement process of moving the gripper so that the component supply tool to be transferred moves from the transfer source support part to the transfer destination support part. , The parts exchange system according to claim 1.
  3.  前記保管ユニットでは、前記複数の保管支持部のうち特定領域内の支持部が、前記部品供給具を支持していない支持部であり、
     前記移動台は、前記複数の交換支持部の配列方向に所定の許容移動範囲内で移動可能であり、
     前記制御ユニットは、前記移動台を前記許容移動範囲内で移動させたときに前記移載先支持部が前記移載元支持部に対向しない場合には、前記移載対象の部品供給具が前記移載元支持部から前記交換支持部を経由して前記特定領域内の支持部に移動するように、前記移動台及び前記把持体を移動させる、請求項2に記載の部品交換システム。
    In the storage unit, a support section within a specific area among the plurality of storage support sections is a support section that does not support the component supply tool,
    The movable table is movable within a predetermined allowable movement range in the arrangement direction of the plurality of replacement support parts,
    When the transfer destination support section does not face the transfer source support section when the movable table is moved within the allowable movement range, the control unit determines that the component supply tool to be transferred is the 3. The parts exchange system according to claim 2, wherein said moving table and said gripper are moved so as to move from said transfer source support section to said support section in said specific area via said exchange support section.
  4.  前記移載対象の部品供給具が前記特定領域内の支持部に移動された場合、前記制御ユニットは、前記第1移動処理において、前記移載先支持部が前記特定領域内の支持部に対向するように前記移動台を移動させ、前記第2移動処理において、前記特定領域内の支持部に支持された前記移載対象の部品供給具が前記移載先支持部に移動するように前記把持体を移動させる、請求項3に記載の部品交換システム。 When the component supply tool to be transferred is moved to the support section in the specific area, the control unit causes the transfer destination support section to face the support section in the specific area in the first movement process. and in the second movement process, the component supply tool to be transferred, which is supported by the support section in the specific area, moves to the transfer destination support section. 4. The parts exchange system according to claim 3, wherein the body is moved.
  5.  前記第2移動処理において前記移載先支持部に移載された前記移載対象の部品供給具を検出する検出ユニットと、
     各種情報を報知する報知ユニットと、を更に備え、
     前記制御ユニットは、前記検出ユニットにより検出された部品供給具が前記配列データに基づく前記移載先支持部に配置すべき部品供給具と一致するか否かを判断し、一致しない場合にはエラー情報の報知を指令するエラー指令信号を前記報知ユニットに出力する、請求項2~4のいずれか1項に記載の部品交換システム。
    a detection unit that detects the component supply tool to be transferred that has been transferred to the transfer destination support section in the second movement process;
    and a notification unit that notifies various information,
    The control unit determines whether or not the component supply tool detected by the detection unit matches the component supply tool to be placed on the transfer destination support section based on the arrangement data. 5. The parts replacement system according to any one of claims 2 to 4, wherein an error command signal for commanding notification of information is output to said notification unit.
  6.  前記制御ユニットは、前記エラー指令信号に対応した前記移載対象の部品供給具が前記移載先支持部から前記移載元支持部に移動するように、前記把持体を移動させる、請求項5に記載の部品交換システム。 6. The control unit moves the gripper so that the part supply tool to be transferred corresponding to the error command signal moves from the transfer destination support section to the transfer source support section. The parts replacement system described in .
  7.  前記制御ユニットは、前記エラー指令信号に対応した前記移載対象の部品供給具を前記交換処理の処理対象から除外する、請求項5又は6に記載の部品交換システム。 7. The parts exchange system according to claim 5 or 6, wherein said control unit excludes said transfer target parts supply tool corresponding to said error command signal from said exchange process.
  8.  前記制御ユニットは、前記エラー指令信号に対応した前記移載対象の部品供給具に代わる部品供給具の準備を要求する代替準備要求信号を出力する、請求項5~7のいずれか1項に記載の部品交換システム。 8. The control unit according to any one of claims 5 to 7, wherein said control unit outputs a replacement preparation request signal requesting preparation of a component supply tool to replace said component supply tool to be transferred corresponding to said error command signal. parts replacement system.
  9.  部品を供給する部品供給具を支持する複数の供給支持部が所定方向に配列された部品供給ユニットと、
     前記供給支持部に支持された前記部品供給具により供給された部品を基板に搭載するヘッドユニットと、
     前記部品供給ユニットから前記部品供給具を回収することに応じて、前記部品供給ユニットに前記部品供給具を補給する、請求項1~8のいずれか1項に記載の部品交換システムと、を備える、部品実装システム。
    a component supply unit in which a plurality of supply support portions that support a component supply tool for supplying components are arranged in a predetermined direction;
    a head unit that mounts on a board a component supplied by the component supply tool supported by the supply support;
    and a parts replacement system according to any one of claims 1 to 8, wherein the parts supply tool is replenished to the parts supply unit in accordance with the collection of the parts supply tool from the parts supply unit. , component mounting system.
PCT/JP2022/008928 2022-03-02 2022-03-02 Component exchange system and component mounting system WO2023166622A1 (en)

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Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020039544A1 (en) * 2018-08-23 2020-02-27 株式会社Fuji Moving work management device, moving work device, mounting system, and moving work management method
WO2020039545A1 (en) * 2018-08-23 2020-02-27 株式会社Fuji Moving work management device, moving work device, mounting system, and management method
WO2020183599A1 (en) * 2019-03-12 2020-09-17 株式会社Fuji Management device, mobile work device, mounting system, and management method

Patent Citations (3)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2020039544A1 (en) * 2018-08-23 2020-02-27 株式会社Fuji Moving work management device, moving work device, mounting system, and moving work management method
WO2020039545A1 (en) * 2018-08-23 2020-02-27 株式会社Fuji Moving work management device, moving work device, mounting system, and management method
WO2020183599A1 (en) * 2019-03-12 2020-09-17 株式会社Fuji Management device, mobile work device, mounting system, and management method

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