WO2022044563A1 - Procédé de montage et système de montage - Google Patents

Procédé de montage et système de montage Download PDF

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Publication number
WO2022044563A1
WO2022044563A1 PCT/JP2021/025873 JP2021025873W WO2022044563A1 WO 2022044563 A1 WO2022044563 A1 WO 2022044563A1 JP 2021025873 W JP2021025873 W JP 2021025873W WO 2022044563 A1 WO2022044563 A1 WO 2022044563A1
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WO
WIPO (PCT)
Prior art keywords
case
parts
cover
attachment
feeder
Prior art date
Application number
PCT/JP2021/025873
Other languages
English (en)
Japanese (ja)
Inventor
和宜 石川
能彦 八木
祐二 阿部
寛人 住田
達哉 佐野
Original Assignee
パナソニックIpマネジメント株式会社
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 パナソニックIpマネジメント株式会社 filed Critical パナソニックIpマネジメント株式会社
Priority to JP2022545507A priority Critical patent/JPWO2022044563A1/ja
Publication of WO2022044563A1 publication Critical patent/WO2022044563A1/fr

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    • HELECTRICITY
    • H05ELECTRIC TECHNIQUES NOT OTHERWISE PROVIDED FOR
    • H05KPRINTED CIRCUITS; CASINGS OR CONSTRUCTIONAL DETAILS OF ELECTRIC APPARATUS; MANUFACTURE OF ASSEMBLAGES OF ELECTRICAL COMPONENTS
    • H05K13/00Apparatus or processes specially adapted for manufacturing or adjusting assemblages of electric components
    • 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

  • This disclosure relates to a mounting method and a mounting system.
  • Patent Document 1 when the bulk cassette inserted in the bulk feeder is replaced, the electronic component chip passing through the chip feeding path for moving the electronic component chip supplied from the bulk cassette to a predetermined position is no longer detected. In this state, it is disclosed that the bulk cassette is taken out and a new bulk cassette is inserted into the bulk cuffer.
  • the present disclosure provides a mounting method and a mounting system that can suppress a decrease in productivity.
  • a first accommodating portion for accommodating parts in a bulk state is removable, and a second accommodating portion for accommodating the parts supplied from the first accommodating portion is provided.
  • It is a mounting method in a mounting system including a feeder having a feeder and a component mounting unit that holds the component supplied by the feeder and mounts the component on an object, wherein the component mounting unit holds the component in the feeder. It includes a mounting step of mounting on the object and a component replenishment step of replacing the first accommodating portion with the component remaining in the second accommodating portion.
  • a first accommodating portion for accommodating parts in a bulk state is removable, and a second accommodating portion for accommodating the parts supplied from the first accommodating portion is provided.
  • the feeder to be held, the component mounting unit that holds the component supplied by the feeder and mounts it on the object, and the first accommodating portion with the component remaining in the second accommodating portion are exchanged. It is provided with a control unit that controls the operation.
  • FIG. 1A is a diagram showing a schematic configuration of a mounting system according to an embodiment.
  • FIG. 1B is a block diagram showing a functional configuration of the mounting system according to the embodiment.
  • FIG. 1C is a diagram showing a configuration of a transfer robot according to an embodiment.
  • FIG. 2 is a diagram showing a configuration of a component mounting device according to an embodiment.
  • FIG. 3 is a diagram schematically showing a supply unit according to an embodiment.
  • FIG. 4 is a diagram showing a state in which each of the case, the attachment, and the feeder main body according to the embodiment is removed.
  • FIG. 5 is a perspective view showing the appearance of the case according to the embodiment.
  • FIG. 6 is a diagram for explaining the opening and closing of the cover of the case according to the embodiment.
  • FIG. 1A is a diagram showing a schematic configuration of a mounting system according to an embodiment.
  • FIG. 1B is a block diagram showing a functional configuration of the mounting system according to the embodiment.
  • FIG. 7 is a second diagram for explaining the opening and closing of the cover of the case according to the embodiment.
  • FIG. 8 is a diagram schematically showing how the transfer robot grips the case according to the embodiment.
  • FIG. 9 is a schematic view of the feeder to which the case according to the embodiment is attached when viewed from the longitudinal direction of the case.
  • FIG. 10 is a diagram for explaining the transfer of parts by the transfer unit according to the embodiment.
  • FIG. 11A is a diagram showing a state in which the cover of the attachment according to the embodiment is open.
  • FIG. 11B is a diagram showing a state in which the cover of the attachment according to the embodiment is closed.
  • FIG. 11C is a diagram showing a state in which the cover of the attachment according to the embodiment is closed and locked.
  • FIG. 11A is a diagram showing a state in which the cover of the attachment according to the embodiment is open.
  • FIG. 11B is a diagram showing a state in which the cover of the attachment according to the embodiment is closed.
  • FIG. 12 is a schematic partial cross-sectional view for explaining the arrangement of the antenna and the RF tag according to the embodiment.
  • FIG. 13 is a flowchart showing an operation of exchanging cases of the mounting system according to the embodiment.
  • FIG. 14 is a diagram showing how the case is attached to the attachment according to the embodiment.
  • FIG. 15 is a flowchart showing an operation of exchanging a case and a feeder of the mounting system according to the embodiment.
  • FIG. 16 is a flowchart showing an operation of acquiring the tag information shown in FIG.
  • FIG. 17 is a schematic diagram for explaining a process of identifying an RF tag corresponding to an antenna.
  • FIG. 18 is a diagram showing the appearance of the case according to the first modification of the embodiment.
  • FIG. 19 is a diagram schematically showing a state in which the case according to the first modification of the embodiment is attached to the feeder main body.
  • FIG. 20 is a diagram schematically showing how the case according to the second modification of the embodiment is attached to the attachment.
  • FIG. 21 is a diagram for explaining the opening and closing of the cover of the attachment according to the third modification of the embodiment.
  • Patent Document 1 discloses a feeder (bulk feeder) into which a case (bulk cassette) to which a barcode is attached is inserted.
  • the case houses electronic component chips (components) in bulk.
  • the central controller reads the barcode of the case inserted in the feeder with the barcode reader, and if the information of the electronic component chip indicated by the barcode matches the information of the specified electronic component chip, the shutter is closed.
  • the shutter solenoid that locks to the state is turned on to open and close the shutter, and the shutter opening / closing plate is unlocked.
  • the shutter opening / closing lever connected to the shutter opening / closing plate is pulled (driven) by the spring, so that the shutter opening / closing plate slides and the shutter opens.
  • the electronic component chip in the case is supplied to the chip feeding unit.
  • Patent Document 1 when the bulk cassette inserted in the bulk feeder is replaced, the electronic component chip supplied from the bulk cassette passes through a chip feeding path (conveying unit) for moving the electronic component chip to a predetermined position. It is disclosed that the bulk cassette is taken out and a new bulk cassette is inserted into the bulk cuffer when the component chip is no longer detected.
  • Patent Document 1 the bulk cassette is replaced in a state where the electronic component chip passing through the chip feeding path is not detected.
  • the supply of the electronic component chip is stopped because there is no electronic component chip in the chip feeding path. That is, the productivity in the mounting process may decrease while the bulk cassette is being replaced. Therefore, the inventors of the present application have diligently studied a mounting method and the like that can suppress a decrease in productivity when exchanging cases, and devised a mounting method and the like described below.
  • each figure is a schematic diagram and is not necessarily exactly illustrated. Further, in each figure, the same reference numerals may be given to substantially the same configurations, and duplicate explanations may be omitted or simplified. Further, even when the same object is shown in each figure, the scale may be changed for convenience.
  • FIG. 1A is a diagram showing a schematic configuration of a mounting system 1 according to the present embodiment. First, the outline of the mounting system 1 will be described with reference to FIG. 1A.
  • the mounting system 1 of the present embodiment includes an integrated control device 50, a first control device 50a, a second control device 50b, a transfer robot 60, a supply unit 80, and a parts storage. It includes a W and a mounting line 90 including a plurality of component mounting devices 100. Further, the mounting system 1 includes three areas, a storage area A1, a preparation area A2, and a mounting area A3.
  • the case 10 is an example of a parts accommodating portion and a first accommodating portion for accommodating parts in a bulk state
  • the attachment 30 has a function of conveying the parts supplied from the case 10.
  • the component is, for example, an electronic component such as a resistor or a capacitor, but the component is not limited to this, and may be any component that can be mounted on a substrate.
  • the storage area A1 is an area for storing the case 10 and the attachment 30.
  • the storage area A1 includes, for example, a parts storage W. At least one of the case 10, the attachment 30, and the attachment 30 to which the case 10 is attached is stored in the parts storage W. Further, in the parts storage W, the tag information stored in the RF tag can be read from the RF (Radio Frequency) tag attached to each of the case 10 and the attachment 30, and the tag information to be written in the RF tag can be read.
  • a reader / writer RW for writing is attached. The reader / writer RW is fixed and can simultaneously acquire tag information transmitted from a plurality of RF tags. Further, the tag information to be written in the RF tag can be transmitted to a plurality of RF tags at the same time.
  • the tag information includes information about the parts housed in the case 10 when the RF tag is attached to the case 10.
  • the tag information includes at least one of information indicating the type of a part (identification information), information indicating a quantity (remaining number), information indicating an expiration date, and the like.
  • the information indicating the quantity is the quantity at the present time.
  • the tag information includes at least one such as the identification information of the attachment 30 and the usage history when the RF tag is attached to the attachment 30.
  • the tag information read by the reader / writer RW is managed by the integrated control device 50.
  • FIG. 1A illustrates an example in which the storage area A1 is separated from the mounting area A3, but the present invention is not limited to this.
  • the storage area A1 may be provided as a part of the mounting area A3.
  • the component storage W may be included in the mounting area A3.
  • the mounting line 90 may include a component storage W.
  • the preparation area A2 is an area for preparing in advance what is used in the mounting line 90 of the mounting area A3.
  • the supply unit 80 to be mounted on the mounting line 90 is prepared in advance.
  • the supply unit 80 includes, for example, a dolly 70 having a holding portion 71, a feeder main body portion 40 held by the holding portion 71, an attachment 30 attached to the feeder main body portion 40, and a case 10 attached to the attachment 30. ..
  • the dolly 70 includes a plurality of holding portions 71. Note that FIG. 1A shows one of the plurality of holding portions 71. In this case, for example, a carriage 70 to which the feeder main body 40 and the attachment 30 are attached is arranged in the preparation area A2.
  • the second control device 50b is used in the next production by instructing the transfer robot 60 to attach the case 10 for accommodating the parts used in the next production in the mounting line 90 to the attachment 30 attached to the carriage 70.
  • Supply unit 80 is prepared in advance. In the preparation area A2, not only the trolley 70 but also a holding device that can be connected to the trolley 70 may be prepared as long as the case 10 and the like can be held.
  • the dolly 70 is provided with a reading device 130.
  • the reading device 130 is fixed to, for example, the holding portion 71 of the carriage 70.
  • the supply unit 80 may be connected to an external power source.
  • the supply unit 80 may include a power supply unit inside (for example, inside the carriage 70).
  • a case 10 for accommodating parts that may be replenished may be transported from the parts storage W and stored.
  • the time can be shortened as compared with the case of transporting the case 10 from the storage area A1.
  • the mounting area A3 is an area where the mounting line 90 is arranged.
  • the mounting area A3 and the preparation area A2 may be arranged in the same space.
  • the mounting line 90 produces a mounting board by mounting the components housed in the case 10 on the board carried in from the upstream side, and carries out the produced mounting board to the downstream side.
  • the mounting line 90 is realized by various devices that supply a substrate, perform solder printing work, component mounting work, reflow work, and the like.
  • the component mounting work is performed by the component mounting device 100.
  • the integrated control device 50 is connected to the first control device 50a and the second control device 50b, and aggregates and manages information on each component of the mounting system 1.
  • the first control device 50a controls each component of the mounting line 90.
  • the first control device 50a controls the production of the mounting line 90, for example, based on the production plan. Even if each component of the mounting line 90 is controlled by the first control device 50a and a control device (not shown) provided in each component of the mounting line 90 (for example, the component mounting device 100). good.
  • the first control device 50a transmits a supply request for parts to the integrated control device 50.
  • the second control device 50b receives the supply request for the parts from the integrated control device 50, outputs the supply instruction to the transfer robot 60, and supplies the parts. Specifically, the second control device 50b replenishes the transfer robot 60 with a position in the storage area A1 of the case 10 to be replenished, a movement path of the transfer robot 60, and a position for replenishing the case 10 (for example,).
  • the position in the mounting line 90, the position in the component mounting device 100, the position in the supply unit 80, and the position in the preparation area A2) are instructed.
  • the transfer robot 60 conveys the case 10 accommodating the parts to be replenished from the storage area A1 to the mounting line 90, and transfers the case 10 of the supply unit 80 to the new case 10. Exchange. Specifically, the transfer robot 60 collects the case 10 of the supply unit 80 and attaches a new case 10.
  • the second control device 50b controls the transfer robot 60 to supply the case 10 attached to the mounting line 90.
  • the case 10 and the attachment 30 of the unit 80 are replaced.
  • the transfer robot 60 is a self-propelled robot that conveys the case 10 and the attachment 30 under the control of the second control device 50b.
  • the transfer robot 60 will be described with reference to FIG. 1C.
  • FIG. 1C is a diagram showing a configuration of a transfer robot 60 according to the present embodiment.
  • the transfer robot 60 is composed of, for example, a traveling unit 62, a storage unit 63, and a robot arm 61.
  • the traveling unit 62 includes wheels and a motor for driving the wheels.
  • the case 10 and the attachment 30 are stored in the storage unit 63.
  • the storage unit 63 is formed with, for example, a holding unit 63a for holding each of the plurality of cases 10 and the attachment 30.
  • the transfer robot 60 can transfer the plurality of cases 10 and the attachments 30 at one time by moving the plurality of cases 10 and the attachments 30 in a state of being stored in the storage unit 63.
  • a robot arm 61 is provided above the storage unit 63. The tip of the robot arm 61 is formed so that the case 10 and the attachment 30 can be gripped.
  • the transfer robot 60 mounts the case 10 and the attachment 30 stored in the storage unit 63 by the robot arm 61 on the component mounting device 100. As a result, the transfer robot 60 can attach the case 10 and the attachment 30 to the plurality of component mounting devices 100 by one transfer.
  • the shape and transfer method of the transfer robot 60 are examples, and are not limited to the above.
  • the transport robot 60 may transport the object by supporting or gripping the object with the robot arm 61.
  • the dolly 70 or the supply unit 80 may be supported or gripped and conveyed.
  • the second control device 50b controls the transfer robot 60 and prepares the supply unit in advance.
  • the 80 is conveyed and replaced with the supply unit 80 attached to the mounting line 90.
  • the mounting system 1 is a system in which the integrated control device 50 manages the supply of parts and the change of the type of parts.
  • FIG. 2 is a diagram showing a configuration of a component mounting device 100 according to the present embodiment.
  • the component mounting device 100 is a device for mounting components on the board 103 will be described.
  • the component mounting device 100 has a function of taking out components from a feeder that supplies the components and transferring and mounting the components on the board 103.
  • the substrate 103 is an example of an object on which components are mounted.
  • the component mounting device 100 includes a supply unit 80, a base 101, a board transfer mechanism 102, a component mounting mechanism 108 including a mounting head 107, a board recognition camera 109, and a component recognition camera 110. And a power supply unit 111 (see FIG. 1B).
  • the substrate transfer mechanism 102 is arranged near the center of the base 101 along the X axis (in the transfer direction of the substrate 103).
  • the board transfer mechanism 102 transports the board 103 carried in from the upstream side in the direction along the X-axis, and positions and holds the board 103 on the mounting stage set for executing the component mounting work.
  • the supply unit 80 is detachably mounted on a supply unit mounting portion (not shown) of the base 101, which is the main body of the component mounting device 100. More specifically, in the supply unit 80, a dolly 70 constituting the supply unit 80 is mounted on the supply unit mounting portion.
  • the supply unit mounting portions are provided on both sides of the substrate transfer mechanism 102, and the supply unit 80 is also arranged on both sides of the substrate transfer mechanism 102.
  • a plurality of feeders 20 can be arranged in parallel along the Y axis in each supply unit 80, and at least one feeder 20 (bulk feeder) is mounted in parallel.
  • the feeder 20 includes, for example, a feeder main body 40 and an attachment 30.
  • the substrate transfer mechanism 102 is an example of a substrate transfer unit.
  • each functional unit for example, a vibration generating unit 41, a driving unit 45, a reading device 130, etc., which will be described later
  • a power supply unit 111 of the supply unit 80 are electrically connected. Power is supplied from the power supply unit 111 to each functional unit of the supply unit 80.
  • the feeder 20 arranged in the supply unit 80 supplies the components to the take-out position by the mounting head 107 of the component mounting mechanism 108.
  • the mounting head 107 is an example of a component mounting unit.
  • An X-axis moving table 105 provided with a linear drive mechanism is arranged in the X-axis direction on the upper surface of the base 101 at the end in the minus direction of the Y-axis, and the X-axis moving table 105 is similarly linearly driven.
  • Two Y-axis moving tables 106 equipped with a mechanism are movably connected in the X-axis direction.
  • a mounting head 107 is mounted on each of the two Y-axis moving tables 106 so as to be movable in the Y-axis direction.
  • the mounting head 107 mounts a component held by the feeder 20 arranged in the supply unit 80 on the substrate 103.
  • the mounting head 107 is equipped with a component suction nozzle (not shown) that sucks and holds the component and can be raised and lowered individually.
  • the mounting head 107 includes a Z-axis elevating mechanism for raising and lowering the component suction nozzle and a ⁇ -axis rotation mechanism for rotating the component suction nozzle around the nozzle axis.
  • the mounting head 107 By driving the X-axis moving table 105 and the Y-axis moving table 106, the mounting head 107 moves in the X-axis direction and the Y-axis direction. As a result, the two mounting heads 107 take out the parts from the take-out positions of the feeders 20 arranged in the corresponding supply units 80 by the parts suction nozzles.
  • the component mounting mechanism 108 is configured by the substrate transfer mechanism 102, the X-axis moving table 105, the Y-axis moving table 106, and the mounting head 107.
  • a component recognition camera 110 is arranged between each of the upper and lower carriages 70 and the board transfer mechanism 102.
  • the component recognition camera 110 takes an image of the component held by the mounting head 107.
  • a processing unit not shown
  • the mounting head 107 is equipped with a board recognition camera 109 that is located on the lower surface side of the Y-axis moving table 106 and moves integrally with the mounting head 107.
  • the board recognition camera 109 moves above the board 103 positioned by the board transfer mechanism 102 and takes an image of the board 103.
  • the position of the substrate 103 is detected by recognizing the image pickup result by the image recognition of the processing unit in the same manner.
  • the power supply unit 111 supplies electric power to each functional unit of the component mounting device 100.
  • the power supply unit 111 supplies electric power to the supply unit 80 arranged in the substrate transfer mechanism 102, for example.
  • the power supply unit 111 supplies electric power to the vibration generating unit 41, the driving unit 45, the reading device 130, and the like of the supply unit 80.
  • the power supply unit 111 may be connected to an external power supply.
  • the power supply unit 111 may supply electric power to each functional unit under the control of the first control device 50a, but the power supply unit 111 is not limited to this.
  • FIG. 1B is a block diagram showing a functional configuration of the mounting system 1 according to the present embodiment.
  • FIG. 3 is a diagram schematically showing a supply unit 80 according to the present embodiment.
  • FIG. 4 is a diagram showing a state in which the case 10, the attachment 30, and the feeder main body 40 according to the present embodiment are removed.
  • the mounting head 107 holds and takes out the parts conveyed by the vibration generated by the vibration generating unit 41 on the conveying unit 34 of the attachment 30. Is also illustrated.
  • Retention comprises at least one of adsorption or grip.
  • FIG. 3 shows a state in which the cover 11 of the case 10 is open.
  • the mounting system 1 has a vibration generating unit 41, a driving unit 45, an integrated control device 50, a first control device 50a, and a second control device as functional configurations. 50b, a transfer robot 60, a mounting head 107, a power supply unit 111, a reading device 130, a sensor 140, a component detection unit 141, an RF tag T, and a reader / writer RW provided in the component storage W.
  • the vibration generating unit 41 and the driving unit 45 are provided in the feeder main body unit 40
  • the power supply unit 111 is provided in the component mounting device 100
  • the reading device 130 is provided in the carriage 70.
  • the RF tag T includes the RF tag T2 of the case 10, the RF tag T3 of the attachment 30, the RF tag T1 of the feeder main body 40, and the RF tag T4 of the roll case 120.
  • FIG. 5 is a perspective view showing the appearance of the case 10 according to the present embodiment. In FIG. 5, the engaging portion 13 is not shown.
  • the case 10 includes a cover 11, a case main body 12, an engaging portion 13, a first convex portion 14, a cover 17 (see FIG. 6), and a second. It has a convex portion 18 and an RF tag T2. Further, the case main body portion 12 is formed with an opening 15 and a notch portion 19.
  • the cover 11 covers the opening 15 to prevent other parts from being mixed into the case 10.
  • the cover 11 is provided in the opening 15 for supplying parts from the storage chamber 12a to the feeder 20.
  • the cover 11 covers the opening 15 when the case 10 is not attached to the attachment 30. Further, the cover 11 is opened when collation is performed to see if the case 10 is attached to the attachment 30 and the case 10 is attached to the attachment 30, and the collation is successful. By performing the collation, it is possible to further suppress the mixing of parts in the feeder 20.
  • the cover 11 is an example of the first cover.
  • FIG. 6 is a diagram for explaining the opening and closing of the cover 11 of the case 10 according to the present embodiment.
  • FIG. 6A is an enlarged view showing the broken line region R in FIG. 5, and shows a state in which the cover 11 of the case 10 is closed (closed state). For example, if the case 10 is removed from the attachment 30, or the case 10 is attached to the attachment 30 but is being collated, or the collation fails, the cover is shown in FIG. 6 (a). 11 is in the closed state.
  • the cover 11 is rotatably supported by the case body 12 with respect to the rotation axis J.
  • the case main body portion 12 has a cover 17 that covers one end portion 11a of the cover 11 from the outer side of the case 10.
  • the cover 17 is provided so that one end 11a of the case 10 cannot be touched from the outside of the case 10, that is, the cover 11 of the case 10 cannot be easily opened by an operator or the like. As a result, it is possible to prevent other parts from being mixed into the case 10.
  • the cover 17 has, for example, a plate shape.
  • a through hole 17a is formed in the cover 17.
  • the through hole 17a penetrates the cover 17 in the X-axis direction (longitudinal direction of the feeder 20).
  • the through hole 17a may be provided at a position corresponding to the rod body 33 of the mounted portion 32 of the attachment 30, and may be of a size that allows the rod body 33 to be inserted.
  • the through hole 17a may be, for example, of a size that does not allow a worker's finger to enter.
  • a sticker may be attached at a position corresponding to the through hole 17a of the cover 11.
  • FIG. 6B is an enlarged view showing the broken line region R of FIG. 5, and shows a state (open state) in which the case 10 is mounted on the mounted portion 32 and the cover 11 of the case 10 is open. ..
  • the cover 11 is opened as shown in FIG. 6B.
  • the first control device 50a controls the drive unit 45 to move the rod body 33 to the case 10 side.
  • the rod body 33 inserts the through hole 17a of the cover 17 and pushes the one end portion 11a of the cover 11 toward the minus side of the X-axis.
  • the cover 11 rotates counterclockwise about the axis of rotation J. In other words, the rod body 33 presses the cover 11 to rotate the cover 11 about the rotation axis J.
  • the cover 11 is changed from the closed state to the open state by the physical action of the rod body 33 of the attached portion 32 to which the case 10 is attached / detached.
  • the transition from the open state to the closed state of the cover 11 may be realized by moving the rod body 33 to the X-axis plus side (the rod body 33 is housed inside the mounted portion 32).
  • the cover 11 can be closed only by the first control device 50a controlling the drive unit 45 to move the rod body 33 to the X-axis plus side.
  • the drive unit 45 automatically shifts the cover 11 from the open state to the closed state, so that workability is improved.
  • the cover 11 may be urged to be closed by an elastic body such as a spring (not shown).
  • an elastic body such as a spring (not shown).
  • the other end of the cover 11 opposite to the one end 11a is pushed to the minus side of the X-axis by an elastic body, and the cover 11 rotates clockwise (when viewed from the direction of FIG. 6) about the rotation axis J. It is being urged in the direction of
  • the rod body 33 moves to the plus side of the X-axis (is housed inside the mounted portion 32)
  • the cover 11 changes from the open state to the closed state, and the cover 11 is urged to the minus side of the X-axis.
  • FIG. 7 is a second diagram for explaining the opening and closing of the cover 11 of the case 10 according to the present embodiment.
  • FIG. 7 is a diagram partially showing an example of a cross section taken along line VII-VII in FIG. 6 (b). In FIG. 7, the rod body 33 is not shown.
  • the case main body 12 has a plurality of locking portions 12b protruding from the inner surface of the case main body 12 and the cover 17 at a portion surrounding one end portion 11a.
  • FIG. 7 illustrates an example of having five locking portions 12b1 to 12b5, but the number of locking portions 12b is not particularly limited.
  • one end 11a of the cover 11 is fixed by the locking portions 12b4 and 12b5.
  • one end portion 11a of the cover 11 may be fixed by the locking portion 12b1 and the inner surface (the surface on the minus side of the X-axis) of the cover 17.
  • the elastic body provided to urge the cover 11 to be closed is locked.
  • the movement of the elastic body to the negative side of the X-axis is restricted so that the other end of the cover 11 opposite to the one end 11a is not urged to the negative side of the X-axis by the elastic body.
  • the cover 11 can maintain a desired open state even if it is not continuously pressed by the rod body 33 by providing the locking portion 12b.
  • the first control device 50a may open the cover 11 to a desired degree of opening by the rod body 33, and then return the rod body 33 to the mounted portion 32.
  • the power consumption required for the rod body 33 to continue pressing the one end portion 11a can be reduced.
  • deterioration of the rod body 33 can be suppressed.
  • the elastic body When the case 10 is removed from the attachment 30, the elastic body is unlocked and the cover 11 is urged to be closed.
  • the mechanism for closing the cover 11 is not limited to this.
  • a rod body (not shown) that pushes one end of the cover 11 opposite to the one end 11a in the minus direction of the X-axis may be provided.
  • the cover 11 does not have to be urged to be closed by an elastic body such as a spring. That is, when the locking portion 12b is provided, the elastic body for closing the cover 11 may not be provided. In this case, the cover 11 may be locked by the locking portion 12b so that the opening degree of the opening 15 becomes smaller when the case 10 is removed from the attachment 30.
  • the case main body portion 12 is an accommodating body for accommodating parts in a bulk state.
  • the case body 12 is, for example, a long box body.
  • the case main body 12 has a storage chamber 12a for accommodating parts in a bulk state.
  • the accommodation chamber 12a has an inclined surface 16 that inclines downward toward the opening 15 (in the example of FIG. 5, in the negative direction of the Z axis).
  • the inclination angle of the inclined surface 16 is not particularly limited, and it is sufficient that the parts of the accommodation chamber 12a move along the inclined surface 16 due to the vibration of the vibration generating portion 41 and can be supplied to the attachment 30.
  • the accommodation chamber 12a Since the accommodation chamber 12a has the inclined surface 16, it becomes easy to supply parts to the attachment 30, and a space can be formed between the accommodation chamber 12a and the outer wall of the case main body portion 12.
  • the RF tag T2 is arranged in the space.
  • the RF tag T2 is arranged, for example, inside the case main body 12 and below the storage chamber 12a. Further, the RF tag T2 has a long shape and is arranged on the case main body 12 so that the longitudinal direction coincides with the longitudinal direction of the case main body 12. This makes it easier to attach the long RF tag T2 to the attachment surface 12c without increasing the area of the attachment surface 12c to which the RF tag T2 is attached.
  • the engaging portion 13 is a recess formed on the lower surface (the surface on the minus side of the Z axis) of the case main body portion 12 in order to fix the case 10 to the attachment 30.
  • the engaging portion 13 is provided at a position corresponding to the claw portion 37 of the mounted portion 32 of the attachment 30, and engages with the claw portion 37. That is, the case 10 is fixed to the attachment 30 by engaging the engaging portion 13 and the claw portion 37.
  • the case 10 cannot be easily removed after the case 10 is attached to the attachment 30.
  • the movement of the claw portion 37 may be restricted by the drive portion 45.
  • the drive portion 45 it is possible to prevent the parts from being mixed by the operator accidentally removing the case 10 from the attachment 30.
  • the case 10 containing parts other than the parts corresponding to the attachment 30 it is possible to prevent the case 10 containing parts other than the parts corresponding to the attachment 30 from being attached to the attachment 30. It is possible to remove the attachment 30 from the case 10 by removing the regulation of the drive unit 45.
  • the first convex portion 14 is a portion gripped by the robot arm 61 when the transfer robot 60 attaches the case 10 to the attachment 30 of the supply unit 80.
  • the first convex portion 14 is provided so as to project from the wall surface on the minus side of the X axis of the case main body portion 12 to the minus side of the X axis, for example.
  • the first convex portion 14 has a positioning portion 14a that determines a gripping position when the robot arm 61 grips the first convex portion 14.
  • the positioning portion 14a is, for example, a pair of recesses formed on the upper and lower surfaces of the first convex portion 14.
  • FIG. 8 is a diagram schematically showing how the transfer robot 60 grips the case 10 according to the present embodiment.
  • FIG. 8A is a diagram schematically showing the case 10 and the robot arm 61 when the Y-axis plus side is viewed from the Y-axis minus side
  • FIG. 8B is a diagram schematically showing the case 10 and the robot arm 61 from the X-axis plus side. It is a figure which shows typically the case 10 and the robot arm 61 when the X-axis minus side is seen.
  • the positioning portion 14a which is a recess, has a shape in which the cross-sectional area becomes smaller toward the inner part of a hole such as a quadrangular pyramid.
  • the robot arm 61 has a fitting portion 61a to be fitted to the positioning portion 14a.
  • the fitting portion 61a has a shape corresponding to the shape of the recess of the positioning portion 14a, and has, for example, a shape in contact with the side surface of the hole of the positioning portion 14a.
  • the transfer robot 60 when the transfer robot 60 tries to grip the case 10 with the robot arm 61, even if the positions of the positioning portion 14a and the fitting portion 61a do not completely match, the force gripped by the robot arm 61 causes the case 10. , The center of the fitting portion 61a and the center of the positioning portion 14a move so as to coincide with each other. Therefore, the transfer robot 60 can accurately grip the case 10. Further, the transfer robot 60 can prevent the case 10 from falling while the case 10 is being conveyed by providing the case 10 with the positioning portion 14a.
  • the position where the first convex portion 14 is provided is not limited to the position shown in FIG. 5 as long as the transfer robot 60 can grip the case 10.
  • the first convex portion 14 may be provided, for example, so as to project from the wall surface (upper surface) on the Z-axis plus side of the case main body portion 12 toward the Z-axis plus side.
  • the positioning portion 14a is not limited to being a concave portion, and may be a convex portion or a portion having a friction coefficient different from that of other portions.
  • the second convex portion 18 is a portion that engages with the guide portion (guide portion 39 shown in FIG. 9) provided in the attachment 30 when the case 10 is attached to the attachment 30. .. As shown in FIG. 9, the second convex portion 18 is provided so as to project from the lower surface of the case 10 to the negative side of the Z axis. The second convex portion 18 engages with the guide portion 39 of the attachment 30 of the feeder 20 in a state where the case 10 is attached to the attachment 30. As a result, the case 10 is fixedly attached to the attachment 30.
  • the second convex portion 18 is formed, for example, by forming a long notch 19 in the longitudinal direction of the case 10 on the lower surface of the case main body portion 12.
  • FIG. 9 is a schematic view of the feeder 20 to which the case 10 according to the present embodiment is attached when viewed from the longitudinal direction of the case 10.
  • FIG. 9 is a diagram partially showing an example of a cross section taken along the line IX-IX in FIG.
  • the second convex portion 18 engages with the guide portion 39 of the attachment 30 of the feeder 20.
  • the second convex portion 18 is attached along the guide portion 39, so that the workability when attaching the case 10 to the attachment 30 is improved.
  • the width w1 of the second convex portion 18 is shorter than the width w2 of the case 10.
  • the width of w2 of the case 10 can be increased as compared with the case where the width w1 of the second convex portion 18 is the same as the width w2 of the case 10.
  • the width w2 of the case 10 can be made equal to the width of the attachment 30.
  • the width w1 of the second convex portion may be smaller than the width (length in the Y-axis direction) of the holding portion 71 of the carriage 70, which will be described later.
  • the width w2 of the case 10 may be the same as the width of the holding portion 71.
  • the width of the opening 15 can be increased, so that clogging of parts at the opening 15 can be suppressed.
  • the cross-sectional shape of the second convex portion 18 may be a rectangular shape or a T-shaped shape (T-shaped slot shape). Since the cross-sectional shape of the second convex portion 18 is T-shaped, the case 10 can be fixed in the vertical direction (Z-axis direction) as well.
  • the cross-sectional shape of the second convex portion 18 is not limited to this, and may be, for example, a wedge shape (a wedge shape that tapers toward the minus side of the Z axis) or any other shape. good.
  • the notch portion 19 is formed on both end sides (Y-axis plus side and Y-minus side) of the lower surface of the case 10 when viewed from the longitudinal direction of the case 10 has been described, but the present invention is limited to this. Instead, it may be formed only on one end side, or may be formed at a central position in the Y-axis direction.
  • the RF tag T2 stores information about the parts housed in the case 10 to which the RF tag T2 is attached.
  • the RF tag T2 stores, for example, tag information such as information indicating the type of parts (identification information), information indicating the quantity (remaining number), and information indicating the expiration date.
  • the RF tag T2 may be attached to the case 10 already when the case 10 is delivered from the component manufacturer, for example. As a result, by storing the delivered case 10 in the parts storage W, it is possible to acquire information about the parts of the case 10 via the reader / writer RW. Information such as a warehousing date and a control number may be written in the RF tag T2 by the reader / writer of the parts storage W.
  • the case 10 having no remaining amount may be transported to the disposal area after being processed so that the information stored in the RF tag T2 cannot be read. This makes it possible to prevent parts from being mixed due to reuse of the case 10.
  • the RF tag T2 is an example of a second RF tag.
  • the feeder 20 has a case 10 detachably attached (for example, detachable), an attachment 30 for transporting parts, and a feeder main body 40 to which the attachment 30 is detachably attached. And have. It can be said that the feeder 20 includes a feeder main body 40 and an attachment 30 having an attached portion 32 that is removable from the feeder main body 40 and to which the case 10 is detachably attached. Further, it can be said that the feeder 20 can be separated into the attachment 30 and the feeder main body 40. For example, when the transport unit for transporting parts (corresponding to the transport portion 34 of the present embodiment) and the feeder main body portion (corresponding to the feeder main body portion of the present embodiment) are integrated, regardless of the type of parts.
  • the transport unit for transporting parts corresponding to the transport portion 34 of the present embodiment
  • the feeder main body portion corresponding to the feeder main body portion of the present embodiment
  • the transport unit is shared.
  • the parts used in the previous production may remain in the transport unit, and the parts of the case newly attached to the feeder (corresponding to the feeder 20 of the present embodiment) and the parts remaining in the transport unit. And may be mixed.
  • Such a mixture tends to be a problem especially when the parts supplied by the feeder 20 are changed to different types of parts for production.
  • the attachment 30 having the transport portion 34 and the feeder main body portion 40 can be separated. Therefore, by providing the transport portion 34 (attachment 30) exclusively for the parts, the feeder 20 can be used.
  • the feeder 20 can suppress mixing even when the size of the component is small.
  • the feeder 20 has a long shape, and the longitudinal direction is the X-axis direction.
  • the attachment 30 includes a mounted portion 32, a cover 32a, a rod body 33, a transport portion 34, a cover 35, a claw portion 37, and a convex portion 38. It has a guide unit 39 (see FIG. 9) and an RF tag T3.
  • the mounted portion 32 and the transport portion 34 are integrally formed.
  • an opening 32b is formed at a position corresponding to the opening 15 of the case 10, and an opening 35a is formed at a position where a component is taken out by the mounting head 107.
  • the rod body 33 is an example of an acting unit that moves along the X-axis direction by a driving unit 45 provided in the feeder main body 40 and acts on the cover 11 provided in the opening 15 of the case 10.
  • the mounted portion 32 is a portion to which the case 10 is attached and detached, fixes the case 10, and opens and closes the cover 11 of the case 10.
  • the mounted portion 32 is provided with a cover 32a, a rod body 33, a claw portion 37, and a guide portion 39.
  • the cover 32a covers the opening 32b to prevent other parts from being mixed into the attachment 30.
  • the cover 32a is provided between the opening 15 and the transport portion 34.
  • the cover 32a covers the opening 32b when the case 10 is not attached to the attachment 30.
  • the cover 32a is opened when the case 10 is attached to the attachment 30 and the case 10 is collated as to whether the case 10 is attached to the attachment 30 and the collation is successful.
  • the cover 32a may be opened and closed by, for example, the drive unit 45.
  • the cover 32a may be closed when the attachment 30 to which the case 10 is attached is removed from the feeder main body 40. As a result, it is possible to prevent the parts of the case 10 from invading the transport unit 34.
  • the mounted portion 32 has a cover 32a provided in the opening 32b formed at a position corresponding to the opening 15 of the case 10 in a state where the case 10 is mounted on the mounted portion 32.
  • the cover 32a is an example of the second cover.
  • the rod body 33 is an example of an opening / closing mechanism for opening / closing the cover 11.
  • the cover 11 is rotated around the rotation axis J by pressing the cover 11 to open / close the cover 11.
  • the rod body 33 is arranged, for example, at a position where one end portion 11a of the cover 11 can be pressed.
  • the shape of the rod 33 is not particularly limited. Further, when the rod body 33 does not press the one end portion 11a, it is preferable that the rod body 33 is housed inside the mounted portion 32. As a result, it is possible to prevent the rod body 33 from coming into contact with the one end portion 11a when the case 10 is attached to the attachment 30 or the like.
  • the attachment 30 has an opening / closing mechanism for opening / closing the cover 11 of the case 10.
  • the claw portion 37 is a convex portion provided at a position where the lower surface of the case 10 in the mounted portion 32 comes into contact with the case 10 in order to fix the case 10 to the attachment 30.
  • the claw portion 37 engages with the engaging portion 13 of the case 10 to fix the case 10 to the attachment 30.
  • the claw portion 37 can be moved between the first position accommodated in the mounted portion 32 and the second position protruding from the mounted portion 32. That is, the claw portion 37 can move in the Z-axis direction.
  • FIG. 4 shows an example in which the claw portion 37 is fixed at the second position.
  • the movement of the claw portion 37 between the first position and the second position may be performed by, for example, the drive unit 45 or an elastic body such as a spring.
  • the shape of the claw portion 37 when viewed from the Y-axis direction is, for example, a triangle, and in FIG. 4, it is a right triangle. Even if the claw portion 37 is formed, for example, when viewed from the Y-axis direction, the inclination increases toward the opening 32b side (in the example of FIG. 4, the hypotenuse of the right triangle rises to the right). good.
  • the guide portion 39 functions as a guide when the case 10 is fixedly attached to the attachment 30 and the case 10 is attached to the attachment 30 in a state where the case 10 is attached to the attachment 30.
  • the guide portion 39 is configured to include a support portion 39a that supports both ends of the case 10 in the width direction, and a groove portion 39b between the support portions 39a. As shown in FIG. 9, when the support portion 39a supports the lower surface of the case 10, the second convex portion 18 projecting from the lower surface of the case 10 engages with the guide portion 39.
  • the support portion 39a has a shape corresponding to the notch portion 19.
  • the width w3 of the groove portion 39b is shorter than the width w2 of the case 10.
  • the support portion 39a is provided so as to project from both ends of the mounted portion 32 toward the Z-axis plus side when viewed from the X-axis direction.
  • the transport unit 34 transports the parts supplied from the case 10 to the position where they are taken out by the mounting head 107.
  • the transport unit 34 transports the parts by the vibration generated by the vibration generation unit 41.
  • the transport unit 34 is an example of a component transport unit.
  • FIG. 10 is a diagram for explaining the transfer of the component P by the transfer unit 34 according to the present embodiment.
  • FIG. 10 shows a state when the transport unit 34 is viewed from the Z-axis plus side.
  • the transport unit 34 transports the component P so that the component P supplied from the case 10 is aligned toward the opening 35a.
  • the transport unit 34 has a guide portion 34a for aligning the parts P, and the parts P are transported along the guide portion 34a by the vibration from the vibration generating unit 41.
  • Align P Alignment here means that the parts P have the same orientation and are arranged in a row.
  • the transport unit 34 does not have to align the parts P as long as it can be taken out by the mounting head 107 even if the parts P are not aligned.
  • the transport unit 34 does not have to have the guide unit 34a.
  • the cover 35 covers the opening 35a.
  • the cover 35 is opened when the component is taken out by the mounting head 107.
  • the cover 35 is opened after the covers 11 and 32a are opened.
  • the opening and closing of the cover 35 may be performed by, for example, the drive unit 45.
  • FIG. 11A is a diagram showing a state in which the cover 35 of the attachment 30 according to the present embodiment is open.
  • FIG. 11B is a diagram showing a state in which the cover 35 of the attachment 30 according to the present embodiment is closed.
  • FIG. 11C is a diagram showing a state in which the cover 35 of the attachment 30 according to the present embodiment is closed and locked.
  • the cover 35 slides in the plus direction of the X-axis to open the cover 35. That is, the parts are exposed from the opening 35a. In this state, the mounting head 107 takes out the parts conveyed to the position of the opening 35a.
  • the surface of the attachment 30 on the plus side of the Y-axis is formed with a first portion 30a, a second portion 30b, and a third portion 30c having different thicknesses in the minus direction of the Y-axis.
  • the first portion 30a is a surface that comes into contact with the inner surface of the cover 35 when the cover 35 slides.
  • the second portion 30b is a portion thicker than the first portion 30a.
  • the third portion 30c is a portion thicker than the second portion 30b.
  • the first portion 30a, the second portion 30b, and the third portion 30c are formed in a staircase pattern.
  • the first portion 30a, the second portion 30b, and the third portion 30c may be formed on at least one of the Y-axis plus side surface and the Y-axis minus side surface of the attachment 30.
  • the opening 35a is closed by sliding the cover 35 in the minus direction of the X-axis. That is, the cover 35 changes from the open state to the closed state. At this time, the contact portion 35b of the cover 35 comes into contact with the second portion 30b, so that the movement in the minus direction of the X axis is restricted.
  • the cover 35 is formed so as to cover the opening 35a in a state where the contact portion 35b is in contact with the second portion 30b. At this time, the cover 35 is in a movable state in the plus direction of the X hour axis. That is, the state in which the contact portion 35b is in contact with the second portion 30b is a state in which the cover 35 can be easily opened.
  • the cover 35 is in a state of functioning as a shutter so that the parts in the transport portion 34 do not pop out. For example, when the cover 35 needs to be opened and closed frequently, the states shown in FIGS. 11A and 11B are repeated. For example, while the mounting head 107 does not take out the component, the state transitions from the open state to the state shown in FIG. 11B.
  • the cover 35 further slides (pushes in) in the minus direction of the X-axis from the state shown in FIG. 11B, so that the contact portion 35b comes into contact with the third portion 30c.
  • the cover 35 since the cover 35 and the second portion 30b are in contact with each other, the cover 35 cannot be easily moved. That is, the cover 35 cannot be easily opened. It can be said that the cover 35 functions as a lid for covering the opening 35a.
  • the state transitions to the state shown in FIG. 11C.
  • the transition of the state of the cover 35 shown in FIGS. 11A to 11C is executed by the first control device 50a.
  • the engaging portion 36 is a recess formed in the lower surface (Z-axis minus side surface) of the attachment 30 for fixing the attachment 30 to the feeder main body 40. be.
  • the engaging portion 36 is provided at a position corresponding to the claw portion 43 provided in the feeder main body portion 40, and engages with the claw portion 43. That is, the attachment 30 is fixed to the feeder main body 40 by engaging the engaging portion 36 and the claw portion 43.
  • the convex portion 38 is a portion gripped by the robot arm 61 when the transfer robot 60 attaches the attachment 30 to the feeder main body portion 40 of the supply unit 80.
  • the convex portion 38 is provided, for example, so as to project from the wall surface on the minus side of the X axis of the attachment 30 toward the minus side of the X axis.
  • the convex portion 38 may have a positioning portion that determines a gripping position when the robot arm 61 grips the convex portion 38.
  • the positioning portion is, for example, a pair of recesses formed on the upper and lower surfaces of the convex portion 38.
  • the convex portion 38 may be formed with a positioning portion such as the positioning portion 14a of the first convex portion 14.
  • the RF tag T3 stores tag information such as identification information of the attachment 30, usage history, and parts corresponding to the attachment 30. Further, when the case 10 is attached to the attachment 30, the RF tag T3 may store information about the parts of the case 10. That is, at least a part of the information stored in the RF tag T2 may be stored in the RF tag T3. Information such as a warehousing date and a control number may be written in the RF tag T3 via the reader / writer of the parts storage W.
  • the attachment 30 will be described, for example, exclusively provided for each type of component, that is, an example in which the component and the attachment 30 are associated with each other, but the present invention is not limited thereto.
  • the rod body 33 (acting portion) is provided on the mounted portion 32 to open and close the cover 11 of the case 10
  • the present invention is not limited to this.
  • the rod body 33 is provided in the case 10
  • the case 10 is attached to the mounted portion 32, and then the rod body 33 presses the cover 32a of the mounted portion 32 to open and close the cover 32a.
  • the acting portion provided on the case 10 may open and close the cover 32a of the mounted portion 32.
  • the cover 11 is opened and closed by the rod body 33 after the case 10 is attached to the attachment 30 and collated, but the case 10 is attached to the attachment 30 in conjunction with the case.
  • the cover 11 of 10 may be opened and closed. For example, it can be realized by projecting the rod body 33 from the mounted portion 32 in advance when the case 10 is attached to the attachment 30.
  • the feeder main body 40 is an object to which the attachment 30 is detachably attached. In other words, the feeder main body 40 is detachably attached to the mounted portion 32 and the transport portion 34.
  • the feeder main body 40 has a vibration generating portion 41, a claw portion 43, a convex portion 44, a driving portion 45, and an RF tag T1.
  • the feeder main body 40 is an accommodating body that accommodates the vibration generating portion 41, the claw portion 43, the RF tag T1, and the like, and is, for example, a box shape.
  • the vibration generating unit 41 vibrates the attachment 30 to convey the parts to the opening 35a.
  • the vibration generating unit 41 vibrates the attachment 30 along the X-axis direction, for example, but the attachment 30 is not limited to this, and any vibration condition may be used as long as the component can be conveyed to the opening 35a.
  • the vibration generating unit 41 can control the supply amount of the parts supplied from the case 10 to the attachment 30 depending on the vibration conditions. The vibration conditions may be determined according to the supply amount of the parts.
  • the vibration generating unit 41 is realized by, for example, an actuator (oscillator).
  • the claw portion 43 is a convex portion provided at a position where the lower surface of the attachment 30 comes into contact with the attachment 30 in order to fix the attachment 30 to the feeder main body portion 40.
  • the claw portion 43 engages with the engaging portion 36 of the attachment 30 to fix the attachment 30 to the feeder main body portion 40.
  • the claw portion 43 is movable between a third position housed in the feeder main body 40 and a fourth position protruding from the feeder main body 40. That is, the claw portion 43 may be movable in the Z-axis direction. In FIG. 4, the claw portion 37 is fixed at the fourth position.
  • the movement of the claw portion 43 from the third position to the fourth position may be performed by, for example, a drive portion (not shown) included in the feeder main body portion 40.
  • the convex portion 44 is a portion gripped by the robot arm 61 when the transfer robot 60 attaches the feeder main body portion 40 to the carriage 70 of the supply unit 80.
  • the convex portion 44 is provided, for example, so as to project from the wall surface on the negative side of the X axis of the feeder main body 40 to the negative side of the X axis.
  • the convex portion 44 may have a positioning portion that determines a gripping position when the robot arm 61 grips the convex portion 44.
  • the positioning portion is, for example, a pair of recesses formed on the upper and lower surfaces of the convex portion 44. That is, the convex portion 44 may be formed with a positioning portion such as the positioning portion 14a of the first convex portion 14.
  • the drive unit 45 moves the rod body 33 provided on the mounted portion 32 to which the case 10 of the attachment 30 is mounted along the X-axis direction under the control of the first control device 50a. It can be said that the drive unit 45 moves the rod body 33 in and out of the mounted unit 32.
  • the drive unit 45 changes the cover 11 from the closed state to the open state by physically acting the rod body 33 on the cover 11 while the case 10 is mounted on the mounted portion 32. Further, the drive unit 45 stops the rod body 33 from physically acting on the cover 11 while the case 10 is mounted on the mounted portion 32, so that the rod body 33 comes into contact with the cover 11, for example.
  • the cover 11 is changed from the open state to the closed state by transitioning from the state of being in contact to the state of not being in contact.
  • the drive unit 45 is realized by, for example, an actuator.
  • the rod body 33 that physically acts on the cover 11 is driven by the drive unit 45 provided in the feeder main body 40.
  • the case main body portion 12 has a cover 17 in which one end portion 11a of the cover 11 is covered from the outer side of the case 10 and a through hole 17a through which the rod body 33 can be inserted is formed. That is, in the mounting system 1 according to the present embodiment, the operation for closing and opening the cover 11 cannot be performed from the outside of the feeder 20, and the cover 11 can be opened and closed by an erroneous operation of the operator or the transfer robot 60. Can be suppressed.
  • the cover 11 cannot be opened or closed unless the case 10 and the attachment 30 are attached to the feeder main body 40, and the operator or the transfer robot 60 can be used. It is possible to suppress the opening and closing of the cover 11 due to an erroneous operation.
  • the RF tag T1 stores information such as identification information and usage history of the feeder main body 40. Information such as a warehousing date and a control number may be written in the RF tag T1 via a reader / writer of the parts storage W. The RF tag T1 may be built in the feeder main body 40. The RF tag T1 is an example of the first RF tag.
  • the integrated control device 50 sends an instruction to the first control device 50a and the second control device 50b.
  • the first control device 50a controls each component of the mounting system 1.
  • the integrated control device 50 has a control unit 51 and a storage unit 52.
  • the control unit 51 sends an instruction to the first control device 50a and the second control device 50b.
  • the control unit 51 outputs, for example, an instruction regarding production on the mounting line 90 to the first control device 50a. Further, the control unit 51 outputs, for example, an instruction (for example, a supply request) regarding the supply of parts to the second control device 50b. Further, the control unit 51 collates the tag information acquired from the reader 130 and the reader / writer RW, performs various determination processes, and the like.
  • the first control device 50a is communicably connected to the vibration generation unit 41, the drive unit 45, the mounting head 107, the power supply unit 111, the reading device 130, and the component detection unit 141, and each is based on an instruction from the integrated control device 50. Control the components.
  • the second control device 50b is communicably connected to the transfer robot 60 and controls the transfer robot 60 based on an instruction from the integrated control device 50.
  • the first control device 50a controls the drive unit 45 to move the rod body 33 in and out.
  • the first control device 50a controls the drive unit 45 and pushes the rod body 33 toward the minus side of the X-axis to open the cover 11 of the case 10 attached to the attachment 30. Further, the first control device 50a controls the drive unit 45 to return the rod body 33 to the X-axis plus side, and closes the cover 11 of the case 10 attached to the attachment 30.
  • the first control device 50a controls the vibration generating unit 41 when the component is conveyed to a position where the mounting head 107 can be taken out, and vibrates the attachment 30. This vibration is also transmitted to, for example, the case 10. As a result, parts are supplied from the case 10 to the attachment 30, and the parts are conveyed to the opening 35a by vibration. It can be said that the first control device 50a conveys the parts supplied from the opening 15 of the case 10 to the attachment 30 to the opening 35a via the conveying portion 34 of the attachment 30 by the vibration of the vibration generating portion 41. Further, the first control device 50a may control the power supply unit 111 to supply electric power to the vibration generating unit 41, the driving unit 45, and the like as needed.
  • control unit 51 controls the reading device 130 attached to the trolley 70, and is stored in the RF tags T1 to T4 from each of the case 10, the attachment 30, and the feeder main body 40 attached to the trolley 70. By acquiring the tag information, it is confirmed whether the case 10, the attachment 30, and the feeder main body 40 attached to the trolley 70 are correct. Further, the control unit 51 can confirm the arrangement error or the like in advance by performing the above confirmation on the supply unit 80 prepared in the preparation area A2, for example. Further, the control unit 51 can also acquire tag information from the RF tag T4 of the roll body case 120 stored in the standby area A21 (empty space) of the carriage 70. The parts stored in the empty space of the carriage 70 are not limited to the roll body case 120.
  • the first control device 50a controls the mounting head 107 to take out the parts conveyed to the opening 35a and mount them on the object. At this time, the first control device 50a may count the number of parts mounted on the object by the mounting head 107.
  • the RF tag T1 stores tag information such as usage history and identification information of the feeder main body 40.
  • the RF tag T4 stores tag information including information about parts housed in the roll body case 120 to which the RF tag T4 is attached.
  • the roll body case 120 accommodates, for example, a tape roll body in which a carrier tape is rolled into a roll shape.
  • the integrated control device 50 may instruct the second control device 50b to prepare in advance the supply unit 80 to be used in the next production, for example, based on the production data.
  • the second control device 50b acquires, for example, information about the parts used in the next production based on the production data, and stores the case 10 for accommodating the acquired parts and the attachment 30 corresponding to the case 10 in the parts storage.
  • the transfer robot 60 is controlled so as to transfer from W to the preparation area A2.
  • the second control device 50b has a plurality of cases 10 accommodating parts used in the next production, for example, even if the case 10 having a larger inventory than the number of parts used in the next production is conveyed by the transfer robot 60. good.
  • By acquiring information about parts from each of the plurality of cases 10 by the second control device 50b via the reader / writer RW it is possible to identify the case 10 in which the inventory is larger than the number of parts used for the next production. ..
  • the second control device 50b may attach a single case 10 accommodating parts to be used in the next production to the attachment 30 corresponding to the case 10, and convey the attachment 30 to which the case 10 is attached to the transfer robot 60. If the attachment 30 to which the case 10 is already attached is stored, the attachment 30 may be conveyed to the transfer robot 60. When the attachment 30 to which the case 10 is already attached is stored, the remaining number of cases 10 used in the past production is a predetermined number or more, and the attachment 30 to which the case 10 is attached from the mounting line 90 is in that state. This is the case when the parts are stored in the parts storage W as they are.
  • the second control device 50b attaches the case 10 and the attachment 30 conveyed by the transfer robot 60 to the feeder main body 40 previously arranged on the carriage 70. Specifically, the second control device 50b attaches the attachment 30 to the feeder main body 40.
  • the storage unit 52 stores various programs for the control unit 51 to perform the above control, production data for producing the mounting board, acquired RF tag T information, information indicating the correspondence between the component and the attachment 30, and the like.
  • the storage unit 52 is realized by, for example, a semiconductor memory, but is not limited thereto.
  • the production data is, for example, a table in which the type and number of parts to be used, the arrangement of the case 10 on the trolley 70, and the like are associated with each other.
  • the dolly 70 is configured to be removable from the main body of the component mounting device 100.
  • the main body of the component mounting device 100 is, for example, a part of the component mounting device 100 excluding the carriage 70.
  • the dolly 70 has a holding portion 71 for holding the feeder 20, a dolly main body portion for supporting the holding portion 71, and a reading device 130.
  • the carriage 70 has, for example, a plurality of holding portions 71, and the plurality of holding portions 71 are arranged on the carriage main body portion along the Y-axis direction. In this case, each of the plurality of holding portions 71 holds the feeder 20.
  • the reading device 130 is provided in each of the plurality of holding portions 71.
  • the holding portion 71 is also referred to as, for example, a feeder slot.
  • the dolly 70 is an example of a feeder arrangement portion.
  • the reading device 130 reads the tag information of the feeder 20 held in the holding unit 71 in which the reading device 130 is arranged and the case 10 fixed to the feeder 20. Specifically, the reading device 130 has an RF tag T2 attached to the case 10, an RF tag T3 attached to the attachment 30, and an RF tag T1 attached to the feeder main body 40. Read the tag information from each. Further, when the object is in the standby area A21 of the carriage 70, the reading device 130 may read the tag information about the object from the RF tag (an example of the fourth RF tag) attached to the object. .. In the example of FIG. 3, the roll body case 120 is stored in the standby area A21, and the RF tag T4 is attached to the roll body case 120. The reading device 130 may also read the tag information from the RF tag T4. The RF tag T4 is an example of a fourth RF tag.
  • the object waiting in the standby area A21 is an object related to the production of the mounting system 1, and may be, for example, a feeder, a case, or a tape feeder.
  • the tape feeder supplies the parts from the parts tape containing the parts.
  • the object may be a tray feeder, a stick fee, a bulk feeder, or the like.
  • the tray feeder supplies the parts from the tray containing the parts.
  • the stick feeder supplies the parts from the stick case containing the parts.
  • the tag information read by the reading device 130 is output to the integrated control device 50 via the first control device 50a.
  • FIG. 12 is a schematic partial cross-sectional view for explaining the arrangement of the antenna and the RF tag according to the present embodiment.
  • the reading device 130 has a reading unit 131, a switching unit 132, and antennas a1 to a7.
  • the reading unit 131 reads tag information from each RF tag via the antennas a1 to a7.
  • the reading unit 131 reads tag information from the RF tag corresponding to the antenna via the antenna selected by the switching unit 132.
  • the reading unit 131 is realized by, for example, a reader / writer that reads tag information from each RF tag.
  • the switching unit 132 selects antennas a1 to a7 connected to the reading unit 131 in order to switch the RF tag on which the reading unit 131 reads the tag information. It can also be said that the switching unit 132 selects an antenna that can read the tag information from the RF tag in order to read the tag information from the RF tag to be read.
  • Antenna a1 is an antenna provided on the carriage 70 and capable of transmitting and receiving signals to the RF tag T1.
  • the antenna a1 is arranged in the vicinity of the RF tag T1 so as to face the RF tag T1.
  • the antenna a1 and the switching unit 132 are connected by, for example, a cable C1.
  • the antenna a1 is an example of the first antenna.
  • the antenna a2 is an antenna provided on the carriage 70 and capable of transmitting and receiving signals to and from the RF tag T2.
  • the antenna a2 and the switching unit 132 are connected by, for example, a cable C2.
  • the antenna a1 is an example of the second antenna.
  • the antenna a3 is provided on the feeder 20 and is arranged so as to face the RF tag T2. Specifically, the antenna a3 is arranged in the feeder main body 40. More specifically, the antenna a3 is arranged on the surface of the feeder main body 40 on the attachment 30 side. That is, the antenna a3 is arranged in the vicinity of the RF tag T2.
  • the antenna a3 is an example of the third antenna.
  • the antenna a3 may transmit a signal including the tag information stored in the RF tag T2 to the RF tag T3. That is, the antenna a3 may be capable of transmitting and receiving signals to and from each of the RF tag T2 and the RF tag T3.
  • the antenna a4 is provided on the feeder 20 and is arranged so as to face the antenna a2. Specifically, the antenna a4 is arranged in the feeder main body 40. More specifically, the antenna a4 is arranged on the surface of the feeder main body 40 opposite to the attachment 30. The antenna a4 is arranged in the vicinity of the antenna a2 so as to face the antenna a2. The antenna a4 is an example of the fourth antenna. Further, the antenna a3 and the antenna a4 are connected by, for example, a cable C3. The cable C3 is housed in the feeder main body 40.
  • the antenna a4 is arranged so as to face the antenna a2 to form a coupled antenna. That is, the antenna a4 and the antenna a2 are arranged so as to be electromagnetically coupled. An object that obstructs the propagation of electromagnetic waves, such as metal, is not placed between the antenna a4 and the antenna a2. For example, a space may or may not exist between the antenna a4 and the antenna a2.
  • the antenna a2 can send and receive signals to and from the RF tag T2 via the antenna a4, the cable C3, and the antenna a3.
  • the antenna a4, the cable C3, and the antenna a3 are examples of a transmission unit that transmits the signal of the antenna a2.
  • the antenna a5 is provided on the carriage 70 and is an antenna capable of transmitting and receiving signals to the RF tag T3.
  • the antenna a5 and the switching unit 132 are connected by, for example, a cable C4.
  • the antenna a5 is an example of the fifth antenna.
  • the antenna a6 is provided on the feeder 20 and is arranged so as to face the RF tag T3. Specifically, the antenna a6 is arranged in the feeder main body 40. More specifically, the antenna a6 is arranged on the surface of the feeder main body 40 on the attachment 30 side. That is, the antenna a6 is arranged in the vicinity of the RF tag T3. In the present embodiment, the antenna a6 and the antenna a3 are arranged at positions where they do not overlap in a plan view, but the antenna a6 and the antenna a3 may be arranged so that at least a part of them overlap in a plan view. good.
  • the antenna a7 is provided on the feeder 20 and is arranged so as to face the antenna a5. Specifically, the antenna a7 is arranged on the feeder main body 40. More specifically, the antenna a7 is arranged on the surface of the feeder main body 40 opposite to the attachment 30. The antenna a7 is arranged in the vicinity of the antenna a5. The antenna a6 and the antenna a7 are connected by, for example, a cable C5. The cable C5 is housed in the feeder main body 40.
  • the antenna a7 is arranged so as to face the antenna a5 to form a coupled antenna.
  • the antenna a5 can transmit and receive signals to and from the RF tag T3 via the antenna a7, the cable C5, and the antenna a6.
  • the antenna a7, the cable C5, and the antenna a6 are examples of a transmission unit that transmits the signal of the antenna a5.
  • the antenna arranged on the carriage 70 and the antenna arranged on the feeder main body 40 form a coupled antenna. Further, the antenna in the feeder main body 40 is connected by using a cable. If the two antennas in the feeder main body 40 can be arranged so as to be electromagnetically coupled, it is not necessary to use a cable for connection.
  • Cables C1 to C5 are, for example, coaxial cables, but are not limited thereto. Further, for example, cables and antennas are not arranged in the case 10 and the attachment 30.
  • the RF tag T2 arranged in the case 10 and the RF tag T3 arranged in the attachment 30 are arranged so that at least a part thereof does not overlap in a plan view.
  • the RF tag T2 and the RF tag T3 may be arranged so that at least a part of the RF tag T2 and the RF tag T3 do not overlap in the plan view, for example, in the longitudinal direction of the feeder 20.
  • the RF tag T2 and the RF tag T3 are arranged at positions that do not overlap each other in a plan view.
  • the two RF tags may overlap if at least one antenna is arranged between the two RF tags.
  • the RF tag T1 and the RF tag T2 overlap each other in a plan view, but since the antenna a3 is arranged between the RF tag T1 and the RF tag T2, there is no problem in reading.
  • the reading device 130 When an object such as a roll case 120 is stored in the standby area A21, the reading device 130 provides an antenna (not shown) capable of transmitting and receiving signals to the RF tag T4 attached to the object. You may have.
  • the antenna is provided on the carriage 70 and is arranged so as to face the antenna in the vicinity of the RF tag T4.
  • the antenna is an example of the sixth antenna.
  • the sensor 140 detects the parts supplied from the case 10 to the attachment 30 in a non-contact manner.
  • the sensor 140 may be any existing sensor as long as it can detect the component in a non-contact manner.
  • the sensor 140 may be, for example, an optical sensor having a light emitting unit and a light receiving unit. In the case of an optical sensor, the sensor 140 outputs to the component detection unit 141 according to the amount of light received by the light receiving unit.
  • the sensor 140 is provided, for example, inside the mounted portion 32, in the vicinity of the opening 32b, but is not limited to this, and may be provided in the vicinity of the opening 15 of the case 10.
  • the component detection unit 141 receives the output of the sensor 140 and detects the presence or absence of components. It can be said that the component detection unit 141 receives the output of the sensor 140 and detects whether or not the component is supplied from the case 10 to the attachment 30. Further, the component detection unit 141 may detect the number of components supplied from the case 10 to the attachment 30, or may detect whether or not the components are supplied from the case 10 to the attachment 30.
  • the component detection unit 141 is provided in, for example, the component mounting device 100.
  • FIG. 13 is a flowchart showing an operation of exchanging the case 10 of the mounting system 1 according to the present embodiment.
  • the flowchart shown in FIG. 13 is performed during production (parts are being mounted on the substrate 103). That is, in the flowchart shown in FIG. 13, in the mounting process in which the parts in the feeder 20 are held by the mounting head 107 and mounted on the board 103, the parts are mounted on the board 103 continuously in time. Will be executed. That is, the following operations are executed in parallel with the mounting process.
  • the first control device 50a causes the feeder 20 to supply the parts in the case 10 (S101). Specifically, the first control device 50a vibrates the vibration generating unit 41 to supply parts having a supply amount corresponding to the vibration to the feeder 20 (attachment 30 in the present embodiment).
  • the first control device 50a acquires the remaining number of parts in the case 10 (S102).
  • the first control device 50a includes, for example, the number of parts (initial number) in the case 10 acquired from the RF tag T2 attached to the case 10 when the case 10 is attached to the attachment 30, and in the mounting process.
  • the remaining number is obtained by calculating the remaining number of parts in the case 10 at the present time based on the number of parts supplied to the attachment 30.
  • the number of parts supplied to the attachment 30 can be obtained, for example, by the detection result of the sensor 140 installed near the opening 32b of the attachment 30. In this way, the first control device 50a also functions as a confirmation unit for confirming the remaining number of parts.
  • the method of acquiring the remaining number of parts by the first control device 50a is not limited to the above, and is based on, for example, the initial number of parts and the number of parts mounted (used) by the mounting head 107. It may be calculated. For example, the first control device 50a calculates the number of parts supplied from the case 10 to the attachment 30 based on the number of parts mounted in the mounting process (for example, the number of times the mounting head 107 has performed the mounting operation). May be good. Further, the method of acquiring the remaining number of parts by the first control device 50a may be calculated based on the initial number of parts in the case 10 and the mounting time. In this case, the sensor 140 may not be provided.
  • the first control device 50a determines that the remaining number of the cases 10 is zero when the parts are no longer supplied. You may. In this case, the first control device 50a can acquire the remaining number of parts in the case 10 based on the detection result from the sensor 140. Specifically, the first control device 50a can acquire that the remaining number of parts in the case 10 has become zero based on the detection result from the sensor 140.
  • the first control device 50a determines whether or not there is a remaining number of parts in the case 10 based on the remaining number of parts in the case 10 acquired in step S102 (S103).
  • the first control device 50a may determine in step S103 whether or not the remaining number of parts in the case 10 has become zero, and whether or not the remaining number of parts in the case 10 has become a predetermined number or less. May be determined.
  • the predetermined number is set in advance and stored in the storage unit 52, for example.
  • the first control device 50a proceeds to step S104 when there is no remaining number of parts in the case 10 (No in S103). That is, the first control device 50a proceeds to step S104 when the remaining number of parts in the case 10 becomes zero or when the remaining number of parts in the case 10 becomes a predetermined number or less. Further, when there is a remaining number of parts in the case 10 (Yes in S103), the first control device 50a returns to step S101 and continues to supply the parts. That is, the first control device 50a maintains the open state of the cover 11 of the case 10 and the cover 32a of the attachment 30 based on the remaining number acquired in step S102. It can be said that the first control device 50a maintains the state in which the cover 11 is opened when there are remaining parts in the case 10.
  • the first control device 50a determines in step S103 based on, for example, the remaining number of parts in the attachment 30 (for example, in the transport unit 34) or the detection result indicating that the parts remain in the attachment 30. You may go. In this case, when the first control device 50a acquires the information indicating that there are a predetermined number or more of parts in the attachment 30 or the parts remain in the attachment 30, it is determined as Yes in step S103.
  • the information may be, for example, the detection result of the sensor 140.
  • the sensor 140 may be arranged in the middle of the transport unit 34, for example. For example, the sensor 140 may be provided in the transport unit 34 so as to be able to detect whether or not there is a supply of parts from the upstream side (case 10 side) of the transport unit 34.
  • steps S101 to S103 may be executed as part of the mounting process.
  • the first control device 50a changes the cover 11 of the case 10 and the cover 32a of the attachment 30 from the open state to the closed state (S104). That is, the first control device 50a changes the cover 11 of the case 10 and the cover 32a of the attachment 30 from the open state to the closed state based on the remaining number acquired in step S102. It can be said that the first control device 50a closes the cover 11 when there are no remaining parts in the case 10.
  • step S104 parts still remain in the transport unit 34 of the attachment 30. Therefore, the steps after step S104 can be executed in parallel with the mounting step. That is, the case 10 can be replaced while holding the parts in the transport unit 34 and mounting them on the substrate 103.
  • step S104 the cover 11 of the case 10 does not have to be closed. That is, in step S104, the cover 32a of the attachment 30 may be closed. In this case, the opening 32b of the mounted portion 32 in the state where the case 10 is removed from the mounted portion 32 of the feeder 20 is closed by the cover 32a.
  • the second control device 50b causes the transfer robot 60 to replace the case 10 by outputting a supply instruction (S105).
  • the transfer robot 60 conveys the case 10 containing the parts having no remaining number from the storage area A1 or the preparation area A2 to the position of the case 10 having no remaining number, and replaces the case 10.
  • the replenishment instruction may include information for specifying the case 10 to be transported from the storage area A1 or the preparation area A2, and information for specifying the position for exchanging the case 10 (for example, the position of the feeder 20). ..
  • FIG. 14 is a diagram showing how the case 10 is attached to the attachment 30 according to the present embodiment.
  • the case 10 shown in FIG. 14 is moved by the transfer robot 60, but the transfer robot 60 is not shown.
  • FIG. 14 only the engaging portion 13 and the claw portion 37 are hidden by a broken line.
  • FIG. 14A shows a state in which a part of the case 10 is placed on the mounted portion 32 of the attachment 30. At this time, the claw portion 37 is in a second position protruding from the mounted portion 32.
  • FIG. 14B shows a state in which the case 10 is moved to the position of the claw portion 37 by the transfer robot 60.
  • the claw portion 37 is pushed by, for example, the case 10 and moves to the inside of the mounted portion 32. That is, the claw portion 37 moves to the first position accommodated in the mounted portion 32.
  • the movement of the claw portion 37 may be performed by the drive portion 45.
  • at least a part of the claw portion 37 may be accommodated in the mounted portion 32.
  • the position of the claw portion 37 in which at least a part thereof is housed in the mounted portion 32 is also included in the first position.
  • FIG. 14C shows a state in which the engaging portion 13 of the case 10 and the claw portion 37 are engaged and the case 10 is fixed to the attachment 30. At this time, the claw portion 37 is in the second position. In this state, the tag information of the RF tag T2 of the exchanged case 10 has not been collated. Therefore, it is preferable that the cover 11 of the case 10 and the cover 32a of the mounted portion 32 remain in the closed state. Not limited to this. As long as the case 10 is fixed to the attachment 30, the cover 32a of the mounted portion 32 may be in the open state.
  • the claw portion 37 is movable between the first position in which at least a part thereof is accommodated in the mounted portion 32 and the second position protruding from the mounted portion 32. Then, the claw portion 37 engages with the engaging portion 13 provided on the lower surface of the case 10 at the second position to fix the case 10 to the mounted portion 32.
  • the first position may be a position on the minus side of the Z axis from the second position.
  • the first control device 50a controls the reading device 130 to read the tag information of the replaced RF tag T2 of the case 10 (S106).
  • the first control device 50a controls the switching unit 132 to conduct the reading unit 131 and the antenna a2.
  • the reading unit 131 reads the tag information from the RF tag T2 via the antenna a2, and outputs the read tag information to the integrated control device 50 via the first control device 50a.
  • the integrated control device 50 can acquire the tag information of the RF tag T2 of the exchanged case 10.
  • the integrated control device 50 determines whether or not the replaced case is appropriate (S107).
  • the integrated control device 50 may determine, for example, whether or not the tag information acquired in step S106 matches the production data.
  • the integrated control device 50 may determine, for example, whether or not the type of the component included in the tag information and the type of the component corresponding to the feeder 20 included in the production data match. Further, the integrated control device 50 may determine whether the number of parts included in the tag information is equal to or larger than the number of parts required for production included in the production data. Matching in this case includes the quantity of parts satisfying the production data.
  • step S107 the determination may be made without using the production data.
  • the integrated control device 50 may make a determination in step S107 depending on whether or not the types of parts of the case 10 before and after replacement match. Further, in addition to the determination using the types of parts included in the production data, the determination in step S107 may be performed depending on whether or not the parts match the parts type of the attachment 30.
  • the integrated control device 50 proceeds to step S108 when the replaced case 10 is appropriate (Yes in S107). Further, when the replaced case 10 is not appropriate (No in S107), the integrated control device 50 returns to step S105 and causes the case to be replaced again. It should be noted that the determination of Yes in step S107 is an example of successful collation, and the determination of No in step S107 is an example of failure of collation.
  • the first control device 50a changes the cover 11 of the case 10 and the cover 32a of the attachment 30 from the closed state to the open state (S108). That is, the first control device 50a changes the cover 11 of the case 10 and the cover 32a of the attachment 30 from the closed state to the open state based on the determination result of step S107.
  • FIG. 14D shows a state in which the cover 11 of the case 10 and the cover 32a of the attachment 30 are changed from the closed state to the open state.
  • the first control device 50a collates the tag information of the exchanged case 10 with the production data, and when the collation is successful, for example, when the tag information and the production data match, the covers 11 and 32a Is opened, and the supply of parts to the attachment 30 is started.
  • the above steps S104 to S108 are examples of parts replenishment steps.
  • the parts supply step is executed with the parts remaining in the transport unit 34.
  • FIG. 15 is a flowchart showing an operation of exchanging the case 10 and the feeder 20 of the mounting system 1 according to the present embodiment. Specifically, FIG. 15 shows an operation of preparing a dolly 70 for replacement in the preparation area A2 in advance.
  • FIG. 16 is a flowchart showing an operation of acquiring the tag information shown in FIG. FIG. 16 describes an example in which the RF tag is an RF tag for a long distance.
  • the RF tag for a long distance is, for example, an RF tag capable of communication of about 1 to 2 m.
  • the RF tag may be an RF tag for a short distance.
  • the RF tag for a short distance has a shorter communication distance than the RF tag for a long distance, for example, about several tens of centimeters.
  • the second control device 50b attaches the case 10 and the attachment 30 to the trolley 70 arranged in the preparation area A2 (S201).
  • the second control device 50b controls the transfer robot 60 to hold a case 10 for accommodating parts used in the next production and an attachment 30 corresponding to the case 10, based on, for example, production data. It is attached to the feeder main body 40. It is assumed that the feeder main body 40 is preliminarily attached to the feeder slot of the carriage 70.
  • a plurality of feeder main bodies 40 are attached to the carriage 70, and in step S201, a case 10 and an attachment 30 corresponding to the case 10 are attached to each of the plurality of feeder main bodies 40.
  • the antenna is arranged in each of the plurality of feeder main body portions 40.
  • the first control device 50a acquires the tag information stored in the RF tags T2 and T3 from each of the plurality of RF tags T2 and T3 (S202). Since the RF tags T2 and T3 are RF tags for long distances, the first control device 50a simultaneously acquires signals from each of the plurality of RF tags T2 and T3. Therefore, the first control device 50a cannot specify the RF tags T2 and T3 corresponding to the antenna a1 from the acquired tag information. Therefore, in the present embodiment, the first control device 50a identifies the RF tags T2 and T3 corresponding to the antenna a1 based on the radio wave intensity of the signals received from each of the plurality of RF tags T2 and T3.
  • step S202 for example, at least one of the RF tags T2 and T3 may be acquired.
  • the control unit 51 of the integrated control device 50 may acquire the tag information stored in the RF tags T2 and T3 from each of the plurality of RF tags T2 and T3. That is, the tag information may be acquired by the first control device 50a or the control unit 51.
  • the first control device 50a acquires the radio wave intensity of the signal from each of the plurality of RF tags T2 (S301).
  • the first control device 50a calculates the radio wave strength (signal strength) of the signal based on the signal acquired from the RF tag T2.
  • the first control device 50a identifies the RF tag T2 corresponding to the antenna a1 based on the plurality of radio wave intensities (S302). Specifically, the first control device 50a determines that the RF tag T2 corresponding to the signal having the strongest radio field strength among the plurality of radio wave strengths is the RF tag T2 corresponding to the antenna a1.
  • FIG. 17 is a schematic diagram for explaining a process of specifying the RF tag T2 corresponding to the antenna a1.
  • the width of the double-headed arrow shown in FIG. 17 indicates the strength of the signal transmitted from each RF tag T2 to the antenna a1 arranged on the leftmost side. The larger the width, the higher the signal strength.
  • the radio field intensity changes according to the distance between the antenna a1 and the RF tag T2. Therefore, by specifying the RF tag T2 based on the radio wave strength, the RF tag T2 corresponding to the antenna a1 is specified. Can be specified accurately. In the example of FIG. 17, it can be seen that the RF tag T2 corresponding to the antenna a1 on the Y-axis plus side is the RF tag T2 on the Y-axis plus side.
  • each feeder 20 may be formed of metal.
  • the first control device 50a determines whether or not the RF tag T2 has been specified for all the antennas a1 (S303).
  • the first control device 50a proceeds to step S203 shown in FIG.
  • the first control device 50a returns to step S301 and continues the processing after step S301 for the remaining antennas a1. .. Specifically, the first control device 50a controls the switching unit 132 to switch the antenna a1 connected to the reading unit 131, and performs the processing after step S301 on the switched antenna a1.
  • the first control device 50a outputs the acquired tag information to the integrated control device 50.
  • the integrated control device 50 determines whether or not the case 10 and the attachment 30 attached to the feeder main body 40 are appropriate based on the tag information (S203).
  • the integrated control device 50 may make a determination in step S203, for example, by collating the tag information with the production data.
  • the types of parts included in the tag information of the case 10 and the attachment 30 attached to the feeder main body 40 and the types of parts attached to the feeder main body 40 included in the production data are different. If they match, the mounting positions of the case 10 and the attachment 30 are appropriate (the case 10 and the attachment 30 are attached to the appropriate feeder main body 40), so that the case 10 and the attachment 30 are determined to be appropriate. (Yes in S203).
  • the integrated control device 50 includes, for example, the types of parts included in the tag information of the case 10 and the attachment 30 attached to the feeder main body 40, and the parts attached to the feeder main body 40 included in the production data. If the types do not match, it is determined that the mounting positions of the case 10 and the attachment 30 are not appropriate (No in S203).
  • the integrated control device 50 makes a determination in step S203 in each of the feeder main body portions 40. It should be noted that the determination as to whether or not the attachment position of the attachment is appropriate may be performed without using the production data.
  • the integrated control device 50 may make a determination in step S203 depending on whether or not the component types of the tag information of the attachment 30 and the tag information of the case 10 match, for example. In addition, when determining whether or not the attachment position of the attachment is appropriate, the production data may be used in the same manner.
  • the first control device 50a opens the cover 32a on the case 10 side of the attachment 30 attached to the carriage 70 of the component mounting device 100 from the open state to the closed state. (S204). At this time, the first control device 50a may also change the cover 11 of the case 10 from the open state to the closed state.
  • the second control device 50b removes the trolley 70 of the component mounting device 100, and the trolley 70 determined to be Yes in step S203 in each of the feeder main body 40 (the trolley 70 in which the case 10 and the attachment 30 are appropriate). Is attached to the component mounting device 100 (S205).
  • the first control device 50a changes the cover 32a on the case side of the attachment 30 of the newly attached trolley 70 from the closed state to the open state (S206). At this time, in the first control device 50a, the cover 11 of the case 10 may also be changed from the closed state to the open state.
  • the feeder 20 having the attachment 30 for accommodating the parts supplied from the case 10 and the feeder 20 for accommodating the parts in a bulk state can be attached and detached.
  • the mounting method includes a mounting process in which the components in the feeder 20 are held by the mounting head 107 and mounted on the substrate 103, and a component replenishment step (S104 to S108) in which the case 10 is replaced with the components remaining in the attachment 30. ) And.
  • the case 10 is an example of the first accommodating portion
  • the attachment 30 is an example of the second accommodating portion.
  • the case 10 can be replaced with the parts remaining in the attachment 30 (specifically, the transport unit 34).
  • the case 10 can be replaced while continuing the mounting with the parts remaining inside the attachment 30. That is, when the case 10 is replaced, it is possible to suppress a decrease in productivity in the mounting process. Therefore, it is possible to suppress a decrease in productivity in the mounting process as compared with the case where the case 10 is replaced after the parts in the attachment 30 are exhausted.
  • the component supply process is executed while the components are mounted on the substrate 103 continuously in time in the mounting process.
  • the case 10 can be replaced while continuing the mounting process, that is, while mounting the components on the substrate 103 continuously in time. That is, the case 10 can be replaced without stopping the mounting process. Therefore, as compared with the case where the mounting process is stopped and the case 10 is replaced, the decrease in productivity can be suppressed more reliably.
  • the cover 11 provided in the opening 15 of the case 10 is opened and closed based on the output of the integrated control device 50 for confirming the remaining number of parts.
  • the integrated control device 50 is an example of a confirmation unit. Further, the output of the integrated control device 50 may be a determination result regarding the remaining number.
  • the cover 11 of the case 10 is opened and closed based on the remaining number of parts (for example, the remaining number of parts in the case 10 or the attachment 30). Therefore, for example, when the case 10 is replaced, other parts are added to the case 10. Can be suppressed from being mixed.
  • the cover 11 is opened and closed based on the type of parts housed in the case 10.
  • the cover 11 of the case can be kept closed, so that the part can be kept closed in the attachment 30. Can be suppressed from being mixed. That is, it is possible to suppress the corresponding work when the parts are mixed in the attachment 30. Therefore, it is possible to suppress a decrease in productivity due to such a corresponding work.
  • the opening 32b of the mounted portion 32 in a state where the case 10 is removed from the mounted portion 32 of the feeder 20 is closed by the cover 32a.
  • the case 10 for accommodating the bulk state parts is detachable, and the feeder 20 has the attachment 30 for accommodating the parts supplied from the case 10.
  • a mounting head 107 that holds the components supplied by the feeder 20 and mounts the components on the substrate 103, and a control unit 51 that controls the replacement of the case with the components remaining on the attachment 30 are provided.
  • the feeder 20 includes a mounted portion 32 to which a case 10 for accommodating bulk parts is detachably attached.
  • the mounted portion 32 has a rod body 33 that acts on the cover 11 provided in the opening 15 of the case 10.
  • the rod body 33 physically acts on the cover 11 in a state where the case 10 is mounted on the mounted portion 32, so that the cover 11 is opened from the closed state.
  • the case 10 is an example of the housing
  • the opening 15 is an example of the first opening
  • the cover 11 is an example of the first cover
  • the rod 33 is an example of the working part.
  • a rod body 33 for opening and closing the cover 11 is provided on the mounted portion 32 included in the feeder 20. Therefore, with the case 10 mounted on the mounted portion 32, the cover 11 can be opened by a physical action (for example, pressing) by the rod body 33. That is, the feeder 20 can open and close the cover 11 without driving the shutter opening / closing plate by the shutter opening / closing lever as in Patent Document 1. Therefore, according to the feeder 20 according to the present embodiment, it is possible to suppress a decrease in workability when opening and closing the cover 11.
  • the mounted portion 32 has a guide portion 39 that engages with a second convex portion 18 that is provided so as to project from the lower surface of the case 10.
  • the guide portion 39 has a support portion 39a that supports both ends of the case 10 in the width direction and a groove portion 39b provided between the support portions 39a, and the length (width w3) of the groove portion 39b in the width direction is set. It is shorter than the length of the case 10 in the width direction (width w2).
  • the second convex portion 18 is an example of the convex portion.
  • the width w2 of the case 10 can be widened as compared with the case where the second convex portion 18 is formed on the side surface of the case 10 (for example, the surface in the Y-axis direction), so that the component in the case 10 can be widened.
  • the mounted portion 32 has a claw portion 37 that can be moved between a first position housed in the mounted portion 32 and a second position protruding from the mounted portion 32. At the second position, the claw portion 37 engages with the engaging portion 13 provided on the lower surface of the case 10 to fix the case 10 to the mounted portion 32.
  • the case 10 can be fixed to the mounted portion 32 by a simple fixing method such as engaging the claw portion 37 of the mounted portion 32 with the engaging portion 13 of the case 10. Further, since the claw portion 37 can move between the first position and the second position, the case 10 can be easily fixed to the mounted portion 32. Therefore, workability when fixing the case 10 to the mounted portion 32 is improved.
  • the cover 11 is rotatably supported about the rotation axis J with respect to the case 10. By pressing the cover 11, the rod body 33 rotates the cover 11 about the rotation axis J.
  • the rod body 33 can open the cover 11 simply by pressing the cover 11. Therefore, workability when the cover 11 is opened is improved.
  • the feeder 20 further includes a transport unit 34 for transporting the parts supplied from the case 10, and a feeder main body portion 40 to which the mounted portion 32 and the transport portion 34 are detachably attached.
  • the transport unit 34 is an example of a parts transport unit.
  • the mounted portion 32 and the transport portion 34 can be provided for each part accommodated in the case 10. Therefore, it is possible to suppress the mixing of parts in the transport unit 34 as compared with the case where the transport unit 34 is shared regardless of the parts.
  • the feeder 20 has a cover 32a provided in the opening 32b formed at a position corresponding to the opening 15 of the case 10 in a state where the mounted portion 32 is mounted on the mounted portion 32.
  • the opening 32b is an example of the second opening, and the cover 32a is an example of the second cover.
  • the opening 32b can be closed by the cover 32a.
  • the opening 32b can be closed by the cover 32a.
  • the case 10 is a case attached to the feeder 20 described above, and the storage chamber 12a for accommodating the parts in a bulk state and the parts from the accommodation chamber 12a to the feeder 20. It is provided with a cover 11 provided in the opening 15 for supplying. The cover 11 is changed from the closed state to the open state by the physical action of the rod body 33 of the mounted portion 32 to which the case 10 is attached / detached.
  • first convex portion 14 provided on the wall surface of the case 10 is further provided.
  • the first convex portion 14 has a positioning portion 14a that determines a gripping position when gripping the first convex portion 14.
  • the first convex portion 14 is an example of the convex portion.
  • accommodation chamber 12a has an inclined surface 16 that inclines downward toward the opening 15.
  • the mounting system 1 includes the feeder 20, the board transport mechanism 102 that transports the substrate 103, and the mounting head 107 that takes out components from the feeder 20 and mounts them on the substrate 103. May be provided.
  • the board transfer mechanism 102 is an example of a board transfer section
  • the mounting head 107 is an example of a component mounting section
  • the board 103 is an example of an object.
  • the mounting system 1 is supplied by the feeder 20 in which the case for accommodating the bulk parts is detachable, the carriage 70 in which the feeder 20 is arranged, and the feeder 20. It is possible to read the information contained in the mounting head 107 that holds the components and mounts them on the object, the RF tag T1 provided on the feeder 20, and the RF tag T2 provided on the case 10, and is provided on the trolley 70.
  • the device 130 may be provided.
  • the dolly 70 is an example of a feeder arrangement portion
  • the RF tag T1 is an example of a first RF tag
  • the RF tag T2 is an example of a second RF tag.
  • the reading device 130 can acquire information (tag information) from each of the two RF tags. For example, by reading the barcode, it is possible to reduce the time and effort required to acquire the tag information. Therefore, workability when acquiring tag information is improved.
  • the reading device 130 has an antenna a1 capable of transmitting and receiving a signal to the RF tag T1 and an antenna a2 capable of transmitting and receiving a signal to the RF tag T2.
  • the antenna a1 is an example of the first antenna
  • the antenna a2 is an example of the second antenna.
  • the mounting system 1 may further include a transmission unit capable of transmitting a signal from the antenna a2 to the RF tag T2 provided in the case 10.
  • the antenna a2 can transmit and receive a signal via the transmission unit even when the signal cannot be directly transmitted and received to the RF tag T2.
  • the transmission unit of the mounting system 1 includes an antenna a3 provided on the feeder 20 and arranged so as to face the RF tag T2, and an antenna a4 provided on the feeder 20 and arranged so as to face the antenna a2. , A cable C3 connecting the antenna a3 and the antenna a4.
  • the antenna a3 is an example of the third antenna
  • the antenna a4 is an example of the fourth antenna.
  • the antenna a2 can transmit and receive signals via the antenna a4, the cable C3, and the antenna a3 even when the signal cannot be directly transmitted and received to the RF tag T2. Further, since the antenna a3 and the antenna a4 are connected by the cable C3, the degree of freedom in the position where the antenna a3 and the antenna a4 are arranged is increased.
  • the dolly 70 is configured so that a plurality of feeders 20 can be arranged.
  • the reading device 130 has an antenna a1 in each of the plurality of feeders 20, and corresponds to the antenna a1 in each of the plurality of antennas a1 based on the strength of the signal received from the RF tag T1 of each of the plurality of feeders 20.
  • the RF tag T1 is determined.
  • the corresponding RF tag T1 can be easily and accurately determined.
  • the feeder 20 may have a feeder main body 40 and an attachment 30 having an attached portion 32 that is detachable to and detachable from the feeder main body 40 and to which the case 10 is detachably attached.
  • the feeder 20 can be separated into the feeder main body 40 and the attachment 30.
  • the attachment 30 for example, by setting the attachment 30 for each component, it is possible to prevent the components from being mixed in the attachment 30.
  • the RF tag T1 is provided in the feeder main body 40, and the reading device 130 has an antenna a4 capable of transmitting and receiving signals to the RF tag T3 provided in the attachment 30.
  • the RF tag T3 is an example of a third RF tag
  • the antenna a5 is an example of a fifth antenna.
  • the tag information of the RF tag T3 provided on the attachment 30 can be acquired more reliably via the antenna a5.
  • the antenna a3 transmits a signal including the information stored in the RF tag T2 to the RF tag T3.
  • tag information can be aggregated in the RF tag T3. That is, it is possible to save the trouble required for reading the tag information. Therefore, it is possible to suppress a decrease in workability.
  • the feeder 20 has a long shape, and the RF tag T2 and the RF tag T3 may be arranged so that at least a part thereof does not overlap in the longitudinal direction of the feeder 20.
  • the trolley 70 has a waiting area A21 in which a feeder, a case or a tape feeder provided with the RF tag T4 stands by.
  • the reading device 130 has an antenna a6 capable of transmitting and receiving signals to and from the RF tag T4.
  • the RF tag T4 is an example of a fourth RF tag
  • the antenna a6 is an example of a sixth antenna.
  • tag information for example, identification information, remaining number information, etc.
  • FIG. 18 is a diagram showing the appearance of the case 210 according to the present modification.
  • FIG. 19 is a diagram schematically showing a state in which the case 210 according to this modification is attached to the feeder main body portion 240.
  • the case 210 according to this modification is different from the case 10 according to the embodiment in that it mainly has a transport portion 234.
  • the case 210 according to the present modification will be described focusing on the differences from the case 10 according to the embodiment.
  • the same or similar configuration as the case 10 according to the embodiment is designated by the same reference numeral as the case 10 according to the embodiment, and the description thereof will be omitted or simplified.
  • the case 210 has a transport unit 234 in addition to the case 10 according to the embodiment. That is, in the case 210, the case main body portion 12 and the transport portion 234 are integrally formed. This is an example in which the transport unit 234 is provided for each part housed in the case 210.
  • the transport unit 234 transports the parts supplied from the case main body 12 to the position where they are taken out by the mounting head 107. In this modification, the transport unit 234 transports the parts from the case main body portion 12 to the opening 235a.
  • the transport unit 234 transports parts by the vibration generated by the vibration generation unit 41.
  • the transport unit 234 is an example of a component transport unit.
  • the cover 235 covers the opening 235a and is in a closed state until mounting is performed.
  • the case 210 may have a cover 11 at the boundary between the case main body portion 12 and the transport portion 234. In FIG. 18, the cover 11 is not shown. The cover 11 may not be provided.
  • the second convex portion 218 is a long convex portion provided from the case main body portion 12 to the lower surface of the transport portion 234.
  • a second convex portion 218 is formed by forming a long notch 219 in the longitudinal direction of the case 210 from the case main body portion 12 to the lower surface of the transport portion 234.
  • the feeder main body 240 is an object to which the case 210 can be attached and detached.
  • the feeder main body 240 has a rod body 246 in addition to the feeder main body 40 according to the embodiment. Further, the feeder main body 240 has a drive unit 245 instead of the drive unit 45.
  • the drive unit 245 moves the rod body 246 provided so as to press one end of the cover 11 along the X-axis direction under the control of the control unit 51.
  • the drive unit 245 brings the cover 11 from the closed state to the open state by physically acting the rod body 246 on the cover 11 in a state where the case 210 is attached to the feeder main body unit 240.
  • the drive unit 245 is realized by, for example, an actuator.
  • the rod body 246 is an example of an acting portion that acts on the cover 11 provided in the opening 15 of the case 10.
  • the drive unit 245 may have the function of the drive unit 45 according to the embodiment.
  • the transport unit 234 is integrated with the case 210, so that the step of attaching the case and the attachment can be omitted, so that the deterioration of workability can be further suppressed.
  • FIG. 20 is a diagram schematically showing how the case 10 according to this modification is attached to the attachment 330.
  • the attachment 330 according to the present modification is different from the attachment 30 according to the embodiment in that it mainly has a cover 333 that changes from the closed state to the open state in conjunction with the case 10 being attached to the attachment 330.
  • the attachment 330 according to the present modification will be described focusing on the differences from the attachment 30 according to the embodiment.
  • the same or similar configuration as the attachment 30 according to the embodiment is designated by the same reference numeral as the attachment 30 according to the embodiment, and the description thereof will be omitted or simplified.
  • FIG. 20A shows a state in which the case 10 is being attached to the attachment 330.
  • the attachment 330 is provided in the opening 32b (see FIG. 20 (b)) and has a cover 333 that opens and closes by moving in the X-axis direction.
  • the cover 333 moves along the direction in which the case 10 extends (X-axis direction) by being physically acted on by the case 10.
  • the cover 333 has an inclined surface 333a corresponding to the inclined surface 330a formed inside the mounted portion 332. At least a part of the inclined surfaces 330a and 333a are in contact with each other.
  • FIG. 20B shows a state in which the case 10 is attached to the attachment 330.
  • the cover 333 moves along the inclination of the inclined surface 330a by moving the case 10 to the plus side of the X-axis.
  • the cover 333 moves to the upper right. Therefore, the opening 32b appears below the cover 333.
  • the parts from the case 10 are supplied to the transport portion 34 of the attachment 330 through the opening 32b.
  • the attachment 330 includes a mounted portion 332 to which the case 10 for accommodating the bulk parts is detachably attached.
  • the case 10 has a side surface 10a (an example of the acting portion) that acts on the cover 333 provided in the opening 32b of the mounted portion 332.
  • the side surface 10a physically acts on the cover 333 according to the operation of the case 10 being attached to the attachment 330, thereby changing the cover 333 from the closed state to the open state.
  • the cover 333 changes from the closed state to the open state in conjunction with the operation in which the case 10 is attached to the attachment 330.
  • the side surface 10a may be configured to include, for example, the cover 11.
  • a spring for urging the cover 333 of the attachment downward may be provided on the attachment, and the cover 333 may move along the inclined surface 333a by the urging force of the spring.
  • the cover 333 of the attachment 330 can be opened from the closed state by simply attaching the case 10 to the attachment 330 without performing an operation for opening and closing the cover 333, so that workability is reduced. It is further suppressed.
  • the attachment 330 may have a relay chamber 334 formed between the transport unit 34 to which the parts are transported and the case 10.
  • the relay chamber 334 is provided on a supply path in which parts are supplied from the opening 15 of the case 10 to the transport unit 34.
  • the sensor 140 may be provided, for example, so as to be able to detect a component in the relay chamber 334.
  • the case 10 (an example of the first accommodating portion) is based on the output of the sensor 140 provided in the relay chamber 334.
  • the cover 11 provided in the opening 15 may be opened and closed (corresponding to steps S104 and S108 shown in FIG. 13).
  • the attachment 30 of the mounting system 1 according to this modification has a relay chamber 334 between the transport unit 34 to which the parts are transported and the case 10.
  • the integrated control device 50 confirms the remaining number of parts in the relay chamber 334 in the parts supply step.
  • the attachment 30 is an example of a second accommodating unit
  • the transport unit 34 is an example of a parts transport unit
  • the integrated control device 50 is an example of a confirmation unit.
  • FIG. 21 is a diagram for explaining the opening and closing of the cover 433 of the attachment 430 according to the present modification.
  • FIG. 21 is a schematic partial cross-sectional view of the case 10 and the attachment 430 according to the modified example cut in the XZ plane.
  • the attachment 430 according to the present modification is the attachment 30 according to the embodiment in that the cover 433 of the attachment 430 is configured to open and close in conjunction with the opening and closing of the cover 11 of the case 10. It's different.
  • the attachment 430 according to the present modification will be described focusing on the differences from the attachment 30 according to the embodiment. Further, the same or similar configuration as the attachment 30 according to the embodiment is designated by the same reference numeral as the attachment 30 according to the embodiment, and the description thereof will be omitted or simplified.
  • the cover 433 is provided so as to cover the opening 433a.
  • the cover 433 comes into contact with the cover 11 due to the urging force of the elastic body 434.
  • the elastic body 434 is, for example, a coil spring, but is not limited thereto.
  • a part of the lower surface (the surface on the minus side of the Z axis) of the cover 433 covers the opening 433a (exposed to the transport portion 34).
  • the cover 433 is an example of the second cover.
  • FIG. 21B shows a state in which the collation is successful, the rod body 33 is pushed out by the drive unit 45, and the cover 11 is rotated clockwise by the rod body 33.
  • the cover 11 and the cover 433 are in contact with each other, the cover 11 moves (slides) to the X-axis plus side against the urging force of the elastic body 434 by the rotation of the cover 11.
  • the cover 433 also changes from the closed state to the open state in conjunction with the change of the cover 11 from the closed state to the open state.
  • the elastic body 434 may have a spring constant such that the cover 433 can be moved by the rotation of the cover 11. Further, from the viewpoint of suppressing component clogging in the opening 433a, the cover 433 is X-axis by the cover 11 when the length L or less of the lower surface portion exposed to the transport portion 34 when the cover 433 is closed in the X-axis direction. It should be configured so that it can be moved to the plus side.
  • the cover 11 when the cover 11 is closed, the rod body 33 is pushed back by the drive unit 45, and the cover 11 rotates counterclockwise.
  • the cover 433 receives the urging force of the elastic body 434 and the X-axis minus moves to the side (slide).
  • the cover 433 also changes from the open state to the closed state in conjunction with the change of the cover 11 from the open state to the closed state.
  • the cover 11 is configured to be in the closed state from the open state and to drop the parts adhering to the side surface of the cover 433 to the transport portion 34.
  • the cover 433 according to the present modification opens and closes in conjunction with the opening and closing of the cover 11 by the cover 11 (an example of the working portion). It can be said that the cover 433 opens and closes by the physical action of the cover 11.
  • the cover 433 closes and opens in conjunction with the opening and closing of the cover 11 by the rod body 33.
  • the cover 433 is an example of the second cover
  • the rod 33 is an example of the working portion
  • the cover 11 is an example of the first cover.
  • the cover 433 can be opened and closed without performing an operation (or control) for opening and closing the cover 433, which reduces workability. Can be further suppressed.
  • the present invention is not limited to this, and the acting portion may be provided on the case 10.
  • the acting portion provided in the case 10 physically acts on the cover 433 of the mounted portion 432 to open the cover 433.
  • the cover 11 of the case 10 is in contact with the cover 433 and may be opened in conjunction with the opening of the cover 433. In this case, the cover 11 may rotate inside the case 10. Further, the cover 11 may be closed in conjunction with the closing of the cover 433.
  • the cover 433 is an example of the first cover
  • the cover 11 is an example of the second cover.
  • the control device uses a transfer robot to replace the case, and prepares and replaces the supply unit in advance, but the present invention is not limited to this.
  • the control device may offer the worker to replace the case, as well as prepare and replace the supply unit via the presentation device.
  • the presenting device is, for example, a display device such as a liquid crystal display, but may be a sound output device or the like.
  • control device in the above embodiment and the like and the components to be controlled is not particularly limited, and is performed by wired communication. It may be performed by wireless communication. Wireless communication may be performed using Wi-Fi®, Bluetooth®, ZigBee, optical communication, or specified low power radio.
  • the feeder arrangement portion may be a fixed holding base (for example, a holding base attached to a mounting line) or the like. That is, the feeder arrangement portion is not limited to the movable one.
  • the transport unit has described an example of transporting parts by the vibration of the vibration generating portion, but the method of transporting the parts is not limited to this.
  • the transport unit may transport parts by, for example, air supply, magnetic force, conveyor, or the like.
  • the reading device provided on the trolley in the above-described embodiment or the like can simultaneously acquire the tag information transmitted from the plurality of RF tags, and the information to be written in the RF tag can be written in the plurality of RF tags. It may be realized by a reader / writer that can transmit at the same time.
  • the acting portion acting on the cover presses the cover, but the acting portion is not limited to pressing. ..
  • the action may be that the acting portion pulls the cover (pulling in the plus direction of the X-axis in the example of FIG. 6) in a state where the acting portion and the cover are engaged with each other.
  • the cover is rotated clockwise about the axis of rotation J to expose the opening 15.
  • the action of the acting part on the cover also includes the indirect action of the acting part on the cover.
  • the general or specific aspects of the present disclosure may be realized by a recording medium such as a system, an apparatus, a method, an integrated circuit, a computer program, or a computer-readable CD-ROM. Further, it may be realized by any combination of a system, an apparatus, a method, an integrated circuit, a computer program and a recording medium.
  • the division of functional blocks in the block diagram is an example, and multiple functional blocks can be realized as one functional block, one functional block can be divided into multiple, and some functions can be transferred to other functional blocks. You may. Further, the functions of a plurality of functional blocks having similar functions may be processed by a single hardware or software in parallel or in a time division manner.
  • each component for example, a processing unit such as a control unit
  • each component is realized by being configured with dedicated hardware or by executing a software program suitable for each component. May be good.
  • Each component may be realized by a program execution unit such as a CPU (Central Processing Unit) or a processor reading and executing a software program recorded on a recording medium such as a hard disk or a semiconductor memory.
  • each component may be a circuit (or an integrated circuit). These circuits may form one circuit as a whole, or may be separate circuits from each other. Further, each of these circuits may be a general-purpose circuit or a dedicated circuit.
  • This disclosure can be used for systems and methods for producing a mounting board by mounting a component on a board.

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

Abstract

Procédé de montage destiné à un système de montage (1) comprenant : un dispositif d'alimentation (20) pour lequel un boîtier (10) qui loge des pièces en vrac est détachable, et qui présente un accessoire (30) qui loge les pièces apportées depuis le boîtier (10); et une tête de montage (107) qui maintient les pièces apportées par le dispositif d'alimentation (20) et qui monte les pièces sur un substrat (103). Le procédé de montage comprend une étape de montage pour maintenir les pièces à l'intérieur du dispositif d'alimentation (20) et monter les pièces sur le substrat (103) à l'aide de la tête de montage (107), et des étapes d'alimentation en pièces (S104 à S108) pour échanger le boîtier (10) dans un état par des pièces restant dans l'accessoire (30).
PCT/JP2021/025873 2020-08-31 2021-07-08 Procédé de montage et système de montage WO2022044563A1 (fr)

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JP2020145252 2020-08-31

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Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023189623A1 (fr) * 2022-03-30 2023-10-05 パナソニックIpマネジメント株式会社 Système d'instruction, procédé d'instruction et programme

Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08274496A (ja) * 1995-03-30 1996-10-18 Tdk Corp チップ部品供給装置及び該装置に用いるチップ部品供給ケース
JPH08293697A (ja) * 1995-04-21 1996-11-05 Sony Corp バルクカセット
JPH10335888A (ja) * 1997-06-04 1998-12-18 Juki Corp バルクフィーダーにおけるバルクカセット誤挿入防止方法
JPH1174693A (ja) * 1997-08-27 1999-03-16 Tdk Corp チップ部品供給システム
JP2009295618A (ja) * 2008-06-02 2009-12-17 Taiyo Yuden Co Ltd バルクフィーダ用の部品補充システム

Patent Citations (5)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
JPH08274496A (ja) * 1995-03-30 1996-10-18 Tdk Corp チップ部品供給装置及び該装置に用いるチップ部品供給ケース
JPH08293697A (ja) * 1995-04-21 1996-11-05 Sony Corp バルクカセット
JPH10335888A (ja) * 1997-06-04 1998-12-18 Juki Corp バルクフィーダーにおけるバルクカセット誤挿入防止方法
JPH1174693A (ja) * 1997-08-27 1999-03-16 Tdk Corp チップ部品供給システム
JP2009295618A (ja) * 2008-06-02 2009-12-17 Taiyo Yuden Co Ltd バルクフィーダ用の部品補充システム

Cited By (1)

* Cited by examiner, † Cited by third party
Publication number Priority date Publication date Assignee Title
WO2023189623A1 (fr) * 2022-03-30 2023-10-05 パナソニックIpマネジメント株式会社 Système d'instruction, procédé d'instruction et programme

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