WO2023026341A1 - Dispositif de gestion d'élément et procédé de gestion d'élément - Google Patents

Dispositif de gestion d'élément et procédé de gestion d'élément Download PDF

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Publication number
WO2023026341A1
WO2023026341A1 PCT/JP2021/030869 JP2021030869W WO2023026341A1 WO 2023026341 A1 WO2023026341 A1 WO 2023026341A1 JP 2021030869 W JP2021030869 W JP 2021030869W WO 2023026341 A1 WO2023026341 A1 WO 2023026341A1
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WO
WIPO (PCT)
Prior art keywords
stored
storage
storage device
identification information
reel
Prior art date
Application number
PCT/JP2021/030869
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English (en)
Japanese (ja)
Inventor
由治 谷澤
Original Assignee
株式会社Fuji
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 株式会社Fuji filed Critical 株式会社Fuji
Priority to JP2023543505A priority Critical patent/JPWO2023026341A1/ja
Priority to PCT/JP2021/030869 priority patent/WO2023026341A1/fr
Publication of WO2023026341A1 publication Critical patent/WO2023026341A1/fr

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    • GPHYSICS
    • G06COMPUTING; CALCULATING OR COUNTING
    • G06QINFORMATION AND COMMUNICATION TECHNOLOGY [ICT] SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES; SYSTEMS OR METHODS SPECIALLY ADAPTED FOR ADMINISTRATIVE, COMMERCIAL, FINANCIAL, MANAGERIAL OR SUPERVISORY PURPOSES, NOT OTHERWISE PROVIDED FOR
    • G06Q50/00Information and communication technology [ICT] specially adapted for implementation of business processes of specific business sectors, e.g. utilities or tourism
    • G06Q50/04Manufacturing

Definitions

  • This specification discloses a technology related to a member management device and a member management method.
  • the present specification provides combination information indicating the combination of the first member and the second member used before the storage device when the first member or the second member is stored in the storage device.
  • a deletable member management device and member management method are disclosed.
  • This specification discloses a member management device that includes a determination unit and a deletion unit.
  • the judging unit judges whether or not a first member that houses a component to be mounted on a board or a second member that is used together with the first member is stored in a storage device.
  • the deletion unit stores combination information indicating the combination of the first member and the second member used before the storage when the determination unit determines that the first member or the second member is to be stored. delete.
  • This specification also discloses a member management method including a determination process and a deletion process.
  • the determination step determines whether or not a first member that stores components to be mounted on a board or a second member that is used together with the first member is stored in a storage device.
  • the deleting step when it is determined by the determining step that the first member or the second member is to be stored, the combination information indicating the combination of the first member and the second member used before the storage is stored. delete.
  • the member management device it is provided with a determination unit and a deletion unit. Thereby, when the first member or the second member is stored in the storage device, the member management device can delete the combination information indicating the combination of the first member and the second member used before the storage device. . What has been described above with respect to the member management apparatus can be similarly applied to the member management method.
  • FIG. 3 is a schematic diagram showing an example of a feeder equipped with reels
  • FIG. 4 is a schematic diagram showing an example of a tray pallet equipped with trays
  • It is a front view which shows an example of a storage.
  • 3B is a plan view of the storage shown in FIG. 3A
  • FIG. 3B is a front view showing an example of a storage unit of the storage shown in FIG. 3A
  • FIG. 3 is a block diagram showing an example of control blocks of the member management device
  • FIG. 4 is a flow chart showing an example of a control procedure by a member management device
  • FIG. 5 is a schematic diagram showing a setting example by a setting unit
  • FIG. 4 is a schematic diagram showing an example of location information;
  • Embodiment FIG. 1 shows an example of a production facility to which a member management device 80 is applied.
  • the production facility shown in FIG. 1 includes a board-to-board work line 10L, an arrival section 20 and a storage device 70 .
  • the storage device 70 also includes a storage 30 , a shelf 40 , a dry box 50 and an oven 60 .
  • the board-related work machine 10 performs a predetermined board-related work on the board 90 .
  • the type and number of board-oriented working machines 10 are not limited.
  • the board-related work line 10L of the present embodiment includes a plurality of (five) board-related operations including a printer 10a, a print inspection machine 10b, a component mounting machine 10c, a reflow furnace 10d, and an appearance inspection machine 10e. machine 10, and substrates 90 are transported in the above order by a substrate transport apparatus.
  • the printer 10a prints solder on the mounting position of the component 91 on the substrate 90.
  • the print inspection machine 10b inspects the printed state of the solder printed by the printer 10a.
  • the component mounting machine 10c mounts a plurality of components 91 on a board 90 on which solder is printed.
  • the number of component mounting machines 10c may be one or plural. When a plurality of component mounters 10c are provided, the plurality of component mounters 10c can share the task of mounting a plurality of components 91 on the board 90.
  • the component mounting machine 10c is equipped with a component supply device that supplies components 91 to be mounted on the board 90 .
  • the component supply device can supply the components 91 using, for example, a feeder 22a equipped with a reel 21a shown in FIG. 2A and a tray pallet 22b equipped with a tray 21b shown in FIG. 2B.
  • a carrier tape 21t containing the component 91 is wound around the body portion 21a1.
  • the feeder 22a rotatably holds the reel 21a.
  • the leading end of the carrier tape 21t is pulled out to a component extractor provided in the feeder 22a, and the components 91 are sequentially supplied.
  • the reel 21a can supply, for example, relatively small components 91 such as chip components.
  • Parts 91 are arranged on the tray 21b.
  • the tray 21b can supply relatively large parts 91 such as QFP (Quad Flat Package) and BGA (Ball Grid Array).
  • the tray 21b supplies the parts 91 as they are mounted on the tray pallet 22b.
  • the reflow furnace 10d heats the substrate 90 on which the component 91 is mounted by the component mounter 10c, and melts the solder for soldering.
  • the appearance inspection machine 10e inspects the mounting state of the component 91 mounted by the component mounting machine 10c.
  • the board-related work line 10L can use a plurality of (five) board-related work machines 10 to sequentially transport the boards 90 and perform production processes including inspection processes to produce board products.
  • the board-to-board work line 10L includes board-to-board work machines 10 such as, for example, a function inspection machine, a buffer device, a board supply device, a board reversing device, a shield mounting device, an adhesive application device, and an ultraviolet irradiation device. You can prepare.
  • a plurality (five) of the board-handling work machines 10 and the management device 19 that constitute the board-handling work line 10L are provided so as to be able to communicate with each other through a wired or wireless communication unit.
  • the management device 19 controls the plurality (five) of the board-related work machines 10 of the board-related work line 10L and monitors the operation status of the board-related work line 10L.
  • the management device 19 stores various control data for controlling a plurality of (five) work machines 10 for the board.
  • the management device 19 transmits control data to each of the plurality (five) of the work machines 10 for board.
  • each of the plurality (five) of the board-to-board work machines 10 transmits the operation status and production status to the management device 19 .
  • Arrival unit 20 For example, when the reel 21a arrives at the arrival section 20, the following arrival operation is performed. Then, the reel 21 a is housed in, for example, a housing case, mounted on a transport vehicle, and transported to the stocker 30 . After being stored in the storage 30, the reel 21a is supplied to the board-to-board work line 10L as required.
  • the reel 21a is provided with an identification code 23a capable of identifying the reel 21a.
  • the identification code 23a for example, a sticker printed with a one-dimensional code, a two-dimensional code, or the like, a wireless tag, or the like is used.
  • the worker issues identification information using, for example, an article management device.
  • the operator uses a barcode reader or the like to read the barcode or the like attached to the reel 21a by the supplier (vendor).
  • the worker can also acquire article information from a database in which article information relating to the reel 21a is registered.
  • the worker issues an identification code 23a including at least identification information out of identification information and article information using the article management apparatus.
  • the operator puts a sticker of an identification code 23a containing at least identification information on the surface of the reel 21a, and stores the reel 21a in the storage case.
  • the operator mounts the storage case in which the reel 21a is stored on the transport vehicle.
  • a vehicle can be towed by an operator.
  • an unmanned guided vehicle capable of automatically traveling can be used as the guided vehicle.
  • the transport vehicle can also transport the reel 21a to the stocker 30 without using a storage case. Also, the operator can transport the reel 21a to the stocker 30 without using a transport vehicle.
  • the operator can attach an identification code 23b that can identify the tray 21b to the tray 21b in the same manner as the reel 21a.
  • the tray 21b is housed in a packaging bag, and the identification code 23b is attached to the packaging bag.
  • the identification code 23b can also be attached to the tray 21b.
  • a sticker printed with a one-dimensional code, a two-dimensional code, or the like, a wireless tag, or the like is used.
  • a transport vehicle or an operator transports the tray 21b to the stocker 30 in the same manner as the reel 21a.
  • the feeder 22a is provided with an identification code 24a capable of identifying the feeder 22a.
  • the tray pallet 22b is provided with an identification code 24b capable of identifying the tray pallet 22b.
  • the identification code 23a and the identification code 24b for example, a sticker printed with a one-dimensional code, a two-dimensional code, or the like, a wireless tag, or the like can be used.
  • at least part of the work performed by the operator described above can also be automated using a transport device (eg, belt conveyor, etc.), actuator (eg, robot arm, etc.), article management device, and the like.
  • the stocker 30 can store the first member 21 containing the components 91 mounted on the board 90 such as the reel 21a and the tray 21b.
  • the storehouse 30 can also store second members 22 that are used together with the first members 21, such as feeders 22a and tray pallets 22b.
  • the storage 30 can also store both the first member 21 and the second member 22 .
  • the storage box 30 may take various forms as long as it can store at least one of the first member 21 and the second member 22 .
  • the storage 30 of this embodiment is formed, for example, in the shape of an octagonal prism.
  • the storage 30 includes an entrance 30a, an exit 30b, a reading device 31, a control device 32, a display device 33, a storage section 34, and an actuator 35. At least one of the first member 21 and the second member 22 enters the stocker 30 through the entrance 30a and exits through the exit 30b.
  • the entrance 30a and the exit 30b are provided in a common opening. The entrance 30a and the exit 30b can also be provided at different openings.
  • the reading device 31 is provided above the work space 34a near the opening of the entrance 30a.
  • the reading device 31 reads the identification code attached to the stored member to identify the stored member. Get information.
  • a known reading device for example, a code reader that reads a one-dimensional code, a two-dimensional code, etc.
  • the identification code is a wireless tag
  • the storage 30 can be equipped with a wireless device capable of wirelessly communicating with the identification code.
  • the control device 32 includes a known arithmetic device and storage device, and constitutes a control circuit.
  • the control device 32 is also communicatively connected to the reading device 31, the display device 33 and the actuator 35, and can control them.
  • controller 32 may control reader 31 .
  • the control device 32 can acquire the identification information acquired by the reading device 31 from the reading device 31 .
  • the control device 32 is communicably connected to the management device 19 shown in FIG.
  • the management device 19 notifies the control device 32 of occurrence of a setup change in the board-related work line 10L.
  • the management device 19 can also notify the control device 32 of occurrence of shortage of at least one of the first member 21 and the second member 22 to be supplied to the substrate-oriented work line 10L.
  • the management device 19 can also notify the control device 32 of the possibility that a setup change will occur during a predetermined period.
  • the management device 19 can also notify the control device 32 of the possibility that at least one of the first member 21 and the second member 22 will run short during a predetermined period. Based on these notifications, the control device 32 takes out the necessary members.
  • a known display device can be used for the display device 33, and various information is displayed so that the operator can visually recognize it.
  • the display device 33 displays, for example, member information indicating information about members stored in the storage section 34 in accordance with an operator's operation.
  • the component information can include, for example, the component type, model, inventory quantity, and the like.
  • the member information of the first member 21 can include the type, model, vendor name, remaining number, humidity control level, expiration date, etc. of the parts 91 accommodated in the first member 21 .
  • the display device 33 of this embodiment is configured by a touch panel, and the display device 33 also functions as an input device that receives various operations by the operator. For example, the operator can designate a desired member to be taken out from the stocker 30 using a touch panel (display device 33 functioning as an input device). In this case, the controller 32 takes out the designated member.
  • the storage part 34 may take various forms as long as it can store at least one of the first member 21 and the second member 22 .
  • the storage section 34 of this embodiment includes a plurality of storage units 34b, and the plurality of storage units 34b are arranged in a circle when viewed in the vertical direction (Z-axis direction).
  • the storage unit 34b has two types of storage spaces, for example, a storage space 34b1 and a storage space 34b2.
  • a plurality of storage spaces 34b1 and 34b2 can be provided along the vertical direction (Z-axis direction).
  • the size (width, depth, and height) of the storage space 34b1 is set so that the first member 21 can be stored therein.
  • the size (width, depth, and height) of the storage space 34b2 is set so that the second member 22 or the second member 22 equipped with the first member 21 can be stored.
  • the actuator 35 is provided inside the plurality of storage units 34b when viewed in the vertical direction (Z-axis direction), and grips and moves at least one of the first member 21 and the second member 22 .
  • the actuator 35 may take various forms as long as it can hold and move the member described above.
  • a robot arm multi-joint robot
  • the like can be used as the actuator 35 .
  • the gripping portion grips the member carried into the work space 34a from the storage entrance 30a.
  • the actuator 35 moves the gripping portion gripping the member to a predetermined storage space, and releases the gripping of the member by the gripping portion. Thereby, the member is stored in the storage space.
  • the actuator 35 has the gripping portion grip the member stored in the storage space. The actuator 35 moves the gripping portion gripping the member to the work space 34a and releases the gripping of the member by the gripping portion. This makes it possible to carry out the member.
  • shelf 40 dry box 50 and oven 60 At least one of the first member 21 and the second member 22 can be placed on the shelf 40 .
  • the shelf 40 is not sealed unlike the storage 30, and stores at least one of the first member 21 and the second member 22 at the ambient temperature and humidity in the room of the production facility.
  • Shelves 40 may provide storage space similar to storage compartments 34 of storeroom 30 . Arrangement of the storage space is not limited and can take various forms.
  • the components 91 housed in the first member 21 include components sealed with resin.
  • the component that has been exposed to the atmosphere for more than a specified time and has absorbed the moisture in the atmosphere is heated in the reflow furnace 10d shown in FIG.
  • MSL Melisture Sensitivity Level
  • the limit time maximum time that can be used in production
  • the dry box 50 has a humidity control unit that keeps the inside of the storage in a constant humidity state, and at least one of the first member 21 and the second member 22 can be stored at a constant humidity.
  • the drybox 50 is capable of storing components at the humidity control levels prescribed for MSL components. Therefore, when the parts 91 housed in the first member 21 are MSL parts, storing the first member 21 in the dry box 50 reduces the remaining time (floor life) during which the parts 91 can be used in production. can be stopped.
  • the MSL parts exceed the limit time of exposure to the atmosphere, they are dried at a predetermined temperature for a predetermined time to reduce the limit time of exposure to the atmosphere (the maximum time that can be used in production). can recover.
  • Predetermined temperature, predetermined time and number of drying times are defined for each humidity control level of MSL parts.
  • the oven 60 includes a drying section that dries and maintains the inside of the chamber to a predetermined humidity, and dries at least one member of the first member 21 and the second member 22 to the predetermined humidity and stores it at the predetermined humidity. can do.
  • the oven 60 is capable of drying and storing the parts under the conditions specified for MSL parts. Therefore, when the part 91 accommodated in the first member 21 is an MSL part, by storing the first member 21 in the oven 60, the limit time that can be exposed to the atmosphere (maximum time that can be used in production) is reduced. can recover.
  • the member management device 80 manages the locations of the first member 21 and the second member 22 .
  • the production facility includes a warehouse area ZA1, a picking area ZA2 and an outside setup area ZA3.
  • the warehouse area ZA1 is an area for storing at least one of the first member 21 and the second member 22 for a longer period of time than the picking area ZA2.
  • a warehouse 30 is provided.
  • the picking area ZA2 is an area for temporarily storing the above members, and is equipped with at least one shelf 40 (two in the figure).
  • the above members stored in the stocker 30 of the warehouse area ZA1 are transported to at least one of the picking area ZA2 and the external setup area ZA3.
  • the outside setup area ZA3 includes at least one (one in the figure) shelf 40, at least one (one in the figure) dry box 50, and at least one (one in the figure) oven 60. and In the outside setup area ZA3, at least one of the first member 21 and the second member 22 transported from at least one of the warehouse area ZA1 and the picking area ZA2 is stored on the shelf 40, the dry box 50 or the oven 60. be able to.
  • supply preparation work is performed to combine the first member 21 and the second member 22 so that they can be supplied to the board-to-board work line 10L.
  • the operator mounts the reel 21a on the feeder 22a.
  • the worker reads the identification code 23a attached to the reel 21a using, for example, a code reader of a mobile terminal.
  • the operator reads the identification code 24a attached to the feeder 22a using a code reader or the like of the mobile terminal.
  • identification information identifying the reel 21a (first identification information identifying the first member 21) and identification information identifying the feeder 22a (second identification information identifying the second member 22) are sent to the member management device 80. sent.
  • the member management device 80 generates combination information indicating the combination of the first member 21 and the second member 22 upon acquiring the identification information. Specifically, the combination information associates first identification information that identifies the first member 21 and second identification information that identifies the second member 22 .
  • the member management device 80 stores the combination information in the storage device 80m shown in FIG. 4, for example.
  • the storage device 80m may be a known storage device as long as it can store various information.
  • the member management device 80 updates the member location information when at least one of the first member 21 and the second member 22 is moved. For example, a worker reads an identification code using a code reader of a mobile terminal or the like when moving a member. When the mobile terminal device has a positioning function, the mobile terminal device transmits the location information of the member to the member management device 80 upon reading the identification code. The member management device 80 updates the member location information stored in the storage device 80m to the received location information.
  • the worker can also read the location codes provided in the warehouse area ZA1, the picking area ZA2, and the external setup area ZA3 using a code reader or the like of the mobile terminal. As a result, the location information of the area in which the read location code is provided is transmitted to the component management device 80 .
  • the worker can also read the location code provided in the storage device 70 (the storage box 30, the shelf 40, the dry box 50, the oven 60, etc.) using a code reader of the mobile terminal. As a result, the location information of the storage device 70 provided with the read location code is transmitted to the component management device 80 .
  • the storage device 70 can also transmit the position information to the member management device 80 .
  • a release operation is performed as necessary to release the combination of the first member 21 and the second member 22 that are no longer used in the production of the board-to-board work line 10L.
  • the operator takes out the reel 21a from the feeder 22a.
  • the removed reel 21 a is stored in a predetermined storage device 70
  • the feeder 22 a is stored in a predetermined storage device 70 .
  • the reel 21a and the feeder 22a are stored in a predetermined storage device 70 in a combined state.
  • the storage device 70 may store both the first member 21 and the second member 22 or may store the first member 21 or the second member 22 . If both the first member 21 and the second member 22 are stored in the storage device 70, the combination information indicating the combination of the first member 21 and the second member 22 should be maintained. On the other hand, when the first member 21 or the second member 22 is stored, the above combination information needs to be deleted. For example, when the above combination information is deleted by an operator, there is a possibility that an increase in work man-hours and work mistakes (forgetting to delete, erroneous deletion, etc.) may occur.
  • the member management device 80 of the present embodiment stores the combination of the first member 21 and the second member 22 that were used before the storage device 70. Delete the indicated combination information.
  • the member management apparatus 80 of this embodiment includes a determination unit 81 and a deletion unit 82 .
  • the member management device 80 can also include a setting unit 83 .
  • the member management apparatus 80 can also include an update section 84 .
  • the member management apparatus 80 of this embodiment includes a determination unit 81, a deletion unit 82, a setting unit 83, and an update unit .
  • the determination unit 81, the deletion unit 82, the setting unit 83, and the update unit 84 can be provided in various control devices.
  • the determination unit 81 , the deletion unit 82 , the setting unit 83 and the update unit 84 can be provided in the management device 19 .
  • the determination unit 81 can also be provided in the control device of the storage device 70 (for example, the control device 32 of the storage 30), the control device of the above-described mobile terminal, or the like.
  • the determination unit 81, the deletion unit 82, the setting unit 83, and the update unit 84 can also be formed on the cloud. As shown in FIG. 4 , in this embodiment, the determination unit 81 , the deletion unit 82 , the setting unit 83 and the update unit 84 are provided in the management device 19 .
  • the member management device 80 executes control according to the flowchart shown in FIG.
  • the judgment unit 81 makes a judgment shown in step S12.
  • the deletion unit 82 performs the process shown in step S13.
  • the setting unit 83 performs the process shown in step S11.
  • the update unit 84 performs the processing shown in step S14.
  • Judgment part 81 determines whether or not the first member 21 containing the component 91 mounted on the substrate 90 or the second member 22 used together with the first member 21 is stocked in the storage device 70 .
  • the determination unit 81 may take various forms as long as it can determine whether the first member 21 or the second member 22 is stored in the storage device 70 .
  • the first member 21 is the reel 21a
  • the second member 22 is the feeder 22a
  • the reel 21a that is not equipped with the feeder 22a is stored in the storage device 70.
  • the operator can read the identification code 23a attached to the reel 21a using, for example, the code reader of the portable terminal described above, and then store the reel 21a in the storage device 70. .
  • the storage 30 can use the reading device 31 to read the identification code 23a attached to the stored reel 21a.
  • the shelf 40, the dry box 50, or the oven 60 can be equipped with a reading device similar to the reading device 31, and can also read the identification code 23a affixed to the reel 21a that has been stored, similarly to the stocker 30.
  • the determination unit 81 acquires the identification information (the first identification information for identifying the first member 21) that identifies the reel 21a, so that the reel 21a that is not mounted on the feeder 22a is stored (the first member 21 warehousing) can be determined.
  • the operator reads the identification code 24a attached to the feeder 22a using, for example, the code reader of the mobile terminal device described above, and then inserts the feeder 22a equipped with the reel 21a into the storage device. 70 can be stocked.
  • the storage 30 can use the reading device 31 to read the identification code 24a attached to the feeder 22a that has entered.
  • the shelf 40, dry box 50, or oven 60 can be equipped with a reader similar to the reader 31, and like the stocker 30, can also read the identification code 24a attached to the feeder 22a that has entered.
  • the determination unit 81 acquires the identification information (the second identification information for identifying the second member 22) that identifies the feeder 22a, so that the feeder 22a equipped with the reel 21a (the first member 21 and second member 22) can be determined.
  • the determining unit 81 acquires one of the first identification information identifying the first member 21 and the second identification information identifying the second member 22, the first member 21 or the second member 22 into storage device 70 . Further, when the determination unit 81 acquires the other of the first identification information identifying the first member 21 and the second identification information identifying the second member 22, the determination unit 81 It can be determined that both are stocked in storage device 70 .
  • the member management device 80 acquires first identification information by reading the first identification member 21r attached to the first member 21, and obtains the first identification information by reading the second identification member 22r attached to the second member 22.
  • a reader 80r may be provided for obtaining the second identification information.
  • the determination unit 81 can acquire the first identification information or the second identification information using the reading device 80r.
  • the identification code 23a attached to the reel 21a corresponds to the first identification member 21r
  • the identification code 24a attached to the feeder 22a corresponds to the second identification member 22r.
  • the code reader/reading device 31 of the mobile terminal corresponds to the reading device 80r.
  • the reel 21a or the feeder 22a may be stocked when the reel 21a is removed from the feeder 22a that is no longer used in the production of the board-to-board work line 10L. Also, the carrier tape 21t on the reel 21a is rewound before the reel 21a is taken out from the feeder 22a. Therefore, when the carrier tape 21t of the reel 21a held by the feeder 22a that is no longer used in production is rewound and one of the first identification information and the second identification information is acquired, the determination unit 81 Alternatively, it can be determined that the reel 21a or the feeder 22a will be stocked in the storage device 70. FIG.
  • Whether or not the feeder 22a is no longer used in production can be known from the management device 19 that manages the production of the board-to-board work line 10L. Further, whether or not the carrier tape 21t has been rewound can be known by communication between the feeder 22a and the workbench equipped with the feeder 22a for rewinding the carrier tape 21t. The determination unit 81 can acquire these pieces of information from the management device 19 and the workbench.
  • the storage device 70 may take various forms as long as at least one of the first member 21 and the second member 22 can be stored.
  • the storage device 70 of this embodiment includes a storage 30 capable of storing at least one of the first member 21 and the second member 22, a shelf 40 capable of placing the member, and storing the member at a constant humidity. It is a dry box 50 that can be stored, or an oven 60 that can dry the member to a predetermined humidity and store it at the predetermined humidity. Therefore, at least one of the first member 21 and the second member 22 can be stored in storage 30, shelf 40, dry box 50 or oven 60.
  • the determination unit 81 acquires the identification information of the member (the reel 21a and the first member 21 in the above example) that is to be stored in the storage device 70 alone, It can be determined that the member (the first member 21 that is the reel 21 a ) is stocked in the storage device 70 .
  • the determination unit 81 acquires the identification information of the member (in the above example, the feeder 22a and the second member 22) that is not scheduled to be stocked alone, the first member 21 and the second member 22 (reel 21 a and feeder 22 a ) may be determined to be stocked in storage device 70 .
  • which of the first member 21 and the second member 22 is to be stored independently can be arbitrarily defined.
  • An operator or reader 31 reads the identification code according to regulations.
  • the determination unit 81 can also determine the warehousing of the first member 21, the warehousing of the second member 22, or the warehousing of both the first member 21 and the second member 22. In this form, when the first member 21 is stored alone, the first identification information for identifying the first member 21 is acquired by the operator or the reading device 31 . The determination unit 81 can determine that the first member 21 is stored in the storage device 70 when the first identification information is acquired.
  • the operator or the reading device 31 acquires the second identification information for identifying the second member 22 .
  • the determination unit 81 can determine that the second member 22 is stored in the storage device 70 when the second identification information is acquired. Moreover, when both the 1st member 21 and the 2nd member 22 are warehoused in said form, by the worker or the reader 31, both 1st identification information and 2nd identification information are acquired. The determination unit 81 can determine that both the first member 21 and the second member 22 are stored in the storage device 70 when both the first identification information and the second identification information are acquired.
  • Deletion unit 82 When the determination unit 81 determines that the first member 21 or the second member 22 is to be stored, the deletion unit 82 stores combination information indicating the combination of the first member 21 and the second member 22 used before the storage. Delete (step S13 shown in FIG. 5).
  • the combination information associates the first identification information that identifies the first member 21 with the second identification information that identifies the second member 22 .
  • the combination information is stored in the storage device 80m shown in FIG. Therefore, when the determination unit 81 determines that the first member 21 or the second member 22 is to be stored, the deletion unit 82 deletes the combination information (the first identification information and the second identification information) stored in the storage device 80m. ) is deleted.
  • the member management apparatus 80 of this embodiment includes a setting unit 83 .
  • the setting unit 83 sets in advance whether or not to delete the combination information when the first member 21 or the second member 22 is stored in the storage device 70 (step S11 shown in FIG. 5).
  • the settings made by the setting unit 83 can be stored in the storage device 80m shown in FIG. 4, for example.
  • FIG. 6 shows a setting example by the setting unit 83.
  • FIG. The setting item numbered 1 indicates the case where the reel 21a not mounted on the feeder 22a is stored in the stocker 30.
  • FIG. The setting example in this case is deletion, which indicates that the deletion unit 82 deletes the combination information.
  • a setting item numbered 2 indicates a case where the tray 21b not mounted on the tray pallet 22b is stored in the stocker 30.
  • FIG. The setting example in this case is deletion, which indicates deletion of the combination information.
  • the setting items after number 3 are also set in the same way.
  • the second member 22 not equipped with the first member 21 can be similarly set.
  • the setting unit 83 can set whether or not to delete combination information for each combination of multiple types of first members 21 and multiple types of storage devices 70 .
  • the setting unit 83 can set whether or not to delete the combination information for each combination of the plurality of types of second members 22 and the plurality of types of storage devices 70 .
  • the determination unit 81 determines whether or not the predetermined member (the first member 21 or the second member 22) set in advance by the setting unit 83 is stored in the predetermined storage device 70. (Step S12 shown in FIG. 5). Further, the deletion unit 82 deletes the combination information of the first member 21 or the second member 22 set by the setting unit 83 to delete the combination information (step S13).
  • the determination unit 81 determines that the predetermined member (reel 21a) set in advance by the setting unit 83 is stored in the predetermined storage device 70 (storage box 30) (Yes in step S12). According to the setting of number 1, when the reel 21a not equipped with the feeder 22a is stored in the stocker 30, deletion of the combination information is set. Therefore, the deletion unit 82 deletes the combined information of the first identification information identifying the reel 21a and the second identification information identifying the feeder 22a (step S13).
  • Update unit 84 When the first member 21 or the second member 22 is stored in the storage device 70, the updating unit 84 updates the location information indicating the location of the stored first member 21 or the second member 22 (the step shown in FIG. 5). S14). As described above, the location information is stored in the storage device 80m shown in FIG. 4, for example.
  • FIG. 7 shows an example of location information.
  • the location information shown in the figure includes identification information, warehousing date and time, warehousing date and time, area, storage location, and storage information.
  • the identification information is information for identifying the stocked first member 21 or second member 22 .
  • the identification information that identifies the first member 21 is the first identification information
  • the identification information that identifies the second member 22 is the second identification information.
  • the storage date and time is the date and time when the first member 21 or the second member 22 is stored in the storage device 70 .
  • the delivery date and time is the date and time when the first member 21 or the second member 22 is delivered from the storage device 70 .
  • the area is the area where the storage device 70 is arranged. As described above, in the production equipment of this embodiment, the area is the warehouse area ZA1, the picking area ZA2, or the external setup area ZA3.
  • the storage location is a location where the stored first member 21 or second member 22 is stored in the storage device 70 .
  • the storage location can be identified by the location of the storage device 70 and the storage space of the storage device 70 (for example, storage space 34b1 or storage space 34b2 of storage 30).
  • the storage information is information indicating the storage state of the first member 21 or the second member 22 in the storage device 70 . At least the humidity of the ambient temperature and humidity in the storage device 70 is included in the storage information.
  • the member (the first member 21 or the second member 22) indicated by the identification information ID1 of number 1 entered the warehouse on the date and time DT11 and left the warehouse on the date and time DT21. It also indicates that the member has been stored in the storage location SL1 in the area AR11 in the state indicated by the storage information IF1. What has been described above for the member numbered 1 also applies to the members numbered 2 and beyond.
  • the location information includes at least the storage location and identification information out of the date and time of receipt, area, storage location, and identification information. Therefore, when the first member 21 or the second member 22 is stored in the storage device 70, the updating unit 84 updates at least the storage date and time, the area, and the storage location of the first member 21 or the second member 22 that has been stored. Location can be updated.
  • the first member 21 is the reel 21a and the second member 22 is the feeder 22a is mainly described.
  • the first member 21 and the second member 22 are not limited to these.
  • the first member 21 may be the tray 21b and the second member 22 may be the tray pallet 22b.
  • the first member 21 may be a wafer component, and the second member 22 may be a holding member that holds the wafer component.
  • the first member 21 may be a stick component, and the second member 22 may be a holding member that holds the stick component.
  • the first member 21 may be a portion (a piece) of the carrier tape 21t
  • the second member 22 may be a container that stores a portion (a piece) of the carrier tape 21t.
  • the member management method includes a judgment step and a deletion step.
  • the control performed by the determination unit 81 corresponds to the determination step.
  • the control performed by the deletion unit 82 corresponds to the deletion step.
  • the member management method can also include a setting step.
  • the control performed by the setting unit 83 corresponds to the setting process.
  • the member management method can also include an update step.
  • the control performed by the updating unit 84 corresponds to the updating process.
  • the determination unit 81 and the deletion unit 82 are provided.
  • the member management device 80 stores the combination information indicating the combination of the first member 21 and the second member 22 used before the storage device 70. can be deleted. What has been described above for the member management device 80 can be applied to the member management method as well.
  • 21 first member, 21a: reel, 21t: carrier tape, 21r: first identification member, 22: second member, 22a: feeder, 22r: second identification member, 30: storage, 40: shelf, 50: dry box, 60: oven, 70: storage device, 80: component management device, 80r: reading device, 81: determination unit, 82: deletion unit, 83: setting unit, 84: update section, 90: board, 91: component.

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Abstract

La présente invention concerne un dispositif de gestion d'élément qui comprend une unité de détermination et une unité de suppression. L'unité de détermination détermine si un premier élément logeant un composant à monter sur un substrat et un second élément utilisé avec le premier élément doivent ou non être stockés dans un dispositif de stockage. Lorsque l'unité de détermination détermine que le premier élément ou le second élément doit être stocké dans le dispositif de stockage, l'unité de suppression supprime des informations de combinaison indiquant une combinaison d'un premier élément et d'un second élément qui ont été utilisés avant le stockage.
PCT/JP2021/030869 2021-08-23 2021-08-23 Dispositif de gestion d'élément et procédé de gestion d'élément WO2023026341A1 (fr)

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JP2023543505A JPWO2023026341A1 (fr) 2021-08-23 2021-08-23
PCT/JP2021/030869 WO2023026341A1 (fr) 2021-08-23 2021-08-23 Dispositif de gestion d'élément et procédé de gestion d'élément

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Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010010723A (ja) * 2009-10-14 2010-01-14 Fuji Mach Mfg Co Ltd 回路部品供給用のフィーダの管理方法および電子回路生産方法
JP2011199217A (ja) * 2010-03-24 2011-10-06 Fuji Mach Mfg Co Ltd フィーダ管理方法及び部品実装装置
WO2017216832A1 (fr) * 2016-06-13 2017-12-21 富士機械製造株式会社 Procédé de gestion de dispositif d'alimentation et appareil de gestion de dispositif d'alimentation
WO2018109793A1 (fr) * 2016-12-12 2018-06-21 株式会社Fuji Système de réglage de distributeur à bande
WO2019142336A1 (fr) * 2018-01-19 2019-07-25 株式会社Fuji Dispositif de stockage et procédé de stockage de bobine
WO2020165955A1 (fr) * 2019-02-12 2020-08-20 株式会社Fuji Dispositif de gestion de type de composant

Patent Citations (6)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JP2010010723A (ja) * 2009-10-14 2010-01-14 Fuji Mach Mfg Co Ltd 回路部品供給用のフィーダの管理方法および電子回路生産方法
JP2011199217A (ja) * 2010-03-24 2011-10-06 Fuji Mach Mfg Co Ltd フィーダ管理方法及び部品実装装置
WO2017216832A1 (fr) * 2016-06-13 2017-12-21 富士機械製造株式会社 Procédé de gestion de dispositif d'alimentation et appareil de gestion de dispositif d'alimentation
WO2018109793A1 (fr) * 2016-12-12 2018-06-21 株式会社Fuji Système de réglage de distributeur à bande
WO2019142336A1 (fr) * 2018-01-19 2019-07-25 株式会社Fuji Dispositif de stockage et procédé de stockage de bobine
WO2020165955A1 (fr) * 2019-02-12 2020-08-20 株式会社Fuji Dispositif de gestion de type de composant

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